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doris/be/test/runtime/load_channel_mgr_test.cpp
Mingyu Chen 82f421a019 [fix](brpc-attachment) Fix bug that may cause BE crash when enable transfer_data_by_brpc_attachment (#7921) 
This PR mainly changes:

1. Fix bug when enable `transfer_data_by_brpc_attachment`

    In `data_stream_sender`, we will send a serialized PRowBatch data to multiple Channels.
    And if `transfer_data_by_brpc_attachment` is enabled, we will mistakenly clear the data in PRowBatch
    after sending PRowBatch to the first Channel.
    As a result, the following Channel cannot receive the correct data, causing an error.

    So I use a separate buffer instead of `tuple_data` in PRowBatch to store the serialized data
    and reuse it in multiple channels.

2. Fix bug that the the offset in serialized row batch may overflow

    Use int64 to replace int32 offset. And for compatibility, add a new field `new_tuple_offsets` in PRowBatch.
2022-02-01 08:51:16 +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 "runtime/load_channel_mgr.h"
#include <gtest/gtest.h>
#include "common/object_pool.h"
#include "gen_cpp/Descriptors_types.h"
#include "gen_cpp/PaloInternalService_types.h"
#include "gen_cpp/Types_types.h"
#include "olap/delta_writer.h"
#include "olap/memtable_flush_executor.h"
#include "olap/schema.h"
#include "olap/storage_engine.h"
#include "runtime/descriptor_helper.h"
#include "runtime/descriptors.h"
#include "runtime/exec_env.h"
#include "runtime/mem_tracker.h"
#include "runtime/primitive_type.h"
#include "runtime/row_batch.h"
#include "runtime/tuple_row.h"
#include "util/thrift_util.h"
namespace doris {
std::unordered_map<int64_t, int> _k_tablet_recorder;
OLAPStatus open_status;
OLAPStatus add_status;
OLAPStatus close_status;
int64_t wait_lock_time_ns;
// mock
DeltaWriter::DeltaWriter(WriteRequest* req, const std::shared_ptr<MemTracker>& mem_tracker,
StorageEngine* storage_engine)
: _req(*req) {}
DeltaWriter::~DeltaWriter() {}
OLAPStatus DeltaWriter::init() {
return OLAP_SUCCESS;
}
OLAPStatus DeltaWriter::open(WriteRequest* req, const std::shared_ptr<MemTracker>& mem_tracker,
DeltaWriter** writer) {
if (open_status != OLAP_SUCCESS) {
return open_status;
}
*writer = new DeltaWriter(req, mem_tracker, nullptr);
return open_status;
}
OLAPStatus DeltaWriter::write(Tuple* tuple) {
if (_k_tablet_recorder.find(_req.tablet_id) == std::end(_k_tablet_recorder)) {
_k_tablet_recorder[_req.tablet_id] = 1;
} else {
_k_tablet_recorder[_req.tablet_id]++;
}
return add_status;
}
OLAPStatus DeltaWriter::write(const RowBatch* row_batch, const std::vector<int>& row_idxs) {
if (_k_tablet_recorder.find(_req.tablet_id) == std::end(_k_tablet_recorder)) {
_k_tablet_recorder[_req.tablet_id] = 0;
}
_k_tablet_recorder[_req.tablet_id] += row_idxs.size();
return add_status;
}
OLAPStatus DeltaWriter::close() {
return OLAP_SUCCESS;
}
OLAPStatus DeltaWriter::close_wait(google::protobuf::RepeatedPtrField<PTabletInfo>* tablet_vec, bool is_broken) {
return close_status;
}
OLAPStatus DeltaWriter::cancel() {
return OLAP_SUCCESS;
}
OLAPStatus DeltaWriter::flush_memtable_and_wait(bool need_wait) {
return OLAP_SUCCESS;
}
OLAPStatus DeltaWriter::wait_flush() {
return OLAP_SUCCESS;
}
int64_t DeltaWriter::partition_id() const {
return 1L;
}
int64_t DeltaWriter::mem_consumption() const {
return 1024L;
}
class LoadChannelMgrTest : public testing::Test {
public:
LoadChannelMgrTest() {}
virtual ~LoadChannelMgrTest() {}
void SetUp() override {
_k_tablet_recorder.clear();
open_status = OLAP_SUCCESS;
add_status = OLAP_SUCCESS;
close_status = OLAP_SUCCESS;
config::streaming_load_rpc_max_alive_time_sec = 120;
}
private:
size_t uncompressed_size = 0;
size_t compressed_size = 0;
};
TEST_F(LoadChannelMgrTest, check_builder) {
TDescriptorTableBuilder table_builder;
{
TTupleDescriptorBuilder tuple;
tuple.add_slot(
TSlotDescriptorBuilder().type(TYPE_INT).column_name("c1").column_pos(0).build());
tuple.add_slot(
TSlotDescriptorBuilder().type(TYPE_BIGINT).column_name("c2").column_pos(1).build());
tuple.add_slot(
TSlotDescriptorBuilder().string_type(64).column_name("c3").column_pos(2).build());
tuple.build(&table_builder);
}
DescriptorTbl* desc_tbl = nullptr;
ObjectPool obj_pool;
DescriptorTbl::create(&obj_pool, table_builder.desc_tbl(), &desc_tbl);
auto tuple = desc_tbl->get_tuple_descriptor(0);
ASSERT_EQ(32, tuple->byte_size());
ASSERT_EQ(4, tuple->slots()[0]->tuple_offset());
ASSERT_EQ(8, tuple->slots()[1]->tuple_offset());
ASSERT_EQ(16, tuple->slots()[2]->tuple_offset());
}
TDescriptorTable create_descriptor_table() {
TDescriptorTableBuilder dtb;
TTupleDescriptorBuilder tuple_builder;
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_INT).column_name("c1").column_pos(0).build());
tuple_builder.add_slot(
TSlotDescriptorBuilder().type(TYPE_BIGINT).column_name("c2").column_pos(1).build());
tuple_builder.build(&dtb);
return dtb.desc_tbl();
}
// dbId=1, tableId=2, indexId=4, columns={c1, c2}
void create_schema(DescriptorTbl* desc_tbl, POlapTableSchemaParam* pschema) {
pschema->set_db_id(1);
pschema->set_table_id(2);
pschema->set_version(0);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
tuple_desc->to_protobuf(pschema->mutable_tuple_desc());
for (auto slot : tuple_desc->slots()) {
slot->to_protobuf(pschema->add_slot_descs());
}
// index schema
auto indexes = pschema->add_indexes();
indexes->set_id(4);
indexes->add_columns("c1");
indexes->add_columns("c2");
indexes->set_schema_hash(123);
}
TEST_F(LoadChannelMgrTest, normal) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
auto tracker = std::make_shared<MemTracker>();
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(true);
request.set_packet_seq(0);
request.add_tablet_ids(20);
request.add_tablet_ids(21);
request.add_tablet_ids(20);
RowBatch row_batch(row_desc, 1024, tracker.get());
// row1
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 987654;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 1234567899876;
row_batch.commit_last_row();
}
// row2
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 12345678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 9876567899876;
row_batch.commit_last_row();
}
// row3
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 876545678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 76543234567;
row_batch.commit_last_row();
}
row_batch.serialize(request.mutable_row_batch(), &uncompressed_size, &compressed_size);
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
request.release_id();
ASSERT_TRUE(st.ok());
}
// check content
ASSERT_EQ(_k_tablet_recorder[20], 2);
ASSERT_EQ(_k_tablet_recorder[21], 1);
}
TEST_F(LoadChannelMgrTest, cancel) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterCancelRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
auto st = mgr.cancel(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
}
TEST_F(LoadChannelMgrTest, open_failed) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
open_status = OLAP_ERR_TABLE_NOT_FOUND;
auto st = mgr.open(request);
request.release_id();
ASSERT_FALSE(st.ok());
}
}
TEST_F(LoadChannelMgrTest, add_failed) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
auto tracker = std::make_shared<MemTracker>();
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(true);
request.set_packet_seq(0);
request.add_tablet_ids(20);
request.add_tablet_ids(21);
request.add_tablet_ids(20);
RowBatch row_batch(row_desc, 1024, tracker.get());
// row1
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 987654;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 1234567899876;
row_batch.commit_last_row();
}
// row2
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 12345678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 9876567899876;
row_batch.commit_last_row();
}
// row3
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 876545678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 76543234567;
row_batch.commit_last_row();
}
row_batch.serialize(request.mutable_row_batch(), &uncompressed_size, &compressed_size);
// DeltaWriter's write will return -215
add_status = OLAP_ERR_TABLE_NOT_FOUND;
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
request.release_id();
// st is still ok.
ASSERT_TRUE(st.ok());
ASSERT_EQ(2, response.tablet_errors().size());
}
}
TEST_F(LoadChannelMgrTest, close_failed) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
auto tracker = std::make_shared<MemTracker>();
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(true);
request.set_packet_seq(0);
request.add_tablet_ids(20);
request.add_tablet_ids(21);
request.add_tablet_ids(20);
request.add_partition_ids(10);
request.add_partition_ids(11);
RowBatch row_batch(row_desc, 1024, tracker.get());
// row1
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 987654;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 1234567899876;
row_batch.commit_last_row();
}
// row2
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 12345678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 9876567899876;
row_batch.commit_last_row();
}
// row3
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 876545678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 76543234567;
row_batch.commit_last_row();
}
row_batch.serialize(request.mutable_row_batch(), &uncompressed_size, &compressed_size);
close_status = OLAP_ERR_TABLE_NOT_FOUND;
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
request.release_id();
// even if delta close failed, the return status is still ok, but tablet_vec is empty
ASSERT_TRUE(st.ok());
ASSERT_TRUE(response.tablet_vec().empty());
}
}
TEST_F(LoadChannelMgrTest, unknown_tablet) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
auto tracker = std::make_shared<MemTracker>();
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(true);
request.set_packet_seq(0);
request.add_tablet_ids(20);
request.add_tablet_ids(22);
request.add_tablet_ids(20);
RowBatch row_batch(row_desc, 1024, tracker.get());
// row1
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 987654;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 1234567899876;
row_batch.commit_last_row();
}
// row2
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 12345678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 9876567899876;
row_batch.commit_last_row();
}
// row3
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 876545678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 76543234567;
row_batch.commit_last_row();
}
row_batch.serialize(request.mutable_row_batch(), &uncompressed_size, &compressed_size);
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
request.release_id();
ASSERT_FALSE(st.ok());
}
}
TEST_F(LoadChannelMgrTest, duplicate_packet) {
ExecEnv env;
LoadChannelMgr mgr;
mgr.init(-1);
auto tdesc_tbl = create_descriptor_table();
ObjectPool obj_pool;
DescriptorTbl* desc_tbl = nullptr;
DescriptorTbl::create(&obj_pool, tdesc_tbl, &desc_tbl);
auto tuple_desc = desc_tbl->get_tuple_descriptor(0);
RowDescriptor row_desc(*desc_tbl, {0}, {false});
auto tracker = std::make_shared<MemTracker>();
PUniqueId load_id;
load_id.set_hi(2);
load_id.set_lo(3);
{
PTabletWriterOpenRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_txn_id(1);
create_schema(desc_tbl, request.mutable_schema());
for (int i = 0; i < 2; ++i) {
auto tablet = request.add_tablets();
tablet->set_partition_id(10 + i);
tablet->set_tablet_id(20 + i);
}
request.set_num_senders(1);
request.set_need_gen_rollup(false);
auto st = mgr.open(request);
request.release_id();
ASSERT_TRUE(st.ok());
}
// add a batch
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(false);
request.set_packet_seq(0);
request.add_tablet_ids(20);
request.add_tablet_ids(21);
request.add_tablet_ids(20);
RowBatch row_batch(row_desc, 1024, tracker.get());
// row1
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 987654;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 1234567899876;
row_batch.commit_last_row();
}
// row2
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 12345678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 9876567899876;
row_batch.commit_last_row();
}
// row3
{
auto id = row_batch.add_row();
auto tuple = (Tuple*)row_batch.tuple_data_pool()->allocate(tuple_desc->byte_size());
row_batch.get_row(id)->set_tuple(0, tuple);
memset(tuple, 0, tuple_desc->byte_size());
*(int*)tuple->get_slot(tuple_desc->slots()[0]->tuple_offset()) = 876545678;
*(int64_t*)tuple->get_slot(tuple_desc->slots()[1]->tuple_offset()) = 76543234567;
row_batch.commit_last_row();
}
row_batch.serialize(request.mutable_row_batch(), &uncompressed_size, &compressed_size);
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
ASSERT_TRUE(st.ok());
PTabletWriterAddBatchResult response2;
st = mgr.add_batch(request, &response2);
request.release_id();
ASSERT_TRUE(st.ok());
}
// close
{
PTabletWriterAddBatchRequest request;
request.set_allocated_id(&load_id);
request.set_index_id(4);
request.set_sender_id(0);
request.set_eos(true);
request.set_packet_seq(0);
PTabletWriterAddBatchResult response;
auto st = mgr.add_batch(request, &response);
request.release_id();
ASSERT_TRUE(st.ok());
}
// check content
ASSERT_EQ(_k_tablet_recorder[20], 2);
ASSERT_EQ(_k_tablet_recorder[21], 1);
}
} // namespace doris
int main(int argc, char* argv[]) {
::testing::InitGoogleTest(&argc, argv);
doris::CpuInfo::init();
return RUN_ALL_TESTS();
}
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