/** * Copyright (c) 2021 OceanBase * OceanBase CE is licensed under Mulan PubL v2. * You can use this software according to the terms and conditions of the Mulan PubL v2. * You may obtain a copy of Mulan PubL v2 at: * http://license.coscl.org.cn/MulanPubL-2.0 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND, * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT, * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE. * See the Mulan PubL v2 for more details. */ #define USING_LOG_PREFIX RS #include "ob_recovery_ls_service.h" #include "lib/thread/threads.h" //set_run_wrapper #include "lib/mysqlclient/ob_mysql_transaction.h" //ObMySQLTransaction #include "lib/profile/ob_trace_id.h" #include "logservice/ob_log_base_header.h" //ObLogBaseHeader #include "logservice/ob_log_handler.h" //ObLogHandler #include "logservice/palf/log_entry.h" //LogEntry #include "logservice/palf/log_define.h" #include "share/scn.h"//SCN #include "logservice/ob_garbage_collector.h"//ObGCLSLog #include "logservice/restoreservice/ob_log_restore_handler.h"//ObLogRestoreHandler #include "observer/ob_server_struct.h" //GCTX #include "rootserver/ob_primary_ls_service.h" //ObTenantLSInfo #include "rootserver/ob_tenant_recovery_reportor.h" //ObTenantRecoveryReportor #include "rootserver/ob_tenant_info_loader.h" // ObTenantInfoLoader #include "rootserver/ob_create_standby_from_net_actor.h" // ObCreateStandbyFromNetActor #include "share/ls/ob_ls_life_manager.h" //ObLSLifeManger #include "share/ls/ob_ls_operator.h" //ObLSAttr #include "share/ls/ob_ls_recovery_stat_operator.h" //ObLSRecoveryLSStatOperator #include "share/ob_errno.h" #include "share/ob_share_util.h" //ObShareUtil #include "share/schema/ob_multi_version_schema_service.h" //ObMultiSchemaService #include "share/restore/ob_physical_restore_info.h" //restore_status #include "share/restore/ob_physical_restore_table_operator.h"//ObPhysicalRestoreTableOperator #include "share/ob_primary_standby_service.h" // ObPrimaryStandbyService #include "share/ob_standby_upgrade.h" // ObStandbyUpgrade #include "share/ob_upgrade_utils.h" // ObUpgradeChecker #include "share/ob_global_stat_proxy.h" // ObGlobalStatProxy #include "storage/tx/ob_tx_log.h" //ObTxLogHeader #include "storage/tx_storage/ob_ls_service.h" //ObLSService #include "storage/tx_storage/ob_ls_handle.h" //ObLSHandle #include "share/ob_log_restore_proxy.h" // ObLogRestoreProxyUtil #include "src/rootserver/ob_rs_event_history_table_operator.h" namespace oceanbase { using namespace logservice; using namespace transaction; using namespace share; using namespace storage; using namespace palf; namespace rootserver { int ObRecoveryLSService::init() { int ret = OB_SUCCESS; if (OB_UNLIKELY(inited_)) { ret = OB_INIT_TWICE; LOG_WARN("has inited", KR(ret)); } else if (OB_FAIL(ObTenantThreadHelper::create("RecLSSer", lib::TGDefIDs::LSService, *this))) { LOG_WARN("failed to create thread", KR(ret)); } else if (OB_FAIL(ObTenantThreadHelper::start())) { LOG_WARN("failed to start thread", KR(ret)); } else { tenant_id_ = MTL_ID(); proxy_ = GCTX.sql_proxy_; inited_ = true; } return ret; } void ObRecoveryLSService::destroy() { LOG_INFO("recovery ls service destory", KPC(this)); ObTenantThreadHelper::destroy(); inited_ = false; tenant_id_ = OB_INVALID_TENANT_ID; proxy_ = NULL; primary_is_avaliable_= true; } void ObRecoveryLSService::do_work() { int ret = OB_SUCCESS; if (OB_UNLIKELY(!inited_) || OB_ISNULL(proxy_)) { ret = OB_NOT_INIT; LOG_WARN("not init", K(ret), K(inited_), KP(proxy_)); } else { ObLSRecoveryStatOperator ls_recovery; palf::PalfBufferIterator iterator; int tmp_ret = OB_SUCCESS; const int64_t idle_time_us = 100 * 1000L; SCN start_scn; while (!has_set_stop()) { ObCurTraceId::init(GCONF.self_addr_); uint64_t thread_idx = get_thread_idx(); ObTenantInfoLoader *tenant_info_loader = MTL(ObTenantInfoLoader*); ObAllTenantInfo tenant_info; //two thread for seed log and recovery_ls_manager if (!is_user_tenant(tenant_id_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("ls recovery thread must run on user tenant", KR(ret), K(tenant_id_)); } else if (OB_ISNULL(tenant_info_loader)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("tenant report is null", KR(ret), K(tenant_id_)); } else if (OB_FAIL(tenant_info_loader->get_tenant_info(tenant_info))) { LOG_WARN("failed to get tenant info", KR(ret)); } else if (OB_FAIL(check_can_do_recovery_(tenant_info))) { LOG_WARN("failed to check do recovery", KR(ret), K(tenant_info)); } else if (0 == thread_idx) { if (OB_SUCCESS != (tmp_ret = process_recovery_ls_manager())) { ret = OB_SUCC(ret) ? tmp_ret : ret; LOG_WARN("failed to process recovery ls manager", KR(ret), KR(tmp_ret)); } if (tenant_info.is_standby()) { if (REACH_TENANT_TIME_INTERVAL(10 * 1000 * 1000)) { (void)try_update_primary_ip_list(); } } } else { if (!start_scn.is_valid()) { ObLSRecoveryStat ls_recovery_stat; if (OB_FAIL(ls_recovery.get_ls_recovery_stat(tenant_id_, SYS_LS, false, ls_recovery_stat, *proxy_))) { LOG_WARN("failed to load sys recovery stat", KR(ret), K(tenant_id_)); } else if (OB_FAIL(report_sys_ls_recovery_stat_(ls_recovery_stat.get_sync_scn()))) { //may recovery end, but readable scn need report LOG_WARN("failed to report ls recovery stat", KR(ret), K(ls_recovery_stat)); } else if (tenant_info.get_recovery_until_scn() == ls_recovery_stat.get_sync_scn()) { ret = OB_EAGAIN; if (REACH_TIME_INTERVAL(60 * 1000 * 1000)) { // every minute LOG_INFO("has recovered to recovery_until_scn", KR(ret), K(ls_recovery_stat), K(tenant_info)); } } else if (OB_FAIL(seek_log_iterator_(ls_recovery_stat.get_sync_scn(), iterator))) { LOG_WARN("failed to seek log iterator", KR(ret), K(ls_recovery_stat)); } else { start_scn = ls_recovery_stat.get_sync_scn(); LOG_INFO("start to seek at", K(start_scn)); } } if (OB_FAIL(ret)) { } else if (start_scn.is_valid() && OB_FAIL(process_ls_log_(tenant_info, start_scn, iterator))) { if (OB_ITER_STOP != ret) { LOG_WARN("failed to process ls log", KR(ret), K(start_scn), K(tenant_info)); } } if (OB_FAIL(ret)) { start_scn.reset(); } if (REACH_TIME_INTERVAL(10 * 1000 * 1000)) { // every 10 second (void)try_tenant_upgrade_end_(); } } LOG_INFO("[LS_RECOVERY] finish one round", KR(ret), KR(tmp_ret), K(start_scn), K(thread_idx), K(tenant_info)); idle(idle_time_us); } } } int ObRecoveryLSService::seek_log_iterator_(const SCN &sync_scn, PalfBufferIterator &iterator) { int ret = OB_SUCCESS; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } else if (OB_UNLIKELY(!sync_scn.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("sync scn is invalid", KR(ret), K(sync_scn)); } else { ObLSService *ls_svr = MTL(ObLSService *); ObLSHandle ls_handle; if (OB_FAIL(ls_svr->get_ls(SYS_LS, ls_handle, storage::ObLSGetMod::RS_MOD))) { LOG_WARN("failed to get ls", KR(ret)); } else { ObLogHandler *log_handler = NULL; ObLS *ls = NULL; palf::LSN start_lsn(0); if (OB_ISNULL(ls = ls_handle.get_ls()) || OB_ISNULL(log_handler = ls->get_log_handler())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("ls or log handle is null", KR(ret), KP(ls), KP(log_handler)); } else { if (SCN::base_scn() == sync_scn) { // start_lsn = 0; } else { if (OB_FAIL(log_handler->locate_by_scn_coarsely(sync_scn, start_lsn))) { LOG_WARN("failed to locate lsn", KR(ret), K(sync_scn)); } } if (OB_FAIL(ret)) { } else if (OB_FAIL(log_handler->seek(start_lsn, iterator))) { LOG_WARN("failed to seek iterator", KR(ret), K(sync_scn), K(start_lsn)); } } } } return ret; } int ObRecoveryLSService::process_ls_log_( const ObAllTenantInfo &tenant_info, SCN &start_scn, PalfBufferIterator &iterator) { int ret = OB_SUCCESS; palf::LogEntry log_entry; palf::LSN target_lsn; SCN sync_scn; SCN last_sync_scn; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } else if (OB_UNLIKELY(!tenant_info.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("tenant_info is invalid", KR(ret), K(tenant_info)); } while (OB_SUCC(ret) && OB_SUCC(iterator.next())) { if (OB_FAIL(iterator.get_entry(log_entry, target_lsn))) { LOG_WARN("failed to get log", KR(ret), K(log_entry)); } else if (OB_ISNULL(log_entry.get_data_buf())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("log entry is null", KR(ret)); } else { LOG_DEBUG("get log", K(log_entry), K(target_lsn), K(start_scn)); sync_scn = log_entry.get_scn(); const char *log_buf = log_entry.get_data_buf(); const int64_t log_length = log_entry.get_data_len(); logservice::ObLogBaseHeader header; const int64_t HEADER_SIZE = header.get_serialize_size(); int64_t log_pos = 0; if (OB_UNLIKELY(sync_scn <= start_scn)) { //通过scn定位的LSN是不准确的,可能会获取多余的数据,所以需要把小于等于sync_scn的过滤掉 continue; } else if (tenant_info.get_recovery_until_scn() < sync_scn) { if (OB_FAIL(report_sys_ls_recovery_stat_(tenant_info.get_recovery_until_scn()))) { LOG_WARN("failed to report_sys_ls_recovery_stat_", KR(ret), K(sync_scn), K(tenant_info), K(log_entry), K(target_lsn), K(start_scn)); // SYS LS has recovered to the recovery_until_scn, need stop iterate SYS LS log and reset start_scn } else if (OB_FAIL(seek_log_iterator_(tenant_info.get_recovery_until_scn(), iterator))) { LOG_WARN("failed to seek log iterator", KR(ret), K(sync_scn), K(tenant_info), K(log_entry), K(target_lsn), K(start_scn)); } else { ret = OB_ITER_STOP; LOG_WARN("SYS LS has recovered to the recovery_until_scn, need stop iterate SYS LS log", KR(ret), K(sync_scn), K(tenant_info), K(log_entry), K(target_lsn), K(start_scn)); start_scn.reset(); } } else if (OB_FAIL(header.deserialize(log_buf, HEADER_SIZE, log_pos))) { LOG_WARN("failed to deserialize", KR(ret), K(HEADER_SIZE)); } else if (OB_UNLIKELY(log_pos >= log_length)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("log pos is not expected", KR(ret), K(log_pos), K(log_length)); } else if (logservice::GC_LS_LOG_BASE_TYPE == header.get_log_type()) { ObGCLSLog gc_log; if (OB_FAIL(gc_log.deserialize(log_buf, log_length, log_pos))) { LOG_WARN("failed to deserialize gc log", KR(ret), K(log_length)); } else if (ObGCLSLOGType::OFFLINE_LS == gc_log.get_log_type()) { //set sys ls offline if (OB_FAIL(process_gc_log_(gc_log, sync_scn))) { LOG_WARN("failed to process gc log", KR(ret), K(sync_scn)); } } // nothing } else if (logservice::TRANS_SERVICE_LOG_BASE_TYPE == header.get_log_type()) { ObTxLogBlock tx_log_block; ObTxLogBlockHeader tx_block_header; if (OB_FAIL(tx_log_block.init(log_buf, log_length, log_pos, tx_block_header))) { LOG_WARN("failed to init tx log block", KR(ret), K(log_length)); } else if (OB_FAIL(process_ls_tx_log_(tx_log_block, sync_scn))) { LOG_WARN("failed to process ls tx log", KR(ret), K(tx_log_block), K(sync_scn)); } } else {} if (OB_SUCC(ret)) { last_sync_scn = sync_scn; } else if (last_sync_scn.is_valid()) { //if ls_operator can not process, need to report last sync scn int tmp_ret = OB_SUCCESS; if (OB_TMP_FAIL(report_sys_ls_recovery_stat_(last_sync_scn))) { LOG_WARN("failed to report ls recovery stat", KR(ret), KR(tmp_ret), K(last_sync_scn)); } } } }//end for each log if (OB_ITER_END == ret) { ret = OB_SUCCESS; if (OB_FAIL(report_sys_ls_recovery_stat_(sync_scn))) { LOG_WARN("failed to report ls recovery stat", KR(ret), K(sync_scn), K(iterator)); } } else if (OB_SUCC(ret)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("iterator must be end", KR(ret), K(iterator)); } else { LOG_WARN("failed to get next log", KR(ret), K(iterator)); } return ret; } int ObRecoveryLSService::process_ls_tx_log_(ObTxLogBlock &tx_log_block, const SCN &sync_scn) { int ret = OB_SUCCESS; bool has_operation = false; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } while (OB_SUCC(ret)) { transaction::ObTxLogHeader tx_header; if (OB_FAIL(tx_log_block.get_next_log(tx_header))) { if (OB_ITER_END == ret) { ret = OB_SUCCESS; break; } else { LOG_WARN("failed to get next log", KR(ret)); } } else if (transaction::ObTxLogType::TX_COMMIT_LOG != tx_header.get_tx_log_type()) { // nothing } else { ObTxCommitLogTempRef temp_ref; ObTxCommitLog commit_log(temp_ref); const int64_t COMMIT_SIZE = commit_log.get_serialize_size(); //TODO commit log may too large if (OB_FAIL(tx_log_block.deserialize_log_body(commit_log))) { LOG_WARN("failed to deserialize", KR(ret)); } else { const ObTxBufferNodeArray &source_data = commit_log.get_multi_source_data(); for (int64_t i = 0; OB_SUCC(ret) && i < source_data.count(); ++i) { const ObTxBufferNode &node = source_data.at(i); if (ObTxDataSourceType::STANDBY_UPGRADE == node.get_data_source_type()) { if (OB_FAIL(process_upgrade_log_(node))) { LOG_WARN("failed to process_upgrade_log_", KR(ret), K(node)); } } else if (ObTxDataSourceType::LS_TABLE != node.get_data_source_type()) { // nothing } else if (has_operation) { ret = OB_ERR_UNEXPECTED; LOG_ERROR("one clog has more than one operation", KR(ret), K(commit_log)); } else { has_operation = true; ObLSAttr ls_attr; const int64_t LS_SIZE = ls_attr.get_serialize_size(); int64_t pos = 0; if (OB_FAIL(ls_attr.deserialize(node.get_data_buf().ptr(), LS_SIZE, pos))) { LOG_WARN("failed to deserialize", KR(ret), K(node), K(LS_SIZE)); } else if (OB_UNLIKELY(pos > LS_SIZE)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("failed to get ls attr", KR(ret), K(pos), K(LS_SIZE)); } else { LOG_INFO("get ls operation", K(ls_attr), K(sync_scn)); //TODO ls recovery is too fast for ls manager, so it maybe failed, while change ls status //consider how to retry if (OB_FAIL(process_ls_operator_(ls_attr, sync_scn))) { LOG_WARN("failed to process ls operator", KR(ret), K(ls_attr), K(sync_scn)); } } } }// end for } } } // end while for each tx_log return ret; } int ObRecoveryLSService::process_upgrade_log_(const ObTxBufferNode &node) { int ret = OB_SUCCESS; uint64_t standby_data_version = 0; if (!node.is_valid()) { ret = OB_INVALID_ARGUMENT; LOG_WARN("node is invalid", KR(ret), K(node)); } else { ObStandbyUpgrade primary_data_version; int64_t pos = 0; if (OB_FAIL(primary_data_version.deserialize(node.get_data_buf().ptr(), node.get_data_buf().length(), pos))) { LOG_WARN("failed to deserialize", KR(ret), K(node), KPHEX(node.get_data_buf().ptr(), node.get_data_buf().length())); } else if (OB_UNLIKELY(pos > node.get_data_buf().length())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("failed to get primary_data_version", KR(ret), K(pos), K(node.get_data_buf().length())); } else { LOG_INFO("get primary_data_version", K(primary_data_version)); if (!primary_data_version.is_valid()) { ret = OB_ERR_UNEXPECTED; LOG_WARN("primary_data_version not valid", KR(ret), K(primary_data_version)); } else if (OB_FAIL(ObUpgradeChecker::get_data_version_by_cluster_version( GET_MIN_CLUSTER_VERSION(), standby_data_version))) { LOG_WARN("failed to get_data_version_by_cluster_version", KR(ret), K(GET_MIN_CLUSTER_VERSION())); } else if (primary_data_version.get_data_version() > standby_data_version) { ret = OB_EAGAIN; if (REACH_TIME_INTERVAL(30 * 60 * 1000 * 1000)) { // 30min LOG_ERROR("standby version is not new enough to recover primary clog", KR(ret), K(primary_data_version), K(standby_data_version)); } } } } return ret; } int ObRecoveryLSService::get_min_data_version_(uint64_t &compatible) { int ret = OB_SUCCESS; compatible = 0; if (OB_ISNULL(proxy_)) { ret = OB_NOT_INIT; LOG_WARN("sql proxy is null", KR(ret)); } else { SMART_VAR(ObMySQLProxy::MySQLResult, result) { uint64_t exec_tenant_id = gen_meta_tenant_id(tenant_id_); ObSqlString sql; if (OB_FAIL(sql.assign_fmt("select value as compatible from %s where tenant_id = '%lu' and name = 'compatible' ", OB_TENANT_PARAMETER_TNAME, tenant_id_))) { LOG_WARN("fail to generate sql", KR(ret), K_(tenant_id)); } else if (OB_FAIL(proxy_->read(result, exec_tenant_id, sql.ptr()))) { LOG_WARN("read config from __tenant_parameter failed", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); } else if (OB_ISNULL(result.get_result())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("config result is null", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); } else if (OB_FAIL(result.get_result()->next())) { if (OB_ITER_END == ret) { LOG_WARN("compatible not set, it is net standby tenant", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); ret = OB_SUCCESS; compatible = 0; } else { LOG_WARN("get result next failed", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); } } else if (OB_ISNULL(result.get_result())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("result is null", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); } else { ObString compatible_str; EXTRACT_VARCHAR_FIELD_MYSQL(*result.get_result(), "compatible", compatible_str); if (OB_FAIL(ret)) { LOG_WARN("failed to get result", KR(ret), K_(tenant_id), K(exec_tenant_id), K(sql)); } else if (OB_FAIL(ObClusterVersion::get_version(compatible_str, compatible))) { LOG_WARN("parse version failed", KR(ret), K(compatible_str)); } } } } return ret; } void ObRecoveryLSService::try_tenant_upgrade_end_() { int ret = OB_SUCCESS; uint64_t min_data_version = 0; obrpc::ObCommonRpcProxy *rs_rpc_proxy_ = GCTX.rs_rpc_proxy_; if (OB_ISNULL(proxy_) || !is_user_tenant(tenant_id_) || OB_ISNULL(rs_rpc_proxy_)) { ret = OB_NOT_INIT; LOG_WARN("invalid argument", KR(ret), KP(proxy_), K_(tenant_id), KP(rs_rpc_proxy_)); } else if (OB_FAIL(get_min_data_version_(min_data_version))) { LOG_WARN("fail to get min data version", KR(ret), K_(tenant_id)); } else if (min_data_version == DATA_CURRENT_VERSION) { // already upgrade end } else { ObGlobalStatProxy proxy(*proxy_, tenant_id_); uint64_t target_data_version = 0; uint64_t current_data_version = 0; if (OB_FAIL(proxy.get_target_data_version(false /* for_update */, target_data_version))) { LOG_WARN("fail to get target data version", KR(ret), K_(tenant_id)); } else if (OB_FAIL(proxy.get_current_data_version(current_data_version))) { LOG_WARN("fail to get current data version", KR(ret), K_(tenant_id)); } else if (!(target_data_version == current_data_version && target_data_version != min_data_version && min_data_version <= DATA_CURRENT_VERSION)) { ret = EAGAIN; LOG_WARN("data_version not match, run upgrade end later", KR(ret), K_(tenant_id), K(target_data_version), K(current_data_version), K(DATA_CURRENT_VERSION), K(min_data_version)); } else { HEAP_VAR(obrpc::ObAdminSetConfigItem, item) { ObSchemaGetterGuard guard; const ObSimpleTenantSchema *tenant = NULL; obrpc::ObAdminSetConfigArg arg; item.exec_tenant_id_ = OB_SYS_TENANT_ID; const int64_t timeout = GCONF.internal_sql_execute_timeout; int64_t pos = ObClusterVersion::print_version_str( item.value_.ptr(), item.value_.capacity(), current_data_version); if (pos <= 0) { ret = OB_INVALID_ARGUMENT; LOG_WARN("current_data_version is invalid", KR(ret), K_(tenant_id), K(current_data_version)); } else if (OB_FAIL(GSCHEMASERVICE.get_tenant_schema_guard(OB_SYS_TENANT_ID, guard))) { LOG_WARN("fail to get schema guard", KR(ret)); } else if (OB_FAIL(guard.get_tenant_info(tenant_id_, tenant))) { LOG_WARN("fail to get tenant info", KR(ret), K_(tenant_id)); } else if (OB_ISNULL(tenant)) { ret = OB_TENANT_NOT_EXIST; LOG_WARN("tenant not exist", KR(ret), K_(tenant_id)); } else if (OB_FAIL(item.tenant_name_.assign(tenant->get_tenant_name()))) { LOG_WARN("fail to assign tenant name", KR(ret), K_(tenant_id)); } else if (OB_FAIL(item.name_.assign("compatible"))) { LOG_WARN("fail to assign config name", KR(ret), K_(tenant_id)); } else if (OB_FAIL(arg.items_.push_back(item))) { LOG_WARN("fail to push back item", KR(ret), K(item)); } else if (OB_FAIL(rs_rpc_proxy_->timeout(timeout).admin_set_config(arg))) { LOG_WARN("fail to set config", KR(ret), K(arg), K(timeout)); } else { LOG_INFO("upgrade end", KR(ret), K(arg), K(timeout), K_(tenant_id), K(target_data_version), K(current_data_version), K(DATA_CURRENT_VERSION), K(min_data_version)); } } // end HEAP_VAR } } } int ObRecoveryLSService::process_gc_log_(logservice::ObGCLSLog &gc_log, const SCN &sync_scn) { int ret = OB_SUCCESS; common::ObMySQLTransaction trans; const uint64_t meta_tenant_id = gen_meta_tenant_id(tenant_id_); ObLSLifeAgentManager ls_life_agent(*proxy_); if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("proxy is null", KR(ret)); } else if (OB_FAIL(trans.start(proxy_, meta_tenant_id))) { LOG_WARN("failed to start trans", KR(ret), K(meta_tenant_id)); } else if (OB_FAIL(ls_life_agent.set_ls_offline_in_trans( tenant_id_, SYS_LS, share::OB_LS_TENANT_DROPPING, sync_scn, share::NORMAL_SWITCHOVER_STATUS, trans))) { LOG_WARN("failed to set offline", KR(ret), K(tenant_id_), K(sync_scn)); } else { ObLSRecoveryStatOperator ls_recovery; ObLSRecoveryStat ls_recovery_stat; if (OB_FAIL(construct_ls_recovery_stat(sync_scn, ls_recovery_stat))) { LOG_WARN("failed to construct ls recovery stat", KR(ret), K(sync_scn)); } else if (OB_FAIL(ls_recovery.update_ls_recovery_stat_in_trans( ls_recovery_stat, trans))) { LOG_WARN("failed to update ls recovery stat", KR(ret), K(ls_recovery_stat)); } } if (trans.is_started()) { int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = trans.end(OB_SUCC(ret)))) { ret = OB_SUCC(ret) ? tmp_ret : ret; LOG_WARN("failed to end trans", KR(ret), K(tmp_ret)); } } return ret; } int ObRecoveryLSService::construct_ls_recovery_stat(const SCN &sync_scn, ObLSRecoveryStat &ls_stat) { int ret = OB_SUCCESS; ls_stat.reset(); SCN readable_scn; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } else if (OB_FAIL(ObTenantRecoveryReportor::get_readable_scn(SYS_LS, readable_scn))) { LOG_WARN("failed to get readable scn", KR(ret)); } else if (OB_FAIL(ls_stat.init_only_recovery_stat( tenant_id_, SYS_LS, sync_scn, readable_scn))) { LOG_WARN("failed to init ls recovery stat", KR(ret), K(tenant_id_), K(sync_scn), K(readable_scn)); } return ret; } int ObRecoveryLSService::process_ls_operator_(const share::ObLSAttr &ls_attr, const SCN &sync_scn) { int ret = OB_SUCCESS; common::ObMySQLTransaction trans; const uint64_t meta_tenant_id = gen_meta_tenant_id(tenant_id_); if (OB_UNLIKELY(!ls_attr.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("ls attr is invalid", KR(ret), K(ls_attr)); } else if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("proxy is null", KR(ret)); } else if (OB_FAIL(check_valid_to_operator_ls_(ls_attr, sync_scn))) { LOG_WARN("failed to check valid to operator ls", KR(ret), K(sync_scn), K(ls_attr)); } else if (OB_FAIL(trans.start(proxy_, meta_tenant_id))) { LOG_WARN("failed to start trans", KR(ret), K(meta_tenant_id)); } else if (OB_FAIL(process_ls_operator_in_trans_(ls_attr, sync_scn, trans))) { LOG_WARN("failed to process ls operator in trans", KR(ret), K(ls_attr), K(sync_scn)); } if (OB_SUCC(ret)) { ObLSRecoveryStat ls_recovery_stat; ObLSRecoveryStatOperator ls_recovery; if (OB_FAIL(construct_ls_recovery_stat(sync_scn, ls_recovery_stat))) { LOG_WARN("failed to construct ls recovery stat", KR(ret), K(sync_scn)); } else if (OB_FAIL(ls_recovery.update_ls_recovery_stat_in_trans( ls_recovery_stat, trans))) { LOG_WARN("failed to update ls recovery stat", KR(ret), K(ls_recovery_stat)); } } if (trans.is_started()) { int tmp_ret = OB_SUCCESS; if (OB_SUCCESS != (tmp_ret = trans.end(OB_SUCC(ret)))) { ret = OB_SUCC(ret) ? tmp_ret : ret; LOG_WARN("failed to end trans", KR(ret), K(tmp_ret)); } } return ret; } int ObRecoveryLSService::check_valid_to_operator_ls_( const share::ObLSAttr &ls_attr, const SCN &sync_scn) { int ret = OB_SUCCESS; bool has_user_ls = true; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } else if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("proxy is null", KR(ret)); } else if (OB_UNLIKELY(!sync_scn.is_valid() || !ls_attr.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("syns scn is invalid", KR(ret), K(sync_scn), K(ls_attr)); } else if (share::is_ls_tenant_drop_pre_op(ls_attr.get_ls_operatin_type())) { ret = OB_ITER_STOP; LOG_WARN("can not process ls operator after tenant dropping", K(ls_attr)); } else if (share::is_ls_tenant_drop_op(ls_attr.get_ls_operatin_type())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("ls recovery must stop while pre tenant dropping", KR(ret), K(ls_attr)); } else if (OB_FAIL(ObCreateStandbyFromNetActor::check_has_user_ls(tenant_id_, proxy_, has_user_ls))) { LOG_WARN("check_has_user_ls failed", KR(ret), K(tenant_id_)); } else if (has_user_ls) { SCN user_scn; ObLSRecoveryStatOperator ls_recovery; if (OB_FAIL(ls_recovery.get_user_ls_sync_scn(tenant_id_, *proxy_, user_scn))) { LOG_WARN("failed to get user scn", KR(ret), K(tenant_id_)); } else if (user_scn >= sync_scn) { //other ls has larger sync scn, ls can operator } else { ret = OB_NEED_WAIT; LOG_WARN("can not process ls operator, need wait other ls sync", KR(ret), K(user_scn), K(sync_scn)); } } return ret; } int ObRecoveryLSService::process_ls_operator_in_trans_( const share::ObLSAttr &ls_attr, const SCN &sync_scn, ObMySQLTransaction &trans) { int ret = OB_SUCCESS; const uint64_t meta_tenant_id = gen_meta_tenant_id(tenant_id_); if (OB_UNLIKELY(!ls_attr.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("ls attr is invalid", KR(ret), K(ls_attr)); } else if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("proxy is null", KR(ret)); } else { ObLSStatusOperator ls_operator; share::ObLSStatusInfo ls_status; ObLSLifeAgentManager ls_life_agent(*proxy_); if (OB_UNLIKELY(!ls_attr.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("ls attr is invalid", KR(ret), K(ls_attr)); } else if (share::is_ls_create_pre_op(ls_attr.get_ls_operatin_type())) { //create new ls; if (OB_FAIL(create_new_ls_(ls_attr, sync_scn, trans))) { LOG_WARN("failed to create new ls", KR(ret), K(sync_scn), K(ls_attr)); } } else if (share::is_ls_create_abort_op(ls_attr.get_ls_operatin_type())) { if (OB_FAIL(ls_life_agent.drop_ls_in_trans(tenant_id_, ls_attr.get_ls_id(), share::NORMAL_SWITCHOVER_STATUS, trans))) { LOG_WARN("failed to drop ls", KR(ret), K(tenant_id_), K(ls_attr)); } } else if (share::is_ls_drop_end_op(ls_attr.get_ls_operatin_type())) { if (OB_FAIL(ls_life_agent.set_ls_offline_in_trans(tenant_id_, ls_attr.get_ls_id(), ls_attr.get_ls_status(), sync_scn, share::NORMAL_SWITCHOVER_STATUS, trans))) { LOG_WARN("failed to set offline", KR(ret), K(tenant_id_), K(ls_attr), K(sync_scn)); } } else { ObLSStatus target_status = share::OB_LS_EMPTY; if (OB_FAIL(ls_operator.get_ls_status_info(tenant_id_, ls_attr.get_ls_id(), ls_status, trans))) { LOG_WARN("failed to get ls status", KR(ret), K(tenant_id_), K(ls_attr)); } else if (ls_status.ls_is_creating()) { ret = OB_EAGAIN; LOG_WARN("ls not created, need wait", KR(ret), K(ls_status)); } else if (share::is_ls_create_end_op(ls_attr.get_ls_operatin_type())) { // set ls to normal target_status = share::OB_LS_NORMAL; } else if (share::is_ls_tenant_drop_op(ls_attr.get_ls_operatin_type())) { target_status = share::OB_LS_TENANT_DROPPING; } else if (share::is_ls_drop_pre_op(ls_attr.get_ls_operatin_type())) { target_status = share::OB_LS_DROPPING; } else if (share::is_ls_tenant_drop_pre_op(ls_attr.get_ls_operatin_type())) { target_status = share::OB_LS_PRE_TENANT_DROPPING; } else { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected operation type", KR(ret), K(ls_attr)); } if (FAILEDx(ls_operator.update_ls_status(tenant_id_, ls_attr.get_ls_id(), ls_status.status_, target_status, share::NORMAL_SWITCHOVER_STATUS, trans))) { LOG_WARN("failed to update ls status", KR(ret), K(tenant_id_), K(ls_attr), K(ls_status), K(target_status)); } LOG_INFO("[LS_RECOVERY] update ls status", KR(ret), K(ls_attr), K(target_status)); } } return ret; } int ObRecoveryLSService::create_new_ls_(const share::ObLSAttr &ls_attr, const SCN &sync_scn, common::ObMySQLTransaction &trans) { int ret = OB_SUCCESS; if (!share::is_ls_create_pre_op(ls_attr.get_ls_operatin_type())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("ls not create pre operation", KR(ret), K(ls_attr)); } else { //create new ls; DEBUG_SYNC(BEFORE_RECOVER_USER_LS); share::schema::ObSchemaGetterGuard schema_guard; const share::schema::ObTenantSchema *tenant_schema = NULL; if (OB_ISNULL(GCTX.schema_service_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected error", KR(ret)); } else if (OB_FAIL(GCTX.schema_service_->get_tenant_schema_guard( OB_SYS_TENANT_ID, schema_guard))) { LOG_WARN("fail to get schema guard", KR(ret)); } else if (OB_FAIL(schema_guard.get_tenant_info(tenant_id_, tenant_schema))) { LOG_WARN("failed to get tenant ids", KR(ret), K(tenant_id_)); } else if (OB_ISNULL(tenant_schema)) { ret = OB_TENANT_NOT_EXIST; LOG_WARN("tenant not exist", KR(ret), K(tenant_id_)); } else { ObTenantLSInfo tenant_stat(GCTX.sql_proxy_, tenant_schema, tenant_id_, GCTX.srv_rpc_proxy_, GCTX.lst_operator_); ObLSFlag ls_flag = ls_attr.get_ls_flag(); if (OB_FAIL(tenant_stat.gather_stat(true))) { LOG_WARN("failed to gather stat", KR(ret)); } else if (OB_FAIL(tenant_stat.create_new_ls_for_recovery(ls_attr.get_ls_id(), ls_attr.get_ls_group_id(), ls_attr.get_create_scn(), trans, ls_flag))) { LOG_WARN("failed to add new ls status info", KR(ret), K(ls_attr), K(sync_scn)); } } LOG_INFO("[LS_RECOVERY] create new ls", KR(ret), K(ls_attr)); } return ret; } int ObRecoveryLSService::process_recovery_ls_manager() { int ret = OB_SUCCESS; share::schema::ObSchemaGetterGuard schema_guard; const share::schema::ObTenantSchema *tenant_schema = NULL; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", K(ret), K(inited_)); } else if (OB_ISNULL(GCTX.schema_service_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected error", KR(ret)); } else if (OB_FAIL(GCTX.schema_service_->get_tenant_schema_guard( OB_SYS_TENANT_ID, schema_guard))) { LOG_WARN("fail to get schema guard", KR(ret)); } else if (OB_FAIL(schema_guard.get_tenant_info(tenant_id_, tenant_schema))) { LOG_WARN("failed to get tenant ids", KR(ret), K(tenant_id_)); } else if (OB_ISNULL(tenant_schema)) { ret = OB_TENANT_NOT_EXIST; LOG_WARN("tenant not exist", KR(ret), K(tenant_id_)); } else { ObTenantLSInfo tenant_stat(GCTX.sql_proxy_, tenant_schema, tenant_id_, GCTX.srv_rpc_proxy_, GCTX.lst_operator_); if (OB_FAIL(tenant_stat.process_ls_stats_for_recovery())) { LOG_WARN("failed to do process in standby", KR(ret), K(tenant_id_)); } } return ret; } int ObRecoveryLSService::check_can_do_recovery_(const ObAllTenantInfo &tenant_info) { int ret = OB_SUCCESS; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", K(ret), K(inited_)); } else if (OB_UNLIKELY(!tenant_info.is_valid())) { ret = OB_INVALID_ARGUMENT; LOG_WARN("tenant_info is invalid", KR(ret), K(tenant_info)); } else if (tenant_info.is_primary()) { ret = OB_ERR_UNEXPECTED; LOG_WARN("primary tenant can not do recovery", KR(ret), K(tenant_info)); } else if (tenant_info.is_standby()) { //standby can do recovery } else if (tenant_info.is_restore()) { //need to check success to create init ls share::ObPhysicalRestoreTableOperator restore_table_operator; share::ObPhysicalRestoreJob job_info; if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("sql can't null", K(ret), K(proxy_)); } else if (OB_FAIL(restore_table_operator.init(proxy_, tenant_id_))) { LOG_WARN("fail to init restore table operator", KR(ret), K(tenant_id_)); } else if (OB_FAIL(restore_table_operator.get_job_by_tenant_id(tenant_id_, job_info))) { LOG_WARN("fail to get restore job", K(ret), K(tenant_id_)); } else if (job_info.is_valid_status_to_recovery()) { //can do recovery } else { ret = OB_NEED_WAIT; LOG_WARN("restore tenant not valid to recovery", KR(ret), K(job_info)); } } else { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected tenant role", KR(ret), K(tenant_info)); } return ret; } int ObRecoveryLSService::report_sys_ls_recovery_stat_(const SCN &sync_scn) { int ret = OB_SUCCESS; if (OB_UNLIKELY(!inited_)) { ret = OB_NOT_INIT; LOG_WARN("not init", KR(ret), K(inited_)); } else if (OB_ISNULL(proxy_)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("sql can't null", K(ret), K(proxy_)); } else if (SCN::base_scn() != sync_scn) { ObLSRecoveryStatOperator ls_recovery; ObLSRecoveryStat ls_recovery_stat; if (OB_FAIL(construct_ls_recovery_stat(sync_scn, ls_recovery_stat))) { LOG_WARN("failed to construct ls recovery stat", KR(ret), K(sync_scn)); } else if (OB_FAIL(ls_recovery.update_ls_recovery_stat(ls_recovery_stat, *proxy_))) { LOG_WARN("failed to update ls recovery stat", KR(ret), K(ls_recovery_stat)); } } return ret; } void ObRecoveryLSService::try_update_primary_ip_list() { int ret = OB_SUCCESS; ObLogRestoreSourceMgr restore_source_mgr; ObLogRestoreSourceItem item; common::ObArray primary_addrs; ObSqlString standby_source_value; ObRestoreSourceServiceAttr service_attr; ObMySQLTransaction trans; ObSqlString user_and_tenant; int64_t primary_cluster_id; uint64_t primary_tenant_id; char passwd[OB_MAX_PASSWORD_LENGTH + 1] = { 0 }; //unencrypted password SMART_VAR(ObLogRestoreProxyUtil, proxy) { if (OB_FAIL(restore_source_mgr.init(tenant_id_, proxy_))) { LOG_WARN("fail to init restore_source_mgr", K_(tenant_id)); } else if (OB_FAIL(restore_source_mgr.get_source(item))) { LOG_WARN("get source failed", K_(tenant_id)); } else if (!check_need_update_ip_list(item)) { LOG_INFO("there is no log restore source record or the log restore source type is not service" , K(item)); } else if (OB_FAIL(get_restore_source_value(item, standby_source_value))) { LOG_WARN("fail to get service standby log_restore source value", K(item)); } else if (OB_FAIL(service_attr.parse_service_attr_from_str(standby_source_value))) { LOG_WARN("fail to parse service attr", K(item), K(standby_source_value)); } else if (!service_attr.is_valid()) { ret = OB_INVALID_ARGUMENT; LOG_WARN("service attr is invalid", K(service_attr)); } else if (OB_FAIL(service_attr.get_password(passwd, sizeof(passwd)))) { LOG_WARN("get servcie attr password failed", K(service_attr)); } else if (OB_FAIL(service_attr.get_user_str_(user_and_tenant))) { LOG_WARN("get user str failed", K(service_attr.user_.user_name_), K(service_attr.user_.tenant_name_)); } else if (OB_FAIL(proxy.init(tenant_id_/*standby*/, service_attr.addr_, user_and_tenant.ptr(), passwd, service_attr.user_.mode_ == ObCompatibilityMode::MYSQL_MODE ? OB_SYS_DATABASE_NAME : OB_ORA_SYS_SCHEMA_NAME))) { LOG_WARN("proxy fail to connect to primary", K_(tenant_id), K(service_attr.addr_), K(user_and_tenant)); bool cur_primary_state = false; if (cur_primary_state != primary_is_avaliable_) { primary_is_avaliable_ = false; LOG_WARN("standby recovery ls service state changed"); if (-ER_ACCESS_DENIED_ERROR == ret) { ROOTSERVICE_EVENT_ADD("root_service", "update_primary_ip_list", "tenant_id", tenant_id_, K(ret), "ob_error_name", ob_error_name(OB_PASSWORD_WRONG), "ob_error_str", ob_strerror(OB_PASSWORD_WRONG), "primary_user_tenant", user_and_tenant.ptr(), "primary_ip_list", service_attr.addr_); } else if (-ER_CONNECT_FAILED == ret) { ROOTSERVICE_EVENT_ADD("root_service", "update_primary_ip_list", "tenant_id", tenant_id_, K(ret), "ob_error_name", ob_error_name(OB_CONNECT_ERROR), "ob_error_str", ob_strerror(OB_CONNECT_ERROR), "primary_user_tenant", user_and_tenant.ptr(), "primary_ip_list", service_attr.addr_); } } } else if (OB_FAIL(proxy.get_cluster_id(service_attr.user_.tenant_id_, primary_cluster_id))) { LOG_WARN("proxy fail to get primary cluster id", K(service_attr.user_.tenant_id_)); } else if (OB_FAIL(proxy.get_tenant_id(service_attr.user_.tenant_name_, primary_tenant_id))) { LOG_WARN("proxy fail to get primary tenant id", K(service_attr.user_.tenant_name_)); } else if (OB_FAIL(proxy.get_server_ip_list(service_attr.user_.tenant_id_, primary_addrs))) { LOG_WARN("fail to get primary server ip list", K(service_attr.user_.tenant_id_)); } else if (primary_addrs.empty()) { ret = OB_INVALID_ARGUMENT; LOG_WARN("tenant ip list is empty", K(primary_addrs)); } else if ((primary_cluster_id != service_attr.user_.cluster_id_) || (primary_tenant_id != service_attr.user_.tenant_id_)) { LOG_WARN("primary cluster id or tenant id has changed", K(primary_cluster_id), K(service_attr.user_.cluster_id_), K(primary_tenant_id), K(service_attr.user_.tenant_id_)); } else { bool cur_primary_state = true; if (cur_primary_state != primary_is_avaliable_) { primary_is_avaliable_ = true; ROOTSERVICE_EVENT_ADD("root_service", "update_primary_ip_list", "tenant_id", tenant_id_, "info", "primary connection recovery", "primary_user_tenant", user_and_tenant.ptr(), "primary_ip_list", primary_addrs); } bool addr_is_same = false; addr_is_same = service_attr.compare_addr_(primary_addrs); if (!addr_is_same) { common::ObArray tmp_addr = service_attr.addr_; service_attr.addr_.reset(); ARRAY_FOREACH_N(primary_addrs, idx, cnt) { if (OB_FAIL(service_attr.addr_.push_back(primary_addrs.at(idx)))) { LOG_WARN("fail to push back primary addr", K(primary_addrs.at(idx))); } } LOG_INFO("primary ip list has changed", K(addr_is_same), K(primary_addrs), K(service_attr.addr_)); if (OB_FAIL(ret)) { LOG_WARN("fail to update primary ip list"); } else if (OB_FAIL(do_update_restore_source(service_attr, restore_source_mgr))) { LOG_WARN("fail to update restore source", K(service_attr)); } ROOTSERVICE_EVENT_ADD("root_service", "update_primary_ip_list", "tenant_id", tenant_id_, "info", "do update primary ip list", "primary_user_tenant", user_and_tenant.ptr(), "new_primary_ip_list", tmp_addr, "old_primary_ip_list", primary_addrs); } } } } bool ObRecoveryLSService::check_need_update_ip_list(ObLogRestoreSourceItem &item) { return item.is_valid() && ObLogRestoreSourceType::SERVICE == item.type_; } int ObRecoveryLSService::get_restore_source_value(ObLogRestoreSourceItem &item, ObSqlString &standby_source_value) { int ret = OB_SUCCESS; ObSqlString value; if (!item.is_valid()) { ret = OB_ERR_UNEXPECTED; LOG_WARN("log restore source item is invalid"); } else if (OB_FAIL(standby_source_value.assign(item.value_))) { LOG_WARN("fail to assign standby source value", K(item.value_)); } return ret; } int ObRecoveryLSService::do_update_restore_source( ObRestoreSourceServiceAttr &old_attr, ObLogRestoreSourceMgr &restore_source_mgr) { int ret = OB_SUCCESS; ObMySQLTransaction trans; ObLogRestoreSourceItem tmp_item; ObRestoreSourceServiceAttr tmp_service_attr; ObSqlString tmp_standby_source_value; char updated_value_str[OB_MAX_BACKUP_DEST_LENGTH + 1] = { 0 }; if (OB_FAIL(old_attr.gen_service_attr_str(updated_value_str, sizeof(updated_value_str)))) { LOG_WARN("gen service_attr_str failed", K(updated_value_str), K(old_attr)); } else if (OB_FAIL(trans.start(proxy_, gen_meta_tenant_id(tenant_id_)))) { LOG_WARN("fail to start trans", K_(tenant_id)); } else if (OB_FAIL(restore_source_mgr.get_source_for_update(tmp_item, trans))) { LOG_WARN("fail to get log restore source when double check" , K(tmp_item)); } else if (ObLogRestoreSourceType::SERVICE != tmp_item.type_) { ret = OB_EAGAIN; LOG_WARN("log restore source type is not service", K_(tenant_id), K(tmp_item.type_)); } else if (OB_FAIL(get_restore_source_value(tmp_item, tmp_standby_source_value))) { LOG_WARN("fail to get service standby log restore source value", K(tmp_item)); } else if (OB_FAIL(tmp_service_attr.parse_service_attr_from_str(tmp_standby_source_value))) { LOG_WARN("fail to parse service attr", K(tmp_item), K(tmp_standby_source_value)); } else if (!tmp_service_attr.is_valid()) { ret = OB_INVALID_ARGUMENT; LOG_WARN("service attr is invalid", K(tmp_service_attr)); } else if (!(tmp_service_attr.user_ == old_attr.user_)) { ret = OB_EAGAIN; LOG_WARN("log restore source record may be modified", K(tmp_service_attr.user_), K(old_attr.user_)); } else if (!(0 == STRCMP(tmp_service_attr.encrypt_passwd_, old_attr.encrypt_passwd_))) { ret = OB_EAGAIN; LOG_WARN("log restore source password may be modified", K_(tenant_id)); } else if (OB_FAIL(update_source_inner_table(updated_value_str, sizeof(updated_value_str), trans, tmp_item))) { LOG_WARN("fail to add service source", K(updated_value_str), K(tmp_item.until_scn_)); } int temp_ret = OB_SUCCESS; if (trans.is_started()) { if (OB_SUCCESS != (temp_ret = trans.end(OB_SUCC(ret)))) { LOG_WARN("trans end failed", "is_commit", OB_SUCCESS == ret, K(temp_ret)); ret = (OB_SUCC(ret)) ? temp_ret : ret; } } return ret; } int ObRecoveryLSService::update_source_inner_table(char *buf, const int64_t buf_size, ObMySQLTransaction &trans, const ObLogRestoreSourceItem &item) { int ret = OB_SUCCESS; int64_t affected_rows = 0; if (OB_ISNULL(buf) || OB_UNLIKELY(buf_size <= 0)) { ret = OB_INVALID_ARGUMENT; LOG_WARN("invalid argument when get source for update",K(buf_size)); } else { uint64_t exec_tenant_id = gen_meta_tenant_id(tenant_id_); ObDMLSqlSplicer dml; ObSqlString sql; if (OB_FAIL(dml.add_pk_column(OB_STR_TENANT_ID, tenant_id_))) { LOG_WARN("failed to add column", K_(tenant_id), K(item)); } else if (OB_FAIL(dml.add_pk_column(OB_STR_LOG_RESTORE_SOURCE_ID, item.id_))) { LOG_WARN("failed to add column", K_(tenant_id), K(item)); } else if (OB_FAIL(dml.add_column(OB_STR_LOG_RESTORE_SOURCE_VALUE, buf))) { LOG_WARN("failed to add column", K_(tenant_id), K(item)); } else if (OB_FAIL(dml.splice_update_sql(OB_ALL_LOG_RESTORE_SOURCE_TNAME, sql))) { LOG_WARN("fill update source value sql failed", K(item)); } else if (OB_FAIL(trans.write(exec_tenant_id, sql.ptr(), affected_rows))) { LOG_WARN("failed to exec sql", K(sql), K_(tenant_id)); } } return ret; } }//end of namespace rootserver }//end of namespace oceanbase