The new hlCover() algorithm that I introduced in commit c9b0c678d
turns out to potentially take O(N^2) or worse time on long documents,
if there are many occurrences of individual query words but few or no
substrings that actually satisfy the query. (One way to hit this
behavior is with a "common_word & rare_word" type of query.) This
seems unavoidable given the original goal of checking every substring
of the document, so we have to back off that idea. Fortunately, it
seems unlikely that anyone would really want headlines spanning all of
a long document, so we can avoid the worse-than-linear behavior by
imposing a maximum length of substring that we'll consider.
For now, just hard-wire that maximum length as a multiple of max_words
times max_fragments. Perhaps at some point somebody will argue for
exposing it as a ts_headline parameter, but I'm hesitant to make such
a feature addition in a back-patched bug fix.
I also noted that the hlFirstIndex() function I'd added in that
commit was unnecessarily stupid: it really only needs to check whether
a HeadlineWordEntry's item pointer is null or not. This wouldn't make
all that much difference in typical cases with queries having just
a few terms, but a cycle shaved is a cycle earned.
In addition, add a CHECK_FOR_INTERRUPTS call in TS_execute_recurse.
This ensures that hlCover's loop is cancellable if it manages to take
a long time, and it may protect some other TS_execute callers as well.
Back-patch to 9.6 as the previous commit was. I also chose to add the
CHECK_FOR_INTERRUPTS call to 9.5. The old hlCover() algorithm seems
to avoid the O(N^2) behavior, at least on the test case I tried, but
nonetheless it's not very quick on a long document.
Per report from Stephen Frost.
Discussion: https://postgr.es/m/20200724160535.GW12375@tamriel.snowman.net
Create an optional region in the main shared memory segment that can be
used to acquire and release "fast" DSM segments, and can benefit from
huge pages allocated at cluster startup time, if configured. Fall back
to the existing mechanisms when that space is full. The size is
controlled by a new GUC min_dynamic_shared_memory, defaulting to 0.
Main region DSM segments initially contain whatever garbage the memory
held last time they were used, rather than zeroes. That change revealed
that DSA areas failed to initialize themselves correctly in memory that
wasn't zeroed first, so fix that problem.
Discussion: https://postgr.es/m/CA%2BhUKGLAE2QBv-WgGp%2BD9P_J-%3Dyne3zof9nfMaqq1h3EGHFXYQ%40mail.gmail.com
Avoid repeatedly calling lseek(SEEK_END) during recovery by caching
the size of each fork. For now, we can't use the same technique in
other processes, because we lack a shared invalidation mechanism.
Do this by generalizing the pre-existing caching used by FSM and VM
to support all forks.
Discussion: https://postgr.es/m/CAEepm%3D3SSw-Ty1DFcK%3D1rU-K6GSzYzfdD4d%2BZwapdN7dTa6%3DnQ%40mail.gmail.com
For pg_attribute, this allows to insert at once a full set of attributes
for a relation (roughly 15% of WAL reduction in extreme cases). For
pg_shdepend, this reduces the work done when creating new shared
dependencies from a database template. The number of slots used for the
insertion is capped at 64kB of data inserted for both, depending on the
number of items to insert and the length of the rows involved.
More can be done for other catalogs, like pg_depend. This part requires
a different approach as the number of slots to use depends also on the
number of entries discarded as pinned dependencies. This is also
related to the rework or dependency handling for ALTER TABLE and CREATE
TABLE, mainly.
Author: Daniel Gustafsson
Reviewed-by: Andres Freund, Michael Paquier
Discussion: https://postgr.es/m/20190213182737.mxn6hkdxwrzgxk35@alap3.anarazel.de
Create LatchWaitSet at backend startup time, and use it to implement
WaitLatch(). This avoids repeated epoll/kqueue setup and teardown
system calls.
Reorder SubPostmasterMain() slightly so that we restore the postmaster
pipe and Windows signal emulation before we reach InitPostmasterChild(),
to make this work in EXEC_BACKEND builds.
Reviewed-by: Kyotaro Horiguchi <horikyota.ntt@gmail.com>
Discussion: https://postgr.es/m/CA%2BhUKGJAC4Oqao%3DqforhNey20J8CiG2R%3DoBPqvfR0vOJrFysGw%40mail.gmail.com
Add a GUC that acts as a multiplier on work_mem. It gets applied when
sizing executor node hash tables that were previously size constrained
using work_mem alone.
The new GUC can be used to preferentially give hash-based nodes more
memory than the generic work_mem limit. It is intended to enable admin
tuning of the executor's memory usage. Overall system throughput and
system responsiveness can be improved by giving hash-based executor
nodes more memory (especially over sort-based alternatives, which are
often much less sensitive to being memory constrained).
The default value for hash_mem_multiplier is 1.0, which is also the
minimum valid value. This means that hash-based nodes continue to apply
work_mem in the traditional way by default.
hash_mem_multiplier is generally useful. However, it is being added now
due to concerns about hash aggregate performance stability for users
that upgrade to Postgres 13 (which added disk-based hash aggregation in
commit 1f39bce0). While the old hash aggregate behavior risked
out-of-memory errors, it is nevertheless likely that many users actually
benefited. Hash agg's previous indifference to work_mem during query
execution was not just faster; it also accidentally made aggregation
resilient to grouping estimate problems (at least in cases where this
didn't create destabilizing memory pressure).
hash_mem_multiplier can provide a certain kind of continuity with the
behavior of Postgres 12 hash aggregates in cases where the planner
incorrectly estimates that all groups (plus related allocations) will
fit in work_mem/hash_mem. This seems necessary because hash-based
aggregation is usually much slower when only a small fraction of all
groups can fit. Even when it isn't possible to totally avoid hash
aggregates that spill, giving hash aggregation more memory will reliably
improve performance (the same cannot be said for external sort
operations, which appear to be almost unaffected by memory availability
provided it's at least possible to get a single merge pass).
The PostgreSQL 13 release notes should advise users that increasing
hash_mem_multiplier can help with performance regressions associated
with hash aggregation. That can be taken care of by a later commit.
Author: Peter Geoghegan
Reviewed-By: Álvaro Herrera, Jeff Davis
Discussion: https://postgr.es/m/20200625203629.7m6yvut7eqblgmfo@alap3.anarazel.de
Discussion: https://postgr.es/m/CAH2-WzmD%2Bi1pG6rc1%2BCjc4V6EaFJ_qSuKCCHVnH%3DoruqD-zqow%40mail.gmail.com
Backpatch: 13-, where disk-based hash aggregation was introduced.
When fast promotion was supported in 9.3, non-fast promotion became
undocumented feature and it's basically not available for ordinary users.
However we decided not to remove non-fast promotion at that moment,
to leave it for a release or two for debugging purpose or as an emergency
method because fast promotion might have some issues, and then to
remove it later. Now, several versions were released since that decision
and there is no longer reason to keep supporting non-fast promotion.
Therefore this commit removes non-fast promotion.
Author: Fujii Masao
Reviewed-by: Hamid Akhtar, Kyotaro Horiguchi
Discussion: https://postgr.es/m/76066434-648f-f567-437b-54853b43398f@oss.nttdata.com
Use HyperLogLog to estimate the group cardinality in a spilled
partition. This estimate is used to choose the number of partitions if
we recurse.
The previous behavior was to use the number of tuples in a spilled
partition as the estimate for the number of groups, which lead to
overpartitioning. That could cause the number of batches to be much
higher than expected (with each batch being very small), which made it
harder to interpret EXPLAIN ANALYZE results.
Reviewed-by: Peter Geoghegan
Discussion: https://postgr.es/m/a856635f9284bc36f7a77d02f47bbb6aaf7b59b3.camel@j-davis.com
Backpatch-through: 13
There were various unnecessary differences between Hash Agg's EXPLAIN
ANALYZE output and Hash Join's. Here we modify the Hash Agg output so
that it's better aligned to Hash Join's.
The following changes have been made:
1. Start batches counter at 1 instead of 0.
2. Always display the "Batches" property, even when we didn't spill to
disk.
3. Use the text "Batches" instead of "HashAgg Batches" for text format.
4. Use the text "Memory Usage" instead of "Peak Memory Usage" for text
format.
5. Include "Batches" before "Memory Usage" in both text and non-text
formats.
In passing also modify the "Planned Partitions" property so that we show
it regardless of if the value is 0 or not for non-text EXPLAIN formats.
This was pointed out by Justin Pryzby and probably should have been part
of 40efbf870.
Reviewed-by: Justin Pryzby, Jeff Davis
Discussion: https://postgr.es/m/CAApHDvrshRnA6C0VFnu7Fb9TVvgGo80PUMm5+2DiaS1gEkPvtw@mail.gmail.com
Backpatch-through: 13, where HashAgg batching was introduced
This adds seven methods to the output plugin API, adding support for
streaming changes of large in-progress transactions.
* stream_start
* stream_stop
* stream_abort
* stream_commit
* stream_change
* stream_message
* stream_truncate
Most of this is a simple extension of the existing methods, with
the semantic difference that the transaction (or subtransaction)
is incomplete and may be aborted later (which is something the
regular API does not really need to deal with).
This also extends the 'test_decoding' plugin, implementing these
new stream methods.
The stream_start/start_stop are used to demarcate a chunk of changes
streamed for a particular toplevel transaction.
This commit simply adds these new APIs and the upcoming patch to "allow
the streaming mode in ReorderBuffer" will use these APIs.
Author: Tomas Vondra, Dilip Kumar, Amit Kapila
Reviewed-by: Amit Kapila
Tested-by: Neha Sharma and Mahendra Singh Thalor
Discussion: https://postgr.es/m/688b0b7f-2f6c-d827-c27b-216a8e3ea700@2ndquadrant.com
In the case of range partitioning, get_steps_using_prefix() assumes that
the passed-in prefix list contains at least one clause for each of the
partition keys earlier than one specified in the passed-in
step_lastkeyno, but the caller (ie, gen_prune_steps_from_opexps())
didn't take it into account, which led to a server crash or incorrect
results when the list contained no clauses for such partition keys, as
reported in bug #16500 and #16501 from Kobayashi Hisanori. Update the
caller to call that function only when the list created there contains
at least one clause for each of the earlier partition keys in the case
of range partitioning.
While at it, fix some other issues:
* The list to pass to get_steps_using_prefix() is allowed to contain
multiple clauses for the same partition key, as described in the
comment for that function, but that function actually assumed that the
list contained just a single clause for each of middle partition keys,
which led to an assertion failure when the list contained multiple
clauses for such partition keys. Update that function to match the
comment.
* In the case of hash partitioning, partition keys are allowed to be
NULL, in which case the list to pass to get_steps_using_prefix()
contains no clauses for NULL partition keys, but that function treats
that case as like the case of range partitioning, which led to the
assertion failure. Update the assertion test to take into account
NULL partition keys in the case of hash partitioning.
* Fix a typo in a comment in get_steps_using_prefix_recurse().
* gen_partprune_steps() failed to detect self-contradiction from
strict-qual clauses and an IS NULL clause for the same partition key
in some cases, producing incorrect partition-pruning steps, which led
to incorrect results of partition pruning, but didn't cause any
user-visible problems fortunately, as the self-contradiction is
detected later in the query planning. Update that function to detect
the self-contradiction.
Per bug #16500 and #16501 from Kobayashi Hisanori. Patch by me, initial
diagnosis for the reported issue and review by Dmitry Dolgov.
Back-patch to v11, where partition pruning was introduced.
Discussion: https://postgr.es/m/16500-d1613f2a78e1e090%40postgresql.org
Discussion: https://postgr.es/m/16501-5234a9a0394f6754%40postgresql.org
Note: This GUC was originally named enable_hashagg_disk when it appeared
in commit 1f39bce0, which added disk-based hash aggregation. It was
subsequently renamed in commit 92c58fd9.
Author: Peter Geoghegan
Reviewed-By: Jeff Davis, Álvaro Herrera
Discussion: https://postgr.es/m/9d9d1e1252a52ea1bad84ea40dbebfd54e672a0f.camel%40j-davis.com
Backpatch: 13-, where disk-based hash aggregation was introduced.
Previously we would allocate blocks to parallel workers during a parallel
sequential scan 1 block at a time. Since other workers were likely to
request a block before a worker returns for another block number to work
on, this could lead to non-sequential I/O patterns in each worker which
could cause the operating system's readahead to perform poorly or not at
all.
Here we change things so that we allocate consecutive "chunks" of blocks
to workers and have them work on those until they're done, at which time
we allocate another chunk for the worker. The size of these chunks is
based on the size of the relation.
Initial patch here was by Thomas Munro which showed some good improvements
just having a fixed chunk size of 64 blocks with a simple ramp-down near
the end of the scan. The revisions of the patch to make the chunk size
based on the relation size and the adjusted ramp-down in powers of two was
done by me, along with quite extensive benchmarking to determine the
optimal chunk sizes.
For the most part, benchmarks have shown significant performance
improvements for large parallel sequential scans on Linux, FreeBSD and
Windows using SSDs. It's less clear how this affects the performance of
cloud providers. Tests done so far are unable to obtain stable enough
performance to provide meaningful benchmark results. It is possible that
this could cause some performance regressions on more obscure filesystems,
so we may need to later provide users with some ability to get something
closer to the old behavior. For now, let's leave that until we see that
it's really required.
Author: Thomas Munro, David Rowley
Reviewed-by: Ranier Vilela, Soumyadeep Chakraborty, Robert Haas
Reviewed-by: Amit Kapila, Kirk Jamison
Discussion: https://postgr.es/m/CA+hUKGJ_EErDv41YycXcbMbCBkztA34+z1ts9VQH+ACRuvpxig@mail.gmail.com
The initial implementation of leader_pid in pg_stat_activity added by
b025f32 took the approach to strictly print what a PGPROC entry
includes. In short, if a backend has been involved in parallel query at
least once, leader_pid would remain set as long as the backend is alive.
For a parallel group leader, this means that the field would always be
set after it participated at least once in parallel query, and after
more discussions this could be confusing if using for example a
connection pooler.
This commit changes the data printed so as leader_pid becomes always
NULL for a parallel group leader, showing up a non-NULL value only for
the parallel workers, and actually as long as a parallel query is
running as workers are shut down once the query has completed.
This does not change the definition of any catalog, so no catalog bump
is needed. Per discussion with Justin Pryzby, Álvaro Herrera, Julien
Rouhaud and me.
Discussion: https://postgr.es/m/20200721035145.GB17300@paquier.xyz
Backpatch-through: 13
OpenSSL deprecated RAND_cleanup(), and OpenSSL 1.1.0 made it into a
no-op. Replace it with RAND_poll(), per an OpenSSL community
recommendation. While this has no user-visible consequences under
OpenSSL defaults, it might help under non-default settings.
Daniel Gustafsson, reviewed by David Steele and Michael Paquier.
Discussion: https://postgr.es/m/9B038FA5-23E8-40D0-B932-D515E1D8F66A@yesql.se
At least on Linux and macOS, fread() turns out to have far higher
per-call overhead than one could wish. Reading 64KB of data at a time
and then parceling it out with our own memcpy logic makes binary COPY
from a file significantly faster --- around 30% in simple testing for
cases with narrow text columns (on Linux ... even more on macOS).
In binary COPY from frontend, there's no per-call fread(), and this
patch introduces an extra layer of memcpy'ing, but it still manages
to eke out a small win. Apparently, the control-logic overhead in
CopyGetData() is enough to be worth avoiding for small fetches.
Bharath Rupireddy and Amit Langote, reviewed by Vignesh C,
cosmetic tweaks by me
Discussion: https://postgr.es/m/CALj2ACU5Bz06HWLwqSzNMN=Gupoj6Rcn_QVC+k070V4em9wu=A@mail.gmail.com
Commit 85c9d347 addressed a similar problem for Gather and Gather
Merge nodes but forgot to account for nodes above parallel nodes. This
still works for nodes above Gather node because we shut down the workers
for Gather node as soon as there are no more tuples. We can do a similar
thing for Gather Merge as well but it seems better to account for stats
during nodes shutdown after completing the execution.
Reported-by: Stéphane Lorek, Jehan-Guillaume de Rorthais
Author: Jehan-Guillaume de Rorthais <jgdr@dalibo.com>
Reviewed-by: Amit Kapila
Backpatch-through: 10, where it was introduced
Discussion: https://postgr.es/m/20200718160206.584532a2@firost
It's fairly silly that ignoring NOT subexpressions is TS_execute's
default behavior. It's wrong on its face and it encourages errors
of omission. Moreover, the only two remaining callers that aren't
specifying CALC_NOT are in ts_headline calculations, and it's very
arguable that those are bugs: if you've specified "!foo" in your
query, why would you want to get a headline that includes "foo"?
Hence, rip that out and change the default behavior to be to calculate
NOT accurately. As a concession to the slim chance that there is still
somebody somewhere who needs the incorrect behavior, provide a new
SKIP_NOT flag to explicitly request that.
Back-patch into v13, mainly because it seems better to change this
at the same time as the previous commit's rejiggering of TS_execute
related APIs. Any outside callers affected by this change are
probably also affected by that one.
Discussion: https://postgr.es/m/CALT9ZEE-aLotzBg-pOp2GFTesGWVYzXA3=mZKzRDa_OKnLF7Mg@mail.gmail.com
Text search sometimes failed to find valid matches, for instance
'!crew:A'::tsquery might fail to locate 'crew:1B'::tsvector during
an index search. The root of the issue is that TS_execute's callback
functions were not changed to use ternary (yes/no/maybe) reporting
when we made the search logic itself do so. It's somewhat annoying
to break that API, but on the other hand we now see that any code
using plain boolean logic is almost certainly broken since the
addition of phrase search. There seem to be very few outside callers
of this code anyway, so we'll just break them intentionally to get
them to adapt.
This allows removal of tsginidx.c's private re-implementation of
TS_execute, since that's now entirely duplicative. It's also no
longer necessary to avoid use of CALC_NOT in tsgistidx.c, since
the underlying callbacks can now do something reasonable.
Back-patch into v13. We can't change this in stable branches,
but it seems not quite too late to fix it in v13.
Tom Lane and Pavel Borisov
Discussion: https://postgr.es/m/CALT9ZEE-aLotzBg-pOp2GFTesGWVYzXA3=mZKzRDa_OKnLF7Mg@mail.gmail.com
When wal_level=logical, write invalidations at command end into WAL so
that decoding can use this information.
This patch is required to allow the streaming of in-progress transactions
in logical decoding. The actual work to allow streaming will be committed
as a separate patch.
We still add the invalidations to the cache and write them to WAL at
commit time in RecordTransactionCommit(). This uses the existing
XLOG_INVALIDATIONS xlog record type, from the RM_STANDBY_ID resource
manager (see LogStandbyInvalidations for details).
So existing code relying on those invalidations (e.g. redo) does not need
to be changed.
The invalidations written at command end uses a new xlog record type
XLOG_XACT_INVALIDATIONS, from RM_XACT_ID resource manager. See
LogLogicalInvalidations for details.
These new xlog records are ignored by existing redo procedures, which
still rely on the invalidations written to commit records.
The invalidations are decoded and accumulated in top-transaction, and then
executed during replay. This obviates the need to decode the
invalidations as part of a commit record.
Bump XLOG_PAGE_MAGIC, since this introduces XLOG_XACT_INVALIDATIONS.
Author: Dilip Kumar, Tomas Vondra, Amit Kapila
Reviewed-by: Amit Kapila
Tested-by: Neha Sharma and Mahendra Singh Thalor
Discussion: https://postgr.es/m/688b0b7f-2f6c-d827-c27b-216a8e3ea700@2ndquadrant.com
Add infinities that behave the same as they do in the floating-point
data types. Aside from any intrinsic usefulness these may have,
this closes an important gap in our ability to convert floating
values to numeric and/or replace float-based APIs with numeric.
The new values are represented by bit patterns that were formerly
not used (although old code probably would take them for NaNs).
So there shouldn't be any pg_upgrade hazard.
Patch by me, reviewed by Dean Rasheed and Andrew Gierth
Discussion: https://postgr.es/m/606717.1591924582@sss.pgh.pa.us
convutils.pm used implicit conversion of undefined value to integer
zero. Some of conversion scripts are susceptible to regexp greediness.
Fix, avoiding whitespace changes in the output. Also update ICU URLs
that moved.
No need to back-patch, because the output of these scripts is also in
the source tree so we shouldn't need to rerun them on back-branches.
Author: Kyotaro Horiguchi <horikyoga.ntt@gmail.com>
Discussion: https://postgr.es/m/CA%2BhUKGJ7SEGLbj%3D%3DTQCcyKRA9aqj8%2B6L%3DexSq1y25TA%3DWxLziQ%40mail.gmail.com
Since commit 044c99bc5, eqjoinsel passes the passed-in collation
to any operators it invokes. However, neqjoinsel failed to pass
on whatever collation it got, so that if we invoked a
collation-dependent operator via that code path, we'd get "could not
determine which collation to use for string comparison" or the like.
Per report from Justin Pryzby. Back-patch to v12, like the previous
commit.
Discussion: https://postgr.es/m/20200721191606.GL5748@telsasoft.com
Holding just a buffer pin (with no buffer lock) on an nbtree buffer/page
provides very weak guarantees, especially compared to heapam, where it's
often safe to read a page while only holding a buffer pin. This commit
has Valgrind enforce the following rule: it is never okay to access an
nbtree buffer without holding both a pin and a lock on the buffer.
A draft version of this patch detected questionable code that was
cleaned up by commits fa7ff642 and 7154aa16. The code in question used
to access an nbtree buffer page's special/opaque area with no buffer
lock (only a buffer pin). This practice (which isn't obviously unsafe)
is hereby formally disallowed in nbtree. There doesn't seem to be any
reason to allow it, and banning it keeps things simple for Valgrind.
The new checks are implemented by adding custom nbtree client requests
(located in LockBuffer() wrapper functions); these requests are
"superimposed" on top of the generic bufmgr.c Valgrind client requests
added by commit 1e0dfd16. No custom resource management cleanup code is
needed to undo the effects of marking buffers as non-accessible under
this scheme.
Author: Peter Geoghegan
Reviewed-By: Anastasia Lubennikova, Georgios Kokolatos
Discussion: https://postgr.es/m/CAH2-WzkLgyN3zBvRZ1pkNJThC=xi_0gpWRUb_45eexLH1+k2_Q@mail.gmail.com
Rather than always insisting on an exact match of the type OID in the
data to the element type or column type we expect, complain only when
both OIDs fall within the manually-assigned range. This acknowledges
the reality that user-defined types don't have stable OIDs, while
still preserving some of the mistake-detection value of the old test.
(It's not entirely clear whether to error if one OID is manually
assigned and the other isn't. But perhaps that case could arise in
cross-version cases where a former extension type has been imported
into core, so I let it pass.)
This change allows us to remove the prohibition on binary transfer
of user-defined arrays and composites in the recently-landed support
for binary logical replication (commit 9de77b545). We can just
unconditionally drop that check, since if the client has asked for
binary transfer it must be >= v14 and must have this change.
Discussion: https://postgr.es/m/CADK3HH+R3xMn=8t3Ct+uD+qJ1KD=Hbif5NFMJ+d5DkoCzp6Vgw@mail.gmail.com
The bug fixed in commit 72eab84a5 would not have occurred if initdb
had a less surprising rule about which columns should be marked
NOT NULL by default. Let's make that rule be strictly that the
column must be fixed-width and its predecessors must be fixed-width
and NOT NULL, removing the hacky and unsafe exceptions for oidvector
and int2vector.
Since we do still want all existing oidvector and int2vector columns
to be marked NOT NULL, we have to put BKI_FORCE_NOT_NULL labels on
them. But making this less magic and more documented seems like a
good idea, even if it's a shade more verbose.
I didn't bump catversion since the initial catalog contents are
not actually changed by this patch. Note however that the
contents of postgres.bki do change, and feeding an old copy of
that to a new backend will produce wrong results.
Discussion: https://postgr.es/m/204760.1595181800@sss.pgh.pa.us
The executor checks for this error, and so does the bootstrap catalog
loader, but we never checked for it in retail catalog manipulations.
The folly of that has now been exposed, so let's add assertions
checking it. Checking in CatalogTupleInsert[WithInfo] and
CatalogTupleUpdate[WithInfo] should be enough to cover this.
Back-patch to v10; the aforesaid functions didn't exist before that,
and it didn't seem worth adapting the patch to the oldest branches.
But given the risk of JIT crashes, I think we certainly need this
as far back as v11.
Pre-v13, we have to explicitly exclude pg_subscription.subslotname
and pg_subscription_rel.srsublsn from the checks, since they are
mismarked. (Even if we change our mind about applying BKI_FORCE_NULL
in the branch tips, it doesn't seem wise to have assertions that
would fire in existing databases.)
Discussion: https://postgr.es/m/298837.1595196283@sss.pgh.pa.us
Many situations where the offset is infinity were not handled sanely.
We should generally allow the val versus base +/- offset comparison to
proceed according to the normal rules of IEEE arithmetic; however, we
must do something special for the corner cases where base +/- offset
would produce NaN due to subtracting two like-signed infinities.
That corresponds to asking which values infinitely precede +inf or
infinitely follow -inf, which should certainly be true of any finite
value or of the opposite-signed infinity. After some discussion it
seems that the best decision is to make it true of the same-signed
infinity as well, ie, just return constant TRUE if the calculation
would produce a NaN.
(We could write this with a bit less code by subtracting anyway,
and then checking for a NaN result. However, I prefer this
formulation because it'll be easier to transpose into numeric.c.)
Although this seems like clearly a bug fix with respect to finite
values, it is less obviously correct for infinite values. Between
that and the fact that the whole issue only arises for very strange
window specifications (e.g. RANGE BETWEEN 'inf' PRECEDING AND 'inf'
PRECEDING), I'll desist from back-patching.
Noted by Dean Rasheed.
Discussion: https://postgr.es/m/3393130.1594925893@sss.pgh.pa.us
Strengthen the LockBuffer() assertion that verifies BufferIsValid() by
making it verify BufferIsPinned() instead. Do the same in nearby
related functions.
There is probably not much chance that anybody will try to lock a buffer
that is not already pinned, but we might as well make sure of that.
The code has always set this column to NULL when it's not valid,
but the catalog header's description failed to reflect that,
as did the SGML docs, as did some of the code. To prevent future
coding errors of the same ilk, let's hide the field from C code
as though it were variable-length (which, in a sense, it is).
As with commit 72eab84a5, we can only fix this cleanly in HEAD
and v13; the problem extends further back but we'll need some
klugery in the released branches.
Discussion: https://postgr.es/m/367660.1595202498@sss.pgh.pa.us
Commit b9c130a1f failed to apply the publisher-to-subscriber column
mapping while checking which columns were updated. Perhaps less
significantly, it didn't exclude dropped columns either. This could
result in an incorrect updated-columns bitmap and thus wrong decisions
about whether to fire column-specific triggers on the subscriber while
applying updates. In HEAD (since commit 9de77b545), it could also
result in accesses off the end of the colstatus array, as detected by
buildfarm member skink. Fix the logic, and adjust 003_constraints.pl
so that the problem is exposed in unpatched code.
In HEAD, also add some assertions to check that we don't access off
the ends of these newly variable-sized arrays.
Back-patch to v10, as b9c130a1f was.
Discussion: https://postgr.es/m/CAH2-Wz=79hKQ4++c5A060RYbjTHgiYTHz=fw6mptCtgghH2gJA@mail.gmail.com
max_slot_wal_keep_size that was added in v13 and wal_keep_segments are
the GUC parameters to specify how much WAL files to retain for
the standby servers. While max_slot_wal_keep_size accepts the number of
bytes of WAL files, wal_keep_segments accepts the number of WAL files.
This difference of setting units between those similar parameters could
be confusing to users.
To alleviate this situation, this commit renames wal_keep_segments to
wal_keep_size, and make users specify the WAL size in it instead of
the number of WAL files.
There was also the idea to rename max_slot_wal_keep_size to
max_slot_wal_keep_segments, in the discussion. But we have been moving
away from measuring in segments, for example, checkpoint_segments was
replaced by max_wal_size. So we concluded to rename wal_keep_segments
to wal_keep_size.
Back-patch to v13 where max_slot_wal_keep_size was added.
Author: Fujii Masao
Reviewed-by: Álvaro Herrera, Kyotaro Horiguchi, David Steele
Discussion: https://postgr.es/m/574b4ea3-e0f9-b175-ead2-ebea7faea855@oss.nttdata.com
The logical decoding infrastructure needs to know which top-level
transaction the subxact belongs to, in order to decode all the
changes. Until now that might be delayed until commit, due to the
caching (GPROC_MAX_CACHED_SUBXIDS), preventing features requiring
incremental decoding.
So we also write the assignment info into WAL immediately, as part
of the next WAL record (to minimize overhead) only when wal_level=logical.
We can not remove the existing XLOG_XACT_ASSIGNMENT WAL as that is
required for avoiding overflow in the hot standby snapshot.
Bump XLOG_PAGE_MAGIC, since this introduces XLR_BLOCK_ID_TOPLEVEL_XID.
Author: Tomas Vondra, Dilip Kumar, Amit Kapila
Reviewed-by: Amit Kapila
Tested-by: Neha Sharma and Mahendra Singh Thalor
Discussion: https://postgr.es/m/688b0b7f-2f6c-d827-c27b-216a8e3ea700@2ndquadrant.com
There was no easy way to find how many times generic and custom plans
have been executed for a prepared statement. This commit exposes those
numbers of times in pg_prepared_statements view.
Author: Atsushi Torikoshi, Kyotaro Horiguchi
Reviewed-by: Tatsuro Yamada, Masahiro Ikeda, Fujii Masao
Discussion: https://postgr.es/m/CACZ0uYHZ4M=NZpofH6JuPHeX=__5xcDELF8hT8_2T+R55w4RQw@mail.gmail.com
Valgrind builds with assertions enabled sometimes perform a
theoretically unsafe page access inside an assertion in
heapam_tuple_lock(). This happened when the eval-plan-qual isolation
test ran one of the permutations added by commit a2418f9e23.
Avoid complaints from Valgrind by moving the assertion ever so slightly.
This is minor cleanup for commit 1e0dfd16, which added Valgrind buffer
access instrumentation.
No backpatch, since this only happens within an assertion, and seems
very unlikely to cause any real problems even with assert-enabled
builds.
Make PinBuffer() mark buffers as defined to Valgrind unconditionally,
including when the buffer header spinlock must be acquired. Failure to
handle that case could lead to false positive reports from Valgrind.
This theoretically creates a risk that we'll mark buffers defined even
when external callers don't end up with a buffer pin. That seems
perfectly acceptable, though, since in general we make no guarantees
about buffers that are unsafe to access being reliably marked as unsafe.
Oversight in commit 1e0dfd16, which added valgrind buffer access
instrumentation.
This patch adds a "binary" option to CREATE/ALTER SUBSCRIPTION.
When that's set, the publisher will send data using the data type's
typsend function if any, rather than typoutput. This is generally
faster, if slightly less robust.
As committed, we won't try to transfer user-defined array or composite
types in binary, for fear that type OIDs won't match at the subscriber.
This might be changed later, but it seems like fit material for a
follow-on patch.
Dave Cramer, reviewed by Daniel Gustafsson, Petr Jelinek, and others;
adjusted some by me
Discussion: https://postgr.es/m/CADK3HH+R3xMn=8t3Ct+uD+qJ1KD=Hbif5NFMJ+d5DkoCzp6Vgw@mail.gmail.com