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doris/be/test/olap/delta_writer_test.cpp
plat1ko 25b6e4deb2 [fix](daemon) Fix incorrect initialization order of daemon services (#23578) 
Current initialization dependency:

      Daemon ───┬──► StorageEngine ──► ExecEnv ──► Disk/Mem/CpuInfo
                │
                │
BackendService ─┘
However, original code incorrectly initialize Daemon before StorageEngine.
This PR also stop and join threads of daemon services in their dtor, to ensure Daemon services release resources in reverse order of initialization via RAII.
2023-08-31 19:46:38 +08:00

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// 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 "olap/delta_writer.h"
#include <gen_cpp/AgentService_types.h>
#include <gtest/gtest-message.h>
#include <gtest/gtest-test-part.h>
#include <stdlib.h>
#include <unistd.h>
#include <iostream>
#include <map>
#include <memory>
#include <string>
#include <utility>
#include "common/config.h"
#include "common/object_pool.h"
#include "exec/tablet_info.h"
#include "gen_cpp/Descriptors_types.h"
#include "gen_cpp/Types_types.h"
#include "gen_cpp/internal_service.pb.h"
#include "gtest/gtest_pred_impl.h"
#include "io/fs/local_file_system.h"
#include "olap/data_dir.h"
#include "olap/iterators.h"
#include "olap/olap_define.h"
#include "olap/options.h"
#include "olap/rowset/beta_rowset.h"
#include "olap/rowset/segment_v2/segment.h"
#include "olap/schema.h"
#include "olap/storage_engine.h"
#include "olap/tablet.h"
#include "olap/tablet_manager.h"
#include "olap/task/engine_publish_version_task.h"
#include "olap/txn_manager.h"
#include "runtime/decimalv2_value.h"
#include "runtime/define_primitive_type.h"
#include "runtime/descriptor_helper.h"
#include "runtime/descriptors.h"
#include "runtime/exec_env.h"
#include "vec/columns/column.h"
#include "vec/core/block.h"
#include "vec/core/column_with_type_and_name.h"
#include "vec/runtime/vdatetime_value.h"
namespace doris {
class OlapMeta;
// This is DeltaWriter unit test which used by streaming load.
// And also it should take schema change into account after streaming load.
static const uint32_t MAX_PATH_LEN = 1024;
static std::unique_ptr<StorageEngine> k_engine;
static void set_up() {
char buffer[MAX_PATH_LEN];
EXPECT_NE(getcwd(buffer, MAX_PATH_LEN), nullptr);
config::storage_root_path = std::string(buffer) + "/data_test";
io::global_local_filesystem()->delete_and_create_directory(config::storage_root_path);
std::vector<StorePath> paths;
paths.emplace_back(config::storage_root_path, -1);
doris::EngineOptions options;
options.store_paths = paths;
Status s = doris::StorageEngine::open(options, &k_engine);
EXPECT_TRUE(s.ok()) << s.to_string();
ExecEnv* exec_env = doris::ExecEnv::GetInstance();
exec_env->set_memtable_memory_limiter(new MemTableMemoryLimiter());
k_engine->start_bg_threads();
}
static void tear_down() {
ExecEnv* exec_env = doris::ExecEnv::GetInstance();
exec_env->set_memtable_memory_limiter(nullptr);
k_engine.reset();
EXPECT_EQ(system("rm -rf ./data_test"), 0);
io::global_local_filesystem()->delete_directory(std::string(getenv("DORIS_HOME")) + "/" +
UNUSED_PREFIX);
}
static void create_tablet_request(int64_t tablet_id, int32_t schema_hash,
TCreateTabletReq* request) {
request->tablet_id = tablet_id;
request->__set_version(1);
request->tablet_schema.schema_hash = schema_hash;
request->tablet_schema.short_key_column_count = 6;
request->tablet_schema.keys_type = TKeysType::AGG_KEYS;
request->tablet_schema.storage_type = TStorageType::COLUMN;
request->__set_storage_format(TStorageFormat::V2);
TColumn k1;
k1.column_name = "k1";
k1.__set_is_key(true);
k1.column_type.type = TPrimitiveType::TINYINT;
request->tablet_schema.columns.push_back(k1);
TColumn k2;
k2.column_name = "k2";
k2.__set_is_key(true);
k2.column_type.type = TPrimitiveType::SMALLINT;
request->tablet_schema.columns.push_back(k2);
TColumn k3;
k3.column_name = "k3";
k3.__set_is_key(true);
k3.column_type.type = TPrimitiveType::INT;
request->tablet_schema.columns.push_back(k3);
TColumn k4;
k4.column_name = "k4";
k4.__set_is_key(true);
k4.column_type.type = TPrimitiveType::BIGINT;
request->tablet_schema.columns.push_back(k4);
TColumn k5;
k5.column_name = "k5";
k5.__set_is_key(true);
k5.column_type.type = TPrimitiveType::LARGEINT;
request->tablet_schema.columns.push_back(k5);
TColumn k6;
k6.column_name = "k6";
k6.__set_is_key(true);
k6.column_type.type = TPrimitiveType::DATE;
request->tablet_schema.columns.push_back(k6);
TColumn k7;
k7.column_name = "k7";
k7.__set_is_key(true);
k7.column_type.type = TPrimitiveType::DATETIME;
request->tablet_schema.columns.push_back(k7);
TColumn k8;
k8.column_name = "k8";
k8.__set_is_key(true);
k8.column_type.type = TPrimitiveType::CHAR;
k8.column_type.__set_len(4);
request->tablet_schema.columns.push_back(k8);
TColumn k9;
k9.column_name = "k9";
k9.__set_is_key(true);
k9.column_type.type = TPrimitiveType::VARCHAR;
k9.column_type.__set_len(65);
request->tablet_schema.columns.push_back(k9);
TColumn k10;
k10.column_name = "k10";
k10.__set_is_key(true);
k10.column_type.type = TPrimitiveType::DECIMALV2;
k10.column_type.__set_precision(6);
k10.column_type.__set_scale(3);
request->tablet_schema.columns.push_back(k10);
TColumn k11;
k11.column_name = "k11";
k11.__set_is_key(true);
k11.column_type.type = TPrimitiveType::DATEV2;
request->tablet_schema.columns.push_back(k11);
TColumn v1;
v1.column_name = "v1";
v1.__set_is_key(false);
v1.column_type.type = TPrimitiveType::TINYINT;
v1.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v1);
TColumn v2;
v2.column_name = "v2";
v2.__set_is_key(false);
v2.column_type.type = TPrimitiveType::SMALLINT;
v2.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v2);
TColumn v3;
v3.column_name = "v3";
v3.__set_is_key(false);
v3.column_type.type = TPrimitiveType::INT;
v3.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v3);
TColumn v4;
v4.column_name = "v4";
v4.__set_is_key(false);
v4.column_type.type = TPrimitiveType::BIGINT;
v4.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v4);
TColumn v5;
v5.column_name = "v5";
v5.__set_is_key(false);
v5.column_type.type = TPrimitiveType::LARGEINT;
v5.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v5);
TColumn v6;
v6.column_name = "v6";
v6.__set_is_key(false);
v6.column_type.type = TPrimitiveType::DATE;
v6.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v6);
TColumn v7;
v7.column_name = "v7";
v7.__set_is_key(false);
v7.column_type.type = TPrimitiveType::DATETIME;
v7.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v7);
TColumn v8;
v8.column_name = "v8";
v8.__set_is_key(false);
v8.column_type.type = TPrimitiveType::CHAR;
v8.column_type.__set_len(4);
v8.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v8);
TColumn v9;
v9.column_name = "v9";
v9.__set_is_key(false);
v9.column_type.type = TPrimitiveType::VARCHAR;
v9.column_type.__set_len(65);
v9.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v9);
TColumn v10;
v10.column_name = "v10";
v10.__set_is_key(false);
v10.column_type.type = TPrimitiveType::DECIMALV2;
v10.column_type.__set_precision(6);
v10.column_type.__set_scale(3);
v10.__set_aggregation_type(TAggregationType::SUM);
request->tablet_schema.columns.push_back(v10);
TColumn v11;
v11.column_name = "v11";
v11.__set_is_key(false);
v11.column_type.type = TPrimitiveType::DATEV2;
v11.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v11);
}
static void create_tablet_request_with_sequence_col(int64_t tablet_id, int32_t schema_hash,
TCreateTabletReq* request,
bool enable_mow = false) {
request->tablet_id = tablet_id;
request->__set_version(1);
request->tablet_schema.schema_hash = schema_hash;
request->tablet_schema.short_key_column_count = 2;
request->tablet_schema.keys_type = TKeysType::UNIQUE_KEYS;
request->tablet_schema.storage_type = TStorageType::COLUMN;
request->tablet_schema.__set_sequence_col_idx(4);
request->__set_storage_format(TStorageFormat::V2);
request->__set_enable_unique_key_merge_on_write(enable_mow);
TColumn k1;
k1.column_name = "k1";
k1.__set_is_key(true);
k1.column_type.type = TPrimitiveType::TINYINT;
request->tablet_schema.columns.push_back(k1);
TColumn k2;
k2.column_name = "k2";
k2.__set_is_key(true);
k2.column_type.type = TPrimitiveType::SMALLINT;
request->tablet_schema.columns.push_back(k2);
TColumn v1;
v1.column_name = "v1";
v1.__set_is_key(false);
v1.column_type.type = TPrimitiveType::DATETIME;
v1.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v1);
TColumn v2;
v2.column_name = "v2";
v2.__set_is_key(false);
v2.column_type.type = TPrimitiveType::DATEV2;
v2.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(v2);
TColumn sequence_col;
sequence_col.column_name = SEQUENCE_COL;
sequence_col.__set_is_key(false);
sequence_col.column_type.type = TPrimitiveType::INT;
sequence_col.__set_aggregation_type(TAggregationType::REPLACE);
request->tablet_schema.columns.push_back(sequence_col);
}
static TDescriptorTable create_descriptor_tablet() {
TDescriptorTableBuilder dtb;
TTupleDescriptorBuilder tuple_builder;
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_TINYINT).column_name("k1").column_pos(0).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_SMALLINT).column_name("k2").column_pos(1).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_INT).column_name("k3").column_pos(2).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_BIGINT).column_name("k4").column_pos(3).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_LARGEINT).column_name("k5").column_pos(4).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_DATE).column_name("k6").column_pos(5).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_DATETIME).column_name("k7").column_pos(6).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().string_type(4).column_name("k8").column_pos(7).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().string_type(65).column_name("k9").column_pos(8).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().decimal_type(6, 3).column_name("k10").column_pos(9).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_DATEV2).column_name("k11").column_pos(10).build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_TINYINT)
.column_name("v1")
.column_pos(11)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_SMALLINT)
.column_name("v2")
.column_pos(12)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_INT)
.column_name("v3")
.column_pos(13)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_BIGINT)
.column_name("v4")
.column_pos(14)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_LARGEINT)
.column_name("v5")
.column_pos(15)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_DATE)
.column_name("v6")
.column_pos(16)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_DATETIME)
.column_name("v7")
.column_pos(17)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.string_type(4)
.column_name("v8")
.column_pos(18)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.string_type(65)
.column_name("v9")
.column_pos(19)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.decimal_type(6, 3)
.column_name("v10")
.column_pos(20)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_DATEV2)
.column_name("v11")
.column_pos(21)
.nullable(false)
.build());
tuple_builder.build(&dtb);
return dtb.desc_tbl();
}
static TDescriptorTable create_descriptor_tablet_with_sequence_col() {
TDescriptorTableBuilder dtb;
TTupleDescriptorBuilder tuple_builder;
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_TINYINT).column_name("k1").column_pos(0).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_SMALLINT).column_name("k2").column_pos(1).build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_DATETIME)
.column_name("v1")
.column_pos(2)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_DATEV2)
.column_name("v2")
.column_pos(3)
.nullable(false)
.build());
tuple_builder.add_slot(TSlotDescriptorBuilder()
.type(TYPE_INT)
.column_name(SEQUENCE_COL)
.column_pos(4)
.nullable(false)
.build());
tuple_builder.build(&dtb);
return dtb.desc_tbl();
}
static void generate_data(vectorized::Block* block, int8_t k1, int16_t k2, int32_t seq) {
auto columns = block->mutate_columns();
int8_t c1 = k1;
columns[0]->insert_data((const char*)&c1, sizeof(c1));
int16_t c2 = k2;
columns[1]->insert_data((const char*)&c2, sizeof(c2));
vectorized::VecDateTimeValue c3;
c3.from_date_str("2020-07-16 19:39:43", 19);
int64_t c3_int = c3.to_int64();
columns[2]->insert_data((const char*)&c3_int, sizeof(c3));
doris::vectorized::DateV2Value<doris::vectorized::DateV2ValueType> c4;
c4.set_time(2022, 6, 6, 0, 0, 0, 0);
uint32_t c4_int = c4.to_date_int_val();
columns[3]->insert_data((const char*)&c4_int, sizeof(c4));
int32_t c5 = seq;
columns[4]->insert_data((const char*)&c5, sizeof(c2));
}
class TestDeltaWriter : public ::testing::Test {
public:
TestDeltaWriter() {}
~TestDeltaWriter() {}
static void SetUpTestSuite() {
config::min_file_descriptor_number = 100;
set_up();
}
static void TearDownTestSuite() { tear_down(); }
};
TEST_F(TestDeltaWriter, open) {
std::unique_ptr<RuntimeProfile> profile;
profile = std::make_unique<RuntimeProfile>("CreateTablet");
TCreateTabletReq request;
create_tablet_request(10003, 270068375, &request);
Status res = k_engine->create_tablet(request, profile.get());
EXPECT_EQ(Status::OK(), res);
TDescriptorTable tdesc_tbl = create_descriptor_tablet();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
TupleDescriptor* tuple_desc = desc_tbl->get_tuple_descriptor(0);
OlapTableSchemaParam param;
PUniqueId load_id;
load_id.set_hi(0);
load_id.set_lo(0);
WriteRequest write_req;
write_req.tablet_id = 10003;
write_req.schema_hash = 270068375;
write_req.txn_id = 20001;
write_req.partition_id = 30001;
write_req.load_id = load_id;
write_req.tuple_desc = tuple_desc;
write_req.slots = &(tuple_desc->slots());
write_req.is_high_priority = true;
write_req.table_schema_param = &param;
DeltaWriter* delta_writer = nullptr;
// test vec delta writer
profile = std::make_unique<RuntimeProfile>("LoadChannels");
DeltaWriter::open(&write_req, &delta_writer, profile.get(), TUniqueId());
EXPECT_NE(delta_writer, nullptr);
res = delta_writer->close();
EXPECT_EQ(Status::OK(), res);
res = delta_writer->build_rowset();
EXPECT_EQ(Status::OK(), res);
res = delta_writer->commit_txn(PSlaveTabletNodes(), false);
EXPECT_EQ(Status::OK(), res);
SAFE_DELETE(delta_writer);
res = k_engine->tablet_manager()->drop_tablet(request.tablet_id, request.replica_id, false);
EXPECT_EQ(Status::OK(), res);
}
TEST_F(TestDeltaWriter, vec_write) {
std::unique_ptr<RuntimeProfile> profile;
profile = std::make_unique<RuntimeProfile>("CreateTablet");
TCreateTabletReq request;
create_tablet_request(10004, 270068376, &request);
Status res = k_engine->create_tablet(request, profile.get());
ASSERT_TRUE(res.ok());
TDescriptorTable tdesc_tbl = create_descriptor_tablet();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
TupleDescriptor* tuple_desc = desc_tbl->get_tuple_descriptor(0);
// const std::vector<SlotDescriptor*>& slots = tuple_desc->slots();
OlapTableSchemaParam param;
PUniqueId load_id;
load_id.set_hi(0);
load_id.set_lo(0);
WriteRequest write_req;
write_req.tablet_id = 10004;
write_req.schema_hash = 270068376;
write_req.txn_id = 20002;
write_req.partition_id = 30002;
write_req.load_id = load_id;
write_req.tuple_desc = tuple_desc;
write_req.slots = &(tuple_desc->slots());
write_req.is_high_priority = false;
write_req.table_schema_param = &param;
DeltaWriter* delta_writer = nullptr;
profile = std::make_unique<RuntimeProfile>("LoadChannels");
DeltaWriter::open(&write_req, &delta_writer, profile.get(), TUniqueId());
ASSERT_NE(delta_writer, nullptr);
vectorized::Block block;
for (const auto& slot_desc : tuple_desc->slots()) {
block.insert(vectorized::ColumnWithTypeAndName(slot_desc->get_empty_mutable_column(),
slot_desc->get_data_type_ptr(),
slot_desc->col_name()));
}
auto columns = block.mutate_columns();
{
int8_t k1 = -127;
columns[0]->insert_data((const char*)&k1, sizeof(k1));
int16_t k2 = -32767;
columns[1]->insert_data((const char*)&k2, sizeof(k2));
int32_t k3 = -2147483647;
columns[2]->insert_data((const char*)&k3, sizeof(k3));
int64_t k4 = -9223372036854775807L;
columns[3]->insert_data((const char*)&k4, sizeof(k4));
int128_t k5 = -90000;
columns[4]->insert_data((const char*)&k5, sizeof(k5));
vectorized::VecDateTimeValue k6;
k6.from_date_str("2048-11-10", 10);
auto k6_int = k6.to_int64();
columns[5]->insert_data((const char*)&k6_int, sizeof(k6_int));
vectorized::VecDateTimeValue k7;
k7.from_date_str("2636-08-16 19:39:43", 19);
auto k7_int = k7.to_int64();
columns[6]->insert_data((const char*)&k7_int, sizeof(k7_int));
columns[7]->insert_data("abcd", 4);
columns[8]->insert_data("abcde", 5);
DecimalV2Value decimal_value;
decimal_value.assign_from_double(1.1);
columns[9]->insert_data((const char*)&decimal_value, sizeof(decimal_value));
doris::vectorized::DateV2Value<doris::vectorized::DateV2ValueType> date_v2;
date_v2.from_date_str("2048-11-10", 10);
auto date_v2_int = date_v2.to_date_int_val();
columns[10]->insert_data((const char*)&date_v2_int, sizeof(date_v2_int));
int8_t v1 = -127;
columns[11]->insert_data((const char*)&v1, sizeof(v1));
int16_t v2 = -32767;
columns[12]->insert_data((const char*)&v2, sizeof(v2));
int32_t v3 = -2147483647;
columns[13]->insert_data((const char*)&v3, sizeof(v3));
int64_t v4 = -9223372036854775807L;
columns[14]->insert_data((const char*)&v4, sizeof(v4));
int128_t v5 = -90000;
columns[15]->insert_data((const char*)&v5, sizeof(v5));
vectorized::VecDateTimeValue v6;
v6.from_date_str("2048-11-10", 10);
auto v6_int = v6.to_int64();
columns[16]->insert_data((const char*)&v6_int, sizeof(v6_int));
vectorized::VecDateTimeValue v7;
v7.from_date_str("2636-08-16 19:39:43", 19);
auto v7_int = v7.to_int64();
columns[17]->insert_data((const char*)&v7_int, sizeof(v7_int));
columns[18]->insert_data("abcd", 4);
columns[19]->insert_data("abcde", 5);
decimal_value.assign_from_double(1.1);
columns[20]->insert_data((const char*)&decimal_value, sizeof(decimal_value));
date_v2.from_date_str("2048-11-10", 10);
date_v2_int = date_v2.to_date_int_val();
columns[21]->insert_data((const char*)&date_v2_int, sizeof(date_v2_int));
res = delta_writer->write(&block, {0});
ASSERT_TRUE(res.ok());
}
res = delta_writer->close();
ASSERT_TRUE(res.ok());
res = delta_writer->wait_flush();
ASSERT_TRUE(res.ok());
res = delta_writer->build_rowset();
ASSERT_TRUE(res.ok());
res = delta_writer->submit_calc_delete_bitmap_task();
ASSERT_TRUE(res.ok());
res = delta_writer->wait_calc_delete_bitmap();
ASSERT_TRUE(res.ok());
res = delta_writer->commit_txn(PSlaveTabletNodes(), false);
ASSERT_TRUE(res.ok());
// publish version success
TabletSharedPtr tablet = k_engine->tablet_manager()->get_tablet(write_req.tablet_id);
std::cout << "before publish, tablet row nums:" << tablet->num_rows() << std::endl;
OlapMeta* meta = tablet->data_dir()->get_meta();
Version version;
version.first = tablet->rowset_with_max_version()->end_version() + 1;
version.second = tablet->rowset_with_max_version()->end_version() + 1;
std::cout << "start to add rowset version:" << version.first << "-" << version.second
<< std::endl;
std::map<TabletInfo, RowsetSharedPtr> tablet_related_rs;
StorageEngine::instance()->txn_manager()->get_txn_related_tablets(
write_req.txn_id, write_req.partition_id, &tablet_related_rs);
for (auto& tablet_rs : tablet_related_rs) {
std::cout << "start to publish txn" << std::endl;
RowsetSharedPtr rowset = tablet_rs.second;
TabletPublishStatistics stats;
res = k_engine->txn_manager()->publish_txn(meta, write_req.partition_id, write_req.txn_id,
write_req.tablet_id, tablet_rs.first.tablet_uid,
version, &stats);
ASSERT_TRUE(res.ok());
std::cout << "start to add inc rowset:" << rowset->rowset_id()
<< ", num rows:" << rowset->num_rows() << ", version:" << rowset->version().first
<< "-" << rowset->version().second << std::endl;
res = tablet->add_inc_rowset(rowset);
ASSERT_TRUE(res.ok());
}
ASSERT_EQ(1, tablet->num_rows());
res = k_engine->tablet_manager()->drop_tablet(request.tablet_id, request.replica_id, false);
ASSERT_TRUE(res.ok());
delete delta_writer;
}
TEST_F(TestDeltaWriter, vec_sequence_col) {
std::unique_ptr<RuntimeProfile> profile;
profile = std::make_unique<RuntimeProfile>("CreateTablet");
TCreateTabletReq request;
sleep(20);
create_tablet_request_with_sequence_col(10005, 270068377, &request);
Status res = k_engine->create_tablet(request, profile.get());
ASSERT_TRUE(res.ok());
TDescriptorTable tdesc_tbl = create_descriptor_tablet_with_sequence_col();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
TupleDescriptor* tuple_desc = desc_tbl->get_tuple_descriptor(0);
OlapTableSchemaParam param;
PUniqueId load_id;
load_id.set_hi(0);
load_id.set_lo(0);
WriteRequest write_req;
write_req.tablet_id = 10005;
write_req.schema_hash = 270068377;
write_req.txn_id = 20003;
write_req.partition_id = 30003;
write_req.load_id = load_id;
write_req.tuple_desc = tuple_desc;
write_req.slots = &(tuple_desc->slots());
write_req.is_high_priority = false;
write_req.table_schema_param = &param;
DeltaWriter* delta_writer = nullptr;
profile = std::make_unique<RuntimeProfile>("LoadChannels");
DeltaWriter::open(&write_req, &delta_writer, profile.get(), TUniqueId());
ASSERT_NE(delta_writer, nullptr);
vectorized::Block block;
for (const auto& slot_desc : tuple_desc->slots()) {
block.insert(vectorized::ColumnWithTypeAndName(slot_desc->get_empty_mutable_column(),
slot_desc->get_data_type_ptr(),
slot_desc->col_name()));
}
generate_data(&block, 123, 456, 100);
res = delta_writer->write(&block, {0});
ASSERT_TRUE(res.ok());
generate_data(&block, 123, 456, 90);
res = delta_writer->write(&block, {1});
ASSERT_TRUE(res.ok());
res = delta_writer->close();
ASSERT_TRUE(res.ok());
res = delta_writer->wait_flush();
ASSERT_TRUE(res.ok());
res = delta_writer->build_rowset();
ASSERT_TRUE(res.ok());
res = delta_writer->submit_calc_delete_bitmap_task();
ASSERT_TRUE(res.ok());
res = delta_writer->wait_calc_delete_bitmap();
ASSERT_TRUE(res.ok());
res = delta_writer->commit_txn(PSlaveTabletNodes(), false);
ASSERT_TRUE(res.ok());
// publish version success
TabletSharedPtr tablet = k_engine->tablet_manager()->get_tablet(write_req.tablet_id);
std::cout << "before publish, tablet row nums:" << tablet->num_rows() << std::endl;
OlapMeta* meta = tablet->data_dir()->get_meta();
Version version;
version.first = tablet->rowset_with_max_version()->end_version() + 1;
version.second = tablet->rowset_with_max_version()->end_version() + 1;
std::cout << "start to add rowset version:" << version.first << "-" << version.second
<< std::endl;
std::map<TabletInfo, RowsetSharedPtr> tablet_related_rs;
StorageEngine::instance()->txn_manager()->get_txn_related_tablets(
write_req.txn_id, write_req.partition_id, &tablet_related_rs);
ASSERT_EQ(1, tablet_related_rs.size());
std::cout << "start to publish txn" << std::endl;
RowsetSharedPtr rowset = tablet_related_rs.begin()->second;
TabletPublishStatistics pstats;
res = k_engine->txn_manager()->publish_txn(
meta, write_req.partition_id, write_req.txn_id, write_req.tablet_id,
tablet_related_rs.begin()->first.tablet_uid, version, &pstats);
ASSERT_TRUE(res.ok());
std::cout << "start to add inc rowset:" << rowset->rowset_id()
<< ", num rows:" << rowset->num_rows() << ", version:" << rowset->version().first
<< "-" << rowset->version().second << std::endl;
res = tablet->add_inc_rowset(rowset);
ASSERT_TRUE(res.ok());
ASSERT_EQ(1, tablet->num_rows());
std::vector<segment_v2::SegmentSharedPtr> segments;
res = ((BetaRowset*)rowset.get())->load_segments(&segments);
ASSERT_TRUE(res.ok());
ASSERT_EQ(1, rowset->num_segments());
ASSERT_EQ(1, segments.size());
// read data, verify the data correct
OlapReaderStatistics stats;
StorageReadOptions opts;
opts.stats = &stats;
opts.tablet_schema = rowset->tablet_schema();
std::unique_ptr<RowwiseIterator> iter;
std::shared_ptr<Schema> schema = std::make_shared<Schema>(rowset->tablet_schema());
auto s = segments[0]->new_iterator(schema, opts, &iter);
ASSERT_TRUE(s.ok());
auto read_block = rowset->tablet_schema()->create_block();
res = iter->next_batch(&read_block);
ASSERT_TRUE(res.ok());
ASSERT_EQ(1, read_block.rows());
// get the value from sequence column
auto seq_v = read_block.get_by_position(4).column->get_int(0);
ASSERT_EQ(100, seq_v);
res = k_engine->tablet_manager()->drop_tablet(request.tablet_id, request.replica_id, false);
ASSERT_TRUE(res.ok());
delete delta_writer;
}
TEST_F(TestDeltaWriter, vec_sequence_col_concurrent_write) {
RuntimeProfile profile("CreateTablet");
TCreateTabletReq request;
sleep(20);
create_tablet_request_with_sequence_col(10005, 270068377, &request, true);
Status res = k_engine->create_tablet(request, &profile);
ASSERT_TRUE(res.ok());
TDescriptorTable tdesc_tbl = create_descriptor_tablet_with_sequence_col();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
TupleDescriptor* tuple_desc = desc_tbl->get_tuple_descriptor(0);
OlapTableSchemaParam param;
PUniqueId load_id;
load_id.set_hi(0);
load_id.set_lo(0);
WriteRequest write_req;
write_req.tablet_id = 10005;
write_req.schema_hash = 270068377;
write_req.txn_id = 20003;
write_req.partition_id = 30003;
write_req.load_id = load_id;
write_req.tuple_desc = tuple_desc;
write_req.slots = &(tuple_desc->slots());
write_req.is_high_priority = false;
write_req.table_schema_param = &param;
DeltaWriter* delta_writer1 = nullptr;
DeltaWriter* delta_writer2 = nullptr;
std::unique_ptr<RuntimeProfile> profile1;
profile1 = std::make_unique<RuntimeProfile>("LoadChannels1");
std::unique_ptr<RuntimeProfile> profile2;
profile2 = std::make_unique<RuntimeProfile>("LoadChannels2");
DeltaWriter::open(&write_req, &delta_writer1, profile1.get(), TUniqueId());
DeltaWriter::open(&write_req, &delta_writer2, profile2.get(), TUniqueId());
ASSERT_NE(delta_writer1, nullptr);
ASSERT_NE(delta_writer2, nullptr);
// write data in delta writer 1
{
vectorized::Block block;
for (const auto& slot_desc : tuple_desc->slots()) {
block.insert(vectorized::ColumnWithTypeAndName(slot_desc->get_empty_mutable_column(),
slot_desc->get_data_type_ptr(),
slot_desc->col_name()));
}
generate_data(&block, 10, 123, 100);
res = delta_writer1->write(&block, {0});
ASSERT_TRUE(res.ok());
generate_data(&block, 20, 123, 100);
res = delta_writer1->write(&block, {1});
ASSERT_TRUE(res.ok());
res = delta_writer1->close();
ASSERT_TRUE(res.ok());
res = delta_writer1->wait_flush();
ASSERT_TRUE(res.ok());
res = delta_writer1->build_rowset();
ASSERT_TRUE(res.ok());
res = delta_writer1->submit_calc_delete_bitmap_task();
ASSERT_TRUE(res.ok());
res = delta_writer1->wait_calc_delete_bitmap();
ASSERT_TRUE(res.ok());
res = delta_writer1->commit_txn(PSlaveTabletNodes(), false);
ASSERT_TRUE(res.ok());
}
// write data in delta writer 2
{
vectorized::Block block;
for (const auto& slot_desc : tuple_desc->slots()) {
block.insert(vectorized::ColumnWithTypeAndName(slot_desc->get_empty_mutable_column(),
slot_desc->get_data_type_ptr(),
slot_desc->col_name()));
}
generate_data(&block, 10, 123, 110);
res = delta_writer2->write(&block, {0});
ASSERT_TRUE(res.ok());
generate_data(&block, 20, 123, 90);
res = delta_writer2->write(&block, {1});
ASSERT_TRUE(res.ok());
res = delta_writer2->close();
ASSERT_TRUE(res.ok());
res = delta_writer2->wait_flush();
ASSERT_TRUE(res.ok());
}
TabletSharedPtr tablet = k_engine->tablet_manager()->get_tablet(write_req.tablet_id);
std::cout << "before publish, tablet row nums:" << tablet->num_rows() << std::endl;
OlapMeta* meta = tablet->data_dir()->get_meta();
RowsetSharedPtr rowset1 = nullptr;
RowsetSharedPtr rowset2 = nullptr;
// publish version on delta writer 1 success
{
Version version;
version.first = tablet->rowset_with_max_version()->end_version() + 1;
version.second = tablet->rowset_with_max_version()->end_version() + 1;
std::cout << "start to add rowset version:" << version.first << "-" << version.second
<< std::endl;
std::map<TabletInfo, RowsetSharedPtr> tablet_related_rs;
StorageEngine::instance()->txn_manager()->get_txn_related_tablets(
write_req.txn_id, write_req.partition_id, &tablet_related_rs);
ASSERT_EQ(1, tablet_related_rs.size());
std::cout << "start to publish txn" << std::endl;
rowset1 = tablet_related_rs.begin()->second;
TabletPublishStatistics pstats;
res = k_engine->txn_manager()->publish_txn(
meta, write_req.partition_id, write_req.txn_id, write_req.tablet_id,
tablet_related_rs.begin()->first.tablet_uid, version, &pstats);
ASSERT_TRUE(res.ok());
std::cout << "start to add inc rowset:" << rowset1->rowset_id()
<< ", num rows:" << rowset1->num_rows()
<< ", version:" << rowset1->version().first << "-" << rowset1->version().second
<< std::endl;
res = tablet->add_inc_rowset(rowset1);
ASSERT_TRUE(res.ok());
ASSERT_EQ(2, tablet->num_rows());
std::vector<segment_v2::SegmentSharedPtr> segments;
res = ((BetaRowset*)rowset1.get())->load_segments(&segments);
ASSERT_TRUE(res.ok());
ASSERT_EQ(1, rowset1->num_segments());
ASSERT_EQ(1, segments.size());
}
// commit delta writer2, then publish it.
{
// commit, calc delete bitmap should happen here
res = delta_writer2->build_rowset();
ASSERT_TRUE(res.ok());
res = delta_writer2->submit_calc_delete_bitmap_task();
ASSERT_TRUE(res.ok());
res = delta_writer2->wait_calc_delete_bitmap();
ASSERT_TRUE(res.ok());
// verify that delete bitmap calculated correctly
// since the delete bitmap not published, versions are 0
auto delete_bitmap = delta_writer2->get_delete_bitmap();
ASSERT_TRUE(delete_bitmap->contains({rowset1->rowset_id(), 0, 0}, 0));
// We can't get the rowset id of rowset2 now, will check the delete bitmap
// contains row 0 of rowset2 at L929.
res = delta_writer2->commit_txn(PSlaveTabletNodes(), false);
ASSERT_TRUE(res.ok());
Version version;
version.first = tablet->rowset_with_max_version()->end_version() + 1;
version.second = tablet->rowset_with_max_version()->end_version() + 1;
std::cout << "start to add rowset version:" << version.first << "-" << version.second
<< std::endl;
std::map<TabletInfo, RowsetSharedPtr> tablet_related_rs;
StorageEngine::instance()->txn_manager()->get_txn_related_tablets(
write_req.txn_id, write_req.partition_id, &tablet_related_rs);
ASSERT_EQ(1, tablet_related_rs.size());
std::cout << "start to publish txn" << std::endl;
rowset2 = tablet_related_rs.begin()->second;
ASSERT_TRUE(delete_bitmap->contains({rowset2->rowset_id(), 0, 0}, 1));
TabletPublishStatistics pstats;
res = k_engine->txn_manager()->publish_txn(
meta, write_req.partition_id, write_req.txn_id, write_req.tablet_id,
tablet_related_rs.begin()->first.tablet_uid, version, &pstats);
ASSERT_TRUE(res.ok());
std::cout << "start to add inc rowset:" << rowset2->rowset_id()
<< ", num rows:" << rowset2->num_rows()
<< ", version:" << rowset2->version().first << "-" << rowset2->version().second
<< std::endl;
res = tablet->add_inc_rowset(rowset2);
ASSERT_TRUE(res.ok());
ASSERT_EQ(4, tablet->num_rows());
std::vector<segment_v2::SegmentSharedPtr> segments;
res = ((BetaRowset*)rowset2.get())->load_segments(&segments);
ASSERT_TRUE(res.ok());
ASSERT_EQ(1, rowset2->num_segments());
ASSERT_EQ(1, segments.size());
}
auto cur_version = tablet->rowset_with_max_version()->end_version();
// read data from rowset 1, verify the data correct
{
OlapReaderStatistics stats;
StorageReadOptions opts;
opts.stats = &stats;
opts.tablet_schema = rowset1->tablet_schema();
opts.delete_bitmap.emplace(0, tablet->tablet_meta()->delete_bitmap().get_agg(
{rowset1->rowset_id(), 0, cur_version}));
std::unique_ptr<RowwiseIterator> iter;
std::shared_ptr<Schema> schema = std::make_shared<Schema>(rowset1->tablet_schema());
std::vector<segment_v2::SegmentSharedPtr> segments;
((BetaRowset*)rowset1.get())->load_segments(&segments);
auto s = segments[0]->new_iterator(schema, opts, &iter);
ASSERT_TRUE(s.ok());
auto read_block = rowset1->tablet_schema()->create_block();
res = iter->next_batch(&read_block);
ASSERT_TRUE(res.ok());
// key of (10, 123) is deleted
ASSERT_EQ(1, read_block.rows());
auto k1 = read_block.get_by_position(0).column->get_int(0);
ASSERT_EQ(20, k1);
auto k2 = read_block.get_by_position(1).column->get_int(0);
ASSERT_EQ(123, k2);
// get the value from sequence column
auto seq_v = read_block.get_by_position(4).column->get_int(0);
ASSERT_EQ(100, seq_v);
}
// read data from rowset 2, verify the data correct
{
OlapReaderStatistics stats;
StorageReadOptions opts;
opts.stats = &stats;
opts.tablet_schema = rowset2->tablet_schema();
opts.delete_bitmap.emplace(0, tablet->tablet_meta()->delete_bitmap().get_agg(
{rowset2->rowset_id(), 0, cur_version}));
std::unique_ptr<RowwiseIterator> iter;
std::shared_ptr<Schema> schema = std::make_shared<Schema>(rowset2->tablet_schema());
std::vector<segment_v2::SegmentSharedPtr> segments;
((BetaRowset*)rowset2.get())->load_segments(&segments);
auto s = segments[0]->new_iterator(schema, opts, &iter);
ASSERT_TRUE(s.ok());
auto read_block = rowset2->tablet_schema()->create_block();
res = iter->next_batch(&read_block);
ASSERT_TRUE(res.ok());
// key of (20, 123) is deleted, because it's seq value is low
ASSERT_EQ(1, read_block.rows());
auto k1 = read_block.get_by_position(0).column->get_int(0);
ASSERT_EQ(10, k1);
auto k2 = read_block.get_by_position(1).column->get_int(0);
ASSERT_EQ(123, k2);
// get the value from sequence column
auto seq_v = read_block.get_by_position(4).column->get_int(0);
ASSERT_EQ(110, seq_v);
}
res = k_engine->tablet_manager()->drop_tablet(request.tablet_id, request.replica_id, false);
ASSERT_TRUE(res.ok());
delete delta_writer1;
delete delta_writer2;
}
} // namespace doris
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