/** * 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_table_redefinition_task.h" #include "lib/rc/context.h" #include "share/schema/ob_multi_version_schema_service.h" #include "share/ob_ddl_error_message_table_operator.h" #include "share/ob_autoincrement_service.h" #include "share/ob_ddl_checksum.h" #include "rootserver/ddl_task/ob_ddl_scheduler.h" #include "rootserver/ob_root_service.h" #include "rootserver/ddl_task/ob_ddl_redefinition_task.h" #include "storage/tablelock/ob_table_lock_service.h" #include "observer/ob_server_event_history_table_operator.h" #include "sql/engine/cmd/ob_load_data_utils.h" #include "lib/mysqlclient/ob_mysql_proxy.h" #include "lib/mysqlclient/ob_mysql_result.h" using namespace oceanbase::lib; using namespace oceanbase::common; using namespace oceanbase::share; using namespace oceanbase::share::schema; using namespace oceanbase::rootserver; using namespace oceanbase::obrpc; ObTableRedefinitionTask::ObTableRedefinitionTask() : ObDDLRedefinitionTask(ObDDLType::DDL_TABLE_REDEFINITION), has_rebuild_index_(false), has_rebuild_constraint_(false), has_rebuild_foreign_key_(false), allocator_(lib::ObLabel("RedefTask")), is_copy_indexes_(true), is_copy_triggers_(true), is_copy_constraints_(true), is_copy_foreign_keys_(true), is_ignore_errors_(false), is_do_finish_(false) { } ObTableRedefinitionTask::~ObTableRedefinitionTask() { } int ObTableRedefinitionTask::init(const uint64_t src_tenant_id, const uint64_t dst_tenant_id, const int64_t task_id, const share::ObDDLType &ddl_type, const int64_t data_table_id, const int64_t dest_table_id, const int64_t src_schema_version, const int64_t dst_schema_version, const int64_t parallelism, const int64_t consumer_group_id, const ObAlterTableArg &alter_table_arg, const int64_t task_status, const int64_t snapshot_version) { int ret = OB_SUCCESS; uint64_t tenant_data_format_version = 0; if (OB_UNLIKELY(is_inited_)) { ret = OB_INIT_TWICE; LOG_WARN("ObTableRedefinitionTask has already been inited", K(ret)); } else if (OB_UNLIKELY(OB_INVALID_ID == src_tenant_id || OB_INVALID_ID == dst_tenant_id || task_id <= 0 || OB_INVALID_ID == data_table_id || OB_INVALID_ID == dest_table_id || src_schema_version <= 0 || dst_schema_version <= 0 || task_status < ObDDLTaskStatus::PREPARE || task_status > ObDDLTaskStatus::SUCCESS || snapshot_version < 0 || (snapshot_version > 0 && task_status < ObDDLTaskStatus::WAIT_TRANS_END))) { ret = OB_INVALID_ARGUMENT; LOG_WARN("invalid arguments", K(ret), K(src_tenant_id), K(dst_tenant_id), K(task_id), K(data_table_id), K(dest_table_id), K(src_schema_version), K(dst_schema_version), K(task_status), K(snapshot_version)); } else if (OB_FAIL(deep_copy_table_arg(allocator_, alter_table_arg, alter_table_arg_))) { LOG_WARN("deep copy alter table arg failed", K(ret)); } else if (OB_FAIL(set_ddl_stmt_str(alter_table_arg_.ddl_stmt_str_))) { LOG_WARN("set ddl stmt str failed", K(ret)); } else if (OB_FAIL(ObShareUtil::fetch_current_data_version(*GCTX.sql_proxy_, src_tenant_id, tenant_data_format_version))) { LOG_WARN("get min data version failed", K(ret), K(src_tenant_id)); } else { set_gmt_create(ObTimeUtility::current_time()); consumer_group_id_ = consumer_group_id; task_type_ = ddl_type; object_id_ = data_table_id; target_object_id_ = dest_table_id; schema_version_ = src_schema_version; task_status_ = static_cast(task_status); snapshot_version_ = snapshot_version; tenant_id_ = src_tenant_id; task_version_ = OB_TABLE_REDEFINITION_TASK_VERSION; task_id_ = task_id; parallelism_ = parallelism; data_format_version_ = tenant_data_format_version; start_time_ = ObTimeUtility::current_time(); // For common offline ddl, dest_tenant_id is also the tenant_id_, i.e., tenant id of the data table. // But for DDL_RESTORE_TABLE, dst_tenant_id_ is different to the tenant_id_. dst_tenant_id_ = dst_tenant_id; dst_schema_version_ = dst_schema_version; alter_table_arg_.alter_table_schema_.set_tenant_id(src_tenant_id); alter_table_arg_.alter_table_schema_.set_schema_version(src_schema_version); alter_table_arg_.exec_tenant_id_ = dst_tenant_id_; if (OB_FAIL(init_ddl_task_monitor_info(target_object_id_))) { LOG_WARN("init ddl task monitor info failed", K(ret)); } else { is_inited_ = true; ddl_tracing_.open(); } } LOG_INFO("init table redefinition task finished", K(ret), KPC(this)); return ret; } int ObTableRedefinitionTask::init(const ObDDLTaskRecord &task_record) { int ret = OB_SUCCESS; uint64_t src_tenant_id = common::OB_INVALID_ID; uint64_t dst_tenant_id = common::OB_INVALID_ID; int64_t src_schema_version = 0; int64_t dst_schema_version = 0; const uint64_t data_table_id = task_record.object_id_; const uint64_t dest_table_id = task_record.target_object_id_; task_type_ = task_record.ddl_type_; // put here to decide whether to replace user tenant id. int64_t pos = 0; if (OB_UNLIKELY(is_inited_)) { ret = OB_INIT_TWICE; LOG_WARN("ObTableRedefinitionTask has already been inited", K(ret)); } else if (!task_record.is_valid()) { ret = OB_INVALID_ARGUMENT; LOG_WARN("invalid arguments", K(ret), K(task_record)); } else if (OB_FAIL(deserlize_params_from_message(task_record.tenant_id_, task_record.message_.ptr(), task_record.message_.length(), pos))) { LOG_WARN("deserialize params from message failed", K(ret), K(task_record.message_), K(common::lbt())); } else if (OB_FAIL(set_ddl_stmt_str(task_record.ddl_stmt_str_))) { LOG_WARN("set ddl stmt str failed", K(ret)); } else if (FALSE_IT(src_tenant_id = alter_table_arg_.alter_table_schema_.get_tenant_id())) { } else if (FALSE_IT(dst_tenant_id = task_record.tenant_id_)) { } else if (FALSE_IT(src_schema_version = alter_table_arg_.alter_table_schema_.get_schema_version())) { } else if (FALSE_IT(dst_schema_version = task_record.schema_version_)) { } else if (OB_UNLIKELY(common::OB_INVALID_ID == src_tenant_id || common::OB_INVALID_ID == dst_tenant_id || src_schema_version <= 0 || dst_schema_version <= 0)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected err", K(ret), K(task_record), K(src_tenant_id), K(dst_tenant_id), K(src_schema_version), K(dst_schema_version)); } else if (OB_UNLIKELY(ObDDLType::DDL_TABLE_RESTORE != task_record.ddl_type_ && (src_tenant_id != dst_tenant_id || src_schema_version != dst_schema_version))) { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected err", K(ret), K(task_record), K(src_tenant_id), K(dst_tenant_id), K(src_schema_version), K(dst_schema_version)); } else if (OB_UNLIKELY(ObDDLType::DDL_TABLE_RESTORE == task_record.ddl_type_ && (src_tenant_id == dst_tenant_id))) { ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected err", K(ret), K(task_record), K(src_tenant_id), K(dst_tenant_id), K(src_schema_version), K(dst_schema_version)); } else { task_id_ = task_record.task_id_; object_id_ = data_table_id; target_object_id_ = dest_table_id; schema_version_ = src_schema_version; task_status_ = static_cast(task_record.task_status_); snapshot_version_ = task_record.snapshot_version_; execution_id_ = task_record.execution_id_; tenant_id_ = src_tenant_id; ret_code_ = task_record.ret_code_; start_time_ = ObTimeUtility::current_time(); dst_tenant_id_ = dst_tenant_id; dst_schema_version_ = dst_schema_version; if (OB_FAIL(init_ddl_task_monitor_info(target_object_id_))) { LOG_WARN("init ddl task monitor info failed", K(ret)); } else { is_inited_ = true; // set up span during recover task ddl_tracing_.open_for_recovery(); } } LOG_INFO("init table redefinition task finished", K(ret), KPC(this)); return ret; } int ObTableRedefinitionTask::update_complete_sstable_job_status(const common::ObTabletID &tablet_id, const int64_t snapshot_version, const int64_t execution_id, const int ret_code, const ObDDLTaskInfo &addition_info) { int ret = OB_SUCCESS; TCWLockGuard guard(lock_); UNUSED(tablet_id); UNUSED(addition_info); if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (ObDDLTaskStatus::CHECK_TABLE_EMPTY == task_status_) { check_table_empty_job_ret_code_ = ret_code; } else { switch(task_type_) { case ObDDLType::DDL_DIRECT_LOAD: case ObDDLType::DDL_DIRECT_LOAD_INSERT: { complete_sstable_job_ret_code_ = ret_code; ret_code_ = ret_code; LOG_INFO("table redefinition task callback", K(complete_sstable_job_ret_code_)); break; } default : { if (OB_UNLIKELY(snapshot_version_ != snapshot_version)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, snapshot version is not equal", K(ret), K(snapshot_version_), K(snapshot_version)); } else if (execution_id < execution_id_) { ret = OB_TASK_EXPIRED; LOG_WARN("receive a mismatch execution result, ignore", K(ret_code), K(execution_id), K(execution_id_)); } else { complete_sstable_job_ret_code_ = ret_code; execution_id_ = execution_id; // update ObTableRedefinitionTask::execution_id_ from ObDDLRedefinitionSSTableBuildTask::execution_id_ LOG_INFO("table redefinition task callback", K(complete_sstable_job_ret_code_), K(execution_id_)); } break; } } } return ret; } int ObTableRedefinitionTask::send_build_replica_request() { int ret = OB_SUCCESS; switch (task_type_) { case DDL_DIRECT_LOAD: case DDL_DIRECT_LOAD_INSERT: { // do nothing break; } default: { if (OB_FAIL(send_build_replica_request_by_sql())) { LOG_WARN("failed to send build replica request", K(ret)); } break; } } return ret; } int ObTableRedefinitionTask::send_build_replica_request_by_sql() { int ret = OB_SUCCESS; bool modify_autoinc = false; bool use_heap_table_ddl_plan = false; ObRootService *root_service = GCTX.root_service_; int64_t new_execution_id = 0; if (OB_ISNULL(root_service)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, root service must not be nullptr", K(ret)); } else if (OB_FAIL(check_modify_autoinc(modify_autoinc))) { LOG_WARN("failed to check modify autoinc", K(ret)); } else if (OB_FAIL(check_use_heap_table_ddl_plan(use_heap_table_ddl_plan))) { LOG_WARN("fail to check heap table ddl plan", K(ret)); } else if (OB_FAIL(ObDDLTask::push_execution_id(tenant_id_, task_id_, new_execution_id))) { LOG_WARN("failed to fetch new execution id", K(ret)); } else { ObSQLMode sql_mode = alter_table_arg_.sql_mode_; if (!modify_autoinc) { sql_mode = sql_mode | SMO_NO_AUTO_VALUE_ON_ZERO; } // get execute inner sql addr if (OB_FAIL(ObDDLUtil::get_sys_ls_leader_addr(GCONF.cluster_id, tenant_id_, alter_table_arg_.inner_sql_exec_addr_))) { LOG_WARN("get sys ls leader addr fail", K(ret), K(tenant_id_)); ret = OB_SUCCESS; // ignore ret } else { set_sql_exec_addr(alter_table_arg_.inner_sql_exec_addr_); // set to switch_status, if task cancel, we should kill session with inner_sql_exec_addr_ } ObSchemaGetterGuard schema_guard; const ObTableSchema *orig_table_schema = nullptr; ObDDLRedefinitionSSTableBuildTask task( task_id_, tenant_id_, object_id_, target_object_id_, schema_version_, snapshot_version_, new_execution_id, consumer_group_id_, sql_mode, trace_id_, parallelism_, use_heap_table_ddl_plan, GCTX.root_service_, alter_table_arg_.inner_sql_exec_addr_); if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(tenant_id_, schema_guard))) { LOG_WARN("get schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_table_schema(tenant_id_, object_id_, orig_table_schema))) { LOG_WARN("failed to get orig table schema", K(ret)); } else if (OB_FAIL(task.init(*orig_table_schema, alter_table_arg_.alter_table_schema_, alter_table_arg_.tz_info_wrap_))) { LOG_WARN("fail to init table redefinition sstable build task", K(ret)); } else if (OB_FAIL(root_service->submit_ddl_single_replica_build_task(task))) { LOG_WARN("fail to submit ddl build single replica", K(ret)); } } return ret; } int ObTableRedefinitionTask::check_build_replica_end(bool &is_end) { int ret = OB_SUCCESS; TCWLockGuard guard(lock_); if (INT64_MAX == complete_sstable_job_ret_code_) { // not complete } else if (OB_SUCCESS != complete_sstable_job_ret_code_) { ret_code_ = complete_sstable_job_ret_code_; is_end = true; LOG_WARN("complete sstable job failed", K(ret_code_), K(object_id_), K(target_object_id_)); if (is_replica_build_need_retry(ret_code_)) { build_replica_request_time_ = 0; complete_sstable_job_ret_code_ = INT64_MAX; ret_code_ = OB_SUCCESS; is_end = false; LOG_INFO("ddl need retry", K(*this)); } } else { is_end = true; ret_code_ = complete_sstable_job_ret_code_; } return ret; } int ObTableRedefinitionTask::check_use_heap_table_ddl_plan(bool &use_heap_table_ddl_plan) { int ret = OB_SUCCESS; use_heap_table_ddl_plan = false; ObSchemaGetterGuard schema_guard; const ObTableSchema *target_table_schema = nullptr; ObRootService *root_service = GCTX.root_service_; if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else if (OB_FAIL(root_service->get_ddl_service() .get_tenant_schema_guard_with_version_in_inner_table(dst_tenant_id_, schema_guard))) { LOG_WARN("get schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_table_schema(dst_tenant_id_, target_object_id_, target_table_schema))) { LOG_WARN("fail to get table schema", K(ret), K(target_object_id_)); } else if (OB_ISNULL(target_table_schema)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, table schema must not be nullptr", K(ret), K(target_object_id_)); } else if (target_table_schema->is_heap_table() && (DDL_ALTER_PARTITION_BY == task_type_ || DDL_DROP_PRIMARY_KEY == task_type_)) { use_heap_table_ddl_plan = true; } return ret; } int ObTableRedefinitionTask::table_redefinition(const ObDDLTaskStatus next_task_status) { int ret = OB_SUCCESS; bool is_build_replica_end = false; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_UNLIKELY(snapshot_version_ <= 0)) { is_build_replica_end = true; // switch to fail. ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected snapshot", K(ret), KPC(this)); } if (OB_SUCC(ret) && !is_build_replica_end && 0 == get_build_replica_request_time()) { bool need_exec_new_inner_sql = false; if (OB_FAIL(reap_old_replica_build_task(need_exec_new_inner_sql))) { if (OB_EAGAIN == ret) { ret = OB_SUCCESS; // retry } else { LOG_WARN("failed to reap old task", K(ret)); } } else if (!need_exec_new_inner_sql) { is_build_replica_end = true; } else if (OB_FAIL(send_build_replica_request())) { LOG_WARN("fail to send build replica request", K(ret)); } else { TCWLockGuard guard(lock_); build_replica_request_time_ = ObTimeUtility::current_time(); } } DEBUG_SYNC(TABLE_REDEFINITION_REPLICA_BUILD); if (OB_SUCC(ret) && !is_build_replica_end) { if (OB_FAIL(check_build_replica_end(is_build_replica_end))) { LOG_WARN("check build replica end failed", K(ret)); } } // overwrite ret if (is_build_replica_end) { ret = OB_SUCC(ret) ? complete_sstable_job_ret_code_ : ret; if (OB_SUCC(ret)) { if (OB_FAIL(replica_end_check(ret))) { LOG_WARN("fail to check", K(ret)); } } if (OB_FAIL(switch_status(next_task_status, true, ret))) { LOG_WARN("fail to switch task status", K(ret)); } } return ret; } int ObTableRedefinitionTask::replica_end_check(const int ret_code) { int ret = OB_SUCCESS; switch(task_type_) { case DDL_DIRECT_LOAD : case DDL_DIRECT_LOAD_INSERT : { break; } default : { if (OB_FAIL(check_data_dest_tables_columns_checksum(get_execution_id()))) { LOG_WARN("fail to check the columns checksum of data table and destination table", K(ret)); } break; } } return ret; } int ObTableRedefinitionTask::copy_table_indexes() { int ret = OB_SUCCESS; ObRootService *root_service = GCTX.root_service_; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else { const int64_t MAX_ACTIVE_TASK_CNT = 1; int64_t active_task_cnt = 0; // check if has rebuild index if (has_rebuild_index_) { } else if (OB_FAIL(ObDDLTaskRecordOperator::get_create_index_task_cnt(GCTX.root_service_->get_sql_proxy(), dst_tenant_id_, target_object_id_, active_task_cnt))) { LOG_WARN("failed to check index task cnt", K(ret)); } else if (active_task_cnt >= MAX_ACTIVE_TASK_CNT) { ret = OB_EAGAIN; } else { ObSchemaGetterGuard schema_guard; const ObTableSchema *table_schema = nullptr; ObSArray index_ids; alter_table_arg_.ddl_task_type_ = share::REBUILD_INDEX_TASK; alter_table_arg_.table_id_ = object_id_; alter_table_arg_.hidden_table_id_ = target_object_id_; if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(dst_tenant_id_, schema_guard))) { LOG_WARN("get schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_table_schema(dst_tenant_id_, target_object_id_, table_schema))) { LOG_WARN("get table schema failed", K(ret), K(dst_tenant_id_), K(target_object_id_)); } else if (OB_ISNULL(table_schema)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, table schema must not be nullptr", K(ret), K(target_object_id_)); } else { const common::ObIArray &index_infos = table_schema->get_simple_index_infos(); if (index_infos.count() > 0) { // if there is indexes in new tables, if so, the indexes is already rebuilt in new table for (int64_t i = 0; OB_SUCC(ret) && i < index_infos.count(); ++i) { if (OB_FAIL(index_ids.push_back(index_infos.at(i).table_id_))) { LOG_WARN("push back index id failed", K(ret)); } } LOG_INFO("indexes schema are already built", K(index_ids)); } else { // if there is no indexes in new tables, we need to rebuild indexes in new table int64_t ddl_rpc_timeout = 0; int64_t all_tablet_count = 0; ObSchemaGetterGuard orig_schema_guard; if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(tenant_id_, orig_schema_guard))) { LOG_WARN("get schema guard failed", K(ret), K(tenant_id_)); } else if (OB_FAIL(get_orig_all_index_tablet_count(orig_schema_guard, all_tablet_count))) { LOG_WARN("get all tablet count failed", K(ret)); } else if (OB_FAIL(ObDDLUtil::get_ddl_rpc_timeout(all_tablet_count, ddl_rpc_timeout))) { LOG_WARN("get ddl rpc timeout failed", K(ret)); } else if (OB_FAIL(root_service->get_ddl_service().get_common_rpc()->to(obrpc::ObRpcProxy::myaddr_).timeout(ddl_rpc_timeout). execute_ddl_task(alter_table_arg_, index_ids))) { LOG_WARN("rebuild hidden table index failed", K(ret), K(ddl_rpc_timeout)); } } } DEBUG_SYNC(TABLE_REDEFINITION_COPY_TABLE_INDEXES); if (OB_SUCC(ret) && index_ids.count() > 0) { ObSchemaGetterGuard new_schema_guard; if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(dst_tenant_id_, new_schema_guard))) { LOG_WARN("failed to refresh schema guard", K(ret)); } for (int64_t i = 0; OB_SUCC(ret) && i < index_ids.count(); ++i) { const uint64_t index_id = index_ids.at(i); const ObTableSchema *index_schema = nullptr; ObDDLTaskRecord task_record; bool need_rebuild_index = true; SMART_VAR(ObCreateIndexArg, create_index_arg) { // this create index arg is not valid, only has nls format create_index_arg.nls_date_format_ = alter_table_arg_.nls_formats_[0]; create_index_arg.nls_timestamp_format_ = alter_table_arg_.nls_formats_[1]; create_index_arg.nls_timestamp_tz_format_ = alter_table_arg_.nls_formats_[2]; if (OB_FAIL(new_schema_guard.get_table_schema(dst_tenant_id_, index_ids.at(i), index_schema))) { LOG_WARN("get table schema failed", K(ret), K(dst_tenant_id_), K(index_ids.at(i))); } else if (OB_ISNULL(index_schema)) { ret = OB_ERR_SYS; LOG_WARN("error sys, index schema must not be nullptr", K(ret), K(index_ids.at(i))); } else if (is_final_index_status(index_schema->get_index_status())) { // index status is final need_rebuild_index = false; LOG_INFO("index status is final", K(ret), K(task_id_), K(index_id), K(need_rebuild_index)); } else if (active_task_cnt >= MAX_ACTIVE_TASK_CNT) { ret = OB_EAGAIN; } else { create_index_arg.index_type_ = index_schema->get_index_type(); ObCreateDDLTaskParam param(dst_tenant_id_, ObDDLType::DDL_CREATE_INDEX, table_schema, index_schema, 0/*object_id*/, index_schema->get_schema_version(), parallelism_, consumer_group_id_, &allocator_, &create_index_arg, task_id_); if (OB_FAIL(GCTX.root_service_->get_ddl_task_scheduler().create_ddl_task(param, *GCTX.sql_proxy_, task_record))) { if (OB_ENTRY_EXIST == ret) { ret = OB_SUCCESS; active_task_cnt += 1; } else { LOG_WARN("submit ddl task failed", K(ret)); } } else if (FALSE_IT(active_task_cnt += 1)) { } else if (OB_FAIL(GCTX.root_service_->get_ddl_task_scheduler().schedule_ddl_task(task_record))) { LOG_WARN("fail to schedule ddl task", K(ret), K(task_record)); } } if (OB_SUCC(ret) && need_rebuild_index) { TCWLockGuard guard(lock_); const uint64_t task_key = index_ids.at(i); DependTaskStatus status; status.task_id_ = task_record.task_id_; if (OB_FAIL(dependent_task_result_map_.get_refactored(task_key, status))) { if (OB_HASH_NOT_EXIST != ret) { LOG_WARN("get from dependent task map failed", K(ret)); } else if (OB_FAIL(dependent_task_result_map_.set_refactored(task_key, status))) { LOG_WARN("set dependent task map failed", K(ret), K(task_key)); } } LOG_INFO("add build index task", K(ret), K(task_key), K(status)); } } } } if (OB_SUCC(ret)) { has_rebuild_index_ = true; } } } return ret; } int ObTableRedefinitionTask::copy_table_constraints() { int ret = OB_SUCCESS; ObRootService *root_service = GCTX.root_service_; const ObTableSchema *table_schema = nullptr; ObSchemaGetterGuard schema_guard; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else { if (has_rebuild_constraint_) { // do nothing } else { ObSArray constraint_ids; ObSArray new_constraint_ids; bool need_rebuild_constraint = true; if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(dst_tenant_id_, schema_guard))) { LOG_WARN("get schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_table_schema(dst_tenant_id_, target_object_id_, table_schema))) { LOG_WARN("get table schema failed", K(ret), K(dst_tenant_id_), K(target_object_id_)); } else if (OB_ISNULL(table_schema)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, table schema must not be nullptr", K(ret), K(target_object_id_)); } else if (OB_FAIL(check_need_rebuild_constraint(*table_schema, new_constraint_ids, need_rebuild_constraint))) { LOG_WARN("failed to check need rebuild constraint", K(ret)); } else if (need_rebuild_constraint) { alter_table_arg_.ddl_task_type_ = share::REBUILD_CONSTRAINT_TASK; alter_table_arg_.table_id_ = object_id_; alter_table_arg_.hidden_table_id_ = target_object_id_; int64_t ddl_rpc_timeout = 0; if (OB_FAIL(ObDDLUtil::get_ddl_rpc_timeout(dst_tenant_id_, target_object_id_, ddl_rpc_timeout))) { LOG_WARN("get ddl rpc timeout fail", K(ret)); } else if (OB_FAIL(root_service->get_ddl_service().get_common_rpc()->to(obrpc::ObRpcProxy::myaddr_).timeout(ddl_rpc_timeout). execute_ddl_task(alter_table_arg_, constraint_ids))) { LOG_WARN("rebuild hidden table constraint failed", K(ret), K(ddl_rpc_timeout)); } } else { LOG_INFO("constraint has already been built"); } DEBUG_SYNC(TABLE_REDEFINITION_COPY_TABLE_CONSTRAINTS); if (OB_SUCC(ret) && constraint_ids.count() > 0) { for (int64_t i = 0; OB_SUCC(ret) && i < constraint_ids.count(); ++i) { if (OB_FAIL(add_constraint_ddl_task(constraint_ids.at(i)))) { LOG_WARN("add constraint ddl task failed", K(ret)); } } } if (OB_SUCC(ret) && new_constraint_ids.count() > 0) { for (int64_t i = 0; OB_SUCC(ret) && i < new_constraint_ids.count(); ++i) { if (OB_FAIL(add_constraint_ddl_task(new_constraint_ids.at(i)))) { LOG_WARN("add constraint ddl task failed", K(ret)); } } } if (OB_SUCC(ret)) { has_rebuild_constraint_ = true; } } } return ret; } int ObTableRedefinitionTask::copy_table_foreign_keys() { int ret = OB_SUCCESS; ObRootService *root_service = GCTX.root_service_; const ObSimpleTableSchemaV2 *table_schema = nullptr; ObSchemaGetterGuard schema_guard; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else { if (has_rebuild_foreign_key_) { // do nothing } else { if (OB_FAIL(root_service->get_ddl_service().get_tenant_schema_guard_with_version_in_inner_table(dst_tenant_id_, schema_guard))) { LOG_WARN("get schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_simple_table_schema(dst_tenant_id_, target_object_id_, table_schema))) { LOG_WARN("get table schema failed", K(ret), K(dst_tenant_id_), K(target_object_id_)); } else if (OB_ISNULL(table_schema)) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, table schema must not be nullptr", K(ret), K(target_object_id_)); } else { const ObIArray &fk_infos = table_schema->get_simple_foreign_key_info_array(); ObSArray fk_ids; LOG_INFO("get current fk infos", K(fk_infos)); if (fk_infos.count() > 0) { for (int64_t i = 0; OB_SUCC(ret) && i < fk_infos.count(); ++i) { if (OB_FAIL(fk_ids.push_back(fk_infos.at(i).foreign_key_id_))) { LOG_WARN("push back fk id failed", K(ret)); } } LOG_INFO("foreign key is already built", K(fk_infos)); } else { alter_table_arg_.ddl_task_type_ = share::REBUILD_FOREIGN_KEY_TASK; alter_table_arg_.table_id_ = object_id_; alter_table_arg_.hidden_table_id_ = target_object_id_; int64_t ddl_rpc_timeout = 0; if (OB_FAIL(ObDDLUtil::get_ddl_rpc_timeout(dst_tenant_id_, target_object_id_, ddl_rpc_timeout))) { LOG_WARN("get ddl rpc timeout fail", K(ret)); } else if (OB_FAIL(root_service->get_ddl_service().get_common_rpc()->to(obrpc::ObRpcProxy::myaddr_).timeout(ddl_rpc_timeout). execute_ddl_task(alter_table_arg_, fk_ids))) { LOG_WARN("rebuild hidden table constraint failed", K(ret), K(ddl_rpc_timeout)); } } DEBUG_SYNC(TABLE_REDEFINITION_COPY_TABLE_FOREIGN_KEYS); if (OB_SUCC(ret) && fk_ids.count() > 0) { for (int64_t i = 0; OB_SUCC(ret) && i < fk_ids.count(); ++i) { if (OB_FAIL(add_fk_ddl_task(fk_ids.at(i)))) { LOG_WARN("add foreign key ddl task failed", K(ret)); } } } if (OB_SUCC(ret)) { has_rebuild_foreign_key_ = true; } } } } return ret; } int ObTableRedefinitionTask::copy_table_dependent_objects(const ObDDLTaskStatus next_task_status) { int ret = OB_SUCCESS; ObRootService *root_service = GCTX.root_service_; int64_t finished_task_cnt = 0; bool state_finish = false; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else if (!dependent_task_result_map_.created() && OB_FAIL(dependent_task_result_map_.create(MAX_DEPEND_OBJECT_COUNT, lib::ObLabel("DepTasMap")))) { LOG_WARN("create dependent task map failed", K(ret)); } else { if (get_is_copy_indexes() && OB_FAIL(copy_table_indexes())) { LOG_WARN("copy table indexes failed", K(ret)); } else if (get_is_copy_constraints() && OB_FAIL(copy_table_constraints())) { LOG_WARN("copy table constraints failed", K(ret)); } else if (get_is_copy_foreign_keys() && OB_FAIL(copy_table_foreign_keys())) { LOG_WARN("copy table foreign keys failed", K(ret)); } else { // copy triggers(at current, not supported, skip it) } } if (OB_FAIL(ret)) { state_finish = true; } else { // wait copy dependent objects to be finished ObAddr unused_addr; TCRLockGuard guard(lock_); for (common::hash::ObHashMap::const_iterator iter = dependent_task_result_map_.begin(); OB_SUCC(ret) && iter != dependent_task_result_map_.end(); ++iter) { const uint64_t task_key = iter->first; const int64_t target_object_id = -1; const int64_t child_task_id = iter->second.task_id_; if (iter->second.ret_code_ == INT64_MAX) { // maybe ddl already finish when switching rs HEAP_VAR(ObDDLErrorMessageTableOperator::ObBuildDDLErrorMessage, error_message) { int64_t unused_user_msg_len = 0; if (OB_FAIL(ObDDLErrorMessageTableOperator::get_ddl_error_message(dst_tenant_id_, child_task_id, target_object_id, unused_addr, false /* is_ddl_retry_task */, *GCTX.sql_proxy_, error_message, unused_user_msg_len))) { if (OB_ENTRY_NOT_EXIST == ret) { ret = OB_SUCCESS; LOG_INFO("ddl task not finish", K(dst_tenant_id_), K(task_key), K(child_task_id), K(target_object_id)); } else { LOG_WARN("fail to get ddl error message", K(ret), K(task_key), K(child_task_id), K(target_object_id)); } } else { finished_task_cnt++; if (error_message.ret_code_ != OB_SUCCESS) { ret = error_message.ret_code_; if (get_is_ignore_errors()) { ret = OB_SUCCESS; } } } } } else { finished_task_cnt++; if (iter->second.ret_code_ != OB_SUCCESS) { ret = iter->second.ret_code_; if (get_is_ignore_errors()) { ret = OB_SUCCESS; } } } } if (finished_task_cnt == dependent_task_result_map_.size() || OB_FAIL(ret)) { // 1. all child tasks finish. // 2. the parent task exits if any child task fails. state_finish = true; } } if (state_finish) { if (OB_FAIL(switch_status(next_task_status, true, ret))) { LOG_WARN("fail to switch status", K(ret)); } } return ret; } int ObTableRedefinitionTask::take_effect(const ObDDLTaskStatus next_task_status) { int ret = OB_SUCCESS; #ifdef ERRSIM SERVER_EVENT_ADD("ddl_task", "before_table_redefinition_task_effect", "tenant_id", tenant_id_, "object_id", object_id_, "target_object_id", target_object_id_); DEBUG_SYNC(BEFORE_TABLE_REDEFINITION_TASK_EFFECT); #endif ObSArray objs; int64_t ddl_rpc_timeout = 0; alter_table_arg_.ddl_task_type_ = ObDDLType::DDL_TABLE_RESTORE != task_type_ ? share::MAKE_DDL_TAKE_EFFECT_TASK : share::MAKE_RECOVER_RESTORE_TABLE_TASK_TAKE_EFFECT; alter_table_arg_.table_id_ = object_id_; alter_table_arg_.hidden_table_id_ = target_object_id_; // offline ddl is allowed on table with trigger(enable/disable). alter_table_arg_.need_rebuild_trigger_ = true; alter_table_arg_.task_id_ = task_id_; ObRootService *root_service = GCTX.root_service_; ObSchemaGetterGuard schema_guard; const ObTableSchema *table_schema = nullptr; bool use_heap_table_ddl_plan = false; ObDDLTaskStatus new_status = next_task_status; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_ISNULL(root_service)) { ret = OB_ERR_SYS; LOG_WARN("error sys, root service must not be nullptr", K(ret)); } else if (OB_FAIL(ObMultiVersionSchemaService::get_instance().get_tenant_schema_guard(dst_tenant_id_, schema_guard))) { LOG_WARN("get tenant schema guard failed", K(ret)); } else if (OB_FAIL(schema_guard.get_table_schema(dst_tenant_id_, target_object_id_, table_schema))) { LOG_WARN("get table schema failed", K(ret), K(dst_tenant_id_)); } else if (OB_ISNULL(table_schema)) { ret = OB_TABLE_NOT_EXIST; LOG_WARN("table schema not exist", K(ret), K(target_object_id_)); } else if (!table_schema->is_user_hidden_table()) { LOG_INFO("target schema took effect", K(target_object_id_)); } else if (OB_FAIL(check_use_heap_table_ddl_plan(use_heap_table_ddl_plan))) { LOG_WARN("fail to check heap table ddl plan", K(ret)); } else if (table_schema->is_heap_table() && !use_heap_table_ddl_plan && OB_FAIL(sync_tablet_autoinc_seq())) { if (OB_TIMEOUT == ret || OB_NOT_MASTER == ret) { ret = OB_SUCCESS; new_status = ObDDLTaskStatus::TAKE_EFFECT; } else { LOG_WARN("fail to sync tablet autoinc seq", K(ret)); } } else if (OB_FAIL(sync_auto_increment_position())) { if (OB_NOT_MASTER == ret) { ret = OB_SUCCESS; new_status = ObDDLTaskStatus::TAKE_EFFECT; } else { LOG_WARN("sync auto increment position failed", K(ret), K(object_id_), K(target_object_id_)); } } else if (OB_FAIL(sync_stats_info())) { LOG_WARN("fail to sync stats info", K(ret), K(object_id_), K(target_object_id_)); } else if (OB_FAIL(ObDDLUtil::get_ddl_rpc_timeout(dst_tenant_id_, target_object_id_, ddl_rpc_timeout))) { LOG_WARN("get ddl rpc timeout fail", K(ret)); } else if (OB_FAIL(root_service->get_ddl_service().get_common_rpc()->to(obrpc::ObRpcProxy::myaddr_).timeout(ddl_rpc_timeout). execute_ddl_task(alter_table_arg_, objs))) { LOG_WARN("fail to swap original and hidden table state", K(ret)); if (OB_TIMEOUT == ret) { ret = OB_SUCCESS; new_status = ObDDLTaskStatus::TAKE_EFFECT; } } DEBUG_SYNC(TABLE_REDEFINITION_TAKE_EFFECT); if (new_status == next_task_status || OB_FAIL(ret)) { if (OB_FAIL(switch_status(next_task_status, true, ret))) { LOG_WARN("fail to switch status", K(ret)); } } return ret; } int ObTableRedefinitionTask::repending(const share::ObDDLTaskStatus next_task_status) { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObDDLRedefinitionTask has not been inited", K(ret)); } else { switch (task_type_) { case DDL_DIRECT_LOAD: case DDL_DIRECT_LOAD_INSERT: if (get_is_do_finish()) { if (OB_FAIL(switch_status(next_task_status, true, ret))) { LOG_WARN("fail to switch status", K(ret)); } } break; default: if (OB_FAIL(switch_status(next_task_status, true, ret))) { LOG_WARN("fail to switch status", K(ret)); } break; } } return ret; } bool ObTableRedefinitionTask::check_task_status_is_pending(const share::ObDDLTaskStatus task_status) { return task_status == ObDDLTaskStatus::REPENDING; } int ObTableRedefinitionTask::process() { int ret = OB_SUCCESS; if (OB_UNLIKELY(!is_inited_)) { ret = OB_NOT_INIT; LOG_WARN("ObTableRedefinitionTask has not been inited", K(ret)); } else if (OB_FAIL(check_health())) { LOG_WARN("check task health failed", K(ret)); } else { ddl_tracing_.restore_span_hierarchy(); switch(task_status_) { case ObDDLTaskStatus::PREPARE: if (OB_FAIL(prepare(ObDDLTaskStatus::WAIT_TRANS_END))) { LOG_WARN("fail to prepare table redefinition task", K(ret)); } break; case ObDDLTaskStatus::WAIT_TRANS_END: if (OB_FAIL(wait_trans_end(wait_trans_ctx_, ObDDLTaskStatus::OBTAIN_SNAPSHOT))) { LOG_WARN("fail to wait trans end", K(ret)); } break; case ObDDLTaskStatus::OBTAIN_SNAPSHOT: if (OB_FAIL(obtain_snapshot(ObDDLTaskStatus::CHECK_TABLE_EMPTY))) { LOG_WARN("fail to lock table", K(ret)); } break; case ObDDLTaskStatus::CHECK_TABLE_EMPTY: if (OB_FAIL(check_table_empty(ObDDLTaskStatus::REPENDING))) { LOG_WARN("fail to check table empty", K(ret)); } break; case ObDDLTaskStatus::REPENDING: if (OB_FAIL(repending(ObDDLTaskStatus::REDEFINITION))) { LOG_WARN("fail to repending", K(ret)); } break; case ObDDLTaskStatus::REDEFINITION: if (OB_FAIL(table_redefinition(ObDDLTaskStatus::COPY_TABLE_DEPENDENT_OBJECTS))) { LOG_WARN("fail to do table redefinition", K(ret)); } break; case ObDDLTaskStatus::COPY_TABLE_DEPENDENT_OBJECTS: if (OB_FAIL(copy_table_dependent_objects(ObDDLTaskStatus::MODIFY_AUTOINC))) { LOG_WARN("fail to copy table dependent objects", K(ret)); } break; case ObDDLTaskStatus::MODIFY_AUTOINC: if (OB_FAIL(modify_autoinc(ObDDLTaskStatus::TAKE_EFFECT))) { LOG_WARN("fail to modify autoinc", K(ret)); } break; case ObDDLTaskStatus::TAKE_EFFECT: if (OB_FAIL(take_effect(ObDDLTaskStatus::SUCCESS))) { LOG_WARN("fail to take effect", K(ret)); } break; case ObDDLTaskStatus::FAIL: if (OB_FAIL(fail())) { LOG_WARN("fail to do clean up", K(ret)); } break; case ObDDLTaskStatus::SUCCESS: if (OB_FAIL(success())) { LOG_WARN("fail to success", K(ret)); } break; default: ret = OB_ERR_UNEXPECTED; LOG_WARN("unexpected table redefinition task state", K(task_status_)); break; } ddl_tracing_.release_span_hierarchy(); } return ret; } int ObTableRedefinitionTask::check_modify_autoinc(bool &modify_autoinc) { int ret = OB_SUCCESS; modify_autoinc = false; AlterTableSchema &alter_table_schema = alter_table_arg_.alter_table_schema_; ObTableSchema::const_column_iterator iter = alter_table_schema.column_begin(); ObTableSchema::const_column_iterator iter_end = alter_table_schema.column_end(); AlterColumnSchema *alter_column_schema = nullptr; for(; OB_SUCC(ret) && iter != iter_end; iter++) { if (OB_ISNULL(alter_column_schema = static_cast(*iter))) { ret = OB_ERR_UNEXPECTED; LOG_WARN("iter is NULL", K(ret)); } else if (alter_column_schema->is_autoincrement()) { modify_autoinc = true; } } return ret; } int64_t ObTableRedefinitionTask::get_serialize_param_size() const { int8_t copy_indexes = static_cast(is_copy_indexes_); int8_t copy_triggers = static_cast(is_copy_triggers_); int8_t copy_constraints = static_cast(is_copy_constraints_); int8_t copy_foreign_keys = static_cast(is_copy_foreign_keys_); int8_t ignore_errors = static_cast(is_ignore_errors_); int8_t do_finish = static_cast(is_do_finish_); return alter_table_arg_.get_serialize_size() + ObDDLTask::get_serialize_param_size() + serialization::encoded_length_i8(copy_indexes) + serialization::encoded_length_i8(copy_triggers) + serialization::encoded_length_i8(copy_constraints) + serialization::encoded_length_i8(copy_foreign_keys) + serialization::encoded_length_i8(ignore_errors) + serialization::encoded_length_i8(do_finish); } int ObTableRedefinitionTask::serialize_params_to_message(char *buf, const int64_t buf_len, int64_t &pos) const { int ret = OB_SUCCESS; int8_t copy_indexes = static_cast(is_copy_indexes_); int8_t copy_triggers = static_cast(is_copy_triggers_); int8_t copy_constraints = static_cast(is_copy_constraints_); int8_t copy_foreign_keys = static_cast(is_copy_foreign_keys_); int8_t ignore_errors = static_cast(is_ignore_errors_); int8_t do_finish = static_cast(is_do_finish_); if (OB_UNLIKELY(nullptr == buf || buf_len <= 0)) { ret = OB_INVALID_ARGUMENT; LOG_WARN("invalid arguments", K(ret), KP(buf), K(buf_len)); } else if (OB_FAIL(ObDDLTask::serialize_params_to_message(buf, buf_len, pos))) { LOG_WARN("ObDDLTask serialize failed", K(ret)); } else if (OB_FAIL(alter_table_arg_.serialize(buf, buf_len, pos))) { LOG_WARN("serialize table arg failed", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, copy_indexes))) { LOG_WARN("fail to serialize is_copy_indexes", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, copy_triggers))) { LOG_WARN("fail to serialize is_copy_triggers", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, copy_constraints))) { LOG_WARN("fail to serialize is_copy_constraints", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, copy_foreign_keys))) { LOG_WARN("fail to serialize is_copy_foreign_keys", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, ignore_errors))) { LOG_WARN("fail to serialize is_ignore_errors", K(ret)); } else if (OB_FAIL(serialization::encode_i8(buf, buf_len, pos, do_finish))) { LOG_WARN("fail to serialize is_do_finish", K(ret)); } FLOG_INFO("serialize message for table redefinition", K(ret), K(copy_indexes), K(copy_triggers), K(copy_constraints), K(copy_foreign_keys), K(ignore_errors), K(do_finish), K(*this)); return ret; } int ObTableRedefinitionTask::deserlize_params_from_message(const uint64_t tenant_id, const char *buf, const int64_t data_len, int64_t &pos) { int ret = OB_SUCCESS; int8_t copy_indexes = 0; int8_t copy_triggers = 0; int8_t copy_constraints = 0; int8_t copy_foreign_keys = 0; int8_t ignore_errors = 0; int8_t do_finish = 0; obrpc::ObAlterTableArg tmp_arg; if (OB_UNLIKELY(!is_valid_tenant_id(tenant_id) || nullptr == buf || data_len <= 0)) { ret = OB_INVALID_ARGUMENT; LOG_WARN("invalid arguments", K(ret), K(tenant_id), KP(buf), K(data_len)); } else if (OB_FAIL(ObDDLTask::deserlize_params_from_message(tenant_id, buf, data_len, pos))) { LOG_WARN("ObDDLTask deserlize failed", K(ret)); } else if (OB_FAIL(tmp_arg.deserialize(buf, data_len, pos))) { LOG_WARN("serialize table failed", K(ret)); } else if (OB_FAIL(ObDDLUtil::replace_user_tenant_id(task_type_, tenant_id, tmp_arg))) { LOG_WARN("replace user tenant id failed", K(ret), K(tenant_id), K(tmp_arg)); } else if (OB_FAIL(deep_copy_table_arg(allocator_, tmp_arg, alter_table_arg_))) { LOG_WARN("deep copy table arg failed", K(ret)); } else if (pos < data_len) { if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, ©_indexes))) { LOG_WARN("fail to deserialize is_copy_indexes_", K(ret)); } else if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, ©_triggers))) { LOG_WARN("fail to deserialize is_copy_triggers_", K(ret)); } else if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, ©_constraints))) { LOG_WARN("fail to deserialize is_copy_constraints_", K(ret)); } else if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, ©_foreign_keys))) { LOG_WARN("fail to deserialize is_copy_foreign_keys_", K(ret)); } else if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, &ignore_errors))) { LOG_WARN("fail to deserialize is_ignore_errors_", K(ret)); } else if (OB_FAIL(serialization::decode_i8(buf, data_len, pos, &do_finish))) { LOG_WARN("fail to deserialize is_do_finish_", K(ret)); } else { is_copy_indexes_ = static_cast(copy_indexes); is_copy_triggers_ = static_cast(copy_triggers); is_copy_constraints_ = static_cast(copy_constraints); is_copy_foreign_keys_ = static_cast(copy_foreign_keys); is_ignore_errors_ = static_cast(ignore_errors); is_do_finish_ = static_cast(do_finish); } } FLOG_INFO("deserialize message for table redefinition", K(ret), K(copy_indexes), K(copy_triggers), K(copy_constraints), K(copy_foreign_keys), K(ignore_errors), K(do_finish), K(*this)); return ret; } int ObTableRedefinitionTask::assign(const ObTableRedefinitionTask *table_redef_task) { int ret = OB_SUCCESS; if (OB_FAIL(deep_copy_table_arg(allocator_, table_redef_task->alter_table_arg_, alter_table_arg_))) { LOG_WARN("assign alter_table_arg failed", K(ret)); } else { task_version_ = table_redef_task->task_version_; parallelism_ = table_redef_task->parallelism_; set_is_copy_indexes(table_redef_task->get_is_copy_indexes()); set_is_copy_triggers(table_redef_task->get_is_copy_triggers()); set_is_copy_constraints(table_redef_task->get_is_copy_constraints()); set_is_copy_foreign_keys(table_redef_task->get_is_copy_foreign_keys()); set_is_ignore_errors(table_redef_task->get_is_ignore_errors()); set_is_do_finish(table_redef_task->get_is_do_finish()); } return ret; } int ObTableRedefinitionTask::collect_longops_stat(ObLongopsValue &value) { int ret = OB_SUCCESS; int64_t pos = 0; const ObDDLTaskStatus status = static_cast(task_status_); databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "TENANT_ID: %ld, TASK_ID: %ld, ", dst_tenant_id_, task_id_); switch (status) { case ObDDLTaskStatus::PREPARE: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: PREPARE"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::WAIT_TRANS_END: { if (snapshot_version_ > 0) { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: ACQUIRE SNAPSHOT, SNAPSHOT_VERSION: %ld", snapshot_version_))) { LOG_WARN("failed to print", K(ret)); } } else { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: WAIT TRANS END, PENDING_TX_ID: %ld", wait_trans_ctx_.get_pending_tx_id().get_id()))) { LOG_WARN("failed to print", K(ret)); } } break; } case ObDDLTaskStatus::OBTAIN_SNAPSHOT: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: OBTAIN SNAPSHOT"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::CHECK_TABLE_EMPTY: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: CHECK TABLE EMPTY"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::REDEFINITION: { int64_t row_scanned = 0; int64_t row_sorted = 0; int64_t row_inserted = 0; if (OB_FAIL(gather_redefinition_stats(dst_tenant_id_, task_id_, *GCTX.sql_proxy_, row_scanned, row_sorted, row_inserted))) { LOG_WARN("failed to gather redefinition stats", K(ret)); } else if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: REPLICA BUILD, ROW_SCANNED: %ld, ROW_SORTED: %ld, ROW_INSERTED: %ld", row_scanned, row_sorted, row_inserted))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::COPY_TABLE_DEPENDENT_OBJECTS: { char child_task_ids[MAX_LONG_OPS_MESSAGE_LENGTH]; if (OB_FAIL(get_child_task_ids(child_task_ids, MAX_LONG_OPS_MESSAGE_LENGTH))) { if (ret == OB_SIZE_OVERFLOW) { ret = OB_SUCCESS; } else { LOG_WARN("failed to get all child task ids", K(ret)); } } else if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: COPY DEPENDENT OBJECTS, CHILD TASK IDS: %s", child_task_ids))) { if (ret == OB_SIZE_OVERFLOW) { ret = OB_SUCCESS; } else { LOG_WARN("failed to print", K(ret)); } } break; } case ObDDLTaskStatus::MODIFY_AUTOINC: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: MODIFY AUTOINC"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::TAKE_EFFECT: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: TAKE EFFECT"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::REPENDING: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: REPENDING"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::FAIL: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: CLEAN ON FAIL"))) { LOG_WARN("failed to print", K(ret)); } break; } case ObDDLTaskStatus::SUCCESS: { if (OB_FAIL(databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, "STATUS: CLEAN ON SUCCESS"))) { LOG_WARN("failed to print", K(ret)); } break; } default: { ret = OB_ERR_UNEXPECTED; LOG_WARN("not expected status", K(ret), K(status), K(*this)); break; } } // append direct load information to the message if (OB_SUCC(ret) && (check_is_load_data(get_task_type()))) { common::ObArenaAllocator allocator(lib::ObLabel("RedefTask")); sql::ObLoadDataStat job_stat; if (OB_FAIL(get_direct_load_job_stat(allocator, job_stat))) { LOG_WARN("failed to get direct load job_stat", KR(ret)); } else if (job_stat.job_id_ > 0) { databuff_printf(stat_info_.message_, MAX_LONG_OPS_MESSAGE_LENGTH, pos, ", TABLE_ID: %ld, BATCH_SIZE: %ld, PARALLEL: %ld, MAX_ALLOWED_ERROR_ROWS: %ld" ", DETECTED_ERROR_ROWS: %ld, PROCESSED_ROWS: %ld, LOAD_STATUS: %.*s", job_stat.job_id_, job_stat.batch_size_, job_stat.parallel_, job_stat.max_allowed_error_rows_, job_stat.detected_error_rows_, job_stat.coordinator.received_rows_, job_stat.coordinator.status_.length(), job_stat.coordinator.status_.ptr()); } } if (OB_FAIL(ret)) { } else if (OB_FAIL(copy_longops_stat(value))) { LOG_WARN("failed to collect common longops stat", K(ret)); } return ret; } void ObTableRedefinitionTask::flt_set_task_span_tag() const { FLT_SET_TAG(ddl_task_id, task_id_, ddl_parent_task_id, parent_task_id_, ddl_data_table_id, object_id_, ddl_schema_version, schema_version_, ddl_ret_code, ret_code_); } void ObTableRedefinitionTask::flt_set_status_span_tag() const { switch (task_status_) { case ObDDLTaskStatus::PREPARE: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::WAIT_TRANS_END: { FLT_SET_TAG(ddl_data_table_id, object_id_, ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::OBTAIN_SNAPSHOT: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::CHECK_TABLE_EMPTY: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::REDEFINITION: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::COPY_TABLE_DEPENDENT_OBJECTS: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::MODIFY_AUTOINC: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::TAKE_EFFECT: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::FAIL: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } case ObDDLTaskStatus::SUCCESS: { FLT_SET_TAG(ddl_ret_code, ret_code_); break; } default: { break; } } } int ObTableRedefinitionTask::get_direct_load_job_stat(common::ObArenaAllocator &allocator, sql::ObLoadDataStat &job_stat) { int ret = OB_SUCCESS; ObMySQLProxy &sql_proxy = *GCTX.sql_proxy_; ObSqlString select_sql; sqlclient::ObMySQLResult *select_result = NULL; SMART_VAR(ObMySQLProxy::MySQLResult, select_res) { if (OB_FAIL(select_sql.assign_fmt( "SELECT JOB_ID, BATCH_SIZE, PARALLEL, MAX_ALLOWED_ERROR_ROWS, DETECTED_ERROR_ROWS, " "COORDINATOR_RECEIVED_ROWS, COORDINATOR_STATUS FROM %s WHERE TENANT_ID=%lu " "AND JOB_ID=%ld AND JOB_TYPE='direct' AND COORDINATOR_STATUS!='none'", OB_ALL_VIRTUAL_LOAD_DATA_STAT_TNAME, tenant_id_, object_id_))) { LOG_WARN("failed to assign sql", KR(ret)); } else if (OB_FAIL(sql_proxy.read(select_res, OB_SYS_TENANT_ID, select_sql.ptr()))) { LOG_WARN("fail to execute sql", KR(ret), K(select_sql)); } else if (OB_ISNULL(select_result = select_res.get_result())) { ret = OB_ERR_UNEXPECTED; LOG_WARN("error unexpected, query result must not be NULL", KR(ret)); } while (OB_SUCC(ret)) { if (OB_FAIL(select_result->next())) { if (OB_ITER_END == ret) { ret = OB_SUCCESS; break; } else { LOG_WARN("failed to get next row", KR(ret)); } } else { ObString load_status; EXTRACT_INT_FIELD_MYSQL(*select_result, "JOB_ID", job_stat.job_id_, int64_t); EXTRACT_INT_FIELD_MYSQL(*select_result, "BATCH_SIZE", job_stat.batch_size_, int64_t); EXTRACT_INT_FIELD_MYSQL(*select_result, "PARALLEL", job_stat.parallel_, int64_t); EXTRACT_INT_FIELD_MYSQL(*select_result, "MAX_ALLOWED_ERROR_ROWS", job_stat.max_allowed_error_rows_, int64_t); EXTRACT_INT_FIELD_MYSQL(*select_result, "DETECTED_ERROR_ROWS", job_stat.detected_error_rows_, int64_t); EXTRACT_INT_FIELD_MYSQL(*select_result, "COORDINATOR_RECEIVED_ROWS", job_stat.coordinator.received_rows_, int64_t); EXTRACT_VARCHAR_FIELD_MYSQL(*select_result, "COORDINATOR_STATUS", load_status); if (OB_SUCC(ret) && OB_FAIL(ob_write_string(allocator, load_status, job_stat.coordinator.status_))) { LOG_WARN("failed to write string", KR(ret)); } } } } return ret; }