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Use group updates when setting transaction status in clog. 

Commit 0e141c0fbb introduced a mechanism
to reduce contention on ProcArrayLock by having a single process clear
XIDs in the procArray on behalf of multiple processes, reducing the
need to hand the lock around.  Use a similar mechanism to reduce
contention on CLogControlLock.  Testing shows that this very
significantly reduces the amount of time waiting for CLogControlLock
on high-concurrency pgbench tests run on a large multi-socket
machines; whether that translates into a TPS improvement depends on
how much of that contention is simply shifted to some other lock,
particularly WALWriteLock.

Amit Kapila, with some cosmetic changes by me.  Extensively reviewed,
tested, and benchmarked over a period of about 15 months by Simon
Riggs, Robert Haas, Andres Freund, Jesper Pedersen, and especially by
Tomas Vondra and Dilip Kumar.

Discussion: http://postgr.es/m/CAA4eK1L_snxM_JcrzEstNq9P66++F4kKFce=1r5+D1vzPofdtg@mail.gmail.com
Discussion: http://postgr.es/m/CAA4eK1LyR2A+m=RBSZ6rcPEwJ=rVi1ADPSndXHZdjn56yqO6Vg@mail.gmail.com
Discussion: http://postgr.es/m/91d57161-d3ea-0cc2-6066-80713e4f90d7@2ndquadrant.com
This commit is contained in:
Robert Haas 2017-03-09 17:44:52 -05:00
parent f077e1b2e3
commit ccce90b398
5 changed files with 268 additions and 9 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

239
src/backend/access/transam/clog.c
View File

@ -35,11 +35,13 @@
#include "access/clog.h"
#include "access/slru.h"
#include "access/transam.h"
#include "access/twophase.h"
#include "access/xlog.h"
#include "access/xloginsert.h"
#include "access/xlogutils.h"
#include "miscadmin.h"
#include "pg_trace.h"
#include "storage/proc.h"
/*
* Defines for CLOG page sizes. A page is the same BLCKSZ as is used
@ -86,11 +88,17 @@ static void WriteZeroPageXlogRec(int pageno);
static void WriteTruncateXlogRec(int pageno);
static void TransactionIdSetPageStatus(TransactionId xid, int nsubxids,
TransactionId *subxids, XidStatus status,
XLogRecPtr lsn, int pageno);
XLogRecPtr lsn, int pageno,
bool all_xact_same_page);
static void TransactionIdSetStatusBit(TransactionId xid, XidStatus status,
XLogRecPtr lsn, int slotno);
static void set_status_by_pages(int nsubxids, TransactionId *subxids,
XidStatus status, XLogRecPtr lsn);
static bool TransactionGroupUpdateXidStatus(TransactionId xid, XidStatus status,
XLogRecPtr lsn, int pageno);
static void TransactionIdSetPageStatusInternal(TransactionId xid, int nsubxids,
TransactionId *subxids, XidStatus status,
XLogRecPtr lsn, int pageno);
/*
@ -173,7 +181,7 @@ TransactionIdSetTreeStatus(TransactionId xid, int nsubxids,
* Set the parent and all subtransactions in a single call
*/
TransactionIdSetPageStatus(xid, nsubxids, subxids, status, lsn,
pageno);
pageno, true);
}
else
{
@ -200,7 +208,7 @@ TransactionIdSetTreeStatus(TransactionId xid, int nsubxids,
*/
pageno = TransactionIdToPage(xid);
TransactionIdSetPageStatus(xid, nsubxids_on_first_page, subxids, status,
lsn, pageno);
lsn, pageno, false);
/*
* Now work through the rest of the subxids one clog page at a time,
@ -238,7 +246,7 @@ set_status_by_pages(int nsubxids, TransactionId *subxids,
TransactionIdSetPageStatus(InvalidTransactionId,
num_on_page, subxids + offset,
status, lsn, pageno);
status, lsn, pageno, false);
offset = i;
pageno = TransactionIdToPage(subxids[offset]);
}
@ -248,12 +256,70 @@ set_status_by_pages(int nsubxids, TransactionId *subxids,
* Record the final state of transaction entries in the commit log for
* all entries on a single page. Atomic only on this page.
*
* Otherwise API is same as TransactionIdSetTreeStatus()
* When there is contention on CLogControlLock, we try to group multiple
* updates; a single leader process will perform transaction status updates
* for multiple backends so that the number of times CLogControlLock needs
* to be acquired is reduced. We don't try to do this if a process has
* overflowed the subxids array in its PGPROC, since in that case we
* don't have a complete list of XIDs for it. We also skip it if a process
* has XIDs on more than one CLOG page, or on a different CLOG page than
* processes already waiting for a group update. This latter condition
* has a race condition (see TransactionGroupUpdateXidStatus) but the
* worst thing that happens if we mess up is a small loss of efficiency;
* the intent is to avoid having the leader access pages it wouldn't
* otherwise need to touch. Finally, we skip it for prepared transactions,
* which don't have the semaphore we would need for this optimization,
* and which are anyway probably not all that common.
*/
static void
TransactionIdSetPageStatus(TransactionId xid, int nsubxids,
TransactionId *subxids, XidStatus status,
XLogRecPtr lsn, int pageno)
XLogRecPtr lsn, int pageno,
bool all_xact_same_page)
{
if (all_xact_same_page &&
nsubxids < PGPROC_MAX_CACHED_SUBXIDS &&
!IsGXactActive())
{
/*
* If we can immediately acquire CLogControlLock, we update the status
* of our own XID and release the lock. If not, try use group XID
* update. If that doesn't work out, fall back to waiting for the
* lock to perform an update for this transaction only.
*/
if (LWLockConditionalAcquire(CLogControlLock, LW_EXCLUSIVE))
{
TransactionIdSetPageStatusInternal(xid, nsubxids, subxids, status, lsn, pageno);
LWLockRelease(CLogControlLock);
}
else if (!TransactionGroupUpdateXidStatus(xid, status, lsn, pageno))
{
LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
TransactionIdSetPageStatusInternal(xid, nsubxids, subxids, status, lsn, pageno);
LWLockRelease(CLogControlLock);
}
}
else
{
LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
TransactionIdSetPageStatusInternal(xid, nsubxids, subxids, status, lsn, pageno);
LWLockRelease(CLogControlLock);
}
}
/*
* Record the final state of transaction entry in the commit log
*
* We don't do any locking here; caller must handle that.
*/
static void
TransactionIdSetPageStatusInternal(TransactionId xid, int nsubxids,
TransactionId *subxids, XidStatus status,
XLogRecPtr lsn, int pageno)
{
int slotno;
int i;
@ -261,8 +327,7 @@ TransactionIdSetPageStatus(TransactionId xid, int nsubxids,
Assert(status == TRANSACTION_STATUS_COMMITTED ||
status == TRANSACTION_STATUS_ABORTED ||
(status == TRANSACTION_STATUS_SUB_COMMITTED && !TransactionIdIsValid(xid)));
LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
Assert(LWLockHeldByMeInMode(CLogControlLock, LW_EXCLUSIVE));
/*
* If we're doing an async commit (ie, lsn is valid), then we must wait
@ -310,8 +375,166 @@ TransactionIdSetPageStatus(TransactionId xid, int nsubxids,
}
ClogCtl->shared->page_dirty[slotno] = true;
}
/*
* When we cannot immediately acquire CLogControlLock in exclusive mode at
* commit time, add ourselves to a list of processes that need their XIDs
* status update. The first process to add itself to the list will acquire
* CLogControlLock in exclusive mode and set transaction status as required
* on behalf of all group members. This avoids a great deal of contention
* around CLogControlLock when many processes are trying to commit at once,
* since the lock need not be repeatedly handed off from one committing
* process to the next.
*
* Returns true when transaction status has been updated in clog; returns
* false if we decided against applying the optimization because the page
* number we need to update differs from those processes already waiting.
*/
static bool
TransactionGroupUpdateXidStatus(TransactionId xid, XidStatus status,
XLogRecPtr lsn, int pageno)
{
volatile PROC_HDR *procglobal = ProcGlobal;
PGPROC *proc = MyProc;
uint32 nextidx;
uint32 wakeidx;
/* We should definitely have an XID whose status needs to be updated. */
Assert(TransactionIdIsValid(xid));
/*
* Add ourselves to the list of processes needing a group XID status
* update.
*/
proc->clogGroupMember = true;
proc->clogGroupMemberXid = xid;
proc->clogGroupMemberXidStatus = status;
proc->clogGroupMemberPage = pageno;
proc->clogGroupMemberLsn = lsn;
nextidx = pg_atomic_read_u32(&procglobal->clogGroupFirst);
while (true)
{
/*
* Add the proc to list, if the clog page where we need to update the
* current transaction status is same as group leader's clog page.
*
* There is a race condition here, which is that after doing the below
* check and before adding this proc's clog update to a group, the
* group leader might have already finished the group update for this
* page and becomes group leader of another group. This will lead to a
* situation where a single group can have different clog page
* updates. This isn't likely and will still work, just maybe a bit
* less efficiently.
*/
if (nextidx != INVALID_PGPROCNO &&
ProcGlobal->allProcs[nextidx].clogGroupMemberPage != proc->clogGroupMemberPage)
{
proc->clogGroupMember = false;
return false;
}
pg_atomic_write_u32(&proc->clogGroupNext, nextidx);
if (pg_atomic_compare_exchange_u32(&procglobal->clogGroupFirst,
&nextidx,
(uint32) proc->pgprocno))
break;
}
/*
* If the list was not empty, the leader will update the status of our
* XID. It is impossible to have followers without a leader because the
* first process that has added itself to the list will always have
* nextidx as INVALID_PGPROCNO.
*/
if (nextidx != INVALID_PGPROCNO)
{
int extraWaits = 0;
/* Sleep until the leader updates our XID status. */
for (;;)
{
/* acts as a read barrier */
PGSemaphoreLock(proc->sem);
if (!proc->clogGroupMember)
break;
extraWaits++;
}
Assert(pg_atomic_read_u32(&proc->clogGroupNext) == INVALID_PGPROCNO);
/* Fix semaphore count for any absorbed wakeups */
while (extraWaits-- > 0)
PGSemaphoreUnlock(proc->sem);
return true;
}
/* We are the leader. Acquire the lock on behalf of everyone. */
LWLockAcquire(CLogControlLock, LW_EXCLUSIVE);
/*
* Now that we've got the lock, clear the list of processes waiting for
* group XID status update, saving a pointer to the head of the list.
* Trying to pop elements one at a time could lead to an ABA problem.
*/
nextidx = pg_atomic_exchange_u32(&procglobal->clogGroupFirst, INVALID_PGPROCNO);
/* Remember head of list so we can perform wakeups after dropping lock. */
wakeidx = nextidx;
/* Walk the list and update the status of all XIDs. */
while (nextidx != INVALID_PGPROCNO)
{
PGPROC *proc = &ProcGlobal->allProcs[nextidx];
PGXACT *pgxact = &ProcGlobal->allPgXact[nextidx];
/*
* Overflowed transactions should not use group XID status update
* mechanism.
*/
Assert(!pgxact->overflowed);
TransactionIdSetPageStatusInternal(proc->clogGroupMemberXid,
pgxact->nxids,
proc->subxids.xids,
proc->clogGroupMemberXidStatus,
proc->clogGroupMemberLsn,
proc->clogGroupMemberPage);
/* Move to next proc in list. */
nextidx = pg_atomic_read_u32(&proc->clogGroupNext);
}
/* We're done with the lock now. */
LWLockRelease(CLogControlLock);
/*
* Now that we've released the lock, go back and wake everybody up. We
* don't do this under the lock so as to keep lock hold times to a
* minimum. The system calls we need to perform to wake other processes
* up are probably slower and can cause performance slowdown if done under
* lock.
*/
while (wakeidx != INVALID_PGPROCNO)
{
PGPROC *proc = &ProcGlobal->allProcs[wakeidx];
wakeidx = pg_atomic_read_u32(&proc->clogGroupNext);
pg_atomic_write_u32(&proc->clogGroupNext, INVALID_PGPROCNO);
/* ensure all previous writes are visible before follower continues. */
pg_write_barrier();
proc->clogGroupMember = false;
if (proc != MyProc)
PGSemaphoreUnlock(proc->sem);
}
return true;
}
/*

2
src/backend/access/transam/twophase.c
View File

@ -176,7 +176,7 @@ static TwoPhaseStateData *TwoPhaseState;
/*
* Global transaction entry currently locked by us, if any.
*/
static GlobalTransaction MyLockedGxact = NULL;
GlobalTransaction MyLockedGxact = NULL;
static bool twophaseExitRegistered = false;

9
src/backend/storage/lmgr/proc.c
View File

@ -186,6 +186,7 @@ InitProcGlobal(void)
ProcGlobal->walwriterLatch = NULL;
ProcGlobal->checkpointerLatch = NULL;
pg_atomic_init_u32(&ProcGlobal->procArrayGroupFirst, INVALID_PGPROCNO);
pg_atomic_init_u32(&ProcGlobal->clogGroupFirst, INVALID_PGPROCNO);
/*
* Create and initialize all the PGPROC structures we'll need. There are
@ -408,6 +409,14 @@ InitProcess(void)
/* Initialize wait event information. */
MyProc->wait_event_info = 0;
/* Initialize fields for group transaction status update. */
MyProc->clogGroupMember = false;
MyProc->clogGroupMemberXid = InvalidTransactionId;
MyProc->clogGroupMemberXidStatus = TRANSACTION_STATUS_IN_PROGRESS;
MyProc->clogGroupMemberPage = -1;
MyProc->clogGroupMemberLsn = InvalidXLogRecPtr;
pg_atomic_init_u32(&MyProc->clogGroupNext, INVALID_PGPROCNO);
/*
* Acquire ownership of the PGPROC's latch, so that we can use WaitLatch
* on it. That allows us to repoint the process latch, which so far

13
src/include/access/twophase.h
View File

@ -24,6 +24,8 @@
*/
typedef struct GlobalTransactionData *GlobalTransaction;
extern GlobalTransaction MyLockedGxact;
/* GUC variable */
extern int max_prepared_xacts;
@ -36,6 +38,17 @@ extern void PostPrepare_Twophase(void);
extern PGPROC *TwoPhaseGetDummyProc(TransactionId xid);
extern BackendId TwoPhaseGetDummyBackendId(TransactionId xid);
/*
* IsGXactActive
* Return true if there is a Global transaction entry currently
* locked by us.
*/
static inline bool
IsGXactActive(void)
{
return MyLockedGxact ? true : false;
}
extern GlobalTransaction MarkAsPreparing(TransactionId xid, const char *gid,
TimestampTz prepared_at,
Oid owner, Oid databaseid);

14
src/include/storage/proc.h
View File

@ -14,6 +14,7 @@
#ifndef _PROC_H_
#define _PROC_H_
#include "access/clog.h"
#include "access/xlogdefs.h"
#include "lib/ilist.h"
#include "storage/latch.h"
@ -161,6 +162,17 @@ struct PGPROC
uint32 wait_event_info; /* proc's wait information */
/* Support for group transaction status update. */
bool clogGroupMember; /* true, if member of clog group */
pg_atomic_uint32 clogGroupNext; /* next clog group member */
TransactionId clogGroupMemberXid; /* transaction id of clog group member */
XidStatus clogGroupMemberXidStatus; /* transaction status of clog
* group member */
int clogGroupMemberPage; /* clog page corresponding to
* transaction id of clog group member */
XLogRecPtr clogGroupMemberLsn; /* WAL location of commit record for
* clog group member */
/* Per-backend LWLock. Protects fields below (but not group fields). */
LWLock backendLock;
@ -232,6 +244,8 @@ typedef struct PROC_HDR
PGPROC *bgworkerFreeProcs;
/* First pgproc waiting for group XID clear */
pg_atomic_uint32 procArrayGroupFirst;
/* First pgproc waiting for group transaction status update */
pg_atomic_uint32 clogGroupFirst;
/* WALWriter process's latch */
Latch *walwriterLatch;
/* Checkpointer process's latch */