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/**
* Copyright (C) 2018 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.
*/
#pragma once
#include <boost/optional.hpp>
#include <iostream>
#include <map>
#include "mongo/base/disallow_copying.h"
#include "mongo/db/concurrency/locker.h"
#include "mongo/db/logical_session_id.h"
#include "mongo/db/multi_key_path_tracker.h"
#include "mongo/db/ops/update_request.h"
#include "mongo/db/repl/oplog.h"
#include "mongo/db/repl/oplog_entry.h"
#include "mongo/db/repl/read_concern_args.h"
#include "mongo/db/session.h"
#include "mongo/db/session_txn_record_gen.h"
#include "mongo/db/single_transaction_stats.h"
#include "mongo/db/storage/recovery_unit.h"
#include "mongo/db/transaction_metrics_observer.h"
#include "mongo/stdx/unordered_map.h"
#include "mongo/util/assert_util.h"
#include "mongo/util/concurrency/with_lock.h"
#include "mongo/util/mongoutils/str.h"
namespace mongo {
class OperationContext;
extern AtomicInt32 transactionLifetimeLimitSeconds;
enum class SpeculativeTransactionOpTime {
kLastApplied,
kAllCommitted,
};
/**
* A state machine that coordinates a distributed transaction commit with the transaction
* coordinator.
*/
class TransactionParticipant {
MONGO_DISALLOW_COPYING(TransactionParticipant);
public:
/**
* Holds state for a snapshot read or multi-statement transaction in between network
* operations.
*/
class TxnResources {
public:
/**
* Stashes transaction state from 'opCtx' in the newly constructed TxnResources.
* Ephemerally holds the Client lock associated with opCtx.
*/
TxnResources(OperationContext* opCtx, bool keepTicket = false);
~TxnResources();
// Rule of 5: because we have a class-defined destructor, we need to explictly specify
// the move operator and move assignment operator.
TxnResources(TxnResources&&) = default;
TxnResources& operator=(TxnResources&&) = default;
/**
* Returns a const pointer to the stashed lock state, or nullptr if no stashed locks exist.
*/
const Locker* locker() const {
return _locker.get();
}
/**
* Same as above but non-const.
*/
Locker* locker() {
return _locker.get();
}
/**
* Releases stashed transaction state onto 'opCtx'. Must only be called once.
* Ephemerally holds the Client lock associated with opCtx.
*/
void release(OperationContext* opCtx);
/**
* Returns the read concern arguments.
*/
repl::ReadConcernArgs getReadConcernArgs() const {
return _readConcernArgs;
}
private:
bool _released = false;
std::unique_ptr<Locker> _locker;
std::unique_ptr<RecoveryUnit> _recoveryUnit;
repl::ReadConcernArgs _readConcernArgs;
WriteUnitOfWork::RecoveryUnitState _ruState;
};
/**
* An RAII object that stashes `TxnResouces` from the `opCtx` onto the stack. At destruction
* it unstashes the `TxnResources` back onto the `opCtx`.
*/
class SideTransactionBlock {
public:
SideTransactionBlock(OperationContext* opCtx);
~SideTransactionBlock();
// Rule of 5: because we have a class-defined destructor, we need to explictly specify
// the move operator and move assignment operator.
SideTransactionBlock(SideTransactionBlock&&) = default;
SideTransactionBlock& operator=(SideTransactionBlock&&) = default;
private:
boost::optional<TxnResources> _txnResources;
OperationContext* _opCtx;
};
using CommittedStatementTimestampMap = stdx::unordered_map<StmtId, repl::OpTime>;
static const BSONObj kDeadEndSentinel;
TransactionParticipant() = default;
/**
* Obtains the transaction participant from an operation context on which the session has been
* checked-out.
*/
static TransactionParticipant* get(OperationContext* opCtx);
/**
* This should only be used when session was obtained without checking it out and its only user
* should be chunk migration.
*/
static TransactionParticipant* getFromNonCheckedOutSession(Session* session);
/**
* Apply `abortTransaction` oplog entry.
*/
static Status applyAbortTransaction(OperationContext* opCtx,
const repl::OplogEntry& entry,
repl::OplogApplication::Mode mode);
/**
* Kills the transaction if it is running, ensuring that it releases all resources, even if the
* transaction is in prepare(). Avoids writing any oplog entries or making any changes to the
* transaction table. State for prepared transactions will be re-constituted at startup.
* Note that we don't take any active steps to prevent continued use of this
* TransactionParticipant after shutdown() is called, but we rely on callers to not
* continue using the TransactionParticipant once we are in shutdown.
*/
void shutdown();
/**
* Called for speculative transactions to fix the optime of the snapshot to read from.
*/
void setSpeculativeTransactionOpTime(OperationContext* opCtx,
SpeculativeTransactionOpTime opTimeChoice);
/**
* Transfers management of transaction resources from the OperationContext to the Session.
*/
void stashTransactionResources(OperationContext* opCtx);
/**
* Transfers management of transaction resources from the Session to the OperationContext.
*/
void unstashTransactionResources(OperationContext* opCtx, const std::string& cmdName);
/**
* Commits the transaction, including committing the write unit of work and updating
* transaction state.
*
* Throws an exception if the transaction is prepared.
*/
void commitUnpreparedTransaction(OperationContext* opCtx);
/**
* Commits the transaction, including committing the write unit of work and updating
* transaction state.
*
* Throws an exception if the transaction is not prepared or if the 'commitTimestamp' is null.
*/
void commitPreparedTransaction(OperationContext* opCtx, Timestamp commitTimestamp);
/**
* Puts a transaction into a prepared state and returns the prepareTimestamp.
*
* On secondary, the "prepareTimestamp" will be given in the oplog.
*/
Timestamp prepareTransaction(OperationContext* opCtx,
boost::optional<repl::OpTime> prepareOptime);
/**
* Returns whether we are in a multi-document transaction, which means we have an active
* transaction which has autoCommit:false and has not been committed or aborted. It is possible
* that the current transaction is stashed onto the stack via a `SideTransactionBlock`.
*/
bool inMultiDocumentTransaction() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _txnState.inMultiDocumentTransaction(lk);
};
bool transactionIsCommitted() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _txnState.isCommitted(lk);
}
bool transactionIsAborted() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _txnState.isAborted(lk);
}
bool transactionIsPrepared() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _txnState.isPrepared(lk);
}
/**
* Returns true if we are in an active multi-document transaction or if the transaction has
* been aborted. This is used to cover the case where a transaction has been aborted, but the
* OperationContext state has not been cleared yet.
*/
bool inActiveOrKilledMultiDocumentTransaction() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return (_txnState.inMultiDocumentTransaction(lk) || _txnState.isAborted(lk));
}
/**
* Adds a stored operation to the list of stored operations for the current multi-document
* (non-autocommit) transaction. It is illegal to add operations when no multi-document
* transaction is in progress.
*/
void addTransactionOperation(OperationContext* opCtx, const repl::ReplOperation& operation);
/**
* Returns and clears the stored operations for an multi-document (non-autocommit) transaction,
* and marks the transaction as closed. It is illegal to attempt to add operations to the
* transaction after this is called.
*/
std::vector<repl::ReplOperation> endTransactionAndRetrieveOperations(OperationContext* opCtx);
const std::vector<repl::ReplOperation>& transactionOperationsForTest() {
return _transactionOperations;
}
SingleTransactionStats getSingleTransactionStats() const {
return _transactionMetricsObserver.getSingleTransactionStats();
}
repl::OpTime getSpeculativeTransactionReadOpTimeForTest() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _speculativeTransactionReadOpTime;
}
repl::OpTime getPrepareOpTime() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
return _prepareOpTime;
}
const Locker* getTxnResourceStashLockerForTest() const {
stdx::lock_guard<stdx::mutex> lk(_mutex);
invariant(_txnResourceStash);
return _txnResourceStash->locker();
}
/**
* If this session is holding stashed locks in _txnResourceStash, reports the current state of
* the session using the provided builder. Locks the session object's mutex while running.
*/
void reportStashedState(BSONObjBuilder* builder) const;
std::string transactionInfoForLogForTest(const SingleThreadedLockStats* lockStats,
bool committed,
repl::ReadConcernArgs readConcernArgs) {
stdx::lock_guard<stdx::mutex> lk(_mutex);
TransactionState::StateFlag terminationCause =
committed ? TransactionState::kCommitted : TransactionState::kAborted;
return _transactionInfoForLog(lockStats, terminationCause, readConcernArgs);
}
/**
* If this session is not holding stashed locks in _txnResourceStash (transaction is active),
* reports the current state of the session using the provided builder. Locks the session
* object's mutex while running.
*/
void reportUnstashedState(repl::ReadConcernArgs readConcernArgs, BSONObjBuilder* builder) const;
/**
* Convenience method which creates and populates a BSONObj containing the stashed state.
* Returns an empty BSONObj if this session has no stashed resources.
*/
BSONObj reportStashedState() const;
/**
* Aborts the transaction outside the transaction, releasing transaction resources.
*
* Not called with session checked out.
*/
void abortArbitraryTransaction();
/**
* Same as abortArbitraryTransaction, except only executes if _transactionExpireDate indicates
* that the transaction has expired.
*
* Not called with session checked out.
*/
void abortArbitraryTransactionIfExpired();
/*
* Aborts the transaction inside the transaction, releasing transaction resources.
* We're inside the transaction when we have the Session checked out and 'opCtx' owns the
* transaction resources.
* Aborts the transaction and releases transaction resources when we have the Session checked
* out and 'opCtx' owns the transaction resources.
*/
void abortActiveTransaction(OperationContext* opCtx);
/*
* If the transaction is prepared, stash its resources. If not, it's the same as
* abortActiveTransaction.
*/
void abortActiveUnpreparedOrStashPreparedTransaction(OperationContext* opCtx);
/**
* If the transaction is not prepared, aborts the transaction and releases its resources.
* If the transaction is prepared, yields the transaction's locks and adds the Locker and
* LockSnapshot of the yielded locks to the end of the 'yieldedLocks' output vector.
*
* Not called with session checked out.
*/
void abortOrYieldArbitraryTransaction(
std::vector<std::pair<Locker*, Locker::LockSnapshot>>* yieldedLocks);
void addMultikeyPathInfo(MultikeyPathInfo info) {
_multikeyPathInfo.push_back(std::move(info));
}
const std::vector<MultikeyPathInfo>& getMultikeyPathInfo() const {
return _multikeyPathInfo;
}
/**
* Starts a new transaction (and if the txnNumber is newer aborts any in-progress transaction on
* the session), or continues an already active transaction.
*
* 'autocommit' comes from the 'autocommit' field in the original client request. The only valid
* values are boost::none (meaning no autocommit was specified) and false (meaning that this is
* the beginning of a multi-statement transaction).
*
* 'startTransaction' comes from the 'startTransaction' field in the original client request.
* See below for the acceptable values and the meaning of the combinations of autocommit and
* startTransaction.
*
* autocommit = boost::none, startTransaction = boost::none: Means retryable write
* autocommit = false, startTransaction = boost::none: Means continuation of a multi-statement
* transaction
* autocommit = false, startTransaction = true: Means abort whatever transaction is in progress
* on the session and start a new transaction
*
* Any combination other than the ones listed above will invariant since it is expected that the
* caller has performed the necessary customer input validations.
*
* Exceptions of note, which can be thrown are:
* - TransactionTooOld - if attempt is made to start a transaction older than the currently
* active one or the last one which committed
* - PreparedTransactionInProgress - if the transaction is in the prepared state and a new
* transaction or retryable write is attempted
*/
void beginOrContinue(TxnNumber txnNumber,
boost::optional<bool> autocommit,
boost::optional<bool> startTransaction);
/**
* Used only by the secondary oplog application logic. Equivalent to 'beginOrContinue(txnNumber,
* false, true)' without performing any checks for whether the new txnNumber will start a
* transaction number in the past.
*
* NOTE: This method assumes that there are no concurrent users of the transaction since it
* unconditionally changes the active transaction on the session.
*/
void beginOrContinueTransactionUnconditionally(TxnNumber txnNumber);
void transitionToPreparedforTest() {
stdx::lock_guard<stdx::mutex> lk(_mutex);
_txnState.transitionTo(lk, TransactionState::kPrepared);
}
void transitionToAbortedforTest() {
stdx::lock_guard<stdx::mutex> lk(_mutex);
_txnState.transitionTo(lk, TransactionState::kAborted);
}
/**
* Blocking method, which loads the transaction state from storage if it has been marked as
* needing refresh.
*
* In order to avoid the possibility of deadlock, this method must not be called while holding a
* lock.
*/
void refreshFromStorageIfNeeded(OperationContext* opCtx);
TxnNumber getActiveTxnNumber() const {
stdx::lock_guard<stdx::mutex> lg(_mutex);
return _activeTxnNumber;
}
/**
* Called after a write under the specified transaction completes while the node is a primary
* and specifies the statement ids which were written. Must be called while the caller is still
* in the write's WUOW. Updates the on-disk state of the session to match the specified
* transaction/opTime and keeps the cached state in sync.
*
* 'txnState' is 'none' for retryable writes.
*
* Must only be called with the session checked-out.
*
* Throws if the session has been invalidated or the active transaction number doesn't match.
*/
void onWriteOpCompletedOnPrimary(OperationContext* opCtx,
TxnNumber txnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteOpTime,
Date_t lastStmtIdWriteDate,
boost::optional<DurableTxnStateEnum> txnState);
/**
* Helper function to begin a migration on a primary node.
*
* Returns whether the specified statement should be migrated at all or skipped.
*
* Not called with session checked out.
*/
bool onMigrateBeginOnPrimary(OperationContext* opCtx, TxnNumber txnNumber, StmtId stmtId);
/**
* Called after an entry for the specified session and transaction has been written to the oplog
* during chunk migration, while the node is still primary. Must be called while the caller is
* still in the oplog write's WUOW. Updates the on-disk state of the session to match the
* specified transaction/opTime and keeps the cached state in sync.
*
* May be called concurrently with onWriteOpCompletedOnPrimary or onMigrateCompletedOnPrimary
* and doesn't require the session to be checked-out.
*
* Throws if the session has been invalidated or the active transaction number is newer than the
* one specified.
*/
void onMigrateCompletedOnPrimary(OperationContext* opCtx,
TxnNumber txnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteOpTime,
Date_t oplogLastStmtIdWriteDate);
/**
* Marks the session as requiring refresh. Used when the session state has been modified
* externally, such as through a direct write to the transactions table.
*/
void invalidate();
/**
* Returns the op time of the last committed write for this session and transaction. If no write
* has completed yet, returns an empty timestamp.
*
* Throws if the session has been invalidated or the active transaction number doesn't match.
*/
repl::OpTime getLastWriteOpTime(TxnNumber txnNumber) const;
/**
* Checks whether the given statementId for the specified transaction has already executed and
* if so, returns the oplog entry which was generated by that write. If the statementId hasn't
* executed, returns boost::none.
*
* Must only be called with the session checked-out.
*
* Throws if the session has been invalidated or the active transaction number doesn't match.
*/
boost::optional<repl::OplogEntry> checkStatementExecuted(OperationContext* opCtx,
TxnNumber txnNumber,
StmtId stmtId) const;
/**
* Checks whether the given statementId for the specified transaction has already executed
* without fetching the oplog entry which was generated by that write.
*
* Must only be called with the session checked-out.
*
* Throws if the session has been invalidated or the active transaction number doesn't match.
*/
bool checkStatementExecutedNoOplogEntryFetch(TxnNumber txnNumber, StmtId stmtId) const;
private:
/**
* Reserves a slot in the oplog with an open storage-transaction while it is alive. Reserves the
* slot at construction. Aborts the storage-transaction and releases the oplog slot at
* destruction.
*/
class OplogSlotReserver {
public:
OplogSlotReserver(OperationContext* opCtx);
~OplogSlotReserver();
// Rule of 5: because we have a class-defined destructor, we need to explictly specify
// the move operator and move assignment operator.
OplogSlotReserver(OplogSlotReserver&&) = default;
OplogSlotReserver& operator=(OplogSlotReserver&&) = default;
/**
* Returns the oplog slot reserved at construction.
*/
OplogSlot getReservedOplogSlot() const {
invariant(!_oplogSlot.opTime.isNull());
return _oplogSlot;
}
private:
std::unique_ptr<Locker> _locker;
std::unique_ptr<RecoveryUnit> _recoveryUnit;
OplogSlot _oplogSlot;
};
/**
* Indicates the state of the current multi-document transaction, if any. If the transaction is
* in any state but kInProgress, no more operations can be collected. Once the transaction is in
* kPrepared, the transaction is not allowed to abort outside of an 'abortTransaction' command.
* At this point, aborting the transaction must log an 'abortTransaction' oplog entry.
*/
class TransactionState {
public:
enum StateFlag {
kNone = 1 << 0,
kInProgress = 1 << 1,
kPrepared = 1 << 2,
kCommittingWithoutPrepare = 1 << 3,
kCommittingWithPrepare = 1 << 4,
kCommitted = 1 << 5,
kAborted = 1 << 6
};
using StateSet = int;
bool isInSet(WithLock, StateSet stateSet) const {
return _state & stateSet;
}
/**
* Transitions the session from the current state to the new state. If transition validation
* is not relaxed, invariants if the transition is illegal.
*/
enum class TransitionValidation { kValidateTransition, kRelaxTransitionValidation };
void transitionTo(
WithLock,
StateFlag newState,
TransitionValidation shouldValidate = TransitionValidation::kValidateTransition);
bool inMultiDocumentTransaction(WithLock) const {
return _state == kInProgress || _state == kPrepared;
}
bool isNone(WithLock) const {
return _state == kNone;
}
bool isInProgress(WithLock) const {
return _state == kInProgress;
}
bool isPrepared(WithLock) const {
return _state == kPrepared;
}
bool isCommittingWithoutPrepare(WithLock) const {
return _state == kCommittingWithoutPrepare;
}
bool isCommittingWithPrepare(WithLock) const {
return _state == kCommittingWithPrepare;
}
bool isCommitted(WithLock) const {
return _state == kCommitted;
}
bool isAborted(WithLock) const {
return _state == kAborted;
}
std::string toString() const {
return toString(_state);
}
static std::string toString(StateFlag state);
private:
static bool _isLegalTransition(StateFlag oldState, StateFlag newState);
StateFlag _state = kNone;
};
friend std::ostream& operator<<(std::ostream& s, TransactionState txnState) {
return (s << txnState.toString());
}
friend StringBuilder& operator<<(StringBuilder& s, TransactionState txnState) {
return (s << txnState.toString());
}
// Shortcut to obtain the id of the session under which this participant runs
const LogicalSessionId& _sessionId() const;
/**
* Performing any checks based on the in-memory state of the TransactionParticipant requires
* that the object is fully in sync with its on-disk representation in the transactions table.
* This method checks that. The object can be out of sync with the on-disk representation either
* when it was just created, or after invalidate() was called (which typically happens after a
* direct write to the transactions table).
*/
void _checkValid(WithLock) const;
// Checks that the specified transaction number is the same as the activeTxnNumber. Effectively
// a check that the caller operates on the transaction it thinks it is operating on.
void _checkIsActiveTransaction(WithLock, TxnNumber txnNumber) const;
boost::optional<repl::OpTime> _checkStatementExecuted(WithLock,
TxnNumber txnNumber,
StmtId stmtId) const;
// Returns the write date of the last committed write for this session and transaction. If no
// write has completed yet, returns an empty date.
//
// Throws if the session has been invalidated or the active transaction number doesn't match.
Date_t _getLastWriteDate(WithLock, TxnNumber txnNumber) const;
UpdateRequest _makeUpdateRequest(WithLock,
TxnNumber newTxnNumber,
const repl::OpTime& newLastWriteOpTime,
Date_t newLastWriteDate,
boost::optional<DurableTxnStateEnum> newState) const;
void _registerUpdateCacheOnCommit(OperationContext* opCtx,
TxnNumber newTxnNumber,
std::vector<StmtId> stmtIdsWritten,
const repl::OpTime& lastStmtIdWriteTs);
// Finishes committing the multi-document transaction after the storage-transaction has been
// committed, the oplog entry has been inserted into the oplog, and the transactions table has
// been updated.
void _finishCommitTransaction(WithLock lk, OperationContext* opCtx);
// Commits the storage-transaction on the OperationContext.
//
// This should be called *without* the mutex being locked.
void _commitStorageTransaction(OperationContext* opCtx);
// Stash transaction resources.
void _stashActiveTransaction(WithLock, OperationContext* opCtx);
// Abort the transaction if it's in one of the expected states and clean up the transaction
// states associated with the opCtx.
void _abortActiveTransaction(stdx::unique_lock<stdx::mutex> lock,
OperationContext* opCtx,
TransactionState::StateSet expectedStates);
// Releases stashed transaction resources to abort the transaction on the session.
void _abortTransactionOnSession(WithLock);
// Clean up the transaction resources unstashed on operation context.
void _cleanUpTxnResourceOnOpCtx(WithLock wl,
OperationContext* opCtx,
TransactionState::StateFlag terminationCause);
// Checks if the current transaction number of this transaction still matches with the
// parent session as well as the transaction number of the current operation context.
void _checkIsActiveTransaction(WithLock,
const TxnNumber& requestTxnNumber,
bool checkAbort) const;
// Checks if the command can be run on this transaction based on the state of the transaction.
void _checkIsCommandValidWithTxnState(WithLock,
OperationContext* opCtx,
const std::string& cmdName);
// Logs the transaction information if it has run slower than the global parameter slowMS. The
// transaction must be committed or aborted when this function is called.
void _logSlowTransaction(WithLock wl,
const SingleThreadedLockStats* lockStats,
TransactionState::StateFlag terminationCause,
repl::ReadConcernArgs readConcernArgs);
// This method returns a string with information about a slow transaction. The format of the
// logging string produced should match the format used for slow operation logging. A
// transaction must be completed (committed or aborted) and a valid LockStats reference must be
// passed in order for this method to be called.
std::string _transactionInfoForLog(const SingleThreadedLockStats* lockStats,
TransactionState::StateFlag terminationCause,
repl::ReadConcernArgs readConcernArgs);
// Reports transaction stats for both active and inactive transactions using the provided
// builder. The lock may be either a lock on _mutex or a lock on _metricsMutex.
void _reportTransactionStats(WithLock wl,
BSONObjBuilder* builder,
repl::ReadConcernArgs readConcernArgs) const;
// Bumps up the transaction number of this transaction and perform the necessary cleanup.
void _setNewTxnNumber(WithLock wl, const TxnNumber& txnNumber);
// Attempt to begin or retry a retryable write at the given transaction number.
void _beginOrContinueRetryableWrite(WithLock wl, TxnNumber txnNumber);
// Attempt to begin a new multi document transaction at the given transaction number.
void _beginMultiDocumentTransaction(WithLock wl, TxnNumber txnNumber);
// Attempt to continue an in-progress multi document transaction at the given transaction
// number.
void _continueMultiDocumentTransaction(WithLock wl, TxnNumber txnNumber);
// Protects the member variables below.
mutable stdx::mutex _mutex;
bool _inShutdown{false};
// Holds transaction resources between network operations.
boost::optional<TxnResources> _txnResourceStash;
// Maintains the transaction state and the transition table for legal state transitions.
TransactionState _txnState;
// Holds oplog data for operations which have been applied in the current multi-document
// transaction.
std::vector<repl::ReplOperation> _transactionOperations;
// Total size in bytes of all operations within the _transactionOperations vector.
size_t _transactionOperationBytes = 0;
// Tracks the last seen txn number for the session and is always >= to the transaction number in
// the last written txn record. When it is > than that in the last written txn record, this
// means a new transaction has begun on the session, but it hasn't yet performed any writes.
TxnNumber _activeTxnNumber{kUninitializedTxnNumber};
// Set when a snapshot read / transaction begins. Alleviates cache pressure by limiting how long
// a snapshot will remain open and available. Checked in combination with _txnState to determine
// whether the transaction should be aborted.
// This is unset until a transaction begins on the session, and then reset only when new
// transactions begin.
boost::optional<Date_t> _transactionExpireDate;
// The autoCommit setting of this transaction. Should always be false for multi-statement
// transaction. Currently only needed for diagnostics reporting.
boost::optional<bool> _autoCommit;
// Track the prepareOpTime, the OpTime of the 'prepare' oplog entry for a transaction.
repl::OpTime _prepareOpTime;
// The OpTime a speculative transaction is reading from and also the earliest opTime it
// should wait for write concern for on commit.
repl::OpTime _speculativeTransactionReadOpTime;
std::vector<MultikeyPathInfo> _multikeyPathInfo;
//
// Retryable writes state
//
// Specifies whether the session information needs to be refreshed from storage
bool _isValid{false};
// Counter, incremented with each call to invalidate in order to discern invalidations, which
// happen during refresh
int _numInvalidations{0};
// Set to true if incomplete history is detected. For example, when the oplog to a write was
// truncated because it was too old.
bool _hasIncompleteHistory{false};
// Caches what is known to be the last written transaction record for the session
boost::optional<SessionTxnRecord> _lastWrittenSessionRecord;
// For the active txn, tracks which statement ids have been committed and at which oplog
// opTime. Used for fast retryability check and retrieving the previous write's data without
// having to scan through the oplog.
CommittedStatementTimestampMap _activeTxnCommittedStatements;
// Protects _transactionMetricsObserver. The concurrency rules are that const methods on
// _transactionMetricsObserver may be called under either _mutex or _metricsMutex, but for
// non-const methods, both mutexes must be held, with _mutex being taken before _metricsMutex.
// No other locks, particularly including the Client lock, may be taken while holding
// _metricsMutex.
mutable stdx::mutex _metricsMutex;
// Tracks and updates transaction metrics upon the appropriate transaction event.
TransactionMetricsObserver _transactionMetricsObserver;
// Tracks the Timestamp of the first oplog entry written by this TransactionParticipant.
boost::optional<Timestamp> _oldestOplogEntryTS;
};
} // namespace mongo
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