/* +----------------------------------------------------------------------+ | PHP version 4.0 | +----------------------------------------------------------------------+ | Copyright (c) 1997, 1998, 1999 The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available at through the world-wide-web at | | http://www.php.net/license/2_0.txt. | | If you did not receive a copy of the PHP license and are unable to | | obtain it through the world-wide-web, please send a note to | | license@php.net so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Authors: Tom May | +----------------------------------------------------------------------+ */ /* $Id$ */ /* This has been built and tested on Solaris 2.6 and Linux 2.1.122. * It may not compile or execute correctly on other systems. * * sas: Works for me on Linux 2.0.36 and FreeBSD 3.0-current */ #include "php.h" #if HAVE_SYSVSEM #include #include #include #include #include "php_sysvsem.h" #if !HAVE_SEMUN && defined(__GNU_LIBRARY__) && __GNU_LIBRARY__ == 6 union semun { int val; /* value for SETVAL */ struct semid_ds *buf; /* buffer for IPC_STAT, IPC_SET */ unsigned short int *array; /* array for GETALL, SETALL */ struct seminfo *__buf; /* buffer for IPC_INFO */ }; #undef HAVE_SEMUN #define HAVE_SEMUN 1 #endif function_entry sysvsem_functions[] = { {"sem_get", php3_sysvsem_get, NULL}, {"sem_acquire", php3_sysvsem_acquire, NULL}, {"sem_release", php3_sysvsem_release, NULL}, {NULL, NULL, NULL} }; zend_module_entry sysvsem_module_entry = { "System V semaphores", sysvsem_functions, php3_minit_sysvsem, NULL, NULL, NULL, NULL, STANDARD_MODULE_PROPERTIES }; #if COMPILE_DL php3_module_entry *get_module() { return &sysvsem_module_entry; } #endif THREAD_LS sysvsem_module php3_sysvsem_module; /* Semaphore functions using System V semaphores. Each semaphore * actually consists of three semaphores allocated as a unit under the * same key. Semaphore 0 (SYSVSEM_SEM) is the actual semaphore, it is * initialized to max_acquire and decremented as processes acquire it. * The value of semaphore 1 (SYSVSEM_USAGE) is a count of the number * of processes using the semaphore. After calling semget(), if a * process finds that the usage count is 1, it will set the value of * SYSVSEM_SEM to max_acquire. This allows max_acquire to be set and * track the PHP code without having a global init routine or external * semaphore init code. Except see the bug regarding a race condition * php3_sysvsem_get(). Semaphore 2 (SYSVSEM_SETVAL) serializes the * calls to GETVAL SYSVSEM_USAGE and SETVAL SYSVSEM_SEM. It can be * acquired only when it is zero. */ #define SYSVSEM_SEM 0 #define SYSVSEM_USAGE 1 #define SYSVSEM_SETVAL 2 static void release_sysvsem_sem(sysvsem_sem *sem_ptr) { struct sembuf sop[2]; /* Decrement the usage count. */ sop[0].sem_num = SYSVSEM_USAGE; sop[0].sem_op = -1; sop[0].sem_flg = SEM_UNDO; /* Release the semaphore if it has been acquired but not released. */ if (sem_ptr->count) { php_error(E_WARNING, "Releasing SysV semaphore id %d key 0x%x in request cleanup", sem_ptr->id, sem_ptr->key); sop[1].sem_num = SYSVSEM_SEM; sop[1].sem_op = sem_ptr->count; sop[1].sem_flg = SEM_UNDO; } if (semop(sem_ptr->semid, sop, sem_ptr->count ? 2 : 1) == -1) { php_error(E_WARNING, "semop() failed in release_sysvsem_sem for key 0x%x: %s", sem_ptr->key, strerror(errno)); } efree(sem_ptr); } int php3_minit_sysvsem(INIT_FUNC_ARGS) { php3_sysvsem_module.le_sem = register_list_destructors(release_sysvsem_sem, NULL); return SUCCESS; } #define SETVAL_WANTS_PTR #if defined(_AIX) #undef SETVAL_WANTS_PTR #endif /* {{{ proto int sem_get(int key [, int max_acquire [, int perm]]) Return an id for the semaphore with the given key, and allow max_acquire (default 1) processes to acquire it simultaneously. */ PHP_FUNCTION(sysvsem_get) { pval **arg_key, **arg_max_acquire, **arg_perm; int key, max_acquire, perm; int semid; struct sembuf sop[3]; int count; sysvsem_sem *sem_ptr; #if HAVE_SEMUN union semun un; #endif max_acquire = 1; perm = 0666; switch (ARG_COUNT(ht)) { case 1: if (getParametersEx(1, &arg_key)==FAILURE) { RETURN_FALSE; } convert_to_long_ex(arg_key); key = (int)(*arg_key)->value.lval; break; case 2: if (getParametersEx(2, &arg_key, &arg_max_acquire)==FAILURE) { RETURN_FALSE; } convert_to_long_ex(arg_key); key = (int)(*arg_key)->value.lval; convert_to_long_ex(arg_max_acquire); max_acquire = (int)(*arg_max_acquire)->value.lval; break; case 3: if (getParametersEx(3, &arg_key, &arg_max_acquire, &arg_perm)==FAILURE) { RETURN_FALSE; } convert_to_long_ex(arg_key); convert_to_long_ex(arg_max_acquire); convert_to_long_ex(arg_perm); key = (int)(*arg_key)->value.lval; max_acquire = (int)(*arg_max_acquire)->value.lval; perm = (int)(*arg_perm)->value.lval; break; default: WRONG_PARAM_COUNT; break; } /* Get/create the semaphore. Note that we rely on the semaphores * being zeroed when they are created. Despite the fact that * the(?) Linux semget() man page says they are not initialized, * the kernel versions 2.0.x and 2.1.z do in fact zero them. */ semid = semget(key, 3, perm|IPC_CREAT); if (semid == -1) { php_error(E_WARNING, "semget() failed for key 0x%x: %s", key, strerror(errno)); RETURN_FALSE; } /* Find out how many processes are using this semaphore. Note * that on Linux (at least) there is a race condition here because * semaphore undo on process exit is not atomic, so we could * acquire SYSVSEM_SETVAL before a crashed process has decremented * SYSVSEM_USAGE in which case count will be greater than it * should be and we won't set max_acquire. Fortunately this * doesn't actually matter in practice. */ /* Wait for sem 1 to be zero . . . */ sop[0].sem_num = SYSVSEM_SETVAL; sop[0].sem_op = 0; sop[0].sem_flg = 0; /* . . . and increment it so it becomes non-zero . . . */ sop[1].sem_num = SYSVSEM_SETVAL; sop[1].sem_op = 1; sop[1].sem_flg = SEM_UNDO; /* . . . and increment the usage count. */ sop[2].sem_num = SYSVSEM_USAGE; sop[2].sem_op = 1; sop[2].sem_flg = SEM_UNDO; while (semop(semid, sop, 3) == -1) { if (errno != EINTR) { php_error(E_WARNING, "semop() failed acquiring SYSVSEM_SETVAL for key 0x%x: %s", key, strerror(errno)); break; } } /* Get the usage count. */ #if HAVE_SEMUN count = semctl(semid, SYSVSEM_USAGE, GETVAL, un); #else count = semctl(semid, SYSVSEM_USAGE, GETVAL, NULL); #endif if (count == -1) { php_error(E_WARNING, "semctl(GETVAL) failed for key 0x%x: %s", key, strerror(errno)); } /* If we are the only user, then take this opportunity to set the max. */ if (count == 1) { #if HAVE_SEMUN /* This is correct for Linux which has union semun. */ union semun semarg; semarg.val = max_acquire; if (semctl(semid, SYSVSEM_SEM, SETVAL, semarg) == -1) { php_error(E_WARNING, "semctl(SETVAL) failed for key 0x%x: %s", key, strerror(errno)); } #elif defined(SETVAL_WANTS_PTR) /* This is correct for Solaris 2.6 which does not have union semun. */ if (semctl(semid, SYSVSEM_SEM, SETVAL, &max_acquire) == -1) { php_error(E_WARNING, "semctl(SETVAL) failed for key 0x%x: %s", key, strerror(errno)); } #else /* This works for i.e. AIX */ if (semctl(semid, SYSVSEM_SEM, SETVAL, max_acquire) == -1) { php_error(E_WARNING, "semctl(SETVAL) failed for key 0x%x: %s", key, strerror(errno)); } #endif } /* Set semaphore 1 back to zero. */ sop[0].sem_num = SYSVSEM_SETVAL; sop[0].sem_op = -1; sop[0].sem_flg = SEM_UNDO; while (semop(semid, sop, 1) == -1) { if (errno != EINTR) { php_error(E_WARNING, "semop() failed releasing SYSVSEM_SETVAL for key 0x%x: %s", key, strerror(errno)); break; } } sem_ptr = (sysvsem_sem *) emalloc(sizeof(sysvsem_sem)); sem_ptr->key = key; sem_ptr->semid = semid; sem_ptr->count = 0; return_value->value.lval = zend_list_insert(sem_ptr, php3_sysvsem_module.le_sem); return_value->type = IS_LONG; sem_ptr->id = (int)return_value->value.lval; } /* }}} */ static void _php3_sysvsem_semop(INTERNAL_FUNCTION_PARAMETERS, int acquire) { pval **arg_id; int id, type; sysvsem_sem *sem_ptr; struct sembuf sop; switch(ARG_COUNT(ht)) { case 1: if (getParametersEx(1, &arg_id)==FAILURE) { RETURN_FALSE; } convert_to_long_ex(arg_id); id = (int)(*arg_id)->value.lval; break; default: WRONG_PARAM_COUNT; break; } sem_ptr = (sysvsem_sem *) zend_list_find(id, &type); if (type!=php3_sysvsem_module.le_sem) { php_error(E_WARNING, "%d is not a SysV semaphore index", id); RETURN_FALSE; } if (!acquire && sem_ptr->count == 0) { php_error(E_WARNING, "SysV semaphore index %d (key 0x%x) is not currently acquired", id, sem_ptr->key); RETURN_FALSE; } sop.sem_num = SYSVSEM_SEM; sop.sem_op = acquire ? -1 : 1; sop.sem_flg = SEM_UNDO; while (semop(sem_ptr->semid, &sop, 1) == -1) { if (errno != EINTR) { php_error(E_WARNING, "semop(%s) failed for key 0x%x: %s", acquire ? "acquire" : "release", sem_ptr->key, strerror(errno)); RETURN_FALSE; } } sem_ptr->count -= acquire ? -1 : 1; RETURN_TRUE; } /* {{{ proto int sem_acquire(int id) Acquires the semaphore with the given id, blocking if necessary. */ PHP_FUNCTION(sysvsem_acquire) { _php3_sysvsem_semop(INTERNAL_FUNCTION_PARAM_PASSTHRU, 1); } /* }}} */ /* {{{ proto int sem_release(int id) Releases the semaphore with the given id. */ PHP_FUNCTION(sysvsem_release) { _php3_sysvsem_semop(INTERNAL_FUNCTION_PARAM_PASSTHRU, 0); } /* }}} */ #endif /* HAVE_SYSVSEM */ /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: */