/* Copyright (c) 2000, 2011 Oracle and/or its affiliates. Copyright 2008, 2021, MariaDB Corporation. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /* Functions to handle initializating and allocationg of all mysys & debug thread variables. */ #include "mysys_priv.h" #include #include pthread_key(struct st_my_thread_var*, THR_KEY_mysys); mysql_mutex_t THR_LOCK_malloc, THR_LOCK_open, THR_LOCK_lock, THR_LOCK_myisam, THR_LOCK_heap, THR_LOCK_net, THR_LOCK_charset, THR_LOCK_threads, THR_LOCK_myisam_mmap; mysql_cond_t THR_COND_threads; uint THR_thread_count= 0; uint my_thread_end_wait_time= 5; #if !defined(HAVE_LOCALTIME_R) || !defined(HAVE_GMTIME_R) mysql_mutex_t LOCK_localtime_r; #endif #ifdef _MSC_VER static void install_sigabrt_handler(); #endif /** True if @c my_thread_global_init() has been called. */ static my_bool my_thread_global_init_done= 0; /* True if THR_KEY_mysys is created */ my_bool my_thr_key_mysys_exists= 0; /* These are mutexes not used by safe_mutex or my_thr_init.c We want to free these earlier than other mutex so that safe_mutex can detect if all mutex and memory is freed properly. */ static void my_thread_init_common_mutex(void) { mysql_mutex_init(key_THR_LOCK_open, &THR_LOCK_open, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_lock, &THR_LOCK_lock, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_myisam, &THR_LOCK_myisam, MY_MUTEX_INIT_SLOW); mysql_mutex_init(key_THR_LOCK_myisam_mmap, &THR_LOCK_myisam_mmap, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_heap, &THR_LOCK_heap, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_net, &THR_LOCK_net, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_charset, &THR_LOCK_charset, MY_MUTEX_INIT_FAST); #if !defined(HAVE_LOCALTIME_R) || !defined(HAVE_GMTIME_R) mysql_mutex_init(key_LOCK_localtime_r, &LOCK_localtime_r, MY_MUTEX_INIT_SLOW); #endif } void my_thread_destroy_common_mutex(void) { mysql_mutex_destroy(&THR_LOCK_open); mysql_mutex_destroy(&THR_LOCK_lock); mysql_mutex_destroy(&THR_LOCK_myisam); mysql_mutex_destroy(&THR_LOCK_myisam_mmap); mysql_mutex_destroy(&THR_LOCK_heap); mysql_mutex_destroy(&THR_LOCK_net); mysql_mutex_destroy(&THR_LOCK_charset); #if !defined(HAVE_LOCALTIME_R) || !defined(HAVE_GMTIME_R) mysql_mutex_destroy(&LOCK_localtime_r); #endif } /* These mutexes are used by my_thread_init() and after my_thread_destroy_mutex() */ static void my_thread_init_internal_mutex(void) { mysql_mutex_init(key_THR_LOCK_threads, &THR_LOCK_threads, MY_MUTEX_INIT_FAST); mysql_mutex_init(key_THR_LOCK_malloc, &THR_LOCK_malloc, MY_MUTEX_INIT_FAST); mysql_cond_init(key_THR_COND_threads, &THR_COND_threads, NULL); } void my_thread_destroy_internal_mutex(void) { mysql_mutex_destroy(&THR_LOCK_threads); mysql_mutex_destroy(&THR_LOCK_malloc); mysql_cond_destroy(&THR_COND_threads); } static void my_thread_init_thr_mutex(struct st_my_thread_var *var) { mysql_mutex_init(key_my_thread_var_mutex, &var->mutex, MY_MUTEX_INIT_FAST); mysql_cond_init(key_my_thread_var_suspend, &var->suspend, NULL); } static void my_thread_destory_thr_mutex(struct st_my_thread_var *var) { mysql_mutex_destroy(&var->mutex); mysql_cond_destroy(&var->suspend); } /** Re-initialize components initialized early with @c my_thread_global_init. Some mutexes were initialized before the instrumentation. Destroy + create them again, now that the instrumentation is in place. This is safe, since this function() is called before creating new threads, so the mutexes are not in use. */ void my_thread_global_reinit(void) { struct st_my_thread_var *tmp; DBUG_ASSERT(my_thread_global_init_done); #ifdef HAVE_PSI_INTERFACE my_init_mysys_psi_keys(); #endif my_thread_destroy_common_mutex(); my_thread_init_common_mutex(); my_thread_destroy_internal_mutex(); my_thread_init_internal_mutex(); tmp= my_thread_var; DBUG_ASSERT(tmp); my_thread_destory_thr_mutex(tmp); my_thread_init_thr_mutex(tmp); } /* initialize thread environment SYNOPSIS my_thread_global_init() RETURN 0 ok 1 error (Couldn't create THR_KEY_mysys) */ my_bool my_thread_global_init(void) { int pth_ret; /* Normally this should never be called twice */ DBUG_ASSERT(my_thread_global_init_done == 0); if (my_thread_global_init_done) return 0; my_thread_global_init_done= 1; /* THR_KEY_mysys is deleted in my_end() as DBUG libraries are using it even after my_thread_global_end() is called. my_thr_key_mysys_exist is used to protect against application like QT that calls my_thread_global_init() + my_thread_global_end() multiple times without calling my_init() + my_end(). */ if (!my_thr_key_mysys_exists && (pth_ret= pthread_key_create(&THR_KEY_mysys, NULL)) != 0) { fprintf(stderr, "Can't initialize threads: error %d\n", pth_ret); return 1; } my_thr_key_mysys_exists= 1; /* Mutex used by my_thread_init() and after my_thread_destroy_mutex() */ my_thread_init_internal_mutex(); if (my_thread_init()) return 1; my_thread_init_common_mutex(); return 0; } /** End the mysys thread system. Called when ending the last thread */ void my_thread_global_end(void) { struct timespec abstime; my_bool all_threads_killed= 1; set_timespec(abstime, my_thread_end_wait_time); mysql_mutex_lock(&THR_LOCK_threads); while (THR_thread_count > 0) { int error= mysql_cond_timedwait(&THR_COND_threads, &THR_LOCK_threads, &abstime); if (error == ETIMEDOUT || error == ETIME) { #ifdef HAVE_PTHREAD_KILL /* We shouldn't give an error here, because if we don't have pthread_kill(), programs like mysqld can't ensure that all threads are killed when we enter here. */ if (THR_thread_count) fprintf(stderr, "Error in my_thread_global_end(): %d threads didn't exit\n", THR_thread_count); #endif all_threads_killed= 0; break; } } mysql_mutex_unlock(&THR_LOCK_threads); my_thread_destroy_common_mutex(); /* Only destroy the mutex & conditions if we don't have other threads around that could use them. */ if (all_threads_killed) { my_thread_destroy_internal_mutex(); } my_thread_global_init_done= 0; } static my_thread_id thread_id= 0; /* Allocate thread specific memory for the thread, used by mysys and dbug SYNOPSIS my_thread_init() NOTES We can't use mutex_locks here if we are using windows as we may have compiled the program with SAFE_MUTEX, in which case the checking of mutex_locks will not work until the pthread_self thread specific variable is initialized. This function may called multiple times for a thread, for example if one uses my_init() followed by mysql_server_init(). RETURN 0 ok 1 Fatal error; mysys/dbug functions can't be used */ my_bool my_thread_init(void) { struct st_my_thread_var *tmp; my_bool error=0; if (!my_thread_global_init_done) return 1; /* cannot proceed with uninitialized library */ #ifdef EXTRA_DEBUG_THREADS fprintf(stderr,"my_thread_init(): pthread_self: %p\n", pthread_self()); #endif if (my_thread_var) { #ifdef EXTRA_DEBUG_THREADS fprintf(stderr,"my_thread_init() called more than once in thread 0x%lx\n", (long) pthread_self()); #endif goto end; } #ifdef _MSC_VER install_sigabrt_handler(); #endif if (!(tmp= (struct st_my_thread_var *) calloc(1, sizeof(*tmp)))) { error= 1; goto end; } set_mysys_var(tmp); tmp->pthread_self= pthread_self(); my_thread_init_thr_mutex(tmp); tmp->stack_ends_here= (char*)&tmp + STACK_DIRECTION * (long)my_thread_stack_size; mysql_mutex_lock(&THR_LOCK_threads); tmp->id= tmp->dbug_id= ++thread_id; ++THR_thread_count; mysql_mutex_unlock(&THR_LOCK_threads); tmp->init= 1; #ifndef DBUG_OFF /* Generate unique name for thread */ (void) my_thread_name(); #endif end: return error; } /* Deallocate memory used by the thread for book-keeping SYNOPSIS my_thread_end() NOTE This may be called multiple times for a thread. This happens for example when one calls 'mysql_server_init()' mysql_server_end() and then ends with a mysql_end(). */ void my_thread_end(void) { struct st_my_thread_var *tmp; tmp= my_thread_var; #ifdef EXTRA_DEBUG_THREADS fprintf(stderr,"my_thread_end(): tmp: %p pthread_self: %p thread_id: %ld\n", tmp, pthread_self(), tmp ? (long) tmp->id : 0L); #endif /* Remove the instrumentation for this thread. This must be done before trashing st_my_thread_var, because the LF_HASH depends on it. */ PSI_CALL_delete_current_thread(); /* We need to disable DBUG early for this thread to ensure that the the mutex calls doesn't enable it again To this we have to both do DBUG_POP() and also reset THR_KEY_mysys as the key is used by DBUG. */ DBUG_POP(); set_mysys_var(NULL); if (tmp && tmp->init) { #if !defined(DBUG_OFF) /* tmp->dbug is allocated inside DBUG library */ if (tmp->dbug) { free(tmp->dbug); tmp->dbug=0; } #endif my_thread_destory_thr_mutex(tmp); /* Decrement counter for number of running threads. We are using this in my_thread_global_end() to wait until all threads have called my_thread_end and thus freed all memory they have allocated in my_thread_init() and DBUG_xxxx */ mysql_mutex_lock(&THR_LOCK_threads); DBUG_ASSERT(THR_thread_count != 0); if (--THR_thread_count == 0) mysql_cond_signal(&THR_COND_threads); mysql_mutex_unlock(&THR_LOCK_threads); /* Trash variable so that we can detect false accesses to my_thread_var */ tmp->init= 2; free(tmp); } } struct st_my_thread_var *_my_thread_var(void) { return my_pthread_getspecific(struct st_my_thread_var*,THR_KEY_mysys); } int set_mysys_var(struct st_my_thread_var *mysys_var) { return my_pthread_setspecific_ptr(THR_KEY_mysys, mysys_var); } /**************************************************************************** Get name of current thread. ****************************************************************************/ my_thread_id my_thread_dbug_id() { /* We need to do this test as some system thread may not yet have called my_thread_init(). */ struct st_my_thread_var *tmp= my_thread_var; return tmp ? tmp->dbug_id : 0; } #ifdef DBUG_OFF const char *my_thread_name(void) { return "no_name"; } #else const char *my_thread_name(void) { char name_buff[100]; struct st_my_thread_var *tmp=my_thread_var; if (!tmp->name[0]) { my_thread_id id= my_thread_dbug_id(); sprintf(name_buff,"T@%lu", (ulong) id); strmake_buf(tmp->name, name_buff); } return tmp->name; } /* Return pointer to DBUG for holding current state */ extern void **my_thread_var_dbug() { struct st_my_thread_var *tmp; if (!my_thread_global_init_done) return NULL; tmp= my_thread_var; return tmp && tmp->init ? &tmp->dbug : 0; } #endif /* DBUG_OFF */ /* Return pointer to mutex_in_use */ safe_mutex_t **my_thread_var_mutex_in_use() { struct st_my_thread_var *tmp; if (!my_thread_global_init_done) return NULL; tmp= my_thread_var; return tmp ? &tmp->mutex_in_use : 0; } #ifdef _WIN32 /* In Visual Studio 2005 and later, default SIGABRT handler will overwrite any unhandled exception filter set by the application and will try to call JIT debugger. This is not what we want, this we calling __debugbreak to stop in debugger, if process is being debugged or to generate EXCEPTION_BREAKPOINT and then handle_segfault will do its magic. */ #if (_MSC_VER >= 1400) static void my_sigabrt_handler(int sig) { __debugbreak(); } #endif /*_MSC_VER >=1400 */ static void install_sigabrt_handler(void) { #if (_MSC_VER >=1400) /*abort() should not override our exception filter*/ _set_abort_behavior(0,_CALL_REPORTFAULT); signal(SIGABRT,my_sigabrt_handler); #endif /* _MSC_VER >=1400 */ } #endif #ifdef HAVE_PSI_MUTEX_INTERFACE ATTRIBUTE_COLD int psi_mutex_lock(mysql_mutex_t *that, const char *file, uint line) { PSI_mutex_locker_state state; PSI_mutex_locker *locker= PSI_MUTEX_CALL(start_mutex_wait) (&state, that->m_psi, PSI_MUTEX_LOCK, file, line); # ifdef SAFE_MUTEX int result= safe_mutex_lock(&that->m_mutex, FALSE, file, line); # else int result= pthread_mutex_lock(&that->m_mutex); # endif if (locker) PSI_MUTEX_CALL(end_mutex_wait)(locker, result); return result; } ATTRIBUTE_COLD int psi_mutex_trylock(mysql_mutex_t *that, const char *file, uint line) { PSI_mutex_locker_state state; PSI_mutex_locker *locker= PSI_MUTEX_CALL(start_mutex_wait) (&state, that->m_psi, PSI_MUTEX_TRYLOCK, file, line); # ifdef SAFE_MUTEX int result= safe_mutex_lock(&that->m_mutex, TRUE, file, line); # else int result= pthread_mutex_trylock(&that->m_mutex); # endif if (locker) PSI_MUTEX_CALL(end_mutex_wait)(locker, result); return result; } #endif /* HAVE_PSI_MUTEX_INTERFACE */ #ifdef HAVE_PSI_RWLOCK_INTERFACE ATTRIBUTE_COLD int psi_rwlock_rdlock(mysql_rwlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_rdwait) (&state, that->m_psi, PSI_RWLOCK_READLOCK, file, line); int result= rw_rdlock(&that->m_rwlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_rdwait)(locker, result); return result; } ATTRIBUTE_COLD int psi_rwlock_tryrdlock(mysql_rwlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_rdwait) (&state, that->m_psi, PSI_RWLOCK_TRYREADLOCK, file, line); int result= rw_tryrdlock(&that->m_rwlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_rdwait)(locker, result); return result; } ATTRIBUTE_COLD int psi_rwlock_trywrlock(mysql_rwlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_wrwait) (&state, that->m_psi, PSI_RWLOCK_TRYWRITELOCK, file, line); int result= rw_trywrlock(&that->m_rwlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_wrwait)(locker, result); return result; } ATTRIBUTE_COLD int psi_rwlock_wrlock(mysql_rwlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_wrwait) (&state, that->m_psi, PSI_RWLOCK_WRITELOCK, file, line); int result= rw_wrlock(&that->m_rwlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_wrwait)(locker, result); return result; } # ifndef DISABLE_MYSQL_PRLOCK_H ATTRIBUTE_COLD int psi_prlock_rdlock(mysql_prlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_rdwait) (&state, that->m_psi, PSI_RWLOCK_READLOCK, file, line); int result= rw_pr_rdlock(&that->m_prlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_rdwait)(locker, result); return result; } ATTRIBUTE_COLD int psi_prlock_wrlock(mysql_prlock_t *that, const char *file, uint line) { PSI_rwlock_locker_state state; PSI_rwlock_locker *locker= PSI_RWLOCK_CALL(start_rwlock_wrwait) (&state, that->m_psi, PSI_RWLOCK_WRITELOCK, file, line); int result= rw_pr_wrlock(&that->m_prlock); if (locker) PSI_RWLOCK_CALL(end_rwlock_wrwait)(locker, result); return result; } # endif /* !DISABLE_MYSQL_PRLOCK_H */ #endif /* HAVE_PSI_RWLOCK_INTERFACE */ #ifdef HAVE_PSI_COND_INTERFACE ATTRIBUTE_COLD int psi_cond_wait(mysql_cond_t *that, mysql_mutex_t *mutex, const char *file, uint line) { PSI_cond_locker_state state; PSI_cond_locker *locker= PSI_COND_CALL(start_cond_wait) (&state, that->m_psi, mutex->m_psi, PSI_COND_WAIT, file, line); int result= my_cond_wait(&that->m_cond, &mutex->m_mutex); if (locker) PSI_COND_CALL(end_cond_wait)(locker, result); return result; } ATTRIBUTE_COLD int psi_cond_timedwait(mysql_cond_t *that, mysql_mutex_t *mutex, const struct timespec *abstime, const char *file, uint line) { PSI_cond_locker_state state; PSI_cond_locker *locker= PSI_COND_CALL(start_cond_wait) (&state, that->m_psi, mutex->m_psi, PSI_COND_TIMEDWAIT, file, line); int result= my_cond_timedwait(&that->m_cond, &mutex->m_mutex, abstime); if (psi_likely(locker)) PSI_COND_CALL(end_cond_wait)(locker, result); return result; } #endif /* HAVE_PSI_COND_INTERFACE */