/*------------------------------------------------------------------------- * * lmgr.c * POSTGRES lock manager code * * Portions Copyright (c) 1996-2002, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/storage/lmgr/lmgr.c,v 1.56 2003/02/19 23:41:15 momjian Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "access/transam.h" #include "access/xact.h" #include "catalog/catalog.h" #include "miscadmin.h" #include "storage/lmgr.h" #include "utils/inval.h" static LOCKMASK LockConflicts[] = { 0, /* AccessShareLock */ (1 << AccessExclusiveLock), /* RowShareLock */ (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* RowExclusiveLock */ (1 << ShareLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* ShareUpdateExclusiveLock */ (1 << ShareUpdateExclusiveLock) | (1 << ShareLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* ShareLock */ (1 << RowExclusiveLock) | (1 << ShareUpdateExclusiveLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* ShareRowExclusiveLock */ (1 << RowExclusiveLock) | (1 << ShareUpdateExclusiveLock) | (1 << ShareLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* ExclusiveLock */ (1 << RowShareLock) | (1 << RowExclusiveLock) | (1 << ShareUpdateExclusiveLock) | (1 << ShareLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock), /* AccessExclusiveLock */ (1 << AccessShareLock) | (1 << RowShareLock) | (1 << RowExclusiveLock) | (1 << ShareUpdateExclusiveLock) | (1 << ShareLock) | (1 << ShareRowExclusiveLock) | (1 << ExclusiveLock) | (1 << AccessExclusiveLock) }; LOCKMETHOD LockTableId = (LOCKMETHOD) NULL; LOCKMETHOD LongTermTableId = (LOCKMETHOD) NULL; /* * Create the lock table described by LockConflicts */ LOCKMETHOD InitLockTable(int maxBackends) { int lockmethod; lockmethod = LockMethodTableInit("LockTable", LockConflicts, MAX_LOCKMODES - 1, maxBackends); LockTableId = lockmethod; if (!(LockTableId)) elog(ERROR, "InitLockTable: couldn't initialize lock table"); #ifdef USER_LOCKS /* * Allocate another tableId for long-term locks */ LongTermTableId = LockMethodTableRename(LockTableId); if (!(LongTermTableId)) elog(ERROR, "InitLockTable: couldn't rename long-term lock table"); #endif return LockTableId; } /* * RelationInitLockInfo * Initializes the lock information in a relation descriptor. * * relcache.c must call this during creation of any reldesc. */ void RelationInitLockInfo(Relation relation) { Assert(RelationIsValid(relation)); Assert(OidIsValid(RelationGetRelid(relation))); relation->rd_lockInfo.lockRelId.relId = RelationGetRelid(relation); if (relation->rd_rel->relisshared) relation->rd_lockInfo.lockRelId.dbId = InvalidOid; else relation->rd_lockInfo.lockRelId.dbId = MyDatabaseId; } /* * LockRelation */ void LockRelation(Relation relation, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relation->rd_lockInfo.lockRelId.relId; tag.dbId = relation->rd_lockInfo.lockRelId.dbId; tag.objId.blkno = InvalidBlockNumber; if (!LockAcquire(LockTableId, &tag, GetCurrentTransactionId(), lockmode, false)) elog(ERROR, "LockRelation: LockAcquire failed"); /* * Check to see if the relcache entry has been invalidated while we * were waiting to lock it. If so, rebuild it, or elog() trying. * Increment the refcount to ensure that RelationFlushRelation will * rebuild it and not just delete it. */ RelationIncrementReferenceCount(relation); AcceptInvalidationMessages(); RelationDecrementReferenceCount(relation); } /* * ConditionalLockRelation * * As above, but only lock if we can get the lock without blocking. * Returns TRUE iff the lock was acquired. * * NOTE: we do not currently need conditional versions of the other * LockXXX routines in this file, but they could easily be added if needed. */ bool ConditionalLockRelation(Relation relation, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relation->rd_lockInfo.lockRelId.relId; tag.dbId = relation->rd_lockInfo.lockRelId.dbId; tag.objId.blkno = InvalidBlockNumber; if (!LockAcquire(LockTableId, &tag, GetCurrentTransactionId(), lockmode, true)) return false; /* * Check to see if the relcache entry has been invalidated while we * were waiting to lock it. If so, rebuild it, or elog() trying. * Increment the refcount to ensure that RelationFlushRelation will * rebuild it and not just delete it. */ RelationIncrementReferenceCount(relation); AcceptInvalidationMessages(); RelationDecrementReferenceCount(relation); return true; } /* * UnlockRelation */ void UnlockRelation(Relation relation, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relation->rd_lockInfo.lockRelId.relId; tag.dbId = relation->rd_lockInfo.lockRelId.dbId; tag.objId.blkno = InvalidBlockNumber; LockRelease(LockTableId, &tag, GetCurrentTransactionId(), lockmode); } /* * LockRelationForSession * * This routine grabs a session-level lock on the target relation. The * session lock persists across transaction boundaries. It will be removed * when UnlockRelationForSession() is called, or if an elog(ERROR) occurs, * or if the backend exits. * * Note that one should also grab a transaction-level lock on the rel * in any transaction that actually uses the rel, to ensure that the * relcache entry is up to date. */ void LockRelationForSession(LockRelId *relid, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relid->relId; tag.dbId = relid->dbId; tag.objId.blkno = InvalidBlockNumber; if (!LockAcquire(LockTableId, &tag, InvalidTransactionId, lockmode, false)) elog(ERROR, "LockRelationForSession: LockAcquire failed"); } /* * UnlockRelationForSession */ void UnlockRelationForSession(LockRelId *relid, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relid->relId; tag.dbId = relid->dbId; tag.objId.blkno = InvalidBlockNumber; LockRelease(LockTableId, &tag, InvalidTransactionId, lockmode); } /* * LockPage * * Obtain a page-level lock. This is currently used by some index access * methods to lock index pages. For heap relations, it is used only with * blkno == 0 to signify locking the relation for extension. */ void LockPage(Relation relation, BlockNumber blkno, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relation->rd_lockInfo.lockRelId.relId; tag.dbId = relation->rd_lockInfo.lockRelId.dbId; tag.objId.blkno = blkno; if (!LockAcquire(LockTableId, &tag, GetCurrentTransactionId(), lockmode, false)) elog(ERROR, "LockPage: LockAcquire failed"); } /* * UnlockPage */ void UnlockPage(Relation relation, BlockNumber blkno, LOCKMODE lockmode) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = relation->rd_lockInfo.lockRelId.relId; tag.dbId = relation->rd_lockInfo.lockRelId.dbId; tag.objId.blkno = blkno; LockRelease(LockTableId, &tag, GetCurrentTransactionId(), lockmode); } /* * XactLockTableInsert * * Insert a lock showing that the given transaction ID is running --- * this is done during xact startup. The lock can then be used to wait * for the transaction to finish. * * We need no corresponding unlock function, since the lock will always * be released implicitly at transaction commit/abort, never any other way. */ void XactLockTableInsert(TransactionId xid) { LOCKTAG tag; MemSet(&tag, 0, sizeof(tag)); tag.relId = XactLockTableId; tag.dbId = InvalidOid; /* xids are globally unique */ tag.objId.xid = xid; if (!LockAcquire(LockTableId, &tag, xid, ExclusiveLock, false)) elog(ERROR, "XactLockTableInsert: LockAcquire failed"); } /* * XactLockTableWait * * Wait for the specified transaction to commit or abort. */ void XactLockTableWait(TransactionId xid) { LOCKTAG tag; TransactionId myxid = GetCurrentTransactionId(); Assert(!TransactionIdEquals(xid, myxid)); MemSet(&tag, 0, sizeof(tag)); tag.relId = XactLockTableId; tag.dbId = InvalidOid; tag.objId.xid = xid; if (!LockAcquire(LockTableId, &tag, myxid, ShareLock, false)) elog(ERROR, "XactLockTableWait: LockAcquire failed"); LockRelease(LockTableId, &tag, myxid, ShareLock); /* * Transaction was committed/aborted/crashed - we have to update * pg_clog if transaction is still marked as running. */ if (!TransactionIdDidCommit(xid) && !TransactionIdDidAbort(xid)) TransactionIdAbort(xid); }