Support user-defined timestamps in write-committed txns (#9629)
Summary:
Pull Request resolved: https://github.com/facebook/rocksdb/pull/9629
Pessimistic transactions use pessimistic concurrency control, i.e. locking. Keys are
locked upon first operation that writes the key or has the intention of writing. For example,
`PessimisticTransaction::Put()`, `PessimisticTransaction::Delete()`,
`PessimisticTransaction::SingleDelete()` will write to or delete a key, while
`PessimisticTransaction::GetForUpdate()` is used by application to indicate
to RocksDB that the transaction has the intention of performing write operation later
in the same transaction.
Pessimistic transactions support two-phase commit (2PC). A transaction can be
`Prepared()`'ed and then `Commit()`. The prepare phase is similar to a promise: once
`Prepare()` succeeds, the transaction has acquired the necessary resources to commit.
The resources include locks, persistence of WAL, etc.
Write-committed transaction is the default pessimistic transaction implementation. In
RocksDB write-committed transaction, `Prepare()` will write data to the WAL as a prepare
section. `Commit()` will write a commit marker to the WAL and then write data to the
memtables. While writing to the memtables, different keys in the transaction's write batch
will be assigned different sequence numbers in ascending order.
Until commit/rollback, the transaction holds locks on the keys so that no other transaction
can write to the same keys. Furthermore, the keys' sequence numbers represent the order
in which they are committed and should be made visible. This is convenient for us to
implement support for user-defined timestamps.
Since column families with and without timestamps can co-exist in the same database,
a transaction may or may not involve timestamps. Based on this observation, we add two
optional members to each `PessimisticTransaction`, `read_timestamp_` and
`commit_timestamp_`. If no key in the transaction's write batch has timestamp, then
setting these two variables do not have any effect. For the rest of this commit, we discuss
only the cases when these two variables are meaningful.
read_timestamp_ is used mainly for validation, and should be set before first call to
`GetForUpdate()`. Otherwise, the latter will return non-ok status. `GetForUpdate()` calls
`TryLock()` that can verify if another transaction has written the same key since
`read_timestamp_` till this call to `GetForUpdate()`. If another transaction has indeed
written the same key, then validation fails, and RocksDB allows this transaction to
refine `read_timestamp_` by increasing it. Note that a transaction can still use `Get()`
with a different timestamp to read, but the result of the read should not be used to
determine data that will be written later.
commit_timestamp_ must be set after finishing writing and before transaction commit.
This applies to both 2PC and non-2PC cases. In the case of 2PC, it's usually set after
prepare phase succeeds.
We currently require that the commit timestamp be chosen after all keys are locked. This
means we disallow the `TransactionDB`-level APIs if user-defined timestamp is used
by the transaction. Specifically, calling `PessimisticTransactionDB::Put()`,
`PessimisticTransactionDB::Delete()`, `PessimisticTransactionDB::SingleDelete()`,
etc. will return non-ok status because they specify timestamps before locking the keys.
Users are also prompted to use the `Transaction` APIs when they receive the non-ok status.
Reviewed By: ltamasi
Differential Revision: D31822445
fbshipit-source-id: b82abf8e230216dc89cc519564a588224a88fd43
3 years ago
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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#include "rocksdb/db.h"
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#include "rocksdb/options.h"
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#include "rocksdb/utilities/transaction_db.h"
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#include "utilities/merge_operators.h"
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#ifndef ROCKSDB_LITE
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#include "test_util/testutil.h"
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#include "utilities/transactions/transaction_test.h"
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namespace ROCKSDB_NAMESPACE {
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INSTANTIATE_TEST_CASE_P(
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DBAsBaseDB, WriteCommittedTxnWithTsTest,
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::testing::Values(std::make_tuple(false, /*two_write_queue=*/false,
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/*enable_indexing=*/false),
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std::make_tuple(false, /*two_write_queue=*/true,
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/*enable_indexing=*/false),
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std::make_tuple(false, /*two_write_queue=*/false,
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/*enable_indexing=*/true),
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std::make_tuple(false, /*two_write_queue=*/true,
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/*enable_indexing=*/true)));
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INSTANTIATE_TEST_CASE_P(
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DBAsStackableDB, WriteCommittedTxnWithTsTest,
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::testing::Values(std::make_tuple(true, /*two_write_queue=*/false,
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/*enable_indexing=*/false),
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std::make_tuple(true, /*two_write_queue=*/true,
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/*enable_indexing=*/false),
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std::make_tuple(true, /*two_write_queue=*/false,
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/*enable_indexing=*/true),
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std::make_tuple(true, /*two_write_queue=*/true,
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/*enable_indexing=*/true)));
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TEST_P(WriteCommittedTxnWithTsTest, SanityChecks) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_opts;
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cf_opts.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_opts, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, cf_opts);
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn);
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ASSERT_OK(txn->Put(handles_[1], "foo", "value"));
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ASSERT_TRUE(txn->Commit().IsInvalidArgument());
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auto* pessimistic_txn =
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static_cast_with_check<PessimisticTransaction>(txn.get());
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ASSERT_TRUE(
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pessimistic_txn->CommitBatch(/*batch=*/nullptr).IsInvalidArgument());
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{
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WriteBatchWithIndex* wbwi = txn->GetWriteBatch();
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assert(wbwi);
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WriteBatch* wb = wbwi->GetWriteBatch();
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assert(wb);
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// Write a key to the batch for nonexisting cf.
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ASSERT_OK(WriteBatchInternal::Put(wb, /*column_family_id=*/10, /*key=*/"",
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/*value=*/""));
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}
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ASSERT_OK(txn->SetCommitTimestamp(20));
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ASSERT_TRUE(txn->Commit().IsInvalidArgument());
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txn.reset();
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std::unique_ptr<Transaction> txn1(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn1);
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ASSERT_OK(txn1->SetName("txn1"));
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ASSERT_OK(txn1->Put(handles_[1], "foo", "value"));
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{
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WriteBatchWithIndex* wbwi = txn1->GetWriteBatch();
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assert(wbwi);
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WriteBatch* wb = wbwi->GetWriteBatch();
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assert(wb);
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// Write a key to the batch for non-existing cf.
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ASSERT_OK(WriteBatchInternal::Put(wb, /*column_family_id=*/10, /*key=*/"",
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/*value=*/""));
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}
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ASSERT_OK(txn1->Prepare());
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ASSERT_OK(txn1->SetCommitTimestamp(21));
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ASSERT_TRUE(txn1->Commit().IsInvalidArgument());
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txn1.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, ReOpenWithTimestamp) {
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options.merge_operator = MergeOperators::CreateUInt64AddOperator();
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_opts;
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cf_opts.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_opts, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, cf_opts);
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn0(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn0);
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ASSERT_OK(txn0->Put(handles_[1], "foo", "value"));
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ASSERT_OK(txn0->SetName("txn0"));
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ASSERT_OK(txn0->Prepare());
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ASSERT_TRUE(txn0->Commit().IsInvalidArgument());
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txn0.reset();
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std::unique_ptr<Transaction> txn1(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn1);
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ASSERT_OK(txn1->Put(handles_[1], "foo", "value1"));
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{
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std::string buf;
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PutFixed64(&buf, 23);
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ASSERT_OK(txn1->Put("id", buf));
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ASSERT_OK(txn1->Merge("id", buf));
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}
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ASSERT_OK(txn1->SetName("txn1"));
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ASSERT_OK(txn1->Prepare());
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ASSERT_OK(txn1->SetCommitTimestamp(/*ts=*/23));
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ASSERT_OK(txn1->Commit());
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txn1.reset();
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{
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std::string value;
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const Status s =
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GetFromDb(ReadOptions(), handles_[1], "foo", /*ts=*/23, &value);
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ASSERT_OK(s);
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ASSERT_EQ("value1", value);
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}
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{
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std::string value;
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const Status s = db->Get(ReadOptions(), handles_[0], "id", &value);
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ASSERT_OK(s);
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uint64_t ival = 0;
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Slice value_slc = value;
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bool result = GetFixed64(&value_slc, &ival);
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assert(result);
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ASSERT_EQ(46, ival);
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}
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}
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TEST_P(WriteCommittedTxnWithTsTest, RecoverFromWal) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_opts;
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cf_opts.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_opts, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, cf_opts);
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options.avoid_flush_during_shutdown = true;
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn0(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn0);
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ASSERT_OK(txn0->Put(handles_[1], "foo", "foo_value"));
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ASSERT_OK(txn0->SetName("txn0"));
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ASSERT_OK(txn0->Prepare());
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WriteOptions write_opts;
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write_opts.sync = true;
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std::unique_ptr<Transaction> txn1(NewTxn(write_opts, TransactionOptions()));
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assert(txn1);
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ASSERT_OK(txn1->Put("bar", "bar_value_1"));
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ASSERT_OK(txn1->Put(handles_[1], "bar", "bar_value_1"));
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ASSERT_OK(txn1->SetName("txn1"));
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ASSERT_OK(txn1->Prepare());
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ASSERT_OK(txn1->SetCommitTimestamp(/*ts=*/23));
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ASSERT_OK(txn1->Commit());
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txn1.reset();
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std::unique_ptr<Transaction> txn2(NewTxn(write_opts, TransactionOptions()));
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assert(txn2);
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ASSERT_OK(txn2->Put("key1", "value_3"));
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ASSERT_OK(txn2->Put(handles_[1], "key1", "value_3"));
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ASSERT_OK(txn2->SetCommitTimestamp(/*ts=*/24));
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ASSERT_OK(txn2->Commit());
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txn2.reset();
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txn0.reset();
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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{
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std::string value;
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Status s = GetFromDb(ReadOptions(), handles_[1], "foo", /*ts=*/23, &value);
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ASSERT_TRUE(s.IsNotFound());
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s = db->Get(ReadOptions(), handles_[0], "bar", &value);
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ASSERT_OK(s);
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ASSERT_EQ("bar_value_1", value);
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value.clear();
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s = GetFromDb(ReadOptions(), handles_[1], "bar", /*ts=*/23, &value);
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ASSERT_OK(s);
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ASSERT_EQ("bar_value_1", value);
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s = GetFromDb(ReadOptions(), handles_[1], "key1", /*ts=*/23, &value);
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ASSERT_TRUE(s.IsNotFound());
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s = db->Get(ReadOptions(), handles_[0], "key1", &value);
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ASSERT_OK(s);
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ASSERT_EQ("value_3", value);
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s = GetFromDb(ReadOptions(), handles_[1], "key1", /*ts=*/24, &value);
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ASSERT_OK(s);
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ASSERT_EQ("value_3", value);
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}
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}
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TEST_P(WriteCommittedTxnWithTsTest, TransactionDbLevelApi) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_options;
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cf_options.merge_operator = MergeOperators::CreateStringAppendOperator();
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cf_options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_options, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, cf_options);
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::string key_str = "tes_key";
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std::string ts_str;
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std::string value_str = "test_value";
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PutFixed64(&ts_str, 100);
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Slice value = value_str;
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assert(db);
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Support user-defined timestamps in write-committed txns (#9629)
Summary:
Pull Request resolved: https://github.com/facebook/rocksdb/pull/9629
Pessimistic transactions use pessimistic concurrency control, i.e. locking. Keys are
locked upon first operation that writes the key or has the intention of writing. For example,
`PessimisticTransaction::Put()`, `PessimisticTransaction::Delete()`,
`PessimisticTransaction::SingleDelete()` will write to or delete a key, while
`PessimisticTransaction::GetForUpdate()` is used by application to indicate
to RocksDB that the transaction has the intention of performing write operation later
in the same transaction.
Pessimistic transactions support two-phase commit (2PC). A transaction can be
`Prepared()`'ed and then `Commit()`. The prepare phase is similar to a promise: once
`Prepare()` succeeds, the transaction has acquired the necessary resources to commit.
The resources include locks, persistence of WAL, etc.
Write-committed transaction is the default pessimistic transaction implementation. In
RocksDB write-committed transaction, `Prepare()` will write data to the WAL as a prepare
section. `Commit()` will write a commit marker to the WAL and then write data to the
memtables. While writing to the memtables, different keys in the transaction's write batch
will be assigned different sequence numbers in ascending order.
Until commit/rollback, the transaction holds locks on the keys so that no other transaction
can write to the same keys. Furthermore, the keys' sequence numbers represent the order
in which they are committed and should be made visible. This is convenient for us to
implement support for user-defined timestamps.
Since column families with and without timestamps can co-exist in the same database,
a transaction may or may not involve timestamps. Based on this observation, we add two
optional members to each `PessimisticTransaction`, `read_timestamp_` and
`commit_timestamp_`. If no key in the transaction's write batch has timestamp, then
setting these two variables do not have any effect. For the rest of this commit, we discuss
only the cases when these two variables are meaningful.
read_timestamp_ is used mainly for validation, and should be set before first call to
`GetForUpdate()`. Otherwise, the latter will return non-ok status. `GetForUpdate()` calls
`TryLock()` that can verify if another transaction has written the same key since
`read_timestamp_` till this call to `GetForUpdate()`. If another transaction has indeed
written the same key, then validation fails, and RocksDB allows this transaction to
refine `read_timestamp_` by increasing it. Note that a transaction can still use `Get()`
with a different timestamp to read, but the result of the read should not be used to
determine data that will be written later.
commit_timestamp_ must be set after finishing writing and before transaction commit.
This applies to both 2PC and non-2PC cases. In the case of 2PC, it's usually set after
prepare phase succeeds.
We currently require that the commit timestamp be chosen after all keys are locked. This
means we disallow the `TransactionDB`-level APIs if user-defined timestamp is used
by the transaction. Specifically, calling `PessimisticTransactionDB::Put()`,
`PessimisticTransactionDB::Delete()`, `PessimisticTransactionDB::SingleDelete()`,
etc. will return non-ok status because they specify timestamps before locking the keys.
Users are also prompted to use the `Transaction` APIs when they receive the non-ok status.
Reviewed By: ltamasi
Differential Revision: D31822445
fbshipit-source-id: b82abf8e230216dc89cc519564a588224a88fd43
3 years ago
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ASSERT_TRUE(
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db->Put(WriteOptions(), handles_[1], "foo", "bar").IsNotSupported());
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ASSERT_TRUE(db->Delete(WriteOptions(), handles_[1], "foo").IsNotSupported());
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ASSERT_TRUE(
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db->SingleDelete(WriteOptions(), handles_[1], "foo").IsNotSupported());
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ASSERT_TRUE(
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db->Merge(WriteOptions(), handles_[1], "foo", "+1").IsNotSupported());
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WriteBatch wb1(/*reserved_bytes=*/0, /*max_bytes=*/0,
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/*protection_bytes_per_key=*/0, /*default_cf_ts_sz=*/0);
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ASSERT_OK(wb1.Put(handles_[1], key_str, ts_str, value));
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ASSERT_TRUE(db->Write(WriteOptions(), &wb1).IsNotSupported());
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ASSERT_TRUE(db->Write(WriteOptions(), TransactionDBWriteOptimizations(), &wb1)
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.IsNotSupported());
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auto* pessimistic_txn_db =
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static_cast_with_check<PessimisticTransactionDB>(db);
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assert(pessimistic_txn_db);
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ASSERT_TRUE(
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pessimistic_txn_db->WriteWithConcurrencyControl(WriteOptions(), &wb1)
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.IsNotSupported());
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ASSERT_OK(db->Put(WriteOptions(), "foo", "value"));
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ASSERT_OK(db->Put(WriteOptions(), "bar", "value"));
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ASSERT_OK(db->Delete(WriteOptions(), "bar"));
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ASSERT_OK(db->SingleDelete(WriteOptions(), "foo"));
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ASSERT_OK(db->Put(WriteOptions(), "key", "value"));
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ASSERT_OK(db->Merge(WriteOptions(), "key", "_more"));
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WriteBatch wb2(/*reserved_bytes=*/0, /*max_bytes=*/0,
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/*protection_bytes_per_key=*/0, /*default_cf_ts_sz=*/0);
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ASSERT_OK(wb2.Put(key_str, value));
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ASSERT_OK(db->Write(WriteOptions(), &wb2));
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ASSERT_OK(db->Write(WriteOptions(), TransactionDBWriteOptimizations(), &wb2));
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ASSERT_OK(
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pessimistic_txn_db->WriteWithConcurrencyControl(WriteOptions(), &wb2));
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std::unique_ptr<Transaction> txn(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn);
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WriteBatch wb3(/*reserved_bytes=*/0, /*max_bytes=*/0,
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/*protection_bytes_per_key=*/0, /*default_cf_ts_sz=*/0);
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ASSERT_OK(wb3.Put(handles_[1], "key", "value"));
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auto* pessimistic_txn =
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static_cast_with_check<PessimisticTransaction>(txn.get());
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assert(pessimistic_txn);
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ASSERT_TRUE(pessimistic_txn->CommitBatch(&wb3).IsNotSupported());
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txn.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, Merge) {
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options.merge_operator = MergeOperators::CreateStringAppendOperator();
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_options;
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cf_options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_options, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, Options(DBOptions(), cf_options));
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options.avoid_flush_during_shutdown = true;
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn);
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ASSERT_OK(txn->Put(handles_[1], "foo", "bar"));
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ASSERT_TRUE(txn->Merge(handles_[1], "foo", "1").IsInvalidArgument());
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txn.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, GetForUpdate) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_options;
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cf_options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_options, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, Options(DBOptions(), cf_options));
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options.avoid_flush_during_shutdown = true;
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn0(
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NewTxn(WriteOptions(), TransactionOptions()));
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std::unique_ptr<Transaction> txn1(
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NewTxn(WriteOptions(), TransactionOptions()));
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ASSERT_OK(txn1->Put(handles_[1], "key", "value1"));
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ASSERT_OK(txn1->SetCommitTimestamp(24));
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ASSERT_OK(txn1->Commit());
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txn1.reset();
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std::string value;
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ASSERT_OK(txn0->SetReadTimestampForValidation(23));
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ASSERT_TRUE(
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txn0->GetForUpdate(ReadOptions(), handles_[1], "key", &value).IsBusy());
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ASSERT_OK(txn0->Rollback());
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txn0.reset();
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std::unique_ptr<Transaction> txn2(
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NewTxn(WriteOptions(), TransactionOptions()));
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ASSERT_OK(txn2->SetReadTimestampForValidation(25));
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ASSERT_OK(txn2->GetForUpdate(ReadOptions(), handles_[1], "key", &value));
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ASSERT_OK(txn2->SetCommitTimestamp(26));
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ASSERT_OK(txn2->Commit());
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txn2.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, BlindWrite) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_options;
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cf_options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_options, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, Options(DBOptions(), cf_options));
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options.avoid_flush_during_shutdown = true;
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn0(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn0);
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std::unique_ptr<Transaction> txn1(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn1);
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{
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std::string value;
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ASSERT_OK(txn0->SetReadTimestampForValidation(100));
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// Lock "key".
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ASSERT_TRUE(txn0->GetForUpdate(ReadOptions(), handles_[1], "key", &value)
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.IsNotFound());
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}
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ASSERT_OK(txn0->Put(handles_[1], "key", "value0"));
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ASSERT_OK(txn0->SetCommitTimestamp(101));
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ASSERT_OK(txn0->Commit());
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ASSERT_OK(txn1->Put(handles_[1], "key", "value1"));
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// In reality, caller needs to ensure commit_ts of txn1 is greater than the
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// commit_ts of txn0, which is true for lock-based concurrency control.
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ASSERT_OK(txn1->SetCommitTimestamp(102));
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ASSERT_OK(txn1->Commit());
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txn0.reset();
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txn1.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, RefineReadTimestamp) {
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ASSERT_OK(ReOpenNoDelete());
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ColumnFamilyOptions cf_options;
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cf_options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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const std::string test_cf_name = "test_cf";
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ColumnFamilyHandle* cfh = nullptr;
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assert(db);
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ASSERT_OK(db->CreateColumnFamily(cf_options, test_cf_name, &cfh));
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delete cfh;
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cfh = nullptr;
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std::vector<ColumnFamilyDescriptor> cf_descs;
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cf_descs.emplace_back(kDefaultColumnFamilyName, options);
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cf_descs.emplace_back(test_cf_name, Options(DBOptions(), cf_options));
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options.avoid_flush_during_shutdown = true;
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ASSERT_OK(ReOpenNoDelete(cf_descs, &handles_));
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std::unique_ptr<Transaction> txn0(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn0);
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std::unique_ptr<Transaction> txn1(
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NewTxn(WriteOptions(), TransactionOptions()));
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assert(txn1);
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{
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ASSERT_OK(txn0->SetReadTimestampForValidation(100));
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// Lock "key0", "key1", ..., "key4".
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for (int i = 0; i < 5; ++i) {
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std::string value;
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ASSERT_TRUE(txn0->GetForUpdate(ReadOptions(), handles_[1],
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"key" + std::to_string(i), &value)
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.IsNotFound());
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}
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}
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ASSERT_OK(txn1->Put(handles_[1], "key5", "value5_0"));
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ASSERT_OK(txn1->SetName("txn1"));
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ASSERT_OK(txn1->Prepare());
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ASSERT_OK(txn1->SetCommitTimestamp(101));
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ASSERT_OK(txn1->Commit());
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txn1.reset();
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{
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std::string value;
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ASSERT_TRUE(txn0->GetForUpdate(ReadOptions(), handles_[1], "key5", &value)
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.IsBusy());
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ASSERT_OK(txn0->SetReadTimestampForValidation(102));
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ASSERT_OK(txn0->GetForUpdate(ReadOptions(), handles_[1], "key5", &value));
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ASSERT_EQ("value5_0", value);
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}
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for (int i = 0; i < 6; ++i) {
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ASSERT_OK(txn0->Put(handles_[1], "key" + std::to_string(i),
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"value" + std::to_string(i)));
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}
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ASSERT_OK(txn0->SetName("txn0"));
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ASSERT_OK(txn0->Prepare());
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ASSERT_OK(txn0->SetCommitTimestamp(103));
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ASSERT_OK(txn0->Commit());
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txn0.reset();
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}
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TEST_P(WriteCommittedTxnWithTsTest, CheckKeysForConflicts) {
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options.comparator = test::BytewiseComparatorWithU64TsWrapper();
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ASSERT_OK(ReOpen());
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std::unique_ptr<Transaction> txn1(
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db->BeginTransaction(WriteOptions(), TransactionOptions()));
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assert(txn1);
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std::unique_ptr<Transaction> txn2(
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db->BeginTransaction(WriteOptions(), TransactionOptions()));
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assert(txn2);
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ASSERT_OK(txn2->Put("foo", "v0"));
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ASSERT_OK(txn2->SetCommitTimestamp(10));
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ASSERT_OK(txn2->Commit());
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txn2.reset();
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// txn1 takes a snapshot after txn2 commits. The writes of txn2 have
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// a smaller seqno than txn1's snapshot, thus should not affect conflict
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// checking.
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txn1->SetSnapshot();
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std::unique_ptr<Transaction> txn3(
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db->BeginTransaction(WriteOptions(), TransactionOptions()));
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assert(txn3);
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ASSERT_OK(txn3->SetReadTimestampForValidation(20));
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std::string dontcare;
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ASSERT_OK(txn3->GetForUpdate(ReadOptions(), "foo", &dontcare));
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ASSERT_OK(txn3->SingleDelete("foo"));
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ASSERT_OK(txn3->SetName("txn3"));
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ASSERT_OK(txn3->Prepare());
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ASSERT_OK(txn3->SetCommitTimestamp(30));
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// txn3 reads at ts=20 > txn2's commit timestamp, and commits at ts=30.
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// txn3 can commit successfully, leaving a tombstone with ts=30.
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ASSERT_OK(txn3->Commit());
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txn3.reset();
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bool called = false;
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SyncPoint::GetInstance()->DisableProcessing();
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SyncPoint::GetInstance()->ClearAllCallBacks();
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SyncPoint::GetInstance()->SetCallBack(
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"DBImpl::GetLatestSequenceForKey:mem", [&](void* arg) {
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auto* const ts_ptr = reinterpret_cast<std::string*>(arg);
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assert(ts_ptr);
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Slice ts_slc = *ts_ptr;
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uint64_t last_ts = 0;
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ASSERT_TRUE(GetFixed64(&ts_slc, &last_ts));
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ASSERT_EQ(30, last_ts);
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called = true;
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});
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SyncPoint::GetInstance()->EnableProcessing();
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// txn1's read timestamp is 25 < 30 (commit timestamp of txn3). Therefore,
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// the tombstone written by txn3 causes the conflict checking to fail.
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ASSERT_OK(txn1->SetReadTimestampForValidation(25));
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ASSERT_TRUE(txn1->GetForUpdate(ReadOptions(), "foo", &dontcare).IsBusy());
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ASSERT_TRUE(called);
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SyncPoint::GetInstance()->DisableProcessing();
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SyncPoint::GetInstance()->ClearAllCallBacks();
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}
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Support user-defined timestamps in write-committed txns (#9629)
Summary:
Pull Request resolved: https://github.com/facebook/rocksdb/pull/9629
Pessimistic transactions use pessimistic concurrency control, i.e. locking. Keys are
locked upon first operation that writes the key or has the intention of writing. For example,
`PessimisticTransaction::Put()`, `PessimisticTransaction::Delete()`,
`PessimisticTransaction::SingleDelete()` will write to or delete a key, while
`PessimisticTransaction::GetForUpdate()` is used by application to indicate
to RocksDB that the transaction has the intention of performing write operation later
in the same transaction.
Pessimistic transactions support two-phase commit (2PC). A transaction can be
`Prepared()`'ed and then `Commit()`. The prepare phase is similar to a promise: once
`Prepare()` succeeds, the transaction has acquired the necessary resources to commit.
The resources include locks, persistence of WAL, etc.
Write-committed transaction is the default pessimistic transaction implementation. In
RocksDB write-committed transaction, `Prepare()` will write data to the WAL as a prepare
section. `Commit()` will write a commit marker to the WAL and then write data to the
memtables. While writing to the memtables, different keys in the transaction's write batch
will be assigned different sequence numbers in ascending order.
Until commit/rollback, the transaction holds locks on the keys so that no other transaction
can write to the same keys. Furthermore, the keys' sequence numbers represent the order
in which they are committed and should be made visible. This is convenient for us to
implement support for user-defined timestamps.
Since column families with and without timestamps can co-exist in the same database,
a transaction may or may not involve timestamps. Based on this observation, we add two
optional members to each `PessimisticTransaction`, `read_timestamp_` and
`commit_timestamp_`. If no key in the transaction's write batch has timestamp, then
setting these two variables do not have any effect. For the rest of this commit, we discuss
only the cases when these two variables are meaningful.
read_timestamp_ is used mainly for validation, and should be set before first call to
`GetForUpdate()`. Otherwise, the latter will return non-ok status. `GetForUpdate()` calls
`TryLock()` that can verify if another transaction has written the same key since
`read_timestamp_` till this call to `GetForUpdate()`. If another transaction has indeed
written the same key, then validation fails, and RocksDB allows this transaction to
refine `read_timestamp_` by increasing it. Note that a transaction can still use `Get()`
with a different timestamp to read, but the result of the read should not be used to
determine data that will be written later.
commit_timestamp_ must be set after finishing writing and before transaction commit.
This applies to both 2PC and non-2PC cases. In the case of 2PC, it's usually set after
prepare phase succeeds.
We currently require that the commit timestamp be chosen after all keys are locked. This
means we disallow the `TransactionDB`-level APIs if user-defined timestamp is used
by the transaction. Specifically, calling `PessimisticTransactionDB::Put()`,
`PessimisticTransactionDB::Delete()`, `PessimisticTransactionDB::SingleDelete()`,
etc. will return non-ok status because they specify timestamps before locking the keys.
Users are also prompted to use the `Transaction` APIs when they receive the non-ok status.
Reviewed By: ltamasi
Differential Revision: D31822445
fbshipit-source-id: b82abf8e230216dc89cc519564a588224a88fd43
3 years ago
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} // namespace ROCKSDB_NAMESPACE
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int main(int argc, char** argv) {
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::testing::InitGoogleTest(&argc, argv);
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return RUN_ALL_TESTS();
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}
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#else
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#include <cstdio>
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int main(int /*argc*/, char** /*argv*/) {
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fprintf(stderr, "SKIPPED as Transactions not supported in ROCKSDB_LITE\n");
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return 0;
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}
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#endif // ROCKSDB_LITE
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