/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "apr.h" #include "apr_strings.h" #include "apr_arch_proc_mutex.h" #include "apr_arch_file_io.h" /* for apr_mkstemp() */ #include "apr_hash.h" APR_DECLARE(apr_status_t) apr_proc_mutex_destroy(apr_proc_mutex_t *mutex) { return apr_pool_cleanup_run(mutex->pool, mutex, apr_proc_mutex_cleanup); } #if APR_HAS_POSIXSEM_SERIALIZE || APR_HAS_FCNTL_SERIALIZE || \ APR_HAS_PROC_PTHREAD_SERIALIZE || APR_HAS_SYSVSEM_SERIALIZE static apr_status_t proc_mutex_no_child_init(apr_proc_mutex_t **mutex, apr_pool_t *cont, const char *fname) { return APR_SUCCESS; } #endif #if APR_HAS_POSIXSEM_SERIALIZE #ifndef SEM_FAILED #define SEM_FAILED (-1) #endif static apr_status_t proc_mutex_posix_cleanup(void *mutex_) { apr_proc_mutex_t *mutex = mutex_; if (sem_close(mutex->psem_interproc) < 0) { return errno; } return APR_SUCCESS; } static unsigned int rshash (char *p) { /* hash function from Robert Sedgwicks 'Algorithms in C' book */ unsigned int b = 378551; unsigned int a = 63689; unsigned int retval = 0; for( ; *p; p++) { retval = retval * a + (*p); a *= b; } return retval; } static apr_status_t proc_mutex_posix_create(apr_proc_mutex_t *new_mutex, const char *fname) { #define APR_POSIXSEM_NAME_MIN 13 sem_t *psem; char semname[32]; new_mutex->interproc = apr_palloc(new_mutex->pool, sizeof(*new_mutex->interproc)); /* * This bogusness is to follow what appears to be the * lowest common denominator in Posix semaphore naming: * - start with '/' * - be at most 14 chars * - be unique and not match anything on the filesystem * * Because of this, we use fname to generate a (unique) hash * and use that as the name of the semaphore. If no filename was * given, we create one based on the time. We tuck the name * away, since it might be useful for debugging. We use 2 hashing * functions to try to avoid collisions. * * To make this as robust as possible, we initially try something * larger (and hopefully more unique) and gracefully fail down to the * LCD above. * * NOTE: Darwin (Mac OS X) seems to be the most restrictive * implementation. Versions previous to Darwin 6.2 had the 14 * char limit, but later rev's allow up to 31 characters. * */ if (fname) { apr_ssize_t flen = strlen(fname); char *p = apr_pstrndup(new_mutex->pool, fname, strlen(fname)); unsigned int h1, h2; h1 = apr_hashfunc_default((const char *)p, &flen); h2 = rshash(p); apr_snprintf(semname, sizeof(semname), "/ApR.%xH%x", h1, h2); } else { apr_time_t now; unsigned long sec; unsigned long usec; now = apr_time_now(); sec = apr_time_sec(now); usec = apr_time_usec(now); apr_snprintf(semname, sizeof(semname), "/ApR.%lxZ%lx", sec, usec); } psem = sem_open(semname, O_CREAT | O_EXCL, 0644, 1); if (psem == (sem_t *)SEM_FAILED) { if (errno == ENAMETOOLONG) { /* Oh well, good try */ semname[APR_POSIXSEM_NAME_MIN] = '\0'; } else { return errno; } psem = sem_open(semname, O_CREAT | O_EXCL, 0644, 1); } if (psem == (sem_t *)SEM_FAILED) { return errno; } /* Ahhh. The joys of Posix sems. Predelete it... */ sem_unlink(semname); new_mutex->psem_interproc = psem; new_mutex->fname = apr_pstrdup(new_mutex->pool, semname); apr_pool_cleanup_register(new_mutex->pool, (void *)new_mutex, apr_proc_mutex_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } static apr_status_t proc_mutex_posix_acquire(apr_proc_mutex_t *mutex) { if (sem_wait(mutex->psem_interproc) < 0) { return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_posix_tryacquire(apr_proc_mutex_t *mutex) { if (sem_trywait(mutex->psem_interproc) < 0) { if (errno == EAGAIN) { return APR_EBUSY; } return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_posix_release(apr_proc_mutex_t *mutex) { mutex->curr_locked = 0; if (sem_post(mutex->psem_interproc) < 0) { /* any failure is probably fatal, so no big deal to leave * ->curr_locked at 0. */ return errno; } return APR_SUCCESS; } static const apr_proc_mutex_unix_lock_methods_t mutex_posixsem_methods = { #if APR_PROCESS_LOCK_IS_GLOBAL || !APR_HAS_THREADS || defined(POSIXSEM_IS_GLOBAL) APR_PROCESS_LOCK_MECH_IS_GLOBAL, #else 0, #endif proc_mutex_posix_create, proc_mutex_posix_acquire, proc_mutex_posix_tryacquire, proc_mutex_posix_release, proc_mutex_posix_cleanup, proc_mutex_no_child_init, "posixsem" }; #endif /* Posix sem implementation */ #if APR_HAS_SYSVSEM_SERIALIZE static struct sembuf proc_mutex_op_on; static struct sembuf proc_mutex_op_try; static struct sembuf proc_mutex_op_off; static void proc_mutex_sysv_setup(void) { proc_mutex_op_on.sem_num = 0; proc_mutex_op_on.sem_op = -1; proc_mutex_op_on.sem_flg = SEM_UNDO; proc_mutex_op_try.sem_num = 0; proc_mutex_op_try.sem_op = -1; proc_mutex_op_try.sem_flg = SEM_UNDO | IPC_NOWAIT; proc_mutex_op_off.sem_num = 0; proc_mutex_op_off.sem_op = 1; proc_mutex_op_off.sem_flg = SEM_UNDO; } static apr_status_t proc_mutex_sysv_cleanup(void *mutex_) { apr_proc_mutex_t *mutex=mutex_; union semun ick; if (mutex->interproc->filedes != -1) { ick.val = 0; semctl(mutex->interproc->filedes, 0, IPC_RMID, ick); } return APR_SUCCESS; } static apr_status_t proc_mutex_sysv_create(apr_proc_mutex_t *new_mutex, const char *fname) { union semun ick; apr_status_t rv; new_mutex->interproc = apr_palloc(new_mutex->pool, sizeof(*new_mutex->interproc)); new_mutex->interproc->filedes = semget(IPC_PRIVATE, 1, IPC_CREAT | 0600); if (new_mutex->interproc->filedes < 0) { rv = errno; proc_mutex_sysv_cleanup(new_mutex); return rv; } ick.val = 1; if (semctl(new_mutex->interproc->filedes, 0, SETVAL, ick) < 0) { rv = errno; proc_mutex_sysv_cleanup(new_mutex); return rv; } new_mutex->curr_locked = 0; apr_pool_cleanup_register(new_mutex->pool, (void *)new_mutex, apr_proc_mutex_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } static apr_status_t proc_mutex_sysv_acquire(apr_proc_mutex_t *mutex) { int rc; do { rc = semop(mutex->interproc->filedes, &proc_mutex_op_on, 1); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_sysv_tryacquire(apr_proc_mutex_t *mutex) { int rc; do { rc = semop(mutex->interproc->filedes, &proc_mutex_op_try, 1); } while (rc < 0 && errno == EINTR); if (rc < 0) { if (errno == EAGAIN) { return APR_EBUSY; } return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_sysv_release(apr_proc_mutex_t *mutex) { int rc; mutex->curr_locked = 0; do { rc = semop(mutex->interproc->filedes, &proc_mutex_op_off, 1); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } return APR_SUCCESS; } static const apr_proc_mutex_unix_lock_methods_t mutex_sysv_methods = { #if APR_PROCESS_LOCK_IS_GLOBAL || !APR_HAS_THREADS || defined(SYSVSEM_IS_GLOBAL) APR_PROCESS_LOCK_MECH_IS_GLOBAL, #else 0, #endif proc_mutex_sysv_create, proc_mutex_sysv_acquire, proc_mutex_sysv_tryacquire, proc_mutex_sysv_release, proc_mutex_sysv_cleanup, proc_mutex_no_child_init, "sysvsem" }; #endif /* SysV sem implementation */ #if APR_HAS_PROC_PTHREAD_SERIALIZE static apr_status_t proc_mutex_proc_pthread_cleanup(void *mutex_) { apr_proc_mutex_t *mutex=mutex_; apr_status_t rv; if (mutex->curr_locked == 1) { if ((rv = pthread_mutex_unlock(mutex->pthread_interproc))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif return rv; } } /* curr_locked is set to -1 until the mutex has been created */ if (mutex->curr_locked != -1) { if ((rv = pthread_mutex_destroy(mutex->pthread_interproc))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif return rv; } } if (munmap((caddr_t)mutex->pthread_interproc, sizeof(pthread_mutex_t))) { return errno; } return APR_SUCCESS; } static apr_status_t proc_mutex_proc_pthread_create(apr_proc_mutex_t *new_mutex, const char *fname) { apr_status_t rv; int fd; pthread_mutexattr_t mattr; fd = open("/dev/zero", O_RDWR); if (fd < 0) { return errno; } new_mutex->pthread_interproc = (pthread_mutex_t *)mmap( (caddr_t) 0, sizeof(pthread_mutex_t), PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (new_mutex->pthread_interproc == (pthread_mutex_t *) (caddr_t) -1) { close(fd); return errno; } close(fd); new_mutex->curr_locked = -1; /* until the mutex has been created */ if ((rv = pthread_mutexattr_init(&mattr))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); return rv; } if ((rv = pthread_mutexattr_setpshared(&mattr, PTHREAD_PROCESS_SHARED))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); pthread_mutexattr_destroy(&mattr); return rv; } #ifdef HAVE_PTHREAD_MUTEX_ROBUST if ((rv = pthread_mutexattr_setrobust_np(&mattr, PTHREAD_MUTEX_ROBUST_NP))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); pthread_mutexattr_destroy(&mattr); return rv; } if ((rv = pthread_mutexattr_setprotocol(&mattr, PTHREAD_PRIO_INHERIT))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); pthread_mutexattr_destroy(&mattr); return rv; } #endif /* HAVE_PTHREAD_MUTEX_ROBUST */ if ((rv = pthread_mutex_init(new_mutex->pthread_interproc, &mattr))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); pthread_mutexattr_destroy(&mattr); return rv; } new_mutex->curr_locked = 0; /* mutex created now */ if ((rv = pthread_mutexattr_destroy(&mattr))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif proc_mutex_proc_pthread_cleanup(new_mutex); return rv; } apr_pool_cleanup_register(new_mutex->pool, (void *)new_mutex, apr_proc_mutex_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } static apr_status_t proc_mutex_proc_pthread_acquire(apr_proc_mutex_t *mutex) { apr_status_t rv; if ((rv = pthread_mutex_lock(mutex->pthread_interproc))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif #ifdef HAVE_PTHREAD_MUTEX_ROBUST /* Okay, our owner died. Let's try to make it consistent again. */ if (rv == EOWNERDEAD) { pthread_mutex_consistent_np(mutex->pthread_interproc); } else return rv; #else return rv; #endif } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_proc_pthread_tryacquire(apr_proc_mutex_t *mutex) { apr_status_t rv; if ((rv = pthread_mutex_trylock(mutex->pthread_interproc))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif if (rv == EBUSY) { return APR_EBUSY; } #ifdef HAVE_PTHREAD_MUTEX_ROBUST /* Okay, our owner died. Let's try to make it consistent again. */ if (rv == EOWNERDEAD) { pthread_mutex_consistent_np(mutex->pthread_interproc); rv = APR_SUCCESS; } else return rv; #else return rv; #endif } mutex->curr_locked = 1; return rv; } static apr_status_t proc_mutex_proc_pthread_release(apr_proc_mutex_t *mutex) { apr_status_t rv; mutex->curr_locked = 0; if ((rv = pthread_mutex_unlock(mutex->pthread_interproc))) { #ifdef HAVE_ZOS_PTHREADS rv = errno; #endif return rv; } return APR_SUCCESS; } static const apr_proc_mutex_unix_lock_methods_t mutex_proc_pthread_methods = { APR_PROCESS_LOCK_MECH_IS_GLOBAL, proc_mutex_proc_pthread_create, proc_mutex_proc_pthread_acquire, proc_mutex_proc_pthread_tryacquire, proc_mutex_proc_pthread_release, proc_mutex_proc_pthread_cleanup, proc_mutex_no_child_init, "pthread" }; #endif #if APR_HAS_FCNTL_SERIALIZE static struct flock proc_mutex_lock_it; static struct flock proc_mutex_unlock_it; static apr_status_t proc_mutex_fcntl_release(apr_proc_mutex_t *); static void proc_mutex_fcntl_setup(void) { proc_mutex_lock_it.l_whence = SEEK_SET; /* from current point */ proc_mutex_lock_it.l_start = 0; /* -"- */ proc_mutex_lock_it.l_len = 0; /* until end of file */ proc_mutex_lock_it.l_type = F_WRLCK; /* set exclusive/write lock */ proc_mutex_lock_it.l_pid = 0; /* pid not actually interesting */ proc_mutex_unlock_it.l_whence = SEEK_SET; /* from current point */ proc_mutex_unlock_it.l_start = 0; /* -"- */ proc_mutex_unlock_it.l_len = 0; /* until end of file */ proc_mutex_unlock_it.l_type = F_UNLCK; /* set exclusive/write lock */ proc_mutex_unlock_it.l_pid = 0; /* pid not actually interesting */ } static apr_status_t proc_mutex_fcntl_cleanup(void *mutex_) { apr_status_t status; apr_proc_mutex_t *mutex=mutex_; if (mutex->curr_locked == 1) { status = proc_mutex_fcntl_release(mutex); if (status != APR_SUCCESS) return status; } return apr_file_close(mutex->interproc); } static apr_status_t proc_mutex_fcntl_create(apr_proc_mutex_t *new_mutex, const char *fname) { int rv; if (fname) { new_mutex->fname = apr_pstrdup(new_mutex->pool, fname); rv = apr_file_open(&new_mutex->interproc, new_mutex->fname, APR_FOPEN_CREATE | APR_FOPEN_WRITE | APR_FOPEN_EXCL, APR_UREAD | APR_UWRITE | APR_GREAD | APR_WREAD, new_mutex->pool); } else { new_mutex->fname = apr_pstrdup(new_mutex->pool, "/tmp/aprXXXXXX"); rv = apr_file_mktemp(&new_mutex->interproc, new_mutex->fname, APR_FOPEN_CREATE | APR_FOPEN_WRITE | APR_FOPEN_EXCL, new_mutex->pool); } if (rv != APR_SUCCESS) { return rv; } new_mutex->curr_locked = 0; unlink(new_mutex->fname); apr_pool_cleanup_register(new_mutex->pool, (void*)new_mutex, apr_proc_mutex_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } static apr_status_t proc_mutex_fcntl_acquire(apr_proc_mutex_t *mutex) { int rc; do { rc = fcntl(mutex->interproc->filedes, F_SETLKW, &proc_mutex_lock_it); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } mutex->curr_locked=1; return APR_SUCCESS; } static apr_status_t proc_mutex_fcntl_tryacquire(apr_proc_mutex_t *mutex) { int rc; do { rc = fcntl(mutex->interproc->filedes, F_SETLK, &proc_mutex_lock_it); } while (rc < 0 && errno == EINTR); if (rc < 0) { #if FCNTL_TRYACQUIRE_EACCES if (errno == EACCES) { #else if (errno == EAGAIN) { #endif return APR_EBUSY; } return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_fcntl_release(apr_proc_mutex_t *mutex) { int rc; mutex->curr_locked=0; do { rc = fcntl(mutex->interproc->filedes, F_SETLKW, &proc_mutex_unlock_it); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } return APR_SUCCESS; } static const apr_proc_mutex_unix_lock_methods_t mutex_fcntl_methods = { #if APR_PROCESS_LOCK_IS_GLOBAL || !APR_HAS_THREADS || defined(FCNTL_IS_GLOBAL) APR_PROCESS_LOCK_MECH_IS_GLOBAL, #else 0, #endif proc_mutex_fcntl_create, proc_mutex_fcntl_acquire, proc_mutex_fcntl_tryacquire, proc_mutex_fcntl_release, proc_mutex_fcntl_cleanup, proc_mutex_no_child_init, "fcntl" }; #endif /* fcntl implementation */ #if APR_HAS_FLOCK_SERIALIZE static apr_status_t proc_mutex_flock_release(apr_proc_mutex_t *); static apr_status_t proc_mutex_flock_cleanup(void *mutex_) { apr_status_t status; apr_proc_mutex_t *mutex=mutex_; if (mutex->curr_locked == 1) { status = proc_mutex_flock_release(mutex); if (status != APR_SUCCESS) return status; } if (mutex->interproc) { /* if it was opened properly */ apr_file_close(mutex->interproc); } unlink(mutex->fname); return APR_SUCCESS; } static apr_status_t proc_mutex_flock_create(apr_proc_mutex_t *new_mutex, const char *fname) { int rv; if (fname) { new_mutex->fname = apr_pstrdup(new_mutex->pool, fname); rv = apr_file_open(&new_mutex->interproc, new_mutex->fname, APR_FOPEN_CREATE | APR_FOPEN_WRITE | APR_FOPEN_EXCL, APR_UREAD | APR_UWRITE, new_mutex->pool); } else { new_mutex->fname = apr_pstrdup(new_mutex->pool, "/tmp/aprXXXXXX"); rv = apr_file_mktemp(&new_mutex->interproc, new_mutex->fname, APR_FOPEN_CREATE | APR_FOPEN_WRITE | APR_FOPEN_EXCL, new_mutex->pool); } if (rv != APR_SUCCESS) { proc_mutex_flock_cleanup(new_mutex); return errno; } new_mutex->curr_locked = 0; apr_pool_cleanup_register(new_mutex->pool, (void *)new_mutex, apr_proc_mutex_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } static apr_status_t proc_mutex_flock_acquire(apr_proc_mutex_t *mutex) { int rc; do { rc = flock(mutex->interproc->filedes, LOCK_EX); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_flock_tryacquire(apr_proc_mutex_t *mutex) { int rc; do { rc = flock(mutex->interproc->filedes, LOCK_EX | LOCK_NB); } while (rc < 0 && errno == EINTR); if (rc < 0) { if (errno == EWOULDBLOCK || errno == EAGAIN) { return APR_EBUSY; } return errno; } mutex->curr_locked = 1; return APR_SUCCESS; } static apr_status_t proc_mutex_flock_release(apr_proc_mutex_t *mutex) { int rc; mutex->curr_locked = 0; do { rc = flock(mutex->interproc->filedes, LOCK_UN); } while (rc < 0 && errno == EINTR); if (rc < 0) { return errno; } return APR_SUCCESS; } static apr_status_t proc_mutex_flock_child_init(apr_proc_mutex_t **mutex, apr_pool_t *pool, const char *fname) { apr_proc_mutex_t *new_mutex; int rv; new_mutex = (apr_proc_mutex_t *)apr_palloc(pool, sizeof(apr_proc_mutex_t)); memcpy(new_mutex, *mutex, sizeof *new_mutex); new_mutex->pool = pool; if (!fname) { fname = (*mutex)->fname; } new_mutex->fname = apr_pstrdup(pool, fname); rv = apr_file_open(&new_mutex->interproc, new_mutex->fname, APR_FOPEN_WRITE, 0, new_mutex->pool); if (rv != APR_SUCCESS) { return rv; } *mutex = new_mutex; return APR_SUCCESS; } static const apr_proc_mutex_unix_lock_methods_t mutex_flock_methods = { #if APR_PROCESS_LOCK_IS_GLOBAL || !APR_HAS_THREADS || defined(FLOCK_IS_GLOBAL) APR_PROCESS_LOCK_MECH_IS_GLOBAL, #else 0, #endif proc_mutex_flock_create, proc_mutex_flock_acquire, proc_mutex_flock_tryacquire, proc_mutex_flock_release, proc_mutex_flock_cleanup, proc_mutex_flock_child_init, "flock" }; #endif /* flock implementation */ void apr_proc_mutex_unix_setup_lock(void) { /* setup only needed for sysvsem and fnctl */ #if APR_HAS_SYSVSEM_SERIALIZE proc_mutex_sysv_setup(); #endif #if APR_HAS_FCNTL_SERIALIZE proc_mutex_fcntl_setup(); #endif } static apr_status_t proc_mutex_choose_method(apr_proc_mutex_t *new_mutex, apr_lockmech_e mech) { switch (mech) { case APR_LOCK_FCNTL: #if APR_HAS_FCNTL_SERIALIZE new_mutex->inter_meth = &mutex_fcntl_methods; #else return APR_ENOTIMPL; #endif break; case APR_LOCK_FLOCK: #if APR_HAS_FLOCK_SERIALIZE new_mutex->inter_meth = &mutex_flock_methods; #else return APR_ENOTIMPL; #endif break; case APR_LOCK_SYSVSEM: #if APR_HAS_SYSVSEM_SERIALIZE new_mutex->inter_meth = &mutex_sysv_methods; #else return APR_ENOTIMPL; #endif break; case APR_LOCK_POSIXSEM: #if APR_HAS_POSIXSEM_SERIALIZE new_mutex->inter_meth = &mutex_posixsem_methods; #else return APR_ENOTIMPL; #endif break; case APR_LOCK_PROC_PTHREAD: #if APR_HAS_PROC_PTHREAD_SERIALIZE new_mutex->inter_meth = &mutex_proc_pthread_methods; #else return APR_ENOTIMPL; #endif break; case APR_LOCK_DEFAULT: #if APR_USE_FLOCK_SERIALIZE new_mutex->inter_meth = &mutex_flock_methods; #elif APR_USE_SYSVSEM_SERIALIZE new_mutex->inter_meth = &mutex_sysv_methods; #elif APR_USE_FCNTL_SERIALIZE new_mutex->inter_meth = &mutex_fcntl_methods; #elif APR_USE_PROC_PTHREAD_SERIALIZE new_mutex->inter_meth = &mutex_proc_pthread_methods; #elif APR_USE_POSIXSEM_SERIALIZE new_mutex->inter_meth = &mutex_posixsem_methods; #else return APR_ENOTIMPL; #endif break; default: return APR_ENOTIMPL; } return APR_SUCCESS; } APR_DECLARE(const char *) apr_proc_mutex_defname(void) { apr_status_t rv; apr_proc_mutex_t mutex; if ((rv = proc_mutex_choose_method(&mutex, APR_LOCK_DEFAULT)) != APR_SUCCESS) { return "unknown"; } mutex.meth = mutex.inter_meth; return apr_proc_mutex_name(&mutex); } static apr_status_t proc_mutex_create(apr_proc_mutex_t *new_mutex, apr_lockmech_e mech, const char *fname) { apr_status_t rv; if ((rv = proc_mutex_choose_method(new_mutex, mech)) != APR_SUCCESS) { return rv; } new_mutex->meth = new_mutex->inter_meth; if ((rv = new_mutex->meth->create(new_mutex, fname)) != APR_SUCCESS) { return rv; } return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_proc_mutex_create(apr_proc_mutex_t **mutex, const char *fname, apr_lockmech_e mech, apr_pool_t *pool) { apr_proc_mutex_t *new_mutex; apr_status_t rv; new_mutex = apr_pcalloc(pool, sizeof(apr_proc_mutex_t)); new_mutex->pool = pool; if ((rv = proc_mutex_create(new_mutex, mech, fname)) != APR_SUCCESS) return rv; *mutex = new_mutex; return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_proc_mutex_child_init(apr_proc_mutex_t **mutex, const char *fname, apr_pool_t *pool) { return (*mutex)->meth->child_init(mutex, pool, fname); } APR_DECLARE(apr_status_t) apr_proc_mutex_lock(apr_proc_mutex_t *mutex) { return mutex->meth->acquire(mutex); } APR_DECLARE(apr_status_t) apr_proc_mutex_trylock(apr_proc_mutex_t *mutex) { return mutex->meth->tryacquire(mutex); } APR_DECLARE(apr_status_t) apr_proc_mutex_unlock(apr_proc_mutex_t *mutex) { return mutex->meth->release(mutex); } APR_DECLARE(apr_status_t) apr_proc_mutex_cleanup(void *mutex) { return ((apr_proc_mutex_t *)mutex)->meth->cleanup(mutex); } APR_DECLARE(const char *) apr_proc_mutex_name(apr_proc_mutex_t *mutex) { return mutex->meth->name; } APR_DECLARE(const char *) apr_proc_mutex_lockfile(apr_proc_mutex_t *mutex) { /* POSIX sems use the fname field but don't use a file, * so be careful. */ #if APR_HAS_FLOCK_SERIALIZE if (mutex->meth == &mutex_flock_methods) { return mutex->fname; } #endif #if APR_HAS_FCNTL_SERIALIZE if (mutex->meth == &mutex_fcntl_methods) { return mutex->fname; } #endif return NULL; } APR_POOL_IMPLEMENT_ACCESSOR(proc_mutex) /* Implement OS-specific accessors defined in apr_portable.h */ APR_DECLARE(apr_status_t) apr_os_proc_mutex_get(apr_os_proc_mutex_t *ospmutex, apr_proc_mutex_t *pmutex) { #if APR_HAS_SYSVSEM_SERIALIZE || APR_HAS_FCNTL_SERIALIZE || APR_HAS_FLOCK_SERIALIZE || APR_HAS_POSIXSEM_SERIALIZE ospmutex->crossproc = pmutex->interproc->filedes; #endif #if APR_HAS_PROC_PTHREAD_SERIALIZE ospmutex->pthread_interproc = pmutex->pthread_interproc; #endif return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_os_proc_mutex_put(apr_proc_mutex_t **pmutex, apr_os_proc_mutex_t *ospmutex, apr_pool_t *pool) { if (pool == NULL) { return APR_ENOPOOL; } if ((*pmutex) == NULL) { (*pmutex) = (apr_proc_mutex_t *)apr_pcalloc(pool, sizeof(apr_proc_mutex_t)); (*pmutex)->pool = pool; } #if APR_HAS_SYSVSEM_SERIALIZE || APR_HAS_FCNTL_SERIALIZE || APR_HAS_FLOCK_SERIALIZE || APR_HAS_POSIXSEM_SERIALIZE apr_os_file_put(&(*pmutex)->interproc, &ospmutex->crossproc, 0, pool); #endif #if APR_HAS_PROC_PTHREAD_SERIALIZE (*pmutex)->pthread_interproc = ospmutex->pthread_interproc; #endif return APR_SUCCESS; }