// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. #include #include #include "runtime/buffer_control_block.h" #include "gen_cpp/PaloInternalService_types.h" namespace doris { class BufferControlBlockTest : public testing::Test { public: BufferControlBlockTest() { } virtual ~BufferControlBlockTest() { } protected: virtual void SetUp() { } private: }; TEST_F(BufferControlBlockTest, init_normal) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); } TEST_F(BufferControlBlockTest, add_one_get_one) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); TFetchDataResult* add_result = new TFetchDataResult(); add_result->result_batch.rows.push_back("hello test"); ASSERT_TRUE(control_block.add_batch(add_result).ok()); TFetchDataResult get_result; ASSERT_TRUE(control_block.get_batch(&get_result).ok()); ASSERT_FALSE(get_result.eos); ASSERT_EQ(1U, get_result.result_batch.rows.size()); ASSERT_STREQ("hello test", get_result.result_batch.rows[0].c_str()); } TEST_F(BufferControlBlockTest, get_one_after_close) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); control_block.close(Status::OK()); TFetchDataResult get_result; ASSERT_TRUE(control_block.get_batch(&get_result).ok()); ASSERT_TRUE(get_result.eos); } TEST_F(BufferControlBlockTest, get_add_after_cancel) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); ASSERT_TRUE(control_block.cancel().ok()); TFetchDataResult* add_result = new TFetchDataResult(); add_result->result_batch.rows.push_back("hello test"); ASSERT_FALSE(control_block.add_batch(add_result).ok()); delete add_result; TFetchDataResult get_result; ASSERT_FALSE(control_block.get_batch(&get_result).ok()); } void* cancel_thread(void* param) { BufferControlBlock* control_block = static_cast(param); sleep(1); control_block->cancel(); return NULL; } TEST_F(BufferControlBlockTest, add_then_cancel) { // only can add one batch BufferControlBlock control_block(TUniqueId(), 1); ASSERT_TRUE(control_block.init().ok()); pthread_t id; pthread_create(&id, NULL, cancel_thread, &control_block); { TFetchDataResult* add_result = new TFetchDataResult(); add_result->result_batch.rows.push_back("hello test1"); add_result->result_batch.rows.push_back("hello test2"); ASSERT_TRUE(control_block.add_batch(add_result).ok()); } { TFetchDataResult* add_result = new TFetchDataResult(); add_result->result_batch.rows.push_back("hello test1"); add_result->result_batch.rows.push_back("hello test2"); ASSERT_FALSE(control_block.add_batch(add_result).ok()); delete add_result; } TFetchDataResult get_result; ASSERT_FALSE(control_block.get_batch(&get_result).ok()); pthread_join(id, NULL); } TEST_F(BufferControlBlockTest, get_then_cancel) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); pthread_t id; pthread_create(&id, NULL, cancel_thread, &control_block); // get block until cancel TFetchDataResult get_result; ASSERT_FALSE(control_block.get_batch(&get_result).ok()); pthread_join(id, NULL); } void* add_thread(void* param) { BufferControlBlock* control_block = static_cast(param); sleep(1); { TFetchDataResult* add_result = new TFetchDataResult(); add_result->result_batch.rows.push_back("hello test1"); add_result->result_batch.rows.push_back("hello test2"); control_block->add_batch(add_result); } return NULL; } TEST_F(BufferControlBlockTest, get_then_add) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); pthread_t id; pthread_create(&id, NULL, add_thread, &control_block); // get block until a batch add TFetchDataResult get_result; ASSERT_TRUE(control_block.get_batch(&get_result).ok()); ASSERT_FALSE(get_result.eos); ASSERT_EQ(2U, get_result.result_batch.rows.size()); ASSERT_STREQ("hello test1", get_result.result_batch.rows[0].c_str()); ASSERT_STREQ("hello test2", get_result.result_batch.rows[1].c_str()); pthread_join(id, NULL); } void* close_thread(void* param) { BufferControlBlock* control_block = static_cast(param); sleep(1); control_block->close(Status::OK()); return NULL; } TEST_F(BufferControlBlockTest, get_then_close) { BufferControlBlock control_block(TUniqueId(), 1024); ASSERT_TRUE(control_block.init().ok()); pthread_t id; pthread_create(&id, NULL, close_thread, &control_block); // get block until a batch add TFetchDataResult get_result; ASSERT_TRUE(control_block.get_batch(&get_result).ok()); ASSERT_TRUE(get_result.eos); ASSERT_EQ(0U, get_result.result_batch.rows.size()); pthread_join(id, NULL); } } int main(int argc, char** argv) { std::string conffile = std::string(getenv("DORIS_HOME")) + "/conf/be.conf"; if (!doris::config::init(conffile.c_str(), false)) { fprintf(stderr, "error read config file. \n"); return -1; } init_glog("be-test"); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } /* vim: set ts=4 sw=4 sts=4 tw=100 noet: */