/*- * See the file LICENSE for redistribution information. * * Copyright (c) 1996,2007 Oracle. All rights reserved. * * $Id: mut_tas.c,v 12.27 2007/06/21 16:39:20 ubell Exp $ */ #include "db_config.h" #include "db_int.h" /* * This is where we load in architecture/compiler specific mutex code. */ #define LOAD_ACTUAL_MUTEX_CODE #include "dbinc/mutex_int.h" /* * __db_tas_mutex_init -- * Initialize a test-and-set mutex. * * PUBLIC: int __db_tas_mutex_init __P((DB_ENV *, db_mutex_t, u_int32_t)); */ int __db_tas_mutex_init(dbenv, mutex, flags) DB_ENV *dbenv; db_mutex_t mutex; u_int32_t flags; { DB_MUTEX *mutexp; DB_MUTEXMGR *mtxmgr; DB_MUTEXREGION *mtxregion; int ret; COMPQUIET(flags, 0); mtxmgr = dbenv->mutex_handle; mtxregion = mtxmgr->reginfo.primary; mutexp = MUTEXP_SET(mutex); /* Check alignment. */ if (((uintptr_t)mutexp & (dbenv->mutex_align - 1)) != 0) { __db_errx(dbenv, "TAS: mutex not appropriately aligned"); return (EINVAL); } if (MUTEX_INIT(&mutexp->tas)) { ret = __os_get_syserr(); __db_syserr(dbenv, ret, "TAS: mutex initialize"); return (__os_posix_err(ret)); } #ifdef HAVE_MUTEX_HYBRID if ((ret = __db_pthread_mutex_init(dbenv, mutex, flags | DB_MUTEX_SELF_BLOCK)) != 0) return (ret); #endif return (0); } /* * __db_tas_mutex_lock * Lock on a mutex, blocking if necessary. * * PUBLIC: int __db_tas_mutex_lock __P((DB_ENV *, db_mutex_t)); */ int __db_tas_mutex_lock(dbenv, mutex) DB_ENV *dbenv; db_mutex_t mutex; { DB_MUTEX *mutexp; DB_MUTEXMGR *mtxmgr; DB_MUTEXREGION *mtxregion; u_int32_t nspins; #ifdef HAVE_MUTEX_HYBRID int ret; #else u_long ms, max_ms; #endif if (!MUTEX_ON(dbenv) || F_ISSET(dbenv, DB_ENV_NOLOCKING)) return (0); mtxmgr = dbenv->mutex_handle; mtxregion = mtxmgr->reginfo.primary; mutexp = MUTEXP_SET(mutex); #ifdef HAVE_STATISTICS if (F_ISSET(mutexp, DB_MUTEX_LOCKED)) ++mutexp->mutex_set_wait; else ++mutexp->mutex_set_nowait; #endif #ifndef HAVE_MUTEX_HYBRID /* * Wait 1ms initially, up to 10ms for mutexes backing logical database * locks, and up to 25 ms for mutual exclusion data structure mutexes. * SR: #7675 */ ms = 1; max_ms = F_ISSET(mutexp, DB_MUTEX_LOGICAL_LOCK) ? 10 : 25; #endif loop: /* Attempt to acquire the resource for N spins. */ for (nspins = mtxregion->stat.st_mutex_tas_spins; nspins > 0; --nspins) { #ifdef HAVE_MUTEX_HPPA_MSEM_INIT relock: #endif #ifdef HAVE_MUTEX_S390_CC_ASSEMBLY tsl_t zero = 0; #endif /* * Avoid interlocked instructions until they're likely to * succeed. */ if (F_ISSET(mutexp, DB_MUTEX_LOCKED) || !MUTEX_SET(&mutexp->tas)) { /* * Some systems (notably those with newer Intel CPUs) * need a small pause here. [#6975] */ #ifdef MUTEX_PAUSE MUTEX_PAUSE #endif continue; } #ifdef HAVE_MUTEX_HPPA_MSEM_INIT /* * HP semaphores are unlocked automatically when a holding * process exits. If the mutex appears to be locked * (F_ISSET(DB_MUTEX_LOCKED)) but we got here, assume this * has happened. Set the pid and tid into the mutex and * lock again. (The default state of the mutexes used to * block in __lock_get_internal is locked, so exiting with * a locked mutex is reasonable behavior for a process that * happened to initialize or use one of them.) */ if (F_ISSET(mutexp, DB_MUTEX_LOCKED)) { F_SET(mutexp, DB_MUTEX_LOCKED); dbenv->thread_id(dbenv, &mutexp->pid, &mutexp->tid); CHECK_MTX_THREAD(dbenv, mutexp); goto relock; } /* * If we make it here, the mutex isn't locked, the diagnostic * won't fire, and we were really unlocked by someone calling * the DB mutex unlock function. */ #endif #ifdef DIAGNOSTIC if (F_ISSET(mutexp, DB_MUTEX_LOCKED)) { char buf[DB_THREADID_STRLEN]; __db_errx(dbenv, "TAS lock failed: lock currently in use: ID: %s", dbenv->thread_id_string(dbenv, mutexp->pid, mutexp->tid, buf)); return (__db_panic(dbenv, EACCES)); } #endif F_SET(mutexp, DB_MUTEX_LOCKED); dbenv->thread_id(dbenv, &mutexp->pid, &mutexp->tid); CHECK_MTX_THREAD(dbenv, mutexp); #ifdef DIAGNOSTIC /* * We want to switch threads as often as possible. Yield * every time we get a mutex to ensure contention. */ if (F_ISSET(dbenv, DB_ENV_YIELDCPU)) __os_yield(dbenv); #endif return (0); } /* Wait for the lock to become available. */ #ifdef HAVE_MUTEX_HYBRID if ((ret = __db_pthread_mutex_lock(dbenv, mutex)) != 0) return (ret); #else __os_sleep(dbenv, 0, ms * US_PER_MS); if ((ms <<= 1) > max_ms) ms = max_ms; #endif /* * We're spinning. The environment might be hung, and somebody else * has already recovered it. The first thing recovery does is panic * the environment. Check to see if we're never going to get this * mutex. */ PANIC_CHECK(dbenv); goto loop; } /* * __db_tas_mutex_unlock -- * Release a mutex. * * PUBLIC: int __db_tas_mutex_unlock __P((DB_ENV *, db_mutex_t)); */ int __db_tas_mutex_unlock(dbenv, mutex) DB_ENV *dbenv; db_mutex_t mutex; { DB_MUTEX *mutexp; DB_MUTEXMGR *mtxmgr; DB_MUTEXREGION *mtxregion; #ifdef HAVE_MUTEX_HYBRID int ret; #endif if (!MUTEX_ON(dbenv) || F_ISSET(dbenv, DB_ENV_NOLOCKING)) return (0); mtxmgr = dbenv->mutex_handle; mtxregion = mtxmgr->reginfo.primary; mutexp = MUTEXP_SET(mutex); #ifdef DIAGNOSTIC if (!F_ISSET(mutexp, DB_MUTEX_LOCKED)) { __db_errx(dbenv, "TAS unlock failed: lock already unlocked"); return (__db_panic(dbenv, EACCES)); } #endif F_CLR(mutexp, DB_MUTEX_LOCKED); #ifdef HAVE_MUTEX_HYBRID MUTEX_MEMBAR(mutexp->flags); if (mutexp->wait && (ret = __db_pthread_mutex_unlock(dbenv, mutex)) != 0) return (ret); #endif MUTEX_UNSET(&mutexp->tas); return (0); } /* * __db_tas_mutex_destroy -- * Destroy a mutex. * * PUBLIC: int __db_tas_mutex_destroy __P((DB_ENV *, db_mutex_t)); */ int __db_tas_mutex_destroy(dbenv, mutex) DB_ENV *dbenv; db_mutex_t mutex; { DB_MUTEX *mutexp; DB_MUTEXMGR *mtxmgr; DB_MUTEXREGION *mtxregion; #ifdef HAVE_MUTEX_HYBRID int ret; #endif if (!MUTEX_ON(dbenv)) return (0); mtxmgr = dbenv->mutex_handle; mtxregion = mtxmgr->reginfo.primary; mutexp = MUTEXP_SET(mutex); MUTEX_DESTROY(&mutexp->tas); #ifdef HAVE_MUTEX_HYBRID if ((ret = __db_pthread_mutex_destroy(dbenv, mutex)) != 0) return (ret); #endif COMPQUIET(mutexp, NULL); /* MUTEX_DESTROY may not be defined. */ return (0); }