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[PATCH 1/5] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY).
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* [PATCH 1/5] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY).
@ 2026-03-11 13:15  Antonin Houska <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Antonin Houska @ 2026-03-11 13:15 UTC (permalink / raw)

This patch moves the code to index_create_copy() and adds a "concurrently"
parameter so it can be used by REPACK (CONCURRENTLY).

With the CONCURRENTLY option, REPACK cannot simply swap the heap file and
rebuild its indexes. Instead, it needs to build a separate set of indexes
(including system catalog entries) *before* the actual swap, to reduce the
time AccessExclusiveLock needs to be held for.
---
 src/backend/catalog/index.c      | 54 +++++++++++++++++++++++---------
 src/backend/commands/indexcmds.c |  6 ++--
 src/backend/nodes/makefuncs.c    |  9 +++---
 src/include/catalog/index.h      |  3 ++
 src/include/nodes/makefuncs.h    |  4 ++-
 5 files changed, 54 insertions(+), 22 deletions(-)

diff --git a/src/backend/catalog/index.c b/src/backend/catalog/index.c
index 5ee6389d39c..f8e6c3d804e 100644
--- a/src/backend/catalog/index.c
+++ b/src/backend/catalog/index.c
@@ -1288,15 +1288,32 @@ index_create(Relation heapRelation,
 /*
  * index_concurrently_create_copy
  *
- * Create concurrently an index based on the definition of the one provided by
- * caller.  The index is inserted into catalogs and needs to be built later
- * on.  This is called during concurrent reindex processing.
- *
- * "tablespaceOid" is the tablespace to use for this index.
+ * Variant of index_create_copy(), called during concurrent reindex
+ * processing.
  */
 Oid
 index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 							   Oid tablespaceOid, const char *newName)
+{
+	return index_create_copy(heapRelation, oldIndexId, tablespaceOid, newName,
+							 true);
+}
+
+/*
+ * index_create_copy
+ *
+ * Create an index based on the definition of the one provided by caller.  The
+ * index is inserted into catalogs. If 'concurrently' is TRUE, it needs to be
+ * built later on, otherwise it's built immediately.
+ *
+ * "tablespaceOid" is the tablespace to use for this index.
+ *
+ * The actual implementation of index_concurrently_create_copy(), reusable for
+ * other purposes.
+ */
+Oid
+index_create_copy(Relation heapRelation, Oid oldIndexId, Oid tablespaceOid,
+				  const char *newName, bool concurrently)
 {
 	Relation	indexRelation;
 	IndexInfo  *oldInfo,
@@ -1315,6 +1332,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 	List	   *indexColNames = NIL;
 	List	   *indexExprs = NIL;
 	List	   *indexPreds = NIL;
+	int			flags = 0;
 
 	indexRelation = index_open(oldIndexId, RowExclusiveLock);
 
@@ -1325,7 +1343,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 	 * Concurrent build of an index with exclusion constraints is not
 	 * supported.
 	 */
-	if (oldInfo->ii_ExclusionOps != NULL)
+	if (oldInfo->ii_ExclusionOps != NULL && concurrently)
 		ereport(ERROR,
 				(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
 				 errmsg("concurrent index creation for exclusion constraints is not supported")));
@@ -1381,9 +1399,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 	}
 
 	/*
-	 * Build the index information for the new index.  Note that rebuild of
-	 * indexes with exclusion constraints is not supported, hence there is no
-	 * need to fill all the ii_Exclusion* fields.
+	 * Build the index information for the new index.
 	 */
 	newInfo = makeIndexInfo(oldInfo->ii_NumIndexAttrs,
 							oldInfo->ii_NumIndexKeyAttrs,
@@ -1392,10 +1408,13 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 							indexPreds,
 							oldInfo->ii_Unique,
 							oldInfo->ii_NullsNotDistinct,
-							false,	/* not ready for inserts */
-							true,
+							!concurrently,	/* isready */
+							concurrently,	/* concurrent */
 							indexRelation->rd_indam->amsummarizing,
-							oldInfo->ii_WithoutOverlaps);
+							oldInfo->ii_WithoutOverlaps,
+							oldInfo->ii_ExclusionOps,
+							oldInfo->ii_ExclusionProcs,
+							oldInfo->ii_ExclusionStrats);
 
 	/*
 	 * Extract the list of column names and the column numbers for the new
@@ -1433,6 +1452,9 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 		stattargets[i].isnull = isnull;
 	}
 
+	if (concurrently)
+		flags = INDEX_CREATE_SKIP_BUILD | INDEX_CREATE_CONCURRENT;
+
 	/*
 	 * Now create the new index.
 	 *
@@ -1456,7 +1478,7 @@ index_concurrently_create_copy(Relation heapRelation, Oid oldIndexId,
 							  indcoloptions->values,
 							  stattargets,
 							  reloptionsDatum,
-							  INDEX_CREATE_SKIP_BUILD | INDEX_CREATE_CONCURRENT,
+							  flags,
 							  0,
 							  true, /* allow table to be a system catalog? */
 							  false,	/* is_internal? */
@@ -2450,7 +2472,8 @@ BuildIndexInfo(Relation index)
 					   indexStruct->indisready,
 					   false,
 					   index->rd_indam->amsummarizing,
-					   indexStruct->indisexclusion && indexStruct->indisunique);
+					   indexStruct->indisexclusion && indexStruct->indisunique,
+					   NULL, NULL, NULL);
 
 	/* fill in attribute numbers */
 	for (i = 0; i < numAtts; i++)
@@ -2510,7 +2533,8 @@ BuildDummyIndexInfo(Relation index)
 					   indexStruct->indisready,
 					   false,
 					   index->rd_indam->amsummarizing,
-					   indexStruct->indisexclusion && indexStruct->indisunique);
+					   indexStruct->indisexclusion && indexStruct->indisunique,
+					   NULL, NULL, NULL);
 
 	/* fill in attribute numbers */
 	for (i = 0; i < numAtts; i++)
diff --git a/src/backend/commands/indexcmds.c b/src/backend/commands/indexcmds.c
index 635679cc1f2..34209bd1393 100644
--- a/src/backend/commands/indexcmds.c
+++ b/src/backend/commands/indexcmds.c
@@ -243,7 +243,8 @@ CheckIndexCompatible(Oid oldId,
 	 */
 	indexInfo = makeIndexInfo(numberOfAttributes, numberOfAttributes,
 							  accessMethodId, NIL, NIL, false, false,
-							  false, false, amsummarizing, isWithoutOverlaps);
+							  false, false, amsummarizing, isWithoutOverlaps,
+							  NULL, NULL, NULL);
 	typeIds = palloc_array(Oid, numberOfAttributes);
 	collationIds = palloc_array(Oid, numberOfAttributes);
 	opclassIds = palloc_array(Oid, numberOfAttributes);
@@ -930,7 +931,8 @@ DefineIndex(ParseState *pstate,
 							  !concurrent,
 							  concurrent,
 							  amissummarizing,
-							  stmt->iswithoutoverlaps);
+							  stmt->iswithoutoverlaps,
+							  NULL, NULL, NULL);
 
 	typeIds = palloc_array(Oid, numberOfAttributes);
 	collationIds = palloc_array(Oid, numberOfAttributes);
diff --git a/src/backend/nodes/makefuncs.c b/src/backend/nodes/makefuncs.c
index 2caec621d73..ca7e21e8349 100644
--- a/src/backend/nodes/makefuncs.c
+++ b/src/backend/nodes/makefuncs.c
@@ -834,7 +834,8 @@ IndexInfo *
 makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid, List *expressions,
 			  List *predicates, bool unique, bool nulls_not_distinct,
 			  bool isready, bool concurrent, bool summarizing,
-			  bool withoutoverlaps)
+			  bool withoutoverlaps, Oid *exclusion_ops, Oid *exclusion_procs,
+			  uint16 *exclusion_strats)
 {
 	IndexInfo  *n = makeNode(IndexInfo);
 
@@ -863,9 +864,9 @@ makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid, List *expressions,
 	n->ii_PredicateState = NULL;
 
 	/* exclusion constraints */
-	n->ii_ExclusionOps = NULL;
-	n->ii_ExclusionProcs = NULL;
-	n->ii_ExclusionStrats = NULL;
+	n->ii_ExclusionOps = exclusion_ops;
+	n->ii_ExclusionProcs = exclusion_procs;
+	n->ii_ExclusionStrats = exclusion_strats;
 
 	/* speculative inserts */
 	n->ii_UniqueOps = NULL;
diff --git a/src/include/catalog/index.h b/src/include/catalog/index.h
index b259c4141ed..3426087b445 100644
--- a/src/include/catalog/index.h
+++ b/src/include/catalog/index.h
@@ -99,6 +99,9 @@ extern Oid	index_concurrently_create_copy(Relation heapRelation,
 										   Oid oldIndexId,
 										   Oid tablespaceOid,
 										   const char *newName);
+extern Oid	index_create_copy(Relation heapRelation, Oid oldIndexId,
+							  Oid tablespaceOid, const char *newName,
+							  bool concurrently);
 
 extern void index_concurrently_build(Oid heapRelationId,
 									 Oid indexRelationId);
diff --git a/src/include/nodes/makefuncs.h b/src/include/nodes/makefuncs.h
index 982ec25ae14..dcea148ae1a 100644
--- a/src/include/nodes/makefuncs.h
+++ b/src/include/nodes/makefuncs.h
@@ -99,7 +99,9 @@ extern IndexInfo *makeIndexInfo(int numattrs, int numkeyattrs, Oid amoid,
 								List *expressions, List *predicates,
 								bool unique, bool nulls_not_distinct,
 								bool isready, bool concurrent,
-								bool summarizing, bool withoutoverlaps);
+								bool summarizing, bool withoutoverlaps,
+								Oid *exclusion_ops, Oid *exclusion_procs,
+								uint16 *exclusion_strats);
 
 extern Node *makeStringConst(char *str, int location);
 extern DefElem *makeDefElem(char *name, Node *arg, int location);
-- 
2.47.3


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 filename=v41-0002-Add-va_header-field-to-the-varattrib_4b-union.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



^ permalink  raw  reply  [nested|flat] 49+ messages in thread

* [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic
@ 2026-07-09 19:20  Nathan Bossart <[email protected]>
  0 siblings, 0 replies; 49+ messages in thread

From: Nathan Bossart @ 2026-07-09 19:20 UTC (permalink / raw)

---
 src/backend/storage/ipc/sinvaladt.c | 51 ++++++++++-------------------
 1 file changed, 17 insertions(+), 34 deletions(-)

diff --git a/src/backend/storage/ipc/sinvaladt.c b/src/backend/storage/ipc/sinvaladt.c
index 37a21ffaf1a..17e98c9efdc 100644
--- a/src/backend/storage/ipc/sinvaladt.c
+++ b/src/backend/storage/ipc/sinvaladt.c
@@ -24,7 +24,6 @@
 #include "storage/procsignal.h"
 #include "storage/shmem.h"
 #include "storage/sinvaladt.h"
-#include "storage/spin.h"
 #include "storage/subsystems.h"
 
 /*
@@ -87,19 +86,10 @@
  * has no need to touch anyone's ProcState, except in the infrequent cases
  * when SICleanupQueue is needed.  The only point of overlap is that
  * the writer wants to change maxMsgNum while readers need to read it.
- * We deal with that by having a spinlock that readers must take for just
- * long enough to read maxMsgNum, while writers take it for just long enough
- * to write maxMsgNum.  (The exact rule is that you need the spinlock to
- * read maxMsgNum if you are not holding SInvalWriteLock, and you need the
- * spinlock to write maxMsgNum unless you are holding both locks.)
- *
- * Note: since maxMsgNum is an int and hence presumably atomically readable/
- * writable, the spinlock might seem unnecessary.  The reason it is needed
- * is to provide a memory barrier: we need to be sure that messages written
- * to the array are actually there before maxMsgNum is increased, and that
- * readers will see that data after fetching maxMsgNum.  Multiprocessors
- * that have weak memory-ordering guarantees can fail without the memory
- * barrier instructions that are included in the spinlock sequences.
+ * We deal with that by making maxMsgNum an atomic variable.  (The exact rule
+ * is that you need to use a barrier-providing accessor to read maxMsgNum if
+ * you are not holding SInvalWriteLock, and you need a barrier-providing
+ * accessor to write maxMsgNum unless you are holding both locks.)
  */
 
 
@@ -169,11 +159,9 @@ typedef struct SISeg
 	 * General state information
 	 */
 	int			minMsgNum;		/* oldest message still needed */
-	int			maxMsgNum;		/* next message number to be assigned */
+	pg_atomic_uint32 maxMsgNum; /* next message number to be assigned */
 	int			nextThreshold;	/* # of messages to call SICleanupQueue */
 
-	slock_t		msgnumLock;		/* spinlock protecting maxMsgNum */
-
 	/*
 	 * Circular buffer holding shared-inval messages
 	 */
@@ -244,11 +232,10 @@ SharedInvalShmemInit(void *arg)
 {
 	int			i;
 
-	/* Clear message counters, init spinlock */
+	/* Clear message counters */
 	shmInvalBuffer->minMsgNum = 0;
-	shmInvalBuffer->maxMsgNum = 0;
+	pg_atomic_init_u32(&shmInvalBuffer->maxMsgNum, 0);
 	shmInvalBuffer->nextThreshold = CLEANUP_MIN;
-	SpinLockInit(&shmInvalBuffer->msgnumLock);
 
 	/* The buffer[] array is initially all unused, so we need not fill it */
 
@@ -306,7 +293,7 @@ SharedInvalBackendInit(bool sendOnly)
 
 	/* mark myself active, with all extant messages already read */
 	stateP->procPid = MyProcPid;
-	stateP->nextMsgNum = segP->maxMsgNum;
+	stateP->nextMsgNum = pg_atomic_read_u32(&segP->maxMsgNum);
 	stateP->resetState = false;
 	stateP->signaled = false;
 	stateP->hasMessages = false;
@@ -402,7 +389,7 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		 */
 		for (;;)
 		{
-			numMsgs = segP->maxMsgNum - segP->minMsgNum;
+			numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 			if (numMsgs + nthistime > MAXNUMMESSAGES ||
 				numMsgs >= segP->nextThreshold)
 				SICleanupQueue(true, nthistime);
@@ -413,17 +400,15 @@ SIInsertDataEntries(const SharedInvalidationMessage *data, int n)
 		/*
 		 * Insert new message(s) into proper slot of circular buffer
 		 */
-		max = segP->maxMsgNum;
+		max = pg_atomic_read_u32(&segP->maxMsgNum);
 		while (nthistime-- > 0)
 		{
 			segP->buffer[max % MAXNUMMESSAGES] = *data++;
 			max++;
 		}
 
-		/* Update current value of maxMsgNum using spinlock */
-		SpinLockAcquire(&segP->msgnumLock);
-		segP->maxMsgNum = max;
-		SpinLockRelease(&segP->msgnumLock);
+		/* Update current value of maxMsgNum using barrier */
+		pg_atomic_write_membarrier_u32(&segP->maxMsgNum, max);
 
 		/*
 		 * Now that the maxMsgNum change is globally visible, we give everyone
@@ -509,10 +494,8 @@ SIGetDataEntries(SharedInvalidationMessage *data, int datasize)
 	 */
 	stateP->hasMessages = false;
 
-	/* Fetch current value of maxMsgNum using spinlock */
-	SpinLockAcquire(&segP->msgnumLock);
-	max = segP->maxMsgNum;
-	SpinLockRelease(&segP->msgnumLock);
+	/* Fetch current value of maxMsgNum using barrier */
+	max = pg_atomic_read_membarrier_u32(&segP->maxMsgNum);
 
 	if (stateP->resetState)
 	{
@@ -598,7 +581,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * backends here it is possible for them to keep sending messages without
 	 * a problem even when they are the only active backend.
 	 */
-	min = segP->maxMsgNum;
+	min = pg_atomic_read_u32(&segP->maxMsgNum);
 	minsig = min - SIG_THRESHOLD;
 	lowbound = min - MAXNUMMESSAGES + minFree;
 
@@ -644,7 +627,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	if (min >= MSGNUMWRAPAROUND)
 	{
 		segP->minMsgNum -= MSGNUMWRAPAROUND;
-		segP->maxMsgNum -= MSGNUMWRAPAROUND;
+		pg_atomic_fetch_sub_u32(&segP->maxMsgNum, MSGNUMWRAPAROUND);
 		for (i = 0; i < segP->numProcs; i++)
 			segP->procState[segP->pgprocnos[i]].nextMsgNum -= MSGNUMWRAPAROUND;
 	}
@@ -653,7 +636,7 @@ SICleanupQueue(bool callerHasWriteLock, int minFree)
 	 * Determine how many messages are still in the queue, and set the
 	 * threshold at which we should repeat SICleanupQueue().
 	 */
-	numMsgs = segP->maxMsgNum - segP->minMsgNum;
+	numMsgs = pg_atomic_read_u32(&segP->maxMsgNum) - segP->minMsgNum;
 	if (numMsgs < CLEANUP_MIN)
 		segP->nextThreshold = CLEANUP_MIN;
 	else
-- 
2.50.1 (Apple Git-155)


--Ot5x3ffkWEuxilWO
Content-Type: text/plain; charset=us-ascii
Content-Disposition: attachment;
	filename=v1-0002-convert-ParallelBitmapHeapState-state-to-an-atomi.patch



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end of thread, other threads:[~2026-07-09 19:20 UTC | newest]

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-- links below jump to the message on this page --
2026-03-11 13:15 [PATCH 1/5] Refactor index_concurrently_create_copy() for use with REPACK (CONCURRENTLY). Antonin Houska <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>
2026-07-09 19:20 [PATCH v1 1/8] convert SISeg->maxMsgNum to an atomic Nathan Bossart <[email protected]>

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