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/**
* Copyright (C) 2017 MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* 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
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* 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 GNU Affero General 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.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kStorage
#include "mongo/platform/basic.h"
#include "mongo/db/session.h"
#include "mongo/db/catalog/index_catalog.h"
#include "mongo/db/concurrency/lock_state.h"
#include "mongo/db/concurrency/locker.h"
#include "mongo/db/concurrency/write_conflict_exception.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/dbdirectclient.h"
#include "mongo/db/index/index_access_method.h"
#include "mongo/db/namespace_string.h"
#include "mongo/db/operation_context.h"
#include "mongo/db/ops/update.h"
#include "mongo/db/query/get_executor.h"
#include "mongo/db/retryable_writes_stats.h"
#include "mongo/db/transaction_history_iterator.h"
#include "mongo/stdx/memory.h"
#include "mongo/transport/transport_layer.h"
#include "mongo/util/fail_point_service.h"
#include "mongo/util/log.h"
#include "mongo/util/mongoutils/str.h"
namespace mongo {
namespace {
void fassertOnRepeatedExecution(const LogicalSessionId& lsid,
TxnNumber txnNumber,
StmtId stmtId,
const repl::OpTime& firstOpTime,
const repl::OpTime& secondOpTime) {
severe() << "Statement id " << stmtId << " from transaction [ " << lsid.toBSON() << ":"
<< txnNumber << " ] was committed once with opTime " << firstOpTime
<< " and a second time with opTime " << secondOpTime
<< ". This indicates possible data corruption or server bug and the process will be "
"terminated.";
fassertFailed(40526);
}
struct ActiveTransactionHistory {
boost::optional<SessionTxnRecord> lastTxnRecord;
Session::CommittedStatementTimestampMap committedStatements;
bool transactionCommitted{false};
bool hasIncompleteHistory{false};
};
ActiveTransactionHistory fetchActiveTransactionHistory(OperationContext* opCtx,
const LogicalSessionId& lsid) {
ActiveTransactionHistory result;
result.lastTxnRecord = [&]() -> boost::optional<SessionTxnRecord> {
DBDirectClient client(opCtx);
auto result =
client.findOne(NamespaceString::kSessionTransactionsTableNamespace.ns(),
{BSON(SessionTxnRecord::kSessionIdFieldName << lsid.toBSON())});
if (result.isEmpty()) {
return boost::none;
}
return SessionTxnRecord::parse(IDLParserErrorContext("parse latest txn record for session"),
result);
}();
if (!result.lastTxnRecord) {
return result;
}
auto it = TransactionHistoryIterator(result.lastTxnRecord->getLastWriteOpTime());
while (it.hasNext()) {
try {
const auto entry = it.next(opCtx);
invariant(entry.getStatementId());
if (*entry.getStatementId() == kIncompleteHistoryStmtId) {
// Only the dead end sentinel can have this id for oplog write history
invariant(entry.getObject2());
invariant(entry.getObject2()->woCompare(Session::kDeadEndSentinel) == 0);
result.hasIncompleteHistory = true;
continue;
}
const auto insertRes =
result.committedStatements.emplace(*entry.getStatementId(), entry.getOpTime());
if (!insertRes.second) {
const auto& existingOpTime = insertRes.first->second;
fassertOnRepeatedExecution(lsid,
result.lastTxnRecord->getTxnNum(),
*entry.getStatementId(),
existingOpTime,
entry.getOpTime());
}
// applyOps oplog entry marks the commit of a transaction.
if (entry.isCommand() &&
entry.getCommandType() == repl::OplogEntry::CommandType::kApplyOps) {
result.transactionCommitted = true;
}
} catch (const DBException& ex) {
if (ex.code() == ErrorCodes::IncompleteTransactionHistory) {
result.hasIncompleteHistory = true;
break;
}
throw;
}
}
return result;
}
void updateSessionEntry(OperationContext* opCtx, const UpdateRequest& updateRequest) {
// Current code only supports replacement update.
dassert(UpdateDriver::isDocReplacement(updateRequest.getUpdates()));
AutoGetCollection autoColl(opCtx, NamespaceString::kSessionTransactionsTableNamespace, MODE_IX);
uassert(40527,
str::stream() << "Unable to persist transaction state because the session transaction "
"collection is missing. This indicates that the "
<< NamespaceString::kSessionTransactionsTableNamespace.ns()
<< " collection has been manually deleted.",
autoColl.getCollection());
WriteUnitOfWork wuow(opCtx);
auto collection = autoColl.getCollection();
auto idIndex = collection->getIndexCatalog()->findIdIndex(opCtx);
uassert(40672,
str::stream() << "Failed to fetch _id index for "
<< NamespaceString::kSessionTransactionsTableNamespace.ns(),
idIndex);
auto indexAccess = collection->getIndexCatalog()->getIndex(idIndex);
// Since we are looking up a key inside the _id index, create a key object consisting of only
// the _id field.
auto idToFetch = updateRequest.getQuery().firstElement();
auto toUpdateIdDoc = idToFetch.wrap();
dassert(idToFetch.fieldNameStringData() == "_id"_sd);
auto recordId = indexAccess->findSingle(opCtx, toUpdateIdDoc);
auto startingSnapshotId = opCtx->recoveryUnit()->getSnapshotId();
if (recordId.isNull()) {
// Upsert case.
auto status = collection->insertDocument(
opCtx, InsertStatement(updateRequest.getUpdates()), nullptr, false);
if (status == ErrorCodes::DuplicateKey) {
throw WriteConflictException();
}
uassertStatusOK(status);
wuow.commit();
return;
}
auto originalRecordData = collection->getRecordStore()->dataFor(opCtx, recordId);
auto originalDoc = originalRecordData.toBson();
invariant(collection->getDefaultCollator() == nullptr);
boost::intrusive_ptr<ExpressionContext> expCtx(new ExpressionContext(opCtx, nullptr));
auto matcher =
fassert(40673, MatchExpressionParser::parse(updateRequest.getQuery(), std::move(expCtx)));
if (!matcher->matchesBSON(originalDoc)) {
// Document no longer match what we expect so throw WCE to make the caller re-examine.
throw WriteConflictException();
}
OplogUpdateEntryArgs args;
args.nss = NamespaceString::kSessionTransactionsTableNamespace;
args.uuid = collection->uuid();
args.update = updateRequest.getUpdates();
args.criteria = toUpdateIdDoc;
args.fromMigrate = false;
collection->updateDocument(opCtx,
recordId,
Snapshotted<BSONObj>(startingSnapshotId, originalDoc),
updateRequest.getUpdates(),
false, // indexesAffected = false because _id is the only index
nullptr,
&args);
wuow.commit();
}
// Failpoint which allows different failure actions to happen after each write. Supports the
// parameters below, which can be combined with each other (unless explicitly disallowed):
//
// closeConnection (bool, default = true): Closes the connection on which the write was executed.
// failBeforeCommitExceptionCode (int, default = not specified): If set, the specified exception
// code will be thrown, which will cause the write to not commit; if not specified, the write
// will be allowed to commit.
MONGO_FAIL_POINT_DEFINE(onPrimaryTransactionalWrite);
} // namespace
const BSONObj Session::kDeadEndSentinel(BSON("$incompleteOplogHistory" << 1));
Session::Session(LogicalSessionId sessionId) : _sessionId(std::move(sessionId)) {}
void Session::refreshFromStorageIfNeeded(OperationContext* opCtx) {
if (opCtx->getClient()->isInDirectClient()) {
return;
}
invariant(!opCtx->lockState()->isLocked());
invariant(repl::ReadConcernArgs::get(opCtx).getLevel() ==
repl::ReadConcernLevel::kLocalReadConcern);
stdx::unique_lock<stdx::mutex> ul(_mutex);
while (!_isValid) {
const int numInvalidations = _numInvalidations;
ul.unlock();
auto activeTxnHistory = fetchActiveTransactionHistory(opCtx, _sessionId);
ul.lock();
// Protect against concurrent refreshes or invalidations
if (!_isValid && _numInvalidations == numInvalidations) {
_isValid = true;
_lastWrittenSessionRecord = std::move(activeTxnHistory.lastTxnRecord);
if (_lastWrittenSessionRecord) {
if (!_lastRefreshState) {
_lastRefreshState.emplace();
}
_lastRefreshState->refreshCount++;
_activeTxnNumber = _lastWrittenSessionRecord->getTxnNum();
_lastRefreshState->txnNumber = _activeTxnNumber;
_activeTxnCommittedStatements = std::move(activeTxnHistory.committedStatements);
_hasIncompleteHistory = activeTxnHistory.hasIncompleteHistory;
_lastRefreshState->isCommitted = activeTxnHistory.transactionCommitted;
}
break;
}
}
}
void Session::beginOrContinueTxn(OperationContext* opCtx, TxnNumber txnNumber) {
stdx::lock_guard<stdx::mutex> lg(_mutex);
_beginOrContinueTxn(lg, txnNumber);
}
void Session::onWriteOpCompletedOnPrimary(OperationContext* opCtx,
TxnNumber txnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteOpTime,
Date_t lastStmtIdWriteDate) {
invariant(opCtx->lockState()->inAWriteUnitOfWork());
stdx::unique_lock<stdx::mutex> ul(_mutex);
// Sanity check that we don't double-execute statements
for (const auto stmtId : stmtIdsWritten) {
const auto stmtOpTime = _checkStatementExecuted(ul, txnNumber, stmtId);
if (stmtOpTime) {
fassertOnRepeatedExecution(
_sessionId, txnNumber, stmtId, *stmtOpTime, lastStmtIdWriteOpTime);
}
}
const auto updateRequest =
_makeUpdateRequest(ul, txnNumber, lastStmtIdWriteOpTime, lastStmtIdWriteDate);
ul.unlock();
repl::UnreplicatedWritesBlock doNotReplicateWrites(opCtx);
updateSessionEntry(opCtx, updateRequest);
_registerUpdateCacheOnCommit(
opCtx, txnNumber, std::move(stmtIdsWritten), lastStmtIdWriteOpTime);
}
bool Session::onMigrateBeginOnPrimary(OperationContext* opCtx, TxnNumber txnNumber, StmtId stmtId) {
beginOrContinueTxn(opCtx, txnNumber);
try {
if (checkStatementExecuted(opCtx, txnNumber, stmtId)) {
return false;
}
} catch (const DBException& ex) {
// If the transaction chain was truncated on the recipient shard, then we
// are most likely copying from a session that hasn't been touched on the
// recipient shard for a very long time but could be recent on the donor.
// We continue copying regardless to get the entire transaction from the donor.
if (ex.code() != ErrorCodes::IncompleteTransactionHistory) {
throw;
}
if (stmtId == kIncompleteHistoryStmtId) {
return false;
}
}
return true;
}
void Session::onMigrateCompletedOnPrimary(OperationContext* opCtx,
TxnNumber txnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteOpTime,
Date_t oplogLastStmtIdWriteDate) {
invariant(opCtx->lockState()->inAWriteUnitOfWork());
stdx::unique_lock<stdx::mutex> ul(_mutex);
_checkValid(ul);
_checkIsActiveTransaction(ul, txnNumber);
// If the transaction has a populated lastWriteDate, we will use that as the most up-to-date
// value. Using the lastWriteDate from the oplog being migrated may move the lastWriteDate
// back. However, in the case that the transaction doesn't have the lastWriteDate populated,
// the oplog's value serves as a best-case fallback.
const auto txnLastStmtIdWriteDate = _getLastWriteDate(ul, txnNumber);
const auto updatedLastStmtIdWriteDate =
txnLastStmtIdWriteDate == Date_t::min() ? oplogLastStmtIdWriteDate : txnLastStmtIdWriteDate;
const auto updateRequest =
_makeUpdateRequest(ul, txnNumber, lastStmtIdWriteOpTime, updatedLastStmtIdWriteDate);
ul.unlock();
repl::UnreplicatedWritesBlock doNotReplicateWrites(opCtx);
updateSessionEntry(opCtx, updateRequest);
_registerUpdateCacheOnCommit(
opCtx, txnNumber, std::move(stmtIdsWritten), lastStmtIdWriteOpTime);
}
void Session::invalidate() {
stdx::lock_guard<stdx::mutex> lg(_mutex);
if (_isTxnNumberLocked) {
invariant(_txnNumberLockConflictStatus);
uasserted(50908,
str::stream() << "cannot invalidate session because txnNumber is locked: "
<< *_txnNumberLockConflictStatus);
}
_isValid = false;
_numInvalidations++;
_lastWrittenSessionRecord.reset();
_activeTxnNumber = kUninitializedTxnNumber;
_activeTxnCommittedStatements.clear();
_hasIncompleteHistory = false;
}
repl::OpTime Session::getLastWriteOpTime(TxnNumber txnNumber) const {
stdx::lock_guard<stdx::mutex> lg(_mutex);
_checkValid(lg);
_checkIsActiveTransaction(lg, txnNumber);
if (!_lastWrittenSessionRecord || _lastWrittenSessionRecord->getTxnNum() != txnNumber)
return {};
return _lastWrittenSessionRecord->getLastWriteOpTime();
}
boost::optional<repl::OplogEntry> Session::checkStatementExecuted(OperationContext* opCtx,
TxnNumber txnNumber,
StmtId stmtId) const {
const auto stmtTimestamp = [&] {
stdx::lock_guard<stdx::mutex> lg(_mutex);
return _checkStatementExecuted(lg, txnNumber, stmtId);
}();
if (!stmtTimestamp)
return boost::none;
TransactionHistoryIterator txnIter(*stmtTimestamp);
while (txnIter.hasNext()) {
const auto entry = txnIter.next(opCtx);
invariant(entry.getStatementId());
if (*entry.getStatementId() == stmtId)
return entry;
}
MONGO_UNREACHABLE;
}
bool Session::checkStatementExecutedNoOplogEntryFetch(TxnNumber txnNumber, StmtId stmtId) const {
stdx::lock_guard<stdx::mutex> lg(_mutex);
return bool(_checkStatementExecuted(lg, txnNumber, stmtId));
}
void Session::_beginOrContinueTxn(WithLock wl, TxnNumber txnNumber) {
// Check whether the session information needs to be refreshed from disk.
_checkValid(wl);
// Check if the given transaction number is valid for this session. The transaction number must
// be >= the active transaction number.
_checkTxnValid(wl, txnNumber);
//
// Continue an active transaction.
//
if (txnNumber == _activeTxnNumber) {
return;
}
invariant(txnNumber > _activeTxnNumber);
_setActiveTxn(wl, txnNumber);
}
void Session::_checkTxnValid(WithLock, TxnNumber txnNumber) const {
uassert(ErrorCodes::TransactionTooOld,
str::stream() << "Cannot start transaction " << txnNumber << " on session "
<< getSessionId()
<< " because a newer transaction "
<< _activeTxnNumber
<< " has already started.",
txnNumber >= _activeTxnNumber);
}
void Session::_setActiveTxn(WithLock wl, TxnNumber txnNumber) {
if (_isTxnNumberLocked) {
invariant(_txnNumberLockConflictStatus);
uassertStatusOK(*_txnNumberLockConflictStatus);
}
_activeTxnNumber = txnNumber;
_activeTxnCommittedStatements.clear();
_hasIncompleteHistory = false;
}
void Session::_checkValid(WithLock) const {
uassert(ErrorCodes::ConflictingOperationInProgress,
str::stream() << "Session " << getSessionId()
<< " was concurrently modified and the operation must be retried.",
_isValid);
}
void Session::_checkIsActiveTransaction(WithLock, TxnNumber txnNumber) const {
uassert(ErrorCodes::ConflictingOperationInProgress,
str::stream() << "Cannot perform operations on transaction " << txnNumber
<< " on session "
<< getSessionId()
<< " because a different transaction "
<< _activeTxnNumber
<< " is now active.",
txnNumber == _activeTxnNumber);
}
boost::optional<repl::OpTime> Session::_checkStatementExecuted(WithLock wl,
TxnNumber txnNumber,
StmtId stmtId) const {
_checkValid(wl);
_checkIsActiveTransaction(wl, txnNumber);
const auto it = _activeTxnCommittedStatements.find(stmtId);
if (it == _activeTxnCommittedStatements.end()) {
uassert(ErrorCodes::IncompleteTransactionHistory,
str::stream() << "Incomplete history detected for transaction " << txnNumber
<< " on session "
<< _sessionId.toBSON(),
!_hasIncompleteHistory);
return boost::none;
}
invariant(_lastWrittenSessionRecord);
invariant(_lastWrittenSessionRecord->getTxnNum() == txnNumber);
return it->second;
}
Date_t Session::_getLastWriteDate(WithLock wl, TxnNumber txnNumber) const {
_checkValid(wl);
_checkIsActiveTransaction(wl, txnNumber);
if (!_lastWrittenSessionRecord || _lastWrittenSessionRecord->getTxnNum() != txnNumber)
return {};
return _lastWrittenSessionRecord->getLastWriteDate();
}
UpdateRequest Session::_makeUpdateRequest(WithLock,
TxnNumber newTxnNumber,
const repl::OpTime& newLastWriteOpTime,
Date_t newLastWriteDate) const {
UpdateRequest updateRequest(NamespaceString::kSessionTransactionsTableNamespace);
const auto updateBSON = [&] {
SessionTxnRecord newTxnRecord;
newTxnRecord.setSessionId(_sessionId);
newTxnRecord.setTxnNum(newTxnNumber);
newTxnRecord.setLastWriteOpTime(newLastWriteOpTime);
newTxnRecord.setLastWriteDate(newLastWriteDate);
return newTxnRecord.toBSON();
}();
updateRequest.setUpdates(updateBSON);
updateRequest.setQuery(BSON(SessionTxnRecord::kSessionIdFieldName << _sessionId.toBSON()));
updateRequest.setUpsert(true);
return updateRequest;
}
void Session::_registerUpdateCacheOnCommit(OperationContext* opCtx,
TxnNumber newTxnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteOpTime) {
opCtx->recoveryUnit()->onCommit(
[ this, newTxnNumber, stmtIdsWritten = std::move(stmtIdsWritten), lastStmtIdWriteOpTime ](
boost::optional<Timestamp>) {
RetryableWritesStats::get(getGlobalServiceContext())
->incrementTransactionsCollectionWriteCount();
stdx::lock_guard<stdx::mutex> lg(_mutex);
if (!_isValid)
return;
// The cache of the last written record must always be advanced after a write so that
// subsequent writes have the correct point to start from.
if (!_lastWrittenSessionRecord) {
_lastWrittenSessionRecord.emplace();
_lastWrittenSessionRecord->setSessionId(_sessionId);
_lastWrittenSessionRecord->setTxnNum(newTxnNumber);
_lastWrittenSessionRecord->setLastWriteOpTime(lastStmtIdWriteOpTime);
} else {
if (newTxnNumber > _lastWrittenSessionRecord->getTxnNum())
_lastWrittenSessionRecord->setTxnNum(newTxnNumber);
if (lastStmtIdWriteOpTime > _lastWrittenSessionRecord->getLastWriteOpTime())
_lastWrittenSessionRecord->setLastWriteOpTime(lastStmtIdWriteOpTime);
}
if (newTxnNumber > _activeTxnNumber) {
// This call is necessary in order to advance the txn number and reset the cached
// state in the case where just before the storage transaction commits, the cache
// entry gets invalidated and immediately refreshed while there were no writes for
// newTxnNumber yet. In this case _activeTxnNumber will be less than newTxnNumber
// and we will fail to update the cache even though the write was successful.
_beginOrContinueTxn(lg, newTxnNumber);
}
if (newTxnNumber == _activeTxnNumber) {
for (const auto stmtId : stmtIdsWritten) {
if (stmtId == kIncompleteHistoryStmtId) {
_hasIncompleteHistory = true;
continue;
}
const auto insertRes =
_activeTxnCommittedStatements.emplace(stmtId, lastStmtIdWriteOpTime);
if (!insertRes.second) {
const auto& existingOpTime = insertRes.first->second;
fassertOnRepeatedExecution(_sessionId,
newTxnNumber,
stmtId,
existingOpTime,
lastStmtIdWriteOpTime);
}
}
}
});
MONGO_FAIL_POINT_BLOCK(onPrimaryTransactionalWrite, customArgs) {
const auto& data = customArgs.getData();
const auto closeConnectionElem = data["closeConnection"];
if (closeConnectionElem.eoo() || closeConnectionElem.Bool()) {
opCtx->getClient()->session()->end();
}
const auto failBeforeCommitExceptionElem = data["failBeforeCommitExceptionCode"];
if (!failBeforeCommitExceptionElem.eoo()) {
const auto failureCode = ErrorCodes::Error(int(failBeforeCommitExceptionElem.Number()));
uasserted(failureCode,
str::stream() << "Failing write for " << _sessionId << ":" << newTxnNumber
<< " due to failpoint. The write must not be reflected.");
}
}
}
boost::optional<repl::OplogEntry> Session::createMatchingTransactionTableUpdate(
const repl::OplogEntry& entry) {
auto sessionInfo = entry.getOperationSessionInfo();
if (!sessionInfo.getTxnNumber()) {
return boost::none;
}
invariant(sessionInfo.getSessionId());
invariant(entry.getWallClockTime());
const auto updateBSON = [&] {
SessionTxnRecord newTxnRecord;
newTxnRecord.setSessionId(*sessionInfo.getSessionId());
newTxnRecord.setTxnNum(*sessionInfo.getTxnNumber());
newTxnRecord.setLastWriteOpTime(entry.getOpTime());
newTxnRecord.setLastWriteDate(*entry.getWallClockTime());
return newTxnRecord.toBSON();
}();
return repl::OplogEntry(
entry.getOpTime(),
0, // hash
repl::OpTypeEnum::kUpdate,
NamespaceString::kSessionTransactionsTableNamespace,
boost::none, // uuid
false, // fromMigrate
repl::OplogEntry::kOplogVersion,
updateBSON,
BSON(SessionTxnRecord::kSessionIdFieldName << sessionInfo.getSessionId()->toBSON()),
{}, // sessionInfo
true, // upsert
*entry.getWallClockTime(),
boost::none, // statementId
boost::none, // prevWriteOpTime
boost::none, // preImangeOpTime
boost::none // postImageOpTime
);
}
boost::optional<Session::RefreshState> Session::getLastRefreshState() const {
stdx::lock_guard<stdx::mutex> lg(_mutex);
return _lastRefreshState;
}
void Session::lockTxnNumber(const TxnNumber lockThisNumber, Status conflictError) {
stdx::lock_guard<stdx::mutex> lg(_mutex);
uassert(50907,
str::stream() << "cannot lock txnNumber to " << lockThisNumber
<< " because current txnNumber is "
<< _activeTxnNumber,
_activeTxnNumber == lockThisNumber);
// TODO: remove this if we need to support recursive locking.
invariant(!_isTxnNumberLocked);
_isTxnNumberLocked = true;
_txnNumberLockConflictStatus = conflictError;
}
void Session::unlockTxnNumber() {
stdx::lock_guard<stdx::mutex> lg(_mutex);
_isTxnNumberLocked = false;
_txnNumberLockConflictStatus = boost::none;
}
} // namespace mongo
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