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postgresql/src/backend/utils/time/tqual.c

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Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
/*-------------------------------------------------------------------------
*
Change my-function-name-- to my_function_name, and optimizer renames.
1999-02-14 00:22:53 +01:00
* tqual.c
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* POSTGRES "time qualification" code, ie, tuple visibility rules.
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
* NOTE: all the HeapTupleSatisfies routines will update the tuple's
* "hint" status bits if we see that the inserting or deleting transaction
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
* has now committed or aborted (and it is safe to set the hint bits).
Allow I/O reliability checks using 16-bit checksums Checksums are set immediately prior to flush out of shared buffers and checked when pages are read in again. Hint bit setting will require full page write when block is dirtied, which causes various infrastructure changes. Extensive comments, docs and README. WARNING message thrown if checksum fails on non-all zeroes page; ERROR thrown but can be disabled with ignore_checksum_failure = on. Feature enabled by an initdb option, since transition from option off to option on is long and complex and has not yet been implemented. Default is not to use checksums. Checksum used is WAL CRC-32 truncated to 16-bits. Simon Riggs, Jeff Davis, Greg Smith Wide input and assistance from many community members. Thank you.
2013-03-22 14:54:07 +01:00
* If the hint bits are changed, MarkBufferDirtyHint is called on
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
* the passed-in buffer. The caller must hold not only a pin, but at least
* shared buffer content lock on the buffer containing the tuple.
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
*
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* NOTE: When using a non-MVCC snapshot, we must check
* TransactionIdIsInProgress (which looks in the PGXACT array)
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
* before TransactionIdDidCommit/TransactionIdDidAbort (which look in
* pg_clog). Otherwise we have a race condition: we might decide that a
* just-committed transaction crashed, because none of the tests succeed.
* xact.c is careful to record commit/abort in pg_clog before it unsets
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* MyPgXact->xid in the PGXACT array. That fixes that problem, but it
* also means there is a window where TransactionIdIsInProgress and
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
* TransactionIdDidCommit will both return true. If we check only
* TransactionIdDidCommit, we could consider a tuple committed when a
* later GetSnapshotData call will still think the originating transaction
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* is in progress, which leads to application-level inconsistency. The
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
* upshot is that we gotta check TransactionIdIsInProgress first in all
* code paths, except for a few cases where we are looking at
* subtransactions of our own main transaction and so there can't be any
* race condition.
*
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* When using an MVCC snapshot, we rely on XidInMVCCSnapshot rather than
* TransactionIdIsInProgress, but the logic is otherwise the same: do not
* check pg_clog until after deciding that the xact is no longer in progress.
*
*
Add summarization comment about visibility functions. Add URL about the Halloween problem.
2009-03-09 14:08:05 +01:00
* Summary of visibility functions:
*
8.4 pgindent run, with new combined Linux/FreeBSD/MinGW typedef list provided by Andrew.
2009-06-11 16:49:15 +02:00
* HeapTupleSatisfiesMVCC()
* visible to supplied snapshot, excludes current command
* HeapTupleSatisfiesUpdate()
Remove SnapshotNow and HeapTupleSatisfiesNow. We now use MVCC catalog scans, and, per discussion, have eliminated all other remaining uses of SnapshotNow, so that we can now get rid of it. This will break third-party code which is still using it, which is intentional, as we want such code to be updated to do things the new way.
2013-08-01 16:46:19 +02:00
* visible to instant snapshot, with user-supplied command
8.4 pgindent run, with new combined Linux/FreeBSD/MinGW typedef list provided by Andrew.
2009-06-11 16:49:15 +02:00
* counter and more complex result
* HeapTupleSatisfiesSelf()
* visible to instant snapshot and current command
* HeapTupleSatisfiesDirty()
* like HeapTupleSatisfiesSelf(), but includes open transactions
* HeapTupleSatisfiesVacuum()
* visible to any running transaction, used by VACUUM
* HeapTupleSatisfiesToast()
* visible unless part of interrupted vacuum, used for TOAST
* HeapTupleSatisfiesAny()
* all tuples are visible
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
*
Update copyright for 2016 Backpatch certain files through 9.1
2016-01-02 19:33:40 +01:00
* Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group
Add: * Portions Copyright (c) 1996-2000, PostgreSQL, Inc to all files copyright Regents of Berkeley. Man, that's a lot of files.
2000-01-26 06:58:53 +01:00
* Portions Copyright (c) 1994, Regents of the University of California
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
*
* IDENTIFICATION
Remove cvs keywords from all files.
2010-09-20 22:08:53 +02:00
* src/backend/utils/time/tqual.c
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
Split tuple struct defs from htup.h to htup_details.h This reduces unnecessary exposure of other headers through htup.h, which is very widely included by many files. I have chosen to move the function prototypes to the new file as well, because that means htup.h no longer needs to include tupdesc.h. In itself this doesn't have much effect in indirect inclusion of tupdesc.h throughout the tree, because it's also required by execnodes.h; but it's something to explore in the future, and it seemed best to do the htup.h change now while I'm busy with it.
2012-08-30 22:15:44 +02:00
#include "access/htup_details.h"
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
#include "access/multixact.h"
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
#include "access/subtrans.h"
Allow include files to compile own their own. Strip unused include files out unused include files, and add needed includes to C files. The next step is to remove unused include files in C files.
2006-07-13 18:49:20 +02:00
#include "access/transam.h"
#include "access/xact.h"
Move the backup-block logic from XLogInsert to a new file, xloginsert.c. xlog.c is huge, this makes it a little bit smaller, which is nice. Functions related to putting together the WAL record are in xloginsert.c, and the lower level stuff for managing WAL buffers and such are in xlog.c. Also move the definition of XLogRecord to a separate header file. This causes churn in the #includes of all the files that write WAL records, and redo routines, but it avoids pulling in xlog.h into most places. Reviewed by Michael Paquier, Alvaro Herrera, Andres Freund and Amit Kapila.
2014-11-06 12:52:08 +01:00
#include "access/xlog.h"
More include file adjustments.
2006-07-13 19:47:02 +02:00
#include "storage/bufmgr.h"
Split the shared-memory array of PGPROC pointers out of the sinval communication structure, and make it its own module with its own lock. This should reduce contention at least a little, and it definitely makes the code seem cleaner. Per my recent proposal.
2005-05-19 23:35:48 +02:00
#include "storage/procarray.h"
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
#include "utils/builtins.h"
#include "utils/combocid.h"
#include "utils/snapmgr.h"
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
#include "utils/tqual.h"
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
/* Static variables representing various special snapshot semantics */
SnapshotData SnapshotSelfData = {HeapTupleSatisfiesSelf};
SnapshotData SnapshotAnyData = {HeapTupleSatisfiesAny};
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
/* local functions */
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
static bool XidInMVCCSnapshot(TransactionId xid, Snapshot snapshot);
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
/*
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
* SetHintBits()
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
*
* Set commit/abort hint bits on a tuple, if appropriate at this time.
*
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
* It is only safe to set a transaction-committed hint bit if we know the
Allow SetHintBits() to succeed if the buffer's LSN is new enough. Previously we only allowed SetHintBits() to succeed if the commit LSN of the last transaction touching the page has already been flushed to disk. We can't generally change the LSN of the page, because we don't necessarily have the required locks on the page. But the required LSN interlock does not mean the commit record has to be flushed immediately, it just requires that the commit record will be flushed before the page is written out. Therefore if the buffer LSN is newer than the commit LSN, the hint bit can be safely set. In a number of scenarios (e.g. pgbench) this noticeably increases the number of hint bits are set. But more importantly it also keeps the success rate up when flushing WAL less frequently. That was the original reason for commit 4de82f7d7, which has negative performance consequences in a number of scenarios. This will allow a followup commit to reduce the flush rate. Discussion: 20160118163908.GW10941@awork2.anarazel.de
2016-02-15 22:15:35 +01:00
* transaction's commit record is guaranteed to be flushed to disk before the
* buffer, or if the table is temporary or unlogged and will be obliterated by
* a crash anyway. We cannot change the LSN of the page here, because we may
* hold only a share lock on the buffer, so we can only use the LSN to
* interlock this if the buffer's LSN already is newer than the commit LSN;
* otherwise we have to just refrain from setting the hint bit until some
* future re-examination of the tuple.
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
*
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* We can always set hint bits when marking a transaction aborted. (Some
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
* code in heapam.c relies on that!)
*
* Also, if we are cleaning up HEAP_MOVED_IN or HEAP_MOVED_OFF entries, then
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
* we can always set the hint bits, since pre-9.0 VACUUM FULL always used
Remove old-style VACUUM FULL (which was known for a little while as VACUUM FULL INPLACE), along with a boatload of subsidiary code and complexity. Per discussion, the use case for this method of vacuuming is no longer large enough to justify maintaining it; not to mention that we don't wish to invest the work that would be needed to make it play nicely with Hot Standby. Aside from the code directly related to old-style VACUUM FULL, this commit removes support for certain WAL record types that could only be generated within VACUUM FULL, redirect-pointer removal in heap_page_prune, and nontransactional generation of cache invalidation sinval messages (the last being the sticking point for Hot Standby). We still have to retain all code that copes with finding HEAP_MOVED_OFF and HEAP_MOVED_IN flag bits on existing tuples. This can't be removed as long as we want to support in-place update from pre-9.0 databases.
2010-02-08 05:33:55 +01:00
* synchronous commits and didn't move tuples that weren't previously
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* hinted. (This is not known by this subroutine, but is applied by its
Remove old-style VACUUM FULL (which was known for a little while as VACUUM FULL INPLACE), along with a boatload of subsidiary code and complexity. Per discussion, the use case for this method of vacuuming is no longer large enough to justify maintaining it; not to mention that we don't wish to invest the work that would be needed to make it play nicely with Hot Standby. Aside from the code directly related to old-style VACUUM FULL, this commit removes support for certain WAL record types that could only be generated within VACUUM FULL, redirect-pointer removal in heap_page_prune, and nontransactional generation of cache invalidation sinval messages (the last being the sticking point for Hot Standby). We still have to retain all code that copes with finding HEAP_MOVED_OFF and HEAP_MOVED_IN flag bits on existing tuples. This can't be removed as long as we want to support in-place update from pre-9.0 databases.
2010-02-08 05:33:55 +01:00
* callers.) Note: old-style VACUUM FULL is gone, but we have to keep this
* module's support for MOVED_OFF/MOVED_IN flag bits for as long as we
* support in-place update from pre-9.0 databases.
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
*
* Normal commits may be asynchronous, so for those we need to get the LSN
* of the transaction and then check whether this is flushed.
*
* The caller should pass xid as the XID of the transaction to check, or
* InvalidTransactionId if no check is needed.
*/
static inline void
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(HeapTupleHeader tuple, Buffer buffer,
uint16 infomask, TransactionId xid)
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
{
if (TransactionIdIsValid(xid))
{
/* NB: xid must be known committed here! */
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
XLogRecPtr commitLSN = TransactionIdGetCommitLSN(xid);
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
Allow SetHintBits() to succeed if the buffer's LSN is new enough. Previously we only allowed SetHintBits() to succeed if the commit LSN of the last transaction touching the page has already been flushed to disk. We can't generally change the LSN of the page, because we don't necessarily have the required locks on the page. But the required LSN interlock does not mean the commit record has to be flushed immediately, it just requires that the commit record will be flushed before the page is written out. Therefore if the buffer LSN is newer than the commit LSN, the hint bit can be safely set. In a number of scenarios (e.g. pgbench) this noticeably increases the number of hint bits are set. But more importantly it also keeps the success rate up when flushing WAL less frequently. That was the original reason for commit 4de82f7d7, which has negative performance consequences in a number of scenarios. This will allow a followup commit to reduce the flush rate. Discussion: 20160118163908.GW10941@awork2.anarazel.de
2016-02-15 22:15:35 +01:00
if (BufferIsPermanent(buffer) && XLogNeedsFlush(commitLSN) &&
BufferGetLSNAtomic(buffer) < commitLSN)
{
/* not flushed and no LSN interlock, so don't set hint */
return;
}
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
}
tuple->t_infomask |= infomask;
Add buffer_std flag to MarkBufferDirtyHint(). MarkBufferDirtyHint() writes WAL, and should know if it's got a standard buffer or not. Currently, the only callers where buffer_std is false are related to the FSM. In passing, rename XLOG_HINT to XLOG_FPI, which is more descriptive. Back-patch to 9.3.
2013-06-17 17:02:12 +02:00
MarkBufferDirtyHint(buffer, true);
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
/*
* HeapTupleSetHintBits --- exported version of SetHintBits()
*
* This must be separate because of C99's brain-dead notions about how to
* implement inline functions.
*/
void
HeapTupleSetHintBits(HeapTupleHeader tuple, Buffer buffer,
uint16 infomask, TransactionId xid)
{
SetHintBits(tuple, buffer, infomask, xid);
}
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
/*
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* HeapTupleSatisfiesSelf
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* True iff heap tuple is valid "for itself".
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
*
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* Here, we consider the effects of:
* all committed transactions (as of the current instant)
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* previous commands of this transaction
* changes made by the current command
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
*
* Note:
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
* Assumes heap tuple is valid.
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
* The satisfaction of "itself" requires the following:
*
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
* ((Xmin == my-transaction && the row was updated by the current transaction, and
* (Xmax is null it was not deleted
* [|| Xmax != my-transaction)]) [or it was deleted by another transaction]
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
* ||
*
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
* (Xmin is committed && the row was modified by a committed transaction, and
* (Xmax is null || the row has not been deleted, or
* (Xmax != my-transaction && the row was deleted by another transaction
* Xmax is not committed))) that has not been committed
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
*/
Inline some small functions called for every row.
1998-04-24 16:43:33 +02:00
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesSelf(HeapTuple htup, Snapshot snapshot, Buffer buffer)
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return false;
pgindent run before 6.3 release, with Thomas' requested changes.
1998-02-26 05:46:47 +01:00
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
}
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
{
Good Bye, Time Travel!
1997-11-02 16:27:14 +01:00
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return true;
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else
return false;
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
{
Change tqual.c tests to use !TransactionIdIsCurrentTransactionId, rather than TransactionIdDidAbort, when handling the case that xmin is one of the current transaction's XIDs and the tuple has been deleted. xmax must also be one of the current transaction's XIDs, since no one else can see it yet, and it's cheaper to look at local state than shared state to find out if xmax aborted. Per an idea of Heikki's.
2007-09-21 20:24:28 +02:00
/* deleting subtransaction must have aborted */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
return true;
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
}
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return false;
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return false;
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
HeapTupleHeaderGetRawXmin(tuple));
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return false;
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
}
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
}
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
/* by here, the inserting transaction has committed */
From: Dan McGuirk <mcguirk@indirect.com> Reply-To: hackers@hub.org, Dan McGuirk <mcguirk@indirect.com> To: hackers@hub.org Subject: [HACKERS] tmin writeback optimization I was doing some profiling of the backend, and noticed that during a certain benchmark I was running somewhere between 30% and 75% of the backend's CPU time was being spent in calls to TransactionIdDidCommit() from HeapTupleSatisfiesNow() or HeapTupleSatisfiesItself() to determine that changed rows' transactions had in fact been committed even though the rows' tmin values had not yet been set. When a query looks at a given row, it needs to figure out whether the transaction that changed the row has been committed and hence it should pay attention to the row, or whether on the other hand the transaction is still in progress or has been aborted and hence the row should be ignored. If a tmin value is set, it is known definitively that the row's transaction has been committed. However, if tmin is not set, the transaction referred to in xmin must be looked up in pg_log, and this is what the backend was spending a lot of time doing during my benchmark. So, implementing a method suggested by Vadim, I created the following patch that, the first time a query finds a committed row whose tmin value is not set, sets it, and marks the buffer where the row is stored as dirty. (It works for tmax, too.) This doesn't result in the boost in real time performance I was hoping for, however it does decrease backend CPU usage by up to two-thirds in certain situations, so it could be rather beneficial in high-concurrency settings.
1997-03-28 08:06:53 +01:00
Good Bye, Time Travel!
1997-11-02 16:27:14 +01:00
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return true;
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
Good Bye, Time Travel!
1997-11-02 16:27:14 +01:00
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return true;
pgindent run over code.
1999-05-25 18:15:34 +02:00
return false; /* updated by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Good Bye, Time Travel!
1997-11-02 16:27:14 +01:00
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
return true;
if (TransactionIdDidCommit(xmax))
return false;
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* it must have aborted or crashed */
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return true;
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return false;
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return true;
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
}
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
/* xmax transaction committed */
Massive commit to run PGINDENT on all *.c and *.h files.
1997-09-07 07:04:48 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return true;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
HeapTupleHeaderGetRawXmax(tuple));
Renaming cleanup, no pgindent yet.
1998-09-01 05:29:17 +02:00
return false;
Postgres95 1.01 Distribution - Virgin Sources
1996-07-09 08:22:35 +02:00
}
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
/*
* HeapTupleSatisfiesAny
* Dummy "satisfies" routine: any tuple satisfies SnapshotAny.
*/
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesAny(HeapTuple htup, Snapshot snapshot, Buffer buffer)
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
{
return true;
}
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
/*
* HeapTupleSatisfiesToast
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* True iff heap tuple is valid as a TOAST row.
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*
* This is a simplified version that only checks for VACUUM moving conditions.
* It's appropriate for TOAST usage because TOAST really doesn't want to do
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* its own time qual checks; if you can see the main table row that contains
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* a TOAST reference, you should be able to see the TOASTed value. However,
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
* vacuuming a TOAST table is independent of the main table, and in case such
* a vacuum fails partway through, we'd better do this much checking.
*
* Among other things, this means you can't do UPDATEs of rows in a TOAST
* table.
*/
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesToast(HeapTuple htup, Snapshot snapshot,
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
Buffer buffer)
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
return false;
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsInProgress(xvac))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
return false;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
}
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsCurrentTransactionId(xvac))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
else
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
return false;
}
}
}
pgindent run for 9.5
2015-05-24 03:35:49 +02:00
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
/*
* An invalid Xmin can be left behind by a speculative insertion that
Adjust spellings of forms of "cancel"
2016-07-15 04:48:26 +02:00
* is canceled by super-deleting the tuple. We shouldn't see any of
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
* those in TOAST tables, but better safe than sorry.
*/
else if (!TransactionIdIsValid(HeapTupleHeaderGetXmin(tuple)))
return false;
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
}
/* otherwise assume the tuple is valid for TOAST. */
return true;
}
/*
* HeapTupleSatisfiesUpdate
*
Remove SnapshotNow and HeapTupleSatisfiesNow. We now use MVCC catalog scans, and, per discussion, have eliminated all other remaining uses of SnapshotNow, so that we can now get rid of it. This will break third-party code which is still using it, which is intentional, as we want such code to be updated to do things the new way.
2013-08-01 16:46:19 +02:00
* This function returns a more detailed result code than most of the
* functions in this file, since UPDATE needs to know more than "is it
* visible?". It also allows for user-supplied CommandId rather than
* relying on CurrentCommandId.
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
*
* The possible return codes are:
*
* HeapTupleInvisible: the tuple didn't exist at all when the scan started,
* e.g. it was created by a later CommandId.
*
* HeapTupleMayBeUpdated: The tuple is valid and visible, so it may be
* updated.
*
* HeapTupleSelfUpdated: The tuple was updated by the current transaction,
* after the current scan started.
*
* HeapTupleUpdated: The tuple was updated by a committed transaction.
*
* HeapTupleBeingUpdated: The tuple is being updated by an in-progress
Repair two related errors in heap_lock_tuple: it was failing to recognize cases where we already hold the desired lock "indirectly", either via membership in a MultiXact or because the lock was originally taken by a different subtransaction of the current transaction. These cases must be accounted for to avoid needless deadlocks and/or inappropriate replacement of an exclusive lock with a shared lock. Per report from Clarence Gardner and subsequent investigation.
2006-11-17 19:00:15 +01:00
* transaction other than the current transaction. (Note: this includes
* the case where the tuple is share-locked by a MultiXact, even if the
* MultiXact includes the current transaction. Callers that want to
* distinguish that case must test for it themselves.)
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*/
Change the return value of HeapTupleSatisfiesUpdate() to be an enum, rather than an integer, and fix the associated fallout. From Alvaro Herrera.
2005-03-21 00:40:34 +01:00
HTSU_Result
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesUpdate(HeapTuple htup, CommandId curcid,
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
Buffer buffer)
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleInvisible;
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
if (tuple->t_infomask & HEAP_MOVED_OFF)
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
return HeapTupleInvisible;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HeapTupleInvisible;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HeapTupleInvisible;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HeapTupleInvisible;
}
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmin(tuple) >= curcid)
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
return HeapTupleInvisible; /* inserted after scan started */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
pgindent run.
2002-09-04 22:31:48 +02:00
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleMayBeUpdated;
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
TransactionId xmax;
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
xmax = HeapTupleHeaderGetRawXmax(tuple);
/*
* Careful here: even though this tuple was created by our own
* transaction, it might be locked by other transactions, if
* the original version was key-share locked when we updated
* it.
*/
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
if (MultiXactIdIsRunning(xmax, true))
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
return HeapTupleBeingUpdated;
else
return HeapTupleMayBeUpdated;
}
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
/*
* If the locker is gone, then there is nothing of interest
* left in this Xmax; otherwise, report the tuple as
* locked/updated.
*/
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
if (!TransactionIdIsInProgress(xmax))
return HeapTupleMayBeUpdated;
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
return HeapTupleBeingUpdated;
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
/* deleting subtransaction must have aborted */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdIsCurrentTransactionId(xmax))
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
{
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple),
pgindent run for 9.5
2015-05-24 03:35:49 +02:00
false))
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
return HeapTupleBeingUpdated;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
return HeapTupleMayBeUpdated;
Don't ignore tuple locks propagated by our updates If a tuple was locked by transaction A, and transaction B updated it, the new version of the tuple created by B would be locked by A, yet visible only to B; due to an oversight in HeapTupleSatisfiesUpdate, the lock held by A wouldn't get checked if transaction B later deleted (or key-updated) the new version of the tuple. This might cause referential integrity checks to give false positives (that is, allow deletes that should have been rejected). This is an easy oversight to have made, because prior to improved tuple locks in commit 0ac5ad5134f it wasn't possible to have tuples created by our own transaction that were also locked by remote transactions, and so locks weren't even considered in that code path. It is recommended that foreign keys be rechecked manually in bulk after installing this update, in case some referenced rows are missing with some referencing row remaining. Per bug reported by Daniel Wood in CAPweHKe5QQ1747X2c0tA=5zf4YnS2xcvGf13Opd-1Mq24rF1cQ@mail.gmail.com
2013-12-18 17:31:27 +01:00
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
else
{
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
return HeapTupleSelfUpdated; /* updated after scan
* started */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
else
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
return HeapTupleInvisible; /* updated before scan
* started */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
}
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
{
Change tqual.c tests to use !TransactionIdIsCurrentTransactionId, rather than TransactionIdDidAbort, when handling the case that xmin is one of the current transaction's XIDs and the tuple has been deleted. xmax must also be one of the current transaction's XIDs, since no one else can see it yet, and it's cheaper to look at local state than shared state to find out if xmax aborted. Per an idea of Heikki's.
2007-09-21 20:24:28 +02:00
/* deleting subtransaction must have aborted */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
return HeapTupleMayBeUpdated;
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
}
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
return HeapTupleSelfUpdated; /* updated after scan started */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
else
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
return HeapTupleInvisible; /* updated before scan started */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleInvisible;
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
HeapTupleHeaderGetRawXmin(tuple));
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return HeapTupleInvisible;
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
/* by here, the inserting transaction has committed */
pgindent run.
2002-09-04 22:31:48 +02:00
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleMayBeUpdated;
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleMayBeUpdated;
Another pgindent run. Fixes enum indenting, and improves #endif spacing. Also adds space for one-line comments.
2001-10-28 07:26:15 +01:00
return HeapTupleUpdated; /* updated by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Fix handling of multixacts predating pg_upgrade After pg_upgrade, it is possible that some tuples' Xmax have multixacts corresponding to the old installation; such multixacts cannot have running members anymore. In many code sites we already know not to read them and clobber them silently, but at least when VACUUM tries to freeze a multixact or determine whether one needs freezing, there's an attempt to resolve it to its member transactions by calling GetMultiXactIdMembers, and if the multixact value is "in the future" with regards to the current valid multixact range, an error like this is raised: ERROR: MultiXactId 123 has not been created yet -- apparent wraparound and vacuuming fails. Per discussion with Andrew Gierth, it is completely bogus to try to resolve multixacts coming from before a pg_upgrade, regardless of where they stand with regards to the current valid multixact range. It's possible to get from under this problem by doing SELECT FOR UPDATE of the problem tuples, but if tables are large, this is slow and tedious, so a more thorough solution is desirable. To fix, we realize that multixacts in xmax created in 9.2 and previous have a specific bit pattern that is never used in 9.3 and later (we already knew this, per comments and infomask tests sprinkled in various places, but we weren't leveraging this knowledge appropriately). Whenever the infomask of the tuple matches that bit pattern, we just ignore the multixact completely as if Xmax wasn't set; or, in the case of tuple freezing, we act as if an unwanted value is set and clobber it without decoding. This guarantees that no errors will be raised, and that the values will be progressively removed until all tables are clean. Most callers of GetMultiXactIdMembers are patched to recognize directly that the value is a removable "empty" multixact and avoid calling GetMultiXactIdMembers altogether. To avoid changing the signature of GetMultiXactIdMembers() in back branches, we keep the "allow_old" boolean flag but rename it to "from_pgupgrade"; if the flag is true, we always return an empty set instead of looking up the multixact. (I suppose we could remove the argument in the master branch, but I chose not to do so in this commit). This was broken all along, but the error-facing message appeared first because of commit 8e9a16ab8f7f and was partially fixed in a25c2b7c4db3. This fix, backpatched all the way back to 9.3, goes approximately in the same direction as a25c2b7c4db3 but should cover all cases. Bug analysis by Andrew Gierth and Álvaro Herrera. A number of public reports match this bug: https://www.postgresql.org/message-id/20140330040029.GY4582@tamriel.snowman.net https://www.postgresql.org/message-id/538F3D70.6080902@publicrelay.com https://www.postgresql.org/message-id/556439CF.7070109@pscs.co.uk https://www.postgresql.org/message-id/SG2PR06MB0760098A111C88E31BD4D96FB3540@SG2PR06MB0760.apcprd06.prod.outlook.com https://www.postgresql.org/message-id/20160615203829.5798.4594@wrigleys.postgresql.org
2016-06-25 00:29:28 +02:00
if (HEAP_LOCKED_UPGRADED(tuple->t_infomask))
return HeapTupleMayBeUpdated;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
{
Fix handling of multixacts predating pg_upgrade After pg_upgrade, it is possible that some tuples' Xmax have multixacts corresponding to the old installation; such multixacts cannot have running members anymore. In many code sites we already know not to read them and clobber them silently, but at least when VACUUM tries to freeze a multixact or determine whether one needs freezing, there's an attempt to resolve it to its member transactions by calling GetMultiXactIdMembers, and if the multixact value is "in the future" with regards to the current valid multixact range, an error like this is raised: ERROR: MultiXactId 123 has not been created yet -- apparent wraparound and vacuuming fails. Per discussion with Andrew Gierth, it is completely bogus to try to resolve multixacts coming from before a pg_upgrade, regardless of where they stand with regards to the current valid multixact range. It's possible to get from under this problem by doing SELECT FOR UPDATE of the problem tuples, but if tables are large, this is slow and tedious, so a more thorough solution is desirable. To fix, we realize that multixacts in xmax created in 9.2 and previous have a specific bit pattern that is never used in 9.3 and later (we already knew this, per comments and infomask tests sprinkled in various places, but we weren't leveraging this knowledge appropriately). Whenever the infomask of the tuple matches that bit pattern, we just ignore the multixact completely as if Xmax wasn't set; or, in the case of tuple freezing, we act as if an unwanted value is set and clobber it without decoding. This guarantees that no errors will be raised, and that the values will be progressively removed until all tables are clean. Most callers of GetMultiXactIdMembers are patched to recognize directly that the value is a removable "empty" multixact and avoid calling GetMultiXactIdMembers altogether. To avoid changing the signature of GetMultiXactIdMembers() in back branches, we keep the "allow_old" boolean flag but rename it to "from_pgupgrade"; if the flag is true, we always return an empty set instead of looking up the multixact. (I suppose we could remove the argument in the master branch, but I chose not to do so in this commit). This was broken all along, but the error-facing message appeared first because of commit 8e9a16ab8f7f and was partially fixed in a25c2b7c4db3. This fix, backpatched all the way back to 9.3, goes approximately in the same direction as a25c2b7c4db3 but should cover all cases. Bug analysis by Andrew Gierth and Álvaro Herrera. A number of public reports match this bug: https://www.postgresql.org/message-id/20140330040029.GY4582@tamriel.snowman.net https://www.postgresql.org/message-id/538F3D70.6080902@publicrelay.com https://www.postgresql.org/message-id/556439CF.7070109@pscs.co.uk https://www.postgresql.org/message-id/SG2PR06MB0760098A111C88E31BD4D96FB3540@SG2PR06MB0760.apcprd06.prod.outlook.com https://www.postgresql.org/message-id/20160615203829.5798.4594@wrigleys.postgresql.org
2016-06-25 00:29:28 +02:00
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), true))
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
return HeapTupleBeingUpdated;
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
return HeapTupleMayBeUpdated;
}
xmax = HeapTupleGetUpdateXid(tuple);
Avoid uselessly looking up old LOCK_ONLY multixacts Commit 0ac5ad5134f2 removed an optimization in multixact.c that skipped fetching members of MultiXactId that were older than our OldestVisibleMXactId value. The reason this was removed is that it is possible for multixacts that contain updates to be older than that value. However, if the caller is certain that the multi does not contain an update (because the infomask bits say so), it can pass this info down to GetMultiXactIdMembers, enabling it to use the old optimization. Pointed out by Andres Freund in 20131121200517.GM7240@alap2.anarazel.de
2014-07-29 21:41:06 +02:00
if (!TransactionIdIsValid(xmax))
{
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
return HeapTupleBeingUpdated;
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(xmax))
{
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
return HeapTupleSelfUpdated; /* updated after scan started */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
else
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
return HeapTupleInvisible; /* updated before scan started */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
}
Avoid uselessly looking up old LOCK_ONLY multixacts Commit 0ac5ad5134f2 removed an optimization in multixact.c that skipped fetching members of MultiXactId that were older than our OldestVisibleMXactId value. The reason this was removed is that it is possible for multixacts that contain updates to be older than that value. However, if the caller is certain that the multi does not contain an update (because the infomask bits say so), it can pass this info down to GetMultiXactIdMembers, enabling it to use the old optimization. Pointed out by Andres Freund in 20131121200517.GM7240@alap2.anarazel.de
2014-07-29 21:41:06 +02:00
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return HeapTupleBeingUpdated;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdDidCommit(xmax))
return HeapTupleUpdated;
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
Avoid resetting Xmax when it's a multi with an aborted update HeapTupleSatisfiesUpdate can very easily "forget" tuple locks while checking the contents of a multixact and finding it contains an aborted update, by setting the HEAP_XMAX_INVALID bit. This would lead to concurrent transactions not noticing any previous locks held by transactions that might still be running, and thus being able to acquire subsequent locks they wouldn't be normally able to acquire. This bug was introduced in commit 1ce150b7bb; backpatch this fix to 9.3, like that commit. This change reverts the change to the delete-abort-savept isolation test in 1ce150b7bb, because that behavior change was caused by this bug. Noticed by Andres Freund while investigating a different issue reported by Noah Misch.
2013-12-05 16:21:55 +01:00
/*
* By here, the update in the Xmax is either aborted or crashed, but
* what about the other members?
*/
Avoid uselessly looking up old LOCK_ONLY multixacts Commit 0ac5ad5134f2 removed an optimization in multixact.c that skipped fetching members of MultiXactId that were older than our OldestVisibleMXactId value. The reason this was removed is that it is possible for multixacts that contain updates to be older than that value. However, if the caller is certain that the multi does not contain an update (because the infomask bits say so), it can pass this info down to GetMultiXactIdMembers, enabling it to use the old optimization. Pointed out by Andres Freund in 20131121200517.GM7240@alap2.anarazel.de
2014-07-29 21:41:06 +02:00
if (!MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
Avoid resetting Xmax when it's a multi with an aborted update HeapTupleSatisfiesUpdate can very easily "forget" tuple locks while checking the contents of a multixact and finding it contains an aborted update, by setting the HEAP_XMAX_INVALID bit. This would lead to concurrent transactions not noticing any previous locks held by transactions that might still be running, and thus being able to acquire subsequent locks they wouldn't be normally able to acquire. This bug was introduced in commit 1ce150b7bb; backpatch this fix to 9.3, like that commit. This change reverts the change to the delete-abort-savept isolation test in 1ce150b7bb, because that behavior change was caused by this bug. Noticed by Andres Freund while investigating a different issue reported by Noah Misch.
2013-12-05 16:21:55 +01:00
{
/*
* There's no member, even just a locker, alive anymore, so we can
* mark the Xmax as invalid.
*/
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Avoid resetting Xmax when it's a multi with an aborted update HeapTupleSatisfiesUpdate can very easily "forget" tuple locks while checking the contents of a multixact and finding it contains an aborted update, by setting the HEAP_XMAX_INVALID bit. This would lead to concurrent transactions not noticing any previous locks held by transactions that might still be running, and thus being able to acquire subsequent locks they wouldn't be normally able to acquire. This bug was introduced in commit 1ce150b7bb; backpatch this fix to 9.3, like that commit. This change reverts the change to the delete-abort-savept isolation test in 1ce150b7bb, because that behavior change was caused by this bug. Noticed by Andres Freund while investigating a different issue reported by Noah Misch.
2013-12-05 16:21:55 +01:00
return HeapTupleMayBeUpdated;
}
else
{
/* There are lockers running */
return HeapTupleBeingUpdated;
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Optimize locking a tuple already locked by another subxact Locking and updating the same tuple repeatedly led to some strange multixacts being created which had several subtransactions of the same parent transaction holding locks of the same strength. However, once a subxact of the current transaction holds a lock of a given strength, it's not necessary to acquire the same lock again. This made some coding patterns much slower than required. The fix is twofold. First we change HeapTupleSatisfiesUpdate to return HeapTupleBeingUpdated for the case where the current transaction is already a single-xid locker for the given tuple; it used to return HeapTupleMayBeUpdated for that case. The new logic is simpler, and the change to pgrowlocks is a testament to that: previously we needed to check for the single-xid locker separately in a very ugly way. That test is simpler now. As fallout from the HTSU change, some of its callers need to be amended so that tuple-locked-by-own-transaction is taken into account in the BeingUpdated case rather than the MayBeUpdated case. For many of them there is no difference; but heap_delete() and heap_update now check explicitely and do not grab tuple lock in that case. The HTSU change also means that routine MultiXactHasRunningRemoteMembers introduced in commit 11ac4c73cb895 is no longer necessary and can be removed; the case that used to require it is now handled naturally as result of the changes to heap_delete and heap_update. The second part of the fix to the performance issue is to adjust heap_lock_tuple to avoid the slowness: 1. Previously we checked for the case that our own transaction already held a strong enough lock and returned MayBeUpdated, but only in the multixact case. Now we do it for the plain Xid case as well, which saves having to LockTuple. 2. If the current transaction is the only locker of the tuple (but with a lock not as strong as what we need; otherwise it would have been caught in the check mentioned above), we can skip sleeping on the multixact, and instead go straight to create an updated multixact with the additional lock strength. 3. Most importantly, make sure that both the single-xid-locker case and the multixact-locker case optimization are applied always. We do this by checking both in a single place, rather than them appearing in two separate portions of the routine -- something that is made possible by the HeapTupleSatisfiesUpdate API change. Previously we would only check for the single-xid case when HTSU returned MayBeUpdated, and only checked for the multixact case when HTSU returned BeingUpdated. This was at odds with what HTSU actually returned in one case: if our own transaction was locker in a multixact, it returned MayBeUpdated, so the optimization never applied. This is what led to the large multixacts in the first place. Per bug report #8470 by Oskari Saarenmaa.
2015-04-10 18:47:15 +02:00
return HeapTupleBeingUpdated;
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmax(tuple) >= curcid)
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
return HeapTupleSelfUpdated; /* updated after scan started */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
else
return HeapTupleInvisible; /* updated before scan started */
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return HeapTupleBeingUpdated;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return HeapTupleMayBeUpdated;
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
/* xmax transaction committed */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return HeapTupleMayBeUpdated;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
HeapTupleHeaderGetRawXmax(tuple));
pgindent run over code.
1999-05-25 18:15:34 +02:00
return HeapTupleUpdated; /* updated by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
/*
* HeapTupleSatisfiesDirty
* True iff heap tuple is valid including effects of open transactions.
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
*
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* Here, we consider the effects of:
* all committed and in-progress transactions (as of the current instant)
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* previous commands of this transaction
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* changes made by the current command
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* This is essentially like HeapTupleSatisfiesSelf as far as effects of
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
* the current transaction and committed/aborted xacts are concerned.
* However, we also include the effects of other xacts still in progress.
*
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* A special hack is that the passed-in snapshot struct is used as an
* output argument to return the xids of concurrent xacts that affected the
* tuple. snapshot->xmin is set to the tuple's xmin if that is another
* transaction that's still in progress; or to InvalidTransactionId if the
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
* tuple's xmin is committed good, committed dead, or my own xact.
* Similarly for snapshot->xmax and the tuple's xmax. If the tuple was
* inserted speculatively, meaning that the inserter might still back down
* on the insertion without aborting the whole transaction, the associated
* token is also returned in snapshot->speculativeToken.
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*/
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesDirty(HeapTuple htup, Snapshot snapshot,
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
Buffer buffer)
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
snapshot->xmin = snapshot->xmax = InvalidTransactionId;
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
snapshot->speculativeToken = 0;
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return false;
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
Fix HEAP_MOVED_OFF handling in HeapTupleSatisfiesDirty (may be used while vacuuming unique btree-s).
1999-04-05 12:55:49 +02:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsInProgress(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Fix HEAP_MOVED_IN handling in HeapTupleSatisfiesDirty().
1999-04-12 18:57:27 +02:00
else
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Fix HEAP_MOVED_IN handling in HeapTupleSatisfiesDirty().
1999-04-12 18:57:27 +02:00
return false;
}
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return true;
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else
return false;
}
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
{
Change tqual.c tests to use !TransactionIdIsCurrentTransactionId, rather than TransactionIdDidAbort, when handling the case that xmin is one of the current transaction's XIDs and the tuple has been deleted. xmax must also be one of the current transaction's XIDs, since no one else can see it yet, and it's cheaper to look at local state than shared state to find out if xmax aborted. Per an idea of Heikki's.
2007-09-21 20:24:28 +02:00
/* deleting subtransaction must have aborted */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
return true;
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
}
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return false;
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
/*
pgindent run for 9.5
2015-05-24 03:35:49 +02:00
* Return the speculative token to caller. Caller can worry about
* xmax, since it requires a conclusively locked row version, and
* a concurrent update to this tuple is a conflict of its
* purposes.
Add support for INSERT ... ON CONFLICT DO NOTHING/UPDATE. The newly added ON CONFLICT clause allows to specify an alternative to raising a unique or exclusion constraint violation error when inserting. ON CONFLICT refers to constraints that can either be specified using a inference clause (by specifying the columns of a unique constraint) or by naming a unique or exclusion constraint. DO NOTHING avoids the constraint violation, without touching the pre-existing row. DO UPDATE SET ... [WHERE ...] updates the pre-existing tuple, and has access to both the tuple proposed for insertion and the existing tuple; the optional WHERE clause can be used to prevent an update from being executed. The UPDATE SET and WHERE clauses have access to the tuple proposed for insertion using the "magic" EXCLUDED alias, and to the pre-existing tuple using the table name or its alias. This feature is often referred to as upsert. This is implemented using a new infrastructure called "speculative insertion". It is an optimistic variant of regular insertion that first does a pre-check for existing tuples and then attempts an insert. If a violating tuple was inserted concurrently, the speculatively inserted tuple is deleted and a new attempt is made. If the pre-check finds a matching tuple the alternative DO NOTHING or DO UPDATE action is taken. If the insertion succeeds without detecting a conflict, the tuple is deemed inserted. To handle the possible ambiguity between the excluded alias and a table named excluded, and for convenience with long relation names, INSERT INTO now can alias its target table. Bumps catversion as stored rules change. Author: Peter Geoghegan, with significant contributions from Heikki Linnakangas and Andres Freund. Testing infrastructure by Jeff Janes. Reviewed-By: Heikki Linnakangas, Andres Freund, Robert Haas, Simon Riggs, Dean Rasheed, Stephen Frost and many others.
2015-05-08 05:31:36 +02:00
*/
if (HeapTupleHeaderIsSpeculative(tuple))
{
snapshot->speculativeToken =
HeapTupleHeaderGetSpeculativeToken(tuple);
Assert(snapshot->speculativeToken != 0);
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
snapshot->xmin = HeapTupleHeaderGetRawXmin(tuple);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
/* XXX shouldn't we fall through to look at xmax? */
pgindent run over code.
1999-05-25 18:15:34 +02:00
return true; /* in insertion by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
HeapTupleHeaderGetRawXmin(tuple));
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
else
{
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return false;
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
/* by here, the inserting transaction has committed */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return true;
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return true;
pgindent run over code.
1999-05-25 18:15:34 +02:00
return false; /* updated by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
{
snapshot->xmax = xmax;
return true;
}
if (TransactionIdDidCommit(xmax))
return false;
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* it must have aborted or crashed */
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Add a check of HEAP_MARKED_FOR_UPDATE in HeapTupleSatisfiesDirty(). This enables unique constraint check in case of SELECT FOR UPDATEd.
2000-07-03 06:45:09 +02:00
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Add a check of HEAP_MARKED_FOR_UPDATE in HeapTupleSatisfiesDirty(). This enables unique constraint check in case of SELECT FOR UPDATEd.
2000-07-03 06:45:09 +02:00
return true;
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return false;
Add a check of HEAP_MARKED_FOR_UPDATE in HeapTupleSatisfiesDirty(). This enables unique constraint check in case of SELECT FOR UPDATEd.
2000-07-03 06:45:09 +02:00
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
{
Fix old visibility bug in HeapTupleSatisfiesDirty If a tuple is locked but not updated by a concurrent transaction, HeapTupleSatisfiesDirty would return that transaction's Xid in xmax, causing callers to wait on it, when it is not necessary (in fact, if the other transaction had used a multixact instead of a plain Xid to mark the tuple, HeapTupleSatisfiesDirty would have behave differently and *not* returned the Xmax). This bug was introduced in commit 3f7fbf85dc5b42, dated December 1998, so it's almost 15 years old now. However, it's hard to see this misbehave, because before we had NOWAIT the only consequence of this is that transactions would wait for slightly more time than necessary; so it's not surprising that this hasn't been reported yet. Craig Ringer and Andres Freund
2013-08-02 20:34:56 +02:00
if (!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
snapshot->xmax = HeapTupleHeaderGetRawXmax(tuple);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return true;
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
{
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return true;
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
/* xmax transaction committed */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
return true;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
}
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
HeapTupleHeaderGetRawXmax(tuple));
pgindent run over code.
1999-05-25 18:15:34 +02:00
return false; /* updated by other */
Initial MVCC code. New code for locking buffer' context.
1998-12-15 13:47:01 +01:00
}
Serialized mode works!
1998-12-16 12:53:55 +01:00
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
/*
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* HeapTupleSatisfiesMVCC
* True iff heap tuple is valid for the given MVCC snapshot.
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
*
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* Here, we consider the effects of:
* all transactions committed as of the time of the given snapshot
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* previous commands of this transaction
*
* Does _not_ include:
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* transactions shown as in-progress by the snapshot
* transactions started after the snapshot was taken
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* changes made by the current command
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* Notice that here, we will not update the tuple status hint bits if the
* inserting/deleting transaction is still running according to our snapshot,
* even if in reality it's committed or aborted by now. This is intentional.
* Checking the true transaction state would require access to high-traffic
* shared data structures, creating contention we'd rather do without, and it
* would not change the result of our visibility check anyway. The hint bits
* will be updated by the first visitor that has a snapshot new enough to see
* the inserting/deleting transaction as done. In the meantime, the cost of
* leaving the hint bits unset is basically that each HeapTupleSatisfiesMVCC
* call will need to run TransactionIdIsCurrentTransactionId in addition to
* XidInMVCCSnapshot (but it would have to do the latter anyway). In the old
* coding where we tried to set the hint bits as soon as possible, we instead
* did TransactionIdIsInProgress in each call --- to no avail, as long as the
* inserting/deleting transaction was still running --- which was more cycles
* and more contention on the PGXACT array.
TOAST needs to do at least minimal time-qual checking in order not to mess up after an aborted VACUUM FULL, per today's pghackers discussion. Add a suitable HeapTupleSatisfiesToast routine. Remove useless special- case test in HeapTupleSatisfiesVisibility macro for xmax = BootstrapTransactionId; perhaps that was needed at one time, but it's a waste of cycles now, not to mention actively wrong for SnapshotAny. Along the way, add some much-needed comments to tqual.c, and simplify toast_fetch_datum, which no longer needs to assume it may see chunks out-of-order.
2002-01-16 21:29:02 +01:00
*/
Serialized mode works!
1998-12-16 12:53:55 +01:00
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesMVCC(HeapTuple htup, Snapshot snapshot,
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
Buffer buffer)
Serialized mode works!
1998-12-16 12:53:55 +01:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
Serialized mode works!
1998-12-16 12:53:55 +01:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
Serialized mode works!
1998-12-16 12:53:55 +01:00
return false;
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
if (tuple->t_infomask & HEAP_MOVED_OFF)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
return false;
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
if (!XidInMVCCSnapshot(xvac, snapshot))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (!TransactionIdIsCurrentTransactionId(xvac))
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
{
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
if (XidInMVCCSnapshot(xvac, snapshot))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return false;
}
1. Vacuum is updated for MVCC. 2. Much faster btree tuples deletion in the case when first on page index tuple is deleted (no movement to the left page(s)). 3. Remember blkno of new root page in BTPageOpaque of left/right siblings when root page is splitted.
1999-03-28 22:32:42 +02:00
}
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
Serialized mode works!
1998-12-16 12:53:55 +01:00
{
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmin(tuple) >= snapshot->curcid)
Serialized mode works!
1998-12-16 12:53:55 +01:00
return false; /* inserted after scan started */
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return true;
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask)) /* not deleter */
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* updating subtransaction must have aborted */
if (!TransactionIdIsCurrentTransactionId(xmax))
return true;
else if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* updated after scan started */
else
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
return false; /* updated before scan started */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
{
Change tqual.c tests to use !TransactionIdIsCurrentTransactionId, rather than TransactionIdDidAbort, when handling the case that xmin is one of the current transaction's XIDs and the tuple has been deleted. xmax must also be one of the current transaction's XIDs, since no one else can see it yet, and it's cheaper to look at local state than shared state to find out if xmax aborted. Per an idea of Heikki's.
2007-09-21 20:24:28 +02:00
/* deleting subtransaction must have aborted */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
return true;
Fix subtransaction behavior for large objects, temp namespace, files, password/group files. Also allow read-only subtransactions of a read-write parent, but not vice versa. These are the reasonably noncontroversial parts of Alvaro's recent mop-up patch, plus further work on large objects to minimize use of the TopTransactionResourceOwner.
2004-07-28 16:23:31 +02:00
}
Nested transactions. There is still much left to do, especially on the performance front, but with feature freeze upon us I think it's time to drive a stake in the ground and say that this will be in 7.5. Alvaro Herrera, with some help from Tom Lane.
2004-07-01 02:52:04 +02:00
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
Serialized mode works!
1998-12-16 12:53:55 +01:00
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
else if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmin(tuple), snapshot))
Serialized mode works!
1998-12-16 12:53:55 +01:00
return false;
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
HeapTupleHeaderGetRawXmin(tuple));
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return false;
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
}
Serialized mode works!
1998-12-16 12:53:55 +01:00
}
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
else
{
/* xmin is committed, but maybe not according to our snapshot */
if (!HeapTupleHeaderXminFrozen(tuple) &&
XidInMVCCSnapshot(HeapTupleHeaderGetRawXmin(tuple), snapshot))
return false; /* treat as still in progress */
}
Serialized mode works!
1998-12-16 12:53:55 +01:00
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
/* by here, the inserting transaction has committed */
Serialized mode works!
1998-12-16 12:53:55 +01:00
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid or aborted */
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return true;
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* already checked above */
Assert(!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask));
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(xmax))
{
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
return true; /* deleted after scan started */
else
return false; /* deleted before scan started */
}
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
if (XidInMVCCSnapshot(xmax, snapshot))
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
return true;
if (TransactionIdDidCommit(xmax))
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
return false; /* updating transaction committed */
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* it must have aborted or crashed */
Serialized mode works!
1998-12-16 12:53:55 +01:00
return true;
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
}
Serialized mode works!
1998-12-16 12:53:55 +01:00
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmax(tuple)))
Serialized mode works!
1998-12-16 12:53:55 +01:00
{
This patch wraps all accesses to t_xmin, t_cmin, t_xmax, and t_cmax in HeapTupleHeaderData in setter and getter macros called HeapTupleHeaderGetXmin, HeapTupleHeaderSetXmin etc. It also introduces a "virtual" field xvac by defining HeapTupleHeaderGetXvac and HeapTupleHeaderSetXvac. Xvac is used by VACUUM, in fact it is stored in t_cmin. Manfred Koizar
2002-06-15 21:54:24 +02:00
if (HeapTupleHeaderGetCmax(tuple) >= snapshot->curcid)
pgindent run over code.
1999-05-25 18:15:34 +02:00
return true; /* deleted after scan started */
Serialized mode works!
1998-12-16 12:53:55 +01:00
else
pgindent run over code.
1999-05-25 18:15:34 +02:00
return false; /* deleted before scan started */
Serialized mode works!
1998-12-16 12:53:55 +01:00
}
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmax(tuple), snapshot))
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
return true;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
Serialized mode works!
1998-12-16 12:53:55 +01:00
{
Adjust time qual checking code so that we always check TransactionIdIsInProgress before we check commit/abort status. Formerly this was done in some paths but not all, with the result that a transaction might be considered committed for some purposes before it became committed for others. Per example found by Jan Wieck.
2005-05-07 23:22:01 +02:00
/* it must have aborted or crashed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Serialized mode works!
1998-12-16 12:53:55 +01:00
return true;
}
/* xmax transaction committed */
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
HeapTupleHeaderGetRawXmax(tuple));
Serialized mode works!
1998-12-16 12:53:55 +01:00
}
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
else
{
/* xmax is committed, but maybe not according to our snapshot */
if (XidInMVCCSnapshot(HeapTupleHeaderGetRawXmax(tuple), snapshot))
return true; /* treat as still in progress */
}
Serialized mode works!
1998-12-16 12:53:55 +01:00
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
/* xmax transaction committed */
pgindent run over code.
1999-05-25 18:15:34 +02:00
Serialized mode works!
1998-12-16 12:53:55 +01:00
return false;
}
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
/*
Add more comments to tqual.c for visibility functions.
2002-01-17 00:09:09 +01:00
* HeapTupleSatisfiesVacuum
*
Fix misstatements added by Bruce.
2002-01-17 00:51:56 +01:00
* Determine the status of tuples for VACUUM purposes. Here, what
* we mainly want to know is if a tuple is potentially visible to *any*
* running transaction. If so, it can't be removed yet by VACUUM.
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* OldestXmin is a cutoff XID (obtained from GetOldestXmin()). Tuples
Transaction IDs wrap around, per my proposal of 13-Aug-01. More documentation to come, but the code is all here. initdb forced.
2001-08-26 18:56:03 +02:00
* deleted by XIDs >= OldestXmin are deemed "recently dead"; they might
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
* still be visible to some open transaction, so we can't remove them,
* even if we see that the deleting transaction has committed.
*/
HTSV_Result
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleSatisfiesVacuum(HeapTuple htup, TransactionId OldestXmin,
Repair possible failure to update hint bits back to disk, per http://archives.postgresql.org/pgsql-hackers/2004-10/msg00464.php. This fix is intended to be permanent: it moves the responsibility for calling SetBufferCommitInfoNeedsSave() into the tqual.c routines, eliminating the requirement for callers to test whether t_infomask changed. Also, tighten validity checking on buffer IDs in bufmgr.c --- several routines were paranoid about out-of-range shared buffer numbers but not about out-of-range local ones, which seems a tad pointless.
2004-10-16 00:40:29 +02:00
Buffer buffer)
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
/*
* Has inserting transaction committed?
*
Re-run pgindent, fixing a problem where comment lines after a blank comment line where output as too long, and update typedefs for /lib directory. Also fix case where identifiers were used as variable names in the backend, but as typedefs in ecpg (favor the backend for indenting). Backpatch to 8.1.X.
2005-11-22 19:17:34 +01:00
* If the inserting transaction aborted, then the tuple was never visible
* to any other transaction, so we can delete it immediately.
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*/
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
{
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (HeapTupleHeaderXminInvalid(tuple))
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_DEAD;
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
else if (tuple->t_infomask & HEAP_MOVED_OFF)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HEAPTUPLE_DELETE_IN_PROGRESS;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HEAPTUPLE_DELETE_IN_PROGRESS;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_DEAD;
}
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
}
Add C comments that HEAP_MOVED_* define usage is only for pre-9.0 binary upgrades.
2010-02-08 15:10:21 +01:00
/* Used by pre-9.0 binary upgrades */
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
else if (tuple->t_infomask & HEAP_MOVED_IN)
{
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
TransactionId xvac = HeapTupleHeaderGetXvac(tuple);
pgindent run.
2003-08-04 02:43:34 +02:00
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsCurrentTransactionId(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HEAPTUPLE_INSERT_IN_PROGRESS;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdIsInProgress(xvac))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HEAPTUPLE_INSERT_IN_PROGRESS;
>> If a transaction marks a tuple for update and later commits without >> actually having updated the tuple, [...] can we simply >> set the HEAP_XMAX_INVALID hint bit of the tuple? > >AFAICS this is a reasonable thing to do. Thanks for the confirmation. Here's a patch which also contains some more noncritical changes to tqual.c: . make code more readable by introducing local variables for xvac . no longer two separate branches for aborted and crashed. The actions were the same in all cases. Manfred Koizar
2003-06-25 03:08:13 +02:00
if (TransactionIdDidCommit(xvac))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
InvalidTransactionId);
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
else
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
{
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_DEAD;
}
}
Fix longstanding bug in HeapTupleSatisfiesVacuum(). HeapTupleSatisfiesVacuum() didn't properly discern between DELETE_IN_PROGRESS and INSERT_IN_PROGRESS for rows that have been inserted in the current transaction and deleted in a aborted subtransaction of the current backend. At the very least that caused problems for CLUSTER and CREATE INDEX in transactions that had aborting subtransactions producing rows, leading to warnings like: WARNING: concurrent delete in progress within table "..." possibly in an endless, uninterruptible, loop. Instead of treating *InProgress xmins the same as *IsCurrent ones, treat them as being distinct like the other visibility routines. As implemented this separatation can cause a behaviour change for rows that have been inserted and deleted in another, still running, transaction. HTSV will now return INSERT_IN_PROGRESS instead of DELETE_IN_PROGRESS for those. That's both, more in line with the other visibility routines and arguably more correct. The latter because a INSERT_IN_PROGRESS will make callers look at/wait for xmin, instead of xmax. The only current caller where that's possibly worse than the old behaviour is heap_prune_chain() which now won't mark the page as prunable if a row has concurrently been inserted and deleted. That's harmless enough. As a cautionary measure also insert a interrupt check before the gotos in IndexBuildHeapScan() that lead to the uninterruptible loop. There are other possible causes, like a row that several sessions try to update and all fail, for repeated loops and the cost of doing so in the retry case is low. As this bug goes back all the way to the introduction of subtransactions in 573a71a5da backpatch to all supported releases. Reported-By: Sandro Santilli
2014-06-04 21:36:19 +02:00
else if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetRawXmin(tuple)))
HeapTupleSatisfiesVacuum() needs to be more careful about the difference between INSERT_IN_PROGRESS and DELETE_IN_PROGRESS for tuples inserted and then deleted by a concurrent transaction. Example of bug: regression=# create table foo (f1 int); CREATE TABLE regression=# begin; BEGIN regression=# insert into foo values(1); INSERT 195531 1 regression=# delete from foo; DELETE 1 regression=# insert into foo values(1); INSERT 195532 1 regression=# create unique index fooi on foo(f1); ERROR: could not create unique index DETAIL: Table contains duplicated values.
2003-09-22 02:47:23 +02:00
{
if (tuple->t_infomask & HEAP_XMAX_INVALID) /* xid invalid */
return HEAPTUPLE_INSERT_IN_PROGRESS;
Fix HeapTupleSatisfiesVacuum on aborted updater xacts By using only the macro that checks infomask bits HEAP_XMAX_IS_LOCKED_ONLY to verify whether a multixact is not an updater, and not the full HeapTupleHeaderIsOnlyLocked, it would come to the wrong result in case of a multixact containing an aborted update; therefore returning the wrong result code. This would cause predicate.c to break completely (as in bug report #8273 from David Leverton), and certain index builds would misbehave. As far as I can tell, other callers of the bogus routine would make harmless mistakes or not be affected by the difference at all; so this was a pretty narrow case. Also, no other user of the HEAP_XMAX_IS_LOCKED_ONLY macro is as careless; they all check specifically for the HEAP_XMAX_IS_MULTI case, and they all verify whether the updater is InvalidXid before concluding that it's a valid updater. So there doesn't seem to be any similar bug.
2013-07-20 00:35:07 +02:00
/* only locked? run infomask-only check first, for performance */
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask) ||
HeapTupleHeaderIsOnlyLocked(tuple))
HeapTupleSatisfiesVacuum() needs to be more careful about the difference between INSERT_IN_PROGRESS and DELETE_IN_PROGRESS for tuples inserted and then deleted by a concurrent transaction. Example of bug: regression=# create table foo (f1 int); CREATE TABLE regression=# begin; BEGIN regression=# insert into foo values(1); INSERT 195531 1 regression=# delete from foo; DELETE 1 regression=# insert into foo values(1); INSERT 195532 1 regression=# create unique index fooi on foo(f1); ERROR: could not create unique index DETAIL: Table contains duplicated values.
2003-09-22 02:47:23 +02:00
return HEAPTUPLE_INSERT_IN_PROGRESS;
/* inserted and then deleted by same xact */
Fix longstanding bug in HeapTupleSatisfiesVacuum(). HeapTupleSatisfiesVacuum() didn't properly discern between DELETE_IN_PROGRESS and INSERT_IN_PROGRESS for rows that have been inserted in the current transaction and deleted in a aborted subtransaction of the current backend. At the very least that caused problems for CLUSTER and CREATE INDEX in transactions that had aborting subtransactions producing rows, leading to warnings like: WARNING: concurrent delete in progress within table "..." possibly in an endless, uninterruptible, loop. Instead of treating *InProgress xmins the same as *IsCurrent ones, treat them as being distinct like the other visibility routines. As implemented this separatation can cause a behaviour change for rows that have been inserted and deleted in another, still running, transaction. HTSV will now return INSERT_IN_PROGRESS instead of DELETE_IN_PROGRESS for those. That's both, more in line with the other visibility routines and arguably more correct. The latter because a INSERT_IN_PROGRESS will make callers look at/wait for xmin, instead of xmax. The only current caller where that's possibly worse than the old behaviour is heap_prune_chain() which now won't mark the page as prunable if a row has concurrently been inserted and deleted. That's harmless enough. As a cautionary measure also insert a interrupt check before the gotos in IndexBuildHeapScan() that lead to the uninterruptible loop. There are other possible causes, like a row that several sessions try to update and all fail, for repeated loops and the cost of doing so in the retry case is low. As this bug goes back all the way to the introduction of subtransactions in 573a71a5da backpatch to all supported releases. Reported-By: Sandro Santilli
2014-06-04 21:36:19 +02:00
if (TransactionIdIsCurrentTransactionId(HeapTupleHeaderGetUpdateXid(tuple)))
return HEAPTUPLE_DELETE_IN_PROGRESS;
/* deleting subtransaction must have aborted */
return HEAPTUPLE_INSERT_IN_PROGRESS;
}
else if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmin(tuple)))
{
/*
* It'd be possible to discern between INSERT/DELETE in progress
* here by looking at xmax - but that doesn't seem beneficial for
* the majority of callers and even detrimental for some. We'd
* rather have callers look at/wait for xmin than xmax. It's
* always correct to return INSERT_IN_PROGRESS because that's
* what's happening from the view of other backends.
*/
return HEAPTUPLE_INSERT_IN_PROGRESS;
HeapTupleSatisfiesVacuum() needs to be more careful about the difference between INSERT_IN_PROGRESS and DELETE_IN_PROGRESS for tuples inserted and then deleted by a concurrent transaction. Example of bug: regression=# create table foo (f1 int); CREATE TABLE regression=# begin; BEGIN regression=# insert into foo values(1); INSERT 195531 1 regression=# delete from foo; DELETE 1 regression=# insert into foo values(1); INSERT 195532 1 regression=# create unique index fooi on foo(f1); ERROR: could not create unique index DETAIL: Table contains duplicated values.
2003-09-22 02:47:23 +02:00
}
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmin(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_COMMITTED,
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
HeapTupleHeaderGetRawXmin(tuple));
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
else
{
/*
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
* Not in Progress, Not Committed, so either Aborted or crashed
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*/
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMIN_INVALID,
InvalidTransactionId);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_DEAD;
}
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
/*
* At this point the xmin is known committed, but we might not have
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
* been able to set the hint bit yet; so we can no longer Assert that
* it's set.
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
*/
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
}
/*
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* Okay, the inserter committed, so it was good at some point. Now what
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
* about the deleting transaction?
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*/
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return HEAPTUPLE_LIVE;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
{
VACUUM must make sure that a HEAP_MARKED_FOR_UPDATE tuple gets marked as either HEAP_XMAX_COMMITTED or HEAP_XMAX_INVALID once the updating transaction is gone. Otherwise some other transaction may come along and try to test the commit status of t_xmax later --- which could be after VACUUM has recycled the CLOG status for that xact. Bug introduced in post-beta4 bug fix.
2002-01-11 21:07:03 +01:00
/*
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
* "Deleting" xact really only locked it, so the tuple is live in any
Fix recently-understood problems with handling of XID freezing, particularly in PITR scenarios. We now WAL-log the replacement of old XIDs with FrozenTransactionId, so that such replacement is guaranteed to propagate to PITR slave databases. Also, rather than relying on hint-bit updates to be preserved, pg_clog is not truncated until all instances of an XID are known to have been replaced by FrozenTransactionId. Add new GUC variables and pg_autovacuum columns to allow management of the freezing policy, so that users can trade off the size of pg_clog against the amount of freezing work done. Revise the already-existing code that forces autovacuum of tables approaching the wraparound point to make it more bulletproof; also, revise the autovacuum logic so that anti-wraparound vacuuming is done per-table rather than per-database. initdb forced because of changes in pg_class, pg_database, and pg_autovacuum catalogs. Heikki Linnakangas, Simon Riggs, and Tom Lane.
2006-11-05 23:42:10 +01:00
* case. However, we should make sure that either XMAX_COMMITTED or
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
* XMAX_INVALID gets set once the xact is gone, to reduce the costs of
Fix handling of multixacts predating pg_upgrade After pg_upgrade, it is possible that some tuples' Xmax have multixacts corresponding to the old installation; such multixacts cannot have running members anymore. In many code sites we already know not to read them and clobber them silently, but at least when VACUUM tries to freeze a multixact or determine whether one needs freezing, there's an attempt to resolve it to its member transactions by calling GetMultiXactIdMembers, and if the multixact value is "in the future" with regards to the current valid multixact range, an error like this is raised: ERROR: MultiXactId 123 has not been created yet -- apparent wraparound and vacuuming fails. Per discussion with Andrew Gierth, it is completely bogus to try to resolve multixacts coming from before a pg_upgrade, regardless of where they stand with regards to the current valid multixact range. It's possible to get from under this problem by doing SELECT FOR UPDATE of the problem tuples, but if tables are large, this is slow and tedious, so a more thorough solution is desirable. To fix, we realize that multixacts in xmax created in 9.2 and previous have a specific bit pattern that is never used in 9.3 and later (we already knew this, per comments and infomask tests sprinkled in various places, but we weren't leveraging this knowledge appropriately). Whenever the infomask of the tuple matches that bit pattern, we just ignore the multixact completely as if Xmax wasn't set; or, in the case of tuple freezing, we act as if an unwanted value is set and clobber it without decoding. This guarantees that no errors will be raised, and that the values will be progressively removed until all tables are clean. Most callers of GetMultiXactIdMembers are patched to recognize directly that the value is a removable "empty" multixact and avoid calling GetMultiXactIdMembers altogether. To avoid changing the signature of GetMultiXactIdMembers() in back branches, we keep the "allow_old" boolean flag but rename it to "from_pgupgrade"; if the flag is true, we always return an empty set instead of looking up the multixact. (I suppose we could remove the argument in the master branch, but I chose not to do so in this commit). This was broken all along, but the error-facing message appeared first because of commit 8e9a16ab8f7f and was partially fixed in a25c2b7c4db3. This fix, backpatched all the way back to 9.3, goes approximately in the same direction as a25c2b7c4db3 but should cover all cases. Bug analysis by Andrew Gierth and Álvaro Herrera. A number of public reports match this bug: https://www.postgresql.org/message-id/20140330040029.GY4582@tamriel.snowman.net https://www.postgresql.org/message-id/538F3D70.6080902@publicrelay.com https://www.postgresql.org/message-id/556439CF.7070109@pscs.co.uk https://www.postgresql.org/message-id/SG2PR06MB0760098A111C88E31BD4D96FB3540@SG2PR06MB0760.apcprd06.prod.outlook.com https://www.postgresql.org/message-id/20160615203829.5798.4594@wrigleys.postgresql.org
2016-06-25 00:29:28 +02:00
* examining the tuple for future xacts.
VACUUM must make sure that a HEAP_MARKED_FOR_UPDATE tuple gets marked as either HEAP_XMAX_COMMITTED or HEAP_XMAX_INVALID once the updating transaction is gone. Otherwise some other transaction may come along and try to test the commit status of t_xmax later --- which could be after VACUUM has recycled the CLOG status for that xact. Bug introduced in post-beta4 bug fix.
2002-01-11 21:07:03 +01:00
*/
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/*
Fix handling of multixacts predating pg_upgrade After pg_upgrade, it is possible that some tuples' Xmax have multixacts corresponding to the old installation; such multixacts cannot have running members anymore. In many code sites we already know not to read them and clobber them silently, but at least when VACUUM tries to freeze a multixact or determine whether one needs freezing, there's an attempt to resolve it to its member transactions by calling GetMultiXactIdMembers, and if the multixact value is "in the future" with regards to the current valid multixact range, an error like this is raised: ERROR: MultiXactId 123 has not been created yet -- apparent wraparound and vacuuming fails. Per discussion with Andrew Gierth, it is completely bogus to try to resolve multixacts coming from before a pg_upgrade, regardless of where they stand with regards to the current valid multixact range. It's possible to get from under this problem by doing SELECT FOR UPDATE of the problem tuples, but if tables are large, this is slow and tedious, so a more thorough solution is desirable. To fix, we realize that multixacts in xmax created in 9.2 and previous have a specific bit pattern that is never used in 9.3 and later (we already knew this, per comments and infomask tests sprinkled in various places, but we weren't leveraging this knowledge appropriately). Whenever the infomask of the tuple matches that bit pattern, we just ignore the multixact completely as if Xmax wasn't set; or, in the case of tuple freezing, we act as if an unwanted value is set and clobber it without decoding. This guarantees that no errors will be raised, and that the values will be progressively removed until all tables are clean. Most callers of GetMultiXactIdMembers are patched to recognize directly that the value is a removable "empty" multixact and avoid calling GetMultiXactIdMembers altogether. To avoid changing the signature of GetMultiXactIdMembers() in back branches, we keep the "allow_old" boolean flag but rename it to "from_pgupgrade"; if the flag is true, we always return an empty set instead of looking up the multixact. (I suppose we could remove the argument in the master branch, but I chose not to do so in this commit). This was broken all along, but the error-facing message appeared first because of commit 8e9a16ab8f7f and was partially fixed in a25c2b7c4db3. This fix, backpatched all the way back to 9.3, goes approximately in the same direction as a25c2b7c4db3 but should cover all cases. Bug analysis by Andrew Gierth and Álvaro Herrera. A number of public reports match this bug: https://www.postgresql.org/message-id/20140330040029.GY4582@tamriel.snowman.net https://www.postgresql.org/message-id/538F3D70.6080902@publicrelay.com https://www.postgresql.org/message-id/556439CF.7070109@pscs.co.uk https://www.postgresql.org/message-id/SG2PR06MB0760098A111C88E31BD4D96FB3540@SG2PR06MB0760.apcprd06.prod.outlook.com https://www.postgresql.org/message-id/20160615203829.5798.4594@wrigleys.postgresql.org
2016-06-25 00:29:28 +02:00
* If it's a pre-pg_upgrade tuple, the multixact cannot
* possibly be running; otherwise have to check.
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
*/
Fix handling of multixacts predating pg_upgrade After pg_upgrade, it is possible that some tuples' Xmax have multixacts corresponding to the old installation; such multixacts cannot have running members anymore. In many code sites we already know not to read them and clobber them silently, but at least when VACUUM tries to freeze a multixact or determine whether one needs freezing, there's an attempt to resolve it to its member transactions by calling GetMultiXactIdMembers, and if the multixact value is "in the future" with regards to the current valid multixact range, an error like this is raised: ERROR: MultiXactId 123 has not been created yet -- apparent wraparound and vacuuming fails. Per discussion with Andrew Gierth, it is completely bogus to try to resolve multixacts coming from before a pg_upgrade, regardless of where they stand with regards to the current valid multixact range. It's possible to get from under this problem by doing SELECT FOR UPDATE of the problem tuples, but if tables are large, this is slow and tedious, so a more thorough solution is desirable. To fix, we realize that multixacts in xmax created in 9.2 and previous have a specific bit pattern that is never used in 9.3 and later (we already knew this, per comments and infomask tests sprinkled in various places, but we weren't leveraging this knowledge appropriately). Whenever the infomask of the tuple matches that bit pattern, we just ignore the multixact completely as if Xmax wasn't set; or, in the case of tuple freezing, we act as if an unwanted value is set and clobber it without decoding. This guarantees that no errors will be raised, and that the values will be progressively removed until all tables are clean. Most callers of GetMultiXactIdMembers are patched to recognize directly that the value is a removable "empty" multixact and avoid calling GetMultiXactIdMembers altogether. To avoid changing the signature of GetMultiXactIdMembers() in back branches, we keep the "allow_old" boolean flag but rename it to "from_pgupgrade"; if the flag is true, we always return an empty set instead of looking up the multixact. (I suppose we could remove the argument in the master branch, but I chose not to do so in this commit). This was broken all along, but the error-facing message appeared first because of commit 8e9a16ab8f7f and was partially fixed in a25c2b7c4db3. This fix, backpatched all the way back to 9.3, goes approximately in the same direction as a25c2b7c4db3 but should cover all cases. Bug analysis by Andrew Gierth and Álvaro Herrera. A number of public reports match this bug: https://www.postgresql.org/message-id/20140330040029.GY4582@tamriel.snowman.net https://www.postgresql.org/message-id/538F3D70.6080902@publicrelay.com https://www.postgresql.org/message-id/556439CF.7070109@pscs.co.uk https://www.postgresql.org/message-id/SG2PR06MB0760098A111C88E31BD4D96FB3540@SG2PR06MB0760.apcprd06.prod.outlook.com https://www.postgresql.org/message-id/20160615203829.5798.4594@wrigleys.postgresql.org
2016-06-25 00:29:28 +02:00
if (!HEAP_LOCKED_UPGRADED(tuple->t_infomask) &&
Avoid uselessly looking up old LOCK_ONLY multixacts Commit 0ac5ad5134f2 removed an optimization in multixact.c that skipped fetching members of MultiXactId that were older than our OldestVisibleMXactId value. The reason this was removed is that it is possible for multixacts that contain updates to be older than that value. However, if the caller is certain that the multi does not contain an update (because the infomask bits say so), it can pass this info down to GetMultiXactIdMembers, enabling it to use the old optimization. Pointed out by Andres Freund in 20131121200517.GM7240@alap2.anarazel.de
2014-07-29 21:41:06 +02:00
MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple),
true))
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return HEAPTUPLE_LIVE;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
}
else
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
return HEAPTUPLE_LIVE;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
}
VACUUM must make sure that a HEAP_MARKED_FOR_UPDATE tuple gets marked as either HEAP_XMAX_COMMITTED or HEAP_XMAX_INVALID once the updating transaction is gone. Otherwise some other transaction may come along and try to test the commit status of t_xmax later --- which could be after VACUUM has recycled the CLOG status for that xact. Bug introduced in post-beta4 bug fix.
2002-01-11 21:07:03 +01:00
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/*
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
* We don't really care whether xmax did commit, abort or crash. We
* know that xmax did lock the tuple, but it did not and will never
* actually update it.
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
*/
Make sure that all variants of HeapTupleSatisfies will do the right thing if presented with a tuple in process of being moved by VACUUM. Per bug report from Brian Hirt.
2001-12-19 18:18:39 +01:00
return HEAPTUPLE_LIVE;
}
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
TransactionId xmax;
Avoid uselessly looking up old LOCK_ONLY multixacts Commit 0ac5ad5134f2 removed an optimization in multixact.c that skipped fetching members of MultiXactId that were older than our OldestVisibleMXactId value. The reason this was removed is that it is possible for multixacts that contain updates to be older than that value. However, if the caller is certain that the multi does not contain an update (because the infomask bits say so), it can pass this info down to GetMultiXactIdMembers, enabling it to use the old optimization. Pointed out by Andres Freund in 20131121200517.GM7240@alap2.anarazel.de
2014-07-29 21:41:06 +02:00
if (MultiXactIdIsRunning(HeapTupleHeaderGetRawXmax(tuple), false))
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
{
/* already checked above */
Assert(!HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask));
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(xmax))
return HEAPTUPLE_DELETE_IN_PROGRESS;
else if (TransactionIdDidCommit(xmax))
/* there are still lockers around -- can't return DEAD here */
return HEAPTUPLE_RECENTLY_DEAD;
/* updating transaction aborted */
return HEAPTUPLE_LIVE;
}
Assert(!(tuple->t_infomask & HEAP_XMAX_COMMITTED));
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* multi is not running -- updating xact cannot be */
Assert(!TransactionIdIsInProgress(xmax));
if (TransactionIdDidCommit(xmax))
{
if (!TransactionIdPrecedes(xmax, OldestXmin))
return HEAPTUPLE_RECENTLY_DEAD;
else
return HEAPTUPLE_DEAD;
}
/*
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
* Not in Progress, Not Committed, so either Aborted or crashed.
* Remove the Xmax.
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
*/
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID, InvalidTransactionId);
return HEAPTUPLE_LIVE;
Implement sharable row-level locks, and use them for foreign key references to eliminate unnecessary deadlocks. This commit adds SELECT ... FOR SHARE paralleling SELECT ... FOR UPDATE. The implementation uses a new SLRU data structure (managed much like pg_subtrans) to represent multiple- transaction-ID sets. When more than one transaction is holding a shared lock on a particular row, we create a MultiXactId representing that set of transactions and store its ID in the row's XMAX. This scheme allows an effectively unlimited number of row locks, just as we did before, while not costing any extra overhead except when a shared lock actually has to be shared. Still TODO: use the regular lock manager to control the grant order when multiple backends are waiting for a row lock. Alvaro Herrera and Tom Lane.
2005-04-28 23:47:18 +02:00
}
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
{
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsInProgress(HeapTupleHeaderGetRawXmax(tuple)))
Improve documentation about reasoning behind the order of operations in GetSnapshotData, GetNewTransactionId, CommitTransaction, AbortTransaction, etc. Correct race condition in transaction status testing in HeapTupleSatisfiesVacuum --- this wasn't important for old VACUUM with exclusive lock on its table, but it sure is important now. All per pghackers discussion 7/11/01 and 7/12/01.
2001-07-17 00:43:34 +02:00
return HEAPTUPLE_DELETE_IN_PROGRESS;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
else if (TransactionIdDidCommit(HeapTupleHeaderGetRawXmax(tuple)))
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_COMMITTED,
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
HeapTupleHeaderGetRawXmax(tuple));
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
else
{
/*
Standard pgindent run for 8.1.
2005-10-15 04:49:52 +02:00
* Not in Progress, Not Committed, so either Aborted or crashed
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*/
Fix oversight in async-commit patch: there were some places in heapam.c that still thought they could set HEAP_XMAX_COMMITTED immediately after seeing the other transaction commit. Make them use the same logic as tqual.c does to determine if the hint bit can be set yet.
2007-08-14 19:35:18 +02:00
SetHintBits(tuple, buffer, HEAP_XMAX_INVALID,
InvalidTransactionId);
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_LIVE;
}
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
/*
* At this point the xmax is known committed, but we might not have
pgindent run for 8.3.
2007-11-15 22:14:46 +01:00
* been able to set the hint bit yet; so we can no longer Assert that
* it's set.
Support an optional asynchronous commit mode, in which we don't flush WAL before reporting a transaction committed. Data consistency is still guaranteed (unlike setting fsync = off), but a crash may lose the effects of the last few transactions. Patch by Simon, some editorialization by Tom.
2007-08-02 00:45:09 +02:00
*/
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
}
/*
Remove special case for xmin == xmax in HeapTupleSatisfiesVacuum(). VACUUM was willing to remove a committed-dead tuple immediately if it was deleted by the same transaction that inserted it. The idea is that such a tuple could never have been visible to any other transaction, so we don't need to keep it around to satisfy MVCC snapshots. However, there was already an exception for tuples that are part of an update chain, and this exception created a problem: we might remove TOAST tuples (which are never part of an update chain) while their parent tuple stayed around (if it was part of an update chain). This didn't pose a problem for most things, since the parent tuple is indeed dead: no snapshot will ever consider it visible. But MVCC-safe CLUSTER had a problem, since it will try to copy RECENTLY_DEAD tuples to the new table. It then has to copy their TOAST data too, and would fail if VACUUM had already removed the toast tuples. Easiest fix is to get rid of the special case for xmin == xmax. This may delay reclaiming dead space for a little bit in some cases, but it's by far the most reliable way to fix the issue. Per bug #5998 from Mark Reid. Back-patch to 8.3, which is the oldest version with MVCC-safe CLUSTER.
2011-04-29 22:29:42 +02:00
* Deleter committed, but perhaps it was recent enough that some open
* transactions could still see the tuple.
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
*/
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (!TransactionIdPrecedes(HeapTupleHeaderGetRawXmax(tuple), OldestXmin))
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
return HEAPTUPLE_RECENTLY_DEAD;
/* Otherwise, it's dead and removable */
return HEAPTUPLE_DEAD;
}
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
/*
* HeapTupleIsSurelyDead
*
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* Cheaply determine whether a tuple is surely dead to all onlookers.
* We sometimes use this in lieu of HeapTupleSatisfiesVacuum when the
* tuple has just been tested by another visibility routine (usually
* HeapTupleSatisfiesMVCC) and, therefore, any hint bits that can be set
* should already be set. We assume that if no hint bits are set, the xmin
* or xmax transaction is still running. This is therefore faster than
* HeapTupleSatisfiesVacuum, because we don't consult PGXACT nor CLOG.
* It's okay to return FALSE when in doubt, but we must return TRUE only
* if the tuple is removable.
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
*/
bool
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleIsSurelyDead(HeapTuple htup, TransactionId OldestXmin)
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
{
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
HeapTupleHeader tuple = htup->t_data;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Adjust HeapTupleSatisfies* routines to take a HeapTuple. Previously, these functions took a HeapTupleHeader, but upcoming patches for logical replication will introduce new a new snapshot type under which the tuple's TID will be used to lookup (CMIN, CMAX) for visibility determination purposes. This makes that information available. Code churn is minimal since HeapTupleSatisfiesVisibility took the HeapTuple anyway, and deferenced it before calling the satisfies function. Independently of logical replication, this allows t_tableOid and t_self to be cross-checked via assertions in tqual.c. This seems like a useful way to make sure that all callers are setting these values properly, which has been previously put forward as desirable. Andres Freund, reviewed by Álvaro Herrera
2013-07-22 19:26:33 +02:00
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
/*
Run pgindent on 9.2 source tree in preparation for first 9.3 commit-fest.
2012-06-10 21:20:04 +02:00
* If the inserting transaction is marked invalid, then it aborted, and
* the tuple is definitely dead. If it's marked neither committed nor
* invalid, then we assume it's still alive (since the presumption is that
* all relevant hint bits were just set moments ago).
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
*/
Change the way we mark tuples as frozen. Instead of changing the tuple xmin to FrozenTransactionId, the combination of HEAP_XMIN_COMMITTED and HEAP_XMIN_INVALID, which were previously never set together, is now defined as HEAP_XMIN_FROZEN. A variety of previous proposals to freeze tuples opportunistically before vacuum_freeze_min_age is reached have foundered on the objection that replacing xmin by FrozenTransactionId might hinder debugging efforts when things in this area go awry; this patch is intended to solve that problem by keeping the XID around (but largely ignoring the value to which it is set). Third-party code that checks for HEAP_XMIN_INVALID on tuples where HEAP_XMIN_COMMITTED might be set will be broken by this change. To fix, use the new accessor macros in htup_details.h rather than consulting the bits directly. HeapTupleHeaderGetXmin has been modified to return FrozenTransactionId when the infomask bits indicate that the tuple is frozen; use HeapTupleHeaderGetRawXmin when you already know that the tuple isn't marked commited or frozen, or want the raw value anyway. We currently do this in routines that display the xmin for user consumption, in tqual.c where it's known to be safe and important for the avoidance of extra cycles, and in the function-caching code for various procedural languages, which shouldn't invalidate the cache just because the tuple gets frozen. Robert Haas and Andres Freund
2013-12-22 21:49:09 +01:00
if (!HeapTupleHeaderXminCommitted(tuple))
return HeapTupleHeaderXminInvalid(tuple) ? true : false;
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
/*
* If the inserting transaction committed, but any deleting transaction
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
* aborted, the tuple is still alive.
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
*/
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return false;
/*
* If the XMAX is just a lock, the tuple is still alive.
*/
if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return false;
/*
* If the Xmax is a MultiXact, it might be dead or alive, but we cannot
* know without checking pg_multixact.
*/
if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
return false;
/* If deleter isn't known to have committed, assume it's still running. */
if (!(tuple->t_infomask & HEAP_XMAX_COMMITTED))
return false;
/* Deleter committed, so tuple is dead if the XID is old enough. */
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
return TransactionIdPrecedes(HeapTupleHeaderGetRawXmax(tuple), OldestXmin);
Avoid repeated CLOG access from heap_hot_search_buffer. At the time we check whether the tuple is dead to all running transactions, we've already verified that it isn't visible to our scan, setting hint bits if appropriate. So there's no need to recheck CLOG for the all-dead test we do just a moment later. So, add HeapTupleIsSurelyDead() to test the appropriate condition under the assumption that all relevant hit bits are already set. Review by Tom Lane.
2012-05-02 18:40:07 +02:00
}
Create a new HeapTupleSatisfiesVacuum() routine in tqual.c that embodies the validity checking rules for VACUUM. Make some other rearrangements of the VACUUM code to allow more code to be shared between full and lazy VACUUM. Minor code cleanups and added comments for TransactionId manipulations.
2001-07-12 06:11:13 +02:00
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
/*
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
* XidInMVCCSnapshot
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
* Is the given XID still-in-progress according to the snapshot?
*
* Note: GetSnapshotData never stores either top xid or subxids of our own
* backend into a snapshot, so these xids will not be reported as "running"
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
* by this function. This is OK for current uses, because we always check
* TransactionIdIsCurrentTransactionId first, except for known-committed
* XIDs which could not be ours anyway.
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
*/
static bool
Clean up the representation of special snapshots by including a "method pointer" in every Snapshot struct. This allows removal of the case-by-case tests in HeapTupleSatisfiesVisibility, which should make it a bit faster (I didn't try any performance tests though). More importantly, we are no longer violating portable C practices by assuming that small integers are distinct from all pointer values, and HeapTupleSatisfiesDirty no longer has a non-reentrant API involving side-effects on a global variable. There were a couple of places calling HeapTupleSatisfiesXXX routines directly rather than through the HeapTupleSatisfiesVisibility macro. Since these places had to be changed anyway, I chose to make them go through the macro for uniformity. Along the way I renamed HeapTupleSatisfiesSnapshot to HeapTupleSatisfiesMVCC to emphasize that it's only used with MVCC-type snapshots. I was sorely tempted to rename HeapTupleSatisfiesVisibility to HeapTupleSatisfiesSnapshot, but forebore for the moment to avoid confusion and reduce the likelihood that this patch breaks some of the pending patches. Might want to reconsider doing that later.
2007-03-25 21:45:14 +02:00
XidInMVCCSnapshot(TransactionId xid, Snapshot snapshot)
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
{
uint32 i;
/*
* Make a quick range check to eliminate most XIDs without looking at the
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* xip arrays. Note that this is OK even if we convert a subxact XID to
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
* its parent below, because a subxact with XID < xmin has surely also got
* a parent with XID < xmin, while one with XID >= xmax must belong to a
* parent that was not yet committed at the time of this snapshot.
*/
/* Any xid < xmin is not in-progress */
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
/* Any xid >= xmax is in-progress */
if (TransactionIdFollowsOrEquals(xid, snapshot->xmax))
return true;
/*
pgindent run for 9.0
2010-02-26 03:01:40 +01:00
* Snapshot information is stored slightly differently in snapshots taken
* during recovery.
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
*/
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
if (!snapshot->takenDuringRecovery)
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
{
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
/*
pgindent run for 9.0
2010-02-26 03:01:40 +01:00
* If the snapshot contains full subxact data, the fastest way to
* check things is just to compare the given XID against both subxact
* XIDs and top-level XIDs. If the snapshot overflowed, we have to
* use pg_subtrans to convert a subxact XID to its parent XID, but
* then we need only look at top-level XIDs not subxacts.
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
*/
if (!snapshot->suboverflowed)
{
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
/* we have full data, so search subxip */
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
int32 j;
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
for (j = 0; j < snapshot->subxcnt; j++)
{
if (TransactionIdEquals(xid, snapshot->subxip[j]))
return true;
}
/* not there, fall through to search xip[] */
}
else
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
{
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
/*
* Snapshot overflowed, so convert xid to top-level. This is safe
* because we eliminated too-old XIDs above.
*/
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
xid = SubTransGetTopmostTransaction(xid);
/*
pgindent run for 9.0
2010-02-26 03:01:40 +01:00
* If xid was indeed a subxact, we might now have an xid < xmin,
* so recheck to avoid an array scan. No point in rechecking
* xmax.
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
*/
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
}
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
for (i = 0; i < snapshot->xcnt; i++)
{
if (TransactionIdEquals(xid, snapshot->xip[i]))
return true;
}
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
}
else
{
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
int32 j;
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
/*
pgindent run for 9.0
2010-02-26 03:01:40 +01:00
* In recovery we store all xids in the subxact array because it is by
* far the bigger array, and we mostly don't know which xids are
* top-level and which are subxacts. The xip array is empty.
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
*
* We start by searching subtrans, if we overflowed.
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
*/
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
if (snapshot->suboverflowed)
{
Speed up HeapTupleSatisfiesMVCC() by replacing the XID-in-progress test. Rather than consulting TransactionIdIsInProgress to see if an in-doubt transaction is still running, consult XidInMVCCSnapshot. That requires the same or fewer cycles as TransactionIdIsInProgress, and what's far more important, it does not access shared data structures (at least in the no-subxip-overflow case) so it incurs no contention. Furthermore, we would have had to check XidInMVCCSnapshot anyway before deciding that we were allowed to see the tuple. There should never be a case where XidInMVCCSnapshot says a transaction is done while TransactionIdIsInProgress says it's still running. The other way around is quite possible though. The result of that difference is that HeapTupleSatisfiesMVCC will no longer set hint bits on tuples whose source transactions recently finished but are still running according to our snapshot. The main cost of delaying the hint-bit setting is that repeated visits to a just-committed tuple, by transactions none of which have snapshots new enough to see the source transaction as done, will each execute TransactionIdIsCurrentTransactionId, which they need not have done before. However, that's normally just a small overhead, and no contention costs are involved; so it seems well worth the benefit of removing TransactionIdIsInProgress calls during the life of the source transaction. The core idea for this patch is due to Jeff Janes, who also did the legwork proving its performance benefits. His original proposal was to swap the order of TransactionIdIsInProgress and XidInMVCCSnapshot calls in some cases within HeapTupleSatisfiesMVCC. That was a bit messy though. The idea that we could dispense with calling TransactionIdIsInProgress altogether was mine, as is the final patch.
2015-08-27 00:18:57 +02:00
/*
* Snapshot overflowed, so convert xid to top-level. This is safe
* because we eliminated too-old XIDs above.
*/
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
xid = SubTransGetTopmostTransaction(xid);
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
/*
pgindent run for 9.0
2010-02-26 03:01:40 +01:00
* If xid was indeed a subxact, we might now have an xid < xmin,
* so recheck to avoid an array scan. No point in rechecking
* xmax.
Allow read only connections during recovery, known as Hot Standby. Enabled by recovery_connections = on (default) and forcing archive recovery using a recovery.conf. Recovery processing now emulates the original transactions as they are replayed, providing full locking and MVCC behaviour for read only queries. Recovery must enter consistent state before connections are allowed, so there is a delay, typically short, before connections succeed. Replay of recovering transactions can conflict and in some cases deadlock with queries during recovery; these result in query cancellation after max_standby_delay seconds have expired. Infrastructure changes have minor effects on normal running, though introduce four new types of WAL record. New test mode "make standbycheck" allows regression tests of static command behaviour on a standby server while in recovery. Typical and extreme dynamic behaviours have been checked via code inspection and manual testing. Few port specific behaviours have been utilised, though primary testing has been on Linux only so far. This commit is the basic patch. Additional changes will follow in this release to enhance some aspects of behaviour, notably improved handling of conflicts, deadlock detection and query cancellation. Changes to VACUUM FULL are also required. Simon Riggs, with significant and lengthy review by Heikki Linnakangas, including streamlined redesign of snapshot creation and two-phase commit. Important contributions from Florian Pflug, Mark Kirkwood, Merlin Moncure, Greg Stark, Gianni Ciolli, Gabriele Bartolini, Hannu Krosing, Robert Haas, Tatsuo Ishii, Hiroyuki Yamada plus support and feedback from many other community members.
2009-12-19 02:32:45 +01:00
*/
if (TransactionIdPrecedes(xid, snapshot->xmin))
return false;
}
/*
* We now have either a top-level xid higher than xmin or an
* indeterminate xid. We don't know whether it's top level or subxact
* but it doesn't matter. If it's present, the xid is visible.
*/
for (j = 0; j < snapshot->subxcnt; j++)
{
if (TransactionIdEquals(xid, snapshot->subxip[j]))
return true;
}
Arrange for GetSnapshotData to copy live-subtransaction XIDs from the PGPROC array into snapshots, and use this information to avoid visits to pg_subtrans in HeapTupleSatisfiesSnapshot. This appears to solve the pg_subtrans-related context swap storm problem that's been reported by several people for 8.1. While at it, modify GetSnapshotData to not take an exclusive lock on ProcArrayLock, as closer analysis shows that shared lock is always sufficient. Itagaki Takahiro and Tom Lane
2006-09-03 17:59:39 +02:00
}
return false;
}
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/*
* Is the tuple really only locked? That is, is it not updated?
*
* It's easy to check just infomask bits if the locker is not a multi; but
* otherwise we need to verify that the updating transaction has not aborted.
*
* This function is here because it follows the same time qualification rules
* laid out at the top of this file.
*/
bool
HeapTupleHeaderIsOnlyLocked(HeapTupleHeader tuple)
{
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
TransactionId xmax;
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
/* if there's no valid Xmax, then there's obviously no update either */
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return true;
if (tuple->t_infomask & HEAP_XMAX_LOCK_ONLY)
return true;
/* invalid xmax means no update */
if (!TransactionIdIsValid(HeapTupleHeaderGetRawXmax(tuple)))
return true;
/*
pgindent run for release 9.3 This is the first run of the Perl-based pgindent script. Also update pgindent instructions.
2013-05-29 22:58:43 +02:00
* if HEAP_XMAX_LOCK_ONLY is not set and not a multi, then this must
* necessarily have been updated
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
*/
if (!(tuple->t_infomask & HEAP_XMAX_IS_MULTI))
return false;
/* ... but if it's a multi, then perhaps the updating Xid aborted. */
xmax = HeapTupleGetUpdateXid(tuple);
Don't TransactionIdDidAbort in HeapTupleGetUpdateXid It is dangerous to do so, because some code expects to be able to see what's the true Xmax even if it is aborted (particularly while traversing HOT chains). So don't do it, and instead rely on the callers to verify for abortedness, if necessary. Several race conditions and bugs fixed in the process. One isolation test changes the expected output due to these. This also reverts commit c235a6a589b, which is no longer necessary. Backpatch to 9.3, where this function was introduced. Andres Freund
2013-11-29 20:08:06 +01:00
/* not LOCKED_ONLY, so it has to have an xmax */
Assert(TransactionIdIsValid(xmax));
Improve concurrency of foreign key locking This patch introduces two additional lock modes for tuples: "SELECT FOR KEY SHARE" and "SELECT FOR NO KEY UPDATE". These don't block each other, in contrast with already existing "SELECT FOR SHARE" and "SELECT FOR UPDATE". UPDATE commands that do not modify the values stored in the columns that are part of the key of the tuple now grab a SELECT FOR NO KEY UPDATE lock on the tuple, allowing them to proceed concurrently with tuple locks of the FOR KEY SHARE variety. Foreign key triggers now use FOR KEY SHARE instead of FOR SHARE; this means the concurrency improvement applies to them, which is the whole point of this patch. The added tuple lock semantics require some rejiggering of the multixact module, so that the locking level that each transaction is holding can be stored alongside its Xid. Also, multixacts now need to persist across server restarts and crashes, because they can now represent not only tuple locks, but also tuple updates. This means we need more careful tracking of lifetime of pg_multixact SLRU files; since they now persist longer, we require more infrastructure to figure out when they can be removed. pg_upgrade also needs to be careful to copy pg_multixact files over from the old server to the new, or at least part of multixact.c state, depending on the versions of the old and new servers. Tuple time qualification rules (HeapTupleSatisfies routines) need to be careful not to consider tuples with the "is multi" infomask bit set as being only locked; they might need to look up MultiXact values (i.e. possibly do pg_multixact I/O) to find out the Xid that updated a tuple, whereas they previously were assured to only use information readily available from the tuple header. This is considered acceptable, because the extra I/O would involve cases that would previously cause some commands to block waiting for concurrent transactions to finish. Another important change is the fact that locking tuples that have previously been updated causes the future versions to be marked as locked, too; this is essential for correctness of foreign key checks. This causes additional WAL-logging, also (there was previously a single WAL record for a locked tuple; now there are as many as updated copies of the tuple there exist.) With all this in place, contention related to tuples being checked by foreign key rules should be much reduced. As a bonus, the old behavior that a subtransaction grabbing a stronger tuple lock than the parent (sub)transaction held on a given tuple and later aborting caused the weaker lock to be lost, has been fixed. Many new spec files were added for isolation tester framework, to ensure overall behavior is sane. There's probably room for several more tests. There were several reviewers of this patch; in particular, Noah Misch and Andres Freund spent considerable time in it. Original idea for the patch came from Simon Riggs, after a problem report by Joel Jacobson. Most code is from me, with contributions from Marti Raudsepp, Alexander Shulgin, Noah Misch and Andres Freund. This patch was discussed in several pgsql-hackers threads; the most important start at the following message-ids: AANLkTimo9XVcEzfiBR-ut3KVNDkjm2Vxh+t8kAmWjPuv@mail.gmail.com 1290721684-sup-3951@alvh.no-ip.org 1294953201-sup-2099@alvh.no-ip.org 1320343602-sup-2290@alvh.no-ip.org 1339690386-sup-8927@alvh.no-ip.org 4FE5FF020200002500048A3D@gw.wicourts.gov 4FEAB90A0200002500048B7D@gw.wicourts.gov
2013-01-23 16:04:59 +01:00
if (TransactionIdIsCurrentTransactionId(xmax))
return false;
if (TransactionIdIsInProgress(xmax))
return false;
if (TransactionIdDidCommit(xmax))
return false;
/*
* not current, not in progress, not committed -- must have aborted or
* crashed
*/
return true;
}
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
/*
Fix typos in comments. Thom Brown
2014-03-17 12:47:28 +01:00
* check whether the transaciont id 'xid' is in the pre-sorted array 'xip'.
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
*/
static bool
TransactionIdInArray(TransactionId xid, TransactionId *xip, Size num)
{
return bsearch(&xid, xip, num,
sizeof(TransactionId), xidComparator) != NULL;
}
/*
* See the comments for HeapTupleSatisfiesMVCC for the semantics this function
* obeys.
*
* Only usable on tuples from catalog tables!
*
* We don't need to support HEAP_MOVED_(IN|OFF) for now because we only support
* reading catalog pages which couldn't have been created in an older version.
*
* We don't set any hint bits in here as it seems unlikely to be beneficial as
* those should already be set by normal access and it seems to be too
* dangerous to do so as the semantics of doing so during timetravel are more
* complicated than when dealing "only" with the present.
*/
bool
HeapTupleSatisfiesHistoricMVCC(HeapTuple htup, Snapshot snapshot,
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Buffer buffer)
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
{
HeapTupleHeader tuple = htup->t_data;
TransactionId xmin = HeapTupleHeaderGetXmin(tuple);
TransactionId xmax = HeapTupleHeaderGetRawXmax(tuple);
Assert(ItemPointerIsValid(&htup->t_self));
Assert(htup->t_tableOid != InvalidOid);
/* inserting transaction aborted */
if (HeapTupleHeaderXminInvalid(tuple))
{
Assert(!TransactionIdDidCommit(xmin));
return false;
}
Fix typos in comments. Thom Brown
2014-03-17 12:47:28 +01:00
/* check if it's one of our txids, toplevel is also in there */
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
else if (TransactionIdInArray(xmin, snapshot->subxip, snapshot->subxcnt))
{
bool resolved;
CommandId cmin = HeapTupleHeaderGetRawCommandId(tuple);
CommandId cmax = InvalidCommandId;
/*
* another transaction might have (tried to) delete this tuple or
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* cmin/cmax was stored in a combocid. So we need to lookup the actual
* values externally.
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
*/
resolved = ResolveCminCmaxDuringDecoding(HistoricSnapshotGetTupleCids(), snapshot,
htup, buffer,
&cmin, &cmax);
if (!resolved)
elog(ERROR, "could not resolve cmin/cmax of catalog tuple");
Assert(cmin != InvalidCommandId);
if (cmin >= snapshot->curcid)
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
return false; /* inserted after scan started */
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
/* fall through */
}
/* committed before our xmin horizon. Do a normal visibility check. */
else if (TransactionIdPrecedes(xmin, snapshot->xmin))
{
Assert(!(HeapTupleHeaderXminCommitted(tuple) &&
!TransactionIdDidCommit(xmin)));
/* check for hint bit first, consult clog afterwards */
if (!HeapTupleHeaderXminCommitted(tuple) &&
!TransactionIdDidCommit(xmin))
return false;
/* fall through */
}
/* beyond our xmax horizon, i.e. invisible */
else if (TransactionIdFollowsOrEquals(xmin, snapshot->xmax))
{
return false;
}
/* check if it's a committed transaction in [xmin, xmax) */
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
else if (TransactionIdInArray(xmin, snapshot->xip, snapshot->xcnt))
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
{
/* fall through */
}
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
/*
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* none of the above, i.e. between [xmin, xmax) but hasn't committed. I.e.
* invisible.
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
*/
else
{
return false;
}
/* at this point we know xmin is visible, go on to check xmax */
/* xid invalid or aborted */
if (tuple->t_infomask & HEAP_XMAX_INVALID)
return true;
/* locked tuples are always visible */
else if (HEAP_XMAX_IS_LOCKED_ONLY(tuple->t_infomask))
return true;
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
/*
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
* We can see multis here if we're looking at user tables or if somebody
* SELECT ... FOR SHARE/UPDATE a system table.
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
*/
else if (tuple->t_infomask & HEAP_XMAX_IS_MULTI)
{
xmax = HeapTupleGetUpdateXid(tuple);
}
Fix typos in comments. Thom Brown
2014-03-17 12:47:28 +01:00
/* check if it's one of our txids, toplevel is also in there */
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
if (TransactionIdInArray(xmax, snapshot->subxip, snapshot->subxcnt))
{
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
bool resolved;
CommandId cmin;
CommandId cmax = HeapTupleHeaderGetRawCommandId(tuple);
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
/* Lookup actual cmin/cmax values */
resolved = ResolveCminCmaxDuringDecoding(HistoricSnapshotGetTupleCids(), snapshot,
htup, buffer,
&cmin, &cmax);
if (!resolved)
elog(ERROR, "could not resolve combocid to cmax");
Assert(cmax != InvalidCommandId);
if (cmax >= snapshot->curcid)
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
return true; /* deleted after scan started */
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
else
pgindent run for 9.4 This includes removing tabs after periods in C comments, which was applied to back branches, so this change should not effect backpatching.
2014-05-06 18:12:18 +02:00
return false; /* deleted before scan started */
Introduce logical decoding. This feature, building on previous commits, allows the write-ahead log stream to be decoded into a series of logical changes; that is, inserts, updates, and deletes and the transactions which contain them. It is capable of handling decoding even across changes to the schema of the effected tables. The output format is controlled by a so-called "output plugin"; an example is included. To make use of this in a real replication system, the output plugin will need to be modified to produce output in the format appropriate to that system, and to perform filtering. Currently, information can be extracted from the logical decoding system only via SQL; future commits will add the ability to stream changes via walsender. Andres Freund, with review and other contributions from many other people, including Álvaro Herrera, Abhijit Menon-Sen, Peter Gheogegan, Kevin Grittner, Robert Haas, Heikki Linnakangas, Fujii Masao, Abhijit Menon-Sen, Michael Paquier, Simon Riggs, Craig Ringer, and Steve Singer.
2014-03-03 22:32:18 +01:00
}
/* below xmin horizon, normal transaction state is valid */
else if (TransactionIdPrecedes(xmax, snapshot->xmin))
{
Assert(!(tuple->t_infomask & HEAP_XMAX_COMMITTED &&
!TransactionIdDidCommit(xmax)));
/* check hint bit first */
if (tuple->t_infomask & HEAP_XMAX_COMMITTED)
return false;
/* check clog */
return !TransactionIdDidCommit(xmax);
}
/* above xmax horizon, we cannot possibly see the deleting transaction */
else if (TransactionIdFollowsOrEquals(xmax, snapshot->xmax))
return true;
/* xmax is between [xmin, xmax), check known committed array */
else if (TransactionIdInArray(xmax, snapshot->xip, snapshot->xcnt))
return false;
/* xmax is between [xmin, xmax), but known not to have committed yet */
else
return true;
}