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|
/**
* Copyright (C) 2018-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#include "mongo/platform/basic.h"
#include <boost/optional/optional_io.hpp>
#include "mongo/db/client.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/dbdirectclient.h"
#include "mongo/db/op_observer_noop.h"
#include "mongo/db/op_observer_registry.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/repl/mock_repl_coord_server_fixture.h"
#include "mongo/db/repl/oplog.h"
#include "mongo/db/repl/oplog_entry.h"
#include "mongo/db/repl/optime.h"
#include "mongo/db/server_transactions_metrics.h"
#include "mongo/db/service_context.h"
#include "mongo/db/session_catalog_mongod.h"
#include "mongo/db/stats/fill_locker_info.h"
#include "mongo/db/transaction_participant.h"
#include "mongo/db/transaction_participant_gen.h"
#include "mongo/logger/logger.h"
#include "mongo/stdx/future.h"
#include "mongo/stdx/memory.h"
#include "mongo/unittest/barrier.h"
#include "mongo/unittest/death_test.h"
#include "mongo/unittest/unittest.h"
#include "mongo/util/clock_source_mock.h"
#include "mongo/util/net/socket_utils.h"
#include "mongo/util/tick_source_mock.h"
namespace mongo {
namespace {
const NamespaceString kNss("TestDB", "TestColl");
/**
* Creates an OplogEntry with given parameters and preset defaults for this test suite.
*/
repl::OplogEntry makeOplogEntry(repl::OpTime opTime,
repl::OpTypeEnum opType,
BSONObj object,
OperationSessionInfo sessionInfo,
boost::optional<Date_t> wallClockTime,
boost::optional<StmtId> stmtId,
boost::optional<repl::OpTime> prevWriteOpTimeInTransaction) {
return repl::OplogEntry(
opTime, // optime
0, // hash
opType, // opType
kNss, // namespace
boost::none, // uuid
boost::none, // fromMigrate
0, // version
object, // o
boost::none, // o2
sessionInfo, // sessionInfo
boost::none, // upsert
wallClockTime, // wall clock time
stmtId, // statement id
prevWriteOpTimeInTransaction, // optime of previous write within same transaction
boost::none, // pre-image optime
boost::none, // post-image optime
boost::none); // prepare
}
class OpObserverMock : public OpObserverNoop {
public:
void onTransactionPrepare(OperationContext* opCtx,
const std::vector<OplogSlot>& reservedSlots,
std::vector<repl::ReplOperation>& statements) override;
bool onTransactionPrepareThrowsException = false;
bool transactionPrepared = false;
stdx::function<void()> onTransactionPrepareFn = []() {};
void onUnpreparedTransactionCommit(OperationContext* opCtx,
const std::vector<repl::ReplOperation>& statements) override;
bool onUnpreparedTransactionCommitThrowsException = false;
bool unpreparedTransactionCommitted = false;
stdx::function<void(const std::vector<repl::ReplOperation>&)> onUnpreparedTransactionCommitFn =
[](const std::vector<repl::ReplOperation>& statements) {};
void onPreparedTransactionCommit(
OperationContext* opCtx,
OplogSlot commitOplogEntryOpTime,
Timestamp commitTimestamp,
const std::vector<repl::ReplOperation>& statements) noexcept override;
bool onPreparedTransactionCommitThrowsException = false;
bool preparedTransactionCommitted = false;
stdx::function<void(OplogSlot, Timestamp, const std::vector<repl::ReplOperation>&)>
onPreparedTransactionCommitFn = [](OplogSlot commitOplogEntryOpTime,
Timestamp commitTimestamp,
const std::vector<repl::ReplOperation>& statements) {};
void onTransactionAbort(OperationContext* opCtx,
boost::optional<OplogSlot> abortOplogEntryOpTime) override;
bool onTransactionAbortThrowsException = false;
bool transactionAborted = false;
stdx::function<void()> onTransactionAbortFn = []() {};
repl::OpTime onDropCollection(OperationContext* opCtx,
const NamespaceString& collectionName,
OptionalCollectionUUID uuid,
std::uint64_t numRecords,
CollectionDropType dropType) override;
const repl::OpTime dropOpTime = {Timestamp(Seconds(100), 1U), 1LL};
};
void OpObserverMock::onTransactionPrepare(OperationContext* opCtx,
const std::vector<OplogSlot>& reservedSlots,
std::vector<repl::ReplOperation>& statements) {
ASSERT_TRUE(opCtx->lockState()->inAWriteUnitOfWork());
OpObserverNoop::onTransactionPrepare(opCtx, reservedSlots, statements);
uassert(ErrorCodes::OperationFailed,
"onTransactionPrepare() failed",
!onTransactionPrepareThrowsException);
transactionPrepared = true;
onTransactionPrepareFn();
}
void OpObserverMock::onUnpreparedTransactionCommit(
OperationContext* opCtx, const std::vector<repl::ReplOperation>& statements) {
ASSERT(opCtx->lockState()->inAWriteUnitOfWork());
OpObserverNoop::onUnpreparedTransactionCommit(opCtx, statements);
uassert(ErrorCodes::OperationFailed,
"onUnpreparedTransactionCommit() failed",
!onUnpreparedTransactionCommitThrowsException);
unpreparedTransactionCommitted = true;
onUnpreparedTransactionCommitFn(statements);
}
void OpObserverMock::onPreparedTransactionCommit(
OperationContext* opCtx,
OplogSlot commitOplogEntryOpTime,
Timestamp commitTimestamp,
const std::vector<repl::ReplOperation>& statements) noexcept {
ASSERT_FALSE(opCtx->lockState()->inAWriteUnitOfWork());
// The 'commitTimestamp' must be cleared before we write the oplog entry.
ASSERT(opCtx->recoveryUnit()->getCommitTimestamp().isNull());
OpObserverNoop::onPreparedTransactionCommit(
opCtx, commitOplogEntryOpTime, commitTimestamp, statements);
uassert(ErrorCodes::OperationFailed,
"onPreparedTransactionCommit() failed",
!onPreparedTransactionCommitThrowsException);
preparedTransactionCommitted = true;
onPreparedTransactionCommitFn(commitOplogEntryOpTime, commitTimestamp, statements);
}
void OpObserverMock::onTransactionAbort(OperationContext* opCtx,
boost::optional<OplogSlot> abortOplogEntryOpTime) {
OpObserverNoop::onTransactionAbort(opCtx, abortOplogEntryOpTime);
uassert(ErrorCodes::OperationFailed,
"onTransactionAbort() failed",
!onTransactionAbortThrowsException);
transactionAborted = true;
onTransactionAbortFn();
}
repl::OpTime OpObserverMock::onDropCollection(OperationContext* opCtx,
const NamespaceString& collectionName,
OptionalCollectionUUID uuid,
std::uint64_t numRecords,
const CollectionDropType dropType) {
// If the oplog is not disabled for this namespace, then we need to reserve an op time for the
// drop.
if (!repl::ReplicationCoordinator::get(opCtx)->isOplogDisabledFor(opCtx, collectionName)) {
OpObserver::Times::get(opCtx).reservedOpTimes.push_back(dropOpTime);
}
return {};
}
/**
* When this class is in scope, makes the system behave as if we're in a DBDirectClient.
*/
class DirectClientSetter {
public:
explicit DirectClientSetter(OperationContext* opCtx)
: _opCtx(opCtx), _wasInDirectClient(opCtx->getClient()->isInDirectClient()) {
opCtx->getClient()->setInDirectClient(true);
}
~DirectClientSetter() {
_opCtx->getClient()->setInDirectClient(_wasInDirectClient);
}
private:
const OperationContext* _opCtx;
const bool _wasInDirectClient;
};
class TxnParticipantTest : public MockReplCoordServerFixture {
protected:
void setUp() override {
MockReplCoordServerFixture::setUp();
MongoDSessionCatalog::onStepUp(opCtx());
const auto service = opCtx()->getServiceContext();
OpObserverRegistry* opObserverRegistry =
dynamic_cast<OpObserverRegistry*>(service->getOpObserver());
auto mockObserver = stdx::make_unique<OpObserverMock>();
_opObserver = mockObserver.get();
opObserverRegistry->addObserver(std::move(mockObserver));
{
// Set up a collection so that TransactionParticipant::prepareTransaction() can safely
// access it.
AutoGetOrCreateDb autoDb(opCtx(), kNss.db(), MODE_X);
auto db = autoDb.getDb();
ASSERT_TRUE(db);
WriteUnitOfWork wuow(opCtx());
CollectionOptions options;
options.uuid = _uuid;
db->createCollection(opCtx(), kNss.ns(), options);
wuow.commit();
}
opCtx()->setLogicalSessionId(_sessionId);
opCtx()->setTxnNumber(_txnNumber);
}
void tearDown() override {
_opObserver = nullptr;
// Clear all sessions to free up any stashed resources.
SessionCatalog::get(opCtx()->getServiceContext())->reset_forTest();
MockReplCoordServerFixture::tearDown();
}
SessionCatalog* catalog() {
return SessionCatalog::get(opCtx()->getServiceContext());
}
void runFunctionFromDifferentOpCtx(std::function<void(OperationContext*)> func) {
// Create a new client (e.g. for migration) and opCtx.
auto newClientOwned = getServiceContext()->makeClient("newClient");
AlternativeClientRegion acr(newClientOwned);
auto newOpCtx = cc().makeOperationContext();
func(newOpCtx.get());
}
std::unique_ptr<MongoDOperationContextSession> checkOutSession(
boost::optional<bool> startNewTxn = true) {
opCtx()->lockState()->setShouldConflictWithSecondaryBatchApplication(false);
auto opCtxSession = std::make_unique<MongoDOperationContextSession>(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, startNewTxn);
return opCtxSession;
}
const LogicalSessionId _sessionId{makeLogicalSessionIdForTest()};
const TxnNumber _txnNumber{20};
const OptionalCollectionUUID _uuid = UUID::gen();
OpObserverMock* _opObserver = nullptr;
};
// Test that transaction lock acquisition times out in `maxTransactionLockRequestTimeoutMillis`
// milliseconds.
TEST_F(TxnParticipantTest, TransactionThrowsLockTimeoutIfLockIsUnavailable) {
const std::string dbName = "TestDB";
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
{ Lock::DBLock dbXLock(opCtx(), dbName, MODE_X); }
txnParticipant.stashTransactionResources(opCtx());
auto clientWithDatabaseXLock = Client::releaseCurrent();
/**
* Make a new Session, Client, OperationContext and transaction and then attempt to take the
* same database exclusive lock, which should conflict because the other transaction already
* took it.
*/
auto service = opCtx()->getServiceContext();
auto newClientOwned = service->makeClient("newTransactionClient");
auto newClient = newClientOwned.get();
Client::setCurrent(std::move(newClientOwned));
const auto newSessionId = makeLogicalSessionIdForTest();
const TxnNumber newTxnNum = 10;
{
// Limit the scope of the new opCtx to make sure that it gets destroyed before
// new client is destroyed.
auto newOpCtx = newClient->makeOperationContext();
newOpCtx.get()->setLogicalSessionId(newSessionId);
newOpCtx.get()->setTxnNumber(newTxnNum);
MongoDOperationContextSession newOpCtxSession(newOpCtx.get());
auto newTxnParticipant = TransactionParticipant::get(newOpCtx.get());
newTxnParticipant.beginOrContinue(newOpCtx.get(), newTxnNum, false, true);
newTxnParticipant.unstashTransactionResources(newOpCtx.get(), "insert");
Date_t t1 = Date_t::now();
ASSERT_THROWS_CODE(Lock::DBLock(newOpCtx.get(), dbName, MODE_X),
AssertionException,
ErrorCodes::LockTimeout);
Date_t t2 = Date_t::now();
int defaultMaxTransactionLockRequestTimeoutMillis = 5;
ASSERT_GTE(t2 - t1, Milliseconds(defaultMaxTransactionLockRequestTimeoutMillis));
// A non-conflicting lock acquisition should work just fine.
{ Lock::DBLock tempLock(newOpCtx.get(), "NewTestDB", MODE_X); }
}
// Restore the original client so that teardown works.
Client::releaseCurrent();
Client::setCurrent(std::move(clientWithDatabaseXLock));
}
TEST_F(TxnParticipantTest, StashAndUnstashResources) {
Locker* originalLocker = opCtx()->lockState();
RecoveryUnit* originalRecoveryUnit = opCtx()->recoveryUnit();
ASSERT(originalLocker);
ASSERT(originalRecoveryUnit);
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Perform initial unstash which sets up a WriteUnitOfWork.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT_EQUALS(originalLocker, opCtx()->lockState());
ASSERT_EQUALS(originalRecoveryUnit, opCtx()->recoveryUnit());
ASSERT(opCtx()->getWriteUnitOfWork());
ASSERT(opCtx()->lockState()->isLocked());
// Stash resources. The original Locker and RecoveryUnit now belong to the stash.
txnParticipant.stashTransactionResources(opCtx());
ASSERT_NOT_EQUALS(originalLocker, opCtx()->lockState());
ASSERT_NOT_EQUALS(originalRecoveryUnit, opCtx()->recoveryUnit());
ASSERT(!opCtx()->getWriteUnitOfWork());
// Unset the read concern on the OperationContext. This is needed to unstash.
repl::ReadConcernArgs::get(opCtx()) = repl::ReadConcernArgs();
// Unstash the stashed resources. This restores the original Locker and RecoveryUnit to the
// OperationContext.
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT_EQUALS(originalLocker, opCtx()->lockState());
ASSERT_EQUALS(originalRecoveryUnit, opCtx()->recoveryUnit());
ASSERT(opCtx()->getWriteUnitOfWork());
// Commit the transaction. This allows us to release locks.
txnParticipant.commitUnpreparedTransaction(opCtx());
}
TEST_F(TxnParticipantTest, CannotSpecifyStartTransactionOnInProgressTxn) {
// Must specify startTransaction=true and autocommit=false to start a transaction.
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_TRUE(txnParticipant.inMultiDocumentTransaction());
// Cannot try to start a transaction that already started.
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, true),
AssertionException,
ErrorCodes::ConflictingOperationInProgress);
}
TEST_F(TxnParticipantTest, AutocommitRequiredOnEveryTxnOp) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// We must have stashed transaction resources to do a second operation on the transaction.
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
auto txnNum = *opCtx()->getTxnNumber();
// Omitting 'autocommit' after the first statement of a transaction should throw an error.
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(opCtx(), txnNum, boost::none, boost::none),
AssertionException,
ErrorCodes::InvalidOptions);
// Including autocommit=false should succeed.
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, boost::none);
}
DEATH_TEST_F(TxnParticipantTest, AutocommitCannotBeTrue, "invariant") {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Passing 'autocommit=true' is not allowed and should crash.
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), true, boost::none);
}
DEATH_TEST_F(TxnParticipantTest, StartTransactionCannotBeFalse, "invariant") {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Passing 'startTransaction=false' is not allowed and should crash.
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, false);
}
TEST_F(TxnParticipantTest, SameTransactionPreservesStoredStatements) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// We must have stashed transaction resources to re-open the transaction.
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_BSONOBJ_EQ(operation.toBSON(),
txnParticipant.getTransactionOperationsForTest()[0].toBSON());
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
// Check the transaction operations before re-opening the transaction.
ASSERT_BSONOBJ_EQ(operation.toBSON(),
txnParticipant.getTransactionOperationsForTest()[0].toBSON());
// Re-opening the same transaction should have no effect.
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, boost::none);
ASSERT_BSONOBJ_EQ(operation.toBSON(),
txnParticipant.getTransactionOperationsForTest()[0].toBSON());
}
TEST_F(TxnParticipantTest, AbortClearsStoredStatements) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_BSONOBJ_EQ(operation.toBSON(),
txnParticipant.getTransactionOperationsForTest()[0].toBSON());
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_TRUE(txnParticipant.getTransactionOperationsForTest().empty());
ASSERT_TRUE(txnParticipant.transactionIsAborted());
}
// This test makes sure the commit machinery works even when no operations are done on the
// transaction.
TEST_F(TxnParticipantTest, EmptyUnpreparedTransactionCommit) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.commitUnpreparedTransaction(opCtx());
txnParticipant.stashTransactionResources(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
}
// This test makes sure the commit machinery works even when no operations are done on the
// transaction.
TEST_F(TxnParticipantTest, EmptyPreparedTransactionCommit) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
const auto commitTS = Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
txnParticipant.commitPreparedTransaction(opCtx(), commitTS, {});
txnParticipant.stashTransactionResources(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
}
TEST_F(TxnParticipantTest, PrepareSucceedsWithNestedLocks) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
{
Lock::GlobalLock lk1(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
Lock::GlobalLock lk2(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
}
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
const auto commitTS = Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
txnParticipant.commitPreparedTransaction(opCtx(), commitTS, {});
txnParticipant.stashTransactionResources(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
}
TEST_F(TxnParticipantTest, PrepareFailsOnTemporaryCollection) {
NamespaceString tempCollNss(kNss.db(), "tempCollection");
UUID tempCollUUID = UUID::gen();
// Create a temporary collection so that we can write to it.
{
AutoGetOrCreateDb autoDb(opCtx(), kNss.db(), MODE_X);
auto db = autoDb.getDb();
ASSERT_TRUE(db);
WriteUnitOfWork wuow(opCtx());
CollectionOptions options;
options.uuid = tempCollUUID;
options.temp = true;
db->createCollection(opCtx(), tempCollNss.ns(), options);
wuow.commit();
}
// Set up a transaction on the temp collection
auto outerScopedSession = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation =
repl::OplogEntry::makeInsertOperation(tempCollNss, tempCollUUID, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_THROWS_CODE(txnParticipant.prepareTransaction(opCtx(), {}),
AssertionException,
ErrorCodes::OperationNotSupportedInTransaction);
}
TEST_F(TxnParticipantTest, CommitTransactionSetsCommitTimestampOnPreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
const auto commitTS = Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
auto originalFn = _opObserver->onPreparedTransactionCommitFn;
_opObserver->onPreparedTransactionCommitFn =
[&](OplogSlot commitOplogEntryOpTime,
Timestamp commitTimestamp,
const std::vector<repl::ReplOperation>& statements) {
originalFn(commitOplogEntryOpTime, commitTimestamp, statements);
ASSERT_GT(commitTimestamp, prepareTimestamp);
ASSERT(statements.empty());
};
txnParticipant.commitPreparedTransaction(opCtx(), commitTS, {});
// The recovery unit is reset on commit.
ASSERT(opCtx()->recoveryUnit()->getCommitTimestamp().isNull());
txnParticipant.stashTransactionResources(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
ASSERT(opCtx()->recoveryUnit()->getCommitTimestamp().isNull());
}
TEST_F(TxnParticipantTest, CommitTransactionWithCommitTimestampFailsOnUnpreparedTransaction) {
const auto commitTimestamp = Timestamp(6, 6);
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
ASSERT_THROWS_CODE(txnParticipant.commitPreparedTransaction(opCtx(), commitTimestamp, {}),
AssertionException,
ErrorCodes::InvalidOptions);
}
TEST_F(TxnParticipantTest, CommitTransactionDoesNotSetCommitTimestampOnUnpreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto originalFn = _opObserver->onUnpreparedTransactionCommitFn;
_opObserver->onUnpreparedTransactionCommitFn =
[&](const std::vector<repl::ReplOperation>& statements) {
originalFn(statements);
ASSERT(opCtx()->recoveryUnit()->getCommitTimestamp().isNull());
ASSERT(statements.empty());
};
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT(opCtx()->recoveryUnit()->getCommitTimestamp().isNull());
txnParticipant.stashTransactionResources(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
ASSERT(opCtx()->recoveryUnit()->getCommitTimestamp().isNull());
}
TEST_F(TxnParticipantTest, CommitTransactionWithoutCommitTimestampFailsOnPreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_THROWS_CODE(txnParticipant.commitUnpreparedTransaction(opCtx()),
AssertionException,
ErrorCodes::InvalidOptions);
}
TEST_F(TxnParticipantTest, CommitTransactionWithNullCommitTimestampFailsOnPreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_THROWS_CODE(txnParticipant.commitPreparedTransaction(opCtx(), Timestamp(), {}),
AssertionException,
ErrorCodes::InvalidOptions);
}
TEST_F(TxnParticipantTest,
CommitTransactionWithCommitTimestampLessThanPrepareTimestampFailsOnPreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_THROWS_CODE(txnParticipant.commitPreparedTransaction(
opCtx(), Timestamp(prepareTimestamp.getSecs() - 1, 1), {}),
AssertionException,
ErrorCodes::InvalidOptions);
}
// This test makes sure the abort machinery works even when no operations are done on the
// transaction.
TEST_F(TxnParticipantTest, EmptyTransactionAbort) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsAborted());
}
// This test makes sure the abort machinery works even when no operations are done on the
// transaction.
TEST_F(TxnParticipantTest, EmptyPreparedTransactionAbort) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.prepareTransaction(opCtx(), {});
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, KillSessionsDuringPrepareDoesNotAbortTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
auto ruPrepareTimestamp = Timestamp();
auto originalFn = _opObserver->onTransactionPrepareFn;
_opObserver->onTransactionPrepareFn = [&]() {
originalFn();
ruPrepareTimestamp = opCtx()->recoveryUnit()->getPrepareTimestamp();
ASSERT_FALSE(ruPrepareTimestamp.isNull());
// The transaction may be aborted without checking out the txnParticipant.
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_FALSE(txnParticipant.transactionIsAborted());
};
// Check that prepareTimestamp gets set.
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ruPrepareTimestamp, prepareTimestamp);
ASSERT(_opObserver->transactionPrepared);
ASSERT_FALSE(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, ThrowDuringOnTransactionPrepareAbortsTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
_opObserver->onTransactionPrepareThrowsException = true;
ASSERT_THROWS_CODE(txnParticipant.prepareTransaction(opCtx(), {}),
AssertionException,
ErrorCodes::OperationFailed);
ASSERT_FALSE(_opObserver->transactionPrepared);
ASSERT(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, StepDownAfterPrepareDoesNotBlock) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
// Test that we can acquire the RSTL in mode X, and then immediately release it so the test can
// complete successfully.
auto func = [&](OperationContext* opCtx) {
opCtx->lockState()->lock(opCtx, resourceIdReplicationStateTransitionLock, MODE_X);
opCtx->lockState()->unlock(resourceIdReplicationStateTransitionLock);
};
runFunctionFromDifferentOpCtx(func);
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(_opObserver->transactionAborted);
ASSERT(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, StepDownAfterPrepareDoesNotBlockThenCommit) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
// Test that we can acquire the RSTL in mode X, and then immediately release it so the test can
// complete successfully.
auto func = [&](OperationContext* opCtx) {
opCtx->lockState()->lock(opCtx, resourceIdReplicationStateTransitionLock, MODE_X);
opCtx->lockState()->unlock(resourceIdReplicationStateTransitionLock);
};
runFunctionFromDifferentOpCtx(func);
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT(_opObserver->preparedTransactionCommitted);
ASSERT(txnParticipant.transactionIsCommitted());
}
TEST_F(TxnParticipantTest, StepDownDuringAbortSucceeds) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(_opObserver->transactionAborted);
ASSERT(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, StepDownDuringPreparedAbortFails) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
ASSERT_THROWS_CODE(
txnParticipant.abortActiveTransaction(opCtx()), AssertionException, ErrorCodes::NotMaster);
}
TEST_F(TxnParticipantTest, StepDownDuringPreparedCommitFails) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
const auto commitTS = Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
ASSERT_THROWS_CODE(txnParticipant.commitPreparedTransaction(opCtx(), commitTS, {}),
AssertionException,
ErrorCodes::NotMaster);
}
TEST_F(TxnParticipantTest, ThrowDuringUnpreparedCommitLetsTheAbortAtEntryPointToCleanUp) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
_opObserver->onUnpreparedTransactionCommitThrowsException = true;
ASSERT_THROWS_CODE(txnParticipant.commitUnpreparedTransaction(opCtx()),
AssertionException,
ErrorCodes::OperationFailed);
ASSERT_FALSE(_opObserver->unpreparedTransactionCommitted);
ASSERT_FALSE(txnParticipant.transactionIsAborted());
ASSERT_FALSE(txnParticipant.transactionIsCommitted());
// Simulate the abort at entry point.
txnParticipant.abortActiveUnpreparedOrStashPreparedTransaction(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, ContinuingATransactionWithNoResourcesAborts) {
// Check out a session, start the transaction and check it in.
checkOutSession();
// Check out the session again for a new operation.
MongoDOperationContextSession sessionCheckout(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, boost::none),
AssertionException,
ErrorCodes::NoSuchTransaction);
}
TEST_F(TxnParticipantTest, KillSessionsDoesNotAbortPreparedTransactions) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto ruPrepareTimestamp = Timestamp();
auto originalFn = _opObserver->onTransactionPrepareFn;
_opObserver->onTransactionPrepareFn = [&]() {
originalFn();
ruPrepareTimestamp = opCtx()->recoveryUnit()->getPrepareTimestamp();
ASSERT_FALSE(ruPrepareTimestamp.isNull());
};
// Check that prepareTimestamp gets set.
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ruPrepareTimestamp, prepareTimestamp);
txnParticipant.stashTransactionResources(opCtx());
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_FALSE(txnParticipant.transactionIsAborted());
ASSERT(_opObserver->transactionPrepared);
}
TEST_F(TxnParticipantTest, CannotAbortArbitraryPreparedTransactions) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto ruPrepareTimestamp = Timestamp();
auto originalFn = _opObserver->onTransactionPrepareFn;
_opObserver->onTransactionPrepareFn = [&]() {
originalFn();
ruPrepareTimestamp = opCtx()->recoveryUnit()->getPrepareTimestamp();
ASSERT_FALSE(ruPrepareTimestamp.isNull());
};
// Check that prepareTimestamp gets set.
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ruPrepareTimestamp, prepareTimestamp);
txnParticipant.stashTransactionResources(opCtx());
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT(!txnParticipant.transactionIsAborted());
ASSERT(_opObserver->transactionPrepared);
}
TEST_F(TxnParticipantTest, CannotStartNewTransactionIfNotPrimary) {
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
auto opCtxSession = std::make_unique<MongoDOperationContextSession>(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
// Include 'autocommit=false' for transactions.
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, true),
AssertionException,
ErrorCodes::NotMaster);
}
TEST_F(TxnParticipantTest, CannotStartRetryableWriteIfNotPrimary) {
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
auto opCtxSession = std::make_unique<MongoDOperationContextSession>(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
// Omit the 'autocommit' field for retryable writes.
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), boost::none, true),
AssertionException,
ErrorCodes::NotMaster);
}
TEST_F(TxnParticipantTest, CannotContinueTransactionIfNotPrimary) {
// Will start the transaction.
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_TRUE(txnParticipant.inMultiDocumentTransaction());
ASSERT_OK(repl::ReplicationCoordinator::get(opCtx())->setFollowerMode(
repl::MemberState::RS_SECONDARY));
// Technically, the transaction should have been aborted on stepdown anyway, but it
// doesn't hurt to have this kind of coverage.
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, false),
AssertionException,
ErrorCodes::NotMaster);
}
TEST_F(TxnParticipantTest, CannotStartNewTransactionWhilePreparedTransactionInProgress) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto ruPrepareTimestamp = Timestamp();
auto originalFn = _opObserver->onTransactionPrepareFn;
_opObserver->onTransactionPrepareFn = [&]() {
originalFn();
ruPrepareTimestamp = opCtx()->recoveryUnit()->getPrepareTimestamp();
ASSERT_FALSE(ruPrepareTimestamp.isNull());
};
// Check that prepareTimestamp gets set.
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ruPrepareTimestamp, prepareTimestamp);
txnParticipant.stashTransactionResources(opCtx());
OperationContextSession::checkIn(opCtx());
{
auto guard = makeGuard([&]() { OperationContextSession::checkOut(opCtx()); });
// Try to start a new transaction while there is already a prepared transaction on the
// session. This should fail with a PreparedTransactionInProgress error.
runFunctionFromDifferentOpCtx([
lsid = *opCtx()->getLogicalSessionId(),
txnNumberToStart = *opCtx()->getTxnNumber() + 1
](OperationContext * newOpCtx) {
newOpCtx->setLogicalSessionId(lsid);
newOpCtx->setTxnNumber(txnNumberToStart);
MongoDOperationContextSession ocs(newOpCtx);
auto txnParticipant = TransactionParticipant::get(newOpCtx);
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(newOpCtx, txnNumberToStart, false, true),
AssertionException,
ErrorCodes::PreparedTransactionInProgress);
});
}
ASSERT_FALSE(txnParticipant.transactionIsAborted());
ASSERT(_opObserver->transactionPrepared);
}
TEST_F(TxnParticipantTest, CannotInsertInPreparedTransaction) {
auto outerScopedSession = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_THROWS_CODE(txnParticipant.unstashTransactionResources(opCtx(), "insert"),
AssertionException,
ErrorCodes::PreparedTransactionInProgress);
ASSERT_FALSE(txnParticipant.transactionIsAborted());
ASSERT(_opObserver->transactionPrepared);
}
TEST_F(TxnParticipantTest, ImplictAbortDoesNotAbortPreparedTransaction) {
auto outerScopedSession = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
txnParticipant.prepareTransaction(opCtx(), {});
// The next command throws an exception and wants to abort the transaction.
// This is a no-op.
txnParticipant.abortActiveUnpreparedOrStashPreparedTransaction(opCtx());
ASSERT_FALSE(txnParticipant.transactionIsAborted());
ASSERT_TRUE(_opObserver->transactionPrepared);
}
DEATH_TEST_F(TxnParticipantTest,
AbortIsIllegalDuringCommittingPreparedTransaction,
"isCommittingWithPrepare") {
auto outerScopedSession = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
_opObserver->onPreparedTransactionCommitFn =
[&](OplogSlot commitOplogEntryOpTime,
Timestamp commitTimestamp,
const std::vector<repl::ReplOperation>& statements) {
// Hit an invariant. This should never happen.
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_FALSE(txnParticipant.transactionIsAborted());
};
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
}
TEST_F(TxnParticipantTest, CannotContinueNonExistentTransaction) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_THROWS_CODE(
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), false, boost::none),
AssertionException,
ErrorCodes::NoSuchTransaction);
}
// Tests that a transaction aborts if it becomes too large before trying to commit it.
TEST_F(TxnParticipantTest, TransactionTooLargeWhileBuilding) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// Two 6MB operations should succeed; three 6MB operations should fail.
constexpr size_t kBigDataSize = 6 * 1024 * 1024;
std::unique_ptr<uint8_t[]> bigData(new uint8_t[kBigDataSize]());
auto operation = repl::OplogEntry::makeInsertOperation(
kNss,
_uuid,
BSON("_id" << 0 << "data" << BSONBinData(bigData.get(), kBigDataSize, BinDataGeneral)));
txnParticipant.addTransactionOperation(opCtx(), operation);
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_THROWS_CODE(txnParticipant.addTransactionOperation(opCtx(), operation),
AssertionException,
ErrorCodes::TransactionTooLarge);
}
TEST_F(TxnParticipantTest, StashInNestedSessionIsANoop) {
auto outerScopedSession = checkOutSession();
Locker* originalLocker = opCtx()->lockState();
RecoveryUnit* originalRecoveryUnit = opCtx()->recoveryUnit();
ASSERT(originalLocker);
ASSERT(originalRecoveryUnit);
// Set the readConcern on the OperationContext.
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Perform initial unstash, which sets up a WriteUnitOfWork.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT_EQUALS(originalLocker, opCtx()->lockState());
ASSERT_EQUALS(originalRecoveryUnit, opCtx()->recoveryUnit());
ASSERT(opCtx()->getWriteUnitOfWork());
{
// Make it look like we're in a DBDirectClient running a nested operation.
DirectClientSetter inDirectClient(opCtx());
txnParticipant.stashTransactionResources(opCtx());
// The stash was a noop, so the locker, RecoveryUnit, and WriteUnitOfWork on the
// OperationContext are unaffected.
ASSERT_EQUALS(originalLocker, opCtx()->lockState());
ASSERT_EQUALS(originalRecoveryUnit, opCtx()->recoveryUnit());
ASSERT(opCtx()->getWriteUnitOfWork());
}
}
/**
* Test fixture for testing behavior that depends on a server's cluster role.
*
* Each test case relies on the txnNumber on the operation context, which cannot be changed, so
* define tests for behavior shared by config and shard servers as methods here and call them in the
* fixtures for config and shard servers defined below.
*/
class ShardedClusterParticipantTest : public TxnParticipantTest {
protected:
void cannotSpecifyStartTransactionOnInProgressTxn() {
auto autocommit = false;
auto startTransaction = true;
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction),
AssertionException,
50911);
}
void canSpecifyStartTransactionOnAbortedTxn() {
auto autocommit = false;
auto startTransaction = true;
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction);
ASSERT(txnParticipant.inMultiDocumentTransaction());
}
void cannotSpecifyStartTransactionOnCommittedTxn() {
auto autocommit = false;
auto startTransaction = true;
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction),
AssertionException,
50911);
}
void cannotSpecifyStartTransactionOnPreparedTxn() {
auto autocommit = false;
auto startTransaction = true;
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction),
AssertionException,
50911);
}
void cannotSpecifyStartTransactionOnAbortedPreparedTransaction() {
auto autocommit = false;
auto startTransaction = true;
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT(txnParticipant.transactionIsPrepared());
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
startTransaction = true;
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction),
AssertionException,
50911);
}
void canSpecifyStartTransactionOnRetryableWriteWithNoWritesExecuted() {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), boost::none, boost::none);
ASSERT_FALSE(txnParticipant.inMultiDocumentTransaction());
auto autocommit = false;
auto startTransaction = true;
txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction);
ASSERT(txnParticipant.inMultiDocumentTransaction());
}
};
/**
* Test fixture for a transaction participant running on a shard server.
*/
class ShardTxnParticipantTest : public ShardedClusterParticipantTest {
protected:
void setUp() final {
TxnParticipantTest::setUp();
serverGlobalParams.clusterRole = ClusterRole::ShardServer;
}
void tearDown() final {
serverGlobalParams.clusterRole = ClusterRole::None;
TxnParticipantTest::tearDown();
}
};
TEST_F(ShardTxnParticipantTest, CannotSpecifyStartTransactionOnInProgressTxn) {
cannotSpecifyStartTransactionOnInProgressTxn();
}
TEST_F(ShardTxnParticipantTest, CanSpecifyStartTransactionOnAbortedTxn) {
canSpecifyStartTransactionOnAbortedTxn();
}
TEST_F(ShardTxnParticipantTest, CannotSpecifyStartTransactionOnCommittedTxn) {
cannotSpecifyStartTransactionOnCommittedTxn();
}
TEST_F(ShardTxnParticipantTest, CannotSpecifyStartTransactionOnPreparedTxn) {
cannotSpecifyStartTransactionOnPreparedTxn();
}
TEST_F(ShardTxnParticipantTest, canSpecifyStartTransactionOnRetryableWriteWithNoWritesExecuted) {
canSpecifyStartTransactionOnRetryableWriteWithNoWritesExecuted();
}
TEST_F(ShardTxnParticipantTest, CannotSpecifyStartTransactionOnAbortedPreparedTransaction) {
cannotSpecifyStartTransactionOnAbortedPreparedTransaction();
}
/**
* Test fixture for a transaction participant running on a config server.
*/
class ConfigTxnParticipantTest : public ShardedClusterParticipantTest {
protected:
void setUp() final {
TxnParticipantTest::setUp();
serverGlobalParams.clusterRole = ClusterRole::ConfigServer;
}
void tearDown() final {
serverGlobalParams.clusterRole = ClusterRole::None;
TxnParticipantTest::tearDown();
}
};
TEST_F(ConfigTxnParticipantTest, CannotSpecifyStartTransactionOnInProgressTxn) {
cannotSpecifyStartTransactionOnInProgressTxn();
}
TEST_F(ConfigTxnParticipantTest, CanSpecifyStartTransactionOnAbortedTxn) {
canSpecifyStartTransactionOnAbortedTxn();
}
TEST_F(ConfigTxnParticipantTest, CannotSpecifyStartTransactionOnCommittedTxn) {
cannotSpecifyStartTransactionOnCommittedTxn();
}
TEST_F(ConfigTxnParticipantTest, CannotSpecifyStartTransactionOnPreparedTxn) {
cannotSpecifyStartTransactionOnPreparedTxn();
}
TEST_F(ConfigTxnParticipantTest, canSpecifyStartTransactionOnRetryableWriteWithNoWritesExecuted) {
canSpecifyStartTransactionOnRetryableWriteWithNoWritesExecuted();
}
TEST_F(ConfigTxnParticipantTest, CannotSpecifyStartTransactionOnAbortedPreparedTransaction) {
cannotSpecifyStartTransactionOnAbortedPreparedTransaction();
}
TEST_F(TxnParticipantTest, ThrowDuringUnpreparedOnTransactionAbort) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
_opObserver->onTransactionAbortThrowsException = true;
ASSERT_THROWS_CODE(txnParticipant.abortActiveTransaction(opCtx()),
AssertionException,
ErrorCodes::OperationFailed);
}
TEST_F(TxnParticipantTest, ThrowDuringPreparedOnTransactionAbortIsFatal) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
_opObserver->onTransactionAbortThrowsException = true;
ASSERT_THROWS_CODE(txnParticipant.abortActiveTransaction(opCtx()),
AssertionException,
ErrorCodes::OperationFailed);
}
TEST_F(TxnParticipantTest, InterruptedSessionsCannotBePrepared) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
unittest::Barrier barrier(2);
auto future = stdx::async(stdx::launch::async, [this, &barrier] {
ThreadClient tc(getServiceContext());
auto sideOpCtx = tc->makeOperationContext();
auto killToken = catalog()->killSession(_sessionId);
barrier.countDownAndWait();
auto scopedSession =
catalog()->checkOutSessionForKill(sideOpCtx.get(), std::move(killToken));
});
barrier.countDownAndWait();
ASSERT_THROWS_CODE(txnParticipant.prepareTransaction(opCtx(), {}),
AssertionException,
ErrorCodes::Interrupted);
sessionCheckout.reset();
future.get();
}
TEST_F(TxnParticipantTest, ReacquireLocksForPreparedTransactionsOnStepUp) {
ASSERT(opCtx()->writesAreReplicated());
// Prepare a transaction on secondary.
{
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Simulate a transaction on secondary.
repl::UnreplicatedWritesBlock uwb(opCtx());
ASSERT(!opCtx()->writesAreReplicated());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
// Simulate the locking of an insert.
{
Lock::DBLock dbLock(opCtx(), "test", MODE_IX);
Lock::CollectionLock collLock(opCtx(), NamespaceString("test.foo"), MODE_IX);
}
txnParticipant.prepareTransaction(opCtx(), repl::OpTime({1, 1}, 1));
txnParticipant.stashTransactionResources(opCtx());
// Secondary yields locks for prepared transactions.
ASSERT_FALSE(txnParticipant.getTxnResourceStashLockerForTest()->isLocked());
}
// Step-up will restore the locks of prepared transactions.
ASSERT(opCtx()->writesAreReplicated());
MongoDSessionCatalog::onStepUp(opCtx());
{
auto sessionCheckout = checkOutSession({});
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.getTxnResourceStashLockerForTest()->isLocked());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.abortActiveTransaction(opCtx());
}
}
/**
* Test fixture for transactions metrics.
*/
class TransactionsMetricsTest : public TxnParticipantTest {
protected:
using TickSourceMicrosecondMock = TickSourceMock<Microseconds>;
/**
* Set up and return a mock clock source.
*/
ClockSourceMock* initMockPreciseClockSource() {
getServiceContext()->setPreciseClockSource(stdx::make_unique<ClockSourceMock>());
return dynamic_cast<ClockSourceMock*>(getServiceContext()->getPreciseClockSource());
}
/**
* Set up and return a mock tick source.
*/
TickSourceMicrosecondMock* initMockTickSource() {
getServiceContext()->setTickSource(stdx::make_unique<TickSourceMicrosecondMock>());
auto tickSource =
dynamic_cast<TickSourceMicrosecondMock*>(getServiceContext()->getTickSource());
// Ensure that the tick source is not initialized to zero.
tickSource->reset(1);
return tickSource;
}
};
TEST_F(TransactionsMetricsTest, IncrementTotalStartedUponStartTransaction) {
unsigned long long beforeTransactionStart =
ServerTransactionsMetrics::get(opCtx())->getTotalStarted();
auto sessionCheckout = checkOutSession();
// Tests that the total transactions started counter is incremented by 1 when a new transaction
// is started.
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalStarted(),
beforeTransactionStart + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementPreparedTransaction) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
unsigned long long beforePrepareCount =
ServerTransactionsMetrics::get(opCtx())->getTotalPrepared();
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPrepared(), beforePrepareCount + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementTotalCommittedOnCommit) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
unsigned long long beforeCommitCount =
ServerTransactionsMetrics::get(opCtx())->getTotalCommitted();
txnParticipant.commitUnpreparedTransaction(opCtx());
// Assert that the committed counter is incremented by 1.
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalCommitted(), beforeCommitCount + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementTotalPreparedThenCommitted) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
unsigned long long beforePreparedThenCommittedCount =
ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted();
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted(),
beforePreparedThenCommittedCount + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementTotalAbortedUponAbort) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
unsigned long long beforeAbortCount =
ServerTransactionsMetrics::get(opCtx())->getTotalAborted();
txnParticipant.abortTransactionIfNotPrepared(opCtx());
// Assert that the aborted counter is incremented by 1.
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalAborted(), beforeAbortCount + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementTotalPreparedThenAborted) {
unsigned long long beforePreparedThenAbortedCount =
ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenAborted();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenAborted(),
beforePreparedThenAbortedCount + 1U);
}
TEST_F(TransactionsMetricsTest, IncrementCurrentPreparedWithCommit) {
unsigned long long beforeCurrentPrepared =
ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(),
beforeCurrentPrepared + 1U);
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT(txnParticipant.transactionIsCommitted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(), beforeCurrentPrepared);
}
TEST_F(TransactionsMetricsTest, IncrementCurrentPreparedWithAbort) {
unsigned long long beforeCurrentPrepared =
ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(),
beforeCurrentPrepared + 1U);
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(), beforeCurrentPrepared);
}
TEST_F(TransactionsMetricsTest, NoPreparedMetricsChangesAfterExceptionInPrepare) {
unsigned long long beforeCurrentPrepared =
ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared();
unsigned long long beforeTotalPrepared =
ServerTransactionsMetrics::get(opCtx())->getTotalPrepared();
unsigned long long beforeTotalPreparedThenCommitted =
ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted();
unsigned long long beforeTotalPreparedThenAborted =
ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenAborted();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
_opObserver->onTransactionPrepareThrowsException = true;
ASSERT_THROWS_CODE(txnParticipant.prepareTransaction(opCtx(), {}),
AssertionException,
ErrorCodes::OperationFailed);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(), beforeCurrentPrepared);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPrepared(), beforeTotalPrepared);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted(),
beforeTotalPreparedThenCommitted);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenAborted(),
beforeTotalPreparedThenAborted);
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentPrepared(), beforeCurrentPrepared);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPrepared(), beforeTotalPrepared);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted(),
beforeTotalPreparedThenCommitted);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenAborted(),
beforeTotalPreparedThenAborted);
}
TEST_F(TransactionsMetricsTest, TrackTotalOpenTransactionsWithAbort) {
unsigned long long beforeTransactionStart =
ServerTransactionsMetrics::get(opCtx())->getCurrentOpen();
// Tests that starting a transaction increments the open transactions counter by 1.
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(),
beforeTransactionStart + 1U);
// Tests that stashing the transaction resources does not affect the open transactions counter.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(),
beforeTransactionStart + 1U);
// Tests that aborting a transaction decrements the open transactions counter by 1.
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(), beforeTransactionStart);
}
TEST_F(TransactionsMetricsTest, TrackTotalOpenTransactionsWithCommit) {
unsigned long long beforeTransactionStart =
ServerTransactionsMetrics::get(opCtx())->getCurrentOpen();
// Tests that starting a transaction increments the open transactions counter by 1.
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(),
beforeTransactionStart + 1U);
// Tests that stashing the transaction resources does not affect the open transactions counter.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(),
beforeTransactionStart + 1U);
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// Tests that committing a transaction decrements the open transactions counter by 1.
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentOpen(), beforeTransactionStart);
}
TEST_F(TransactionsMetricsTest, TrackTotalActiveAndInactiveTransactionsWithCommit) {
unsigned long long beforeActiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
// Starting the transaction should put it into an inactive state.
auto sessionCheckout = checkOutSession();
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1);
// Tests that the first unstash increments the active counter and decrements the inactive
// counter.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActiveCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
// Tests that stashing the transaction resources decrements active counter and increments
// inactive counter.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1U);
// Tests that the second unstash increments the active counter and decrements the inactive
// counter.
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActiveCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
// Tests that committing a transaction decrements the active counter only.
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
}
TEST_F(TransactionsMetricsTest, TrackTotalActiveAndInactiveTransactionsWithStashedAbort) {
unsigned long long beforeActiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
// Starting the transaction should put it into an inactive state.
auto sessionCheckout = checkOutSession();
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1);
// Tests that the first unstash increments the active counter and decrements the inactive
// counter.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActiveCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
// Tests that stashing the transaction resources decrements active counter and increments
// inactive counter.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1U);
// Tests that aborting a stashed transaction decrements the inactive counter only.
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
}
TEST_F(TransactionsMetricsTest, TrackTotalActiveAndInactiveTransactionsWithUnstashedAbort) {
unsigned long long beforeActiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
// Starting the transaction should put it into an inactive state.
auto sessionCheckout = checkOutSession();
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1);
// Tests that the first unstash increments the active counter and decrements the inactive
// counter.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActiveCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
// Tests that aborting a stashed transaction decrements the active counter only.
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
}
TEST_F(TransactionsMetricsTest, TrackCurrentActiveAndInactivePreparedTransactionsOnCommit) {
unsigned long long beforeActivePreparedCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactivePreparedCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
auto sessionCheckout = checkOutSession();
unsigned long long beforePrepareCount =
ServerTransactionsMetrics::get(opCtx())->getTotalPrepared();
unsigned long long beforePreparedThenCommittedCount =
ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted();
// Tests that unstashing a transaction puts it into an active state.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPrepared(), beforePrepareCount + 1U);
// Tests that the first stash decrements the active counter and increments the inactive counter.
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter + 1U);
// Tests that unstashing increments the active counter and decrements the inactive counter.
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
// Tests that committing decrements the active counter only.
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalPreparedThenCommitted(),
beforePreparedThenCommittedCount + 1U);
}
TEST_F(TransactionsMetricsTest,
TrackCurrentActiveAndInactivePreparedTransactionsWithUnstashedAbort) {
unsigned long long beforeActivePreparedCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactivePreparedCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Tests that unstashing a transaction increments the active counter only.
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
// Tests that stashing a prepared transaction decrements the active counter and increments the
// inactive counter.
txnParticipant.stashTransactionResources(opCtx());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter + 1U);
// Tests that aborting a stashed prepared transaction decrements the inactive counter only.
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.transactionIsAborted());
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(),
beforeActivePreparedCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactivePreparedCounter);
}
TEST_F(TransactionsMetricsTest, TransactionErrorsBeforeUnstash) {
unsigned long long beforeActiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentActive();
unsigned long long beforeInactiveCounter =
ServerTransactionsMetrics::get(opCtx())->getCurrentInactive();
unsigned long long beforeAbortedCounter =
ServerTransactionsMetrics::get(opCtx())->getTotalAborted();
// The first transaction statement checks out the session and begins the transaction but returns
// before unstashTransactionResources().
auto sessionCheckout = checkOutSession();
// The transaction is now inactive.
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(),
beforeInactiveCounter + 1U);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalAborted(), beforeAbortedCounter);
// The second transaction statement continues the transaction. Since there are no stashed
// transaction resources, it is not safe to continue the transaction, so the transaction is
// aborted.
auto txnParticipant = TransactionParticipant::get(opCtx());
const bool autocommit = false;
const boost::optional<bool> startTransaction = boost::none;
ASSERT_THROWS_CODE(txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), autocommit, startTransaction),
AssertionException,
ErrorCodes::NoSuchTransaction);
// The transaction is now aborted.
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentActive(), beforeActiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getCurrentInactive(), beforeInactiveCounter);
ASSERT_EQ(ServerTransactionsMetrics::get(opCtx())->getTotalAborted(),
beforeAbortedCounter + 1U);
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsDurationShouldBeSetUponCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
// Advance the clock.
tickSource->advance(Microseconds(100));
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(100));
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsPreparedDurationShouldBeSetUponCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
// Advance the clock.
tickSource->advance(Microseconds(10));
// Prepare the transaction and extend the duration in the prepared state.
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(100));
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(100));
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsDurationShouldBeSetUponAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// Advance the clock.
tickSource->advance(Microseconds(100));
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(100));
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsPreparedDurationShouldBeSetUponAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
// Advance the clock.
tickSource->advance(Microseconds(10));
// Prepare the transaction and extend the duration in the prepared state.
txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(100));
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(100));
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsDurationShouldKeepIncreasingUntilCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
tickSource->advance(Microseconds(100));
// The transaction's duration should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(100));
tickSource->advance(Microseconds(100));
// Commit the transaction and check duration.
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(200));
// The transaction committed, so the duration shouldn't have increased even if more time passed.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest,
SingleTransactionStatsPreparedDurationShouldKeepIncreasingUntilCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
// Prepare the transaction and extend the duration in the prepared state.
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(100));
// The prepared transaction's duration should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(100));
tickSource->advance(Microseconds(100));
// Commit the prepared transaction and check the prepared duration.
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(200));
// The prepared transaction committed, so the prepared duration shouldn't have increased even if
// more time passed.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest, SingleTransactionStatsDurationShouldKeepIncreasingUntilAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
tickSource->advance(Microseconds(100));
// The transaction's duration should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(100));
tickSource->advance(Microseconds(100));
// Abort the transaction and check duration.
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(200));
// The transaction aborted, so the duration shouldn't have increased even if more time passed.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getDuration(tickSource,
tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest,
SingleTransactionStatsPreparedDurationShouldKeepIncreasingUntilAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
// Prepare the transaction and extend the duration in the prepared state.
txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(100));
// The prepared transaction's duration should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(100));
tickSource->advance(Microseconds(100));
// Abort the prepared transaction and check the prepared duration.
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(200));
// The prepared transaction aborted, so the prepared duration shouldn't have increased even if
// more time passed.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(
tickSource, tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest, TimeActiveMicrosShouldBeSetUponUnstashAndStash) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time active should be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
tickSource->advance(Microseconds(100));
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
// Advance clock during inactive period.
tickSource->advance(Microseconds(100));
// Time active should have increased only during active period.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
tickSource->advance(Microseconds(100));
txnParticipant.stashTransactionResources(opCtx());
// Advance clock during inactive period.
tickSource->advance(Microseconds(100));
// Time active should have increased again.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{200});
// Start a new transaction.
const auto higherTxnNum = *opCtx()->getTxnNumber() + 1;
txnParticipant.beginOrContinue(opCtx(), higherTxnNum, false, true);
// Time active should be zero for a new transaction.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
}
TEST_F(TransactionsMetricsTest, TimeActiveMicrosShouldBeSetUponUnstashAndAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time active should be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
tickSource->advance(Microseconds(100));
txnParticipant.abortTransactionIfNotPrepared(opCtx());
// Time active should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
tickSource->advance(Microseconds(100));
// The transaction is not active after abort, so time active should not have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
}
TEST_F(TransactionsMetricsTest, TimeActiveMicrosShouldNotBeSetUponAbortOnly) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time active should be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
// Advance clock during inactive period.
tickSource->advance(Microseconds(100));
txnParticipant.abortTransactionIfNotPrepared(opCtx());
// Time active should still be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
}
TEST_F(TransactionsMetricsTest, TimeActiveMicrosShouldIncreaseUntilStash) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time active should be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
tickSource->advance(Microseconds(100));
// Time active should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds(100));
tickSource->advance(Microseconds(100));
// Time active should have increased again.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds(200));
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
tickSource->advance(Microseconds(100));
// The transaction is no longer active, so time active should have stopped increasing.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest, TimeActiveMicrosShouldIncreaseUntilCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time active should be zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
tickSource->advance(Microseconds(100));
// Time active should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
tickSource->advance(Microseconds(100));
// Time active should have increased again.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{200});
txnParticipant.commitUnpreparedTransaction(opCtx());
tickSource->advance(Microseconds(100));
// The transaction is no longer active, so time active should have stopped increasing.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(
tickSource, tickSource->getTicks()),
Microseconds(200));
}
TEST_F(TransactionsMetricsTest, AdditiveMetricsObjectsShouldBeAddedTogetherUponStash) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize field values for both AdditiveMetrics objects.
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysExamined =
1;
CurOp::get(opCtx())->debug().additiveMetrics.keysExamined = 5;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.docsExamined =
2;
CurOp::get(opCtx())->debug().additiveMetrics.docsExamined = 0;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nMatched = 3;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nModified = 1;
CurOp::get(opCtx())->debug().additiveMetrics.nModified = 1;
CurOp::get(opCtx())->debug().additiveMetrics.ninserted = 4;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysInserted =
1;
CurOp::get(opCtx())->debug().additiveMetrics.keysInserted = 1;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysDeleted = 0;
CurOp::get(opCtx())->debug().additiveMetrics.keysDeleted = 0;
txnParticipant.getSingleTransactionStatsForTest()
.getOpDebug()
->additiveMetrics.prepareReadConflicts.store(5);
CurOp::get(opCtx())->debug().additiveMetrics.prepareReadConflicts.store(4);
auto additiveMetricsToCompare =
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics;
additiveMetricsToCompare.add(CurOp::get(opCtx())->debug().additiveMetrics);
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
ASSERT(txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.equals(
additiveMetricsToCompare));
}
TEST_F(TransactionsMetricsTest, AdditiveMetricsObjectsShouldBeAddedTogetherUponCommit) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize field values for both AdditiveMetrics objects.
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysExamined =
3;
CurOp::get(opCtx())->debug().additiveMetrics.keysExamined = 2;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.docsExamined =
0;
CurOp::get(opCtx())->debug().additiveMetrics.docsExamined = 2;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nMatched = 4;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nModified = 5;
CurOp::get(opCtx())->debug().additiveMetrics.nModified = 1;
CurOp::get(opCtx())->debug().additiveMetrics.ninserted = 1;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.ndeleted = 4;
CurOp::get(opCtx())->debug().additiveMetrics.ndeleted = 0;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysInserted =
1;
CurOp::get(opCtx())->debug().additiveMetrics.keysInserted = 1;
txnParticipant.getSingleTransactionStatsForTest()
.getOpDebug()
->additiveMetrics.prepareReadConflicts.store(0);
CurOp::get(opCtx())->debug().additiveMetrics.prepareReadConflicts.store(0);
txnParticipant.getSingleTransactionStatsForTest()
.getOpDebug()
->additiveMetrics.writeConflicts.store(6);
CurOp::get(opCtx())->debug().additiveMetrics.writeConflicts.store(3);
auto additiveMetricsToCompare =
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics;
additiveMetricsToCompare.add(CurOp::get(opCtx())->debug().additiveMetrics);
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.commitUnpreparedTransaction(opCtx());
ASSERT(txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.equals(
additiveMetricsToCompare));
}
TEST_F(TransactionsMetricsTest, AdditiveMetricsObjectsShouldBeAddedTogetherUponAbort) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize field values for both AdditiveMetrics objects.
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysExamined =
2;
CurOp::get(opCtx())->debug().additiveMetrics.keysExamined = 4;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.docsExamined =
1;
CurOp::get(opCtx())->debug().additiveMetrics.docsExamined = 3;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nMatched = 2;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.nModified = 0;
CurOp::get(opCtx())->debug().additiveMetrics.nModified = 3;
CurOp::get(opCtx())->debug().additiveMetrics.ndeleted = 5;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysInserted =
1;
CurOp::get(opCtx())->debug().additiveMetrics.keysInserted = 1;
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.keysDeleted = 6;
CurOp::get(opCtx())->debug().additiveMetrics.keysDeleted = 0;
txnParticipant.getSingleTransactionStatsForTest()
.getOpDebug()
->additiveMetrics.writeConflicts.store(3);
CurOp::get(opCtx())->debug().additiveMetrics.writeConflicts.store(3);
auto additiveMetricsToCompare =
txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics;
additiveMetricsToCompare.add(CurOp::get(opCtx())->debug().additiveMetrics);
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.abortActiveTransaction(opCtx());
ASSERT(txnParticipant.getSingleTransactionStatsForTest().getOpDebug()->additiveMetrics.equals(
additiveMetricsToCompare));
}
TEST_F(TransactionsMetricsTest, TimeInactiveMicrosShouldBeSetUponUnstashAndStash) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time inactive should have increased.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
// Time inactive should have increased again.
tickSource->advance(Microseconds(100));
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{200});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
tickSource->advance(Microseconds(100));
// The transaction is currently active, so time inactive should not have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{200});
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
tickSource->advance(Microseconds(100));
// The transaction is inactive again, so time inactive should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{300});
}
TEST_F(TransactionsMetricsTest, TimeInactiveMicrosShouldBeSetUponUnstashAndAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time inactive should be greater than or equal to zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
tickSource->advance(Microseconds(100));
// Time inactive should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
txnParticipant.abortTransactionIfNotPrepared(opCtx());
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
tickSource->advance(Microseconds(100));
// The transaction has aborted, so time inactive should not have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
}
TEST_F(TransactionsMetricsTest, TimeInactiveMicrosShouldIncreaseUntilCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Time inactive should be greater than or equal to zero.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{0});
tickSource->advance(Microseconds(100));
// Time inactive should have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.commitUnpreparedTransaction(opCtx());
tickSource->advance(Microseconds(100));
// The transaction has committed, so time inactive should not have increased.
ASSERT_EQ(txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(
tickSource, tickSource->getTicks()),
Microseconds{100});
}
TEST_F(TransactionsMetricsTest, ReportStashedResources) {
auto tickSource = initMockTickSource();
auto clockSource = initMockPreciseClockSource();
auto startTime = Date_t::now();
clockSource->reset(startTime);
const bool autocommit = false;
ASSERT(opCtx()->lockState());
ASSERT(opCtx()->recoveryUnit());
auto sessionCheckout = checkOutSession();
// Create a ClientMetadata object and set it on ClientMetadataIsMasterState.
BSONObjBuilder builder;
ASSERT_OK(ClientMetadata::serializePrivate("driverName",
"driverVersion",
"osType",
"osName",
"osArchitecture",
"osVersion",
"appName",
&builder));
auto obj = builder.obj();
auto clientMetadata = ClientMetadata::parse(obj["client"]);
auto& clientMetadataIsMasterState = ClientMetadataIsMasterState::get(opCtx()->getClient());
clientMetadataIsMasterState.setClientMetadata(opCtx()->getClient(),
std::move(clientMetadata.getValue()));
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Perform initial unstash which sets up a WriteUnitOfWork.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT(opCtx()->getWriteUnitOfWork());
ASSERT(opCtx()->lockState()->isLocked());
// Prepare the transaction and extend the duration in the prepared state.
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
const long preparedDuration = 10;
tickSource->advance(Microseconds(preparedDuration));
// Stash resources. The original Locker and RecoveryUnit now belong to the stash.
txnParticipant.stashTransactionResources(opCtx());
ASSERT(!opCtx()->getWriteUnitOfWork());
// Verify that the Session's report of its own stashed state aligns with our expectations.
auto stashedState = txnParticipant.reportStashedState(opCtx());
auto transactionDocument = stashedState.getObjectField("transaction");
auto parametersDocument = transactionDocument.getObjectField("parameters");
ASSERT_EQ(stashedState.getField("host").valueStringData().toString(),
getHostNameCachedAndPort());
ASSERT_EQ(stashedState.getField("desc").valueStringData().toString(), "inactive transaction");
ASSERT_BSONOBJ_EQ(stashedState.getField("lsid").Obj(), _sessionId.toBSON());
ASSERT_EQ(parametersDocument.getField("txnNumber").numberLong(), _txnNumber);
ASSERT_EQ(parametersDocument.getField("autocommit").boolean(), autocommit);
ASSERT_BSONELT_EQ(parametersDocument.getField("readConcern"),
readConcernArgs.toBSON().getField("readConcern"));
ASSERT_GTE(transactionDocument.getField("readTimestamp").timestamp(), Timestamp(0, 0));
ASSERT_EQ(
dateFromISOString(transactionDocument.getField("startWallClockTime").valueStringData())
.getValue(),
startTime);
ASSERT_EQ(
dateFromISOString(transactionDocument.getField("expiryTime").valueStringData()).getValue(),
startTime + Seconds(gTransactionLifetimeLimitSeconds.load()));
ASSERT_EQ(transactionDocument.getField("timePreparedMicros").numberLong(), preparedDuration);
ASSERT_EQ(stashedState.getField("client").valueStringData().toString(), "");
ASSERT_EQ(stashedState.getField("connectionId").numberLong(), 0);
ASSERT_EQ(stashedState.getField("appName").valueStringData().toString(), "appName");
ASSERT_BSONOBJ_EQ(stashedState.getField("clientMetadata").Obj(), obj.getField("client").Obj());
ASSERT_EQ(stashedState.getField("waitingForLock").boolean(), false);
ASSERT_EQ(stashedState.getField("active").boolean(), false);
// For the following time metrics, we are only verifying that the transaction sub-document is
// being constructed correctly with proper types because we have other tests to verify that the
// values are being tracked correctly.
ASSERT_GTE(transactionDocument.getField("timeOpenMicros").numberLong(), 0);
ASSERT_GTE(transactionDocument.getField("timeActiveMicros").numberLong(), 0);
ASSERT_GTE(transactionDocument.getField("timeInactiveMicros").numberLong(), 0);
// Unset the read concern on the OperationContext. This is needed to unstash.
repl::ReadConcernArgs::get(opCtx()) = repl::ReadConcernArgs();
// Unstash the stashed resources. This restores the original Locker and RecoveryUnit to the
// OperationContext.
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
ASSERT(opCtx()->getWriteUnitOfWork());
// With the resources unstashed, verify that the Session reports an empty stashed state.
ASSERT(txnParticipant.reportStashedState(opCtx()).isEmpty());
// Commit the transaction. This allows us to release locks.
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
}
TEST_F(TransactionsMetricsTest, ReportUnstashedResources) {
auto tickSource = initMockTickSource();
auto clockSource = initMockPreciseClockSource();
auto startTime = Date_t::now();
clockSource->reset(startTime);
ASSERT(opCtx()->lockState());
ASSERT(opCtx()->recoveryUnit());
const auto autocommit = false;
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Perform initial unstash which sets up a WriteUnitOfWork.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT(opCtx()->getWriteUnitOfWork());
ASSERT(opCtx()->lockState()->isLocked());
// Prepare transaction and extend duration in the prepared state.
txnParticipant.prepareTransaction(opCtx(), {});
const long prepareDuration = 10;
tickSource->advance(Microseconds(prepareDuration));
// Verify that the Session's report of its own unstashed state aligns with our expectations.
BSONObjBuilder unstashedStateBuilder;
txnParticipant.reportUnstashedState(opCtx(), &unstashedStateBuilder);
auto unstashedState = unstashedStateBuilder.obj();
auto transactionDocument = unstashedState.getObjectField("transaction");
auto parametersDocument = transactionDocument.getObjectField("parameters");
ASSERT_EQ(parametersDocument.getField("txnNumber").numberLong(), *opCtx()->getTxnNumber());
ASSERT_EQ(parametersDocument.getField("autocommit").boolean(), autocommit);
ASSERT_BSONELT_EQ(parametersDocument.getField("readConcern"),
readConcernArgs.toBSON().getField("readConcern"));
ASSERT_GTE(transactionDocument.getField("readTimestamp").timestamp(), Timestamp(0, 0));
ASSERT_EQ(
dateFromISOString(transactionDocument.getField("startWallClockTime").valueStringData())
.getValue(),
startTime);
ASSERT_EQ(
dateFromISOString(transactionDocument.getField("expiryTime").valueStringData()).getValue(),
startTime + Seconds(gTransactionLifetimeLimitSeconds.load()));
ASSERT_EQ(transactionDocument.getField("timePreparedMicros").numberLong(), prepareDuration);
// For the following time metrics, we are only verifying that the transaction sub-document is
// being constructed correctly with proper types because we have other tests to verify that
// the values are being tracked correctly.
ASSERT_GTE(transactionDocument.getField("timeOpenMicros").numberLong(), 0);
ASSERT_GTE(transactionDocument.getField("timeActiveMicros").numberLong(), 0);
ASSERT_GTE(transactionDocument.getField("timeInactiveMicros").numberLong(), 0);
// Stash resources. The original Locker and RecoveryUnit now belong to the stash.
txnParticipant.stashTransactionResources(opCtx());
ASSERT(!opCtx()->getWriteUnitOfWork());
// With the resources stashed, verify that the Session reports an empty unstashed state.
BSONObjBuilder builder;
txnParticipant.reportUnstashedState(opCtx(), &builder);
ASSERT(builder.obj().isEmpty());
}
TEST_F(TransactionsMetricsTest, ReportUnstashedResourcesForARetryableWrite) {
ASSERT(opCtx()->lockState());
ASSERT(opCtx()->recoveryUnit());
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.beginOrContinue(opCtx(), *opCtx()->getTxnNumber(), boost::none, boost::none);
txnParticipant.unstashTransactionResources(opCtx(), "find");
// Build a BSONObj containing the details which we expect to see reported when we invoke
// reportUnstashedState. For a retryable write, we should only include the txnNumber.
BSONObjBuilder reportBuilder;
BSONObjBuilder transactionBuilder(reportBuilder.subobjStart("transaction"));
BSONObjBuilder parametersBuilder(transactionBuilder.subobjStart("parameters"));
parametersBuilder.append("txnNumber", *opCtx()->getTxnNumber());
parametersBuilder.done();
transactionBuilder.done();
// Verify that the Session's report of its own unstashed state aligns with our expectations.
BSONObjBuilder unstashedStateBuilder;
txnParticipant.reportUnstashedState(opCtx(), &unstashedStateBuilder);
ASSERT_BSONOBJ_EQ(unstashedStateBuilder.obj(), reportBuilder.obj());
}
namespace {
/*
* Constructs a ClientMetadata BSONObj with the given application name.
*/
BSONObj constructClientMetadata(StringData appName) {
BSONObjBuilder builder;
ASSERT_OK(ClientMetadata::serializePrivate("driverName",
"driverVersion",
"osType",
"osName",
"osArchitecture",
"osVersion",
appName,
&builder));
return builder.obj();
}
} // namespace
TEST_F(TransactionsMetricsTest, LastClientInfoShouldUpdateUponStash) {
// Create a ClientMetadata object and set it on ClientMetadataIsMasterState.
auto obj = constructClientMetadata("appName");
auto clientMetadata = ClientMetadata::parse(obj["client"]);
auto& clientMetadataIsMasterState = ClientMetadataIsMasterState::get(opCtx()->getClient());
clientMetadataIsMasterState.setClientMetadata(opCtx()->getClient(),
std::move(clientMetadata.getValue()));
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
// LastClientInfo should have been set.
auto lastClientInfo = txnParticipant.getSingleTransactionStatsForTest().getLastClientInfo();
ASSERT_EQ(lastClientInfo.clientHostAndPort, "");
ASSERT_EQ(lastClientInfo.connectionId, 0);
ASSERT_EQ(lastClientInfo.appName, "appName");
ASSERT_BSONOBJ_EQ(lastClientInfo.clientMetadata, obj.getField("client").Obj());
// Create another ClientMetadata object.
auto newObj = constructClientMetadata("newAppName");
auto newClientMetadata = ClientMetadata::parse(newObj["client"]);
clientMetadataIsMasterState.setClientMetadata(opCtx()->getClient(),
std::move(newClientMetadata.getValue()));
txnParticipant.unstashTransactionResources(opCtx(), "insert");
txnParticipant.stashTransactionResources(opCtx());
// LastClientInfo's clientMetadata should have been updated to the new ClientMetadata object.
lastClientInfo = txnParticipant.getSingleTransactionStatsForTest().getLastClientInfo();
ASSERT_EQ(lastClientInfo.appName, "newAppName");
ASSERT_BSONOBJ_EQ(lastClientInfo.clientMetadata, newObj.getField("client").Obj());
}
TEST_F(TransactionsMetricsTest, LastClientInfoShouldUpdateUponCommit) {
// Create a ClientMetadata object and set it on ClientMetadataIsMasterState.
auto obj = constructClientMetadata("appName");
auto clientMetadata = ClientMetadata::parse(obj["client"]);
auto& clientMetadataIsMasterState = ClientMetadataIsMasterState::get(opCtx()->getClient());
clientMetadataIsMasterState.setClientMetadata(opCtx()->getClient(),
std::move(clientMetadata.getValue()));
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
// The transaction machinery cannot store an empty locker.
Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow);
txnParticipant.commitUnpreparedTransaction(opCtx());
// LastClientInfo should have been set.
auto lastClientInfo = txnParticipant.getSingleTransactionStatsForTest().getLastClientInfo();
ASSERT_EQ(lastClientInfo.clientHostAndPort, "");
ASSERT_EQ(lastClientInfo.connectionId, 0);
ASSERT_EQ(lastClientInfo.appName, "appName");
ASSERT_BSONOBJ_EQ(lastClientInfo.clientMetadata, obj.getField("client").Obj());
}
TEST_F(TransactionsMetricsTest, LastClientInfoShouldUpdateUponAbort) {
// Create a ClientMetadata object and set it on ClientMetadataIsMasterState.
auto obj = constructClientMetadata("appName");
auto clientMetadata = ClientMetadata::parse(obj["client"]);
auto& clientMetadataIsMasterState = ClientMetadataIsMasterState::get(opCtx()->getClient());
clientMetadataIsMasterState.setClientMetadata(opCtx()->getClient(),
std::move(clientMetadata.getValue()));
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
txnParticipant.abortActiveTransaction(opCtx());
// LastClientInfo should have been set.
auto lastClientInfo = txnParticipant.getSingleTransactionStatsForTest().getLastClientInfo();
ASSERT_EQ(lastClientInfo.clientHostAndPort, "");
ASSERT_EQ(lastClientInfo.connectionId, 0);
ASSERT_EQ(lastClientInfo.appName, "appName");
ASSERT_BSONOBJ_EQ(lastClientInfo.clientMetadata, obj.getField("client").Obj());
}
/*
* Sets up the additive metrics for Transactions Metrics test.
*/
void setupAdditiveMetrics(const int metricValue, OperationContext* opCtx) {
CurOp::get(opCtx)->debug().additiveMetrics.keysExamined = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.docsExamined = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.nMatched = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.nModified = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.ninserted = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.ndeleted = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.keysInserted = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.keysDeleted = metricValue;
CurOp::get(opCtx)->debug().additiveMetrics.prepareReadConflicts.store(metricValue);
CurOp::get(opCtx)->debug().additiveMetrics.writeConflicts.store(metricValue);
}
/*
* Builds expected parameters info string.
*/
void buildParametersInfoString(StringBuilder* sb,
LogicalSessionId sessionId,
const TxnNumber txnNum,
const repl::ReadConcernArgs readConcernArgs,
bool autocommitVal) {
BSONObjBuilder lsidBuilder;
sessionId.serialize(&lsidBuilder);
auto autocommitString = autocommitVal ? "true" : "false";
(*sb) << "parameters:{ lsid: " << lsidBuilder.done().toString() << ", txnNumber: " << txnNum
<< ", autocommit: " << autocommitString
<< ", readConcern: " << readConcernArgs.toBSON().getObjectField("readConcern") << " },";
}
/*
* Builds expected single transaction stats info string.
*/
void buildSingleTransactionStatsString(StringBuilder* sb, const int metricValue) {
(*sb) << " keysExamined:" << metricValue << " docsExamined:" << metricValue
<< " nMatched:" << metricValue << " nModified:" << metricValue
<< " ninserted:" << metricValue << " ndeleted:" << metricValue
<< " keysInserted:" << metricValue << " keysDeleted:" << metricValue
<< " prepareReadConflicts:" << metricValue << " writeConflicts:" << metricValue;
}
/*
* Builds the time active and time inactive info string.
*/
void buildTimeActiveInactiveString(StringBuilder* sb,
TransactionParticipant::Participant txnParticipant,
TickSource* tickSource,
TickSource::Tick curTick) {
// Add time active micros to string.
(*sb) << " timeActiveMicros:"
<< durationCount<Microseconds>(
txnParticipant.getSingleTransactionStatsForTest().getTimeActiveMicros(tickSource,
curTick));
// Add time inactive micros to string.
(*sb) << " timeInactiveMicros:"
<< durationCount<Microseconds>(
txnParticipant.getSingleTransactionStatsForTest().getTimeInactiveMicros(tickSource,
curTick));
}
/*
* Builds the total prepared duration info string.
*/
void buildPreparedDurationString(StringBuilder* sb,
TransactionParticipant::Participant txnParticipant,
TickSource* tickSource,
TickSource::Tick curTick) {
(*sb) << " totalPreparedDurationMicros:"
<< durationCount<Microseconds>(
txnParticipant.getSingleTransactionStatsForTest().getPreparedDuration(tickSource,
curTick));
}
/*
* Builds the entire expected transaction info string and returns it.
*/
std::string buildTransactionInfoString(OperationContext* opCtx,
TransactionParticipant::Participant txnParticipant,
std::string terminationCause,
const LogicalSessionId sessionId,
const TxnNumber txnNum,
const int metricValue,
const bool wasPrepared,
bool autocommitVal = false,
boost::optional<repl::OpTime> prepareOpTime = boost::none) {
// Calling transactionInfoForLog to get the actual transaction info string.
const auto lockerInfo =
opCtx->lockState()->getLockerInfo(CurOp::get(*opCtx)->getLockStatsBase());
// Building expected transaction info string.
StringBuilder parametersInfo;
// autocommit must be false for a multi statement transaction, so
// getTransactionInfoForLogForTest should theoretically always print false. In certain unit
// tests, we compare its output to the output generated in this function.
//
// Since we clear the state of a transaction on abort, if getTransactionInfoForLogForTest is
// called after a transaction is already aborted, it will encounter boost::none for the
// autocommit value. In that case, it will print out true.
//
// In cases where we call getTransactionInfoForLogForTest after aborting a transaction
// and check if the output matches this function's output, we must explicitly set autocommitVal
// to true.
buildParametersInfoString(
¶metersInfo, sessionId, txnNum, repl::ReadConcernArgs::get(opCtx), autocommitVal);
StringBuilder readTimestampInfo;
readTimestampInfo
<< " readTimestamp:"
<< txnParticipant.getSpeculativeTransactionReadOpTimeForTest().getTimestamp().toString()
<< ",";
StringBuilder singleTransactionStatsInfo;
buildSingleTransactionStatsString(&singleTransactionStatsInfo, metricValue);
auto tickSource = opCtx->getServiceContext()->getTickSource();
StringBuilder timeActiveAndInactiveInfo;
buildTimeActiveInactiveString(
&timeActiveAndInactiveInfo, txnParticipant, tickSource, tickSource->getTicks());
BSONObjBuilder locks;
if (lockerInfo) {
lockerInfo->stats.report(&locks);
}
// Puts all the substrings together into one expected info string. The expected info string will
// look something like this:
// parameters:{ lsid: { id: UUID("f825288c-100e-49a1-9fd7-b95c108049e6"), uid: BinData(0,
// E3B0C44298FC1C149AFBF4C8996FB92427AE41E4649B934CA495991B7852B855) }, txnNumber: 1,
// autocommit: false }, readTimestamp:Timestamp(0, 0), keysExamined:1 docsExamined:1 nMatched:1
// nModified:1 ninserted:1 ndeleted:1 keysInserted:1 keysDeleted:1
// prepareReadConflicts:1 writeConflicts:1 terminationCause:committed timeActiveMicros:3
// timeInactiveMicros:2 numYields:0 locks:{ Global: { acquireCount: { r: 6, w: 4 } }, Database:
// { acquireCount: { r: 1, w: 1, W: 2 } }, Collection: { acquireCount: { R: 1 } }, oplog: {
// acquireCount: { W: 1 } } } wasPrepared:1 totalPreparedDurationMicros:10
// prepareOpTime:<OpTime> 0ms
StringBuilder expectedTransactionInfo;
expectedTransactionInfo << parametersInfo.str() << readTimestampInfo.str()
<< singleTransactionStatsInfo.str()
<< " terminationCause:" << terminationCause
<< timeActiveAndInactiveInfo.str() << " numYields:" << 0
<< " locks:" << locks.done().toString()
<< " wasPrepared:" << wasPrepared;
if (wasPrepared) {
StringBuilder totalPreparedDuration;
buildPreparedDurationString(
&totalPreparedDuration, txnParticipant, tickSource, tickSource->getTicks());
expectedTransactionInfo << totalPreparedDuration.str();
expectedTransactionInfo << " prepareOpTime:"
<< (prepareOpTime ? prepareOpTime->toString()
: txnParticipant.getPrepareOpTime().toString());
}
expectedTransactionInfo << ", "
<< duration_cast<Milliseconds>(
txnParticipant.getSingleTransactionStatsForTest().getDuration(
tickSource, tickSource->getTicks()));
return expectedTransactionInfo.str();
}
TEST_F(TransactionsMetricsTest, TestTransactionInfoForLogAfterCommit) {
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
txnParticipant.commitUnpreparedTransaction(opCtx());
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string testTransactionInfo = txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, true, readConcernArgs);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"committed",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
false);
ASSERT_EQ(testTransactionInfo, expectedTransactionInfo);
}
TEST_F(TransactionsMetricsTest, TestPreparedTransactionInfoForLogAfterCommit) {
auto tickSource = initMockTickSource();
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Prepare the transaction and extend the duration in the prepared state.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(10));
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string testTransactionInfo = txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, true, readConcernArgs);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"committed",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
true);
ASSERT_EQ(testTransactionInfo, expectedTransactionInfo);
}
TEST_F(TransactionsMetricsTest, TestTransactionInfoForLogAfterAbort) {
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.abortActiveTransaction(opCtx());
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string testTransactionInfo = txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, false, readConcernArgs);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"aborted",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
false,
true);
ASSERT_EQ(testTransactionInfo, expectedTransactionInfo);
}
TEST_F(TransactionsMetricsTest, TestPreparedTransactionInfoForLogAfterAbort) {
auto tickSource = initMockTickSource();
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
// Prepare the transaction and extend the duration in the prepared state.
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
tickSource->advance(Microseconds(10));
txnParticipant.abortActiveTransaction(opCtx());
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string testTransactionInfo = txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, false, readConcernArgs);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"aborted",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
true,
true);
ASSERT_EQ(testTransactionInfo, expectedTransactionInfo);
}
DEATH_TEST_F(TransactionsMetricsTest, TestTransactionInfoForLogWithNoLockerInfoStats, "invariant") {
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
txnParticipant.commitUnpreparedTransaction(opCtx());
txnParticipant.getTransactionInfoForLogForTest(opCtx(), nullptr, true, readConcernArgs);
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoAfterSlowCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
startCapturingLogMessages();
txnParticipant.commitUnpreparedTransaction(opCtx());
stopCapturingLogMessages();
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string expectedTransactionInfo = "transaction " +
txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, true, readConcernArgs);
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogPreparedTransactionInfoAfterSlowCommit) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
startCapturingLogMessages();
txnParticipant.commitPreparedTransaction(opCtx(), prepareTimestamp, {});
stopCapturingLogMessages();
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string expectedTransactionInfo = "transaction " +
txnParticipant.getTransactionInfoForLogForTest(
opCtx(), &lockerInfo->stats, true, readConcernArgs);
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoAfterSlowAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
startCapturingLogMessages();
txnParticipant.abortActiveTransaction(opCtx());
stopCapturingLogMessages();
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"aborted",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
false);
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogPreparedTransactionInfoAfterSlowAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.prepareTransaction(opCtx(), {});
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
auto prepareOpTime = txnParticipant.getPrepareOpTime();
startCapturingLogMessages();
txnParticipant.abortActiveTransaction(opCtx());
stopCapturingLogMessages();
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"aborted",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
true,
false,
prepareOpTime);
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoAfterExceptionInPrepare) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "prepareTransaction");
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
_opObserver->onTransactionPrepareThrowsException = true;
startCapturingLogMessages();
ASSERT_THROWS_CODE(txnParticipant.prepareTransaction(opCtx(), {}),
AssertionException,
ErrorCodes::OperationFailed);
ASSERT_FALSE(_opObserver->transactionPrepared);
ASSERT(txnParticipant.transactionIsAborted());
stopCapturingLogMessages();
const auto lockerInfo = opCtx()->lockState()->getLockerInfo(boost::none);
ASSERT(lockerInfo);
std::string expectedTransactionInfo =
buildTransactionInfoString(opCtx(),
txnParticipant,
"aborted",
*opCtx()->getLogicalSessionId(),
*opCtx()->getTxnNumber(),
metricValue,
false);
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoAfterSlowStashedAbort) {
auto tickSource = initMockTickSource();
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Initialize SingleTransactionStats AdditiveMetrics objects.
const int metricValue = 1;
setupAdditiveMetrics(metricValue, opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
{ Lock::GlobalLock lk(opCtx(), MODE_IX, Date_t::now(), Lock::InterruptBehavior::kThrow); }
txnParticipant.stashTransactionResources(opCtx());
const auto txnResourceStashLocker = txnParticipant.getTxnResourceStashLockerForTest();
ASSERT(txnResourceStashLocker);
const auto lockerInfo = txnResourceStashLocker->getLockerInfo(boost::none);
serverGlobalParams.slowMS = 10;
tickSource->advance(Microseconds(11 * 1000));
startCapturingLogMessages();
txnParticipant.abortTransactionIfNotPrepared(opCtx());
stopCapturingLogMessages();
std::string expectedTransactionInfo = "transaction parameters";
ASSERT_EQUALS(1, countLogLinesContaining(expectedTransactionInfo));
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoVerbosityInfo) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Set a high slow operation threshold to avoid the transaction being logged as slow.
serverGlobalParams.slowMS = 10000;
// Set verbosity level of transaction components to info.
logger::globalLogDomain()->setMinimumLoggedSeverity(logger::LogComponent::kTransaction,
logger::LogSeverity::Info());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
startCapturingLogMessages();
txnParticipant.commitUnpreparedTransaction(opCtx());
stopCapturingLogMessages();
// Test that the transaction is not logged.
ASSERT_EQUALS(0, countLogLinesContaining("transaction parameters"));
}
TEST_F(TransactionsMetricsTest, LogTransactionInfoVerbosityDebug) {
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Set a high slow operation threshold to avoid the transaction being logged as slow.
serverGlobalParams.slowMS = 10000;
// Set verbosity level of transaction components to debug.
logger::globalLogDomain()->setMinimumLoggedSeverity(logger::LogComponent::kTransaction,
logger::LogSeverity::Debug(1));
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
startCapturingLogMessages();
txnParticipant.commitUnpreparedTransaction(opCtx());
stopCapturingLogMessages();
// Reset verbosity level of transaction components.
logger::globalLogDomain()->setMinimumLoggedSeverity(logger::LogComponent::kTransaction,
logger::LogSeverity::Info());
// Test that the transaction is still logged.
ASSERT_EQUALS(1, countLogLinesContaining("transaction parameters"));
}
TEST_F(TxnParticipantTest, RollbackResetsInMemoryStateOfPreparedTransaction) {
auto sessionCheckout = checkOutSession();
repl::ReadConcernArgs readConcernArgs;
ASSERT_OK(readConcernArgs.initialize(BSON("find"
<< "test"
<< repl::ReadConcernArgs::kReadConcernFieldName
<< BSON(repl::ReadConcernArgs::kLevelFieldName
<< "snapshot"))));
repl::ReadConcernArgs::get(opCtx()) = readConcernArgs;
auto txnParticipant = TransactionParticipant::get(opCtx());
// Perform an insert as a part of a transaction so that we have a transaction operation.
txnParticipant.unstashTransactionResources(opCtx(), "insert");
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_BSONOBJ_EQ(operation.toBSON(),
txnParticipant.getTransactionOperationsForTest()[0].toBSON());
auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), {});
ASSERT_FALSE(txnParticipant.transactionIsAborted());
// Make sure the state of txnParticipant is populated correctly after a prepared transaction.
ASSERT(txnParticipant.transactionIsPrepared());
ASSERT_EQ(txnParticipant.getTransactionOperationsForTest().size(), 1U);
ASSERT_EQ(txnParticipant.getPrepareOpTime().getTimestamp(), prepareTimestamp);
ASSERT_NE(txnParticipant.getActiveTxnNumber(), kUninitializedTxnNumber);
txnParticipant.abortPreparedTransactionForRollback(opCtx());
// After calling abortPreparedTransactionForRollback, the state of txnParticipant should be
// invalidated.
ASSERT_FALSE(txnParticipant.transactionIsPrepared());
ASSERT_EQ(txnParticipant.getTransactionOperationsForTest().size(), 0U);
ASSERT_EQ(txnParticipant.getPrepareOpTime().getTimestamp(), Timestamp());
ASSERT_EQ(txnParticipant.getActiveTxnNumber(), kUninitializedTxnNumber);
}
TEST_F(TxnParticipantTest, PrepareTransactionAsSecondarySetsThePrepareOpTime) {
const auto prepareOpTime = repl::OpTime({3, 2}, 0);
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), prepareOpTime);
ASSERT(txnParticipant.transactionIsPrepared());
ASSERT_EQ(prepareTimestamp, prepareOpTime.getTimestamp());
ASSERT_EQ(txnParticipant.getPrepareOpTime(), prepareOpTime);
// If _prepareOptime was not set and was null, then commitPreparedTransaction would falsely
// succeed everytime. We set the commitTimestamp to be less than the prepareTimestamp to make
// sure this is not the case.
const auto commitTimestamp =
Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() - 1);
ASSERT_THROWS_CODE(txnParticipant.commitPreparedTransaction(opCtx(), commitTimestamp, {}),
AssertionException,
ErrorCodes::InvalidOptions);
}
TEST_F(TxnParticipantTest, CommitPreparedTransactionAsSecondarySetsTheFinishOpTime) {
const auto prepareOpTime = repl::OpTime({3, 2}, 0);
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Simulate committing a prepared transaction on a secondary.
repl::UnreplicatedWritesBlock uwb(opCtx());
ASSERT(!opCtx()->writesAreReplicated());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), prepareOpTime);
ASSERT(txnParticipant.transactionIsPrepared());
ASSERT_EQ(prepareTimestamp, prepareOpTime.getTimestamp());
ASSERT_EQ(txnParticipant.getPrepareOpTime(), prepareOpTime);
const auto commitTimestamp =
Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
const auto commitOplogEntryOpTime = repl::OpTime({10, 10}, 0);
txnParticipant.commitPreparedTransaction(opCtx(), commitTimestamp, commitOplogEntryOpTime);
ASSERT_TRUE(txnParticipant.transactionIsCommitted());
}
DEATH_TEST_F(TxnParticipantTest,
CommitPreparedTransactionAsSecondaryWithNullCommitOplogEntryOpTimeShouldFail,
"invariant") {
const auto prepareOpTime = repl::OpTime({3, 2}, 0);
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
// Simulate committing a prepared transaction on a secondary.
repl::UnreplicatedWritesBlock uwb(opCtx());
ASSERT(!opCtx()->writesAreReplicated());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), prepareOpTime);
ASSERT(txnParticipant.transactionIsPrepared());
ASSERT_EQ(prepareTimestamp, prepareOpTime.getTimestamp());
ASSERT_EQ(txnParticipant.getPrepareOpTime(), prepareOpTime);
const auto commitTimestamp =
Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
txnParticipant.commitPreparedTransaction(opCtx(), commitTimestamp, {});
}
DEATH_TEST_F(TxnParticipantTest,
CommitPreparedTransactionAsPrimaryWithNonNullCommitOplogEntryOpTimeShouldFail,
"invariant") {
const auto prepareOpTime = repl::OpTime({3, 2}, 0);
auto sessionCheckout = checkOutSession();
auto txnParticipant = TransactionParticipant::get(opCtx());
txnParticipant.unstashTransactionResources(opCtx(), "commitTransaction");
const auto prepareTimestamp = txnParticipant.prepareTransaction(opCtx(), prepareOpTime);
ASSERT(txnParticipant.transactionIsPrepared());
ASSERT_EQ(prepareTimestamp, prepareOpTime.getTimestamp());
ASSERT_EQ(txnParticipant.getPrepareOpTime(), prepareOpTime);
const auto commitTimestamp =
Timestamp(prepareTimestamp.getSecs(), prepareTimestamp.getInc() + 1);
const auto commitOplogEntryOpTime = repl::OpTime({10, 10}, 0);
txnParticipant.commitPreparedTransaction(opCtx(), commitTimestamp, commitOplogEntryOpTime);
}
TEST_F(TxnParticipantTest, AbortTransactionOnSessionCheckoutWithoutRefresh) {
// This test is intended to mimic the behavior in applyAbortTransaction from
// transaction_oplog_application.cpp. This is to ensure that when secondaries see an abort oplog
// entry for a non-existent transaction, the state of the transaction is set to aborted.
// Simulate aborting a transaction on a secondary.
repl::UnreplicatedWritesBlock uwb(opCtx());
ASSERT(!opCtx()->writesAreReplicated());
const auto txnNumber = *opCtx()->getTxnNumber();
// MongoDOperationContextSessionWithoutRefresh will begin a new transaction with txnNumber
// unconditionally since the participant's _activeTxnNumber is kUninitializedTxnNumber at time
// of session checkout.
MongoDOperationContextSessionWithoutRefresh sessionCheckout(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT(txnParticipant.inMultiDocumentTransaction());
ASSERT_EQ(txnParticipant.getActiveTxnNumber(), txnNumber);
txnParticipant.unstashTransactionResources(opCtx(), "abortTransaction");
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_TRUE(txnParticipant.transactionIsAborted());
}
TEST_F(TxnParticipantTest, ResponseMetadataHasHasReadOnlyFalseIfNothingInProgress) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
}
TEST_F(TxnParticipantTest, ResponseMetadataHasReadOnlyFalseIfInRetryableWrite) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
// Start a retryable write.
txnParticipant.beginOrContinue(opCtx(),
*opCtx()->getTxnNumber(),
boost::none /* autocommit */,
boost::none /* startTransaction */);
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
}
TEST_F(TxnParticipantTest, ResponseMetadataHasReadOnlyTrueIfInProgressAndOperationsVectorEmpty) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
// Start a transaction.
txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), false /* autocommit */, true /* startTransaction */);
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
}
TEST_F(TxnParticipantTest,
ResponseMetadataHasReadOnlyFalseIfInProgressAndOperationsVectorNotEmpty) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
// Start a transaction.
txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), false /* autocommit */, true /* startTransaction */);
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
txnParticipant.unstashTransactionResources(opCtx(), "insert");
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
// Simulate an insert.
auto operation = repl::OplogEntry::makeInsertOperation(kNss, _uuid, BSON("TestValue" << 0));
txnParticipant.addTransactionOperation(opCtx(), operation);
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
}
TEST_F(TxnParticipantTest, ResponseMetadataHasReadOnlyFalseIfAborted) {
MongoDOperationContextSession opCtxSession(opCtx());
auto txnParticipant = TransactionParticipant::get(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
// Start a transaction.
txnParticipant.beginOrContinue(
opCtx(), *opCtx()->getTxnNumber(), false /* autocommit */, true /* startTransaction */);
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
txnParticipant.unstashTransactionResources(opCtx(), "find");
ASSERT_TRUE(txnParticipant.getResponseMetadata().getReadOnly());
txnParticipant.abortActiveTransaction(opCtx());
ASSERT_FALSE(txnParticipant.getResponseMetadata().getReadOnly());
}
TEST_F(TxnParticipantTest, OldestActiveTransactionTimestamp) {
auto nss = NamespaceString::kSessionTransactionsTableNamespace;
auto insertTxnRecord = [&](unsigned i) {
Timestamp ts(1, i);
SessionTxnRecord record;
record.setStartOpTime(repl::OpTime(ts, 0));
record.setState(DurableTxnStateEnum::kPrepared);
record.setSessionId(makeLogicalSessionIdForTest());
record.setTxnNum(1);
record.setLastWriteOpTime(repl::OpTime(ts, 0));
record.setLastWriteDate(Date_t::now());
AutoGetOrCreateDb autoDb(opCtx(), nss.db(), MODE_X);
WriteUnitOfWork wuow(opCtx());
auto coll = autoDb.getDb()->getCollection(opCtx(), nss.ns());
ASSERT(coll);
OpDebug* const nullOpDebug = nullptr;
ASSERT_OK(
coll->insertDocument(opCtx(), InsertStatement(record.toBSON()), nullOpDebug, false));
wuow.commit();
};
auto deleteTxnRecord = [&](unsigned i) {
Timestamp ts(1, i);
AutoGetOrCreateDb autoDb(opCtx(), nss.db(), MODE_X);
WriteUnitOfWork wuow(opCtx());
auto coll = autoDb.getDb()->getCollection(opCtx(), nss.ns());
ASSERT(coll);
auto cursor = coll->getCursor(opCtx());
while (auto record = cursor->next()) {
auto bson = record.get().data.toBson();
if (bson["state"].String() != "prepared"_sd) {
continue;
}
if (bson["startOpTime"]["ts"].timestamp() == ts) {
coll->deleteDocument(opCtx(), kUninitializedStmtId, record->id, nullptr);
wuow.commit();
return;
}
}
FAIL(str::stream() << "No prepared transaction with start timestamp (1, " << i << ")");
};
auto oldestActiveTransactionTS = [&]() {
return TransactionParticipant::getOldestActiveTimestamp(Timestamp()).getValue();
};
auto assertOldestActiveTS = [&](boost::optional<unsigned> i) {
if (i.has_value()) {
ASSERT_EQ(Timestamp(1, i.value()), oldestActiveTransactionTS());
} else {
ASSERT_EQ(boost::none, oldestActiveTransactionTS());
}
};
assertOldestActiveTS(boost::none);
insertTxnRecord(1);
assertOldestActiveTS(1);
insertTxnRecord(2);
assertOldestActiveTS(1);
deleteTxnRecord(1);
assertOldestActiveTS(2);
deleteTxnRecord(2);
assertOldestActiveTS(boost::none);
// Add a newer transaction, then an older one, to test that order doesn't matter.
insertTxnRecord(4);
insertTxnRecord(3);
assertOldestActiveTS(3);
deleteTxnRecord(4);
assertOldestActiveTS(3);
deleteTxnRecord(3);
assertOldestActiveTS(boost::none);
};
TEST_F(TxnParticipantTest, OldestActiveTransactionTimestampTimeout) {
// Block getOldestActiveTimestamp() by locking the config database.
auto nss = NamespaceString::kSessionTransactionsTableNamespace;
AutoGetOrCreateDb autoDb(opCtx(), nss.db(), MODE_X);
auto statusWith = TransactionParticipant::getOldestActiveTimestamp(Timestamp());
ASSERT_FALSE(statusWith.isOK());
ASSERT_TRUE(ErrorCodes::isInterruption(statusWith.getStatus().code()));
};
} // namespace
} // namespace mongo
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