/* Copyright (c) 2008 MySQL AB, 2009 Sun Microsystems, Inc. Use is subject to license terms. 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 02110-1301 USA */ #include #include "semisync_slave.h" Repl_semi_sync_slave repl_semisync_slave; my_bool rpl_semi_sync_slave_enabled= 0; char rpl_semi_sync_slave_delay_master; my_bool rpl_semi_sync_slave_status= 0; ulong rpl_semi_sync_slave_trace_level; /* indicate whether or not the slave should send a reply to the master. This is set to true in repl_semi_slave_read_event if the current event read is the last event of a transaction. And the value is checked in repl_semi_slave_queue_event. */ bool semi_sync_need_reply= false; unsigned int rpl_semi_sync_slave_kill_conn_timeout; unsigned long long rpl_semi_sync_slave_send_ack = 0; int Repl_semi_sync_slave::init_object() { int result= 0; m_init_done = true; /* References to the parameter works after set_options(). */ set_slave_enabled(rpl_semi_sync_slave_enabled); set_trace_level(rpl_semi_sync_slave_trace_level); set_delay_master(rpl_semi_sync_slave_delay_master); set_kill_conn_timeout(rpl_semi_sync_slave_kill_conn_timeout); return result; } int Repl_semi_sync_slave::slave_read_sync_header(const uchar *header, unsigned long total_len, int *semi_flags, const uchar **payload, unsigned long *payload_len) { int read_res = 0; DBUG_ENTER("Repl_semi_sync_slave::slave_read_sync_header"); if (rpl_semi_sync_slave_status) { if (!DBUG_IF("semislave_corrupt_log") && header[0] == k_packet_magic_num) { semi_sync_need_reply = (header[1] & k_packet_flag_sync); *payload_len = total_len - 2; *payload = header + 2; DBUG_PRINT("semisync", ("%s: reply - %d", "Repl_semi_sync_slave::slave_read_sync_header", semi_sync_need_reply)); if (semi_sync_need_reply) *semi_flags |= SEMI_SYNC_NEED_ACK; if (is_delay_master()) *semi_flags |= SEMI_SYNC_SLAVE_DELAY_SYNC; } else { sql_print_error("Missing magic number for semi-sync packet, packet " "len: %lu", total_len); read_res = -1; } } else { *payload= header; *payload_len= total_len; } DBUG_RETURN(read_res); } int Repl_semi_sync_slave::slave_start(Master_info *mi) { bool semi_sync= get_slave_enabled(); sql_print_information("Slave I/O thread: Start %s replication to\ master '%s@%s:%d' in log '%s' at position %lu", semi_sync ? "semi-sync" : "asynchronous", const_cast(mi->user), mi->host, mi->port, const_cast(mi->master_log_name), (unsigned long)(mi->master_log_pos)); if (semi_sync && !rpl_semi_sync_slave_status) rpl_semi_sync_slave_status= 1; /*clear the counter*/ rpl_semi_sync_slave_send_ack= 0; return 0; } int Repl_semi_sync_slave::slave_stop(Master_info *mi) { if (get_slave_enabled()) kill_connection(mi->mysql); if (rpl_semi_sync_slave_status) rpl_semi_sync_slave_status= 0; return 0; } int Repl_semi_sync_slave::reset_slave(Master_info *mi) { return 0; } void Repl_semi_sync_slave::kill_connection(MYSQL *mysql) { if (!mysql) return; char kill_buffer[30]; MYSQL *kill_mysql = NULL; size_t kill_buffer_length; kill_mysql = mysql_init(kill_mysql); mysql_options(kill_mysql, MYSQL_OPT_CONNECT_TIMEOUT, &m_kill_conn_timeout); mysql_options(kill_mysql, MYSQL_OPT_READ_TIMEOUT, &m_kill_conn_timeout); mysql_options(kill_mysql, MYSQL_OPT_WRITE_TIMEOUT, &m_kill_conn_timeout); bool ret= (!mysql_real_connect(kill_mysql, mysql->host, mysql->user, mysql->passwd,0, mysql->port, mysql->unix_socket, 0)); if (DBUG_IF("semisync_slave_failed_kill") || ret) { sql_print_information("cannot connect to master to kill slave io_thread's " "connection"); goto failed_graceful_kill; } DBUG_EXECUTE_IF("slave_delay_killing_semisync_connection", my_sleep(400000);); kill_buffer_length= my_snprintf(kill_buffer, 30, "KILL %lu", mysql->thread_id); if (mysql_real_query(kill_mysql, kill_buffer, (ulong)kill_buffer_length)) { sql_print_information( "Failed to gracefully kill our active semi-sync connection with " "primary. Silently closing the connection."); goto failed_graceful_kill; } end: mysql_close(kill_mysql); return; failed_graceful_kill: /* If we fail to issue `KILL` on the primary to kill the active semi-sync connection; we need to locally clean up our side of the connection. This is because mysql_close will send COM_QUIT on the active semi-sync connection, causing the primary to error. */ net_clear(&(mysql->net), 0); end_server(mysql); goto end; } int Repl_semi_sync_slave::request_transmit(Master_info *mi) { MYSQL *mysql= mi->mysql; MYSQL_RES *res= 0; MYSQL_ROW row; const char *query; if (!get_slave_enabled()) return 0; query= "SHOW VARIABLES LIKE 'rpl_semi_sync_master_enabled'"; if (mysql_real_query(mysql, query, (ulong)strlen(query)) || !(res= mysql_store_result(mysql))) { sql_print_error("Execution failed on master: %s, error :%s", query, mysql_error(mysql)); return 1; } row= mysql_fetch_row(res); if (DBUG_IF("master_not_support_semisync") || !row) { /* Master does not support semi-sync */ sql_print_warning("Master server does not support semi-sync, " "fallback to asynchronous replication"); rpl_semi_sync_slave_status= 0; mysql_free_result(res); return 0; } mysql_free_result(res); /* Tell master dump thread that we want to do semi-sync replication */ query= "SET @rpl_semi_sync_slave= 1"; if (mysql_real_query(mysql, query, (ulong)strlen(query))) { sql_print_error("Set 'rpl_semi_sync_slave=1' on master failed"); return 1; } mysql_free_result(mysql_store_result(mysql)); rpl_semi_sync_slave_status= 1; return 0; } int Repl_semi_sync_slave::slave_reply(Master_info *mi) { MYSQL* mysql= mi->mysql; const char *binlog_filename= const_cast(mi->master_log_name); my_off_t binlog_filepos= mi->master_log_pos; NET *net= &mysql->net; uchar reply_buffer[REPLY_MAGIC_NUM_LEN + REPLY_BINLOG_POS_LEN + REPLY_BINLOG_NAME_LEN]; int reply_res = 0; size_t name_len = strlen(binlog_filename); DBUG_ENTER("Repl_semi_sync_slave::slave_reply"); if (rpl_semi_sync_slave_status && semi_sync_need_reply) { /* Prepare the buffer of the reply. */ reply_buffer[REPLY_MAGIC_NUM_OFFSET] = k_packet_magic_num; int8store(reply_buffer + REPLY_BINLOG_POS_OFFSET, binlog_filepos); memcpy(reply_buffer + REPLY_BINLOG_NAME_OFFSET, binlog_filename, name_len + 1 /* including trailing '\0' */); DBUG_PRINT("semisync", ("%s: reply (%s, %lu)", "Repl_semi_sync_slave::slave_reply", binlog_filename, (ulong)binlog_filepos)); net_clear(net, 0); /* Send the reply. */ reply_res = my_net_write(net, reply_buffer, name_len + REPLY_BINLOG_NAME_OFFSET); if (!reply_res) { reply_res = (DBUG_IF("semislave_failed_net_flush") || net_flush(net)); if (reply_res) sql_print_error("Semi-sync slave net_flush() reply failed"); rpl_semi_sync_slave_send_ack++; } else { sql_print_error("Semi-sync slave send reply failed: %s (%d)", net->last_error, net->last_errno); } } DBUG_RETURN(reply_res); }