/* Copyright (c) 2000, 2024, Oracle and/or its affiliates. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License, version 2.0, as published by the Free Software Foundation. This program is designed to work with certain software (including but not limited to OpenSSL) that is licensed under separate terms, as designated in a particular file or component or in included license documentation. The authors of MySQL hereby grant you an additional permission to link the program and your derivative works with the separately licensed software that they have either included with the program or referenced in the documentation. 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, version 2.0, 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 02110-1301 USA */ #include "sql/transaction.h" #include #include "lex_string.h" #include "my_compiler.h" #include "my_dbug.h" #include "my_inttypes.h" #include "my_psi_config.h" #include "my_sys.h" #include "mysql/components/services/log_builtins.h" #include "mysql/my_loglevel.h" #include "mysql/psi/mysql_transaction.h" #include "mysql/strings/m_ctype.h" #include "mysql_com.h" #include "mysqld_error.h" #include "sql/auth/auth_common.h" #include "sql/dd/cache/dictionary_client.h" #include "sql/debug_sync.h" // DEBUG_SYNC #include "sql/handler.h" #include "sql/log.h" #include "sql/mdl.h" #include "sql/mysqld.h" // opt_readonly #include "sql/query_options.h" #include "sql/rpl_context.h" #include "sql/rpl_gtid.h" #include "sql/rpl_rli.h" #include "sql/rpl_transaction_write_set_ctx.h" #include "sql/session_tracker.h" #include "sql/sql_class.h" // THD #include "sql/sql_lex.h" #include "sql/system_variables.h" #include "sql/tc_log.h" #include "sql/transaction_info.h" #include "sql/xa.h" /** Helper: Tell tracker (if any) that transaction ended. */ void trans_track_end_trx(THD *thd) { TX_TRACKER_GET(tst); tst->end_trx(thd); } /** Helper: transaction ended, SET TRANSACTION one-shot variables revert to session values. Let the transaction state tracker know. */ void trans_reset_one_shot_chistics(THD *thd) { if (thd->variables.session_track_transaction_info > TX_TRACK_NONE) { TX_TRACKER_GET(tst); tst->set_read_flags(thd, TX_READ_INHERIT); tst->set_isol_level(thd, TX_ISOL_INHERIT); } thd->tx_isolation = (enum_tx_isolation)thd->variables.transaction_isolation; thd->tx_read_only = thd->variables.transaction_read_only; } /** Check if we have a condition where the transaction state must not be changed (committed or rolled back). Currently we check that we are not executing a stored program and that we don't have an active XA transaction. @return true if the commit/rollback cannot be executed, false otherwise. */ bool trans_check_state(THD *thd) { DBUG_TRACE; /* Always commit statement transaction before manipulating with the normal one. */ assert(thd->get_transaction()->is_empty(Transaction_ctx::STMT)); if (unlikely(thd->in_sub_stmt)) { my_error(ER_COMMIT_NOT_ALLOWED_IN_SF_OR_TRG, MYF(0)); return true; } if (thd->get_transaction()->xid_state()->check_in_xa(true)) return true; return false; } /** Begin a new transaction. @note Beginning a transaction implicitly commits any current transaction and releases existing locks. @param thd Current thread @param flags Transaction flags @retval false Success @retval true Failure */ bool trans_begin(THD *thd, uint flags) { bool res = false; DBUG_TRACE; if (trans_check_state(thd)) return true; TX_TRACKER_GET(tst); thd->locked_tables_list.unlock_locked_tables(thd); assert(!thd->locked_tables_mode); if (thd->in_multi_stmt_transaction_mode() || (thd->variables.option_bits & OPTION_TABLE_LOCK)) { thd->variables.option_bits &= ~OPTION_TABLE_LOCK; thd->server_status &= ~(SERVER_STATUS_IN_TRANS | SERVER_STATUS_IN_TRANS_READONLY); DBUG_PRINT("info", ("clearing SERVER_STATUS_IN_TRANS")); res = ha_commit_trans(thd, true); } thd->variables.option_bits &= ~OPTION_BEGIN; thd->get_transaction()->reset_unsafe_rollback_flags(Transaction_ctx::SESSION); if (res) return true; /* Release transactional metadata locks only after the transaction has been committed. */ thd->mdl_context.release_transactional_locks(); // The RO/RW options are mutually exclusive. assert(!((flags & MYSQL_START_TRANS_OPT_READ_ONLY) && (flags & MYSQL_START_TRANS_OPT_READ_WRITE))); if (flags & MYSQL_START_TRANS_OPT_READ_ONLY) { thd->tx_read_only = true; if (tst) tst->set_read_flags(thd, TX_READ_ONLY); } else if (flags & MYSQL_START_TRANS_OPT_READ_WRITE) { /* Explicitly starting a RW transaction when the server is in read-only mode, is not allowed unless the user has SUPER priv. Implicitly starting a RW transaction is allowed for backward compatibility. */ if (check_readonly(thd, true)) return true; thd->tx_read_only = false; /* This flags that tx_read_only was set explicitly, rather than just from the session's default. */ if (tst) tst->set_read_flags(thd, TX_READ_WRITE); } DBUG_EXECUTE_IF("dbug_set_high_prio_trx", { assert(thd->tx_priority == 0); thd->tx_priority = 1; }); thd->variables.option_bits |= OPTION_BEGIN; thd->server_status |= SERVER_STATUS_IN_TRANS; if (thd->tx_read_only) thd->server_status |= SERVER_STATUS_IN_TRANS_READONLY; DBUG_PRINT("info", ("setting SERVER_STATUS_IN_TRANS")); if (tst) tst->add_trx_state(thd, TX_EXPLICIT); /* ha_start_consistent_snapshot() relies on OPTION_BEGIN flag set. */ if (flags & MYSQL_START_TRANS_OPT_WITH_CONS_SNAPSHOT) { if (tst) tst->add_trx_state(thd, TX_WITH_SNAPSHOT); res = ha_start_consistent_snapshot(thd); } /* Register transaction start in performance schema if not done already. We handle explicitly started transactions here, implicitly started transactions (and single-statement transactions in autocommit=1 mode) are handled in trans_register_ha(). We can't handle explicit transactions in the same way as implicit because we want to correctly attribute statements which follow BEGIN but do not touch any transactional tables. */ #ifdef HAVE_PSI_TRANSACTION_INTERFACE if (thd->m_transaction_psi == nullptr) { thd->m_transaction_psi = MYSQL_START_TRANSACTION(&thd->m_transaction_state, nullptr, nullptr, thd->tx_isolation, thd->tx_read_only, false); DEBUG_SYNC(thd, "after_set_transaction_psi_before_set_transaction_gtid"); gtid_set_performance_schema_values(thd); } #endif return res; } /** Commit the current transaction, making its changes permanent. @param[in] thd Current thread @param[in] ignore_global_read_lock Allow commit to complete even if a global read lock is active. This can be used to allow changes to internal tables (e.g. slave status tables, analyze table). @retval false Success @retval true Failure */ bool trans_commit(THD *thd, bool ignore_global_read_lock) { int res; DBUG_TRACE; DBUG_EXECUTE_IF( "crash_on_transactional_ddl_commit", if (thd->m_transactional_ddl.inited() && thd->lex->sql_command == SQLCOM_COMMIT) { DBUG_SUICIDE(); }); if (trans_check_state(thd)) return true; thd->server_status &= ~(SERVER_STATUS_IN_TRANS | SERVER_STATUS_IN_TRANS_READONLY); DBUG_PRINT("info", ("clearing SERVER_STATUS_IN_TRANS")); res = ha_commit_trans(thd, true, ignore_global_read_lock); if (res == false) if (thd->rpl_thd_ctx.session_gtids_ctx().notify_after_transaction_commit( thd)) LogErr(WARNING_LEVEL, ER_TRX_GTID_COLLECT_REJECT); /* When gtid mode is enabled, a transaction may cause binlog rotation, which inserts a record into the gtid system table (which is probably a transactional table). Thence, the flag SERVER_STATUS_IN_TRANS may be set again while calling ha_commit_trans(...) Consequently, we need to reset it back, much like we are doing before calling ha_commit_trans(...). We would really only need to do this when gtid_mode=on. However, checking gtid_mode requires holding a lock, which is costly. So we clear the bit unconditionally. This has no side effects since if gtid_mode=off the bit is already cleared. */ thd->server_status &= ~SERVER_STATUS_IN_TRANS; thd->variables.option_bits &= ~OPTION_BEGIN; thd->get_transaction()->reset_unsafe_rollback_flags(Transaction_ctx::SESSION); thd->lex->start_transaction_opt = 0; /* The transaction should be marked as complete in P_S. */ assert(thd->m_transaction_psi == nullptr); thd->tx_priority = 0; trans_track_end_trx(thd); /* Avoid updating modified uncommitted objects when committing attachable read-write transaction. This is required to allow I_S queries to update table statistics during CREATE TABLE ... SELECT, otherwise the uncommitted object added by DDL would be removed by I_S query. */ if (!thd->is_attachable_rw_transaction_active()) { /* If the SE failed to commit the transaction, we must rollback the modified dictionary objects to make sure the DD cache, the DD tables and the state in the SE stay in sync. */ if (res) thd->dd_client()->rollback_modified_objects(); else thd->dd_client()->commit_modified_objects(); } thd->locked_tables_list.adjust_renamed_tablespace_mdls(&thd->mdl_context); thd->m_transactional_ddl.post_ddl(); return res; } /** Implicitly commit the current transaction. @note A implicit commit does not releases existing table locks. @param[in] thd Current thread @param[in] ignore_global_read_lock Allow commit to complete even if a global read lock is active. This can be used to allow changes to internal tables (e.g. slave status tables, analyze table). @retval false Success @retval true Failure */ bool trans_commit_implicit(THD *thd, bool ignore_global_read_lock) { bool res = false; DBUG_TRACE; /* Ensure that trans_check_state() was called before trans_commit_implicit() by asserting that conditions that are checked in the former function are true. */ assert(thd->get_transaction()->is_empty(Transaction_ctx::STMT) && !thd->in_sub_stmt && !thd->get_transaction()->xid_state()->check_in_xa(false)); if (thd->in_multi_stmt_transaction_mode() || (thd->variables.option_bits & OPTION_TABLE_LOCK)) { /* Safety if one did "drop table" on locked tables */ if (!thd->locked_tables_mode) thd->variables.option_bits &= ~OPTION_TABLE_LOCK; thd->server_status &= ~(SERVER_STATUS_IN_TRANS | SERVER_STATUS_IN_TRANS_READONLY); DBUG_PRINT("info", ("clearing SERVER_STATUS_IN_TRANS")); res = ha_commit_trans(thd, true, ignore_global_read_lock); } else if (tc_log) res = tc_log->commit(thd, true); if (res == false) if (thd->rpl_thd_ctx.session_gtids_ctx().notify_after_transaction_commit( thd)) LogErr(WARNING_LEVEL, ER_TRX_GTID_COLLECT_REJECT); thd->variables.option_bits &= ~OPTION_BEGIN; thd->get_transaction()->reset_unsafe_rollback_flags(Transaction_ctx::SESSION); /* The transaction should be marked as complete in P_S. */ assert(thd->m_transaction_psi == nullptr); /* Upon implicit commit, reset the current transaction isolation level and access mode. We do not care about @@session.completion_type since it's documented to not have any effect on implicit commit. */ trans_reset_one_shot_chistics(thd); trans_track_end_trx(thd); /* Avoid updating modified uncommitted objects when committing attachable read-write transaction. This is required to allow I_S queries to update table statistics during CREATE TABLE ... SELECT, otherwise the uncommitted object added by DDL would be removed by I_S query. */ if (!thd->is_attachable_rw_transaction_active()) { /* If the SE failed to commit the transaction, we must rollback the modified dictionary objects to make sure the DD cache, the DD tables and the state in the SE stay in sync. */ if (res) thd->dd_client()->rollback_modified_objects(); else thd->dd_client()->commit_modified_objects(); } thd->locked_tables_list.adjust_renamed_tablespace_mdls(&thd->mdl_context); return res; } /** Rollback the current transaction, canceling its changes. @param thd Current thread @retval false Success @retval true Failure */ bool trans_rollback(THD *thd) { int res; DBUG_TRACE; if (trans_check_state(thd)) return true; thd->m_transactional_ddl.rollback(); thd->server_status &= ~(SERVER_STATUS_IN_TRANS | SERVER_STATUS_IN_TRANS_READONLY); DBUG_PRINT("info", ("clearing SERVER_STATUS_IN_TRANS")); res = ha_rollback_trans(thd, true); thd->variables.option_bits &= ~OPTION_BEGIN; thd->get_transaction()->reset_unsafe_rollback_flags(Transaction_ctx::SESSION); thd->lex->start_transaction_opt = 0; /* The transaction should be marked as complete in P_S. */ assert(thd->m_transaction_psi == nullptr); thd->tx_priority = 0; trans_track_end_trx(thd); /* Avoid updating modified uncommitted objects when rolling back attachable read-write transaction. This is required to allow I_S queries to update table statistics during CREATE TABLE ... SELECT, otherwise the uncommitted object added by DDL would be removed by I_S query. */ if (!thd->is_attachable_rw_transaction_active()) thd->dd_client()->rollback_modified_objects(); thd->locked_tables_list.discard_renamed_tablespace_mdls(); thd->m_transactional_ddl.post_ddl(); return res; } /** Implicitly rollback the current transaction, typically after deadlock was discovered. @param thd Current thread @retval False Success @retval True Failure @note ha_rollback_low() which is indirectly called by this function will mark XA transaction for rollback by setting appropriate RM error status if there was transaction rollback request. */ bool trans_rollback_implicit(THD *thd) { int res; DBUG_TRACE; /* Always commit/rollback statement transaction before manipulating with the normal one. Don't perform rollback in the middle of sub-statement, wait till its end. */ assert(thd->get_transaction()->is_empty(Transaction_ctx::STMT) && !thd->in_sub_stmt); thd->server_status &= ~(SERVER_STATUS_IN_TRANS | SERVER_STATUS_IN_TRANS_READONLY); DBUG_PRINT("info", ("clearing SERVER_STATUS_IN_TRANS")); res = ha_rollback_trans(thd, true); thd->variables.option_bits &= ~OPTION_BEGIN; thd->get_transaction()->reset_unsafe_rollback_flags(Transaction_ctx::SESSION); /* Rollback should clear transaction_rollback_request flag. */ assert(!thd->transaction_rollback_request); /* The transaction should be marked as complete in P_S. */ assert(thd->m_transaction_psi == nullptr); trans_track_end_trx(thd); /* Avoid updating modified uncommitted objects when rolling back attachable read-write transaction. This is required to allow I_S queries to update table statistics during CREATE TABLE ... SELECT, otherwise the uncommitted object added by DDL would be removed by I_S query. */ if (!thd->is_attachable_rw_transaction_active()) thd->dd_client()->rollback_modified_objects(); thd->locked_tables_list.discard_renamed_tablespace_mdls(); return res; } /** Commit the single statement transaction. @note Note that if the autocommit is on, then the following call inside InnoDB will commit or rollback the whole transaction (= the statement). The autocommit mechanism built into InnoDB is based on counting locks, but if the user has used LOCK TABLES then that mechanism does not know to do the commit. @param[in] thd Current thread @param[in] ignore_global_read_lock Allow commit to complete even if a global read lock is active. This can be used to allow changes to internal tables (e.g. slave status tables, analyze table). @retval false Success @retval true Failure */ bool trans_commit_stmt(THD *thd, bool ignore_global_read_lock) { DBUG_TRACE; int res = false; /* We currently don't invoke commit/rollback at end of a sub-statement. In future, we perhaps should take a savepoint for each nested statement, and release the savepoint when statement has succeeded. */ assert(!thd->in_sub_stmt); /* Some code in MYSQL_BIN_LOG::commit and ha_commit_low() is not safe for attachable transactions. */ assert(!thd->is_attachable_ro_transaction_active()); thd->get_transaction()->merge_unsafe_rollback_flags(); if (thd->get_transaction()->is_active(Transaction_ctx::STMT)) { res = ha_commit_trans(thd, false, ignore_global_read_lock); if (!thd->in_active_multi_stmt_transaction()) trans_reset_one_shot_chistics(thd); } else if (tc_log) res = tc_log->commit(thd, false); if (res == false && !thd->in_active_multi_stmt_transaction()) if (thd->rpl_thd_ctx.session_gtids_ctx().notify_after_transaction_commit( thd)) LogErr(WARNING_LEVEL, ER_TRX_GTID_COLLECT_REJECT); /* In autocommit=1 mode the transaction should be marked as complete in P_S */ assert(thd->in_active_multi_stmt_transaction() || thd->m_transaction_psi == nullptr); thd->get_transaction()->reset(Transaction_ctx::STMT); return res; } /** Rollback the single statement transaction. @param thd Current thread @retval false Success @retval true Failure */ bool trans_rollback_stmt(THD *thd) { DBUG_TRACE; /* We currently don't invoke commit/rollback at end of a sub-statement. In future, we perhaps should take a savepoint for each nested statement, and release the savepoint when statement has succeeded. */ assert(!thd->in_sub_stmt); /* Some code in MYSQL_BIN_LOG::rollback and ha_rollback_low() is not safe for attachable transactions. */ assert(!thd->is_attachable_ro_transaction_active()); thd->get_transaction()->merge_unsafe_rollback_flags(); if (thd->get_transaction()->is_active(Transaction_ctx::STMT)) { ha_rollback_trans(thd, false); if (!thd->in_active_multi_stmt_transaction()) trans_reset_one_shot_chistics(thd); } else if (tc_log) tc_log->rollback(thd, false); if (!thd->owned_gtid_is_empty() && !thd->in_active_multi_stmt_transaction()) { /* To a failed single statement transaction on auto-commit mode, we roll back its owned gtid if it does not modify non-transational table or commit its owned gtid if it has modified non-transactional table when rolling back it if binlog is disabled, as we did when binlog is enabled. We do not need to check if binlog is enabled here, since we already released its owned gtid in MYSQL_BIN_LOG::rollback(...) right before this if binlog is enabled. */ if (thd->get_transaction()->has_modified_non_trans_table( Transaction_ctx::STMT)) gtid_state->update_on_commit(thd); else gtid_state->update_on_rollback(thd); } /* Statement rollback for replicated atomic DDL should call post-rollback hook. This ensures the slave info won't be updated for failed atomic DDL statements during the eventual implicit commit which is done even even in case of DDL failure. Unlike the post_commit it has to be invoked even when there's no active statement transaction. TODO: consider to align the commit case to invoke pre- and post- hooks on the same level with the rollback one. */ if (is_atomic_ddl_commit_on_slave(thd)) thd->rli_slave->post_rollback(); /* In autocommit=1 mode the transaction should be marked as complete in P_S */ assert(thd->in_active_multi_stmt_transaction() || thd->m_transaction_psi == nullptr || /* Todo: BUG#20488921 is in the way. */ DBUG_EVALUATE_IF("simulate_xa_commit_log_failure", true, false)); thd->get_transaction()->reset(Transaction_ctx::STMT); return false; } /** Commit the attachable transaction. @note This is slimmed down version of trans_commit_stmt() which commits attachable transaction but skips code which is unnecessary and unsafe for them (like dealing with GTIDs). @param thd Current thread @retval False - Success @retval True - Failure */ bool trans_commit_attachable(THD *thd) { DBUG_TRACE; int res = 0; /* This function only handles attachable transactions. */ assert(thd->is_attachable_ro_transaction_active()); /* Since the attachable transaction is AUTOCOMMIT we only need to commit statement transaction. */ assert(!thd->get_transaction()->is_active(Transaction_ctx::SESSION)); /* Attachable transactions should not do anything unsafe. */ assert( !thd->get_transaction()->cannot_safely_rollback(Transaction_ctx::STMT)); if (thd->get_transaction()->is_active(Transaction_ctx::STMT)) { res = ha_commit_attachable(thd); } assert(thd->m_transaction_psi == nullptr); thd->get_transaction()->reset(Transaction_ctx::STMT); return res; } /* Find a named savepoint in the current transaction. */ static SAVEPOINT **find_savepoint(THD *thd, LEX_STRING name) { SAVEPOINT **sv = &thd->get_transaction()->m_savepoints; while (*sv) { if (my_strnncoll(system_charset_info, (uchar *)name.str, name.length, (uchar *)(*sv)->name, (*sv)->length) == 0) break; sv = &(*sv)->prev; } return sv; } /** Set a named transaction savepoint. @param thd Current thread @param name Savepoint name @retval false Success @retval true Failure */ bool trans_savepoint(THD *thd, LEX_STRING name) { SAVEPOINT **sv, *newsv; DBUG_TRACE; if (!(thd->in_multi_stmt_transaction_mode() || thd->in_sub_stmt) || !opt_using_transactions) return false; if (thd->get_transaction()->xid_state()->check_has_uncommitted_xa()) return true; sv = find_savepoint(thd, name); if (*sv) /* old savepoint of the same name exists */ { newsv = *sv; if (ha_release_savepoint(thd, *sv)) { assert(thd->is_error() || thd->is_killed()); return true; } *sv = (*sv)->prev; } else if ((newsv = (SAVEPOINT *)thd->get_transaction()->allocate_memory( savepoint_alloc_size)) == nullptr) { my_error(ER_OUT_OF_RESOURCES, MYF(0)); return true; } newsv->name = thd->get_transaction()->strmake(name.str, name.length); newsv->length = name.length; /* if we'll get an error here, don't add new savepoint to the list. we'll lose a little bit of memory in transaction mem_root, but it'll be free'd when transaction ends anyway */ if (ha_savepoint(thd, newsv)) return true; newsv->prev = thd->get_transaction()->m_savepoints; thd->get_transaction()->m_savepoints = newsv; /* Remember locks acquired before the savepoint was set. They are used as a marker to only release locks acquired after the setting of this savepoint. Note: this works just fine if we're under LOCK TABLES, since mdl_savepoint() is guaranteed to be beyond the last locked table. This allows to release some locks acquired during LOCK TABLES. */ newsv->mdl_savepoint = thd->mdl_context.mdl_savepoint(); if (thd->is_current_stmt_binlog_row_enabled_with_write_set_extraction()) { thd->get_transaction()->get_transaction_write_set_ctx()->add_savepoint( name.str); } return false; } /** Rollback a transaction to the named savepoint. @note Modifications that the current transaction made to rows after the savepoint was set are undone in the rollback. @note Savepoints that were set at a later time than the named savepoint are deleted. @param thd Current thread @param name Savepoint name @retval false Success @retval true Failure */ bool trans_rollback_to_savepoint(THD *thd, LEX_STRING name) { int res = false; SAVEPOINT *sv = *find_savepoint(thd, name); DBUG_TRACE; if (sv == nullptr) { my_error(ER_SP_DOES_NOT_EXIST, MYF(0), "SAVEPOINT", name.str); return true; } if (thd->get_transaction()->xid_state()->check_has_uncommitted_xa()) return true; if (ha_rollback_to_savepoint(thd, sv)) res = true; else if (thd->get_transaction()->cannot_safely_rollback( Transaction_ctx::SESSION) && !thd->slave_thread) thd->get_transaction()->push_unsafe_rollback_warnings(thd); thd->get_transaction()->m_savepoints = sv; /** Checking whether it is safe to release metadata locks acquired after savepoint, if rollback to savepoint is successful. Whether it is safe to release MDL after rollback to savepoint depends on storage engines participating in transaction: - InnoDB doesn't release any row-locks on rollback to savepoint so it is probably a bad idea to release MDL as well. - Binary log implementation in some cases (e.g when non-transactional tables involved) may choose not to remove events added after savepoint from transactional cache, but instead will write them to binary log accompanied with ROLLBACK TO SAVEPOINT statement. Since the real write happens at the end of transaction releasing MDL on tables mentioned in these events (i.e. acquired after savepoint and before rollback of it) can break replication, as concurrent DROP TABLES statements will be able to drop these tables before events will get into binary log, */ if (!res && ha_rollback_to_savepoint_can_release_mdl(thd)) thd->mdl_context.rollback_to_savepoint(sv->mdl_savepoint); if (thd->is_current_stmt_binlog_row_enabled_with_write_set_extraction()) { thd->get_transaction() ->get_transaction_write_set_ctx() ->rollback_to_savepoint(name.str); } return res; } /** Remove the named savepoint from the set of savepoints of the current transaction. @note No commit or rollback occurs. It is an error if the savepoint does not exist. @param thd Current thread @param name Savepoint name @retval false Success @retval true Failure */ bool trans_release_savepoint(THD *thd, LEX_STRING name) { int res = false; SAVEPOINT *sv = *find_savepoint(thd, name); DBUG_TRACE; if (sv == nullptr) { my_error(ER_SP_DOES_NOT_EXIST, MYF(0), "SAVEPOINT", name.str); return true; } if (thd->get_transaction()->xid_state()->check_has_uncommitted_xa()) return true; if (ha_release_savepoint(thd, sv)) res = true; thd->get_transaction()->m_savepoints = sv->prev; if (thd->is_current_stmt_binlog_row_enabled_with_write_set_extraction()) { thd->get_transaction()->get_transaction_write_set_ctx()->del_savepoint( name.str); } return res; }