/*------------------------------------------------------------------------- * * spin.c * routines for managing spin locks * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/storage/ipc/Attic/spin.c,v 1.20 1999/07/16 04:59:44 momjian Exp $ * *------------------------------------------------------------------------- */ /* * POSTGRES has two kinds of locks: semaphores (which put the * process to sleep) and spinlocks (which are supposed to be * short term locks). Currently both are implemented as SysV * semaphores, but presumably this can change if we move to * a machine with a test-and-set (TAS) instruction. Its probably * a good idea to think about (and allocate) short term and long * term semaphores separately anyway. * * NOTE: These routines are not supposed to be widely used in Postgres. * They are preserved solely for the purpose of porting Mark Sullivan's * buffer manager to Postgres. */ #include #include "postgres.h" #ifndef HAS_TEST_AND_SET #include #endif #include "storage/proc.h" #include "storage/s_lock.h" /* globals used in this file */ IpcSemaphoreId SpinLockId; #ifdef HAS_TEST_AND_SET /* real spin lock implementations */ bool CreateSpinlocks(IPCKey key) { /* the spin lock shared memory must have been created by now */ return TRUE; } bool InitSpinLocks(int init, IPCKey key) { extern SPINLOCK ShmemLock; extern SPINLOCK ShmemIndexLock; extern SPINLOCK BufMgrLock; extern SPINLOCK LockMgrLock; extern SPINLOCK ProcStructLock; extern SPINLOCK SInvalLock; extern SPINLOCK OidGenLockId; #ifdef STABLE_MEMORY_STORAGE extern SPINLOCK MMCacheLock; #endif /* These six spinlocks have fixed location is shmem */ ShmemLock = (SPINLOCK) SHMEMLOCKID; ShmemIndexLock = (SPINLOCK) SHMEMINDEXLOCKID; BufMgrLock = (SPINLOCK) BUFMGRLOCKID; LockMgrLock = (SPINLOCK) LOCKMGRLOCKID; ProcStructLock = (SPINLOCK) PROCSTRUCTLOCKID; SInvalLock = (SPINLOCK) SINVALLOCKID; OidGenLockId = (SPINLOCK) OIDGENLOCKID; #ifdef STABLE_MEMORY_STORAGE MMCacheLock = (SPINLOCK) MMCACHELOCKID; #endif return TRUE; } #ifdef LOCKDEBUG #define PRINT_LOCK(LOCK) \ TPRINTF(TRACE_SPINLOCKS, \ "(locklock = %d, flag = %d, nshlocks = %d, shlock = %d, " \ "exlock =%d)\n", LOCK->locklock, \ LOCK->flag, LOCK->nshlocks, LOCK->shlock, \ LOCK->exlock) #endif /* from ipc.c */ extern SLock *SLockArray; void SpinAcquire(SPINLOCK lockid) { SLock *slckP; /* This used to be in ipc.c, but move here to reduce function calls */ slckP = &(SLockArray[lockid]); #ifdef LOCKDEBUG TPRINTF(TRACE_SPINLOCKS, "SpinAcquire: %d", lockid); PRINT_LOCK(slckP); #endif ex_try_again: S_LOCK(&(slckP->locklock)); switch (slckP->flag) { case NOLOCK: slckP->flag = EXCLUSIVELOCK; S_LOCK(&(slckP->exlock)); S_LOCK(&(slckP->shlock)); S_UNLOCK(&(slckP->locklock)); #ifdef LOCKDEBUG TPRINTF(TRACE_SPINLOCKS, "OUT: "); PRINT_LOCK(slckP); #endif break; case SHAREDLOCK: case EXCLUSIVELOCK: S_UNLOCK(&(slckP->locklock)); S_LOCK(&(slckP->exlock)); S_UNLOCK(&(slckP->exlock)); goto ex_try_again; } PROC_INCR_SLOCK(lockid); #ifdef LOCKDEBUG TPRINTF(TRACE_SPINLOCKS, "SpinAcquire: got %d", lockid); #endif } void SpinRelease(SPINLOCK lockid) { SLock *slckP; /* This used to be in ipc.c, but move here to reduce function calls */ slckP = &(SLockArray[lockid]); #ifdef USE_ASSERT_CHECKING /* * Check that we are actually holding the lock we are releasing. This * can be done only after MyProc has been initialized. */ if (MyProc) Assert(MyProc->sLocks[lockid] > 0); Assert(slckP->flag != NOLOCK); #endif PROC_DECR_SLOCK(lockid); #ifdef LOCKDEBUG TPRINTF("SpinRelease: %d\n", lockid); PRINT_LOCK(slckP); #endif S_LOCK(&(slckP->locklock)); /* ------------- * give favor to read processes * ------------- */ slckP->flag = NOLOCK; if (slckP->nshlocks > 0) { while (slckP->nshlocks > 0) { S_UNLOCK(&(slckP->shlock)); S_LOCK(&(slckP->comlock)); } S_UNLOCK(&(slckP->shlock)); } else S_UNLOCK(&(slckP->shlock)); S_UNLOCK(&(slckP->exlock)); S_UNLOCK(&(slckP->locklock)); #ifdef LOCKDEBUG TPRINTF(TRACE_SPINLOCKS, "SpinRelease: released %d", lockid); PRINT_LOCK(slckP); #endif } #else /* HAS_TEST_AND_SET */ /* Spinlocks are implemented using SysV semaphores */ static bool AttachSpinLocks(IPCKey key); static bool SpinIsLocked(SPINLOCK lock); /* * SpinAcquire -- try to grab a spinlock * * FAILS if the semaphore is corrupted. */ void SpinAcquire(SPINLOCK lock) { IpcSemaphoreLock(SpinLockId, lock, IpcExclusiveLock); PROC_INCR_SLOCK(lock); } /* * SpinRelease -- release a spin lock * * FAILS if the semaphore is corrupted */ void SpinRelease(SPINLOCK lock) { Assert(SpinIsLocked(lock)) PROC_DECR_SLOCK(lock); IpcSemaphoreUnlock(SpinLockId, lock, IpcExclusiveLock); } static bool SpinIsLocked(SPINLOCK lock) { int semval; semval = IpcSemaphoreGetValue(SpinLockId, lock); return semval < IpcSemaphoreDefaultStartValue; } /* * CreateSpinlocks -- Create a sysV semaphore array for * the spinlocks * */ bool CreateSpinlocks(IPCKey key) { int status; IpcSemaphoreId semid; semid = IpcSemaphoreCreate(key, MAX_SPINS, IPCProtection, IpcSemaphoreDefaultStartValue, 1, &status); if (status == IpcSemIdExist) { IpcSemaphoreKill(key); elog(NOTICE, "Destroying old spinlock semaphore"); semid = IpcSemaphoreCreate(key, MAX_SPINS, IPCProtection, IpcSemaphoreDefaultStartValue, 1, &status); } if (semid >= 0) { SpinLockId = semid; return TRUE; } /* cannot create spinlocks */ elog(FATAL, "CreateSpinlocks: cannot create spin locks"); return FALSE; } /* * Attach to existing spinlock set */ static bool AttachSpinLocks(IPCKey key) { IpcSemaphoreId id; id = semget(key, MAX_SPINS, 0); if (id < 0) { if (errno == EEXIST) { /* key is the name of someone else's semaphore */ elog(FATAL, "AttachSpinlocks: SPIN_KEY belongs to someone else"); } /* cannot create spinlocks */ elog(FATAL, "AttachSpinlocks: cannot create spin locks"); return FALSE; } SpinLockId = id; return TRUE; } /* * InitSpinLocks -- Spinlock bootstrapping * * We need several spinlocks for bootstrapping: * ShmemIndexLock (for the shmem index table) and * ShmemLock (for the shmem allocator), BufMgrLock (for buffer * pool exclusive access), LockMgrLock (for the lock table), and * ProcStructLock (a spin lock for the shared process structure). * If there's a Sony WORM drive attached, we also have a spinlock * (SJCacheLock) for it. Same story for the main memory storage mgr. * */ bool InitSpinLocks(int init, IPCKey key) { extern SPINLOCK ShmemLock; extern SPINLOCK ShmemIndexLock; extern SPINLOCK BufMgrLock; extern SPINLOCK LockMgrLock; extern SPINLOCK ProcStructLock; extern SPINLOCK SInvalLock; extern SPINLOCK OidGenLockId; #ifdef STABLE_MEMORY_STORAGE extern SPINLOCK MMCacheLock; #endif if (!init || key != IPC_PRIVATE) { /* * if bootstrap and key is IPC_PRIVATE, it means that we are * running backend by itself. no need to attach spinlocks */ if (!AttachSpinLocks(key)) { elog(FATAL, "InitSpinLocks: couldnt attach spin locks"); return FALSE; } } /* These five (or six) spinlocks have fixed location is shmem */ ShmemLock = (SPINLOCK) SHMEMLOCKID; ShmemIndexLock = (SPINLOCK) SHMEMINDEXLOCKID; BufMgrLock = (SPINLOCK) BUFMGRLOCKID; LockMgrLock = (SPINLOCK) LOCKMGRLOCKID; ProcStructLock = (SPINLOCK) PROCSTRUCTLOCKID; SInvalLock = (SPINLOCK) SINVALLOCKID; OidGenLockId = (SPINLOCK) OIDGENLOCKID; #ifdef STABLE_MEMORY_STORAGE MMCacheLock = (SPINLOCK) MMCACHELOCKID; #endif return TRUE; } #endif /* HAS_TEST_AND_SET */