/* Copyright (C) 2013-2023 Codership Oy 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 Street, Fifth Floor, Boston, MA 02110-1335 USA. */ #ifndef WSREP_THD_H #define WSREP_THD_H #include #include "mysql/service_wsrep.h" #include "wsrep/client_state.hpp" #include "sql_class.h" #include "wsrep_utils.h" #include class Wsrep_thd_queue { public: Wsrep_thd_queue(THD* t) : thd(t) { mysql_mutex_init(key_LOCK_wsrep_thd_queue, &LOCK_wsrep_thd_queue, MY_MUTEX_INIT_FAST); mysql_cond_init(key_COND_wsrep_thd_queue, &COND_wsrep_thd_queue, NULL); } ~Wsrep_thd_queue() { mysql_mutex_destroy(&LOCK_wsrep_thd_queue); mysql_cond_destroy(&COND_wsrep_thd_queue); } bool push_back(THD* thd) { DBUG_ASSERT(thd); wsp::auto_lock lock(&LOCK_wsrep_thd_queue); std::deque::iterator it = queue.begin(); while (it != queue.end()) { if (*it == thd) { return true; } it++; } queue.push_back(thd); mysql_cond_signal(&COND_wsrep_thd_queue); return false; } THD* pop_front() { wsp::auto_lock lock(&LOCK_wsrep_thd_queue); while (queue.empty()) { if (thd->killed != NOT_KILLED) return NULL; thd->mysys_var->current_mutex= &LOCK_wsrep_thd_queue; thd->mysys_var->current_cond= &COND_wsrep_thd_queue; mysql_cond_wait(&COND_wsrep_thd_queue, &LOCK_wsrep_thd_queue); thd->mysys_var->current_mutex= 0; thd->mysys_var->current_cond= 0; } THD* ret= queue.front(); queue.pop_front(); return ret; } private: THD* thd; std::deque queue; mysql_mutex_t LOCK_wsrep_thd_queue; mysql_cond_t COND_wsrep_thd_queue; }; int wsrep_show_bf_aborts (THD *thd, SHOW_VAR *var, char *buff, enum enum_var_type scope); bool wsrep_create_appliers(long threads, bool mutex_protected=false); void wsrep_create_rollbacker(); bool wsrep_bf_abort(THD* bf_thd, THD* victim_thd); int wsrep_abort_thd(THD *bf_thd, THD *victim_thd, my_bool signal) __attribute__((nonnull(1,2))); /* Helper methods to deal with thread local storage. The purpose of these methods is to hide the details of thread local storage handling when operating with wsrep storage access and streaming applier THDs With one-thread-per-connection thread handling thread specific variables are allocated when the thread is started and deallocated before thread exits (my_thread_init(), my_thread_end()). However, with pool-of-threads thread handling new thread specific variables are allocated for each THD separately (see threadpool_add_connection()), and the variables in thread local storage are assigned from currently active thread (see thread_attach()). This must be taken into account when storing/resetting thread local storage and when creating streaming applier THDs. */ /** Create new variables for thread local storage. With one-thread-per-connection thread handling this is a no op, with pool-of-threads new variables are created via my_thread_init(). It is assumed that the caller has called wsrep_reset_threadvars() to clear the thread local storage before this call. @return Zero in case of success, non-zero otherwise. */ int wsrep_create_threadvars(); /** Delete variables which were created by wsrep_create_threadvars(). The caller must store variables into thread local storage before this call via wsrep_store_threadvars(). */ void wsrep_delete_threadvars(); /** Assign variables from current thread local storage into THD. This should be called for THDs whose lifetime is limited to single thread execution or which may share the operation context with some parent THD (e.g. storage access) and thus don't require separately allocated globals. With one-thread-per-connection thread handling this is a no-op, with pool-of-threads the variables which are currently stored into thread local storage are assigned to THD. */ void wsrep_assign_from_threadvars(THD *); /** Helper struct to save variables from thread local storage. */ struct Wsrep_threadvars { THD* cur_thd; st_my_thread_var* mysys_var; }; /** Save variables from thread local storage into Wsrep_threadvars struct. */ Wsrep_threadvars wsrep_save_threadvars(); /** Restore variables into thread local storage from Wsrep_threadvars struct. */ void wsrep_restore_threadvars(const Wsrep_threadvars&); /** Store variables into thread local storage. */ void wsrep_store_threadvars(THD *); /** Reset thread local storage. */ void wsrep_reset_threadvars(THD *); /** Helper functions to override error status In many contexts it is desirable to mask the original error status set for THD or it is necessary to change OK status to error. This function implements the common logic for the most of the cases. Rules: * If the diagnostics are has OK or EOF status, override it unconditionally * If the error is either ER_ERROR_DURING_COMMIT or ER_LOCK_DEADLOCK it is usually the correct error status to be returned to client, so don't override those by default */ static inline void wsrep_override_error(THD *thd, uint error, const char *format= 0, ...) { Diagnostics_area *da= thd->get_stmt_da(); if (da->is_ok() || da->is_eof() || !da->is_set() || (da->is_error() && da->sql_errno() != error && da->sql_errno() != ER_ERROR_DURING_COMMIT && da->sql_errno() != ER_LOCK_DEADLOCK)) { da->reset_diagnostics_area(); va_list args; va_start(args, format); if (!format) format= ER_THD(thd, error); my_printv_error(error, format, MYF(0), args); va_end(args); } } static inline void wsrep_override_error(THD* thd, wsrep::client_error ce, enum wsrep::provider::status status) { DBUG_ASSERT(ce != wsrep::e_success); switch (ce) { case wsrep::e_error_during_commit: if (status == wsrep::provider::error_size_exceeded) wsrep_override_error(thd, ER_UNKNOWN_ERROR, "Maximum writeset size exceeded"); else wsrep_override_error(thd, ER_ERROR_DURING_COMMIT, 0, status); break; case wsrep::e_deadlock_error: wsrep_override_error(thd, ER_LOCK_DEADLOCK); break; case wsrep::e_interrupted_error: wsrep_override_error(thd, ER_QUERY_INTERRUPTED); break; case wsrep::e_size_exceeded_error: wsrep_override_error(thd, ER_UNKNOWN_ERROR, "Maximum writeset size exceeded"); break; case wsrep::e_append_fragment_error: /* TODO: Figure out better error number */ wsrep_override_error(thd, ER_ERROR_DURING_COMMIT, 0, status); break; case wsrep::e_not_supported_error: wsrep_override_error(thd, ER_NOT_SUPPORTED_YET); break; case wsrep::e_timeout_error: wsrep_override_error(thd, ER_LOCK_WAIT_TIMEOUT); break; default: wsrep_override_error(thd, ER_UNKNOWN_ERROR); break; } } /** Helper function to log THD wsrep context. @param thd Pointer to THD @param message Optional message @param function Function where the call was made from */ static inline void wsrep_log_thd(const THD *thd, const char *message, const char *function) { WSREP_DEBUG("%s %s\n" " thd: %llu thd_ptr: %p client_mode: %s client_state: %s trx_state: %s\n" " next_trx_id: %lld trx_id: %lld seqno: %lld\n" " is_streaming: %d fragments: %zu\n" " sql_errno: %u message: %s\n" #define WSREP_THD_LOG_QUERIES #ifdef WSREP_THD_LOG_QUERIES " command: %d query: %.72s" #endif /* WSREP_OBSERVER_LOG_QUERIES */ , function, message ? message : "", thd->thread_id, thd, wsrep_thd_client_mode_str(thd), wsrep_thd_client_state_str(thd), wsrep_thd_transaction_state_str(thd), (long long)thd->wsrep_next_trx_id(), (long long)thd->wsrep_trx_id(), (long long)wsrep_thd_trx_seqno(thd), thd->wsrep_trx().is_streaming(), thd->wsrep_sr().fragments().size(), (thd->get_stmt_da()->is_error() ? thd->get_stmt_da()->sql_errno() : 0), (thd->get_stmt_da()->is_error() ? thd->get_stmt_da()->message() : "") #ifdef WSREP_THD_LOG_QUERIES , thd->lex->sql_command, wsrep_thd_query(thd) #endif /* WSREP_OBSERVER_LOG_QUERIES */ ); } #define WSREP_LOG_THD(thd_, message_) wsrep_log_thd(thd_, message_, __FUNCTION__) #endif /* WSREP_THD_H */