/* +----------------------------------------------------------------------+ | Zend OPcache | +----------------------------------------------------------------------+ | Copyright (c) 1998-2016 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: | | http://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. | +----------------------------------------------------------------------+ | Authors: Andi Gutmans | | Zeev Suraski | | Stanislav Malyshev | | Dmitry Stogov | +----------------------------------------------------------------------+ */ #include "main/php.h" #include "main/php_globals.h" #include "zend.h" #include "zend_extensions.h" #include "zend_compile.h" #include "ZendAccelerator.h" #include "zend_persist.h" #include "zend_shared_alloc.h" #include "zend_accelerator_module.h" #include "zend_accelerator_blacklist.h" #include "zend_list.h" #include "zend_execute.h" #include "main/SAPI.h" #include "main/php_streams.h" #include "main/php_open_temporary_file.h" #include "zend_API.h" #include "zend_ini.h" #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO # include "zend_virtual_cwd.h" #else # include "TSRM/tsrm_virtual_cwd.h" #endif #include "zend_accelerator_util_funcs.h" #include "zend_accelerator_hash.h" #ifndef ZEND_WIN32 #include #endif #ifdef ZEND_WIN32 typedef int uid_t; typedef int gid_t; #include #endif #ifndef ZEND_WIN32 # include #else # include #endif #ifdef HAVE_UNISTD_H # include #endif #include #include #include #ifndef ZEND_WIN32 # include # include #endif #include #include #define SHM_PROTECT() \ do { \ if (ZCG(accel_directives).protect_memory) { \ zend_accel_shared_protect(1 TSRMLS_CC); \ } \ } while (0) #define SHM_UNPROTECT() \ do { \ if (ZCG(accel_directives).protect_memory) { \ zend_accel_shared_protect(0 TSRMLS_CC); \ } \ } while (0) ZEND_EXTENSION(); #ifndef ZTS zend_accel_globals accel_globals; #else int accel_globals_id; #endif /* Points to the structure shared across all PHP processes */ zend_accel_shared_globals *accel_shared_globals = NULL; /* true globals, no need for thread safety */ zend_bool accel_startup_ok = 0; static char *zps_failure_reason = NULL; char *zps_api_failure_reason = NULL; static zend_op_array *(*accelerator_orig_compile_file)(zend_file_handle *file_handle, int type TSRMLS_DC); static int (*accelerator_orig_zend_stream_open_function)(const char *filename, zend_file_handle *handle TSRMLS_DC); #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO static char *(*accelerator_orig_zend_resolve_path)(const char *filename, int filename_len TSRMLS_DC); #endif static void (*orig_chdir)(INTERNAL_FUNCTION_PARAMETERS) = NULL; static ZEND_INI_MH((*orig_include_path_on_modify)) = NULL; #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO static char *accel_php_resolve_path(const char *filename, int filename_length, const char *path TSRMLS_DC); #endif #ifdef ZEND_WIN32 # define INCREMENT(v) InterlockedIncrement(&ZCSG(v)) # define DECREMENT(v) InterlockedDecrement(&ZCSG(v)) # define LOCKVAL(v) (ZCSG(v)) #endif #ifdef ZEND_WIN32 static time_t zend_accel_get_time(void) { FILETIME now; GetSystemTimeAsFileTime(&now); return (time_t) ((((((__int64)now.dwHighDateTime) << 32)|now.dwLowDateTime) - 116444736000000000L)/10000000); } #else # define zend_accel_get_time() time(NULL) #endif static inline int is_stream_path(const char *filename) { const char *p; for (p = filename; isalnum((int)*p) || *p == '+' || *p == '-' || *p == '.'; p++); return ((*p == ':') && (p - filename > 1) && (p[1] == '/') && (p[2] == '/')); } static inline int is_cacheable_stream_path(const char *filename) { return memcmp(filename, "file://", sizeof("file://") - 1) == 0 || memcmp(filename, "phar://", sizeof("phar://") - 1) == 0; } /* O+ overrides PHP chdir() function and remembers the current working directory * in ZCG(cwd) and ZCG(cwd_len). Later accel_getcwd() can use stored value and * avoid getcwd() call. */ static ZEND_FUNCTION(accel_chdir) { char cwd[MAXPATHLEN]; orig_chdir(INTERNAL_FUNCTION_PARAM_PASSTHRU); if (VCWD_GETCWD(cwd, MAXPATHLEN)) { if (ZCG(cwd)) { efree(ZCG(cwd)); } ZCG(cwd_len) = strlen(cwd); ZCG(cwd) = estrndup(cwd, ZCG(cwd_len)); } else { if (ZCG(cwd)) { efree(ZCG(cwd)); ZCG(cwd) = NULL; } } } static inline char* accel_getcwd(int *cwd_len TSRMLS_DC) { if (ZCG(cwd)) { *cwd_len = ZCG(cwd_len); return ZCG(cwd); } else { char cwd[MAXPATHLEN + 1]; if (!VCWD_GETCWD(cwd, MAXPATHLEN)) { return NULL; } *cwd_len = ZCG(cwd_len) = strlen(cwd); ZCG(cwd) = estrndup(cwd, ZCG(cwd_len)); return ZCG(cwd); } } void zend_accel_schedule_restart_if_necessary(zend_accel_restart_reason reason TSRMLS_DC) { if ((((double) ZSMMG(wasted_shared_memory)) / ZCG(accel_directives).memory_consumption) >= ZCG(accel_directives).max_wasted_percentage) { zend_accel_schedule_restart(reason TSRMLS_CC); } } /* O+ tracks changes of "include_path" directive. It stores all the requested * values in ZCG(include_paths) shared hash table, current value in * ZCG(include_path)/ZCG(include_path_len) and one letter "path key" in * ZCG(include_path_key). */ static ZEND_INI_MH(accel_include_path_on_modify) { int ret = orig_include_path_on_modify(entry, new_value, new_value_length, mh_arg1, mh_arg2, mh_arg3, stage TSRMLS_CC); ZCG(include_path_key) = NULL; if (ret == SUCCESS) { ZCG(include_path) = new_value; if (ZCG(include_path) && *ZCG(include_path)) { ZCG(include_path_len) = new_value_length; if (ZCG(enabled) && accel_startup_ok && (ZCG(counted) || ZCSG(accelerator_enabled))) { ZCG(include_path_key) = zend_accel_hash_find(&ZCSG(include_paths), ZCG(include_path), ZCG(include_path_len) + 1); if (!ZCG(include_path_key) && !zend_accel_hash_is_full(&ZCSG(include_paths))) { SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); ZCG(include_path_key) = zend_accel_hash_find(&ZCSG(include_paths), ZCG(include_path), ZCG(include_path_len) + 1); if (!ZCG(include_path_key) && !zend_accel_hash_is_full(&ZCSG(include_paths))) { char *key; key = zend_shared_alloc(ZCG(include_path_len) + 2); if (key) { memcpy(key, ZCG(include_path), ZCG(include_path_len) + 1); key[ZCG(include_path_len) + 1] = 'A' + ZCSG(include_paths).num_entries; ZCG(include_path_key) = key + ZCG(include_path_len) + 1; zend_accel_hash_update(&ZCSG(include_paths), key, ZCG(include_path_len) + 1, 0, ZCG(include_path_key)); } else { zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_OOM TSRMLS_CC); } } zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } } else { ZCG(include_path_check) = 1; } } else { ZCG(include_path) = ""; ZCG(include_path_len) = 0; } } return ret; } #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO /* Interned strings support */ static char *orig_interned_strings_start; static char *orig_interned_strings_end; static const char *(*orig_new_interned_string)(const char *str, int len, int free_src TSRMLS_DC); static void (*orig_interned_strings_snapshot)(TSRMLS_D); static void (*orig_interned_strings_restore)(TSRMLS_D); /* O+ disables creation of interned strings by regular PHP compiler, instead, * it creates interned strings in shared memory when saves a script. * Such interned strings are shared across all PHP processes */ static const char *accel_new_interned_string_for_php(const char *str, int len, int free_src TSRMLS_DC) { return str; } static void accel_interned_strings_snapshot_for_php(TSRMLS_D) { } static void accel_interned_strings_restore_for_php(TSRMLS_D) { } #ifndef ZTS static void accel_interned_strings_restore_state(TSRMLS_D) { unsigned int i; for (i = 0; i < ZCSG(interned_strings).nTableSize; i++) { ZCSG(interned_strings).arBuckets[i] = ZCSG(interned_strings_saved_state).arBuckets[i]; if (ZCSG(interned_strings).arBuckets[i]) { ZCSG(interned_strings).arBuckets[i]->pLast = NULL; } } ZCSG(interned_strings).pListHead = ZCSG(interned_strings_saved_state).pListHead; ZCSG(interned_strings).pListTail = ZCSG(interned_strings_saved_state).pListTail; if (ZCSG(interned_strings).pListHead) { ZCSG(interned_strings).pListHead->pListLast = NULL; } if (ZCSG(interned_strings).pListTail) { ZCSG(interned_strings).pListTail->pListNext = NULL; } ZCSG(interned_strings_top) = ZCSG(interned_strings_saved_state).top; } static void accel_interned_strings_save_state(TSRMLS_D) { ZCSG(interned_strings_saved_state).arBuckets = (Bucket**)zend_shared_alloc(ZCSG(interned_strings).nTableSize * sizeof(Bucket *)); if (!ZCSG(interned_strings_saved_state).arBuckets) { zend_accel_error(ACCEL_LOG_FATAL, "Insufficient shared memory!"); } memcpy(ZCSG(interned_strings_saved_state).arBuckets, ZCSG(interned_strings).arBuckets, ZCSG(interned_strings).nTableSize * sizeof(Bucket *)); ZCSG(interned_strings_saved_state).pListHead = ZCSG(interned_strings).pListHead; ZCSG(interned_strings_saved_state).pListTail = ZCSG(interned_strings).pListTail; ZCSG(interned_strings_saved_state).top = ZCSG(interned_strings_top); } #endif const char *accel_new_interned_string(const char *arKey, int nKeyLength, int free_src TSRMLS_DC) { /* for now interned strings are supported only for non-ZTS build */ #ifndef ZTS ulong h; uint nIndex; Bucket *p; if (arKey >= ZCSG(interned_strings_start) && arKey < ZCSG(interned_strings_end)) { /* this is already an interned string */ return arKey; } h = zend_inline_hash_func(arKey, nKeyLength); nIndex = h & ZCSG(interned_strings).nTableMask; /* check for existing interned string */ p = ZCSG(interned_strings).arBuckets[nIndex]; while (p != NULL) { if ((p->h == h) && (p->nKeyLength == (uint)nKeyLength)) { if (!memcmp(p->arKey, arKey, nKeyLength)) { if (free_src) { efree((char*)arKey); } return p->arKey; } } p = p->pNext; } if (ZCSG(interned_strings_top) + ZEND_MM_ALIGNED_SIZE(sizeof(Bucket) + nKeyLength) >= ZCSG(interned_strings_end)) { /* no memory, return the same non-interned string */ zend_accel_error(ACCEL_LOG_WARNING, "Interned string buffer overflow"); return arKey; } /* create new interning string in shared interned strings buffer */ p = (Bucket *) ZCSG(interned_strings_top); ZCSG(interned_strings_top) += ZEND_MM_ALIGNED_SIZE(sizeof(Bucket) + nKeyLength); p->arKey = (char*)(p + 1); memcpy((char*)p->arKey, arKey, nKeyLength); p->nKeyLength = nKeyLength; p->h = h; p->pData = &p->pDataPtr; p->pDataPtr = p; p->pNext = ZCSG(interned_strings).arBuckets[nIndex]; p->pLast = NULL; if (p->pNext) { p->pNext->pLast = p; } ZCSG(interned_strings).arBuckets[nIndex] = p; p->pListLast = ZCSG(interned_strings).pListTail; ZCSG(interned_strings).pListTail = p; p->pListNext = NULL; if (p->pListLast != NULL) { p->pListLast->pListNext = p; } if (!ZCSG(interned_strings).pListHead) { ZCSG(interned_strings).pListHead = p; } ZCSG(interned_strings).nNumOfElements++; if (free_src) { efree((char*)arKey); } return p->arKey; #else return arKey; #endif } #ifndef ZTS /* Copy PHP interned strings from PHP process memory into the shared memory */ static void accel_use_shm_interned_strings(TSRMLS_D) { Bucket *p, *q; #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO /* empty string */ CG(interned_empty_string) = accel_new_interned_string("", sizeof(""), 0 TSRMLS_CC); #endif /* function table hash keys */ p = CG(function_table)->pListHead; while (p) { if (p->nKeyLength) { p->arKey = accel_new_interned_string(p->arKey, p->nKeyLength, 0 TSRMLS_CC); } p = p->pListNext; } /* class table hash keys, class names, properties, methods, constants, etc */ p = CG(class_table)->pListHead; while (p) { zend_class_entry *ce = (zend_class_entry*)(p->pDataPtr); if (p->nKeyLength) { p->arKey = accel_new_interned_string(p->arKey, p->nKeyLength, 0 TSRMLS_CC); } if (ce->name) { ce->name = accel_new_interned_string(ce->name, ce->name_length + 1, 0 TSRMLS_CC); } q = ce->properties_info.pListHead; while (q) { zend_property_info *info = (zend_property_info*)(q->pData); if (q->nKeyLength) { q->arKey = accel_new_interned_string(q->arKey, q->nKeyLength, 0 TSRMLS_CC); } if (info->name) { info->name = accel_new_interned_string(info->name, info->name_length + 1, 0 TSRMLS_CC); } q = q->pListNext; } q = ce->function_table.pListHead; while (q) { if (q->nKeyLength) { q->arKey = accel_new_interned_string(q->arKey, q->nKeyLength, 0 TSRMLS_CC); } q = q->pListNext; } q = ce->constants_table.pListHead; while (q) { if (q->nKeyLength) { q->arKey = accel_new_interned_string(q->arKey, q->nKeyLength, 0 TSRMLS_CC); } q = q->pListNext; } p = p->pListNext; } /* constant hash keys */ p = EG(zend_constants)->pListHead; while (p) { if (p->nKeyLength) { p->arKey = accel_new_interned_string(p->arKey, p->nKeyLength, 0 TSRMLS_CC); } p = p->pListNext; } /* auto globals hash keys and names */ p = CG(auto_globals)->pListHead; while (p) { zend_auto_global *auto_global = (zend_auto_global*)p->pData; auto_global->name = accel_new_interned_string(auto_global->name, auto_global->name_len + 1, 0 TSRMLS_CC); if (p->nKeyLength) { p->arKey = accel_new_interned_string(p->arKey, p->nKeyLength, 0 TSRMLS_CC); } p = p->pListNext; } } #endif #endif static inline void accel_restart_enter(TSRMLS_D) { #ifdef ZEND_WIN32 INCREMENT(restart_in); #else # ifdef _AIX static FLOCK_STRUCTURE(restart_in_progress, F_WRLCK, SEEK_SET, 2, 1); # else static const FLOCK_STRUCTURE(restart_in_progress, F_WRLCK, SEEK_SET, 2, 1); #endif if (fcntl(lock_file, F_SETLK, &restart_in_progress) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "RestartC(+1): %s (%d)", strerror(errno), errno); } #endif ZCSG(restart_in_progress) = 1; } static inline void accel_restart_leave(TSRMLS_D) { #ifdef ZEND_WIN32 ZCSG(restart_in_progress) = 0; DECREMENT(restart_in); #else # ifdef _AIX static FLOCK_STRUCTURE(restart_finished, F_UNLCK, SEEK_SET, 2, 1); # else static const FLOCK_STRUCTURE(restart_finished, F_UNLCK, SEEK_SET, 2, 1); # endif ZCSG(restart_in_progress) = 0; if (fcntl(lock_file, F_SETLK, &restart_finished) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "RestartC(-1): %s (%d)", strerror(errno), errno); } #endif } static inline int accel_restart_is_active(TSRMLS_D) { if (ZCSG(restart_in_progress)) { #ifndef ZEND_WIN32 FLOCK_STRUCTURE(restart_check, F_WRLCK, SEEK_SET, 2, 1); if (fcntl(lock_file, F_GETLK, &restart_check) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "RestartC: %s (%d)", strerror(errno), errno); return FAILURE; } if (restart_check.l_type == F_UNLCK) { ZCSG(restart_in_progress) = 0; return 0; } else { return 1; } #else return LOCKVAL(restart_in) != 0; #endif } return 0; } /* Creates a read lock for SHM access */ static inline void accel_activate_add(TSRMLS_D) { #ifdef ZEND_WIN32 INCREMENT(mem_usage); #else # ifdef _AIX static FLOCK_STRUCTURE(mem_usage_lock, F_RDLCK, SEEK_SET, 1, 1); # else static const FLOCK_STRUCTURE(mem_usage_lock, F_RDLCK, SEEK_SET, 1, 1); # endif if (fcntl(lock_file, F_SETLK, &mem_usage_lock) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "UpdateC(+1): %s (%d)", strerror(errno), errno); } #endif } /* Releases a lock for SHM access */ static inline void accel_deactivate_sub(TSRMLS_D) { #ifdef ZEND_WIN32 if (ZCG(counted)) { DECREMENT(mem_usage); ZCG(counted) = 0; } #else # ifdef _AIX static FLOCK_STRUCTURE(mem_usage_unlock, F_UNLCK, SEEK_SET, 1, 1); # else static const FLOCK_STRUCTURE(mem_usage_unlock, F_UNLCK, SEEK_SET, 1, 1); # endif if (fcntl(lock_file, F_SETLK, &mem_usage_unlock) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "UpdateC(-1): %s (%d)", strerror(errno), errno); } #endif } static inline void accel_unlock_all(TSRMLS_D) { #ifdef ZEND_WIN32 accel_deactivate_sub(TSRMLS_C); #else # ifdef _AIX static FLOCK_STRUCTURE(mem_usage_unlock_all, F_UNLCK, SEEK_SET, 0, 0); # else static const FLOCK_STRUCTURE(mem_usage_unlock_all, F_UNLCK, SEEK_SET, 0, 0); # endif if (fcntl(lock_file, F_SETLK, &mem_usage_unlock_all) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "UnlockAll: %s (%d)", strerror(errno), errno); } #endif } #ifndef ZEND_WIN32 static inline void kill_all_lockers(struct flock *mem_usage_check) { int tries = 10; /* so that other process won't try to force while we are busy cleaning up */ ZCSG(force_restart_time) = 0; while (mem_usage_check->l_pid > 0) { while (tries--) { zend_accel_error(ACCEL_LOG_WARNING, "Killed locker %d", mem_usage_check->l_pid); if (kill(mem_usage_check->l_pid, SIGKILL)) { break; } /* give it a chance to die */ usleep(20000); if (kill(mem_usage_check->l_pid, 0)) { /* can't kill it */ break; } usleep(10000); } if (!tries) { zend_accel_error(ACCEL_LOG_WARNING, "Can't kill %d after 10 tries!", mem_usage_check->l_pid); ZCSG(force_restart_time) = time(NULL); /* restore forced restart request */ } mem_usage_check->l_type = F_WRLCK; mem_usage_check->l_whence = SEEK_SET; mem_usage_check->l_start = 1; mem_usage_check->l_len = 1; mem_usage_check->l_pid = -1; if (fcntl(lock_file, F_GETLK, mem_usage_check) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "KLockers: %s (%d)", strerror(errno), errno); break; } if (mem_usage_check->l_type == F_UNLCK || mem_usage_check->l_pid <= 0) { break; } } } #endif static inline int accel_is_inactive(TSRMLS_D) { #ifdef ZEND_WIN32 if (LOCKVAL(mem_usage) == 0) { return SUCCESS; } #else FLOCK_STRUCTURE(mem_usage_check, F_WRLCK, SEEK_SET, 1, 1); mem_usage_check.l_pid = -1; if (fcntl(lock_file, F_GETLK, &mem_usage_check) == -1) { zend_accel_error(ACCEL_LOG_DEBUG, "UpdateC: %s (%d)", strerror(errno), errno); return FAILURE; } if (mem_usage_check.l_type == F_UNLCK) { return SUCCESS; } if (ZCG(accel_directives).force_restart_timeout && ZCSG(force_restart_time) && time(NULL) >= ZCSG(force_restart_time)) { zend_accel_error(ACCEL_LOG_WARNING, "Forced restart at %d (after %d seconds), locked by %d", time(NULL), ZCG(accel_directives).force_restart_timeout, mem_usage_check.l_pid); kill_all_lockers(&mem_usage_check); return FAILURE; /* next request should be able to restart it */ } #endif return FAILURE; } static int zend_get_stream_timestamp(const char *filename, struct stat *statbuf TSRMLS_DC) { php_stream_wrapper *wrapper; php_stream_statbuf stream_statbuf; int ret, er; if (!filename) { return FAILURE; } wrapper = php_stream_locate_url_wrapper(filename, NULL, STREAM_LOCATE_WRAPPERS_ONLY TSRMLS_CC); if (!wrapper) { return FAILURE; } if (!wrapper->wops || !wrapper->wops->url_stat) { statbuf->st_mtime = 1; return SUCCESS; /* anything other than 0 is considered to be a valid timestamp */ } er = EG(error_reporting); EG(error_reporting) = 0; zend_try { ret = wrapper->wops->url_stat(wrapper, (char*)filename, PHP_STREAM_URL_STAT_QUIET, &stream_statbuf, NULL TSRMLS_CC); } zend_catch { ret = -1; } zend_end_try(); EG(error_reporting) = er; if (ret != 0) { return FAILURE; } *statbuf = stream_statbuf.sb; return SUCCESS; } #if ZEND_WIN32 static accel_time_t zend_get_file_handle_timestamp_win(zend_file_handle *file_handle, size_t *size) { static unsigned __int64 utc_base = 0; static FILETIME utc_base_ft; WIN32_FILE_ATTRIBUTE_DATA fdata; if (!file_handle->opened_path) { return 0; } if (!utc_base) { SYSTEMTIME st; st.wYear = 1970; st.wMonth = 1; st.wDay = 1; st.wHour = 0; st.wMinute = 0; st.wSecond = 0; st.wMilliseconds = 0; SystemTimeToFileTime (&st, &utc_base_ft); utc_base = (((unsigned __int64)utc_base_ft.dwHighDateTime) << 32) + utc_base_ft.dwLowDateTime; } if (GetFileAttributesEx(file_handle->opened_path, GetFileExInfoStandard, &fdata) != 0) { unsigned __int64 ftime; if (CompareFileTime (&fdata.ftLastWriteTime, &utc_base_ft) < 0) { return 0; } ftime = (((unsigned __int64)fdata.ftLastWriteTime.dwHighDateTime) << 32) + fdata.ftLastWriteTime.dwLowDateTime - utc_base; ftime /= 10000000L; if (size) { *size = (size_t)(((unsigned __int64)fdata.nFileSizeHigh) << 32 + (unsigned __int64)fdata.nFileSizeLow); } return (accel_time_t)ftime; } return 0; } #endif static accel_time_t zend_get_file_handle_timestamp(zend_file_handle *file_handle, size_t *size TSRMLS_DC) { struct stat statbuf; #ifdef ZEND_WIN32 accel_time_t res; #endif if (sapi_module.get_stat && !EG(opline_ptr) && file_handle->filename == SG(request_info).path_translated) { struct stat *tmpbuf = sapi_module.get_stat(TSRMLS_C); if (tmpbuf) { if (size) { *size = tmpbuf->st_size; } return tmpbuf->st_mtime; } } #ifdef ZEND_WIN32 res = zend_get_file_handle_timestamp_win(file_handle, size); if (res) { return res; } #endif switch (file_handle->type) { case ZEND_HANDLE_FD: if (fstat(file_handle->handle.fd, &statbuf) == -1) { return 0; } break; case ZEND_HANDLE_FP: if (fstat(fileno(file_handle->handle.fp), &statbuf) == -1) { if (zend_get_stream_timestamp(file_handle->filename, &statbuf TSRMLS_CC) != SUCCESS) { return 0; } } break; case ZEND_HANDLE_FILENAME: #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO case ZEND_HANDLE_MAPPED: #endif { char *file_path = file_handle->opened_path; if (file_path) { if (is_stream_path(file_path)) { if (zend_get_stream_timestamp(file_path, &statbuf TSRMLS_CC) == SUCCESS) { break; } } if (VCWD_STAT(file_path, &statbuf) != -1) { break; } } if (zend_get_stream_timestamp(file_handle->filename, &statbuf TSRMLS_CC) != SUCCESS) { return 0; } break; } case ZEND_HANDLE_STREAM: { php_stream *stream = (php_stream *)file_handle->handle.stream.handle; php_stream_statbuf sb; int ret, er; if (!stream || !stream->ops || !stream->ops->stat) { return 0; } er = EG(error_reporting); EG(error_reporting) = 0; zend_try { ret = stream->ops->stat(stream, &sb TSRMLS_CC); } zend_catch { ret = -1; } zend_end_try(); EG(error_reporting) = er; if (ret != 0) { return 0; } statbuf = sb.sb; } break; default: return 0; } if (size) { *size = statbuf.st_size; } return statbuf.st_mtime; } static inline int do_validate_timestamps(zend_persistent_script *persistent_script, zend_file_handle *file_handle TSRMLS_DC) { zend_file_handle ps_handle; char *full_path_ptr = NULL; /** check that the persistant script is indeed the same file we cached * (if part of the path is a symlink than it possible that the user will change it) * See bug #15140 */ if (file_handle->opened_path) { if (strcmp(persistent_script->full_path, file_handle->opened_path) != 0) { return FAILURE; } } else { #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO full_path_ptr = accel_php_resolve_path(file_handle->filename, strlen(file_handle->filename), ZCG(include_path) TSRMLS_CC); #else full_path_ptr = accelerator_orig_zend_resolve_path(file_handle->filename, strlen(file_handle->filename) TSRMLS_CC); #endif if (full_path_ptr && strcmp(persistent_script->full_path, full_path_ptr) != 0) { efree(full_path_ptr); return FAILURE; } file_handle->opened_path = full_path_ptr; } if (persistent_script->timestamp == 0) { if (full_path_ptr) { efree(full_path_ptr); file_handle->opened_path = NULL; } return FAILURE; } if (zend_get_file_handle_timestamp(file_handle, NULL TSRMLS_CC) == persistent_script->timestamp) { if (full_path_ptr) { efree(full_path_ptr); file_handle->opened_path = NULL; } return SUCCESS; } if (full_path_ptr) { efree(full_path_ptr); file_handle->opened_path = NULL; } ps_handle.type = ZEND_HANDLE_FILENAME; ps_handle.filename = persistent_script->full_path; ps_handle.opened_path = persistent_script->full_path; if (zend_get_file_handle_timestamp(&ps_handle, NULL TSRMLS_CC) == persistent_script->timestamp) { return SUCCESS; } return FAILURE; } int validate_timestamp_and_record(zend_persistent_script *persistent_script, zend_file_handle *file_handle TSRMLS_DC) { if (ZCG(accel_directives).revalidate_freq && persistent_script->dynamic_members.revalidate >= ZCG(request_time)) { return SUCCESS; } else if (do_validate_timestamps(persistent_script, file_handle TSRMLS_CC) == FAILURE) { return FAILURE; } else { persistent_script->dynamic_members.revalidate = ZCG(request_time) + ZCG(accel_directives).revalidate_freq; return SUCCESS; } } static unsigned int zend_accel_script_checksum(zend_persistent_script *persistent_script) { signed char *mem = (signed char*)persistent_script->mem; size_t size = persistent_script->size; size_t persistent_script_check_block_size = ((char *)&(persistent_script->dynamic_members)) - (char *)persistent_script; unsigned int checksum = ADLER32_INIT; if (mem < (signed char*)persistent_script) { checksum = zend_adler32(checksum, mem, (signed char*)persistent_script - mem); size -= (signed char*)persistent_script - mem; mem += (signed char*)persistent_script - mem; } zend_adler32(checksum, mem, persistent_script_check_block_size); mem += sizeof(*persistent_script); size -= sizeof(*persistent_script); if (size > 0) { checksum = zend_adler32(checksum, mem, size); } return checksum; } /* Instead of resolving full real path name each time we need to identify file, * we create a key that consist from requested file name, current working * directory, current include_path, etc */ char *accel_make_persistent_key_ex(zend_file_handle *file_handle, int path_length, int *key_len TSRMLS_DC) { int key_length; /* CWD and include_path don't matter for absolute file names and streams */ if (ZCG(accel_directives).use_cwd && !IS_ABSOLUTE_PATH(file_handle->filename, path_length) && !is_stream_path(file_handle->filename)) { char *include_path = NULL; int include_path_len = 0; const char *parent_script = NULL; int parent_script_len = 0; int cur_len = 0; int cwd_len; char *cwd; if ((cwd = accel_getcwd(&cwd_len TSRMLS_CC)) == NULL) { /* we don't handle this well for now. */ zend_accel_error(ACCEL_LOG_INFO, "getcwd() failed for '%s' (%d), please try to set opcache.use_cwd to 0 in ini file", file_handle->filename, errno); if (file_handle->opened_path) { cwd = file_handle->opened_path; cwd_len = strlen(cwd); } else { ZCG(key_len) = 0; return NULL; } } if (ZCG(include_path_key)) { include_path = ZCG(include_path_key); include_path_len = 1; } else { include_path = ZCG(include_path); include_path_len = ZCG(include_path_len); if (ZCG(include_path_check) && ZCG(enabled) && accel_startup_ok && (ZCG(counted) || ZCSG(accelerator_enabled)) && !zend_accel_hash_find(&ZCSG(include_paths), ZCG(include_path), ZCG(include_path_len) + 1) && !zend_accel_hash_is_full(&ZCSG(include_paths))) { SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); ZCG(include_path_key) = zend_accel_hash_find(&ZCSG(include_paths), ZCG(include_path), ZCG(include_path_len) + 1); if (ZCG(include_path_key)) { include_path = ZCG(include_path_key); include_path_len = 1; } else if (!zend_accel_hash_is_full(&ZCSG(include_paths))) { char *key; key = zend_shared_alloc(ZCG(include_path_len) + 2); if (key) { memcpy(key, ZCG(include_path), ZCG(include_path_len) + 1); key[ZCG(include_path_len) + 1] = 'A' + ZCSG(include_paths).num_entries; ZCG(include_path_key) = key + ZCG(include_path_len) + 1; zend_accel_hash_update(&ZCSG(include_paths), key, ZCG(include_path_len) + 1, 0, ZCG(include_path_key)); include_path = ZCG(include_path_key); include_path_len = 1; } else { zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_OOM TSRMLS_CC); } } zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } } /* Here we add to the key the parent script directory, since fopen_wrappers from version 4.0.7 use current script's path in include path too. */ if (EG(in_execution) && (parent_script = zend_get_executed_filename(TSRMLS_C)) != NULL && parent_script[0] != '[') { parent_script_len = strlen(parent_script); while ((--parent_script_len > 0) && !IS_SLASH(parent_script[parent_script_len])); } /* Calculate key length */ key_length = cwd_len + path_length + include_path_len + 2; if (parent_script_len) { key_length += parent_script_len + 1; } /* Generate key * Note - the include_path must be the last element in the key, * since in itself, it may include colons (which we use to separate * different components of the key) */ if ((size_t)key_length >= sizeof(ZCG(key))) { ZCG(key_len) = 0; return NULL; } memcpy(ZCG(key), cwd, cwd_len); ZCG(key)[cwd_len] = ':'; memcpy(ZCG(key) + cwd_len + 1, file_handle->filename, path_length); ZCG(key)[cwd_len + 1 + path_length] = ':'; cur_len = cwd_len + 1 + path_length + 1; if (parent_script_len) { memcpy(ZCG(key) + cur_len, parent_script, parent_script_len); cur_len += parent_script_len; ZCG(key)[cur_len] = ':'; cur_len++; } memcpy(ZCG(key) + cur_len, include_path, include_path_len); ZCG(key)[key_length] = '\0'; } else { /* not use_cwd */ key_length = path_length; if ((size_t)key_length >= sizeof(ZCG(key))) { ZCG(key_len) = 0; return NULL; } memcpy(ZCG(key), file_handle->filename, key_length + 1); } *key_len = ZCG(key_len) = key_length; return ZCG(key); } static inline char *accel_make_persistent_key(zend_file_handle *file_handle, int *key_len TSRMLS_DC) { return accel_make_persistent_key_ex(file_handle, strlen(file_handle->filename), key_len TSRMLS_CC); } int zend_accel_invalidate(const char *filename, int filename_len, zend_bool force TSRMLS_DC) { char *realpath; zend_persistent_script *persistent_script; if (!ZCG(enabled) || !accel_startup_ok || !ZCSG(accelerator_enabled) || accelerator_shm_read_lock(TSRMLS_C) != SUCCESS) { return FAILURE; } #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO realpath = accel_php_resolve_path(filename, filename_len, ZCG(include_path) TSRMLS_CC); #else realpath = accelerator_orig_zend_resolve_path(filename, filename_len TSRMLS_CC); #endif if (!realpath) { return FAILURE; } persistent_script = zend_accel_hash_find(&ZCSG(hash), realpath, strlen(realpath) + 1); if (persistent_script && !persistent_script->corrupted) { zend_file_handle file_handle; file_handle.type = ZEND_HANDLE_FILENAME; file_handle.filename = realpath; file_handle.opened_path = realpath; if (force || !ZCG(accel_directives).validate_timestamps || do_validate_timestamps(persistent_script, &file_handle TSRMLS_CC) == FAILURE) { SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); if (!persistent_script->corrupted) { persistent_script->corrupted = 1; persistent_script->timestamp = 0; ZSMMG(wasted_shared_memory) += persistent_script->dynamic_members.memory_consumption; if (ZSMMG(memory_exhausted)) { zend_accel_restart_reason reason = zend_accel_hash_is_full(&ZCSG(hash)) ? ACCEL_RESTART_HASH : ACCEL_RESTART_OOM; zend_accel_schedule_restart_if_necessary(reason TSRMLS_CC); } } zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } } accelerator_shm_read_unlock(TSRMLS_C); efree(realpath); return SUCCESS; } /* Adds another key for existing cached script */ static void zend_accel_add_key(char *key, unsigned int key_length, zend_accel_hash_entry *bucket TSRMLS_DC) { if (!zend_accel_hash_find(&ZCSG(hash), key, key_length + 1)) { if (zend_accel_hash_is_full(&ZCSG(hash))) { zend_accel_error(ACCEL_LOG_DEBUG, "No more entries in hash table!"); ZSMMG(memory_exhausted) = 1; zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_HASH TSRMLS_CC); } else { char *new_key = zend_shared_alloc(key_length + 1); if (new_key) { memcpy(new_key, key, key_length + 1); if (zend_accel_hash_update(&ZCSG(hash), new_key, key_length + 1, 1, bucket)) { zend_accel_error(ACCEL_LOG_INFO, "Added key '%s'", new_key); } } else { zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_OOM TSRMLS_CC); } } } } static zend_persistent_script *cache_script_in_shared_memory(zend_persistent_script *new_persistent_script, char *key, unsigned int key_length, int *from_shared_memory TSRMLS_DC) { zend_accel_hash_entry *bucket; uint memory_used; /* Check if script may be stored in shared memory */ if (!zend_accel_script_persistable(new_persistent_script)) { return new_persistent_script; } if (!zend_accel_script_optimize(new_persistent_script TSRMLS_CC)) { return new_persistent_script; } if (!compact_persistent_script(new_persistent_script)) { return new_persistent_script; } /* exclusive lock */ zend_shared_alloc_lock(TSRMLS_C); if (zend_accel_hash_is_full(&ZCSG(hash))) { zend_accel_error(ACCEL_LOG_DEBUG, "No more entries in hash table!"); ZSMMG(memory_exhausted) = 1; zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_HASH TSRMLS_CC); zend_shared_alloc_unlock(TSRMLS_C); return new_persistent_script; } /* Check if we still need to put the file into the cache (may be it was * already stored by another process. This final check is done under * exclusive lock) */ bucket = zend_accel_hash_find_entry(&ZCSG(hash), new_persistent_script->full_path, new_persistent_script->full_path_len + 1); if (bucket) { zend_persistent_script *existing_persistent_script = (zend_persistent_script *)bucket->data; if (!existing_persistent_script->corrupted) { if (!ZCG(accel_directives).revalidate_path && (!ZCG(accel_directives).validate_timestamps || (new_persistent_script->timestamp == existing_persistent_script->timestamp))) { zend_accel_add_key(key, key_length, bucket TSRMLS_CC); } zend_shared_alloc_unlock(TSRMLS_C); return new_persistent_script; } } /* Calculate the required memory size */ memory_used = zend_accel_script_persist_calc(new_persistent_script, key, key_length TSRMLS_CC); /* Allocate shared memory */ ZCG(mem) = zend_shared_alloc(memory_used); if (!ZCG(mem)) { zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_OOM TSRMLS_CC); zend_shared_alloc_unlock(TSRMLS_C); return new_persistent_script; } /* cleanup after calculation */ new_persistent_script->mem = ZCG(mem); new_persistent_script->size = memory_used; /* Copy into shared memory */ new_persistent_script = zend_accel_script_persist(new_persistent_script, &key, key_length TSRMLS_CC); /* Consistency check */ if ((char*)new_persistent_script->mem + new_persistent_script->size != (char*)ZCG(mem)) { zend_accel_error( ((char*)new_persistent_script->mem + new_persistent_script->size < (char*)ZCG(mem)) ? ACCEL_LOG_ERROR : ACCEL_LOG_WARNING, "Internal error: wrong size calculation: %s start=0x%08x, end=0x%08x, real=0x%08x\n", new_persistent_script->full_path, new_persistent_script->mem, (char *)new_persistent_script->mem + new_persistent_script->size, ZCG(mem)); } new_persistent_script->dynamic_members.checksum = zend_accel_script_checksum(new_persistent_script); /* store script structure in the hash table */ bucket = zend_accel_hash_update(&ZCSG(hash), new_persistent_script->full_path, new_persistent_script->full_path_len + 1, 0, new_persistent_script); if (bucket) { zend_accel_error(ACCEL_LOG_INFO, "Cached script '%s'", new_persistent_script->full_path); if (!ZCG(accel_directives).revalidate_path && /* key may contain non-persistent PHAR aliases (see issues #115 and #149) */ memcmp(key, "phar://", sizeof("phar://") - 1) != 0 && (new_persistent_script->full_path_len != key_length || memcmp(new_persistent_script->full_path, key, key_length) != 0)) { /* link key to the same persistent script in hash table */ if (zend_accel_hash_update(&ZCSG(hash), key, key_length + 1, 1, bucket)) { zend_accel_error(ACCEL_LOG_INFO, "Added key '%s'", key); } else { zend_accel_error(ACCEL_LOG_DEBUG, "No more entries in hash table!"); ZSMMG(memory_exhausted) = 1; zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_HASH TSRMLS_CC); } } } new_persistent_script->dynamic_members.memory_consumption = ZEND_ALIGNED_SIZE(new_persistent_script->size); zend_shared_alloc_unlock(TSRMLS_C); *from_shared_memory = 1; return new_persistent_script; } static const struct jit_auto_global_info { const char *name; size_t len; } jit_auto_globals_info[] = { { "_SERVER", sizeof("_SERVER")}, { "_ENV", sizeof("_ENV")}, { "_REQUEST", sizeof("_REQUEST")}, #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO { "GLOBALS", sizeof("GLOBALS")}, #endif }; static int zend_accel_get_auto_globals(TSRMLS_D) { int i, ag_size = (sizeof(jit_auto_globals_info) / sizeof(jit_auto_globals_info[0])); int n = 1; int mask = 0; for (i = 0; i < ag_size ; i++) { if (zend_hash_exists(&EG(symbol_table), jit_auto_globals_info[i].name, jit_auto_globals_info[i].len)) { mask |= n; } n += n; } return mask; } #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO static int zend_accel_get_auto_globals_no_jit(TSRMLS_D) { if (zend_hash_exists(&EG(symbol_table), jit_auto_globals_info[3].name, jit_auto_globals_info[3].len)) { return 8; } return 0; } #endif static void zend_accel_set_auto_globals(int mask TSRMLS_DC) { int i, ag_size = (sizeof(jit_auto_globals_info) / sizeof(jit_auto_globals_info[0])); int n = 1; for (i = 0; i < ag_size ; i++) { if (mask & n) { zend_is_auto_global(jit_auto_globals_info[i].name, jit_auto_globals_info[i].len - 1 TSRMLS_CC); } n += n; } } static zend_persistent_script *compile_and_cache_file(zend_file_handle *file_handle, int type, char *key, unsigned int key_length, zend_op_array **op_array_p, int *from_shared_memory TSRMLS_DC) { zend_persistent_script *new_persistent_script; zend_op_array *orig_active_op_array; HashTable *orig_function_table, *orig_class_table; zval *orig_user_error_handler; zend_op_array *op_array; int do_bailout = 0; accel_time_t timestamp = 0; #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO zend_uint orig_compiler_options = 0; #endif /* Try to open file */ if (file_handle->type == ZEND_HANDLE_FILENAME) { if (accelerator_orig_zend_stream_open_function(file_handle->filename, file_handle TSRMLS_CC) == SUCCESS) { /* key may be changed by zend_stream_open_function() */ if (key == ZCG(key)) { key_length = ZCG(key_len); } } else { *op_array_p = NULL; if (type == ZEND_REQUIRE) { #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO zend_message_dispatcher(ZMSG_FAILED_REQUIRE_FOPEN, file_handle->filename); #else zend_message_dispatcher(ZMSG_FAILED_REQUIRE_FOPEN, file_handle->filename TSRMLS_CC); #endif zend_bailout(); } else { #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO zend_message_dispatcher(ZMSG_FAILED_INCLUDE_FOPEN, file_handle->filename); #else zend_message_dispatcher(ZMSG_FAILED_INCLUDE_FOPEN, file_handle->filename TSRMLS_CC); #endif } return NULL; } } /* check blacklist right after ensuring that file was opened */ if (file_handle->opened_path && zend_accel_blacklist_is_blacklisted(&accel_blacklist, file_handle->opened_path)) { ZCSG(blacklist_misses)++; *op_array_p = accelerator_orig_compile_file(file_handle, type TSRMLS_CC); return NULL; } if (ZCG(accel_directives).validate_timestamps || ZCG(accel_directives).file_update_protection || ZCG(accel_directives).max_file_size > 0) { size_t size = 0; /* Obtain the file timestamps, *before* actually compiling them, * otherwise we have a race-condition. */ timestamp = zend_get_file_handle_timestamp(file_handle, ZCG(accel_directives).max_file_size > 0 ? &size : NULL TSRMLS_CC); /* If we can't obtain a timestamp (that means file is possibly socket) * we won't cache it */ if (timestamp == 0) { *op_array_p = accelerator_orig_compile_file(file_handle, type TSRMLS_CC); return NULL; } /* check if file is too new (may be it's not written completely yet) */ if (ZCG(accel_directives).file_update_protection && (ZCG(request_time) - ZCG(accel_directives).file_update_protection < timestamp)) { *op_array_p = accelerator_orig_compile_file(file_handle, type TSRMLS_CC); return NULL; } if (ZCG(accel_directives).max_file_size > 0 && size > (size_t)ZCG(accel_directives).max_file_size) { ZCSG(blacklist_misses)++; *op_array_p = accelerator_orig_compile_file(file_handle, type TSRMLS_CC); return NULL; } } new_persistent_script = create_persistent_script(); /* Save the original values for the op_array, function table and class table */ orig_active_op_array = CG(active_op_array); orig_function_table = CG(function_table); orig_class_table = CG(class_table); orig_user_error_handler = EG(user_error_handler); /* Override them with ours */ CG(function_table) = &ZCG(function_table); EG(class_table) = CG(class_table) = &new_persistent_script->class_table; EG(user_error_handler) = NULL; zend_try { #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO orig_compiler_options = CG(compiler_options); CG(compiler_options) |= ZEND_COMPILE_HANDLE_OP_ARRAY; CG(compiler_options) |= ZEND_COMPILE_IGNORE_INTERNAL_CLASSES; CG(compiler_options) |= ZEND_COMPILE_DELAYED_BINDING; CG(compiler_options) |= ZEND_COMPILE_NO_CONSTANT_SUBSTITUTION; #endif op_array = *op_array_p = accelerator_orig_compile_file(file_handle, type TSRMLS_CC); #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO CG(compiler_options) = orig_compiler_options; #endif } zend_catch { op_array = NULL; do_bailout = 1; #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO CG(compiler_options) = orig_compiler_options; #endif } zend_end_try(); /* Restore originals */ CG(active_op_array) = orig_active_op_array; CG(function_table) = orig_function_table; EG(class_table) = CG(class_table) = orig_class_table; EG(user_error_handler) = orig_user_error_handler; if (!op_array) { /* compilation failed */ free_persistent_script(new_persistent_script, 1); zend_accel_free_user_functions(&ZCG(function_table) TSRMLS_CC); if (do_bailout) { zend_bailout(); } return NULL; } /* Build the persistent_script structure. Here we aren't sure we would store it, but we will need it further anyway. */ zend_accel_move_user_functions(&ZCG(function_table), &new_persistent_script->function_table TSRMLS_CC); new_persistent_script->main_op_array = *op_array; efree(op_array); /* we have valid persistent_script, so it's safe to free op_array */ /* Fill in the ping_auto_globals_mask for the new script. If jit for auto globals is enabled we will have to ping the used auto global variables before execution */ #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO if (PG(auto_globals_jit)) { new_persistent_script->ping_auto_globals_mask = zend_accel_get_auto_globals(TSRMLS_C); } else { new_persistent_script->ping_auto_globals_mask = zend_accel_get_auto_globals_no_jit(TSRMLS_C); } #else if ((PG(auto_globals_jit) && !PG(register_globals) && !PG(register_long_arrays))) { new_persistent_script->ping_auto_globals_mask = zend_accel_get_auto_globals(TSRMLS_C); } #endif if (ZCG(accel_directives).validate_timestamps) { /* Obtain the file timestamps, *before* actually compiling them, * otherwise we have a race-condition. */ new_persistent_script->timestamp = timestamp; new_persistent_script->dynamic_members.revalidate = ZCG(request_time) + ZCG(accel_directives).revalidate_freq; } if (file_handle->opened_path) { new_persistent_script->full_path_len = strlen(file_handle->opened_path); new_persistent_script->full_path = estrndup(file_handle->opened_path, new_persistent_script->full_path_len); } else { new_persistent_script->full_path_len = strlen(file_handle->filename); new_persistent_script->full_path = estrndup(file_handle->filename, new_persistent_script->full_path_len); } new_persistent_script->hash_value = zend_hash_func(new_persistent_script->full_path, new_persistent_script->full_path_len + 1); /* Now persistent_script structure is ready in process memory */ return cache_script_in_shared_memory(new_persistent_script, key, key_length, from_shared_memory TSRMLS_CC); } /* zend_compile() replacement */ zend_op_array *persistent_compile_file(zend_file_handle *file_handle, int type TSRMLS_DC) { zend_persistent_script *persistent_script = NULL; char *key = NULL; int key_length; int from_shared_memory; /* if the script we've got is stored in SHM */ if (!file_handle->filename || !ZCG(enabled) || !accel_startup_ok || (!ZCG(counted) && !ZCSG(accelerator_enabled)) || CG(interactive) || (ZCSG(restart_in_progress) && accel_restart_is_active(TSRMLS_C)) || (is_stream_path(file_handle->filename) && !is_cacheable_stream_path(file_handle->filename))) { /* The Accelerator is disabled, act as if without the Accelerator */ return accelerator_orig_compile_file(file_handle, type TSRMLS_CC); } /* Make sure we only increase the currently running processes semaphore * once each execution (this function can be called more than once on * each execution) */ if (!ZCG(counted)) { ZCG(counted) = 1; accel_activate_add(TSRMLS_C); } /* In case this callback is called from include_once, require_once or it's * a main FastCGI request, the key must be already calculated, and cached * persistent script already found */ if ((EG(opline_ptr) == NULL && ZCG(cache_opline) == NULL && file_handle->filename == SG(request_info).path_translated && ZCG(cache_persistent_script)) || (EG(opline_ptr) && *EG(opline_ptr) && *EG(opline_ptr) == ZCG(cache_opline) && (*EG(opline_ptr))->opcode == ZEND_INCLUDE_OR_EVAL && #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO ((*EG(opline_ptr))->extended_value == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->extended_value == ZEND_REQUIRE_ONCE))) { #else ((*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_REQUIRE_ONCE))) { #endif if (!ZCG(key_len)) { return accelerator_orig_compile_file(file_handle, type TSRMLS_CC); } /* persistent script was already found by overridden open() or * resolve_path() callbacks */ persistent_script = ZCG(cache_persistent_script); key = ZCG(key); key_length = ZCG(key_len); } else { /* try to find cached script by key */ if ((key = accel_make_persistent_key(file_handle, &key_length TSRMLS_CC)) == NULL) { return accelerator_orig_compile_file(file_handle, type TSRMLS_CC); } persistent_script = zend_accel_hash_find(&ZCSG(hash), key, key_length + 1); if (!persistent_script) { /* try to find cached script by full real path */ zend_accel_hash_entry *bucket; /* open file to resolve the path */ if (file_handle->type == ZEND_HANDLE_FILENAME && #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO accelerator_orig_zend_stream_open_function(file_handle->filename, file_handle TSRMLS_CC) == FAILURE) { #else zend_stream_open(file_handle->filename, file_handle TSRMLS_CC) == FAILURE) { #endif if (type == ZEND_REQUIRE) { #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO zend_message_dispatcher(ZMSG_FAILED_REQUIRE_FOPEN, file_handle->filename); #else zend_message_dispatcher(ZMSG_FAILED_REQUIRE_FOPEN, file_handle->filename TSRMLS_CC); #endif zend_bailout(); } else { #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO zend_message_dispatcher(ZMSG_FAILED_INCLUDE_FOPEN, file_handle->filename); #else zend_message_dispatcher(ZMSG_FAILED_INCLUDE_FOPEN, file_handle->filename TSRMLS_CC); #endif } return NULL; } if (file_handle->opened_path && (bucket = zend_accel_hash_find_entry(&ZCSG(hash), file_handle->opened_path, strlen(file_handle->opened_path) + 1)) != NULL) { persistent_script = (zend_persistent_script *)bucket->data; if (!ZCG(accel_directives).revalidate_path && !persistent_script->corrupted) { SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); zend_accel_add_key(key, key_length, bucket TSRMLS_CC); zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } } } } /* clear cache */ ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; if (persistent_script && persistent_script->corrupted) { persistent_script = NULL; } SHM_UNPROTECT(); /* If script is found then validate_timestamps if option is enabled */ if (persistent_script && ZCG(accel_directives).validate_timestamps) { if (validate_timestamp_and_record(persistent_script, file_handle TSRMLS_CC) == FAILURE) { zend_shared_alloc_lock(TSRMLS_C); if (!persistent_script->corrupted) { persistent_script->corrupted = 1; persistent_script->timestamp = 0; ZSMMG(wasted_shared_memory) += persistent_script->dynamic_members.memory_consumption; if (ZSMMG(memory_exhausted)) { zend_accel_restart_reason reason = zend_accel_hash_is_full(&ZCSG(hash)) ? ACCEL_RESTART_HASH : ACCEL_RESTART_OOM; zend_accel_schedule_restart_if_necessary(reason TSRMLS_CC); } } zend_shared_alloc_unlock(TSRMLS_C); persistent_script = NULL; } } /* if turned on - check the compiled script ADLER32 checksum */ if (persistent_script && ZCG(accel_directives).consistency_checks && persistent_script->dynamic_members.hits % ZCG(accel_directives).consistency_checks == 0) { unsigned int checksum = zend_accel_script_checksum(persistent_script); if (checksum != persistent_script->dynamic_members.checksum ) { /* The checksum is wrong */ zend_accel_error(ACCEL_LOG_INFO, "Checksum failed for '%s': expected=0x%0.8X, found=0x%0.8X", persistent_script->full_path, persistent_script->dynamic_members.checksum, checksum); zend_shared_alloc_lock(TSRMLS_C); if (!persistent_script->corrupted) { persistent_script->corrupted = 1; persistent_script->timestamp = 0; ZSMMG(wasted_shared_memory) += persistent_script->dynamic_members.memory_consumption; if (ZSMMG(memory_exhausted)) { zend_accel_restart_reason reason = zend_accel_hash_is_full(&ZCSG(hash)) ? ACCEL_RESTART_HASH : ACCEL_RESTART_OOM; zend_accel_schedule_restart_if_necessary(reason TSRMLS_CC); } } zend_shared_alloc_unlock(TSRMLS_C); persistent_script = NULL; } } /* If script was not found or invalidated by validate_timestamps */ if (!persistent_script) { zend_op_array *op_array; /* Cache miss.. */ ZCSG(misses)++; /* No memory left. Behave like without the Accelerator */ if (ZSMMG(memory_exhausted) || ZCSG(restart_pending)) { SHM_PROTECT(); return accelerator_orig_compile_file(file_handle, type TSRMLS_CC); } /* Try and cache the script and assume that it is returned from_shared_memory. * If it isn't compile_and_cache_file() changes the flag to 0 */ from_shared_memory = 0; persistent_script = compile_and_cache_file(file_handle, type, key, key_length, &op_array, &from_shared_memory TSRMLS_CC); /* Caching is disabled, returning op_array; * or something went wrong during compilation, returning NULL */ if (!persistent_script) { SHM_PROTECT(); return op_array; } } else { #if !ZEND_WIN32 ZCSG(hits)++; /* TBFixed: may lose one hit */ persistent_script->dynamic_members.hits++; /* see above */ #else InterlockedIncrement(&ZCSG(hits)); InterlockedIncrement(&persistent_script->dynamic_members.hits); #endif /* see bug #15471 (old BTS) */ if (persistent_script->full_path) { if (!EG(opline_ptr) || !*EG(opline_ptr) || (*EG(opline_ptr))->opcode != ZEND_INCLUDE_OR_EVAL || #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO ((*EG(opline_ptr))->extended_value != ZEND_INCLUDE_ONCE && (*EG(opline_ptr))->extended_value != ZEND_REQUIRE_ONCE)) { #else ((*EG(opline_ptr))->op2.u.constant.value.lval != ZEND_INCLUDE_ONCE && (*EG(opline_ptr))->op2.u.constant.value.lval != ZEND_REQUIRE_ONCE)) { #endif void *dummy = (void *) 1; if (zend_hash_quick_add(&EG(included_files), persistent_script->full_path, persistent_script->full_path_len + 1, persistent_script->hash_value, &dummy, sizeof(void *), NULL) == SUCCESS) { /* ext/phar has to load phar's metadata into memory */ if (strstr(persistent_script->full_path, ".phar") && !strstr(persistent_script->full_path, "://")) { php_stream_statbuf ssb; char *fname = emalloc(sizeof("phar://") + persistent_script->full_path_len); memcpy(fname, "phar://", sizeof("phar://") - 1); memcpy(fname + sizeof("phar://") - 1, persistent_script->full_path, persistent_script->full_path_len + 1); php_stream_stat_path(fname, &ssb); efree(fname); } } } } #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO zend_file_handle_dtor(file_handle); #else zend_file_handle_dtor(file_handle TSRMLS_CC); #endif from_shared_memory = 1; } persistent_script->dynamic_members.last_used = ZCG(request_time); SHM_PROTECT(); /* Fetch jit auto globals used in the script before execution */ if (persistent_script->ping_auto_globals_mask) { zend_accel_set_auto_globals(persistent_script->ping_auto_globals_mask TSRMLS_CC); } return zend_accel_load_script(persistent_script, from_shared_memory TSRMLS_CC); } #if ZEND_EXTENSION_API_NO < PHP_5_3_X_API_NO /* Taken from php-5.2.5 because early versions don't have correct version */ static char *accel_tsrm_realpath(const char *path, int path_len TSRMLS_DC) { cwd_state new_state; #if ZEND_EXTENSION_API_NO < PHP_5_6_X_API_NO char *real_path; #endif char *cwd; int cwd_len; /* realpath("") returns CWD */ if (!*path) { #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO new_state.cwd = (char*)emalloc(1); #else new_state.cwd = (char*)malloc(1); if (!new_state.cwd) { zend_accel_error(ACCEL_LOG_ERROR, "malloc() failed"); return NULL; } #endif new_state.cwd[0] = '\0'; new_state.cwd_length = 0; if ((cwd = accel_getcwd(&cwd_len TSRMLS_CC)) != NULL) { path = cwd; } } else if (!IS_ABSOLUTE_PATH(path, path_len) && (cwd = accel_getcwd(&cwd_len TSRMLS_CC)) != NULL) { #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO new_state.cwd = estrndup(cwd, cwd_len); #else new_state.cwd = zend_strndup(cwd, cwd_len); if (!new_state.cwd) { zend_accel_error(ACCEL_LOG_ERROR, "malloc() failed"); return NULL; } #endif new_state.cwd_length = cwd_len; } else { #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO new_state.cwd = (char*)emalloc(1); #else new_state.cwd = (char*)malloc(1); if (!new_state.cwd) { zend_accel_error(ACCEL_LOG_ERROR, "malloc() failed"); return NULL; } #endif new_state.cwd[0] = '\0'; new_state.cwd_length = 0; } #ifndef CWD_REALPATH # define CWD_REALPATH 2 #endif if (virtual_file_ex(&new_state, path, NULL, CWD_REALPATH)) { #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO efree(new_state.cwd); #else free(new_state.cwd); #endif return NULL; } #if ZEND_EXTENSION_API_NO > PHP_5_5_X_API_NO return new_state.cwd; #else real_path = emalloc(new_state.cwd_length + 1); memcpy(real_path, new_state.cwd, new_state.cwd_length + 1); free(new_state.cwd); return real_path; #endif } static char *accel_php_resolve_path(const char *filename, int filename_length, const char *path TSRMLS_DC) { char *resolved_path; char trypath[MAXPATHLEN]; const char *ptr, *end; int len; if (!filename) { return NULL; } if (*filename == '.' || IS_ABSOLUTE_PATH(filename, filename_length) || !path || !*path) { return accel_tsrm_realpath(filename, filename_length TSRMLS_CC); } ptr = path; while (*ptr) { for (end = ptr; *end && *end != DEFAULT_DIR_SEPARATOR; end++); len = end - ptr; if (*end) end++; if (len + 1 + filename_length + 1 >= MAXPATHLEN) { ptr = end; continue; } memcpy(trypath, ptr, len); trypath[len] = '/'; memcpy(trypath + len + 1, filename, filename_length + 1); ptr = end; if ((resolved_path = accel_tsrm_realpath(trypath, len + 1 + filename_length TSRMLS_CC)) != NULL) { return resolved_path; } } /* end provided path */ /* check in calling scripts' current working directory as a fall back case */ if (EG(in_execution)) { char *exec_fname = zend_get_executed_filename(TSRMLS_C); int exec_fname_length = strlen(exec_fname); while ((--exec_fname_length >= 0) && !IS_SLASH(exec_fname[exec_fname_length])); if (exec_fname && exec_fname[0] != '[' && exec_fname_length > 0 && exec_fname_length + 1 + filename_length + 1 < MAXPATHLEN) { memcpy(trypath, exec_fname, exec_fname_length + 1); memcpy(trypath + exec_fname_length + 1, filename, filename_length + 1); return accel_tsrm_realpath(trypath, exec_fname_length + 1 + filename_length TSRMLS_CC); } } return NULL; } /* zend_stream_open_function() replacement for PHP 5.2 */ static int persistent_stream_open_function(const char *filename, zend_file_handle *handle TSRMLS_DC) { if (ZCG(enabled) && accel_startup_ok && (ZCG(counted) || ZCSG(accelerator_enabled)) && !CG(interactive) && !ZCSG(restart_in_progress)) { if (EG(opline_ptr) && *EG(opline_ptr)) { zend_op *opline = *EG(opline_ptr); if (opline->opcode == ZEND_INCLUDE_OR_EVAL && (opline->op2.u.constant.value.lval == ZEND_INCLUDE_ONCE || opline->op2.u.constant.value.lval == ZEND_REQUIRE_ONCE)) { /* we are in include_once */ char *key = NULL; int key_length; char *resolved_path; zend_accel_hash_entry *bucket; zend_persistent_script *persistent_script; int filename_len; if (opline->op1.op_type == IS_CONST) { filename_len = Z_STRLEN(opline->op1.u.constant); } else { filename_len = strlen(filename); } handle->filename = (char*)filename; handle->free_filename = 0; handle->opened_path = NULL; /* Check if requested file already cached (by full name) */ if (IS_ABSOLUTE_PATH(filename, filename_len) && (persistent_script = zend_accel_hash_find(&ZCSG(hash), (char*)filename, filename_len + 1)) != NULL && !persistent_script->corrupted) { handle->opened_path = estrndup(persistent_script->full_path, persistent_script->full_path_len); handle->type = ZEND_HANDLE_FILENAME; memcpy(ZCG(key), persistent_script->full_path, persistent_script->full_path_len + 1); ZCG(key_len) = persistent_script->full_path_len; ZCG(cache_opline) = opline; ZCG(cache_persistent_script) = persistent_script; return SUCCESS; } /* Check if requested file already cached (by key) */ key = accel_make_persistent_key_ex(handle, filename_len, &key_length TSRMLS_CC); if (!ZCG(accel_directives).revalidate_path && key && (persistent_script = zend_accel_hash_find(&ZCSG(hash), key, key_length + 1)) != NULL && !persistent_script->corrupted) { handle->opened_path = estrndup(persistent_script->full_path, persistent_script->full_path_len); handle->type = ZEND_HANDLE_FILENAME; ZCG(cache_opline) = opline; ZCG(cache_persistent_script) = persistent_script; return SUCCESS; } /* find the full real path */ resolved_path = accel_php_resolve_path(filename, filename_len, ZCG(include_path) TSRMLS_CC); /* Check if requested file already cached (by real name) */ if (resolved_path && (bucket = zend_accel_hash_find_entry(&ZCSG(hash), resolved_path, strlen(resolved_path) + 1)) != NULL) { persistent_script = (zend_persistent_script *)bucket->data; if (persistent_script && !persistent_script->corrupted) { handle->opened_path = resolved_path; handle->type = ZEND_HANDLE_FILENAME; if (key && !ZCG(accel_directives).revalidate_path) { /* add another "key" for the same bucket */ SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); zend_accel_add_key(key, key_length, bucket TSRMLS_CC); zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } ZCG(cache_opline) = opline; ZCG(cache_persistent_script) = persistent_script; return SUCCESS; } } if (resolved_path) { efree(resolved_path); } } } } ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; return accelerator_orig_zend_stream_open_function(filename, handle TSRMLS_CC); } #else /* zend_stream_open_function() replacement for PHP 5.3 and above */ static int persistent_stream_open_function(const char *filename, zend_file_handle *handle TSRMLS_DC) { if (ZCG(enabled) && accel_startup_ok && (ZCG(counted) || ZCSG(accelerator_enabled)) && !CG(interactive) && !ZCSG(restart_in_progress)) { /* check if callback is called from include_once or it's a main request */ if ((!EG(opline_ptr) && filename == SG(request_info).path_translated) || (EG(opline_ptr) && *EG(opline_ptr) && (*EG(opline_ptr))->opcode == ZEND_INCLUDE_OR_EVAL && #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO ((*EG(opline_ptr))->extended_value == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->extended_value == ZEND_REQUIRE_ONCE))) { #else ((*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_REQUIRE_ONCE))) { #endif /* we are in include_once or FastCGI request */ zend_persistent_script *persistent_script; handle->filename = (char*)filename; handle->free_filename = 0; /* check if cached script was already found by resolve_path() */ if ((EG(opline_ptr) == NULL && ZCG(cache_opline) == NULL && ZCG(cache_persistent_script) != NULL) || (EG(opline_ptr) && (ZCG(cache_opline) == *EG(opline_ptr)))) { persistent_script = ZCG(cache_persistent_script); handle->opened_path = estrndup(persistent_script->full_path, persistent_script->full_path_len); handle->type = ZEND_HANDLE_FILENAME; return SUCCESS; #if 0 } else { /* FIXME: It looks like this part is not needed any more */ int filename_len = strlen(filename); if ((IS_ABSOLUTE_PATH(filename, filename_len) || is_stream_path(filename)) && (persistent_script = zend_accel_hash_find(&ZCSG(hash), (char*)filename, filename_len + 1)) != NULL && !persistent_script->corrupted) { handle->opened_path = estrndup(persistent_script->full_path, persistent_script->full_path_len); handle->type = ZEND_HANDLE_FILENAME; memcpy(ZCG(key), persistent_script->full_path, persistent_script->full_path_len + 1); ZCG(key_len) = persistent_script->full_path_len; ZCG(cache_opline) = EG(opline_ptr) ? *EG(opline_ptr) : NULL; ZCG(cache_persistent_script) = EG(opline_ptr) ? persistent_script : NULL; return SUCCESS; } #endif } } } ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; return accelerator_orig_zend_stream_open_function(filename, handle TSRMLS_CC); } /* zend_resolve_path() replacement for PHP 5.3 and above */ static char* persistent_zend_resolve_path(const char *filename, int filename_len TSRMLS_DC) { if (ZCG(enabled) && accel_startup_ok && (ZCG(counted) || ZCSG(accelerator_enabled)) && !CG(interactive) && !ZCSG(restart_in_progress)) { /* check if callback is called from include_once or it's a main request */ if ((!EG(opline_ptr) && filename == SG(request_info).path_translated) || (EG(opline_ptr) && *EG(opline_ptr) && (*EG(opline_ptr))->opcode == ZEND_INCLUDE_OR_EVAL && #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO ((*EG(opline_ptr))->extended_value == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->extended_value == ZEND_REQUIRE_ONCE))) { #else ((*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_INCLUDE_ONCE || (*EG(opline_ptr))->op2.u.constant.value.lval == ZEND_REQUIRE_ONCE))) { #endif /* we are in include_once or FastCGI request */ zend_file_handle handle; char *key = NULL; int key_length; char *resolved_path; zend_accel_hash_entry *bucket; zend_persistent_script *persistent_script; /* Check if requested file already cached (by full name) */ if ((IS_ABSOLUTE_PATH(filename, filename_len) || is_stream_path(filename)) && (bucket = zend_accel_hash_find_entry(&ZCSG(hash), (char*)filename, filename_len + 1)) != NULL) { persistent_script = (zend_persistent_script *)bucket->data; if (persistent_script && !persistent_script->corrupted) { memcpy(ZCG(key), persistent_script->full_path, persistent_script->full_path_len + 1); ZCG(key_len) = persistent_script->full_path_len; ZCG(cache_opline) = EG(opline_ptr) ? *EG(opline_ptr) : NULL; ZCG(cache_persistent_script) = persistent_script; return estrndup(persistent_script->full_path, persistent_script->full_path_len); } } /* Check if requested file already cached (by key) */ handle.filename = (char*)filename; handle.free_filename = 0; handle.opened_path = NULL; key = accel_make_persistent_key_ex(&handle, filename_len, &key_length TSRMLS_CC); if (!ZCG(accel_directives).revalidate_path && key && (persistent_script = zend_accel_hash_find(&ZCSG(hash), key, key_length + 1)) != NULL && !persistent_script->corrupted) { /* we have persistent script */ ZCG(cache_opline) = EG(opline_ptr) ? *EG(opline_ptr) : NULL; ZCG(cache_persistent_script) = persistent_script; return estrndup(persistent_script->full_path, persistent_script->full_path_len); } /* find the full real path */ resolved_path = accelerator_orig_zend_resolve_path(filename, filename_len TSRMLS_CC); /* Check if requested file already cached (by real path) */ if (resolved_path && (bucket = zend_accel_hash_find_entry(&ZCSG(hash), resolved_path, strlen(resolved_path) + 1)) != NULL) { persistent_script = (zend_persistent_script *)bucket->data; if (persistent_script && !persistent_script->corrupted) { if (key && !ZCG(accel_directives).revalidate_path) { /* add another "key" for the same bucket */ SHM_UNPROTECT(); zend_shared_alloc_lock(TSRMLS_C); zend_accel_add_key(key, key_length, bucket TSRMLS_CC); zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); } ZCG(cache_opline) = (EG(opline_ptr) && key) ? *EG(opline_ptr): NULL; ZCG(cache_persistent_script) = key ? persistent_script : NULL; return resolved_path; } } ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; return resolved_path; } } ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; return accelerator_orig_zend_resolve_path(filename, filename_len TSRMLS_CC); } #endif static void zend_reset_cache_vars(TSRMLS_D) { ZSMMG(memory_exhausted) = 0; ZCSG(hits) = 0; ZCSG(misses) = 0; ZCSG(blacklist_misses) = 0; ZSMMG(wasted_shared_memory) = 0; ZCSG(restart_pending) = 0; ZCSG(force_restart_time) = 0; } static void accel_activate(void) { TSRMLS_FETCH(); if (!ZCG(enabled) || !accel_startup_ok) { return; } SHM_UNPROTECT(); /* PHP-5.4 and above return "double", but we use 1 sec precision */ ZCG(request_time) = (time_t)sapi_get_request_time(TSRMLS_C); ZCG(cache_opline) = NULL; ZCG(cache_persistent_script) = NULL; ZCG(include_path_check) = !ZCG(include_path_key); if (ZCG(counted)) { #ifdef ZTS zend_accel_error(ACCEL_LOG_WARNING, "Stuck count for thread id %d", tsrm_thread_id()); #else zend_accel_error(ACCEL_LOG_WARNING, "Stuck count for pid %d", getpid()); #endif accel_unlock_all(TSRMLS_C); ZCG(counted) = 0; } if (ZCSG(restart_pending)) { zend_shared_alloc_lock(TSRMLS_C); if (ZCSG(restart_pending) != 0) { /* check again, to ensure that the cache wasn't already cleaned by another process */ if (accel_is_inactive(TSRMLS_C) == SUCCESS) { zend_accel_error(ACCEL_LOG_DEBUG, "Restarting!"); ZCSG(restart_pending) = 0; switch ZCSG(restart_reason) { case ACCEL_RESTART_OOM: ZCSG(oom_restarts)++; break; case ACCEL_RESTART_HASH: ZCSG(hash_restarts)++; break; case ACCEL_RESTART_USER: ZCSG(manual_restarts)++; break; } accel_restart_enter(TSRMLS_C); zend_reset_cache_vars(TSRMLS_C); zend_accel_hash_clean(&ZCSG(hash)); /* include_paths keeps only the first path */ if (ZCSG(include_paths).num_entries > 1) { ZCSG(include_paths).num_entries = 1; ZCSG(include_paths).num_direct_entries = 1; memset(ZCSG(include_paths).hash_table, 0, sizeof(zend_accel_hash_entry*) * ZCSG(include_paths).max_num_entries); ZCSG(include_paths).hash_table[zend_inline_hash_func(ZCSG(include_paths).hash_entries[0].key, ZCSG(include_paths).hash_entries[0].key_length) % ZCSG(include_paths).max_num_entries] = &ZCSG(include_paths).hash_entries[0]; } #if (ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO) && !defined(ZTS) if (ZCG(accel_directives).interned_strings_buffer) { accel_interned_strings_restore_state(TSRMLS_C); } #endif zend_shared_alloc_restore_state(); ZCSG(accelerator_enabled) = ZCSG(cache_status_before_restart); ZCSG(last_restart_time) = ZCG(request_time); accel_restart_leave(TSRMLS_C); } } zend_shared_alloc_unlock(TSRMLS_C); } /* check if ZCG(function_table) wasn't somehow polluted on the way */ if (ZCG(internal_functions_count) != zend_hash_num_elements(&ZCG(function_table))) { zend_accel_error(ACCEL_LOG_WARNING, "Internal functions count changed - was %d, now %d", ZCG(internal_functions_count), zend_hash_num_elements(&ZCG(function_table))); } ZCG(cwd) = NULL; SHM_PROTECT(); } #if !ZEND_DEBUG /* Fast Request Shutdown * ===================== * Zend Memory Manager frees memory by its own. We don't have to free each * allocated block separately, but we like to call all the destructors and * callbacks in exactly the same order. */ static void accel_fast_hash_destroy(HashTable *ht) { Bucket *p = ht->pListHead; while (p != NULL) { ht->pDestructor(p->pData); p = p->pListNext; } } static void accel_fast_zval_ptr_dtor(zval **zval_ptr) { zval *zvalue = *zval_ptr; if (Z_DELREF_P(zvalue) == 0) { #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO switch (Z_TYPE_P(zvalue) & IS_CONSTANT_TYPE_MASK) { #else switch (Z_TYPE_P(zvalue) & ~IS_CONSTANT_INDEX) { #endif #if ZEND_EXTENSION_API_NO <= PHP_5_5_API_NO case IS_CONSTANT_ARRAY: #endif case IS_ARRAY: { TSRMLS_FETCH(); #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO GC_REMOVE_ZVAL_FROM_BUFFER(zvalue); #endif if (zvalue->value.ht && (zvalue->value.ht != &EG(symbol_table))) { /* break possible cycles */ Z_TYPE_P(zvalue) = IS_NULL; zvalue->value.ht->pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; accel_fast_hash_destroy(zvalue->value.ht); } } break; case IS_OBJECT: { TSRMLS_FETCH(); #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO GC_REMOVE_ZVAL_FROM_BUFFER(zvalue); #endif Z_OBJ_HT_P(zvalue)->del_ref(zvalue TSRMLS_CC); } break; case IS_RESOURCE: { TSRMLS_FETCH(); /* destroy resource */ zend_list_delete(zvalue->value.lval); } break; case IS_LONG: case IS_DOUBLE: case IS_BOOL: case IS_NULL: case IS_STRING: case IS_CONSTANT: default: return; break; } } } static int accel_clean_non_persistent_function(zend_function *function TSRMLS_DC) { if (function->type == ZEND_INTERNAL_FUNCTION) { return ZEND_HASH_APPLY_STOP; } else { if (function->op_array.static_variables) { function->op_array.static_variables->pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; accel_fast_hash_destroy(function->op_array.static_variables); function->op_array.static_variables = NULL; } return (--(*function->op_array.refcount) <= 0) ? ZEND_HASH_APPLY_REMOVE : ZEND_HASH_APPLY_KEEP; } } static int accel_cleanup_function_data(zend_function *function TSRMLS_DC) { if (function->type == ZEND_USER_FUNCTION) { if (function->op_array.static_variables) { function->op_array.static_variables->pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; accel_fast_hash_destroy(function->op_array.static_variables); function->op_array.static_variables = NULL; } } return 0; } static int accel_clean_non_persistent_class(zend_class_entry **pce TSRMLS_DC) { zend_class_entry *ce = *pce; if (ce->type == ZEND_INTERNAL_CLASS) { return ZEND_HASH_APPLY_STOP; } else { #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO if (ce->ce_flags & ZEND_HAS_STATIC_IN_METHODS) { zend_hash_apply(&ce->function_table, (apply_func_t) accel_cleanup_function_data TSRMLS_CC); } if (ce->static_members_table) { int i; for (i = 0; i < ce->default_static_members_count; i++) { if (ce->static_members_table[i]) { accel_fast_zval_ptr_dtor(&ce->static_members_table[i]); ce->static_members_table[i] = NULL; } } ce->static_members_table = NULL; } #else zend_hash_apply(&ce->function_table, (apply_func_t) accel_cleanup_function_data TSRMLS_CC); if (ce->static_members) { ce->static_members->pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; accel_fast_hash_destroy(ce->static_members); ce->static_members = NULL; } #endif return ZEND_HASH_APPLY_REMOVE; } } static int accel_clean_non_persistent_constant(zend_constant *c TSRMLS_DC) { if (c->flags & CONST_PERSISTENT) { return ZEND_HASH_APPLY_STOP; } else { interned_free(c->name); return ZEND_HASH_APPLY_REMOVE; } } static void zend_accel_fast_shutdown(TSRMLS_D) { if (EG(full_tables_cleanup)) { EG(symbol_table).pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; } else { dtor_func_t old_destructor; if (EG(objects_store).top > 1 || zend_hash_num_elements(&EG(regular_list)) > 0) { /* We don't have to destroy all zvals if they cannot call any destructors */ old_destructor = EG(symbol_table).pDestructor; EG(symbol_table).pDestructor = (dtor_func_t)accel_fast_zval_ptr_dtor; zend_try { zend_hash_graceful_reverse_destroy(&EG(symbol_table)); } zend_end_try(); EG(symbol_table).pDestructor = old_destructor; } zend_hash_init(&EG(symbol_table), 0, NULL, NULL, 0); old_destructor = EG(function_table)->pDestructor; EG(function_table)->pDestructor = NULL; zend_hash_reverse_apply(EG(function_table), (apply_func_t) accel_clean_non_persistent_function TSRMLS_CC); EG(function_table)->pDestructor = old_destructor; old_destructor = EG(class_table)->pDestructor; EG(class_table)->pDestructor = NULL; zend_hash_reverse_apply(EG(class_table), (apply_func_t) accel_clean_non_persistent_class TSRMLS_CC); EG(class_table)->pDestructor = old_destructor; old_destructor = EG(zend_constants)->pDestructor; EG(zend_constants)->pDestructor = NULL; zend_hash_reverse_apply(EG(zend_constants), (apply_func_t) accel_clean_non_persistent_constant TSRMLS_CC); EG(zend_constants)->pDestructor = old_destructor; } CG(unclean_shutdown) = 1; } #endif static void accel_deactivate(void) { /* ensure that we restore function_table and class_table * In general, they're restored by persistent_compile_file(), but in case * the script is aborted abnormally, they may become messed up. */ TSRMLS_FETCH(); if (ZCG(cwd)) { efree(ZCG(cwd)); ZCG(cwd) = NULL; } if (!ZCG(enabled) || !accel_startup_ok) { return; } zend_shared_alloc_safe_unlock(TSRMLS_C); /* be sure we didn't leave cache locked */ accel_unlock_all(TSRMLS_C); ZCG(counted) = 0; #if !ZEND_DEBUG if (ZCG(accel_directives).fast_shutdown) { zend_accel_fast_shutdown(TSRMLS_C); } #endif } static int accelerator_remove_cb(zend_extension *element1, zend_extension *element2) { (void)element2; /* keep the compiler happy */ if (!strcmp(element1->name, ACCELERATOR_PRODUCT_NAME )) { element1->startup = NULL; #if 0 /* We have to call shutdown callback it to free TS resources */ element1->shutdown = NULL; #endif element1->activate = NULL; element1->deactivate = NULL; element1->op_array_handler = NULL; #ifdef __DEBUG_MESSAGES__ fprintf(stderr, ACCELERATOR_PRODUCT_NAME " is disabled: %s\n", (zps_failure_reason ? zps_failure_reason : "unknown error")); fflush(stderr); #endif } return 0; } static void zps_startup_failure(char *reason, char *api_reason, int (*cb)(zend_extension *, zend_extension *) TSRMLS_DC) { accel_startup_ok = 0; zps_failure_reason = reason; zps_api_failure_reason = api_reason?api_reason:reason; zend_llist_del_element(&zend_extensions, NULL, (int (*)(void *, void *))cb); } static inline int accel_find_sapi(TSRMLS_D) { static const char *supported_sapis[] = { "apache", "fastcgi", "cli-server", "cgi-fcgi", "fpm-fcgi", "isapi", "apache2filter", "apache2handler", "litespeed", "uwsgi", NULL }; const char **sapi_name; if (sapi_module.name) { for (sapi_name = supported_sapis; *sapi_name; sapi_name++) { if (strcmp(sapi_module.name, *sapi_name) == 0) { return SUCCESS; } } if (ZCG(accel_directives).enable_cli && strcmp(sapi_module.name, "cli") == 0) { return SUCCESS; } } return FAILURE; } static int zend_accel_init_shm(TSRMLS_D) { zend_shared_alloc_lock(TSRMLS_C); accel_shared_globals = zend_shared_alloc(sizeof(zend_accel_shared_globals)); if (!accel_shared_globals) { zend_accel_error(ACCEL_LOG_FATAL, "Insufficient shared memory!"); return FAILURE; } ZSMMG(app_shared_globals) = accel_shared_globals; zend_accel_hash_init(&ZCSG(hash), ZCG(accel_directives).max_accelerated_files); zend_accel_hash_init(&ZCSG(include_paths), 32); #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO ZCSG(interned_strings_start) = ZCSG(interned_strings_end) = NULL; # ifndef ZTS zend_hash_init(&ZCSG(interned_strings), (ZCG(accel_directives).interned_strings_buffer * 1024 * 1024) / (sizeof(Bucket) + sizeof(Bucket*) + 8 /* average string length */), NULL, NULL, 1); if (ZCG(accel_directives).interned_strings_buffer) { ZCSG(interned_strings).nTableMask = ZCSG(interned_strings).nTableSize - 1; ZCSG(interned_strings).arBuckets = zend_shared_alloc(ZCSG(interned_strings).nTableSize * sizeof(Bucket *)); ZCSG(interned_strings_start) = zend_shared_alloc((ZCG(accel_directives).interned_strings_buffer * 1024 * 1024)); if (!ZCSG(interned_strings).arBuckets || !ZCSG(interned_strings_start)) { zend_accel_error(ACCEL_LOG_FATAL, ACCELERATOR_PRODUCT_NAME " cannot allocate buffer for interned strings"); return FAILURE; } ZCSG(interned_strings_end) = ZCSG(interned_strings_start) + (ZCG(accel_directives).interned_strings_buffer * 1024 * 1024); ZCSG(interned_strings_top) = ZCSG(interned_strings_start); orig_interned_strings_start = CG(interned_strings_start); orig_interned_strings_end = CG(interned_strings_end); CG(interned_strings_start) = ZCSG(interned_strings_start); CG(interned_strings_end) = ZCSG(interned_strings_end); } # endif orig_new_interned_string = zend_new_interned_string; orig_interned_strings_snapshot = zend_interned_strings_snapshot; orig_interned_strings_restore = zend_interned_strings_restore; zend_new_interned_string = accel_new_interned_string_for_php; zend_interned_strings_snapshot = accel_interned_strings_snapshot_for_php; zend_interned_strings_restore = accel_interned_strings_restore_for_php; # ifndef ZTS if (ZCG(accel_directives).interned_strings_buffer) { accel_use_shm_interned_strings(TSRMLS_C); accel_interned_strings_save_state(TSRMLS_C); } # endif #endif zend_reset_cache_vars(TSRMLS_C); ZCSG(oom_restarts) = 0; ZCSG(hash_restarts) = 0; ZCSG(manual_restarts) = 0; ZCSG(accelerator_enabled) = 1; ZCSG(start_time) = zend_accel_get_time(); ZCSG(last_restart_time) = 0; ZCSG(restart_in_progress) = 0; zend_shared_alloc_unlock(TSRMLS_C); return SUCCESS; } static void accel_globals_ctor(zend_accel_globals *accel_globals TSRMLS_DC) { memset(accel_globals, 0, sizeof(zend_accel_globals)); zend_hash_init(&accel_globals->function_table, zend_hash_num_elements(CG(function_table)), NULL, ZEND_FUNCTION_DTOR, 1); zend_accel_copy_internal_functions(TSRMLS_C); } static void accel_globals_dtor(zend_accel_globals *accel_globals TSRMLS_DC) { accel_globals->function_table.pDestructor = NULL; zend_hash_destroy(&accel_globals->function_table); } static int accel_startup(zend_extension *extension) { zend_function *func; zend_ini_entry *ini_entry; TSRMLS_FETCH(); #ifdef ZTS accel_globals_id = ts_allocate_id(&accel_globals_id, sizeof(zend_accel_globals), (ts_allocate_ctor) accel_globals_ctor, (ts_allocate_dtor) accel_globals_dtor); #else accel_globals_ctor(&accel_globals); #endif #ifdef ZEND_WIN32 _setmaxstdio(2048); /* The default configuration is limited to 512 stdio files */ #endif if (start_accel_module() == FAILURE) { accel_startup_ok = 0; zend_error(E_WARNING, ACCELERATOR_PRODUCT_NAME ": module registration failed!"); return FAILURE; } /* no supported SAPI found - disable acceleration and stop initialization */ if (accel_find_sapi(TSRMLS_C) == FAILURE) { accel_startup_ok = 0; if (!ZCG(accel_directives).enable_cli && strcmp(sapi_module.name, "cli") == 0) { zps_startup_failure("Opcode Caching is disabled for CLI", NULL, accelerator_remove_cb TSRMLS_CC); } else { zps_startup_failure("Opcode Caching is only supported in Apache, ISAPI, FPM, FastCGI and LiteSpeed SAPIs", NULL, accelerator_remove_cb TSRMLS_CC); } return SUCCESS; } if (ZCG(enabled) == 0) { return SUCCESS ; } /********************************************/ /* End of non-SHM dependent initializations */ /********************************************/ switch (zend_shared_alloc_startup(ZCG(accel_directives).memory_consumption)) { case ALLOC_SUCCESS: if (zend_accel_init_shm(TSRMLS_C) == FAILURE) { accel_startup_ok = 0; return FAILURE; } break; case ALLOC_FAILURE: accel_startup_ok = 0; zend_accel_error(ACCEL_LOG_FATAL, "Failure to initialize shared memory structures - probably not enough shared memory."); return SUCCESS; case SUCCESSFULLY_REATTACHED: accel_shared_globals = (zend_accel_shared_globals *) ZSMMG(app_shared_globals); #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO zend_shared_alloc_lock(TSRMLS_C); orig_interned_strings_start = CG(interned_strings_start); orig_interned_strings_end = CG(interned_strings_end); orig_new_interned_string = zend_new_interned_string; orig_interned_strings_snapshot = zend_interned_strings_snapshot; orig_interned_strings_restore = zend_interned_strings_restore; CG(interned_strings_start) = ZCSG(interned_strings_start); CG(interned_strings_end) = ZCSG(interned_strings_end); zend_new_interned_string = accel_new_interned_string_for_php; zend_interned_strings_snapshot = accel_interned_strings_snapshot_for_php; zend_interned_strings_restore = accel_interned_strings_restore_for_php; # ifndef ZTS accel_use_shm_interned_strings(TSRMLS_C); # endif zend_shared_alloc_unlock(TSRMLS_C); #endif break; case FAILED_REATTACHED: accel_startup_ok = 0; zend_accel_error(ACCEL_LOG_FATAL, "Failure to initialize shared memory structures - can not reattach to exiting shared memory."); return SUCCESS; break; } /* from this point further, shared memory is supposed to be OK */ /* Override compiler */ accelerator_orig_compile_file = zend_compile_file; zend_compile_file = persistent_compile_file; /* Override stream opener function (to eliminate open() call caused by * include/require statements ) */ accelerator_orig_zend_stream_open_function = zend_stream_open_function; zend_stream_open_function = persistent_stream_open_function; #if ZEND_EXTENSION_API_NO >= PHP_5_3_X_API_NO /* Override path resolver function (to eliminate stat() calls caused by * include_once/require_once statements */ accelerator_orig_zend_resolve_path = zend_resolve_path; zend_resolve_path = persistent_zend_resolve_path; #endif /* Override chdir() function */ if (zend_hash_find(CG(function_table), "chdir", sizeof("chdir"), (void**)&func) == SUCCESS && func->type == ZEND_INTERNAL_FUNCTION) { orig_chdir = func->internal_function.handler; func->internal_function.handler = ZEND_FN(accel_chdir); } ZCG(cwd) = NULL; /* Override "include_path" modifier callback */ if (zend_hash_find(EG(ini_directives), "include_path", sizeof("include_path"), (void **) &ini_entry) == SUCCESS) { ZCG(include_path) = INI_STR("include_path"); ZCG(include_path_key) = NULL; if (ZCG(include_path) && *ZCG(include_path)) { ZCG(include_path_len) = strlen(ZCG(include_path)); ZCG(include_path_key) = zend_accel_hash_find(&ZCSG(include_paths), ZCG(include_path), ZCG(include_path_len) + 1); if (!ZCG(include_path_key) && !zend_accel_hash_is_full(&ZCSG(include_paths))) { char *key; zend_shared_alloc_lock(TSRMLS_C); key = zend_shared_alloc(ZCG(include_path_len) + 2); if (key) { memcpy(key, ZCG(include_path), ZCG(include_path_len) + 1); key[ZCG(include_path_len) + 1] = 'A' + ZCSG(include_paths).num_entries; ZCG(include_path_key) = key + ZCG(include_path_len) + 1; zend_accel_hash_update(&ZCSG(include_paths), key, ZCG(include_path_len) + 1, 0, ZCG(include_path_key)); } else { zend_accel_schedule_restart_if_necessary(ACCEL_RESTART_OOM TSRMLS_CC); } zend_shared_alloc_unlock(TSRMLS_C); } } else { ZCG(include_path) = ""; ZCG(include_path_len) = 0; } orig_include_path_on_modify = ini_entry->on_modify; ini_entry->on_modify = accel_include_path_on_modify; } zend_shared_alloc_lock(TSRMLS_C); zend_shared_alloc_save_state(); zend_shared_alloc_unlock(TSRMLS_C); SHM_PROTECT(); accel_startup_ok = 1; /* Override file_exists(), is_file() and is_readable() */ zend_accel_override_file_functions(TSRMLS_C); /* Load black list */ accel_blacklist.entries = NULL; if (ZCG(enabled) && accel_startup_ok && ZCG(accel_directives).user_blacklist_filename && *ZCG(accel_directives.user_blacklist_filename)) { zend_accel_blacklist_init(&accel_blacklist); zend_accel_blacklist_load(&accel_blacklist, ZCG(accel_directives.user_blacklist_filename)); } #if 0 /* FIXME: We probably don't need it here */ zend_accel_copy_internal_functions(TSRMLS_C); #endif return SUCCESS; } static void accel_free_ts_resources() { #ifndef ZTS accel_globals_dtor(&accel_globals); #else ts_free_id(accel_globals_id); #endif } void accel_shutdown(TSRMLS_D) { zend_ini_entry *ini_entry; zend_accel_blacklist_shutdown(&accel_blacklist); if (!ZCG(enabled) || !accel_startup_ok) { accel_free_ts_resources(); return; } #if ZEND_EXTENSION_API_NO > PHP_5_3_X_API_NO if (ZCG(accel_directives).interned_strings_buffer) { # ifndef ZTS zend_hash_clean(CG(function_table)); zend_hash_clean(CG(class_table)); zend_hash_clean(EG(zend_constants)); # endif CG(interned_strings_start) = orig_interned_strings_start; CG(interned_strings_end) = orig_interned_strings_end; } zend_new_interned_string = orig_new_interned_string; zend_interned_strings_snapshot = orig_interned_strings_snapshot; zend_interned_strings_restore = orig_interned_strings_restore; #endif accel_free_ts_resources(); zend_shared_alloc_shutdown(); zend_compile_file = accelerator_orig_compile_file; if (zend_hash_find(EG(ini_directives), "include_path", sizeof("include_path"), (void **) &ini_entry) == SUCCESS) { ini_entry->on_modify = orig_include_path_on_modify; } } void zend_accel_schedule_restart(zend_accel_restart_reason reason TSRMLS_DC) { if (ZCSG(restart_pending)) { /* don't schedule twice */ return; } zend_accel_error(ACCEL_LOG_DEBUG, "Restart Scheduled!"); SHM_UNPROTECT(); ZCSG(restart_pending) = 1; ZCSG(restart_reason) = reason; ZCSG(cache_status_before_restart) = ZCSG(accelerator_enabled); ZCSG(accelerator_enabled) = 0; if (ZCG(accel_directives).force_restart_timeout) { ZCSG(force_restart_time) = zend_accel_get_time() + ZCG(accel_directives).force_restart_timeout; } else { ZCSG(force_restart_time) = 0; } SHM_PROTECT(); } /* this is needed because on WIN32 lock is not decreased unless ZCG(counted) is set */ #ifdef ZEND_WIN32 #define accel_deactivate_now() ZCG(counted) = 1; accel_deactivate_sub(TSRMLS_C) #else #define accel_deactivate_now() accel_deactivate_sub(TSRMLS_C) #endif /* ensures it is OK to read SHM if it's not OK (restart in progress) returns FAILURE if OK returns SUCCESS MUST call accelerator_shm_read_unlock after done lock operations */ int accelerator_shm_read_lock(TSRMLS_D) { if (ZCG(counted)) { /* counted means we are holding read lock for SHM, so that nothing bad can happen */ return SUCCESS; } else { /* here accelerator is active but we do not hold SHM lock. This means restart was scheduled or is in progress now */ accel_activate_add(TSRMLS_C); /* acquire usage lock */ /* Now if we weren't inside restart, restart would not begin until we remove usage lock */ if (ZCSG(restart_in_progress)) { /* we already were inside restart this means it's not safe to touch shm */ accel_deactivate_now(); /* drop usage lock */ return FAILURE; } } return SUCCESS; } /* must be called ONLY after SUCCESSFUL accelerator_shm_read_lock */ void accelerator_shm_read_unlock(TSRMLS_D) { if (!ZCG(counted)) { /* counted is 0 - meaning we had to readlock manually, release readlock now */ accel_deactivate_now(); } } ZEND_EXT_API zend_extension zend_extension_entry = { ACCELERATOR_PRODUCT_NAME, /* name */ ACCELERATOR_VERSION, /* version */ "Zend Technologies", /* author */ "http://www.zend.com/", /* URL */ "Copyright (c) 1999-2016", /* copyright */ accel_startup, /* startup */ NULL, /* shutdown */ accel_activate, /* per-script activation */ accel_deactivate, /* per-script deactivation */ NULL, /* message handler */ NULL, /* op_array handler */ NULL, /* extended statement handler */ NULL, /* extended fcall begin handler */ NULL, /* extended fcall end handler */ NULL, /* op_array ctor */ NULL, /* op_array dtor */ STANDARD_ZEND_EXTENSION_PROPERTIES };