/* +----------------------------------------------------------------------+ | Copyright (c) The PHP Group | +----------------------------------------------------------------------+ | This source file is subject to version 3.01 of the PHP license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | https://www.php.net/license/3_01.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. | +----------------------------------------------------------------------+ | Author: Jason Greene | +----------------------------------------------------------------------+ */ #define PCNTL_DEBUG 0 #if PCNTL_DEBUG #define DEBUG_OUT printf("DEBUG: ");printf #define IF_DEBUG(z) z #else #define IF_DEBUG(z) #endif #ifdef HAVE_CONFIG_H #include #endif #include "php.h" #include "ext/standard/info.h" #include "php_signal.h" #include "php_ticks.h" #include "zend_fibers.h" #include "main/php_main.h" #if defined(HAVE_GETPRIORITY) || defined(HAVE_SETPRIORITY) || defined(HAVE_WAIT3) #include #include #include #endif #ifdef HAVE_WAITID #if defined (HAVE_DECL_P_ALL) && HAVE_DECL_P_ALL == 1 #define HAVE_POSIX_IDTYPES 1 #endif #if defined (HAVE_DECL_P_PIDFD) && HAVE_DECL_P_PIDFD == 1 #define HAVE_LINUX_IDTYPES 1 #endif #if defined (HAVE_DECL_P_UID) && HAVE_DECL_P_UID == 1 #define HAVE_NETBSD_IDTYPES 1 #endif #if defined (HAVE_DECL_P_JAILID) && HAVE_DECL_P_JAILID == 1 #define HAVE_FREEBSD_IDTYPES 1 #endif #endif #include "php_pcntl.h" #include #if defined(HAVE_UNSHARE) || defined(HAVE_SCHED_SETAFFINITY) || defined(HAVE_SCHED_GETCPU) #include #if defined(__FreeBSD__) #include #include typedef cpuset_t cpu_set_t; #endif #define PCNTL_CPUSET(mask) &mask #define PCNTL_CPUSET_SIZE(mask) sizeof(mask) #define PCNTL_CPU_ISSET(i, mask) CPU_ISSET(i, &mask) #define PCNTL_CPU_SET(i, mask) CPU_SET(i, &mask) #define PCNTL_CPU_ZERO(mask) CPU_ZERO(&mask) #define PCNTL_CPU_DESTROY(mask) ((void)0) #elif defined(__NetBSD__) #include #include typedef cpuset_t *cpu_set_t; #define sched_getaffinity(p, c, m) syscall(SYS__sched_getaffinity, p, 0, c, m) #define sched_setaffinity(p, c, m) syscall(SYS__sched_setaffinity, p, 0, c, m) #define PCNTL_CPUSET(mask) mask #define PCNTL_CPUSET_SIZE(mask) cpuset_size(mask) #define PCNTL_CPU_ISSET(i, mask) cpuset_isset((cpuid_t)i, mask) #define PCNTL_CPU_SET(i, mask) cpuset_set((cpuid_t)i, mask) #define PCNTL_CPU_ZERO(mask) \ do { \ mask = cpuset_create(); \ if (UNEXPECTED(!mask)) { \ php_error_docref(NULL, E_WARNING, "cpuset_create: Insufficient memory"); \ RETURN_FALSE; \ } \ cpuset_zero(mask); \ } while(0) #define PCNTL_CPU_DESTROY(mask) cpuset_destroy(mask) #define HAVE_SCHED_SETAFFINITY 1 #elif defined(HAVE_PSET_BIND) #include typedef psetid_t cpu_set_t; #define sched_getaffinity(p, c, m) pset_bind(PS_QUERY, P_PID, (p <= 0 ? getpid() : p), &m) #define sched_setaffinity(p, c, m) pset_bind(m, P_PID, (p <= 0 ? getpid() : p), NULL) #define PCNTL_CPUSET(mask) mask #define PCNTL_CPU_ISSET(i, mask) (pset_assign(PS_QUERY, (processorid_t)i, &query) == 0 && query == mask) #define PCNTL_CPU_SET(i, mask) pset_assign(mask, (processorid_t)i, NULL) #define PCNTL_CPU_ZERO(mask) \ psetid_t query; \ do { \ if (UNEXPECTED(pset_create(&mask) != 0)) { \ php_error_docref(NULL, E_WARNING, "pset_create: %s", strerror(errno)); \ RETURN_FALSE; \ } \ } while (0) #define PCNTL_CPU_DESTROY(mask) \ do { \ if (UNEXPECTED(mask != PS_NONE && pset_destroy(mask) != 0)) { \ php_error_docref(NULL, E_WARNING, "pset_destroy: %s", strerror(errno)); \ } \ } while (0) #define HAVE_SCHED_SETAFFINITY 1 #endif #if defined(HAVE_GETCPUID) #include #define sched_getcpu getcpuid #define HAVE_SCHED_GETCPU 1 #endif #if defined(HAVE_PTHREAD_SET_QOS_CLASS_SELF_NP) #include #endif #if defined(__linux__) && defined(HAVE_SYSCALL) # include # if defined(HAVE_DECL_SYS_WAITID) && HAVE_DECL_SYS_WAITID == 1 # define HAVE_LINUX_RAW_SYSCALL_WAITID 1 # endif # if defined(HAVE_DECL_SYS_PIDFD_OPEN) && HAVE_DECL_SYS_PIDFD_OPEN == 1 # define HAVE_LINUX_RAW_SYSCALL_PIDFD_OPEN 1 # endif #endif #if defined(HAVE_LINUX_RAW_SYSCALL_WAITID) #include #endif #ifdef HAVE_FORKX #include #endif #ifndef NSIG # define NSIG 32 #endif #define LONG_CONST(c) (zend_long) c #include "Zend/zend_enum.h" #include "Zend/zend_max_execution_timer.h" #include "pcntl_arginfo.h" static zend_class_entry *QosClass_ce; ZEND_DECLARE_MODULE_GLOBALS(pcntl) static PHP_GINIT_FUNCTION(pcntl); zend_module_entry pcntl_module_entry = { STANDARD_MODULE_HEADER, "pcntl", ext_functions, PHP_MINIT(pcntl), NULL, PHP_RINIT(pcntl), PHP_RSHUTDOWN(pcntl), PHP_MINFO(pcntl), PHP_PCNTL_VERSION, PHP_MODULE_GLOBALS(pcntl), PHP_GINIT(pcntl), NULL, NULL, STANDARD_MODULE_PROPERTIES_EX }; #ifdef COMPILE_DL_PCNTL #ifdef ZTS ZEND_TSRMLS_CACHE_DEFINE() #endif ZEND_GET_MODULE(pcntl) #endif static void (*orig_interrupt_function)(zend_execute_data *execute_data); #ifdef HAVE_STRUCT_SIGINFO_T static void pcntl_signal_handler(int, siginfo_t*, void*); static void pcntl_siginfo_to_zval(int, siginfo_t*, zval*); #else static void pcntl_signal_handler(int); #endif static void pcntl_signal_dispatch(void); static void pcntl_signal_dispatch_tick_function(int dummy_int, void *dummy_pointer); static void pcntl_interrupt_function(zend_execute_data *execute_data); static PHP_GINIT_FUNCTION(pcntl) { #if defined(COMPILE_DL_PCNTL) && defined(ZTS) ZEND_TSRMLS_CACHE_UPDATE(); #endif memset(pcntl_globals, 0, sizeof(*pcntl_globals)); } PHP_RINIT_FUNCTION(pcntl) { php_add_tick_function(pcntl_signal_dispatch_tick_function, NULL); zend_hash_init(&PCNTL_G(php_signal_table), 16, NULL, ZVAL_PTR_DTOR, 0); PCNTL_G(head) = PCNTL_G(tail) = PCNTL_G(spares) = NULL; PCNTL_G(async_signals) = 0; PCNTL_G(last_error) = 0; PCNTL_G(num_signals) = NSIG; #ifdef SIGRTMAX /* At least FreeBSD reports an incorrecrt NSIG that does not include realtime signals. * As SIGRTMAX may be a dynamic value, adjust the value in INIT. */ if (NSIG < SIGRTMAX + 1) { PCNTL_G(num_signals) = SIGRTMAX + 1; } #endif return SUCCESS; } PHP_MINIT_FUNCTION(pcntl) { QosClass_ce = register_class_Pcntl_QosClass(); register_pcntl_symbols(module_number); orig_interrupt_function = zend_interrupt_function; zend_interrupt_function = pcntl_interrupt_function; return SUCCESS; } PHP_RSHUTDOWN_FUNCTION(pcntl) { struct php_pcntl_pending_signal *sig; zend_long signo; zval *handle; /* Reset all signals to their default disposition */ ZEND_HASH_FOREACH_NUM_KEY_VAL(&PCNTL_G(php_signal_table), signo, handle) { if (Z_TYPE_P(handle) != IS_LONG || Z_LVAL_P(handle) != (zend_long)SIG_DFL) { php_signal(signo, (Sigfunc *)(zend_long)SIG_DFL, 0); } } ZEND_HASH_FOREACH_END(); zend_hash_destroy(&PCNTL_G(php_signal_table)); while (PCNTL_G(head)) { sig = PCNTL_G(head); PCNTL_G(head) = sig->next; efree(sig); } while (PCNTL_G(spares)) { sig = PCNTL_G(spares); PCNTL_G(spares) = sig->next; efree(sig); } return SUCCESS; } PHP_MINFO_FUNCTION(pcntl) { php_info_print_table_start(); php_info_print_table_row(2, "pcntl support", "enabled"); php_info_print_table_end(); } /* {{{ Forks the currently running process following the same behavior as the UNIX fork() system call*/ PHP_FUNCTION(pcntl_fork) { pid_t id; ZEND_PARSE_PARAMETERS_NONE(); id = fork(); if (id == -1) { PCNTL_G(last_error) = errno; switch (errno) { case EAGAIN: php_error_docref(NULL, E_WARNING, "Error %d: Reached the maximum limit of number of processes", errno); break; case ENOMEM: php_error_docref(NULL, E_WARNING, "Error %d: Insufficient memory", errno); break; // unlikely, especially nowadays. case ENOSYS: php_error_docref(NULL, E_WARNING, "Error %d: Unimplemented", errno); break; // QNX is the only platform returning it so far and is a different case from EAGAIN. // Retries can be handled with sleep eventually. case EBADF: php_error_docref(NULL, E_WARNING, "Error %d: File descriptor concurrency issue", errno); break; default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } } else if (id == 0) { php_child_init(); } RETURN_LONG((zend_long) id); } /* }}} */ /* {{{ Set an alarm clock for delivery of a signal*/ PHP_FUNCTION(pcntl_alarm) { zend_long seconds; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(seconds); ZEND_PARSE_PARAMETERS_END(); RETURN_LONG((zend_long) alarm(seconds)); } /* }}} */ #define PHP_RUSAGE_PARA(from, to, field) \ add_assoc_long(to, #field, from.field) #ifndef _OSD_POSIX #define PHP_RUSAGE_SPECIAL(from, to) \ PHP_RUSAGE_PARA(from, to, ru_oublock); \ PHP_RUSAGE_PARA(from, to, ru_inblock); \ PHP_RUSAGE_PARA(from, to, ru_msgsnd); \ PHP_RUSAGE_PARA(from, to, ru_msgrcv); \ PHP_RUSAGE_PARA(from, to, ru_maxrss); \ PHP_RUSAGE_PARA(from, to, ru_ixrss); \ PHP_RUSAGE_PARA(from, to, ru_idrss); \ PHP_RUSAGE_PARA(from, to, ru_minflt); \ PHP_RUSAGE_PARA(from, to, ru_majflt); \ PHP_RUSAGE_PARA(from, to, ru_nsignals); \ PHP_RUSAGE_PARA(from, to, ru_nvcsw); \ PHP_RUSAGE_PARA(from, to, ru_nivcsw); \ PHP_RUSAGE_PARA(from, to, ru_nswap); #else /*_OSD_POSIX*/ #define PHP_RUSAGE_SPECIAL(from, to) #endif #define PHP_RUSAGE_COMMON(from ,to) \ PHP_RUSAGE_PARA(from, to, ru_utime.tv_usec); \ PHP_RUSAGE_PARA(from, to, ru_utime.tv_sec); \ PHP_RUSAGE_PARA(from, to, ru_stime.tv_usec); \ PHP_RUSAGE_PARA(from, to, ru_stime.tv_sec); #define PHP_RUSAGE_TO_ARRAY(from, to) \ if (to) { \ PHP_RUSAGE_SPECIAL(from, to) \ PHP_RUSAGE_COMMON(from, to); \ } /* {{{ Waits on or returns the status of a forked child as defined by the waitpid() system call */ PHP_FUNCTION(pcntl_waitpid) { zend_long pid, options = 0; zval *z_status = NULL, *z_rusage = NULL; int status; pid_t child_id; #ifdef HAVE_WAIT4 struct rusage rusage; #endif ZEND_PARSE_PARAMETERS_START(2, 4) Z_PARAM_LONG(pid) Z_PARAM_ZVAL(z_status) Z_PARAM_OPTIONAL Z_PARAM_LONG(options) Z_PARAM_ZVAL(z_rusage) ZEND_PARSE_PARAMETERS_END(); status = zval_get_long(z_status); #ifdef HAVE_WAIT4 if (z_rusage) { z_rusage = zend_try_array_init(z_rusage); if (!z_rusage) { RETURN_THROWS(); } memset(&rusage, 0, sizeof(struct rusage)); child_id = wait4((pid_t) pid, &status, options, &rusage); } else { child_id = waitpid((pid_t) pid, &status, options); } #else child_id = waitpid((pid_t) pid, &status, options); #endif if (child_id < 0) { PCNTL_G(last_error) = errno; } #ifdef HAVE_WAIT4 if (child_id > 0) { PHP_RUSAGE_TO_ARRAY(rusage, z_rusage); } #endif ZEND_TRY_ASSIGN_REF_LONG(z_status, status); RETURN_LONG((zend_long) child_id); } /* }}} */ #if defined (HAVE_WAITID) && defined (HAVE_POSIX_IDTYPES) && defined (HAVE_DECL_WEXITED) && HAVE_DECL_WEXITED == 1 PHP_FUNCTION(pcntl_waitid) { zend_long idtype = P_ALL; zend_long id = 0; bool id_is_null = 1; zval *user_siginfo = NULL; zend_long options = WEXITED; zval *z_rusage = NULL; siginfo_t siginfo; int status; ZEND_PARSE_PARAMETERS_START(0, 5) Z_PARAM_OPTIONAL Z_PARAM_LONG(idtype) Z_PARAM_LONG_OR_NULL(id, id_is_null) Z_PARAM_ZVAL(user_siginfo) Z_PARAM_LONG(options) Z_PARAM_ZVAL(z_rusage) ZEND_PARSE_PARAMETERS_END(); errno = 0; memset(&siginfo, 0, sizeof(siginfo_t)); #if defined(HAVE_WAIT6) || defined(HAVE_LINUX_RAW_SYSCALL_WAITID) if (z_rusage) { z_rusage = zend_try_array_init(z_rusage); if (!z_rusage) { RETURN_THROWS(); } struct rusage rusage; # if defined(HAVE_WAIT6) /* FreeBSD */ struct __wrusage wrusage; memset(&wrusage, 0, sizeof(struct __wrusage)); pid_t pid = wait6((idtype_t) idtype, (id_t) id, &status, (int) options, &wrusage, &siginfo); status = pid > 0 ? 0 : pid; memcpy(&rusage, &wrusage.wru_self, sizeof(struct rusage)); # else /* Linux */ memset(&rusage, 0, sizeof(struct rusage)); status = syscall(SYS_waitid, (idtype_t) idtype, (id_t) id, &siginfo, (int) options, &rusage); # endif if (status == 0) { PHP_RUSAGE_TO_ARRAY(rusage, z_rusage); } } else { /* POSIX */ status = waitid((idtype_t) idtype, (id_t) id, &siginfo, (int) options); } #else /* POSIX */ status = waitid((idtype_t) idtype, (id_t) id, &siginfo, (int) options); #endif if (status == -1) { PCNTL_G(last_error) = errno; RETURN_FALSE; } pcntl_siginfo_to_zval(SIGCHLD, &siginfo, user_siginfo); RETURN_TRUE; } #endif /* {{{ Waits on or returns the status of a forked child as defined by the waitpid() system call */ PHP_FUNCTION(pcntl_wait) { zend_long options = 0; zval *z_status = NULL, *z_rusage = NULL; int status; pid_t child_id; #ifdef HAVE_WAIT3 struct rusage rusage; #endif ZEND_PARSE_PARAMETERS_START(1, 3) Z_PARAM_ZVAL(z_status) Z_PARAM_OPTIONAL Z_PARAM_LONG(options) Z_PARAM_ZVAL(z_rusage) ZEND_PARSE_PARAMETERS_END(); status = zval_get_long(z_status); #ifdef HAVE_WAIT3 if (z_rusage) { z_rusage = zend_try_array_init(z_rusage); if (!z_rusage) { RETURN_THROWS(); } memset(&rusage, 0, sizeof(struct rusage)); child_id = wait3(&status, options, &rusage); } else if (options) { child_id = wait3(&status, options, NULL); } else { child_id = wait(&status); } #else child_id = wait(&status); #endif if (child_id < 0) { PCNTL_G(last_error) = errno; } #ifdef HAVE_WAIT3 if (child_id > 0) { PHP_RUSAGE_TO_ARRAY(rusage, z_rusage); } #endif ZEND_TRY_ASSIGN_REF_LONG(z_status, status); RETURN_LONG((zend_long) child_id); } /* }}} */ #undef PHP_RUSAGE_PARA #undef PHP_RUSAGE_SPECIAL #undef PHP_RUSAGE_COMMON #undef PHP_RUSAGE_TO_ARRAY /* {{{ Returns true if the child status code represents a successful exit */ PHP_FUNCTION(pcntl_wifexited) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WIFEXITED int int_status_word = (int) status_word; if (WIFEXITED(int_status_word)) { RETURN_TRUE; } #endif RETURN_FALSE; } /* }}} */ /* {{{ Returns true if the child status code represents a stopped process (WUNTRACED must have been used with waitpid) */ PHP_FUNCTION(pcntl_wifstopped) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WIFSTOPPED int int_status_word = (int) status_word; if (WIFSTOPPED(int_status_word)) { RETURN_TRUE; } #endif RETURN_FALSE; } /* }}} */ /* {{{ Returns true if the child status code represents a process that was terminated due to a signal */ PHP_FUNCTION(pcntl_wifsignaled) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WIFSIGNALED int int_status_word = (int) status_word; if (WIFSIGNALED(int_status_word)) { RETURN_TRUE; } #endif RETURN_FALSE; } /* }}} */ /* {{{ Returns true if the child status code represents a process that was resumed due to a SIGCONT signal */ PHP_FUNCTION(pcntl_wifcontinued) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef HAVE_WCONTINUED int int_status_word = (int) status_word; if (WIFCONTINUED(int_status_word)) { RETURN_TRUE; } #endif RETURN_FALSE; } /* }}} */ /* {{{ Returns the status code of a child's exit */ PHP_FUNCTION(pcntl_wexitstatus) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WEXITSTATUS int int_status_word = (int) status_word; RETURN_LONG(WEXITSTATUS(int_status_word)); #else RETURN_FALSE; #endif } /* }}} */ /* {{{ Returns the number of the signal that terminated the process who's status code is passed */ PHP_FUNCTION(pcntl_wtermsig) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WTERMSIG int int_status_word = (int) status_word; RETURN_LONG(WTERMSIG(int_status_word)); #else RETURN_FALSE; #endif } /* }}} */ /* {{{ Returns the number of the signal that caused the process to stop who's status code is passed */ PHP_FUNCTION(pcntl_wstopsig) { zend_long status_word; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(status_word) ZEND_PARSE_PARAMETERS_END(); #ifdef WSTOPSIG int int_status_word = (int) status_word; RETURN_LONG(WSTOPSIG(int_status_word)); #else RETURN_FALSE; #endif } /* }}} */ /* {{{ Executes specified program in current process space as defined by exec(2) */ PHP_FUNCTION(pcntl_exec) { zval *args = NULL; HashTable *env_vars_ht = NULL; zval *element; char **argv = NULL, **envp = NULL; char *path; size_t path_len; ZEND_PARSE_PARAMETERS_START(1, 3) Z_PARAM_PATH(path, path_len) Z_PARAM_OPTIONAL Z_PARAM_ARRAY(args) Z_PARAM_ARRAY_HT(env_vars_ht) ZEND_PARSE_PARAMETERS_END(); if (args != NULL) { // TODO Check array is a list? /* Build argument list */ SEPARATE_ARRAY(args); const HashTable *args_ht = Z_ARRVAL_P(args); uint32_t argc = zend_hash_num_elements(args_ht); /* We want a NULL terminated array of char* with the first entry being the path, * followed by the arguments */ argv = safe_emalloc((argc + 2), sizeof(char *), 0); argv[0] = path; char **current_arg = argv+1; ZEND_HASH_FOREACH_VAL(args_ht, element) { if (!try_convert_to_string(element)) { efree(argv); RETURN_THROWS(); } if (zend_str_has_nul_byte(Z_STR_P(element))) { zend_argument_value_error(2, "individual argument must not contain null bytes"); efree(argv); RETURN_THROWS(); } *current_arg = Z_STRVAL_P(element); current_arg++; } ZEND_HASH_FOREACH_END(); *current_arg = NULL; } else { argv = emalloc(2 * sizeof(char *)); argv[0] = path; argv[1] = NULL; } if (env_vars_ht != NULL) { /* Build environment pair list */ char **pair; zend_ulong key_num; zend_string *key; /* We want a NULL terminated array of char* */ size_t envp_len = zend_hash_num_elements(env_vars_ht) + 1; pair = envp = safe_emalloc(envp_len, sizeof(char *), 0); memset(envp, 0, sizeof(char *) * envp_len); ZEND_HASH_FOREACH_KEY_VAL(env_vars_ht, key_num, key, element) { zend_string *element_str = zval_try_get_string(element); if (element_str == NULL) { goto cleanup_env_vars; } if (zend_str_has_nul_byte(element_str)) { zend_argument_value_error(3, "value for environment variable must not contain null bytes"); zend_string_release_ex(element_str, false); goto cleanup_env_vars; } /* putenv() allows integer environment variables */ if (!key) { key = zend_long_to_str((zend_long) key_num); } else { if (zend_str_has_nul_byte(key)) { zend_argument_value_error(3, "name for environment variable must not contain null bytes"); zend_string_release_ex(element_str, false); goto cleanup_env_vars; } zend_string_addref(key); } /* Length of element + equal sign + length of key + null */ *pair = safe_emalloc(ZSTR_LEN(element_str) + 1, sizeof(char), ZSTR_LEN(key) + 1); /* Copy key=element + final null byte into buffer */ memcpy(*pair, ZSTR_VAL(key), ZSTR_LEN(key)); (*pair)[ZSTR_LEN(key)] = '='; /* Copy null byte */ memcpy(*pair + ZSTR_LEN(key) + 1, ZSTR_VAL(element_str), ZSTR_LEN(element_str) + 1); /* Cleanup */ zend_string_release_ex(key, false); zend_string_release_ex(element_str, false); pair++; } ZEND_HASH_FOREACH_END(); *(pair) = NULL; if (execve(path, argv, envp) == -1) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "Error has occurred: (errno %d) %s", errno, strerror(errno)); } cleanup_env_vars: /* Cleanup */ for (pair = envp; *pair != NULL; pair++) efree(*pair); efree(envp); } else { if (execv(path, argv) == -1) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "Error has occurred: (errno %d) %s", errno, strerror(errno)); } } efree(argv); RETURN_FALSE; } /* }}} */ /* {{{ Assigns a system signal handler to a PHP function */ PHP_FUNCTION(pcntl_signal) { zval *handle; zend_long signo; bool restart_syscalls = 1; bool restart_syscalls_is_null = 1; ZEND_PARSE_PARAMETERS_START(2, 3) Z_PARAM_LONG(signo) Z_PARAM_ZVAL(handle) Z_PARAM_OPTIONAL Z_PARAM_BOOL_OR_NULL(restart_syscalls, restart_syscalls_is_null) ZEND_PARSE_PARAMETERS_END(); if (signo < 1) { zend_argument_value_error(1, "must be greater than or equal to 1"); RETURN_THROWS(); } if (signo >= PCNTL_G(num_signals)) { zend_argument_value_error(1, "must be less than %d", PCNTL_G(num_signals)); RETURN_THROWS(); } if (!PCNTL_G(spares)) { /* since calling malloc() from within a signal handler is not portable, * pre-allocate a few records for recording signals */ for (unsigned int i = 0; i < PCNTL_G(num_signals); i++) { struct php_pcntl_pending_signal *psig; psig = emalloc(sizeof(*psig)); psig->next = PCNTL_G(spares); PCNTL_G(spares) = psig; } } /* If restart_syscalls was not explicitly specified and the signal is SIGALRM, then default * restart_syscalls to false. PHP used to enforce that restart_syscalls is false for SIGALRM, * so we keep this differing default to reduce the degree of BC breakage. */ if (restart_syscalls_is_null && signo == SIGALRM) { restart_syscalls = 0; } /* Special long value case for SIG_DFL and SIG_IGN */ if (Z_TYPE_P(handle) == IS_LONG) { if (Z_LVAL_P(handle) != (zend_long) SIG_DFL && Z_LVAL_P(handle) != (zend_long) SIG_IGN) { zend_argument_value_error(2, "must be either SIG_DFL or SIG_IGN when an integer value is given"); RETURN_THROWS(); } if (php_signal(signo, (Sigfunc *) Z_LVAL_P(handle), (int) restart_syscalls) == (void *)SIG_ERR) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "Error assigning signal"); RETURN_FALSE; } zend_hash_index_update(&PCNTL_G(php_signal_table), signo, handle); RETURN_TRUE; } if (!zend_is_callable_ex(handle, NULL, 0, NULL, NULL, NULL)) { PCNTL_G(last_error) = EINVAL; zend_argument_type_error(2, "must be of type callable|int, %s given", zend_zval_value_name(handle)); RETURN_THROWS(); } /* Add the function name to our signal table */ handle = zend_hash_index_update(&PCNTL_G(php_signal_table), signo, handle); Z_TRY_ADDREF_P(handle); if (php_signal4(signo, pcntl_signal_handler, (int) restart_syscalls, 1) == (void *)SIG_ERR) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "Error assigning signal"); RETURN_FALSE; } RETURN_TRUE; } /* }}} */ /* {{{ Gets signal handler */ PHP_FUNCTION(pcntl_signal_get_handler) { zval *prev_handle; zend_long signo; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(signo) ZEND_PARSE_PARAMETERS_END(); // note: max signal on mac is SIGUSR2 (31), no real time signals. int sigmax = NSIG - 1; #if defined(SIGRTMAX) // oddily enough, NSIG on freebsd reports only 32 whereas SIGRTMIN starts at 65. if (sigmax < SIGRTMAX) { sigmax = SIGRTMAX; } #endif if (signo < 1 || signo > sigmax) { zend_argument_value_error(1, "must be between 1 and %d", sigmax); RETURN_THROWS(); } if ((prev_handle = zend_hash_index_find(&PCNTL_G(php_signal_table), signo)) != NULL) { RETURN_COPY(prev_handle); } else { RETURN_LONG((zend_long)SIG_DFL); } } /* {{{ Dispatch signals to signal handlers */ PHP_FUNCTION(pcntl_signal_dispatch) { ZEND_PARSE_PARAMETERS_NONE(); pcntl_signal_dispatch(); RETURN_TRUE; } /* }}} */ /* Common helper function for these 3 wrapper functions */ #if defined(HAVE_SIGWAITINFO) || defined(HAVE_SIGTIMEDWAIT) || defined(HAVE_SIGPROCMASK) static bool php_pcntl_set_user_signal_infos( /* const */ HashTable *const user_signals, sigset_t *const set, size_t arg_num, bool allow_empty_signal_array ) { if (!allow_empty_signal_array && zend_hash_num_elements(user_signals) == 0) { zend_argument_must_not_be_empty_error(arg_num); return false; } errno = 0; if (sigemptyset(set) != 0) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); return false; } zval *user_signal_no; ZEND_HASH_FOREACH_VAL(user_signals, user_signal_no) { bool failed; zend_long tmp = zval_try_get_long(user_signal_no, &failed); if (failed) { zend_argument_type_error(arg_num, "signals must be of type int, %s given", zend_zval_value_name(user_signal_no)); return false; } /* Signals are positive integers */ if (tmp < 1 || tmp >= PCNTL_G(num_signals)) { /* PCNTL_G(num_signals) stores +1 from the last valid signal */ zend_argument_value_error(arg_num, "signals must be between 1 and %d", PCNTL_G(num_signals)-1); return false; } int signal_no = (int) tmp; errno = 0; if (sigaddset(set, signal_no) != 0) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); return false; } } ZEND_HASH_FOREACH_END(); return true; } #endif #ifdef HAVE_SIGPROCMASK /* {{{ Examine and change blocked signals */ PHP_FUNCTION(pcntl_sigprocmask) { zend_long how; HashTable *user_set; /* Optional by-ref out-param array of old signals */ zval *user_old_set = NULL; ZEND_PARSE_PARAMETERS_START(2, 3) Z_PARAM_LONG(how) Z_PARAM_ARRAY_HT(user_set) Z_PARAM_OPTIONAL Z_PARAM_ZVAL(user_old_set) ZEND_PARSE_PARAMETERS_END(); if (how != SIG_BLOCK && how != SIG_UNBLOCK && how != SIG_SETMASK) { zend_argument_value_error(1, "must be one of SIG_BLOCK, SIG_UNBLOCK, or SIG_SETMASK"); RETURN_THROWS(); } errno = 0; sigset_t old_set; if (sigemptyset(&old_set) != 0) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); RETURN_FALSE; } sigset_t set; bool status = php_pcntl_set_user_signal_infos(user_set, &set, 2, /* allow_empty_signal_array */ how == SIG_SETMASK); /* Some error occurred */ if (!status) { RETURN_FALSE; } if (sigprocmask(how, &set, &old_set) != 0) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); RETURN_FALSE; } if (user_old_set != NULL) { user_old_set = zend_try_array_init(user_old_set); if (!user_old_set) { RETURN_THROWS(); } zend_hash_real_init_packed(Z_ARRVAL_P(user_old_set)); for (unsigned int signal_no = 1; signal_no < PCNTL_G(num_signals); ++signal_no) { if (sigismember(&old_set, signal_no) != 1) { continue; } add_next_index_long(user_old_set, signal_no); } } RETURN_TRUE; } /* }}} */ #endif #ifdef HAVE_STRUCT_SIGINFO_T # ifdef HAVE_SIGWAITINFO /* {{{ Synchronously wait for queued signals */ PHP_FUNCTION(pcntl_sigwaitinfo) { HashTable *user_set; /* Optional by-ref array of ints */ zval *user_siginfo = NULL; ZEND_PARSE_PARAMETERS_START(1, 2) Z_PARAM_ARRAY_HT(user_set) Z_PARAM_OPTIONAL Z_PARAM_ZVAL(user_siginfo) ZEND_PARSE_PARAMETERS_END(); sigset_t set; bool status = php_pcntl_set_user_signal_infos(user_set, &set, 1, /* allow_empty_signal_array */ false); /* Some error occurred */ if (!status) { RETURN_FALSE; } errno = 0; siginfo_t siginfo; int signal_no = sigwaitinfo(&set, &siginfo); /* sigwaitinfo() never sets errno to EAGAIN according to POSIX */ if (signal_no == -1) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); RETURN_FALSE; } /* sigwaitinfo can return 0 on success on some platforms, e.g. NetBSD */ if (!signal_no && siginfo.si_signo) { signal_no = siginfo.si_signo; } pcntl_siginfo_to_zval(signal_no, &siginfo, user_siginfo); RETURN_LONG(signal_no); } /* }}} */ # endif # ifdef HAVE_SIGTIMEDWAIT /* {{{ Wait for queued signals */ PHP_FUNCTION(pcntl_sigtimedwait) { HashTable *user_set; /* Optional by-ref array of ints */ zval *user_siginfo = NULL; zend_long tv_sec = 0; zend_long tv_nsec = 0; ZEND_PARSE_PARAMETERS_START(1, 4) Z_PARAM_ARRAY_HT(user_set) Z_PARAM_OPTIONAL Z_PARAM_ZVAL(user_siginfo) Z_PARAM_LONG(tv_sec) Z_PARAM_LONG(tv_nsec) ZEND_PARSE_PARAMETERS_END(); sigset_t set; bool status = php_pcntl_set_user_signal_infos(user_set, &set, 1, /* allow_empty_signal_array */ false); /* Some error occurred */ if (!status) { RETURN_FALSE; } if (tv_sec < 0) { zend_argument_value_error(3, "must be greater than or equal to 0"); RETURN_THROWS(); } /* Nanosecond between 0 and 1e9 */ if (tv_nsec < 0 || tv_nsec >= 1000000000) { zend_argument_value_error(4, "must be between 0 and 1e9"); RETURN_THROWS(); } if (UNEXPECTED(tv_sec == 0 && tv_nsec == 0)) { zend_value_error("pcntl_sigtimedwait(): At least one of argument #3 ($seconds) or argument #4 ($nanoseconds) must be greater than 0"); RETURN_THROWS(); } errno = 0; siginfo_t siginfo; struct timespec timeout; timeout.tv_sec = (time_t) tv_sec; timeout.tv_nsec = tv_nsec; int signal_no = sigtimedwait(&set, &siginfo, &timeout); if (signal_no == -1) { if (errno != EAGAIN) { PCNTL_G(last_error) = errno; php_error_docref(NULL, E_WARNING, "%s", strerror(errno)); } RETURN_FALSE; } /* sigtimedwait can return 0 on success on some platforms, e.g. NetBSD */ if (!signal_no && siginfo.si_signo) { signal_no = siginfo.si_signo; } pcntl_siginfo_to_zval(signal_no, &siginfo, user_siginfo); RETURN_LONG(signal_no); } /* }}} */ # endif static void pcntl_siginfo_to_zval(int signo, siginfo_t *siginfo, zval *user_siginfo) /* {{{ */ { if (signo > 0 && user_siginfo) { user_siginfo = zend_try_array_init(user_siginfo); if (!user_siginfo) { return; } add_assoc_long_ex(user_siginfo, "signo", sizeof("signo")-1, siginfo->si_signo); add_assoc_long_ex(user_siginfo, "errno", sizeof("errno")-1, siginfo->si_errno); add_assoc_long_ex(user_siginfo, "code", sizeof("code")-1, siginfo->si_code); switch(signo) { #ifdef SIGCHLD case SIGCHLD: add_assoc_long_ex(user_siginfo, "status", sizeof("status")-1, siginfo->si_status); # ifdef si_utime add_assoc_double_ex(user_siginfo, "utime", sizeof("utime")-1, siginfo->si_utime); # endif # ifdef si_stime add_assoc_double_ex(user_siginfo, "stime", sizeof("stime")-1, siginfo->si_stime); # endif add_assoc_long_ex(user_siginfo, "pid", sizeof("pid")-1, siginfo->si_pid); add_assoc_long_ex(user_siginfo, "uid", sizeof("uid")-1, siginfo->si_uid); break; case SIGUSR1: case SIGUSR2: add_assoc_long_ex(user_siginfo, "pid", sizeof("pid")-1, siginfo->si_pid); add_assoc_long_ex(user_siginfo, "uid", sizeof("uid")-1, siginfo->si_uid); break; #endif case SIGILL: case SIGFPE: case SIGSEGV: case SIGBUS: add_assoc_double_ex(user_siginfo, "addr", sizeof("addr")-1, (zend_long)siginfo->si_addr); break; #if defined(SIGPOLL) && !defined(__CYGWIN__) case SIGPOLL: add_assoc_long_ex(user_siginfo, "band", sizeof("band")-1, siginfo->si_band); # ifdef si_fd add_assoc_long_ex(user_siginfo, "fd", sizeof("fd")-1, siginfo->si_fd); # endif break; #endif #ifdef SIGTRAP case SIGTRAP: # if defined(si_syscall) && defined(__FreeBSD__) if (siginfo->si_code == TRAP_CAP) { add_assoc_long_ex(user_siginfo, "syscall", sizeof("syscall")-1, (zend_long)siginfo->si_syscall); } else { add_assoc_long_ex(user_siginfo, "trapno", sizeof("trapno")-1, (zend_long)siginfo->si_trapno); } # endif break; #endif } #if defined(SIGRTMIN) && defined(SIGRTMAX) if (SIGRTMIN <= signo && signo <= SIGRTMAX) { add_assoc_long_ex(user_siginfo, "pid", sizeof("pid")-1, siginfo->si_pid); add_assoc_long_ex(user_siginfo, "uid", sizeof("uid")-1, siginfo->si_uid); } #endif } } /* }}} */ #endif #ifdef HAVE_GETPRIORITY /* {{{ Get the priority of any process */ PHP_FUNCTION(pcntl_getpriority) { zend_long who = PRIO_PROCESS; zend_long pid; bool pid_is_null = 1; int pri; ZEND_PARSE_PARAMETERS_START(0, 2) Z_PARAM_OPTIONAL Z_PARAM_LONG_OR_NULL(pid, pid_is_null) Z_PARAM_LONG(who) ZEND_PARSE_PARAMETERS_END(); /* needs to be cleared, since any returned value is valid */ errno = 0; pid = pid_is_null ? 0 : pid; pri = getpriority(who, pid); if (errno) { PCNTL_G(last_error) = errno; switch (errno) { case ESRCH: php_error_docref(NULL, E_WARNING, "Error %d: No process was located using the given parameters", errno); break; case EINVAL: #ifdef PRIO_DARWIN_BG if (who != PRIO_PGRP && who != PRIO_USER && who != PRIO_PROCESS && who != PRIO_DARWIN_THREAD) { zend_argument_value_error(2, "must be one of PRIO_PGRP, PRIO_USER, PRIO_PROCESS or PRIO_DARWIN_THREAD"); RETURN_THROWS(); } else if (who == PRIO_DARWIN_THREAD && pid != 0) { zend_argument_value_error(1, "must be 0 (zero) if PRIO_DARWIN_THREAD is provided as second parameter"); RETURN_THROWS(); } else { zend_argument_value_error(1, "is not a valid process, process group, or user ID"); RETURN_THROWS(); } #else zend_argument_value_error(2, "must be one of PRIO_PGRP, PRIO_USER, or PRIO_PROCESS"); RETURN_THROWS(); #endif default: php_error_docref(NULL, E_WARNING, "Unknown error %d has occurred", errno); break; } RETURN_FALSE; } RETURN_LONG(pri); } /* }}} */ #endif #ifdef HAVE_SETPRIORITY /* {{{ Change the priority of any process */ PHP_FUNCTION(pcntl_setpriority) { zend_long who = PRIO_PROCESS; zend_long pid; bool pid_is_null = 1; zend_long pri; ZEND_PARSE_PARAMETERS_START(1, 3) Z_PARAM_LONG(pri) Z_PARAM_OPTIONAL Z_PARAM_LONG_OR_NULL(pid, pid_is_null) Z_PARAM_LONG(who) ZEND_PARSE_PARAMETERS_END(); pid = pid_is_null ? 0 : pid; if (setpriority(who, pid, pri)) { PCNTL_G(last_error) = errno; switch (errno) { case ESRCH: php_error_docref(NULL, E_WARNING, "Error %d: No process was located using the given parameters", errno); break; case EINVAL: #ifdef PRIO_DARWIN_BG if (who != PRIO_PGRP && who != PRIO_USER && who != PRIO_PROCESS && who != PRIO_DARWIN_THREAD) { zend_argument_value_error(3, "must be one of PRIO_PGRP, PRIO_USER, PRIO_PROCESS or PRIO_DARWIN_THREAD"); RETURN_THROWS(); } else if (who == PRIO_DARWIN_THREAD && pid != 0) { zend_argument_value_error(2, "must be 0 (zero) if PRIO_DARWIN_THREAD is provided as second parameter"); RETURN_THROWS(); } else if (who == PRIO_DARWIN_THREAD && pid == 0 && (pri != 0 && pri != PRIO_DARWIN_BG)) { zend_argument_value_error(1, "must be either 0 (zero) or PRIO_DARWIN_BG, for mode PRIO_DARWIN_THREAD"); RETURN_THROWS(); } else { zend_argument_value_error(2, "is not a valid process, process group, or user ID"); RETURN_THROWS(); } #else zend_argument_value_error(3, "must be one of PRIO_PGRP, PRIO_USER, or PRIO_PROCESS"); RETURN_THROWS(); #endif case EPERM: php_error_docref(NULL, E_WARNING, "Error %d: A process was located, but neither its effective nor real user ID matched the effective user ID of the caller", errno); break; case EACCES: php_error_docref(NULL, E_WARNING, "Error %d: Only a super user may attempt to increase the process priority", errno); break; default: php_error_docref(NULL, E_WARNING, "Unknown error %d has occurred", errno); break; } RETURN_FALSE; } RETURN_TRUE; } /* }}} */ #endif /* {{{ Retrieve the error number set by the last pcntl function which failed. */ PHP_FUNCTION(pcntl_get_last_error) { ZEND_PARSE_PARAMETERS_NONE(); RETURN_LONG(PCNTL_G(last_error)); } /* }}} */ /* {{{ Retrieve the system error message associated with the given errno. */ PHP_FUNCTION(pcntl_strerror) { zend_long error; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(error) ZEND_PARSE_PARAMETERS_END(); RETURN_STRING(strerror(error)); } /* }}} */ /* Our custom signal handler that calls the appropriate php_function */ #ifdef HAVE_STRUCT_SIGINFO_T static void pcntl_signal_handler(int signo, siginfo_t *siginfo, void *context) #else static void pcntl_signal_handler(int signo) #endif { struct php_pcntl_pending_signal *psig = PCNTL_G(spares); if (!psig) { /* oops, too many signals for us to track, so we'll forget about this one */ return; } PCNTL_G(spares) = psig->next; psig->signo = signo; psig->next = NULL; #ifdef HAVE_STRUCT_SIGINFO_T psig->siginfo = *siginfo; #endif /* the head check is important, as the tick handler cannot atomically clear both * the head and tail */ if (PCNTL_G(head) && PCNTL_G(tail)) { PCNTL_G(tail)->next = psig; } else { PCNTL_G(head) = psig; } PCNTL_G(tail) = psig; PCNTL_G(pending_signals) = true; if (PCNTL_G(async_signals)) { zend_atomic_bool_store_ex(&EG(vm_interrupt), true); } } void pcntl_signal_dispatch(void) { zval params[2], *handle, retval; struct php_pcntl_pending_signal *queue, *next; sigset_t mask; sigset_t old_mask; if(!PCNTL_G(pending_signals)) { return; } /* Mask all signals */ sigfillset(&mask); sigprocmask(SIG_BLOCK, &mask, &old_mask); /* Bail if the queue is empty or if we are already playing the queue */ if (!PCNTL_G(head) || PCNTL_G(processing_signal_queue)) { sigprocmask(SIG_SETMASK, &old_mask, NULL); return; } /* Prevent switching fibers when handling signals */ zend_fiber_switch_block(); /* Prevent reentrant handler calls */ PCNTL_G(processing_signal_queue) = true; queue = PCNTL_G(head); PCNTL_G(head) = NULL; /* simple stores are atomic */ /* Allocate */ while (queue) { if ((handle = zend_hash_index_find(&PCNTL_G(php_signal_table), queue->signo)) != NULL) { if (Z_TYPE_P(handle) != IS_LONG) { ZVAL_LONG(¶ms[0], queue->signo); #ifdef HAVE_STRUCT_SIGINFO_T array_init(¶ms[1]); pcntl_siginfo_to_zval(queue->signo, &queue->siginfo, ¶ms[1]); #else ZVAL_NULL(¶ms[1]); #endif /* Call php signal handler - Note that we do not report errors, and we ignore the return value */ call_user_function(NULL, NULL, handle, &retval, 2, params); zval_ptr_dtor(&retval); #ifdef HAVE_STRUCT_SIGINFO_T zval_ptr_dtor(¶ms[1]); #endif } } next = queue->next; queue->next = PCNTL_G(spares); PCNTL_G(spares) = queue; queue = next; } PCNTL_G(pending_signals) = false; /* Re-enable queue */ PCNTL_G(processing_signal_queue) = false; /* Re-enable fiber switching */ zend_fiber_switch_unblock(); /* return signal mask to previous state */ sigprocmask(SIG_SETMASK, &old_mask, NULL); } static void pcntl_signal_dispatch_tick_function(int dummy_int, void *dummy_pointer) { return pcntl_signal_dispatch(); } /* {{{ Enable/disable asynchronous signal handling and return the old setting. */ PHP_FUNCTION(pcntl_async_signals) { bool on, on_is_null = 1; ZEND_PARSE_PARAMETERS_START(0, 1) Z_PARAM_OPTIONAL Z_PARAM_BOOL_OR_NULL(on, on_is_null) ZEND_PARSE_PARAMETERS_END(); if (on_is_null) { RETURN_BOOL(PCNTL_G(async_signals)); } RETVAL_BOOL(PCNTL_G(async_signals)); PCNTL_G(async_signals) = on; } /* }}} */ #ifdef HAVE_UNSHARE /* {{{ disassociate parts of the process execution context */ PHP_FUNCTION(pcntl_unshare) { zend_long flags; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(flags) ZEND_PARSE_PARAMETERS_END(); if (unshare(flags) == -1) { PCNTL_G(last_error) = errno; switch (errno) { #ifdef EINVAL case EINVAL: zend_argument_value_error(1, "must be a combination of CLONE_* flags, or at least one flag is unsupported by the kernel"); RETURN_THROWS(); break; #endif #ifdef ENOMEM case ENOMEM: php_error_docref(NULL, E_WARNING, "Error %d: Insufficient memory for unshare", errno); break; #endif #ifdef EPERM case EPERM: php_error_docref(NULL, E_WARNING, "Error %d: No privilege to use these flags", errno); break; #endif #ifdef ENOSPC case ENOSPC: php_error_docref(NULL, E_WARNING, "Error %d: Reached the maximum nesting limit for one of the specified namespaces", errno); break; #endif #ifdef EUSERS case EUSERS: php_error_docref(NULL, E_WARNING, "Error %d: Reached the maximum nesting limit for the user namespace", errno); break; #endif default: php_error_docref(NULL, E_WARNING, "Unknown error %d has occurred", errno); break; } RETURN_FALSE; } RETURN_TRUE; } /* }}} */ #endif #ifdef HAVE_RFORK /* {{{ proto bool pcntl_rfork(int flags [, int signal]) More control over the process creation is given over fork/vfork. */ PHP_FUNCTION(pcntl_rfork) { zend_long flags; zend_long csignal = 0; pid_t pid; ZEND_PARSE_PARAMETERS_START(1, 2) Z_PARAM_LONG(flags) Z_PARAM_OPTIONAL Z_PARAM_LONG(csignal) ZEND_PARSE_PARAMETERS_END(); /* This is a flag to use with great caution in general, preferably not within PHP */ if ((flags & RFMEM) != 0) { zend_argument_value_error(1, "must not include RFMEM value, not allowed within this context"); RETURN_THROWS(); } if ((flags & RFSIGSHARE) != 0) { zend_argument_value_error(1, "must not include RFSIGSHARE value, not allowed within this context"); RETURN_THROWS(); } if ((flags & (RFFDG | RFCFDG)) == (RFFDG | RFCFDG)) { zend_argument_value_error(1, "must not include both RFFDG and RFCFDG, because these flags are mutually exclusive"); RETURN_THROWS(); } /* A new pid is required */ if (!(flags & (RFPROC))) { flags |= RFPROC; } #ifdef RFTSIGZMB if ((flags & RFTSIGZMB) != 0) { flags |= RFTSIGFLAGS(csignal); } #endif pid = rfork(flags); if (pid == -1) { PCNTL_G(last_error) = errno; switch (errno) { case EAGAIN: php_error_docref(NULL, E_WARNING, "Maximum process creations limit reached\n"); break; default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } } else if (pid == 0) { php_child_init(); } RETURN_LONG((zend_long) pid); } #endif /* }}} */ #ifdef HAVE_FORKX /* {{{ proto bool pcntl_forkx(int flags) More elaborated version of fork with the following settings. FORK_WAITPID: forbid the parent process to wait for multiple pid but one only FORK_NOSIGCHLD: SIGCHLD signal ignored when the child terminates */ PHP_FUNCTION(pcntl_forkx) { zend_long flags; pid_t pid; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_LONG(flags) ZEND_PARSE_PARAMETERS_END(); if (flags < FORK_NOSIGCHLD || flags > FORK_WAITPID) { zend_argument_value_error(1, "must be FORK_NOSIGCHLD or FORK_WAITPID"); RETURN_THROWS(); } pid = forkx(flags); if (pid == -1) { PCNTL_G(last_error) = errno; switch (errno) { case EAGAIN: php_error_docref(NULL, E_WARNING, "Maximum process creations limit reached\n"); break; case EPERM: php_error_docref(NULL, E_WARNING, "Calling process not having the proper privileges\n"); break; case ENOMEM: php_error_docref(NULL, E_WARNING, "No swap space left\n"); break; default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } } else if (pid == 0) { php_child_init(); } RETURN_LONG((zend_long) pid); } #endif /* }}} */ #ifdef HAVE_LINUX_RAW_SYSCALL_PIDFD_OPEN // The `pidfd_open` syscall is available since 5.3 // and `setns` since 3.0. PHP_FUNCTION(pcntl_setns) { zend_long pid, nstype = CLONE_NEWNET; bool pid_is_null = 1; int fd, ret; ZEND_PARSE_PARAMETERS_START(0, 2) Z_PARAM_OPTIONAL Z_PARAM_LONG_OR_NULL(pid, pid_is_null) Z_PARAM_LONG(nstype) ZEND_PARSE_PARAMETERS_END(); pid = pid_is_null ? getpid() : pid; fd = syscall(SYS_pidfd_open, pid, 0); if (errno) { PCNTL_G(last_error) = errno; switch (errno) { case EINVAL: case ESRCH: zend_argument_value_error(1, "is not a valid process (" ZEND_LONG_FMT ")", pid); RETURN_THROWS(); case ENFILE: php_error_docref(NULL, E_WARNING, "Error %d: File descriptors per-process limit reached", errno); break; case ENODEV: php_error_docref(NULL, E_WARNING, "Error %d: Anonymous inode fs unsupported", errno); break; case ENOMEM: php_error_docref(NULL, E_WARNING, "Error %d: Insufficient memory for pidfd_open", errno); break; default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } RETURN_FALSE; } ret = setns(fd, (int)nstype); close(fd); if (ret == -1) { PCNTL_G(last_error) = errno; switch (errno) { case ESRCH: zend_argument_value_error(1, "process no longer available (" ZEND_LONG_FMT ")", pid); RETURN_THROWS(); case EINVAL: zend_argument_value_error(2, "is an invalid nstype (%d)", nstype); RETURN_THROWS(); case EPERM: php_error_docref(NULL, E_WARNING, "Error %d: No required capability for this process", errno); break; default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } RETURN_FALSE; } else { RETURN_TRUE; } } #endif #ifdef HAVE_SCHED_SETAFFINITY PHP_FUNCTION(pcntl_getcpuaffinity) { zend_long pid; bool pid_is_null = 1; cpu_set_t mask; ZEND_PARSE_PARAMETERS_START(0, 1) Z_PARAM_OPTIONAL Z_PARAM_LONG_OR_NULL(pid, pid_is_null) ZEND_PARSE_PARAMETERS_END(); // 0 == getpid in this context, we're just saving a syscall pid = pid_is_null ? 0 : pid; PCNTL_CPU_ZERO(mask); if (sched_getaffinity(pid, PCNTL_CPUSET_SIZE(mask), PCNTL_CPUSET(mask)) != 0) { PCNTL_CPU_DESTROY(mask); PCNTL_G(last_error) = errno; switch (errno) { case ESRCH: zend_argument_value_error(1, "invalid process (" ZEND_LONG_FMT ")", pid); RETURN_THROWS(); case EPERM: php_error_docref(NULL, E_WARNING, "Calling process not having the proper privileges"); break; case EINVAL: zend_value_error("invalid cpu affinity mask size"); RETURN_THROWS(); default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } RETURN_FALSE; } zend_ulong maxcpus = (zend_ulong)sysconf(_SC_NPROCESSORS_CONF); array_init(return_value); zend_hash_real_init_packed(Z_ARRVAL_P(return_value)); for (zend_ulong i = 0; i < maxcpus; i ++) { if (PCNTL_CPU_ISSET(i, mask)) { add_next_index_long(return_value, i); } } PCNTL_CPU_DESTROY(mask); } PHP_FUNCTION(pcntl_setcpuaffinity) { zend_long pid; bool pid_is_null = 1; cpu_set_t mask; zval *hmask = NULL, *ncpu; ZEND_PARSE_PARAMETERS_START(0, 2) Z_PARAM_OPTIONAL Z_PARAM_LONG_OR_NULL(pid, pid_is_null) Z_PARAM_ARRAY(hmask) ZEND_PARSE_PARAMETERS_END(); // TODO Why are the arguments optional? if (!hmask || zend_hash_num_elements(Z_ARRVAL_P(hmask)) == 0) { zend_argument_must_not_be_empty_error(2); RETURN_THROWS(); } // 0 == getpid in this context, we're just saving a syscall pid = pid_is_null ? 0 : pid; zend_long maxcpus = sysconf(_SC_NPROCESSORS_CONF); PCNTL_CPU_ZERO(mask); ZEND_HASH_FOREACH_VAL(Z_ARRVAL_P(hmask), ncpu) { ZVAL_DEREF(ncpu); zend_long cpu; if (Z_TYPE_P(ncpu) != IS_LONG) { if (Z_TYPE_P(ncpu) == IS_STRING) { zend_ulong tmp; if (!ZEND_HANDLE_NUMERIC(Z_STR_P(ncpu), tmp)) { zend_argument_value_error(2, "cpu id invalid value (%s)", ZSTR_VAL(Z_STR_P(ncpu))); PCNTL_CPU_DESTROY(mask); RETURN_THROWS(); } cpu = (zend_long)tmp; } else { zend_argument_type_error(2, "value must be of type int|string, %s given", zend_zval_value_name(ncpu)); PCNTL_CPU_DESTROY(mask); RETURN_THROWS(); } } else { cpu = Z_LVAL_P(ncpu); } if (cpu < 0 || cpu >= maxcpus) { zend_argument_value_error(2, "cpu id must be between 0 and " ZEND_ULONG_FMT " (" ZEND_LONG_FMT ")", maxcpus, cpu); RETURN_THROWS(); } if (!PCNTL_CPU_ISSET(cpu, mask)) { PCNTL_CPU_SET(cpu, mask); } } ZEND_HASH_FOREACH_END(); if (sched_setaffinity(pid, PCNTL_CPUSET_SIZE(mask), PCNTL_CPUSET(mask)) != 0) { PCNTL_CPU_DESTROY(mask); PCNTL_G(last_error) = errno; switch (errno) { case ESRCH: zend_argument_value_error(1, "invalid process (" ZEND_LONG_FMT ")", pid); RETURN_THROWS(); case EPERM: php_error_docref(NULL, E_WARNING, "Calling process not having the proper privileges"); break; case EINVAL: zend_argument_value_error(2, "invalid cpu affinity mask size or unmapped cpu id(s)"); RETURN_THROWS(); default: php_error_docref(NULL, E_WARNING, "Error %d", errno); } RETURN_FALSE; } else { PCNTL_CPU_DESTROY(mask); RETURN_TRUE; } } #endif #if defined(HAVE_SCHED_GETCPU) PHP_FUNCTION(pcntl_getcpu) { ZEND_PARSE_PARAMETERS_NONE(); RETURN_LONG(sched_getcpu()); } #endif #if defined(HAVE_PTHREAD_SET_QOS_CLASS_SELF_NP) static qos_class_t qos_zval_to_lval(const zval *qos_obj) { qos_class_t qos_class = QOS_CLASS_DEFAULT; zend_string *entry = Z_STR_P(zend_enum_fetch_case_name(Z_OBJ_P(qos_obj))); if (zend_string_equals_literal(entry, "UserInteractive")) { qos_class = QOS_CLASS_USER_INTERACTIVE; } else if (zend_string_equals_literal(entry, "UserInitiated")) { qos_class = QOS_CLASS_USER_INITIATED; } else if (zend_string_equals_literal(entry, "Utility")) { qos_class = QOS_CLASS_UTILITY; } else if (zend_string_equals_literal(entry, "Background")) { qos_class = QOS_CLASS_BACKGROUND; } return qos_class; } static zend_object *qos_lval_to_zval(qos_class_t qos_class) { const char *entryname; switch (qos_class) { case QOS_CLASS_USER_INTERACTIVE: entryname = "UserInteractive"; break; case QOS_CLASS_USER_INITIATED: entryname = "UserInitiated"; break; case QOS_CLASS_UTILITY: entryname = "Utility"; break; case QOS_CLASS_BACKGROUND: entryname = "Background"; break; case QOS_CLASS_DEFAULT: default: entryname = "Default"; break; } return zend_enum_get_case_cstr(QosClass_ce, entryname); } PHP_FUNCTION(pcntl_getqos_class) { qos_class_t qos_class; ZEND_PARSE_PARAMETERS_NONE(); if (UNEXPECTED(pthread_get_qos_class_np(pthread_self(), &qos_class, NULL) != 0)) { // unlikely unless an external tool set the QOS class with a wrong value PCNTL_G(last_error) = errno; zend_throw_error(NULL, "invalid QOS class %u", qos_class); RETURN_THROWS(); } RETURN_OBJ_COPY(qos_lval_to_zval(qos_class)); } PHP_FUNCTION(pcntl_setqos_class) { zval *qos_obj; ZEND_PARSE_PARAMETERS_START(1, 1) Z_PARAM_OBJECT_OF_CLASS(qos_obj, QosClass_ce) ZEND_PARSE_PARAMETERS_END(); qos_class_t qos_class = qos_zval_to_lval(qos_obj); if (UNEXPECTED(pthread_set_qos_class_self_np((qos_class_t)qos_class, 0) != 0)) { // unlikely, unless it is a new os issue, as we draw from the specified enum values PCNTL_G(last_error) = errno; zend_throw_error(NULL, "pcntl_setqos_class failed"); RETURN_THROWS(); } } #endif static void pcntl_interrupt_function(zend_execute_data *execute_data) { pcntl_signal_dispatch(); if (orig_interrupt_function) { orig_interrupt_function(execute_data); } }