/** * threads.c: set of generic threading related routines * * See Copyright for the status of this software. * * Gary Pennington * daniel@veillard.com */ #define IN_LIBXML #include "libxml.h" #include #include #include #include #ifdef LIBXML_CATALOG_ENABLED #include #endif #ifdef LIBXML_SCHEMAS_ENABLED #include #include #endif #if defined(SOLARIS) #include #endif #include "private/dict.h" #include "private/enc.h" #include "private/globals.h" #include "private/io.h" #include "private/memory.h" #include "private/threads.h" #include "private/xpath.h" #if defined(HAVE_POSIX_THREADS) && \ defined(__GLIBC__) && \ __GLIBC__ * 100 + __GLIBC_MINOR__ >= 234 /* * The modern way available since glibc 2.32. * * The check above is for glibc 2.34 which merged the pthread symbols into * libc. Since we still allow linking without pthread symbols (see below), * this only works if pthread symbols are guaranteed to be available. */ #include #define XML_IS_THREADED() (!__libc_single_threaded) #define XML_IS_NEVER_THREADED() 0 #elif defined(HAVE_POSIX_THREADS) && \ defined(__GLIBC__) && \ defined(__GNUC__) /* * The traditional way to check for single-threaded applications with * glibc was to check whether the separate libpthread library is * linked in. This works by not linking libxml2 with libpthread (see * BASE_THREAD_LIBS in configure.ac and Makefile.am) and declaring * pthread functions as weak symbols. * * In glibc 2.34, the pthread symbols were moved from libpthread to libc, * so this doesn't work anymore. * * At some point, this legacy code and the BASE_THREAD_LIBS hack in * configure.ac can probably be removed. */ #pragma weak pthread_mutex_init #pragma weak pthread_mutex_destroy #pragma weak pthread_mutex_lock #pragma weak pthread_mutex_unlock #pragma weak pthread_cond_init #pragma weak pthread_cond_destroy #pragma weak pthread_cond_wait #pragma weak pthread_equal #pragma weak pthread_self #pragma weak pthread_cond_signal #define XML_PTHREAD_WEAK #define XML_IS_THREADED() libxml_is_threaded #define XML_IS_NEVER_THREADED() (!libxml_is_threaded) static int libxml_is_threaded = -1; #else /* other POSIX platforms */ #define XML_IS_THREADED() 1 #define XML_IS_NEVER_THREADED() 0 #endif /* * TODO: this module still uses malloc/free and not xmlMalloc/xmlFree * to avoid some craziness since xmlMalloc/xmlFree may actually * be hosted on allocated blocks needing them for the allocation ... */ /* * xmlRMutex are reentrant mutual exception locks */ struct _xmlRMutex { #ifdef HAVE_POSIX_THREADS pthread_mutex_t lock; unsigned int held; unsigned int waiters; pthread_t tid; pthread_cond_t cv; #elif defined HAVE_WIN32_THREADS CRITICAL_SECTION cs; #else int empty; #endif }; static xmlRMutexPtr xmlLibraryLock = NULL; /** * xmlInitMutex: * @mutex: the mutex * * Initialize a mutex. */ void xmlInitMutex(xmlMutexPtr mutex) { #ifdef HAVE_POSIX_THREADS if (XML_IS_NEVER_THREADED() == 0) pthread_mutex_init(&mutex->lock, NULL); #elif defined HAVE_WIN32_THREADS InitializeCriticalSection(&mutex->cs); #else (void) mutex; #endif } /** * xmlNewMutex: * * xmlNewMutex() is used to allocate a libxml2 token struct for use in * synchronizing access to data. * * Returns a new simple mutex pointer or NULL in case of error */ xmlMutexPtr xmlNewMutex(void) { xmlMutexPtr tok; if ((tok = malloc(sizeof(xmlMutex))) == NULL) return (NULL); xmlInitMutex(tok); return (tok); } /** * xmlCleanupMutex: * @mutex: the simple mutex * * Reclaim resources associated with a mutex. */ void xmlCleanupMutex(xmlMutexPtr mutex) { #ifdef HAVE_POSIX_THREADS if (XML_IS_NEVER_THREADED() == 0) pthread_mutex_destroy(&mutex->lock); #elif defined HAVE_WIN32_THREADS DeleteCriticalSection(&mutex->cs); #else (void) mutex; #endif } /** * xmlFreeMutex: * @tok: the simple mutex * * Free a mutex. */ void xmlFreeMutex(xmlMutexPtr tok) { if (tok == NULL) return; xmlCleanupMutex(tok); free(tok); } /** * xmlMutexLock: * @tok: the simple mutex * * xmlMutexLock() is used to lock a libxml2 token. */ void xmlMutexLock(xmlMutexPtr tok) { if (tok == NULL) return; #ifdef HAVE_POSIX_THREADS /* * This assumes that __libc_single_threaded won't change while the * lock is held. */ if (XML_IS_THREADED() != 0) pthread_mutex_lock(&tok->lock); #elif defined HAVE_WIN32_THREADS EnterCriticalSection(&tok->cs); #endif } /** * xmlMutexUnlock: * @tok: the simple mutex * * xmlMutexUnlock() is used to unlock a libxml2 token. */ void xmlMutexUnlock(xmlMutexPtr tok) { if (tok == NULL) return; #ifdef HAVE_POSIX_THREADS if (XML_IS_THREADED() != 0) pthread_mutex_unlock(&tok->lock); #elif defined HAVE_WIN32_THREADS LeaveCriticalSection(&tok->cs); #endif } /** * xmlNewRMutex: * * xmlRNewMutex() is used to allocate a reentrant mutex for use in * synchronizing access to data. token_r is a re-entrant lock and thus useful * for synchronizing access to data structures that may be manipulated in a * recursive fashion. * * Returns the new reentrant mutex pointer or NULL in case of error */ xmlRMutexPtr xmlNewRMutex(void) { xmlRMutexPtr tok; if ((tok = malloc(sizeof(xmlRMutex))) == NULL) return (NULL); #ifdef HAVE_POSIX_THREADS if (XML_IS_NEVER_THREADED() == 0) { pthread_mutex_init(&tok->lock, NULL); tok->held = 0; tok->waiters = 0; pthread_cond_init(&tok->cv, NULL); } #elif defined HAVE_WIN32_THREADS InitializeCriticalSection(&tok->cs); #endif return (tok); } /** * xmlFreeRMutex: * @tok: the reentrant mutex * * xmlRFreeMutex() is used to reclaim resources associated with a * reentrant mutex. */ void xmlFreeRMutex(xmlRMutexPtr tok ATTRIBUTE_UNUSED) { if (tok == NULL) return; #ifdef HAVE_POSIX_THREADS if (XML_IS_NEVER_THREADED() == 0) { pthread_mutex_destroy(&tok->lock); pthread_cond_destroy(&tok->cv); } #elif defined HAVE_WIN32_THREADS DeleteCriticalSection(&tok->cs); #endif free(tok); } /** * xmlRMutexLock: * @tok: the reentrant mutex * * xmlRMutexLock() is used to lock a libxml2 token_r. */ void xmlRMutexLock(xmlRMutexPtr tok) { if (tok == NULL) return; #ifdef HAVE_POSIX_THREADS if (XML_IS_THREADED() == 0) return; pthread_mutex_lock(&tok->lock); if (tok->held) { if (pthread_equal(tok->tid, pthread_self())) { tok->held++; pthread_mutex_unlock(&tok->lock); return; } else { tok->waiters++; while (tok->held) pthread_cond_wait(&tok->cv, &tok->lock); tok->waiters--; } } tok->tid = pthread_self(); tok->held = 1; pthread_mutex_unlock(&tok->lock); #elif defined HAVE_WIN32_THREADS EnterCriticalSection(&tok->cs); #endif } /** * xmlRMutexUnlock: * @tok: the reentrant mutex * * xmlRMutexUnlock() is used to unlock a libxml2 token_r. */ void xmlRMutexUnlock(xmlRMutexPtr tok ATTRIBUTE_UNUSED) { if (tok == NULL) return; #ifdef HAVE_POSIX_THREADS if (XML_IS_THREADED() == 0) return; pthread_mutex_lock(&tok->lock); tok->held--; if (tok->held == 0) { if (tok->waiters) pthread_cond_signal(&tok->cv); memset(&tok->tid, 0, sizeof(tok->tid)); } pthread_mutex_unlock(&tok->lock); #elif defined HAVE_WIN32_THREADS LeaveCriticalSection(&tok->cs); #endif } /************************************************************************ * * * Library wide thread interfaces * * * ************************************************************************/ /** * xmlGetThreadId: * * DEPRECATED: Internal function, do not use. * * xmlGetThreadId() find the current thread ID number * Note that this is likely to be broken on some platforms using pthreads * as the specification doesn't mandate pthread_t to be an integer type * * Returns the current thread ID number */ int xmlGetThreadId(void) { #ifdef HAVE_POSIX_THREADS pthread_t id; int ret; if (XML_IS_THREADED() == 0) return (0); id = pthread_self(); /* horrible but preserves compat, see warning above */ memcpy(&ret, &id, sizeof(ret)); return (ret); #elif defined HAVE_WIN32_THREADS return GetCurrentThreadId(); #else return ((int) 0); #endif } /** * xmlLockLibrary: * * xmlLockLibrary() is used to take out a re-entrant lock on the libxml2 * library. */ void xmlLockLibrary(void) { xmlRMutexLock(xmlLibraryLock); } /** * xmlUnlockLibrary: * * xmlUnlockLibrary() is used to release a re-entrant lock on the libxml2 * library. */ void xmlUnlockLibrary(void) { xmlRMutexUnlock(xmlLibraryLock); } /** * xmlInitThreads: * * DEPRECATED: Alias for xmlInitParser. */ void xmlInitThreads(void) { xmlInitParser(); } /** * xmlCleanupThreads: * * DEPRECATED: This function is a no-op. Call xmlCleanupParser * to free global state but see the warnings there. xmlCleanupParser * should be only called once at program exit. In most cases, you don't * have call cleanup functions at all. */ void xmlCleanupThreads(void) { } /************************************************************************ * * * Library wide initialization * * * ************************************************************************/ static int xmlParserInitialized = 0; static int xmlParserInnerInitialized = 0; #ifdef HAVE_POSIX_THREADS static pthread_mutex_t global_init_lock = PTHREAD_MUTEX_INITIALIZER; #elif defined HAVE_WIN32_THREADS static volatile LPCRITICAL_SECTION global_init_lock = NULL; #endif /** * xmlGlobalInitMutexLock * * Makes sure that the global initialization mutex is initialized and * locks it. */ static void xmlGlobalInitMutexLock(void) { #ifdef HAVE_POSIX_THREADS #ifdef XML_PTHREAD_WEAK /* * This is somewhat unreliable since libpthread could be loaded * later with dlopen() and threads could be created. But it's * long-standing behavior and hard to work around. */ if (libxml_is_threaded == -1) libxml_is_threaded = (pthread_mutex_init != NULL) && (pthread_mutex_destroy != NULL) && (pthread_mutex_lock != NULL) && (pthread_mutex_unlock != NULL) && (pthread_cond_init != NULL) && (pthread_cond_destroy != NULL) && (pthread_cond_wait != NULL) && /* * pthread_equal can be inline, resuting in -Waddress warnings. * Let's assume it's available if all the other functions are. */ /* (pthread_equal != NULL) && */ (pthread_self != NULL) && (pthread_cond_signal != NULL); #endif /* The mutex is statically initialized, so we just lock it. */ if (XML_IS_THREADED() != 0) pthread_mutex_lock(&global_init_lock); #elif defined HAVE_WIN32_THREADS LPCRITICAL_SECTION cs; /* Create a new critical section */ if (global_init_lock == NULL) { cs = malloc(sizeof(CRITICAL_SECTION)); if (cs == NULL) { fprintf(stderr, "libxml2: xmlInitParser: out of memory\n"); abort(); } InitializeCriticalSection(cs); /* Swap it into the global_init_lock */ #ifdef InterlockedCompareExchangePointer InterlockedCompareExchangePointer((void **) &global_init_lock, cs, NULL); #else /* Use older void* version */ InterlockedCompareExchange((void **) &global_init_lock, (void *) cs, NULL); #endif /* InterlockedCompareExchangePointer */ /* If another thread successfully recorded its critical * section in the global_init_lock then discard the one * allocated by this thread. */ if (global_init_lock != cs) { DeleteCriticalSection(cs); free(cs); } } /* Lock the chosen critical section */ EnterCriticalSection(global_init_lock); #endif } static void xmlGlobalInitMutexUnlock(void) { #ifdef HAVE_POSIX_THREADS if (XML_IS_THREADED() != 0) pthread_mutex_unlock(&global_init_lock); #elif defined HAVE_WIN32_THREADS if (global_init_lock != NULL) LeaveCriticalSection(global_init_lock); #endif } /** * xmlGlobalInitMutexDestroy * * Makes sure that the global initialization mutex is destroyed before * application termination. */ static void xmlGlobalInitMutexDestroy(void) { #ifdef HAVE_POSIX_THREADS #elif defined HAVE_WIN32_THREADS if (global_init_lock != NULL) { DeleteCriticalSection(global_init_lock); free(global_init_lock); global_init_lock = NULL; } #endif } /** * xmlInitParser: * * Initialization function for the XML parser. * * Call once from the main thread before using the library in * multithreaded programs. */ void xmlInitParser(void) { /* * Note that the initialization code must not make memory allocations. */ if (xmlParserInitialized != 0) return; xmlGlobalInitMutexLock(); if (xmlParserInnerInitialized == 0) { #if defined(_WIN32) && \ !defined(LIBXML_THREAD_ALLOC_ENABLED) && \ (!defined(LIBXML_STATIC) || defined(LIBXML_STATIC_FOR_DLL)) if (xmlFree == free) atexit(xmlCleanupParser); #endif xmlInitRandom(); /* Required by xmlInitGlobalsInternal */ xmlInitMemoryInternal(); xmlInitGlobalsInternal(); xmlInitDictInternal(); xmlInitEncodingInternal(); #if defined(LIBXML_XPATH_ENABLED) || defined(LIBXML_SCHEMAS_ENABLED) xmlInitXPathInternal(); #endif xmlInitIOCallbacks(); xmlParserInnerInitialized = 1; } xmlGlobalInitMutexUnlock(); xmlParserInitialized = 1; } /** * xmlCleanupParser: * * This function name is somewhat misleading. It does not clean up * parser state, it cleans up memory allocated by the library itself. * It is a cleanup function for the XML library. It tries to reclaim all * related global memory allocated for the library processing. * It doesn't deallocate any document related memory. One should * call xmlCleanupParser() only when the process has finished using * the library and all XML/HTML documents built with it. * See also xmlInitParser() which has the opposite function of preparing * the library for operations. * * WARNING: if your application is multithreaded or has plugin support * calling this may crash the application if another thread or * a plugin is still using libxml2. It's sometimes very hard to * guess if libxml2 is in use in the application, some libraries * or plugins may use it without notice. In case of doubt abstain * from calling this function or do it just before calling exit() * to avoid leak reports from valgrind ! */ void xmlCleanupParser(void) { if (!xmlParserInitialized) return; /* These functions can call xmlFree. */ xmlCleanupCharEncodingHandlers(); #ifdef LIBXML_CATALOG_ENABLED xmlCatalogCleanup(); #endif #ifdef LIBXML_SCHEMAS_ENABLED xmlSchemaCleanupTypes(); xmlRelaxNGCleanupTypes(); #endif /* These functions should never call xmlFree. */ xmlCleanupDictInternal(); xmlCleanupRandom(); xmlCleanupGlobalsInternal(); /* * Must come last. On Windows, xmlCleanupGlobalsInternal can call * xmlFree which uses xmlMemMutex in debug mode. */ xmlCleanupMemoryInternal(); xmlGlobalInitMutexDestroy(); xmlParserInitialized = 0; xmlParserInnerInitialized = 0; } #if defined(HAVE_ATTRIBUTE_DESTRUCTOR) && \ !defined(LIBXML_THREAD_ALLOC_ENABLED) && \ !defined(LIBXML_STATIC) && \ !defined(_WIN32) static void ATTRIBUTE_DESTRUCTOR xmlDestructor(void) { /* * Calling custom deallocation functions in a destructor can cause * problems, for example with Nokogiri. */ if (xmlFree == free) xmlCleanupParser(); } #endif