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oceanbase/mittest/mtlenv/tablelock/test_obj_lock_map.cpp
Handora 561432c689 [FEAT MERGE] Big Txn Execution Optimization
2023-01-12 19:02:33 +08:00

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/**
* 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.
*/
#define USING_LOG_PREFIX TABLELOCK
#include <gtest/gtest.h>
#define protected public
#define private public
#define UNITTEST
#include "mtlenv/mock_tenant_module_env.h"
#include "storage/tablelock/ob_obj_lock.h"
#include "storage/tablelock/ob_lock_memtable.h"
#include "table_lock_common_env.h"
#include "table_lock_tx_common_env.h"
namespace oceanbase
{
namespace transaction
{
namespace tablelock
{
class TestObjLockMap : public MockTxEnv,
public ::testing::Test
{
public:
TestObjLockMap()
: MockTxEnv(MTL_ID(), ObLSID(1)),
fake_t3m_(common::OB_SERVER_TENANT_ID)
{}
~TestObjLockMap() {}
static void SetUpTestCase();
static void TearDownTestCase();
virtual void SetUp() override
{
// mock sequence no
ObClockGenerator::init();
create_memtable();
LOG_INFO("set up success");
}
virtual void TearDown() override
{
ObClockGenerator::destroy();
LOG_INFO("tear down success");
}
public:
void create_memtable()
{
ObITable::TableKey table_key;
table_key.table_type_ = ObITable::LOCK_MEMTABLE;
table_key.tablet_id_ = LS_LOCK_TABLET;
table_key.scn_range_.start_scn_.convert_for_gts(1); // fake
table_key.scn_range_.end_scn_.convert_for_gts(2); // fake
ASSERT_EQ(OB_SUCCESS, memtable_.init(table_key, ls_id_, &freezer_));
ASSERT_EQ(OB_SUCCESS, handle_.set_table(&memtable_, &fake_t3m_, ObITable::LOCK_MEMTABLE));
}
void start_tx(const ObTransID &tx_id, MyTxCtx &my_ctx)
{
MockTxEnv::start_tx(tx_id, handle_, my_ctx);
}
void get_store_ctx(MyTxCtx &my_ctx, ObStoreCtx &store_ctx)
{
MockTxEnv::get_store_ctx(my_ctx, &tx_table_, store_ctx);
}
private:
ObLockMemtable memtable_;
ObTableHandleV2 handle_;
storage::ObTenantMetaMemMgr fake_t3m_;
ObFreezer freezer_;
ObTxTable tx_table_;
ObOBJLockMap lock_map_;
};
void TestObjLockMap::SetUpTestCase()
{
EXPECT_EQ(OB_SUCCESS, MockTenantModuleEnv::get_instance().init());
init_default_lock_test_value();
}
void TestObjLockMap::TearDownTestCase()
{
MockTenantModuleEnv::get_instance().destroy();
}
TEST_F(TestObjLockMap, lock)
{
// only need check create obj lock and remove obj lock
// the lock operation is dealt by obj lock.
// LOCK
// 1. LOCK
int ret = OB_SUCCESS;
bool is_try_lock = true;
int64_t expired_time = 0;
ObOBJLock *obj_lock = NULL;
ObTxIDSet conflict_tx_set;
unsigned char lock_mode_in_same_trans = 0x0;
ObLockParam param;
MyTxCtx default_ctx;
ObStoreCtx store_ctx;
// 1.1 in trans try lock
start_tx(DEFAULT_TRANS_ID, default_ctx);
get_store_ctx(default_ctx, store_ctx);
lock_map_.init();
param.is_try_lock_ = is_try_lock;
param.expired_time_ = expired_time;
ret = lock_map_.lock(param,
store_ctx,
DEFAULT_IN_TRANS_LOCK_OP,
lock_mode_in_same_trans,
conflict_tx_set);
ASSERT_EQ(OB_SUCCESS, ret);
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_SUCCESS, ret);
ASSERT_EQ(obj_lock->row_exclusive_, 1);
// 1.2 lock and wait
is_try_lock = false;
expired_time = 0;
param.is_try_lock_ = is_try_lock;
param.expired_time_ = expired_time;
ret = lock_map_.lock(param,
store_ctx,
DEFAULT_IN_TRANS_LOCK_OP,
lock_mode_in_same_trans,
conflict_tx_set);
ASSERT_EQ(OB_SUCCESS, ret);
ASSERT_EQ(obj_lock->row_exclusive_, 2);
is_try_lock = false;
expired_time = ObClockGenerator::getClock() + 1000;
param.is_try_lock_ = is_try_lock;
param.expired_time_ = expired_time;
ret = lock_map_.lock(param,
store_ctx,
DEFAULT_IN_TRANS_LOCK_OP,
lock_mode_in_same_trans,
conflict_tx_set);
ASSERT_EQ(OB_SUCCESS, ret);
ASSERT_EQ(obj_lock->row_exclusive_, 3);
// 1.3 remove lock
for (int i=3; i >0; i--) {
lock_map_.remove_lock_record(DEFAULT_IN_TRANS_LOCK_OP);
ASSERT_EQ(obj_lock->row_exclusive_, i - 1);
}
lock_map_.lock_map_.revert(obj_lock);
obj_lock = NULL;
// 1.4 obj lock release check
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_OBJ_LOCK_NOT_EXIST, ret);
lock_map_.reset();
}
TEST_F(TestObjLockMap, unlock)
{
// only need check create obj lock and remove obj lock
// the lock operation is dealt by obj lock.
int ret = OB_SUCCESS;
bool is_try_lock = true;
int64_t expired_time = 0;
ObOBJLock *obj_lock = NULL;
share::SCN min_commited_scn;
share::SCN flushed_scn;
ObTxIDSet conflict_tx_set;
unsigned char lock_mode_in_same_trans = 0x0;
ObLockParam param;
MyTxCtx default_ctx;
ObStoreCtx store_ctx;
min_commited_scn.set_min();
flushed_scn.set_min();
// 1.1 unlock not exist out trans lock
start_tx(DEFAULT_TRANS_ID, default_ctx);
get_store_ctx(default_ctx, store_ctx);
lock_map_.init();
param.is_try_lock_ = is_try_lock;
param.expired_time_ = expired_time;
ret = lock_map_.unlock(DEFAULT_OUT_TRANS_UNLOCK_OP,
is_try_lock,
expired_time);
ASSERT_EQ(OB_OBJ_LOCK_NOT_EXIST, ret);
// 1.2 lock
ret = lock_map_.lock(param,
store_ctx,
DEFAULT_OUT_TRANS_LOCK_OP,
lock_mode_in_same_trans,
conflict_tx_set);
ASSERT_EQ(OB_SUCCESS, ret);
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, share::SCN::max_scn());
// 1.3 unlock not complete lock
ret = lock_map_.unlock(DEFAULT_OUT_TRANS_UNLOCK_OP,
is_try_lock,
expired_time);
ASSERT_EQ(OB_OBJ_LOCK_NOT_COMPLETED, ret);
// 1.4 commit out trans lock
share::SCN commit_version;
share::SCN commit_scn;
commit_version.set_base();
commit_scn.set_base();
ret = lock_map_.update_lock_status(DEFAULT_OUT_TRANS_LOCK_OP,
commit_version,
commit_scn,
COMMIT_LOCK_OP_STATUS);
ASSERT_EQ(OB_SUCCESS, ret);
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, commit_scn);
// 1.5 unlock success.
ret = lock_map_.unlock(DEFAULT_OUT_TRANS_UNLOCK_OP,
is_try_lock,
expired_time);
ASSERT_EQ(OB_SUCCESS, ret);
// 1.6 unlock again
ret = lock_map_.unlock(DEFAULT_OUT_TRANS_UNLOCK_OP,
is_try_lock,
expired_time);
ASSERT_EQ(OB_OBJ_UNLOCK_CONFLICT, ret);
// 1.7 unlock commit
ret = lock_map_.update_lock_status(DEFAULT_OUT_TRANS_UNLOCK_OP,
commit_version,
commit_scn,
COMMIT_LOCK_OP_STATUS);
ASSERT_EQ(OB_SUCCESS, ret);
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, share::SCN::max_scn());
// 1.8 obj lock release check
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_OBJ_LOCK_NOT_EXIST, ret);
lock_map_.reset();
}
TEST_F(TestObjLockMap, recover)
{
// only need check create obj lock and remove obj lock
// the lock operation is dealt by obj lock.
int ret = OB_SUCCESS;
bool is_try_lock = true;
int64_t expired_time = 0;
ObOBJLock *obj_lock = NULL;
share::SCN min_commited_scn;
share::SCN flushed_scn;
min_commited_scn.set_min();
flushed_scn.set_min();
lock_map_.init();
// 1 recover in trans lock
// 1.1 recover
ret = lock_map_.recover_obj_lock(DEFAULT_IN_TRANS_LOCK_OP);
ASSERT_EQ(OB_SUCCESS, ret);
// 1.2 check exist
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_SUCCESS, ret);
ASSERT_EQ(obj_lock->row_exclusive_, 1);
// 1.3 commit
lock_map_.remove_lock_record(DEFAULT_IN_TRANS_LOCK_OP);
// 1.4 check exist
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_OBJ_LOCK_NOT_EXIST, ret);
// 2 recover out trans lock
// 2.1 recover
ret = lock_map_.recover_obj_lock(DEFAULT_OUT_TRANS_LOCK_OP);
ASSERT_EQ(OB_SUCCESS, ret);
// 2.2 check exist
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLE_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_SUCCESS, ret);
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, share::SCN::max_scn());
// 2.3 commit
share::SCN commit_version;
share::SCN commit_scn;
commit_version.set_base();
commit_scn.set_base();
ret = lock_map_.update_lock_status(DEFAULT_OUT_TRANS_LOCK_OP,
commit_version,
commit_scn,
COMMIT_LOCK_OP_STATUS);
ASSERT_EQ(OB_SUCCESS, ret);
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, commit_scn);
// 2.4 unlock
ret = lock_map_.unlock(DEFAULT_OUT_TRANS_UNLOCK_OP,
is_try_lock,
expired_time);
ASSERT_EQ(OB_SUCCESS, ret);
// 2.5 unlock commit
ret = lock_map_.update_lock_status(DEFAULT_OUT_TRANS_UNLOCK_OP,
commit_version,
commit_scn,
COMMIT_LOCK_OP_STATUS);
ASSERT_EQ(OB_SUCCESS, ret);
// 2.6 check exist
min_commited_scn = lock_map_.get_min_ddl_committed_scn(flushed_scn);
ASSERT_EQ(min_commited_scn, share::SCN::max_scn());
ret = lock_map_.get_obj_lock_with_ref_(DEFAULT_TABLET_LOCK_ID,
obj_lock);
ASSERT_EQ(OB_OBJ_LOCK_NOT_EXIST, ret);
lock_map_.reset();
}
} // tablelock
} // transaction
} // oceanbase
int main(int argc, char **argv)
{
system("rm -f test_obj_lock_map.log*");
oceanbase::common::ObLogger::get_logger().set_file_name("test_obj_lock_map.log", true);
oceanbase::common::ObLogger::get_logger().set_log_level("INFO");
oceanbase::common::ObLogger::get_logger().set_enable_async_log(false);
::testing::InitGoogleTest(&argc, argv);
return RUN_ALL_TESTS();
}
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