/* Copyright (C) 2015-2019 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 02110-1301 USA. */ #include "mariadb.h" #include "table.h" #include "key.h" #include "sql_base.h" #include "sql_parse.h" #include "sql_update.h" #include "transaction.h" #include "mysql/service_wsrep.h" #include "wsrep_schema.h" #include "wsrep_applier.h" #include "wsrep_xid.h" #include "wsrep_binlog.h" #include "wsrep_high_priority_service.h" #include "wsrep_storage_service.h" #include "wsrep_thd.h" #include #include #define WSREP_SCHEMA "mysql" #define WSREP_STREAMING_TABLE "wsrep_streaming_log" #define WSREP_CLUSTER_TABLE "wsrep_cluster" #define WSREP_MEMBERS_TABLE "wsrep_cluster_members" const char* wsrep_sr_table_name_full= WSREP_SCHEMA "/" WSREP_STREAMING_TABLE; static const std::string wsrep_schema_str= WSREP_SCHEMA; static const std::string sr_table_str= WSREP_STREAMING_TABLE; static const std::string cluster_table_str= WSREP_CLUSTER_TABLE; static const std::string members_table_str= WSREP_MEMBERS_TABLE; static const std::string create_cluster_table_str= "CREATE TABLE IF NOT EXISTS " + wsrep_schema_str + "." + cluster_table_str + "(" "cluster_uuid CHAR(36) PRIMARY KEY," "view_id BIGINT NOT NULL," "view_seqno BIGINT NOT NULL," "protocol_version INT NOT NULL," "capabilities INT NOT NULL" ") ENGINE=InnoDB"; static const std::string create_members_table_str= "CREATE TABLE IF NOT EXISTS " + wsrep_schema_str + "." + members_table_str + "(" "node_uuid CHAR(36) PRIMARY KEY," "cluster_uuid CHAR(36) NOT NULL," "node_name CHAR(32) NOT NULL," "node_incoming_address VARCHAR(256) NOT NULL" ") ENGINE=InnoDB"; #ifdef WSREP_SCHEMA_MEMBERS_HISTORY static const std::string cluster_member_history_table_str= "wsrep_cluster_member_history"; static const std::string create_members_history_table_str= "CREATE TABLE IF NOT EXISTS " + wsrep_schema_str + "." + cluster_member_history_table_str + "(" "node_uuid CHAR(36) PRIMARY KEY," "cluster_uuid CHAR(36) NOT NULL," "last_view_id BIGINT NOT NULL," "last_view_seqno BIGINT NOT NULL," "node_name CHAR(32) NOT NULL," "node_incoming_address VARCHAR(256) NOT NULL" ") ENGINE=InnoDB"; #endif /* WSREP_SCHEMA_MEMBERS_HISTORY */ static const std::string create_frag_table_str= "CREATE TABLE IF NOT EXISTS " + wsrep_schema_str + "." + sr_table_str + "(" "node_uuid CHAR(36), " "trx_id BIGINT, " "seqno BIGINT, " "flags INT NOT NULL, " "frag LONGBLOB NOT NULL, " "PRIMARY KEY (node_uuid, trx_id, seqno)" ") ENGINE=InnoDB"; static const std::string delete_from_cluster_table= "DELETE FROM " + wsrep_schema_str + "." + cluster_table_str; static const std::string delete_from_members_table= "DELETE FROM " + wsrep_schema_str + "." + members_table_str; namespace Wsrep_schema_impl { class binlog_off { public: binlog_off(THD* thd) : m_thd(thd) , m_option_bits(thd->variables.option_bits) , m_sql_log_bin(thd->variables.sql_log_bin) { thd->variables.option_bits&= ~OPTION_BIN_LOG; thd->variables.sql_log_bin= 0; } ~binlog_off() { m_thd->variables.option_bits= m_option_bits; m_thd->variables.sql_log_bin= m_sql_log_bin; } private: THD* m_thd; ulonglong m_option_bits; my_bool m_sql_log_bin; }; class wsrep_off { public: wsrep_off(THD* thd) : m_thd(thd) , m_wsrep_on(thd->variables.wsrep_on) { thd->variables.wsrep_on= 0; } ~wsrep_off() { m_thd->variables.wsrep_on= m_wsrep_on; } private: THD* m_thd; my_bool m_wsrep_on; }; class thd_server_status { public: thd_server_status(THD* thd, uint server_status, bool condition) : m_thd(thd) , m_thd_server_status(thd->server_status) { if (condition) thd->server_status= server_status; } ~thd_server_status() { m_thd->server_status= m_thd_server_status; } private: THD* m_thd; uint m_thd_server_status; }; class thd_context_switch { public: thd_context_switch(THD *orig_thd, THD *cur_thd) : m_orig_thd(orig_thd) , m_cur_thd(cur_thd) { wsrep_reset_threadvars(m_orig_thd); wsrep_store_threadvars(m_cur_thd); } ~thd_context_switch() { wsrep_reset_threadvars(m_cur_thd); wsrep_store_threadvars(m_orig_thd); } private: THD *m_orig_thd; THD *m_cur_thd; }; static int execute_SQL(THD* thd, const char* sql, uint length) { DBUG_ENTER("Wsrep_schema::execute_SQL()"); int err= 0; PSI_statement_locker *parent_locker= thd->m_statement_psi; Parser_state parser_state; WSREP_DEBUG("SQL: %d %s thd: %lld", length, sql, (long long)thd->thread_id); if (parser_state.init(thd, (char*)sql, length) == 0) { thd->reset_for_next_command(); lex_start(thd); thd->m_statement_psi= NULL; thd->set_query((char*)sql, length); thd->set_query_id(next_query_id()); mysql_parse(thd, (char*)sql, length, & parser_state, FALSE, FALSE); if (thd->is_error()) { WSREP_WARN("Wsrep_schema::execute_sql() failed, %d %s\nSQL: %s", thd->get_stmt_da()->sql_errno(), thd->get_stmt_da()->message(), sql); err= 1; } thd->m_statement_psi= parent_locker; thd->end_statement(); thd->reset_query(); close_thread_tables(thd); delete_explain_query(thd->lex); } else { WSREP_WARN("SR init failure"); } thd->cleanup_after_query(); DBUG_RETURN(err); } /* Initialize thd for next "statement" */ static void init_stmt(THD* thd) { thd->reset_for_next_command(); } static void finish_stmt(THD* thd) { trans_commit_stmt(thd); close_thread_tables(thd); } static int open_table(THD* thd, const LEX_CSTRING *schema_name, const LEX_CSTRING *table_name, enum thr_lock_type const lock_type, TABLE** table) { assert(table); *table= NULL; DBUG_ENTER("Wsrep_schema::open_table()"); TABLE_LIST tables; uint flags= (MYSQL_OPEN_IGNORE_GLOBAL_READ_LOCK | MYSQL_LOCK_IGNORE_GLOBAL_READ_ONLY | MYSQL_OPEN_IGNORE_FLUSH | MYSQL_LOCK_IGNORE_TIMEOUT); tables.init_one_table(schema_name, table_name, NULL, lock_type); if (!open_n_lock_single_table(thd, &tables, tables.lock_type, flags)) { if (thd->is_error()) { WSREP_WARN("Can't lock table %s.%s : %d (%s)", schema_name->str, table_name->str, thd->get_stmt_da()->sql_errno(), thd->get_stmt_da()->message()); } close_thread_tables(thd); my_error(ER_NO_SUCH_TABLE, MYF(0), schema_name->str, table_name->str); DBUG_RETURN(1); } *table= tables.table; (*table)->use_all_columns(); DBUG_RETURN(0); } static int open_for_write(THD* thd, const char* table_name, TABLE** table) { LEX_CSTRING schema_str= { wsrep_schema_str.c_str(), wsrep_schema_str.length() }; LEX_CSTRING table_str= { table_name, strlen(table_name) }; if (Wsrep_schema_impl::open_table(thd, &schema_str, &table_str, TL_WRITE, table)) { WSREP_ERROR("Failed to open table %s.%s for writing", schema_str.str, table_name); return 1; } empty_record(*table); (*table)->use_all_columns(); restore_record(*table, s->default_values); return 0; } static void store(TABLE* table, uint field, const Wsrep_id& id) { assert(field < table->s->fields); std::ostringstream os; os << id; table->field[field]->store(os.str().c_str(), os.str().size(), &my_charset_bin); } template static void store(TABLE* table, uint field, const INTTYPE val) { assert(field < table->s->fields); table->field[field]->store(val); } template static void store(TABLE* table, uint field, const CHARTYPE* str, size_t str_len) { assert(field < table->s->fields); table->field[field]->store((const char*)str, str_len, &my_charset_bin); } static void store(TABLE* table, uint field, const std::string& str) { store(table, field, str.c_str(), str.size()); } static int update_or_insert(TABLE* table) { DBUG_ENTER("Wsrep_schema::update_or_insert()"); int ret= 0; char* key; int error; /* Verify that the table has primary key defined. */ if (table->s->primary_key >= MAX_KEY || !table->s->keys_in_use.is_set(table->s->primary_key)) { WSREP_ERROR("No primary key for %s.%s", table->s->db.str, table->s->table_name.str); DBUG_RETURN(1); } /* Find the record and update or insert a new one if not found. */ if (!(key= (char*) my_safe_alloca(table->s->max_unique_length))) { WSREP_ERROR("Error allocating %ud bytes for key", table->s->max_unique_length); DBUG_RETURN(1); } key_copy((uchar*) key, table->record[0], table->key_info + table->s->primary_key, 0); if ((error= table->file->ha_index_read_idx_map(table->record[1], table->s->primary_key, (uchar*) key, HA_WHOLE_KEY, HA_READ_KEY_EXACT))) { /* Row not found, insert a new one. */ if ((error= table->file->ha_write_row(table->record[0]))) { WSREP_ERROR("Error writing into %s.%s: %d", table->s->db.str, table->s->table_name.str, error); ret= 1; } } else if (!records_are_comparable(table) || compare_record(table)) { /* Record has changed */ if ((error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { WSREP_ERROR("Error updating record in %s.%s: %d", table->s->db.str, table->s->table_name.str, error); ret= 1; } } my_safe_afree(key, table->s->max_unique_length); DBUG_RETURN(ret); } static int insert(TABLE* table) { DBUG_ENTER("Wsrep_schema::insert()"); int ret= 0; int error; /* Verify that the table has primary key defined. */ if (table->s->primary_key >= MAX_KEY || !table->s->keys_in_use.is_set(table->s->primary_key)) { WSREP_ERROR("No primary key for %s.%s", table->s->db.str, table->s->table_name.str); DBUG_RETURN(1); } if ((error= table->file->ha_write_row(table->record[0]))) { WSREP_ERROR("Error writing into %s.%s: %d", table->s->db.str, table->s->table_name.str, error); ret= 1; } DBUG_RETURN(ret); } static int delete_row(TABLE* table) { int error; int retry= 3; do { error= table->file->ha_delete_row(table->record[0]); retry--; } while (error && retry); if (error) { WSREP_ERROR("Error deleting row from %s.%s: %d", table->s->db.str, table->s->table_name.str, error); return 1; } return 0; } static int open_for_read(THD* thd, const char* table_name, TABLE** table) { LEX_CSTRING schema_str= { wsrep_schema_str.c_str(), wsrep_schema_str.length() }; LEX_CSTRING table_str= { table_name, strlen(table_name) }; if (Wsrep_schema_impl::open_table(thd, &schema_str, &table_str, TL_READ, table)) { WSREP_ERROR("Failed to open table %s.%s for reading", schema_str.str, table_name); return 1; } empty_record(*table); (*table)->use_all_columns(); restore_record(*table, s->default_values); return 0; } /* Init table for sequential scan. @return 0 in case of success, 1 in case of error. */ static int init_for_scan(TABLE* table) { int error; if ((error= table->file->ha_rnd_init(TRUE))) { WSREP_ERROR("Failed to init table for scan: %d", error); return 1; } return 0; } /* Scan next record. For return codes see handler::ha_rnd_next() @return 0 in case of success, error code in case of error */ static int next_record(TABLE* table) { int error; if ((error= table->file->ha_rnd_next(table->record[0])) && error != HA_ERR_END_OF_FILE) { WSREP_ERROR("Failed to read next record: %d", error); } return error; } /* End scan. @return 0 in case of success, 1 in case of error. */ static int end_scan(TABLE* table) { int error; if ((error= table->file->ha_rnd_end())) { WSREP_ERROR("Failed to end scan: %d", error); return 1; } return 0; } static int scan(TABLE* table, uint field, wsrep::id& id) { assert(field < table->s->fields); String uuid_str; (void)table->field[field]->val_str(&uuid_str); id= wsrep::id(std::string(uuid_str.c_ptr(), uuid_str.length())); return 0; } template static int scan(TABLE* table, uint field, INTTYPE& val) { assert(field < table->s->fields); val= table->field[field]->val_int(); return 0; } static int scan(TABLE* table, uint field, char* strbuf, uint strbuf_len) { uint len; StringBuffer str; (void) table->field[field]->val_str(&str); len= str.length(); strmake(strbuf, str.ptr(), MY_MIN(len, strbuf_len-1)); return 0; } /* Scan member TODO: filter members by cluster UUID */ static int scan_member(TABLE* table, const Wsrep_id& cluster_uuid, std::vector& members) { Wsrep_id member_id; char member_name[128]= { 0, }; char member_incoming[128]= { 0, }; if (scan(table, 0, member_id) || scan(table, 2, member_name, sizeof(member_name)) || scan(table, 3, member_incoming, sizeof(member_incoming))) { return 1; } if (members.empty() == false) { assert(members.rbegin()->id() < member_id); } try { members.push_back(Wsrep_view::member(member_id, member_name, member_incoming)); } catch (...) { WSREP_ERROR("Caught exception while scanning members table"); return 1; } return 0; } /* Init table for index scan and retrieve first record @return 0 in case of success, error code in case of error. */ static int init_for_index_scan(TABLE* table, const uchar* key, key_part_map map) { int error; if ((error= table->file->ha_index_init(table->s->primary_key, true))) { WSREP_ERROR("Failed to init table for index scan: %d", error); return error; } error= table->file->ha_index_read_map(table->record[0], key, map, HA_READ_KEY_EXACT); switch(error) { case 0: case HA_ERR_END_OF_FILE: case HA_ERR_KEY_NOT_FOUND: case HA_ERR_ABORTED_BY_USER: break; case -1: WSREP_DEBUG("init_for_index_scan interrupted"); break; default: WSREP_ERROR("init_for_index_scan failed to read first record, error %d", error); } return error; } /* End index scan. @return 0 in case of success, 1 in case of error. */ static int end_index_scan(TABLE* table) { int error; if ((error= table->file->ha_index_end())) { WSREP_ERROR("Failed to end scan: %d", error); return 1; } return 0; } static void make_key(TABLE* table, uchar* key, key_part_map* map, int parts) { uint prefix_length= 0; KEY_PART_INFO* key_part= table->key_info->key_part; for (int i=0; i < parts; i++) prefix_length += key_part[i].store_length; *map= make_prev_keypart_map(parts); key_copy(key, table->record[0], table->key_info, prefix_length); } } /* namespace Wsrep_schema_impl */ Wsrep_schema::Wsrep_schema() { } Wsrep_schema::~Wsrep_schema() { } static void wsrep_init_thd_for_schema(THD *thd) { thd->security_ctx->skip_grants(); thd->system_thread= SYSTEM_THREAD_GENERIC; thd->real_id=pthread_self(); // Keep purify happy thd->prior_thr_create_utime= thd->start_utime= thd->thr_create_utime; /* */ thd->variables.wsrep_on = 0; /* No binlogging */ thd->variables.sql_log_bin = 0; thd->variables.option_bits &= ~OPTION_BIN_LOG; /* No general log */ thd->variables.option_bits |= OPTION_LOG_OFF; /* Read committed isolation to avoid gap locking */ thd->variables.tx_isolation= ISO_READ_COMMITTED; wsrep_assign_from_threadvars(thd); wsrep_store_threadvars(thd); } int Wsrep_schema::init() { DBUG_ENTER("Wsrep_schema::init()"); int ret; THD* thd= new THD(next_thread_id()); if (!thd) { WSREP_ERROR("Unable to get thd"); DBUG_RETURN(1); } thd->thread_stack= (char*)&thd; wsrep_init_thd_for_schema(thd); if (Wsrep_schema_impl::execute_SQL(thd, create_cluster_table_str.c_str(), create_cluster_table_str.size()) || Wsrep_schema_impl::execute_SQL(thd, create_members_table_str.c_str(), create_members_table_str.size()) || #ifdef WSREP_SCHEMA_MEMBERS_HISTORY Wsrep_schema_impl::execute_SQL(thd, create_members_history_table_str.c_str(), create_members_history_table_str.size()) || #endif /* WSREP_SCHEMA_MEMBERS_HISTORY */ Wsrep_schema_impl::execute_SQL(thd, create_frag_table_str.c_str(), create_frag_table_str.size())) { ret= 1; } else { ret= 0; } delete thd; DBUG_RETURN(ret); } int Wsrep_schema::store_view(THD* thd, const Wsrep_view& view) { DBUG_ENTER("Wsrep_schema::store_view()"); assert(view.status() == Wsrep_view::primary); int ret= 1; int error; TABLE* cluster_table= 0; TABLE* members_table= 0; #ifdef WSREP_SCHEMA_MEMBERS_HISTORY TABLE* members_history_table= 0; #endif /* WSREP_SCHEMA_MEMBERS_HISTORY */ Wsrep_schema_impl::wsrep_off wsrep_off(thd); Wsrep_schema_impl::binlog_off binlog_off(thd); /* Clean up cluster table and members table. */ if (Wsrep_schema_impl::execute_SQL(thd, delete_from_cluster_table.c_str(), delete_from_cluster_table.size()) || Wsrep_schema_impl::execute_SQL(thd, delete_from_members_table.c_str(), delete_from_members_table.size())) { goto out; } /* Store cluster view info */ Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_write(thd, cluster_table_str.c_str(), &cluster_table)) { goto out; } Wsrep_schema_impl::store(cluster_table, 0, view.state_id().id()); Wsrep_schema_impl::store(cluster_table, 1, view.view_seqno().get()); Wsrep_schema_impl::store(cluster_table, 2, view.state_id().seqno().get()); Wsrep_schema_impl::store(cluster_table, 3, view.protocol_version()); Wsrep_schema_impl::store(cluster_table, 4, view.capabilities()); if ((error= Wsrep_schema_impl::update_or_insert(cluster_table))) { WSREP_ERROR("failed to write to cluster table: %d", error); goto out; } Wsrep_schema_impl::finish_stmt(thd); /* Store info about current members */ Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_write(thd, members_table_str.c_str(), &members_table)) { WSREP_ERROR("failed to open wsrep.members table"); goto out; } for (size_t i= 0; i < view.members().size(); ++i) { Wsrep_schema_impl::store(members_table, 0, view.members()[i].id()); Wsrep_schema_impl::store(members_table, 1, view.state_id().id()); Wsrep_schema_impl::store(members_table, 2, view.members()[i].name()); Wsrep_schema_impl::store(members_table, 3, view.members()[i].incoming()); if ((error= Wsrep_schema_impl::update_or_insert(members_table))) { WSREP_ERROR("failed to write wsrep.members table: %d", error); goto out; } } Wsrep_schema_impl::finish_stmt(thd); #ifdef WSREP_SCHEMA_MEMBERS_HISTORY /* Store members history */ Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_write(thd, cluster_member_history.c_str(), &members_history_table)) { WSREP_ERROR("failed to open wsrep.members table"); goto out; } for (size_t i= 0; i < view.members().size(); ++i) { Wsrep_schema_impl::store(members_history_table, 0, view.members()[i].id()); Wsrep_schema_impl::store(members_history_table, 1, view.state_id().id()); Wsrep_schema_impl::store(members_history_table, 2, view.view_seqno()); Wsrep_schema_impl::store(members_history_table, 3, view.state_id().seqno()); Wsrep_schema_impl::store(members_history_table, 4, view.members()[i].name()); Wsrep_schema_impl::store(members_history_table, 5, view.members()[i].incoming()); if ((error= Wsrep_schema_impl::update_or_insert(members_history_table))) { WSREP_ERROR("failed to write wsrep_cluster_member_history table: %d", error); goto out; } } Wsrep_schema_impl::finish_stmt(thd); #endif /* WSREP_SCHEMA_MEMBERS_HISTORY */ ret= 0; out: DBUG_RETURN(ret); } Wsrep_view Wsrep_schema::restore_view(THD* thd, const Wsrep_id& own_id) const { DBUG_ENTER("Wsrep_schema::restore_view()"); int ret= 1; int error; TABLE* cluster_table= 0; bool end_cluster_scan= false; TABLE* members_table= 0; bool end_members_scan= false; /* variables below need to be initialized in case cluster table is empty */ Wsrep_id cluster_uuid; wsrep_seqno_t view_id= -1; wsrep_seqno_t view_seqno= -1; int my_idx= -1; int proto_ver= 0; wsrep_cap_t capabilities= 0; std::vector members; // we don't want causal waits for reading non-replicated private data int const wsrep_sync_wait_saved= thd->variables.wsrep_sync_wait; thd->variables.wsrep_sync_wait= 0; if (trans_begin(thd, MYSQL_START_TRANS_OPT_READ_ONLY)) { WSREP_ERROR("wsrep_schema::restore_view(): Failed to start transaction"); goto out; } /* Read cluster info from cluster table */ Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_read(thd, cluster_table_str.c_str(), &cluster_table) || Wsrep_schema_impl::init_for_scan(cluster_table)) { goto out; } if (((error= Wsrep_schema_impl::next_record(cluster_table)) != 0 || Wsrep_schema_impl::scan(cluster_table, 0, cluster_uuid) || Wsrep_schema_impl::scan(cluster_table, 1, view_id) || Wsrep_schema_impl::scan(cluster_table, 2, view_seqno) || Wsrep_schema_impl::scan(cluster_table, 3, proto_ver) || Wsrep_schema_impl::scan(cluster_table, 4, capabilities)) && error != HA_ERR_END_OF_FILE) { end_cluster_scan= true; goto out; } if (Wsrep_schema_impl::end_scan(cluster_table)) { goto out; } Wsrep_schema_impl::finish_stmt(thd); /* Read members from members table */ Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_read(thd, members_table_str.c_str(), &members_table) || Wsrep_schema_impl::init_for_scan(members_table)) { goto out; } end_members_scan= true; while (true) { if ((error= Wsrep_schema_impl::next_record(members_table)) == 0) { if (Wsrep_schema_impl::scan_member(members_table, cluster_uuid, members)) { goto out; } } else if (error == HA_ERR_END_OF_FILE) { break; } else { goto out; } } end_members_scan= false; if (Wsrep_schema_impl::end_scan(members_table)) { goto out; } Wsrep_schema_impl::finish_stmt(thd); if (own_id.is_undefined() == false) { for (uint i= 0; i < members.size(); ++i) { if (members[i].id() == own_id) { my_idx= i; break; } } } (void)trans_commit(thd); ret= 0; /* Success*/ out: if (end_cluster_scan) Wsrep_schema_impl::end_scan(cluster_table); if (end_members_scan) Wsrep_schema_impl::end_scan(members_table); if (0 != ret) { trans_rollback_stmt(thd); if (!trans_rollback(thd)) { close_thread_tables(thd); } } thd->mdl_context.release_transactional_locks(); thd->variables.wsrep_sync_wait= wsrep_sync_wait_saved; if (0 == ret) { Wsrep_view ret_view( wsrep::gtid(cluster_uuid, Wsrep_seqno(view_seqno)), Wsrep_seqno(view_id), wsrep::view::primary, capabilities, my_idx, proto_ver, members ); if (wsrep_debug) { std::ostringstream os; os << "Restored cluster view:\n" << ret_view; WSREP_INFO("%s", os.str().c_str()); } DBUG_RETURN(ret_view); } else { WSREP_ERROR("wsrep_schema::restore_view() failed."); Wsrep_view ret_view; DBUG_RETURN(ret_view); } } int Wsrep_schema::append_fragment(THD* thd, const wsrep::id& server_id, wsrep::transaction_id transaction_id, wsrep::seqno seqno, int flags, const wsrep::const_buffer& data) { DBUG_ENTER("Wsrep_schema::append_fragment"); std::ostringstream os; os << server_id; WSREP_DEBUG("Append fragment(%llu) %s, %llu", thd->thread_id, os.str().c_str(), transaction_id.get()); Wsrep_schema_impl::binlog_off binlog_off(thd); Wsrep_schema_impl::init_stmt(thd); TABLE* frag_table= 0; if (Wsrep_schema_impl::open_for_write(thd, sr_table_str.c_str(), &frag_table)) { trans_rollback_stmt(thd); DBUG_RETURN(1); } Wsrep_schema_impl::store(frag_table, 0, server_id); Wsrep_schema_impl::store(frag_table, 1, transaction_id.get()); Wsrep_schema_impl::store(frag_table, 2, seqno.get()); Wsrep_schema_impl::store(frag_table, 3, flags); Wsrep_schema_impl::store(frag_table, 4, data.data(), data.size()); int error; if ((error= Wsrep_schema_impl::insert(frag_table))) { WSREP_ERROR("Failed to write to frag table: %d", error); trans_rollback_stmt(thd); DBUG_RETURN(1); } Wsrep_schema_impl::finish_stmt(thd); DBUG_RETURN(0); } int Wsrep_schema::update_fragment_meta(THD* thd, const wsrep::ws_meta& ws_meta) { DBUG_ENTER("Wsrep_schema::update_fragment_meta"); std::ostringstream os; os << ws_meta.server_id(); WSREP_DEBUG("update_frag_seqno(%llu) %s, %llu, seqno %lld", thd->thread_id, os.str().c_str(), ws_meta.transaction_id().get(), ws_meta.seqno().get()); DBUG_ASSERT(ws_meta.seqno().is_undefined() == false); Wsrep_schema_impl::binlog_off binlog_off(thd); int error; uchar key[MAX_KEY_LENGTH+MAX_FIELD_WIDTH]; key_part_map key_map= 0; TABLE* frag_table= 0; Wsrep_schema_impl::init_stmt(thd); if (Wsrep_schema_impl::open_for_write(thd, sr_table_str.c_str(), &frag_table)) { DBUG_RETURN(1); } /* Find record with the given uuid, trx id, and seqno -1 */ Wsrep_schema_impl::store(frag_table, 0, ws_meta.server_id()); Wsrep_schema_impl::store(frag_table, 1, ws_meta.transaction_id().get()); Wsrep_schema_impl::store(frag_table, 2, -1); Wsrep_schema_impl::make_key(frag_table, key, &key_map, 3); if ((error= Wsrep_schema_impl::init_for_index_scan(frag_table, key, key_map))) { if (error == HA_ERR_END_OF_FILE || error == HA_ERR_KEY_NOT_FOUND) { WSREP_WARN("Record not found in %s.%s: %d", frag_table->s->db.str, frag_table->s->table_name.str, error); } Wsrep_schema_impl::finish_stmt(thd); DBUG_RETURN(1); } /* Copy the original record to frag_table->record[1] */ store_record(frag_table, record[1]); /* Store seqno in frag_table->record[0] and update the row */ Wsrep_schema_impl::store(frag_table, 2, ws_meta.seqno().get()); if ((error= frag_table->file->ha_update_row(frag_table->record[1], frag_table->record[0]))) { WSREP_ERROR("Error updating record in %s.%s: %d", frag_table->s->db.str, frag_table->s->table_name.str, error); Wsrep_schema_impl::finish_stmt(thd); DBUG_RETURN(1); } int ret= Wsrep_schema_impl::end_index_scan(frag_table); Wsrep_schema_impl::finish_stmt(thd); DBUG_RETURN(ret); } static int remove_fragment(THD* thd, TABLE* frag_table, const wsrep::id& server_id, wsrep::transaction_id transaction_id, wsrep::seqno seqno) { WSREP_DEBUG("remove_fragment(%llu) trx %llu, seqno %lld", thd->thread_id, transaction_id.get(), seqno.get()); int ret= 0; int error; uchar key[MAX_KEY_LENGTH+MAX_FIELD_WIDTH]; key_part_map key_map= 0; DBUG_ASSERT(server_id.is_undefined() == false); DBUG_ASSERT(transaction_id.is_undefined() == false); DBUG_ASSERT(seqno.is_undefined() == false); /* Remove record with the given uuid, trx id, and seqno. Using a complete key here avoids gap locks. */ Wsrep_schema_impl::store(frag_table, 0, server_id); Wsrep_schema_impl::store(frag_table, 1, transaction_id.get()); Wsrep_schema_impl::store(frag_table, 2, seqno.get()); Wsrep_schema_impl::make_key(frag_table, key, &key_map, 3); if ((error= Wsrep_schema_impl::init_for_index_scan(frag_table, key, key_map))) { if (error == HA_ERR_END_OF_FILE || error == HA_ERR_KEY_NOT_FOUND) { WSREP_DEBUG("Record not found in %s.%s:trx %llu, seqno %lld, error %d", frag_table->s->db.str, frag_table->s->table_name.str, transaction_id.get(), seqno.get(), error); } ret= error; } else if (Wsrep_schema_impl::delete_row(frag_table)) { ret= 1; } Wsrep_schema_impl::end_index_scan(frag_table); return ret; } int Wsrep_schema::remove_fragments(THD* thd, const wsrep::id& server_id, wsrep::transaction_id transaction_id, const std::vector& fragments) { DBUG_ENTER("Wsrep_schema::remove_fragments"); int ret= 0; WSREP_DEBUG("Removing %zu fragments", fragments.size()); Wsrep_schema_impl::wsrep_off wsrep_off(thd); Wsrep_schema_impl::binlog_off binlog_off(thd); Query_tables_list query_tables_list_backup; Open_tables_backup open_tables_backup; thd->lex->reset_n_backup_query_tables_list(&query_tables_list_backup); thd->reset_n_backup_open_tables_state(&open_tables_backup); TABLE* frag_table= 0; if (Wsrep_schema_impl::open_for_write(thd, sr_table_str.c_str(), &frag_table)) { ret= 1; } else { for (std::vector::const_iterator i= fragments.begin(); i != fragments.end(); ++i) { if (remove_fragment(thd, frag_table, server_id, transaction_id, *i)) { ret= 1; break; } } } close_thread_tables(thd); thd->restore_backup_open_tables_state(&open_tables_backup); thd->lex->restore_backup_query_tables_list(&query_tables_list_backup); if (thd->wsrep_cs().mode() == wsrep::client_state::m_local && !thd->in_multi_stmt_transaction_mode()) { /* The ugly part: Locally executing autocommit statement is committing and it has removed a fragment from stable storage. Now calling finish_stmt() will call trans_commit_stmt(), which will actually commit the transaction, what we really don't want to do at this point. Doing nothing at this point seems to work ok, this block is intentionally no-op and for documentation purposes only. */ } else { Wsrep_schema_impl::thd_server_status thd_server_status(thd, thd->server_status | SERVER_STATUS_IN_TRANS, thd->in_multi_stmt_transaction_mode()); Wsrep_schema_impl::finish_stmt(thd); } DBUG_RETURN(ret); } int Wsrep_schema::replay_transaction(THD* orig_thd, Relay_log_info* rli, const wsrep::ws_meta& ws_meta, const std::vector& fragments) { DBUG_ENTER("Wsrep_schema::replay_transaction"); DBUG_ASSERT(!fragments.empty()); THD thd(next_thread_id(), true); thd.thread_stack= (orig_thd ? orig_thd->thread_stack : (char*) &thd); wsrep_assign_from_threadvars(&thd); Wsrep_schema_impl::wsrep_off wsrep_off(&thd); Wsrep_schema_impl::binlog_off binlog_off(&thd); Wsrep_schema_impl::thd_context_switch thd_context_switch(orig_thd, &thd); int ret= 1; int error; TABLE* frag_table= 0; uchar key[MAX_KEY_LENGTH+MAX_FIELD_WIDTH]; key_part_map key_map= 0; for (std::vector::const_iterator i= fragments.begin(); i != fragments.end(); ++i) { Wsrep_schema_impl::init_stmt(&thd); if ((error= Wsrep_schema_impl::open_for_read(&thd, sr_table_str.c_str(), &frag_table))) { WSREP_WARN("Could not open SR table for read: %d", error); Wsrep_schema_impl::finish_stmt(&thd); DBUG_RETURN(1); } Wsrep_schema_impl::store(frag_table, 0, ws_meta.server_id()); Wsrep_schema_impl::store(frag_table, 1, ws_meta.transaction_id().get()); Wsrep_schema_impl::store(frag_table, 2, i->get()); Wsrep_schema_impl::make_key(frag_table, key, &key_map, 3); int error= Wsrep_schema_impl::init_for_index_scan(frag_table, key, key_map); if (error) { WSREP_WARN("Failed to init streaming log table for index scan: %d", error); Wsrep_schema_impl::end_index_scan(frag_table); ret= 1; break; } int flags; Wsrep_schema_impl::scan(frag_table, 3, flags); WSREP_DEBUG("replay_fragment(%llu): seqno: %lld flags: %x", ws_meta.transaction_id().get(), i->get(), flags); String buf; frag_table->field[4]->val_str(&buf); { Wsrep_schema_impl::thd_context_switch thd_context_switch(&thd, orig_thd); ret= wsrep_apply_events(orig_thd, rli, buf.c_ptr_quick(), buf.length()); if (ret) { WSREP_WARN("Wsrep_schema::replay_transaction: failed to apply fragments"); break; } } Wsrep_schema_impl::end_index_scan(frag_table); Wsrep_schema_impl::finish_stmt(&thd); Wsrep_schema_impl::init_stmt(&thd); if ((error= Wsrep_schema_impl::open_for_write(&thd, sr_table_str.c_str(), &frag_table))) { WSREP_WARN("Could not open SR table for write: %d", error); Wsrep_schema_impl::finish_stmt(&thd); DBUG_RETURN(1); } error= Wsrep_schema_impl::init_for_index_scan(frag_table, key, key_map); if (error) { WSREP_WARN("Failed to init streaming log table for index scan: %d", error); Wsrep_schema_impl::end_index_scan(frag_table); ret= 1; break; } error= Wsrep_schema_impl::delete_row(frag_table); if (error) { WSREP_WARN("Could not delete row from streaming log table: %d", error); Wsrep_schema_impl::end_index_scan(frag_table); ret= 1; break; } Wsrep_schema_impl::end_index_scan(frag_table); Wsrep_schema_impl::finish_stmt(&thd); } DBUG_RETURN(ret); } int Wsrep_schema::recover_sr_transactions(THD *orig_thd) { DBUG_ENTER("Wsrep_schema::recover_sr_transactions"); THD storage_thd(next_thread_id(), true); storage_thd.thread_stack= (orig_thd ? orig_thd->thread_stack : (char*) &storage_thd); wsrep_assign_from_threadvars(&storage_thd); TABLE* frag_table= 0; TABLE* cluster_table= 0; Wsrep_storage_service storage_service(&storage_thd); Wsrep_schema_impl::binlog_off binlog_off(&storage_thd); Wsrep_schema_impl::wsrep_off wsrep_off(&storage_thd); Wsrep_schema_impl::thd_context_switch thd_context_switch(orig_thd, &storage_thd); Wsrep_server_state& server_state(Wsrep_server_state::instance()); int ret= 1; int error; wsrep::id cluster_id; Wsrep_schema_impl::init_stmt(&storage_thd); storage_thd.wsrep_skip_locking= FALSE; if (Wsrep_schema_impl::open_for_read(&storage_thd, cluster_table_str.c_str(), &cluster_table) || Wsrep_schema_impl::init_for_scan(cluster_table)) { Wsrep_schema_impl::finish_stmt(&storage_thd); DBUG_RETURN(1); } if ((error= Wsrep_schema_impl::next_record(cluster_table))) { Wsrep_schema_impl::end_scan(cluster_table); Wsrep_schema_impl::finish_stmt(&storage_thd); trans_commit(&storage_thd); if (error == HA_ERR_END_OF_FILE) { WSREP_INFO("Cluster table is empty, not recovering transactions"); DBUG_RETURN(0); } else { WSREP_ERROR("Failed to read cluster table: %d", error); DBUG_RETURN(1); } } Wsrep_schema_impl::scan(cluster_table, 0, cluster_id); Wsrep_schema_impl::end_scan(cluster_table); Wsrep_schema_impl::finish_stmt(&storage_thd); std::ostringstream os; os << cluster_id; WSREP_INFO("Recovered cluster id %s", os.str().c_str()); storage_thd.wsrep_skip_locking= TRUE; Wsrep_schema_impl::init_stmt(&storage_thd); /* Open the table for reading and writing so that fragments without valid seqno can be deleted. */ if (Wsrep_schema_impl::open_for_write(&storage_thd, sr_table_str.c_str(), &frag_table) || Wsrep_schema_impl::init_for_scan(frag_table)) { WSREP_ERROR("Failed to open SR table for write"); goto out; } while (0 == error) { if ((error= Wsrep_schema_impl::next_record(frag_table)) == 0) { wsrep::id server_id; Wsrep_schema_impl::scan(frag_table, 0, server_id); wsrep::client_id client_id; unsigned long long transaction_id_ull; Wsrep_schema_impl::scan(frag_table, 1, transaction_id_ull); wsrep::transaction_id transaction_id(transaction_id_ull); long long seqno_ll; Wsrep_schema_impl::scan(frag_table, 2, seqno_ll); wsrep::seqno seqno(seqno_ll); /* This is possible if the server crashes between inserting the fragment into table and updating the fragment seqno after certification. */ if (seqno.is_undefined()) { Wsrep_schema_impl::delete_row(frag_table); continue; } wsrep::gtid gtid(cluster_id, seqno); int flags; Wsrep_schema_impl::scan(frag_table, 3, flags); String data_str; (void)frag_table->field[4]->val_str(&data_str); wsrep::const_buffer data(data_str.c_ptr_quick(), data_str.length()); wsrep::ws_meta ws_meta(gtid, wsrep::stid(server_id, transaction_id, client_id), wsrep::seqno::undefined(), flags); wsrep::high_priority_service* applier; if (!(applier= server_state.find_streaming_applier(server_id, transaction_id))) { DBUG_ASSERT(wsrep::starts_transaction(flags)); applier = wsrep_create_streaming_applier(&storage_thd, "recovery"); server_state.start_streaming_applier(server_id, transaction_id, applier); applier->start_transaction(wsrep::ws_handle(transaction_id, 0), ws_meta); } applier->store_globals(); wsrep::mutable_buffer unused; if ((ret= applier->apply_write_set(ws_meta, data, unused)) != 0) { WSREP_ERROR("SR trx recovery applying returned %d", ret); } else { applier->after_apply(); } storage_service.store_globals(); } else if (error == HA_ERR_END_OF_FILE) { ret= 0; } else { WSREP_ERROR("SR table scan returned error %d", error); } } Wsrep_schema_impl::end_scan(frag_table); Wsrep_schema_impl::finish_stmt(&storage_thd); trans_commit(&storage_thd); storage_thd.set_mysys_var(0); out: DBUG_RETURN(ret); }