d6c6e05727
Co-authored-by: zhjc1124 <zhjc1124@gmail.com> Co-authored-by: BinChenn <binchenn.bc@gmail.com> Co-authored-by: oceanoverflow <oceanoverflow@gmail.com>
409 lines
17 KiB
C++
409 lines
17 KiB
C++
/**
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* Copyright (c) 2021 OceanBase
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* OceanBase CE is licensed under Mulan PubL v2.
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* You can use this software according to the terms and conditions of the Mulan PubL v2.
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* You may obtain a copy of Mulan PubL v2 at:
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* http://license.coscl.org.cn/MulanPubL-2.0
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* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
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* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
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* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
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* See the Mulan PubL v2 for more details.
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*/
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#include <gtest/gtest.h>
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#include <random>
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#include <string>
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#include <pthread.h>
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#define private public
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#include "logservice/palf/log_group_buffer.h"
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#include "logservice/palf/log_writer_utils.h"
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#include "logservice/palf/log_entry_header.h"
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#undef private
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#include "share/rc/ob_tenant_base.h"
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namespace oceanbase
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{
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using namespace common;
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using namespace share;
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using namespace palf;
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namespace unittest
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{
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class TestLogGroupBuffer : public ::testing::Test
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{
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public:
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TestLogGroupBuffer();
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virtual ~TestLogGroupBuffer();
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virtual void SetUp();
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virtual void TearDown();
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protected:
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int64_t palf_id_;
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LogGroupBuffer log_group_buffer_;
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};
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TestLogGroupBuffer::TestLogGroupBuffer()
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: palf_id_(1)
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{
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}
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TestLogGroupBuffer::~TestLogGroupBuffer()
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{
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}
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void TestLogGroupBuffer::SetUp()
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{
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ObMallocAllocator::get_instance()->create_and_add_tenant_allocator(1001);
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// init MTL
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ObTenantBase tbase(1001);
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ObTenantEnv::set_tenant(&tbase);
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}
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void TestLogGroupBuffer::TearDown()
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{
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PALF_LOG(INFO, "TestLogGroupBuffer has TearDown");
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PALF_LOG(INFO, "TearDown success");
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log_group_buffer_.destroy();
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ObMallocAllocator::get_instance()->recycle_tenant_allocator(1001);
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}
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TEST_F(TestLogGroupBuffer, test_init)
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{
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LSN start_lsn;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.init(start_lsn));
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start_lsn.val_ = 0;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INIT_TWICE, log_group_buffer_.init(start_lsn));
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}
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TEST_F(TestLogGroupBuffer, test_get_buffer_pos)
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{
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LSN lsn;
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int64_t start_pos = -1;
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.get_buffer_pos_(lsn, start_pos));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.get_buffer_pos_(lsn, start_pos));
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lsn.val_ = 50;
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EXPECT_EQ(OB_ERR_OUT_OF_LOWER_BOUND, log_group_buffer_.get_buffer_pos_(lsn, start_pos));
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lsn.val_ = 110;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.get_buffer_pos_(lsn, start_pos));
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EXPECT_EQ(10, start_pos);
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}
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TEST_F(TestLogGroupBuffer, test_can_handle_new_log)
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{
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LSN lsn;
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int64_t len = 1024;
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LSN reuse_lsn;
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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reuse_lsn.val_ = 100;
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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lsn.val_ = 200;
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len = 0;
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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len = 1024;
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reuse_lsn.reset();
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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reuse_lsn.val_ = 110;
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lsn.val_ = start_lsn.val_ - 1;
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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lsn.val_ = reuse_lsn.val_ + log_group_buffer_.get_available_buffer_size();
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EXPECT_EQ(false, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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lsn.val_ = start_lsn.val_;
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EXPECT_EQ(true, log_group_buffer_.can_handle_new_log(lsn, len, reuse_lsn));
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}
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TEST_F(TestLogGroupBuffer, test_get_log_buf)
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{
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LSN lsn;
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int64_t len = 0;
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LogWriteBuf log_buf;
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.get_log_buf(lsn, len, log_buf));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.get_log_buf(lsn, len, log_buf));
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lsn.val_ = 100;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.get_log_buf(lsn, len, log_buf));
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len = 1024;
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lsn.val_ = start_lsn.val_ - 1;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.get_log_buf(lsn, len, log_buf));
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lsn.val_ = start_lsn.val_;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.get_log_buf(lsn, len, log_buf));
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}
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TEST_F(TestLogGroupBuffer, test_fill)
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{
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LSN lsn;
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char data[1024];
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int64_t len = 0;
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LSN reuse_lsn(1024);
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.fill(lsn, data, len));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.fill(lsn, data, len));
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lsn = start_lsn;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.fill(lsn, NULL, len));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.fill(lsn, data, len));
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len = 100;
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lsn.val_ = start_lsn.val_ - 1;
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EXPECT_EQ(OB_ERR_UNEXPECTED, log_group_buffer_.fill(lsn, data, len));
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lsn.val_ = reuse_lsn.val_ - len - 1;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
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EXPECT_EQ(OB_ERR_UNEXPECTED, log_group_buffer_.fill(lsn, data, len));
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lsn = reuse_lsn;
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len = log_group_buffer_.get_available_buffer_size() + 10;
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EXPECT_EQ(OB_EAGAIN, log_group_buffer_.fill(lsn, data, len));
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len = 1024;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
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int64_t used_size = len;
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const int64_t buf_size = log_group_buffer_.get_available_buffer_size();
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LSN buf_end_lsn = reuse_lsn + (buf_size - (reuse_lsn.val_ - start_lsn.val_));
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while (lsn + len < buf_end_lsn) {
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
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lsn.val_ += len;
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}
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EXPECT_GT(lsn + len, buf_end_lsn);
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}
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TEST_F(TestLogGroupBuffer, test_fill_padding)
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{
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LSN lsn;
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const int64_t padding_valid_data_len = LogEntryHeader::PADDING_LOG_ENTRY_SIZE;
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char padding_valid_data[padding_valid_data_len];
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int64_t len = 0;
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LSN reuse_lsn(1024);
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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lsn = reuse_lsn;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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len = 100;
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lsn.val_ = start_lsn.val_ - 1;
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EXPECT_EQ(OB_ERR_UNEXPECTED, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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lsn.val_ = start_lsn.val_;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
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EXPECT_EQ(OB_ERR_UNEXPECTED, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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lsn = reuse_lsn;
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len = log_group_buffer_.get_available_buffer_size() + 1;
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EXPECT_EQ(OB_EAGAIN, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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len = 1024;
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int64_t used_size = len;
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const int64_t buf_size = log_group_buffer_.get_available_buffer_size();
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LSN buf_end_lsn = reuse_lsn + (buf_size - (reuse_lsn.val_ - start_lsn.val_));
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while (lsn + len < buf_end_lsn) {
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill_padding_body(lsn, padding_valid_data, padding_valid_data_len, len));
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lsn.val_ += len;
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}
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EXPECT_GT(lsn + len, buf_end_lsn);
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}
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TEST_F(TestLogGroupBuffer, test_fill_padding_cross_bround)
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{
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const int64_t padding_valid_data_len = LogEntryHeader::PADDING_LOG_ENTRY_SIZE;
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char padding_valid_data[padding_valid_data_len];
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memset(padding_valid_data, 'c', padding_valid_data_len);
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int64_t len = 0;
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LSN start_lsn(0);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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const int64_t unittest_log_buffer_size = 4 * 1024 * 1024;
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log_group_buffer_.available_buffer_size_ = log_group_buffer_.reserved_buffer_size_ = unittest_log_buffer_size;
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// LSN为0,提交3条1M日志
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const int64_t log_size = 1*1024*1024;
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char *buf = reinterpret_cast<char*>(ob_malloc(1*1024*1024, "unittest"));
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ASSERT_NE(nullptr, buf);
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LSN lsn0(0);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn0, buf, log_size));
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LSN lsn1(1*1024*1024);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn1, buf, log_size));
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LSN lsn2(2*1024*1024);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn2, buf, log_size));
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// 更新reuse lsn为1M, 继续提交2M的padding日志
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LSN lsn3(3*1024*1024);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(lsn1));
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill_padding_body(lsn3, padding_valid_data,
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padding_valid_data_len, 2*log_size));
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LSN lsn4(5*1024*1024);
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// 预期已经没有可用空间
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EXPECT_EQ(OB_EAGAIN, log_group_buffer_.fill(lsn4, buf, 1));
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// |5.5|2|3|4|5.0|
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// 判断5.0的数据是否是padding, 5号日志为2M, 其余日志为1M
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EXPECT_EQ(0, memcmp(padding_valid_data, log_group_buffer_.data_buf_+3*1024*1024, padding_valid_data_len));
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char *zero_data = reinterpret_cast<char*>(ob_malloc(2*log_size, "unittest"));
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ASSERT_NE(nullptr, zero_data);
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memset(zero_data, PADDING_LOG_CONTENT_CHAR, 2*1024*1024);
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_+3*1024*1024+1024, zero_data, 1*1024*1024-1*1024));
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// 更新reuse_lsn为4M-LogEntryHeader::PADDING_LOG_ENTRY_SIZE,此时正好可以将padding日志的有效日志体放在group_buffer尾部
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LSN reuse_lsn = LSN(unittest_log_buffer_size - LogEntryHeader::PADDING_LOG_ENTRY_SIZE);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
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LSN lsn5(reuse_lsn);
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// 提交2M的padding日志,有效日志长度为padding_valid_data_len
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// 2.x表示2号日志被复写部分
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// |5.x|2.x|3|4|5.0|, 5.0开始的地方为reuse_lsn
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// 故意将5.x的一些数据搞坏,验证fill_padding_body是否会清0
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memset(log_group_buffer_.data_buf_, 'x', 1*1024);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill_padding_body(lsn5, padding_valid_data, padding_valid_data_len, 2*log_size));
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// 预期log_group_buffer的尾部数据恰好和padding_valid_data一样
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// log_group_buffer的padding剩余数据和padding_valid_data一样
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_+lsn5.val_, padding_valid_data, LogEntryHeader::PADDING_LOG_ENTRY_SIZE));
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_, padding_valid_data+LogEntryHeader::PADDING_LOG_ENTRY_SIZE, padding_valid_data_len-LogEntryHeader::PADDING_LOG_ENTRY_SIZE));
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_+LogEntryHeader::PADDING_LOG_ENTRY_SIZE, zero_data, 2*log_size-padding_valid_data_len));
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// 更新reuse_lsn为4M-LogEntryHeader::PADDING_LOG_ENTRY_SIZE+10,此时padding日志的有效日志体需要放在group_buffer的首尾
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memset(log_group_buffer_.data_buf_, 'x', 1*1024);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn+10));
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LSN lsn6(reuse_lsn+10);
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const int64_t tail_padding_log_size = LogEntryHeader::PADDING_LOG_ENTRY_SIZE - 10;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill_padding_body(lsn6, padding_valid_data, padding_valid_data_len, 2*log_size));
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_+lsn6.val_, padding_valid_data, tail_padding_log_size));
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_, padding_valid_data+tail_padding_log_size, padding_valid_data_len-tail_padding_log_size));
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EXPECT_EQ(0, memcmp(log_group_buffer_.data_buf_+padding_valid_data_len-tail_padding_log_size, zero_data, 2*log_size-padding_valid_data_len));
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ob_free(buf);
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buf = nullptr;
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ob_free(zero_data);
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zero_data = nullptr;
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}
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TEST_F(TestLogGroupBuffer, test_check_log_buf_wrapped)
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{
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LSN lsn;
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int64_t len = 0;
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bool is_wrapped = false;
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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lsn = start_lsn;
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EXPECT_EQ(OB_INVALID_ARGUMENT, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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len = 10;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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lsn = start_lsn - 1;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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lsn = start_lsn + 10;
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len = 1024;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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EXPECT_FALSE(is_wrapped);
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len = log_group_buffer_.get_available_buffer_size();
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.check_log_buf_wrapped(lsn, len, is_wrapped));
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EXPECT_TRUE(is_wrapped);
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}
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TEST_F(TestLogGroupBuffer, test_to_leader)
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{
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.to_leader());
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.to_leader());
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EXPECT_EQ(OB_STATE_NOT_MATCH, log_group_buffer_.to_leader());
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}
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TEST_F(TestLogGroupBuffer, test_to_follower)
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{
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EXPECT_EQ(OB_NOT_INIT, log_group_buffer_.to_follower());
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LSN start_lsn(100);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.to_follower());
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.to_follower());
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}
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TEST_F(TestLogGroupBuffer, test_read_data)
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{
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LSN lsn(100);
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char data[1024];
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int64_t len = 100;
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LSN reuse_lsn(0);
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LSN start_lsn(0);
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.init(start_lsn));
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
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LSN read_begin_lsn(0);
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int64_t in_read_size = 100;
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int64_t out_read_size = 0;
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char *out_buf = (char*)malloc(1024);
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// read nothing because reuse_lsn <= read_begin_lsn
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
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EXPECT_EQ(0, out_read_size);
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reuse_lsn.val_ = 200;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
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// read data success
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
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EXPECT_EQ(in_read_size, out_read_size);
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// fill data at lsn(40M) with len 50.
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lsn.val_ = reuse_lsn.val_ + log_group_buffer_.get_available_buffer_size() - 200;
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len = 50;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
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// read data at lsn(50)
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read_begin_lsn.val_ = 50;
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
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EXPECT_EQ(in_read_size, out_read_size);
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// read data at lsn(49), this pos has been re-written
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read_begin_lsn.val_ = 49;
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out_read_size = 0;
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EXPECT_EQ(OB_ERR_OUT_OF_LOWER_BOUND, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
|
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EXPECT_EQ(0, out_read_size);
|
|
// truncate at lsn(40M + 1000)
|
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LSN truncate_lsn(1000 + log_group_buffer_.get_available_buffer_size());
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EXPECT_EQ(OB_SUCCESS, log_group_buffer_.truncate(truncate_lsn));
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// read data at lsn(49), this pos has been re-written
|
|
out_read_size = 0;
|
|
read_begin_lsn.val_ = 49;
|
|
EXPECT_EQ(OB_ERR_OUT_OF_LOWER_BOUND, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
|
|
// truncate at lsn(0)
|
|
// truncate_lsn.val_ = 0;
|
|
// EXPECT_EQ(OB_SUCCESS, log_group_buffer_.truncate(truncate_lsn));
|
|
// read data at lsn(500)
|
|
out_read_size = 0;
|
|
read_begin_lsn.val_ = 500;
|
|
EXPECT_EQ(OB_ERR_OUT_OF_LOWER_BOUND, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
|
|
EXPECT_EQ(0, out_read_size);
|
|
// fill data at lsn 500 - 600
|
|
lsn = truncate_lsn + 500;
|
|
len = 100;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
|
|
reuse_lsn = truncate_lsn + 600;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
|
|
// read data at lsn(500), read nothing because of last_truncate_max_lsn_
|
|
out_read_size = 0;
|
|
read_begin_lsn = truncate_lsn + 500;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
|
|
EXPECT_EQ(100, out_read_size);
|
|
// truncate at lsn(40M + 40M)
|
|
truncate_lsn.val_ = 2 * log_group_buffer_.get_available_buffer_size();
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.truncate(truncate_lsn));
|
|
reuse_lsn = truncate_lsn + 100;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
|
|
// fill data at lsn 40M - 600
|
|
lsn.val_ = truncate_lsn.val_ + log_group_buffer_.get_available_buffer_size() - 50;
|
|
len = 100;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.fill(lsn, data, len));
|
|
// update reuse_lsn
|
|
reuse_lsn = lsn + len;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.inc_update_reuse_lsn(reuse_lsn));
|
|
// read above wrapped data, expect success
|
|
out_read_size = 0;
|
|
read_begin_lsn = lsn;
|
|
in_read_size = 100;
|
|
EXPECT_EQ(OB_SUCCESS, log_group_buffer_.read_data(read_begin_lsn, in_read_size, out_buf, out_read_size));
|
|
EXPECT_EQ(in_read_size, out_read_size);
|
|
|
|
free(out_buf);
|
|
}
|
|
|
|
} // END of unittest
|
|
} // end of oceanbase
|
|
|
|
int main(int argc, char **argv)
|
|
{
|
|
system("rm -rf ./test_log_group_buffer.log*");
|
|
OB_LOGGER.set_file_name("test_log_group_buffer.log", true);
|
|
OB_LOGGER.set_log_level("TRACE");
|
|
PALF_LOG(INFO, "begin unittest::test_log_group_buffer");
|
|
::testing::InitGoogleTest(&argc, argv);
|
|
return RUN_ALL_TESTS();
|
|
}
|