/** * 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 #define USING_LOG_PREFIX STORAGE #define private public #define protected public #include "common/ob_tablet_id.h" #include "share/ob_simple_mem_limit_getter.h" #include "storage/blocksstable/ob_sstable_meta.h" #include "storage/blocksstable/ob_block_manager.h" #include "storage/blocksstable/ob_data_file_prepare.h" #include "storage/blocksstable/ob_index_block_builder.h" #include "storage/schema_utils.h" #include "storage/ls/ob_ls_tablet_service.h" namespace oceanbase { using namespace common; using namespace share; using namespace storage; using namespace blocksstable; namespace unittest { static ObSimpleMemLimitGetter getter; class TestRootBlockInfo : public TestDataFilePrepare { public: TestRootBlockInfo(); virtual ~TestRootBlockInfo() = default; virtual void SetUp() override; virtual void TearDown() override; private: void prepare_tablet_read_info(); void prepare_block_root(); static const int64_t BUF_LEN = 10; static const int64_t ROWKEY_COL_CNT = 2; static constexpr int64_t COLUMN_CNT = 4; protected: ObRootBlockInfo root_info_; ObTableReadInfo table_read_info_; ObMicroBlockDesMeta des_meta_; ObMicroBlockData block_data_; ObMetaDiskAddr block_addr_; ObArenaAllocator allocator_; }; TestRootBlockInfo::TestRootBlockInfo() : TestDataFilePrepare(&getter, "TestRootBlockInfo", 2 * 1024 * 1024, 2048), root_info_(), table_read_info_(), des_meta_(), block_data_(), block_addr_(), allocator_() { } void TestRootBlockInfo::SetUp() { TestDataFilePrepare::SetUp(); prepare_tablet_read_info(); des_meta_.encrypt_id_ = ObAesOpMode::ob_invalid_mode; des_meta_.compressor_type_ = ObCompressorType::NONE_COMPRESSOR; ASSERT_TRUE(!root_info_.is_valid()); root_info_.reset(); ASSERT_TRUE(!root_info_.is_valid()); prepare_block_root(); } void TestRootBlockInfo::TearDown() { root_info_.reset(); ASSERT_TRUE(!root_info_.is_valid()); table_read_info_.reset(); TestDataFilePrepare::TearDown(); } void TestRootBlockInfo::prepare_tablet_read_info() { const int64_t schema_version = 1; common::ObSEArray columns; for (int i = 0; i < COLUMN_CNT; ++i) { share::schema::ObColDesc desc; desc.col_id_ = OB_APP_MIN_COLUMN_ID + i; desc.col_type_.set_int(); desc.col_order_ = ObOrderType::ASC; ASSERT_EQ(OB_SUCCESS, columns.push_back(desc)); } ASSERT_EQ(OB_SUCCESS, table_read_info_.init(allocator_, schema_version, ROWKEY_COL_CNT, lib::is_oracle_mode(), columns, true)); } void TestRootBlockInfo::prepare_block_root() { const int64_t block_size = 2L * 1024 * 1024L; ObMicroBlockWriter writer; ASSERT_EQ(OB_SUCCESS, writer.init(block_size, ROWKEY_COL_CNT, COLUMN_CNT)); ObDatumRow row; ASSERT_EQ(OB_SUCCESS, row.init(allocator_, COLUMN_CNT)); ObObj obj; for (int64_t i = 0; i < COLUMN_CNT; ++i) { obj.set_int(OB_APP_MIN_COLUMN_ID + i); ASSERT_EQ(OB_SUCCESS, row.storage_datums_[i].from_obj_enhance(obj)); } row.row_flag_.set_flag(ObDmlFlag::DF_INSERT); row.count_ = COLUMN_CNT; ASSERT_EQ(OB_SUCCESS, writer.append_row(row)); ObMicroBlockDesc micro_desc; ASSERT_EQ(OB_SUCCESS, writer.build_micro_block_desc(micro_desc)); ObMicroBlockHeader *header = const_cast(micro_desc.header_); ASSERT_NE(nullptr, header); ASSERT_EQ(true, header->is_valid()); header->data_length_ = micro_desc.buf_size_; header->data_zlength_ = micro_desc.buf_size_; header->data_checksum_ = ob_crc64_sse42(0, micro_desc.buf_, micro_desc.buf_size_); header->original_length_ = micro_desc.buf_size_; header->set_header_checksum(); const int64_t size = header->header_size_ + micro_desc.buf_size_; char *buf = static_cast(allocator_.alloc(size)); ASSERT_TRUE(nullptr != buf); int64_t pos = 0; ASSERT_EQ(OB_SUCCESS, micro_desc.header_->serialize(buf, size, pos)); MEMCPY(buf + pos, micro_desc.buf_, micro_desc.buf_size_); block_addr_.offset_ = 1000; block_addr_.size_ = size; block_addr_.type_ = ObMetaDiskAddr::BLOCK; block_data_.buf_ = buf; block_data_.size_ = size; block_data_.type_ = ObMicroBlockData::INDEX_BLOCK; ObMacroBlockWriteInfo write_info; ObMacroBlockHandle handle; const int64_t buf_size = block_size; char *io_buf = static_cast(allocator_.alloc(buf_size)); ASSERT_TRUE(nullptr != io_buf); MEMCPY(io_buf + block_addr_.offset_, buf, block_addr_.size_); write_info.io_desc_.set_wait_event(ObWaitEventIds::DB_FILE_COMPACT_WRITE); write_info.buffer_ = io_buf; write_info.size_ = buf_size; ASSERT_EQ(OB_SUCCESS, ObBlockManager::write_block(write_info, handle)); block_addr_.second_id_ = handle.get_macro_id().second_id(); ASSERT_EQ(OB_SUCCESS, root_info_.init_root_block_info(&allocator_, block_addr_, block_data_)); ASSERT_TRUE(root_info_.is_valid()); } class TestSSTableMacroInfo : public TestRootBlockInfo { public: TestSSTableMacroInfo(); virtual ~TestSSTableMacroInfo() = default; virtual void SetUp() override; virtual void TearDown() override; private: ObTabletCreateSSTableParam param_; }; TestSSTableMacroInfo::TestSSTableMacroInfo() : TestRootBlockInfo(), param_() { } void TestSSTableMacroInfo::SetUp() { TestRootBlockInfo::SetUp(); param_.data_block_macro_meta_addr_ = block_addr_; param_.data_block_macro_meta_ = block_data_; } void TestSSTableMacroInfo::TearDown() { TestRootBlockInfo::TearDown(); } class TestSSTableMeta : public TestDataFilePrepare { public: TestSSTableMeta(); virtual ~TestSSTableMeta() = default; virtual void SetUp() override; virtual void TearDown() override; private: void prepare_create_sstable_param(); ObTabletCreateSSTableParam param_; ObTabletID tablet_id_; int64_t data_version_; int64_t snapshot_version_; share::schema::ObTableSchema table_schema_; common::ObArenaAllocator allocator_; }; TestSSTableMeta::TestSSTableMeta() : TestDataFilePrepare(&getter, "TestBaseSSTableMeta", 2 * 1024 * 1024, 2048), param_(), tablet_id_(1), data_version_(0), snapshot_version_(0), table_schema_(), allocator_() { } void TestSSTableMeta::SetUp() { TestDataFilePrepare::SetUp(); TestSchemaUtils::prepare_data_schema(table_schema_); prepare_create_sstable_param(); } void TestSSTableMeta::TearDown() { table_schema_.reset(); TestDataFilePrepare::TearDown(); } void TestSSTableMeta::prepare_create_sstable_param() { const int64_t multi_version_col_cnt = ObMultiVersionRowkeyHelpper::get_extra_rowkey_col_cnt(); param_.table_key_.table_type_ = ObITable::TableType::MAJOR_SSTABLE; param_.table_key_.tablet_id_ = tablet_id_; param_.table_key_.version_range_.base_version_ = ObVersionRange::MIN_VERSION; param_.table_key_.version_range_.snapshot_version_ = snapshot_version_; param_.schema_version_ = table_schema_.get_schema_version(); param_.create_snapshot_version_ = 0; param_.progressive_merge_round_ = table_schema_.get_progressive_merge_round(); param_.progressive_merge_step_ = 0; param_.table_mode_ = table_schema_.get_table_mode_struct(); param_.index_type_ = table_schema_.get_index_type(); param_.rowkey_column_cnt_ = table_schema_.get_rowkey_column_num() + ObMultiVersionRowkeyHelpper::get_extra_rowkey_col_cnt(); param_.root_block_addr_.set_none_addr(); param_.data_block_macro_meta_addr_.set_none_addr(); param_.root_row_store_type_ = ObRowStoreType::FLAT_ROW_STORE; param_.latest_row_store_type_ = ObRowStoreType::FLAT_ROW_STORE; param_.data_index_tree_height_ = 0; param_.index_blocks_cnt_ = 0; param_.data_blocks_cnt_ = 0; param_.micro_block_cnt_ = 0; param_.use_old_macro_block_count_ = 0; param_.column_cnt_ = table_schema_.get_column_count() + multi_version_col_cnt; param_.data_checksum_ = 0; param_.occupy_size_ = 0; param_.ddl_scn_.set_min(); param_.filled_tx_scn_.set_min(); param_.original_size_ = 0; param_.compressor_type_ = ObCompressorType::NONE_COMPRESSOR; param_.encrypt_id_ = 0; param_.master_key_id_ = 0; ASSERT_EQ(OB_SUCCESS, ObSSTableMergeRes::fill_column_checksum_for_empty_major(param_.column_cnt_, param_.column_checksums_)); } class TestMigrationSSTableParam : public TestSSTableMeta { public: TestMigrationSSTableParam(); virtual ~TestMigrationSSTableParam() = default; virtual void SetUp() override; virtual void TearDown() override; private: storage::ObStorageSchema storage_schema_; ObSSTableMeta sstable_meta_; storage::ObITable::TableKey table_key_; }; TestMigrationSSTableParam::TestMigrationSSTableParam() : storage_schema_(), sstable_meta_(), table_key_() { } void TestMigrationSSTableParam::SetUp() { TestSSTableMeta::SetUp(); ASSERT_EQ(OB_SUCCESS, storage_schema_.init(allocator_, table_schema_, lib::get_compat_mode())); ASSERT_TRUE(!sstable_meta_.is_valid()); sstable_meta_.reset(); ASSERT_TRUE(!sstable_meta_.is_valid()); ASSERT_EQ(OB_SUCCESS, sstable_meta_.init(param_, &allocator_)); ASSERT_TRUE(sstable_meta_.is_valid()); ASSERT_TRUE(sstable_meta_.data_root_info_.is_valid()); ASSERT_TRUE(sstable_meta_.macro_info_.is_valid()); ASSERT_TRUE(sstable_meta_.get_col_checksum().count() > 0); table_key_.table_type_ = ObITable::TableType::MAJOR_SSTABLE; table_key_.tablet_id_ = 1101; table_key_.version_range_.base_version_ = 0; table_key_.version_range_.snapshot_version_ = 11; ASSERT_TRUE(table_key_.is_valid()); } void TestMigrationSSTableParam::TearDown() { table_key_.reset(); sstable_meta_.reset(); storage_schema_.reset(); TestSSTableMeta::TearDown(); } TEST_F(TestRootBlockInfo, test_load_and_transform_root_block) { ASSERT_TRUE(root_info_.get_addr().is_block()); ASSERT_EQ(OB_SUCCESS, root_info_.load_root_block_data(des_meta_)); ASSERT_EQ(OB_SUCCESS, root_info_.transform_root_block_data(table_read_info_)); } TEST_F(TestRootBlockInfo, test_serialize_and_deserialize) { int64_t pos = 0; // test block address. const int64_t buf_len_1 = root_info_.get_serialize_size(); char *buf = new char [buf_len_1]; ASSERT_EQ(OB_SUCCESS, root_info_.serialize(buf, buf_len_1, pos)); ASSERT_EQ(buf_len_1, pos); ASSERT_TRUE(root_info_.is_valid()); ASSERT_TRUE(root_info_.get_addr().is_block()); ObRootBlockInfo tmp_info; pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_info.deserialize(&allocator_, des_meta_, buf, buf_len_1, pos)); ASSERT_EQ(buf_len_1, pos); ASSERT_TRUE(tmp_info.is_valid()); ASSERT_EQ(root_info_.get_addr(), tmp_info.get_addr()); ASSERT_EQ(root_info_.get_block_data().type_, tmp_info.get_block_data().type_); ASSERT_EQ(0, memcmp(tmp_info.get_block_data().get_buf(), block_data_.get_buf(), block_data_.get_buf_size())); delete [] buf; // test memory address. root_info_.reset(); ASSERT_TRUE(!root_info_.is_valid()); const char data[BUF_LEN] = {'1', '2', '3', '4', '5', '6', '7', '8', '9', '0'}; ObMicroBlockData block_data; ObMetaDiskAddr addr; addr.type_ = ObMetaDiskAddr::MEM; addr.size_ = BUF_LEN; block_data.buf_ = data; block_data.size_ = BUF_LEN; block_data.type_ = ObMicroBlockData::INDEX_BLOCK; ASSERT_EQ(OB_SUCCESS, root_info_.init_root_block_info(&allocator_, addr, block_data)); ASSERT_TRUE(root_info_.is_valid()); ASSERT_TRUE(root_info_.get_addr().is_memory()); pos = 0; const int64_t buf_len_2 = root_info_.get_serialize_size(); buf = new char [buf_len_2]; ASSERT_EQ(OB_SUCCESS, root_info_.serialize(buf, buf_len_2, pos)); ASSERT_EQ(buf_len_2, pos); ASSERT_TRUE(root_info_.is_valid()); pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_info.deserialize(&allocator_, des_meta_, buf, buf_len_2, pos)); ASSERT_EQ(buf_len_2, pos); ASSERT_TRUE(tmp_info.is_valid()); ASSERT_EQ(root_info_.get_addr(), tmp_info.get_addr()); ASSERT_EQ(root_info_.get_block_data().type_, tmp_info.get_block_data().type_); ASSERT_TRUE(tmp_info.get_addr().is_memory()); ASSERT_EQ(0, memcmp(tmp_info.get_block_data().get_buf(), block_data.buf_, BUF_LEN)); delete [] buf; // test none address. root_info_.reset(); ASSERT_TRUE(!root_info_.is_valid()); addr.set_none_addr(); block_data.type_ = ObMicroBlockData::INDEX_BLOCK; ASSERT_EQ(OB_SUCCESS, root_info_.init_root_block_info(&allocator_, addr, block_data)); ASSERT_TRUE(root_info_.is_valid()); ASSERT_TRUE(root_info_.get_addr().is_none()); const int64_t buf_len_3= root_info_.get_serialize_size(); buf = new char [buf_len_3]; pos = 0; ASSERT_EQ(OB_SUCCESS, root_info_.serialize(buf, buf_len_3, pos)); ASSERT_EQ(buf_len_3, pos); ASSERT_TRUE(root_info_.is_valid()); ASSERT_TRUE(root_info_.get_addr().is_none()); pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_info.deserialize(&allocator_, des_meta_, buf, buf_len_3, pos)); ASSERT_EQ(buf_len_3, pos); ASSERT_TRUE(tmp_info.is_valid()); ASSERT_EQ(root_info_.get_addr(), tmp_info.get_addr()); ASSERT_EQ(root_info_.get_block_data().type_, tmp_info.get_block_data().type_); delete [] buf; } TEST_F(TestSSTableMacroInfo, test_serialize_and_deserialize) { ObSSTableMacroInfo sstable_macro_info; ASSERT_TRUE(!sstable_macro_info.is_valid()); sstable_macro_info.reset(); ASSERT_TRUE(!sstable_macro_info.is_valid()); ASSERT_EQ(OB_SUCCESS, sstable_macro_info.init_macro_info(&allocator_, param_)); ASSERT_TRUE(sstable_macro_info.is_valid()); ASSERT_EQ(block_addr_, sstable_macro_info.get_macro_meta_addr()); ASSERT_EQ(0, sstable_macro_info.get_data_block_ids().count()); ASSERT_EQ(0, sstable_macro_info.get_other_block_ids().count()); int64_t pos = 0; const int64_t buf_len = sstable_macro_info.get_serialize_size(); char *buf = new char [buf_len]; ASSERT_EQ(OB_SUCCESS, sstable_macro_info.serialize(buf, buf_len, pos)); ASSERT_TRUE(sstable_macro_info.is_valid()); ObSSTableMacroInfo tmp_info; pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_info.deserialize(&allocator_, des_meta_, buf, buf_len, pos)); ASSERT_TRUE(tmp_info.is_valid()); ASSERT_EQ(block_addr_, tmp_info.get_macro_meta_addr()); ASSERT_EQ(0, tmp_info.get_data_block_ids().count()); ASSERT_EQ(0, tmp_info.get_other_block_ids().count()); ASSERT_EQ(sstable_macro_info.macro_meta_info_.addr_, tmp_info.macro_meta_info_.addr_); ASSERT_EQ(sstable_macro_info.data_block_ids_.count(), tmp_info.data_block_ids_.count()); ASSERT_EQ(sstable_macro_info.other_block_ids_.count(), tmp_info.other_block_ids_.count()); } TEST_F(TestSSTableMacroInfo, test_huge_block_ids) { ObSSTableMacroInfo sstable_macro_info; ASSERT_EQ(OB_SUCCESS, sstable_macro_info.init_macro_info(&allocator_, param_)); MacroBlockId block_id; sstable_macro_info.data_block_ids_.set_capacity(blocksstable::ObSSTableMacroInfo::BLOCK_CNT_THRESHOLD); sstable_macro_info.other_block_ids_.set_capacity(1); for (int64_t i = 0; i < blocksstable::ObSSTableMacroInfo::BLOCK_CNT_THRESHOLD; i++) { block_id.reset(); block_id.second_id_ = ObRandom::rand(1, 10<<10); ASSERT_EQ(OB_SUCCESS, sstable_macro_info.data_block_ids_.push_back(block_id)); } int64_t pos = 0; const int64_t buf_len = sstable_macro_info.get_serialize_size(); char *buf = new char[buf_len]; ASSERT_EQ(OB_SUCCESS, sstable_macro_info.serialize(buf, buf_len, pos)); ASSERT_NE(0, sstable_macro_info.linked_block_ids_.count()); ObSSTableMacroInfo tmp_info; pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_info.deserialize(&allocator_, des_meta_, buf, buf_len, pos)); for (int i = 0; i < blocksstable::ObSSTableMacroInfo::BLOCK_CNT_THRESHOLD; i++) { ASSERT_EQ(sstable_macro_info.data_block_ids_.at(i), tmp_info.data_block_ids_.at(i)); } } TEST_F(TestSSTableMeta, test_empty_sstable_serialize_and_deserialize) { ObSSTableMeta sstable_meta; ASSERT_TRUE(!sstable_meta.is_valid()); sstable_meta.reset(); ASSERT_TRUE(!sstable_meta.is_valid()); ASSERT_EQ(OB_SUCCESS, sstable_meta.init(param_, &allocator_)); ASSERT_TRUE(sstable_meta.is_valid()); ASSERT_TRUE(sstable_meta.data_root_info_.is_valid()); ASSERT_TRUE(sstable_meta.macro_info_.is_valid()); ASSERT_TRUE(sstable_meta.get_col_checksum().count() > 0); int64_t pos = 0; const int64_t buf_len = sstable_meta.get_serialize_size(); char *buf = new char [buf_len]; ASSERT_EQ(OB_SUCCESS, sstable_meta.serialize(buf, buf_len, pos)); ASSERT_TRUE(sstable_meta.is_valid()); ASSERT_TRUE(sstable_meta.data_root_info_.is_valid()); ASSERT_TRUE(sstable_meta.macro_info_.is_valid()); ASSERT_TRUE(sstable_meta.get_col_checksum().count() > 0); ObSSTableMeta tmp_meta; pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_meta.deserialize(&allocator_, buf, buf_len, pos)); ASSERT_TRUE(tmp_meta.is_valid()); ASSERT_TRUE(tmp_meta.data_root_info_.is_valid()); ASSERT_TRUE(tmp_meta.macro_info_.is_valid()); ASSERT_TRUE(tmp_meta.get_col_checksum().count() > 0); ASSERT_EQ(sstable_meta.basic_meta_, tmp_meta.basic_meta_); ASSERT_EQ(sstable_meta.column_checksums_.count(), tmp_meta.column_checksums_.count()); ASSERT_EQ(sstable_meta.data_root_info_.addr_, tmp_meta.data_root_info_.addr_); ASSERT_EQ(sstable_meta.macro_info_.data_block_ids_.count(), tmp_meta.macro_info_.data_block_ids_.count()); ASSERT_EQ(sstable_meta.macro_info_.other_block_ids_.count(), tmp_meta.macro_info_.other_block_ids_.count()); free(buf); } TEST_F(TestMigrationSSTableParam, test_empty_sstable_serialize_and_deserialize) { ObMigrationSSTableParam mig_param; ASSERT_TRUE(!mig_param.is_valid()); mig_param.reset(); ASSERT_TRUE(!mig_param.is_valid()); mig_param.basic_meta_ = sstable_meta_.get_basic_meta(); ASSERT_EQ(OB_SUCCESS, mig_param.column_checksums_.assign(sstable_meta_.get_col_checksum())); mig_param.table_key_ = table_key_; ASSERT_TRUE(mig_param.is_valid()); ASSERT_TRUE(mig_param.basic_meta_.is_valid()); ASSERT_TRUE(mig_param.column_checksums_.count() > 0); ASSERT_TRUE(mig_param.table_key_.is_valid()); ASSERT_EQ(sstable_meta_.get_basic_meta(), mig_param.basic_meta_); ASSERT_EQ(table_key_, mig_param.table_key_); ASSERT_EQ(sstable_meta_.get_col_checksum().count(), mig_param.column_checksums_.count()); int64_t pos = 0; const int64_t buf_len = mig_param.get_serialize_size(); char *buf = new char [buf_len]; ASSERT_EQ(OB_SUCCESS, mig_param.serialize(buf, buf_len, pos)); ASSERT_TRUE(mig_param.is_valid()); ASSERT_TRUE(mig_param.basic_meta_.is_valid()); ASSERT_TRUE(mig_param.column_checksums_.count() > 0); ASSERT_TRUE(mig_param.table_key_.is_valid()); ObMigrationSSTableParam tmp_param; pos = 0; ASSERT_EQ(OB_SUCCESS, tmp_param.deserialize(buf, buf_len, pos)); ASSERT_TRUE(tmp_param.is_valid()); ASSERT_TRUE(tmp_param.basic_meta_.is_valid()); ASSERT_TRUE(tmp_param.column_checksums_.count() > 0); ASSERT_TRUE(tmp_param.table_key_.is_valid()); ASSERT_EQ(tmp_param.basic_meta_, mig_param.basic_meta_); ASSERT_EQ(tmp_param.table_key_, mig_param.table_key_); ASSERT_EQ(tmp_param.column_checksums_.count(), mig_param.column_checksums_.count()); } TEST_F(TestMigrationSSTableParam, test_migrate_sstable) { int ret = OB_SUCCESS; ObArenaAllocator allocator; ObTabletCreateSSTableParam src_sstable_param; src_sstable_param.table_key_.table_type_ = ObITable::TableType::MAJOR_SSTABLE; src_sstable_param.table_key_.tablet_id_ = tablet_id_; src_sstable_param.table_key_.version_range_.base_version_ = ObVersionRange::MIN_VERSION; src_sstable_param.table_key_.version_range_.snapshot_version_ = snapshot_version_; src_sstable_param.schema_version_ = 3; src_sstable_param.create_snapshot_version_ = 0; src_sstable_param.progressive_merge_round_ = 0; src_sstable_param.progressive_merge_step_ = 0; src_sstable_param.table_mode_ = table_schema_.get_table_mode_struct(); src_sstable_param.index_type_ = table_schema_.get_index_type(); src_sstable_param.rowkey_column_cnt_ = 1; src_sstable_param.root_block_addr_.set_none_addr(); src_sstable_param.data_block_macro_meta_addr_.set_none_addr(); src_sstable_param.root_row_store_type_ = ObRowStoreType::FLAT_ROW_STORE; src_sstable_param.latest_row_store_type_ = ObRowStoreType::FLAT_ROW_STORE; src_sstable_param.data_index_tree_height_ = 0; src_sstable_param.index_blocks_cnt_ = 0; src_sstable_param.data_blocks_cnt_ = 0; src_sstable_param.micro_block_cnt_ = 0; src_sstable_param.use_old_macro_block_count_ = 0; src_sstable_param.column_cnt_ = 1; src_sstable_param.data_checksum_ = 0; src_sstable_param.occupy_size_ = 0; src_sstable_param.ddl_scn_.set_min(); src_sstable_param.filled_tx_scn_.set_min(); src_sstable_param.original_size_ = 0; src_sstable_param.compressor_type_ = ObCompressorType::NONE_COMPRESSOR; src_sstable_param.encrypt_id_ = 1234; src_sstable_param.master_key_id_ = 5678; ret = src_sstable_param.column_checksums_.push_back(2022); ASSERT_EQ(OB_SUCCESS, ret); ObSSTableMeta src_meta; ret = src_meta.init(src_sstable_param, &allocator); ASSERT_EQ(OB_SUCCESS, ret); ObMigrationSSTableParam mig_param; mig_param.basic_meta_ = src_meta.get_basic_meta(); mig_param.table_key_ = src_sstable_param.table_key_; ret = mig_param.column_checksums_.assign(src_meta.get_col_checksum()); ASSERT_EQ(OB_SUCCESS, ret); ObTabletCreateSSTableParam dest_sstable_param; ret = ObLSTabletService::build_create_sstable_param_for_migration(mig_param, dest_sstable_param); ASSERT_EQ(OB_SUCCESS, ret); ASSERT_TRUE(dest_sstable_param.encrypt_id_ == src_sstable_param.encrypt_id_); } } // end namespace unittest } // end namespace oceanbase int main(int argc, char **argv) { system("rm -f test_sstable_meta.log*"); OB_LOGGER.set_file_name("test_sstable_meta.log", true); OB_LOGGER.set_log_level("INFO"); testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }