/** * 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. */ #include #include #include "sql/executor/ob_distributed_scheduler.h" #include "ob_mock_utils.h" #include "sql/engine/table/ob_table_scan.h" #include "sql/engine/sort/ob_sort.h" #include "sql/executor/ob_root_transmit.h" #include "sql/executor/ob_distributed_transmit.h" #include "sql/executor/ob_direct_receive.h" #include "sql/executor/ob_fifo_receive.h" #include "sql/executor/ob_distributed_job_control.h" #include "sql/executor/ob_job_parser.h" #include "sql/executor/ob_task_spliter_factory.h" #include "sql/engine/ob_physical_plan_ctx.h" #include "sql/engine/ob_physical_plan.h" #include "sql/ob_sql_init.h" #include "lib/utility/ob_tracepoint.h" using namespace oceanbase; using namespace oceanbase::common; using namespace oceanbase::sql; using namespace oceanbase::storage; using namespace oceanbase::share; using namespace oceanbase::share::schema; #define TEST_FAIL(statement) \ do { \ if (OB_SUCCESS == ret && OB_SUCCESS != (ret = (statement))) { \ return ret; \ } \ } while(0) class ObDistributedSchedulerTest : public ::testing::Test { public: const static int64_t TEST_SPLIT_TASK_COUNT = 7; const static int64_t TEST_PARA_SERVER_COUNT = 2; const static int64_t TEST_SERVER_PARA_THREAD_COUNT = 3; const static int64_t TEST_TABLE_ID = 3003; const static int64_t TEST_INDEX_ID = 3004; const static uint64_t COLUMN_ID_1 = 16; const static uint64_t COLUMN_ID_2 = 17; const static int64_t TEST_LIMIT = 10; const static int64_t TEST_OFFSET = 0; ObDistributedSchedulerTest(); virtual ~ObDistributedSchedulerTest(); virtual void SetUp(); virtual void TearDown(); ObMockSqlExecutorRpc rpc_; ObPhysicalPlan *phy_plan_; int create_plan_tree(ObExecContext &ctx); int exception_test(); private: // disallow copy ObDistributedSchedulerTest(const ObDistributedSchedulerTest &other); ObDistributedSchedulerTest& operator=(const ObDistributedSchedulerTest &other); }; ObDistributedSchedulerTest::ObDistributedSchedulerTest() { } ObDistributedSchedulerTest::~ObDistributedSchedulerTest() { } void ObDistributedSchedulerTest::SetUp() { } int ObDistributedSchedulerTest::create_plan_tree(ObExecContext &ctx) { UNUSED(ctx); int ret = OB_SUCCESS; phy_plan_ = ObPhysicalPlan::alloc(); ObPhyOperator *cur_op = NULL; ObPhyOperator *tmp_op = NULL; int err_code = OB_SUCCESS; ObSqlExpression *limit_expr = NULL; EXPECT_EQ(OB_SUCCESS, ObSqlExpressionUtil::make_sql_expr(phy_plan_, limit_expr)); EXPECT_FALSE(NULL == limit_expr); ObPostExprItem limit_expr_item; limit_expr_item.set_int(TEST_LIMIT); limit_expr_item.set_item_type(T_INT); EXPECT_EQ(OB_SUCCESS, limit_expr->add_expr_item(limit_expr_item)); ObSqlExpression *offset_expr = NULL; EXPECT_EQ(OB_SUCCESS, ObSqlExpressionUtil::make_sql_expr(phy_plan_, offset_expr)); EXPECT_FALSE(NULL == offset_expr); ObPostExprItem offset_expr_item; offset_expr_item.set_int(TEST_OFFSET); offset_expr_item.set_item_type(T_INT); EXPECT_EQ(OB_SUCCESS, offset_expr->add_expr_item(offset_expr_item)); /* * calculate c0 % TEST_SPLIT_TASK_COUNT * */ ObSqlExpression *hash_expr = NULL; EXPECT_EQ(OB_SUCCESS, ObSqlExpressionUtil::make_sql_expr(phy_plan_, hash_expr)); EXPECT_FALSE(NULL == hash_expr); ObPostExprItem expr_item; expr_item.set_column(0); EXPECT_EQ(OB_SUCCESS, hash_expr->add_expr_item(expr_item)); expr_item.set_int(TEST_SPLIT_TASK_COUNT); expr_item.set_item_type(T_INT); EXPECT_EQ(OB_SUCCESS, hash_expr->add_expr_item(expr_item)); expr_item.set_op("%", 2); EXPECT_EQ(OB_SUCCESS, hash_expr->add_expr_item(expr_item)); /* * calculate c0 % 1 * */ ObSqlExpression *iden_hash_expr = NULL; EXPECT_EQ(OB_SUCCESS, ObSqlExpressionUtil::make_sql_expr(phy_plan_, iden_hash_expr)); EXPECT_FALSE(NULL == iden_hash_expr); ObPostExprItem iden_expr_item; iden_expr_item.set_column(0); EXPECT_EQ(OB_SUCCESS, iden_hash_expr->add_expr_item(iden_expr_item)); iden_expr_item.set_int(1); iden_expr_item.set_item_type(T_INT); EXPECT_EQ(OB_SUCCESS, iden_hash_expr->add_expr_item(iden_expr_item)); iden_expr_item.set_op("%", 2); EXPECT_EQ(OB_SUCCESS, iden_hash_expr->add_expr_item(iden_expr_item)); ObPhysicalPlanCtx *plan_ctx = ctx.get_physical_plan_ctx(); common::ObIArray ¶m_store = plan_ctx->get_param_store(); ObObj value1; value1.set_int(3); param_store.push_back(value1); ObObj value2; value2.set_int(1); param_store.push_back(value2); ObObj value3; value3.set_int(2); param_store.push_back(value3); /* * calculate a + ? * */ ObSqlExpression *partition_func = NULL; EXPECT_EQ(OB_SUCCESS, ObSqlExpressionUtil::make_sql_expr(phy_plan_, partition_func)); EXPECT_FALSE(NULL == partition_func); ObPostExprItem partition_func_item; partition_func_item.set_column(0); EXPECT_EQ(OB_SUCCESS, partition_func->add_expr_item(partition_func_item)); ObObj index_value; index_value.set_int(2); partition_func_item.assign(T_QUESTIONMARK, index_value); EXPECT_EQ(OB_SUCCESS, partition_func->add_expr_item(partition_func_item)); partition_func_item.set_op("+", 2); EXPECT_EQ(OB_SUCCESS, partition_func->add_expr_item(partition_func_item)); ObColumnRefRawExpr ref_col1(TEST_TABLE_ID, COLUMN_ID_1, T_REF_COLUMN); //ObArray single_range_columns; ColumnItem col1; col1.column_id_ = COLUMN_ID_1; col1.table_id_ = TEST_TABLE_ID; col1.data_type_ = ObIntType; col1.column_name_ = ObString::make_string("a"); //EXPECT_EQ(OB_SUCCESS, single_range_columns.push_back(col1)); ref_col1.add_flag(IS_COLUMN); ObColumnRefRawExpr ref_col2(TEST_TABLE_ID, COLUMN_ID_2, T_REF_COLUMN); ColumnItem col2; col2.column_id_ = COLUMN_ID_2; col2.table_id_ = TEST_TABLE_ID; col2.data_type_ = ObIntType; col2.column_name_ = ObString::make_string("b"); //EXPECT_EQ(OB_SUCCESS, single_range_columns.push_back(col2)); ref_col2.add_flag(IS_COLUMN); // 构造 (a = ?) ObObj index1; index1.set_unknown(0); ObConstRawExpr const_col1(index1, T_QUESTIONMARK); const_col1.add_flag(IS_STATIC_PARAM); ObOpRawExpr condition1(&ref_col1, &const_col1, T_OP_EQ); // a = ?构造完毕 // 构造 (b > ?) ObObj index2; index2.set_unknown(1); ObConstRawExpr const_col2(index2, T_QUESTIONMARK); const_col2.add_flag(IS_STATIC_PARAM); ObOpRawExpr condition2(&ref_col2, &const_col2, T_OP_GT); // b > ?构造完毕 ObOpRawExpr condition3(&condition1, &condition2, T_OP_AND); // a = ? and b > ?构造完毕 ObArray scan_range_columns; EXPECT_EQ(OB_SUCCESS, scan_range_columns.push_back(col2)); ObArray partition_range_columns; EXPECT_EQ(OB_SUCCESS, partition_range_columns.push_back(col1)); ObQueryRange *query_range = OB_NEW(ObQueryRange, ObModIds::TEST); EXPECT_EQ(OB_SUCCESS, query_range->preliminary_extract_query_range(scan_range_columns, &condition3)); EXPECT_EQ(OB_SUCCESS, query_range->preliminary_extract_query_range(partition_range_columns, &condition3)); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_TABLE_SCAN, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); static_cast(tmp_op)->set_table_id(TEST_TABLE_ID); static_cast(tmp_op)->set_ref_table_id(TEST_TABLE_ID); static_cast(tmp_op)->set_index_table_id(TEST_INDEX_ID); static_cast(tmp_op)->add_range_column(COLUMN_ID_2); static_cast(tmp_op)->add_output_column(COLUMN_ID_1); static_cast(tmp_op)->add_output_column(COLUMN_ID_2); static_cast(tmp_op)->set_limit_offset(*limit_expr, *offset_expr); static_cast(tmp_op)->set_query_range(*query_range); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_DISTRIBUTED_TRANSMIT, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); tmp_op->set_child(0, *cur_op); static_cast(tmp_op)->get_job_conf().set_task_split_type(ObTaskSpliter::IDENTITY_SPLIT); static_cast(tmp_op)->set_split_task_count(TEST_SPLIT_TASK_COUNT); static_cast(tmp_op)->set_parallel_server_count(TEST_PARA_SERVER_COUNT); static_cast(tmp_op)->set_server_parallel_thread_count(TEST_SERVER_PARA_THREAD_COUNT); static_cast(tmp_op)->set_shuffle_func(hash_expr); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_FIFO_RECEIVE, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); tmp_op->set_child(0, *cur_op); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_DISTRIBUTED_TRANSMIT, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); tmp_op->set_child(0, *cur_op); static_cast(tmp_op)->get_job_conf().set_task_split_type(ObTaskSpliter::INTERM_SPLIT); static_cast(tmp_op)->set_split_task_count(TEST_SPLIT_TASK_COUNT); static_cast(tmp_op)->set_parallel_server_count(TEST_PARA_SERVER_COUNT); static_cast(tmp_op)->set_server_parallel_thread_count(TEST_SERVER_PARA_THREAD_COUNT); static_cast(tmp_op)->set_shuffle_func(iden_hash_expr); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_FIFO_RECEIVE, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); tmp_op->set_child(0, *cur_op); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); ASSERT_EQ(OB_SUCCESS, phy_plan_->alloc_operator_by_type(PHY_ROOT_TRANSMIT, tmp_op)); tmp_op->set_column_count(TEST_MOCK_COL_NUM); tmp_op->set_child(0, *cur_op); static_cast(tmp_op)->get_job_conf().set_task_split_type(ObTaskSpliter::IDENTITY_SPLIT); static_cast(tmp_op)->set_split_task_count(TEST_SPLIT_TASK_COUNT); static_cast(tmp_op)->set_parallel_server_count(TEST_PARA_SERVER_COUNT); static_cast(tmp_op)->set_server_parallel_thread_count(TEST_SERVER_PARA_THREAD_COUNT); static_cast(tmp_op)->set_shuffle_func(hash_expr); cur_op = tmp_op; SQL_EXE_LOG(INFO, "op info", "op_id", cur_op->get_id(), "op_type", cur_op->get_type()); phy_plan_->set_main_query(cur_op); return ret; } void ObDistributedSchedulerTest::TearDown() { } int ObDistributedSchedulerTest::exception_test() { int ret = OB_SUCCESS; int64_t remain_time_us = 1000 * 1000; uint64_t query_id = OB_INVALID_ID; ObDistributedSchedulerManager *sc_manager = ObDistributedSchedulerManager::get_instance(); ObAddr server; server.set_ip_addr("127.0.0.1", 8888); ObArenaAllocator allocator(ObModIds::OB_SQL_EXEC_CONTEXT); ObPhyTableLocationArray table_locs(allocator); ObPhyTableLocation table_loc; ObPartitionLocation partition_loc; partition_loc.set_table_id(TEST_TABLE_ID); partition_loc.set_partition_id(9); table_loc.set_table_id(TEST_TABLE_ID); EXPECT_EQ(OB_SUCCESS, table_loc.add_partition_location(partition_loc)); ObMockFetchResultStreamHandle resp_handler(allocator); ObExecuteResult exe_result; ObExecContext exec_ctx; TEST_FAIL(exec_ctx.init_phy_op(100)); TEST_FAIL(exec_ctx.create_physical_plan_ctx()); ObTaskExecutorCtx *executor_ctx = exec_ctx.get_task_executor_ctx(); executor_ctx->set_task_executor_rpc(&rpc_); executor_ctx->set_server(server); executor_ctx->set_partition_location_cache(&rpc_.partition_loc_cache_); executor_ctx->set_partition_service(&rpc_.partition_service_); executor_ctx->set_execute_result(&exe_result); executor_ctx->init_table_location(1); EXPECT_EQ(OB_SUCCESS, table_locs.push_back(table_loc)); executor_ctx->set_table_locations(table_locs); TEST_FAIL(create_plan_tree(exec_ctx)); TEST_FAIL(sc_manager->alloc_scheduler(query_id, remain_time_us)); TEST_FAIL(sc_manager->schedule(query_id, exec_ctx, phy_plan_)); TEST_FAIL(sc_manager->free_scheduler(query_id)); return ret; } TEST_F(ObDistributedSchedulerTest, basic_test) { int ret = OB_SUCCESS; //启动模拟收包队列 ObMockPacketQueueThread::get_instance()->start(); int64_t remain_time_us = 1000 * 1000; uint64_t query_id = OB_INVALID_ID; ObDistributedSchedulerManager *sc_manager = ObDistributedSchedulerManager::get_instance(); ObPhyTableLocationSEArray table_locs; ObPhyTableLocation table_loc; ObPartitionLocation partition_loc; partition_loc.set_table_id(TEST_TABLE_ID); partition_loc.set_partition_id(9); table_loc.set_table_id(TEST_TABLE_ID); ASSERT_EQ(OB_SUCCESS, table_loc.add_partition_location(partition_loc)); ASSERT_EQ(OB_SUCCESS, table_locs.push_back(table_loc)); ObAddr server; server.set_ip_addr("127.0.0.1", 8888); ObArenaAllocator allocator(ObModIds::OB_SQL_EXEC_CONTEXT); ObMockFetchResultStreamHandle resp_handler(allocator); ObExecuteResult exe_result; ObExecContext exec_ctx; exec_ctx.init_phy_op(100); exec_ctx.create_physical_plan_ctx(); ObPhysicalPlanCtx *plan_ctx = exec_ctx.get_physical_plan_ctx(); //plan_ctx->set_task_response_handler(resp_handler); plan_ctx->set_server(server); plan_ctx->set_timeout_timestamp(::oceanbase::common::ObTimeUtility::current_time() + 2000L * 1000L); ObTaskExecutorCtx *executor_ctx = exec_ctx.get_task_executor_ctx(); executor_ctx->set_task_executor_rpc(&rpc_); executor_ctx->set_server(server); executor_ctx->set_partition_location_cache(&rpc_.partition_loc_cache_); executor_ctx->set_partition_service(&rpc_.partition_service_); executor_ctx->set_execute_result(&exe_result); executor_ctx->set_table_locations(table_locs); create_plan_tree(exec_ctx); ASSERT_EQ(OB_SUCCESS, sc_manager->alloc_scheduler(query_id, remain_time_us)); ASSERT_EQ(OB_SUCCESS, sc_manager->schedule(query_id, exec_ctx, phy_plan_)); ASSERT_EQ(OB_SUCCESS, sc_manager->free_scheduler(query_id)); //ObExecutor ob_exe; //ASSERT_EQ(OB_SUCCESS, ob_exe.execute_plan(exec_ctx, phy_plan_)); ASSERT_EQ(OB_SUCCESS, exe_result.open(exec_ctx)); const ObNewRow *tmp_row = NULL; while(OB_SUCCESS == (ret = exe_result.get_next_row(exec_ctx, tmp_row))) { SQL_EXE_LOG(INFO, "get a row", K(*tmp_row)); } ASSERT_EQ(OB_ITER_END, ret); ASSERT_EQ(OB_SUCCESS, exe_result.close(exec_ctx)); } #define EXCEPTION_TEST_1(test_name, expected_ret, file, func, key, err) \ TEST_F(ObDistributedSchedulerTest, test_name) \ {\ TP_SET_ERROR(file, func, key, err); \ int ret = exception_test(); \ TP_SET_ERROR(file, func, key, NULL); \ ASSERT_EQ(ret, expected_ret); \ } #define EXCEPTION_TEST_2(test_name, expected_ret, file1, func1, key1, err1, file2, func2, key2, err2) \ TEST_F(ObDistributedSchedulerTest, test_name) \ {\ TP_SET_ERROR(file1, func1, key1, err1); \ TP_SET_ERROR(file2, func2, key2, err2); \ int ret = exception_test(); \ TP_SET_ERROR(file1, func1, key1, NULL); \ TP_SET_ERROR(file2, func2, key2, NULL); \ ASSERT_EQ(ret, expected_ret); \ } #if 0 EXCEPTION_TEST_1(et1_1, OB_NOT_INIT, "executor/ob_task.cpp", "serialize_", "t1", 1) EXCEPTION_TEST_1(et1_2, OB_NOT_INIT, "executor/ob_task.cpp", "deserialize_", "t1", 1) EXCEPTION_TEST_1(et1_3, OB_ERR_UNEXPECTED, "executor/ob_task.cpp", "deserialize_", "t2", 1) EXCEPTION_TEST_1(et1_4, OB_ERROR, "executor/ob_task.cpp", "serialize_tree", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_5, OB_ERROR, "executor/ob_task.cpp", "serialize_tree", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_6, OB_ERR_UNEXPECTED, "executor/ob_task.cpp", "serialize_tree", "t3", 1) EXCEPTION_TEST_1(et1_7, OB_ERROR, "executor/ob_task.cpp", "serialize_tree", "t4", OB_ERROR) EXCEPTION_TEST_1(et1_8, OB_ERROR, "executor/ob_task.cpp", "deserialize_tree", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_9, OB_ALLOCATE_MEMORY_FAILED, "executor/ob_task.cpp", "deserialize_tree", "t2", 1) EXCEPTION_TEST_1(et1_10, OB_ERROR, "executor/ob_task.cpp", "deserialize_tree", "t3", OB_ERROR) EXCEPTION_TEST_1(et1_11, OB_ERROR, "executor/ob_task.cpp", "deserialize_tree", "t4", OB_ERROR) EXCEPTION_TEST_1(et1_12, OB_ERR_UNEXPECTED, "executor/ob_task.cpp", "deserialize_tree", "t5", 1) EXCEPTION_TEST_1(et1_13, OB_ERROR, "executor/ob_task.cpp", "deserialize_tree", "t6", OB_ERROR) EXCEPTION_TEST_1(et1_14, OB_ERROR, "executor/ob_task.cpp", "deserialize_tree", "t7", OB_ERROR) EXCEPTION_TEST_1(et1_15, OB_ERROR, "executor/ob_distributed_job_control.cpp", "get_ready_jobs", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_16, OB_ERROR, "executor/ob_distributed_job_control.cpp", "get_ready_jobs", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_17, OB_ERR_UNEXPECTED, "executor/ob_distributed_job_executor.cpp", "execute_step", "t1", 1) EXCEPTION_TEST_1(et1_18, OB_NOT_INIT, "executor/ob_distributed_job_executor.cpp", "get_executable_tasks", "t1", 1) EXCEPTION_TEST_1(et1_19, OB_ERROR, "executor/ob_distributed_job_executor.cpp", "get_executable_tasks", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_20, OB_ERROR, "executor/ob_distributed_job_executor.cpp", "get_executable_tasks", "t3", OB_ERROR) EXCEPTION_TEST_1(et1_21, OB_NOT_INIT, "executor/ob_distributed_task_executor.cpp", "execute", "t1", 1) EXCEPTION_TEST_1(et1_22, OB_NOT_INIT, "executor/ob_distributed_task_executor.cpp", "execute", "t2", 1) EXCEPTION_TEST_1(et1_23, OB_ERR_UNEXPECTED, "executor/ob_distributed_task_executor.cpp", "execute", "t3", 1) EXCEPTION_TEST_1(et1_24, OB_ERR_UNEXPECTED, "executor/ob_distributed_task_executor.cpp", "execute", "t4", 1) EXCEPTION_TEST_1(et1_25, OB_ERROR, "executor/ob_distributed_task_executor.cpp", "execute", "t5", OB_ERROR) EXCEPTION_TEST_1(et1_26, OB_ERROR, "executor/ob_distributed_task_executor.cpp", "execute", "t6", OB_ERROR) EXCEPTION_TEST_1(et1_27, OB_ERROR, "executor/ob_distributed_task_executor.cpp", "build_task", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_28, OB_NOT_INIT, "executor/ob_distributed_task_runner.cpp", "execute", "t1", 1) EXCEPTION_TEST_1(et1_29, OB_ERR_UNEXPECTED, "executor/ob_distributed_task_runner.cpp", "execute", "t2", 1) EXCEPTION_TEST_1(et1_30, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t3", OB_ERROR) EXCEPTION_TEST_1(et1_31, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR) EXCEPTION_TEST_1(et1_32, OB_INVALID_ARGUMENT, "executor/ob_task_spliter.cpp", "init", "t1", 1) EXCEPTION_TEST_1(et1_33, OB_NOT_INIT, "executor/ob_identity_task_spliter.cpp", "get_next_task", "t1", 1) EXCEPTION_TEST_1(et1_34, OB_ALLOCATE_MEMORY_FAILED, "executor/ob_identity_task_spliter.cpp", "get_next_task", "t2", 1) EXCEPTION_TEST_1(et1_35, OB_NOT_INIT, "executor/ob_interm_task_spliter.cpp", "prepare", "t1", 1) EXCEPTION_TEST_1(et1_36, OB_ERR_UNEXPECTED, "executor/ob_interm_task_spliter.cpp", "prepare", "t2", 1) EXCEPTION_TEST_1(et1_37, OB_ALLOCATE_MEMORY_FAILED, "executor/ob_interm_task_spliter.cpp", "get_next_task", "t1", 1) EXCEPTION_TEST_1(et1_38, OB_NOT_INIT, "executor/ob_local_job_executor.cpp", "execute", "t1", 1) EXCEPTION_TEST_1(et1_39, OB_ERROR, "executor/ob_local_job_executor.cpp", "execute", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_40, OB_ERROR, "executor/ob_local_job_executor.cpp", "execute", "t3", OB_ERROR) EXCEPTION_TEST_1(et1_41, OB_ERROR, "executor/ob_local_job_executor.cpp", "get_executable_task", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_42, OB_ERROR, "executor/ob_local_job_executor.cpp", "get_executable_task", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_43, OB_ERR_UNEXPECTED, "executor/ob_local_job_executor.cpp", "get_executable_task", "t3", 1) EXCEPTION_TEST_1(et1_44, OB_ERROR, "executor/ob_local_job_executor.cpp", "get_executable_task", "t4", OB_ERROR) EXCEPTION_TEST_1(et1_45, OB_NOT_INIT, "executor/ob_job.cpp", "get_task_control", "t1", 1) EXCEPTION_TEST_1(et1_46, OB_ERROR, "executor/ob_job.cpp", "get_task_control", "t2", OB_ERROR) EXCEPTION_TEST_1(et1_47, OB_ERROR, "executor/ob_job.cpp", "get_finished_task_locations", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_48, OB_ERR_UNEXPECTED, "executor/ob_job.cpp", "get_finished_task_locations", "t2", 1) //EXCEPTION_TEST_1(et1_49, OB_ERROR, "executor/ob_job.cpp", "get_finished_task_locations", "t3", OB_ERROR) EXCEPTION_TEST_1(et1_50, OB_ERROR, "executor/ob_job.cpp", "get_finished_task_locations", "t4", OB_ERROR) //EXCEPTION_TEST_1(et1_51, OB_INVALID_ARGUMENT, "executor/ob_job.cpp", "update_job_state", "t1", 1) //EXCEPTION_TEST_1(et1_52, OB_INVALID_ARGUMENT, "executor/ob_job.cpp", "update_job_state", "t2", 1) //EXCEPTION_TEST_1(et1_53, OB_ERROR, "executor/ob_job.cpp", "update_job_state", "t3", OB_ERROR) //EXCEPTION_TEST_1(et1_54, OB_ERROR, "executor/ob_job.cpp", "update_job_state", "t4", OB_ERROR) EXCEPTION_TEST_1(et1_55, OB_INVALID_ARGUMENT, "executor/ob_job.cpp", "add_child", "t1", 1) EXCEPTION_TEST_1(et1_56, OB_SIZE_OVERFLOW, "executor/ob_job.cpp", "add_child", "t2", 1) EXCEPTION_TEST_1(et1_57, OB_ERROR, "executor/ob_task_executor.cpp", "build_op_input", "t1", OB_ERROR) EXCEPTION_TEST_1(et1_58, OB_ERROR, "executor/ob_task_executor.cpp", "build_op_input", "t2", OB_ERROR) EXCEPTION_TEST_2(et2_1, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_job_executor.cpp", "kill_job", "t1", OB_ERROR) EXCEPTION_TEST_2(et2_2, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_task_executor.cpp", "kill", "t1", 1) EXCEPTION_TEST_2(et2_3, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_task_executor.cpp", "kill", "t2", 1) EXCEPTION_TEST_2(et2_4, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_task_executor.cpp", "kill", "t3", 1) EXCEPTION_TEST_2(et2_5, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_task_executor.cpp", "kill", "t4", OB_ERROR) EXCEPTION_TEST_2(et2_6, OB_ERROR, "executor/ob_distributed_task_runner.cpp", "execute", "t4", OB_ERROR, "executor/ob_distributed_task_executor.cpp", "kill", "t5", OB_ERROR) #endif int main(int argc, char **argv) { OB_LOGGER.set_log_level("INFO"); oceanbase::common::ObLogger::get_logger().set_log_level("INFO"); init_sql_factories(); ::testing::InitGoogleTest(&argc,argv); return RUN_ALL_TESTS(); }