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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.
*/
#pragma once
#include <boost/optional.hpp>
#include <memory>
#include "mongo/base/status.h"
#include "mongo/db/client.h"
#include "mongo/db/concurrency/locker.h"
#include "mongo/db/logical_session_id.h"
#include "mongo/db/logical_session_id_helpers.h"
#include "mongo/db/operation_id.h"
#include "mongo/db/query/datetime/date_time_support.h"
#include "mongo/db/storage/recovery_unit.h"
#include "mongo/db/storage/storage_options.h"
#include "mongo/db/storage/write_unit_of_work.h"
#include "mongo/db/write_concern_options.h"
#include "mongo/platform/atomic_word.h"
#include "mongo/platform/mutex.h"
#include "mongo/stdx/condition_variable.h"
#include "mongo/transport/session.h"
#include "mongo/util/cancellation.h"
#include "mongo/util/concurrency/with_lock.h"
#include "mongo/util/decorable.h"
#include "mongo/util/fail_point.h"
#include "mongo/util/interruptible.h"
#include "mongo/util/lockable_adapter.h"
#include "mongo/util/time_support.h"
#include "mongo/util/timer.h"
namespace mongo {
class CurOp;
class ProgressMeter;
class ServiceContext;
class StringData;
namespace repl {
class UnreplicatedWritesBlock;
} // namespace repl
// Enabling the maxTimeAlwaysTimeOut fail point will cause any query or command run with a
// valid non-zero max time to fail immediately. Any getmore operation on a cursor already
// created with a valid non-zero max time will also fail immediately.
//
// This fail point cannot be used with the maxTimeNeverTimeOut fail point.
extern FailPoint maxTimeAlwaysTimeOut;
// Enabling the maxTimeNeverTimeOut fail point will cause the server to never time out any
// query, command, or getmore operation, regardless of whether a max time is set.
//
// This fail point cannot be used with the maxTimeAlwaysTimeOut fail point.
extern FailPoint maxTimeNeverTimeOut;
/**
* This class encompasses the state required by an operation and lives from the time a network
* operation is dispatched until its execution is finished. Note that each "getmore" on a cursor
* is a separate operation. On construction, an OperationContext associates itself with the
* current client, and only on destruction it deassociates itself. At any time a client can be
* associated with at most one OperationContext. Each OperationContext has a RecoveryUnit
* associated with it, though the lifetime is not necesarily the same, see releaseRecoveryUnit
* and setRecoveryUnit. The operation context also keeps track of some transaction state
* (RecoveryUnitState) to reduce complexity and duplication in the storage-engine specific
* RecoveryUnit and to allow better invariant checking.
*/
class OperationContext : public Interruptible, public Decorable<OperationContext> {
OperationContext(const OperationContext&) = delete;
OperationContext& operator=(const OperationContext&) = delete;
public:
static constexpr auto kDefaultOperationContextTimeoutError = ErrorCodes::ExceededTimeLimit;
/**
* Creates an op context with no unique operation ID tracking - prefer using the OperationIdSlot
* CTOR if possible to avoid OperationId collisions.
*/
OperationContext(Client* client, OperationId opId);
OperationContext(Client* client, OperationIdSlot&& opIdSlot);
virtual ~OperationContext();
bool shouldParticipateInFlowControl() const {
return _shouldParticipateInFlowControl;
}
void setShouldParticipateInFlowControl(bool target) {
_shouldParticipateInFlowControl = target;
}
/**
* Interface for durability. Caller DOES NOT own pointer.
*/
RecoveryUnit* recoveryUnit() const {
return _recoveryUnit.get();
}
/**
* Returns the RecoveryUnit (same return value as recoveryUnit()) but the caller takes
* ownership of the returned RecoveryUnit, and the OperationContext instance relinquishes
* ownership. Sets the RecoveryUnit to NULL.
*/
std::unique_ptr<RecoveryUnit> releaseRecoveryUnit();
/*
* Similar to releaseRecoveryUnit(), but sets up a new, inactive RecoveryUnit after releasing
* the existing one.
*/
std::unique_ptr<RecoveryUnit> releaseAndReplaceRecoveryUnit();
/**
* Associates the OperatingContext with a different RecoveryUnit for getMore or
* subtransactions, see RecoveryUnitSwap. The new state is passed and the old state is
* returned separately even though the state logically belongs to the RecoveryUnit,
* as it is managed by the OperationContext.
*/
WriteUnitOfWork::RecoveryUnitState setRecoveryUnit(std::unique_ptr<RecoveryUnit> unit,
WriteUnitOfWork::RecoveryUnitState state);
/**
* Interface for locking. Caller DOES NOT own pointer.
*/
Locker* lockState() const {
return _locker.get();
}
/**
* Sets the locker for use by this OperationContext. Call during OperationContext
* initialization, only.
*/
void setLockState(std::unique_ptr<Locker> locker);
/**
* Swaps the locker, releasing the old locker to the caller. The Client lock is required to
* call this function.
*/
std::unique_ptr<Locker> swapLockState(std::unique_ptr<Locker> locker, WithLock);
/**
* Returns Status::OK() unless this operation is in a killed state.
*/
Status checkForInterruptNoAssert() noexcept override;
/**
* Returns the service context under which this operation context runs, or nullptr if there is
* no such service context.
*/
ServiceContext* getServiceContext() const {
if (!_client) {
return nullptr;
}
return _client->getServiceContext();
}
/**
* Returns the client under which this context runs.
*/
Client* getClient() const {
return _client;
}
/**
* Returns the operation ID associated with this operation.
*/
OperationId getOpID() const {
return _opId.getId();
}
/**
* Returns the operation UUID associated with this operation or boost::none.
*/
const boost::optional<OperationKey>& getOperationKey() const {
return _opKey;
}
/**
* Sets the operation UUID associated with this operation.
*
* This function may only be called once per OperationContext.
*/
void setOperationKey(OperationKey opKey);
/**
* Removes the operation UUID associated with this operation.
* DO NOT call this function outside `~OperationContext()` and `killAndDelistOperation()`.
*/
void releaseOperationKey();
/**
* Returns the session ID associated with this operation, if there is one.
*/
const boost::optional<LogicalSessionId>& getLogicalSessionId() const {
return _lsid;
}
/**
* Associates a logical session id with this operation context. May only be called once for the
* lifetime of the operation.
*/
void setLogicalSessionId(LogicalSessionId lsid);
/**
* Returns the transaction number associated with thes operation. The combination of logical
* session id + transaction number is what constitutes the operation transaction id.
*/
boost::optional<TxnNumber> getTxnNumber() const {
return _txnNumber;
}
/**
* Returns the txnRetryCounter associated with this operation.
*/
boost::optional<TxnRetryCounter> getTxnRetryCounter() const {
return _txnRetryCounter;
}
/**
* Returns a CancellationToken that will be canceled when the OperationContext is killed via
* markKilled (including for internal reasons, like the OperationContext deadline being
* reached).
*/
CancellationToken getCancellationToken() {
return _cancelSource.token();
}
/**
* Sets a transport Baton on the operation. This will trigger the Baton on markKilled.
*/
void setBaton(const BatonHandle& baton) {
_baton = baton;
}
/**
* Retrieves the baton associated with the operation.
*/
const BatonHandle& getBaton() const {
return _baton;
}
/**
* Associates a transaction number with this operation context. May only be called once for the
* lifetime of the operation and the operation must have a logical session id assigned.
*/
void setTxnNumber(TxnNumber txnNumber);
/**
* Associates a txnRetryCounter with this operation context. May only be called once for the
* lifetime of the operation and the operation must have a logical session id and a transaction
* number assigned.
*/
void setTxnRetryCounter(TxnRetryCounter txnRetryCounter);
/**
* Returns the top-level WriteUnitOfWork associated with this operation context, if any.
*/
WriteUnitOfWork* getWriteUnitOfWork() {
return _writeUnitOfWork.get();
}
/**
* Sets a top-level WriteUnitOfWork for this operation context, to be held for the duration
* of the given network operation.
*/
void setWriteUnitOfWork(std::unique_ptr<WriteUnitOfWork> writeUnitOfWork) {
invariant(writeUnitOfWork || _writeUnitOfWork);
invariant(!(writeUnitOfWork && _writeUnitOfWork));
_writeUnitOfWork = std::move(writeUnitOfWork);
}
/**
* Returns WriteConcernOptions of the current operation
*/
const WriteConcernOptions& getWriteConcern() const {
return _writeConcern;
}
void setWriteConcern(const WriteConcernOptions& writeConcern) {
_writeConcern = writeConcern;
}
/**
* Returns true if operations should generate oplog entries.
*/
bool writesAreReplicated() const {
return _writesAreReplicated;
}
/**
* Returns true if the operation is running lock-free.
*/
bool isLockFreeReadsOp() const {
return _lockFreeReadOpCount;
}
/**
* Returns true if operations' durations should be added to serverStatus latency metrics.
*/
bool shouldIncrementLatencyStats() const {
return _shouldIncrementLatencyStats;
}
/**
* Sets the shouldIncrementLatencyStats flag.
*/
void setShouldIncrementLatencyStats(bool shouldIncrementLatencyStats) {
_shouldIncrementLatencyStats = shouldIncrementLatencyStats;
}
void markKillOnClientDisconnect();
/**
* Identifies the opCtx as an operation which is executing global shutdown. This has the effect
* of masking any existing time limits, removing markKill-ability and is slightly stronger than
* code run under runWithoutInterruptionExceptAtGlobalShutdown, because it is also immune to
* global shutdown.
*
* This should only be called from the registered task of global shutdown and is not
* recoverable.
*/
void setIsExecutingShutdown();
/**
* Marks this operation as killed so that subsequent calls to checkForInterrupt and
* checkForInterruptNoAssert by the thread executing the operation will start returning the
* specified error code.
*
* If multiple threads kill the same operation with different codes, only the first code
* will be preserved.
*
* May be called by any thread that has locked the Client owning this operation context, or
* by the thread executing this on behalf of this OperationContext.
*/
void markKilled(ErrorCodes::Error killCode = ErrorCodes::Interrupted);
/**
* Returns the code passed to markKilled if this operation context has been killed previously
* or ErrorCodes::OK otherwise.
*
* May be called by any thread that has locked the Client owning this operation context, or
* without lock by the thread executing on behalf of this operation context.
*/
ErrorCodes::Error getKillStatus() const {
if (_ignoreInterrupts) {
return ErrorCodes::OK;
}
return _killCode.loadRelaxed();
}
/**
* Shortcut method, which checks whether getKillStatus returns a non-OK value. Has the same
* concurrency rules as getKillStatus.
*/
bool isKillPending() const {
return getKillStatus() != ErrorCodes::OK;
}
/**
* Returns the amount of time since the operation was constructed. Uses the system's most
* precise tick source, and may not be cheap to call in a tight loop.
*/
Microseconds getElapsedTime() const {
return _elapsedTime.elapsed();
}
/**
* Sets the deadline for this operation to the given point in time.
*
* To remove a deadline, pass in Date_t::max().
*/
void setDeadlineByDate(Date_t when, ErrorCodes::Error timeoutError);
/**
* Sets the deadline for this operation to the maxTime plus the current time reported
* by the ServiceContext's fast clock source.
*/
void setDeadlineAfterNowBy(Microseconds maxTime, ErrorCodes::Error timeoutError);
template <typename D>
void setDeadlineAfterNowBy(D maxTime, ErrorCodes::Error timeoutError) {
if (maxTime <= D::zero()) {
maxTime = D::zero();
}
if (maxTime <= Microseconds::max()) {
setDeadlineAfterNowBy(duration_cast<Microseconds>(maxTime), timeoutError);
} else {
setDeadlineByDate(Date_t::max(), timeoutError);
}
}
/**
* Returns the deadline for this operation, or Date_t::max() if there is no deadline.
*/
Date_t getDeadline() const override {
return _deadline;
}
/**
* Returns the error code used when this operation's time limit is reached.
*/
ErrorCodes::Error getTimeoutError() const;
/**
* Returns the number of milliseconds remaining for this operation's time limit or
* Milliseconds::max() if the operation has no time limit.
*/
Milliseconds getRemainingMaxTimeMillis() const;
/**
* NOTE: This is a legacy "max time" method for controlling operation deadlines and it should
* not be used in new code. Use getRemainingMaxTimeMillis instead.
*
* Returns the number of microseconds remaining for this operation's time limit, or the special
* value Microseconds::max() if the operation has no time limit.
*/
Microseconds getRemainingMaxTimeMicros() const;
bool isIgnoringInterrupts() const;
/**
* Returns whether this operation is part of a multi-document transaction. Specifically, it
* indicates whether the user asked for a multi-document transaction.
*/
bool inMultiDocumentTransaction() const {
return _inMultiDocumentTransaction;
}
bool isRetryableWrite() const {
return _txnNumber &&
(!_inMultiDocumentTransaction || isInternalSessionForRetryableWrite(*_lsid));
}
/**
* Sets that this operation is part of a multi-document transaction. Once this is set, it cannot
* be unset.
*/
void setInMultiDocumentTransaction() {
_inMultiDocumentTransaction = true;
if (!_txnRetryCounter.has_value()) {
_txnRetryCounter = 0;
}
}
/**
* Some operations coming into the system must be validated to ensure they meet constraints,
* such as collection namespace length limits or unique index key constraints. However,
* operations being performed from a source of truth such as during initial sync and oplog
* application often must ignore constraint violations.
*
* Initial sync and oplog application opt in to relaxed constraint checking by setting this
* value to false.
*/
void setEnforceConstraints(bool enforceConstraints) {
_enforceConstraints = enforceConstraints;
}
/**
* This method can be used to tell if an operation requires validation of constraints. This
* should be preferred to alternatives such as checking if a node is primary or if a client is
* from a user connection as those have nuances (e.g: primary catch up and client disassociation
* due to task executors).
*/
bool isEnforcingConstraints() {
return _enforceConstraints;
}
/**
* Sets that this operation should always get killed during stepDown and stepUp, regardless of
* whether or not it's taken a write lock.
*/
void setAlwaysInterruptAtStepDownOrUp() {
_alwaysInterruptAtStepDownOrUp.store(true);
}
/**
* Indicates that this operation should always get killed during stepDown and stepUp, regardless
* of whether or not it's taken a write lock.
*/
bool shouldAlwaysInterruptAtStepDownOrUp() {
return _alwaysInterruptAtStepDownOrUp.load();
}
/**
* Sets that this operation should ignore interruption except for replication state change. Can
* only be called by the thread executing this on behalf of this OperationContext.
*/
void setIgnoreInterruptsExceptForReplStateChange(bool target) {
_ignoreInterruptsExceptForReplStateChange = target;
}
/**
* Clears metadata associated with a multi-document transaction.
*/
void resetMultiDocumentTransactionState() {
invariant(_inMultiDocumentTransaction);
invariant(!_writeUnitOfWork);
invariant(_ruState == WriteUnitOfWork::RecoveryUnitState::kNotInUnitOfWork);
_inMultiDocumentTransaction = false;
_isStartingMultiDocumentTransaction = false;
_lsid = boost::none;
_txnNumber = boost::none;
_txnRetryCounter = boost::none;
}
/**
* Returns whether this operation is starting a multi-document transaction.
*/
bool isStartingMultiDocumentTransaction() const {
return _isStartingMultiDocumentTransaction;
}
/**
* Returns whether this operation is continuing (not starting) a multi-document transaction.
*/
bool isContinuingMultiDocumentTransaction() const {
return inMultiDocumentTransaction() && !isStartingMultiDocumentTransaction();
}
/**
* Sets whether this operation is starting a multi-document transaction.
*/
void setIsStartingMultiDocumentTransaction(bool isStartingMultiDocumentTransaction) {
_isStartingMultiDocumentTransaction = isStartingMultiDocumentTransaction;
}
/**
* Sets '_comment'. The client lock must be acquired before calling this method.
*/
void setComment(const BSONObj& comment) {
_comment = comment.getOwned();
}
/**
* Gets '_comment'. The client lock must be acquired when calling from any thread that does
* not own the client associated with the operation.
*/
boost::optional<BSONElement> getComment() {
// The '_comment' object, if present, will only ever have one field.
return _comment ? boost::optional<BSONElement>(_comment->firstElement()) : boost::none;
}
/**
* Sets whether this operation is an exhaust command.
*/
void setExhaust(bool exhaust) {
_exhaust = exhaust;
}
/**
* Returns whether this operation is an exhaust command.
*/
bool isExhaust() const {
return _exhaust;
}
void storeMaxTimeMS(Microseconds maxTime) {
_storedMaxTime = maxTime;
}
/**
* Restore deadline to match the value stored in _storedMaxTime.
*/
void restoreMaxTimeMS();
private:
StatusWith<stdx::cv_status> waitForConditionOrInterruptNoAssertUntil(
stdx::condition_variable& cv, BasicLockableAdapter m, Date_t deadline) noexcept override;
IgnoreInterruptsState pushIgnoreInterrupts() override {
IgnoreInterruptsState iis{_ignoreInterrupts,
{_deadline, _timeoutError, _hasArtificialDeadline}};
_hasArtificialDeadline = true;
setDeadlineByDate(Date_t::max(), ErrorCodes::ExceededTimeLimit);
_ignoreInterrupts = true;
return iis;
}
void popIgnoreInterrupts(IgnoreInterruptsState iis) override {
_ignoreInterrupts = iis.ignoreInterrupts;
setDeadlineByDate(iis.deadline.deadline, iis.deadline.error);
_hasArtificialDeadline = iis.deadline.hasArtificialDeadline;
_markKilledIfDeadlineRequires();
}
DeadlineState pushArtificialDeadline(Date_t deadline, ErrorCodes::Error error) override {
DeadlineState ds{_deadline, _timeoutError, _hasArtificialDeadline};
_hasArtificialDeadline = true;
setDeadlineByDate(std::min(_deadline, deadline), error);
return ds;
}
void popArtificialDeadline(DeadlineState ds) override {
setDeadlineByDate(ds.deadline, ds.error);
_hasArtificialDeadline = ds.hasArtificialDeadline;
_markKilledIfDeadlineRequires();
}
void _markKilledIfDeadlineRequires() {
if (!_ignoreInterrupts && !_hasArtificialDeadline && hasDeadlineExpired() &&
!isKillPending()) {
markKilled(_timeoutError);
}
}
/**
* Returns true if ignoring interrupts other than repl state change and no repl state change
* has occurred.
*/
bool _noReplStateChangeWhileIgnoringOtherInterrupts() const {
return _ignoreInterruptsExceptForReplStateChange &&
getKillStatus() != ErrorCodes::InterruptedDueToReplStateChange &&
!_killRequestedForReplStateChange.loadRelaxed();
}
/**
* Returns true if this operation has a deadline and it has passed according to the fast clock
* on ServiceContext.
*/
bool hasDeadlineExpired() const;
/**
* Sets the deadline and maxTime as described. It is up to the caller to ensure that
* these correctly correspond.
*/
void setDeadlineAndMaxTime(Date_t when, Microseconds maxTime, ErrorCodes::Error timeoutError);
/**
* Compute maxTime based on the given deadline.
*/
Microseconds computeMaxTimeFromDeadline(Date_t when);
/**
* Returns the timepoint that is "waitFor" ms after now according to the
* ServiceContext's precise clock.
*/
Date_t getExpirationDateForWaitForValue(Milliseconds waitFor) override;
/**
* Set whether or not operations should generate oplog entries.
*/
void setReplicatedWrites(bool writesAreReplicated = true) {
_writesAreReplicated = writesAreReplicated;
}
/**
* Increment a count to indicate that the operation is running lock-free.
*/
void incrementLockFreeReadOpCount() {
++_lockFreeReadOpCount;
}
void decrementLockFreeReadOpCount() {
--_lockFreeReadOpCount;
}
friend class WriteUnitOfWork;
friend class repl::UnreplicatedWritesBlock;
friend class LockFreeReadsBlock;
Client* const _client;
const OperationIdSlot _opId;
boost::optional<OperationKey> _opKey;
boost::optional<LogicalSessionId> _lsid;
boost::optional<TxnNumber> _txnNumber;
boost::optional<TxnRetryCounter> _txnRetryCounter;
std::unique_ptr<Locker> _locker;
std::unique_ptr<RecoveryUnit> _recoveryUnit;
WriteUnitOfWork::RecoveryUnitState _ruState =
WriteUnitOfWork::RecoveryUnitState::kNotInUnitOfWork;
// Operations run within a transaction will hold a WriteUnitOfWork for the duration in order
// to maintain two-phase locking.
std::unique_ptr<WriteUnitOfWork> _writeUnitOfWork;
// Follows the values of ErrorCodes::Error. The default value is 0 (OK), which means the
// operation is not killed. If killed, it will contain a specific code. This value changes only
// once from OK to some kill code.
AtomicWord<ErrorCodes::Error> _killCode{ErrorCodes::OK};
// Used to cancel all tokens obtained via getCancellationToken() when this OperationContext is
// killed.
CancellationSource _cancelSource;
BatonHandle _baton;
WriteConcernOptions _writeConcern;
// The timepoint at which this operation exceeds its time limit.
Date_t _deadline = Date_t::max();
ErrorCodes::Error _timeoutError = kDefaultOperationContextTimeoutError;
bool _ignoreInterrupts = false;
bool _hasArtificialDeadline = false;
bool _markKillOnClientDisconnect = false;
Date_t _lastClientCheck;
bool _isExecutingShutdown = false;
// Max operation time requested by the user or by the cursor in the case of a getMore with no
// user-specified maxTimeMS. This is tracked with microsecond granularity for the purpose of
// assigning unused execution time back to a cursor at the end of an operation, only. The
// _deadline and the service context's fast clock are the only values consulted for determining
// if the operation's timelimit has been exceeded.
Microseconds _maxTime = Microseconds::max();
// The value of the maxTimeMS requested by user in the case it was overwritten.
boost::optional<Microseconds> _storedMaxTime;
// Timer counting the elapsed time since the construction of this OperationContext.
Timer _elapsedTime;
bool _writesAreReplicated = true;
bool _shouldIncrementLatencyStats = true;
bool _shouldParticipateInFlowControl = true;
bool _inMultiDocumentTransaction = false;
bool _isStartingMultiDocumentTransaction = false;
bool _ignoreInterruptsExceptForReplStateChange = false;
// Commands from user applications must run validations and enforce constraints. Operations from
// a trusted source, such as initial sync or consuming an oplog entry generated by a primary
// typically desire to ignore constraints.
bool _enforceConstraints = true;
// Counts how many lock-free read operations are running nested.
// Necessary to use a counter rather than a boolean because there is existing code that
// destructs lock helpers out of order.
int _lockFreeReadOpCount = 0;
// If true, this OpCtx will get interrupted during replica set stepUp and stepDown, regardless
// of what locks it's taken.
AtomicWord<bool> _alwaysInterruptAtStepDownOrUp{false};
AtomicWord<bool> _killRequestedForReplStateChange{false};
// If populated, this is an owned singleton BSONObj whose only field, 'comment', is a copy of
// the 'comment' field from the input command object.
boost::optional<BSONObj> _comment;
// Whether this operation is an exhaust command.
bool _exhaust = false;
};
// Gets a TimeZoneDatabase pointer from the ServiceContext.
inline const TimeZoneDatabase* getTimeZoneDatabase(OperationContext* opCtx) {
return opCtx && opCtx->getServiceContext() ? TimeZoneDatabase::get(opCtx->getServiceContext())
: nullptr;
}
namespace repl {
/**
* RAII-style class to turn off replicated writes. Writes do not create oplog entries while the
* object is in scope.
*/
class UnreplicatedWritesBlock {
UnreplicatedWritesBlock(const UnreplicatedWritesBlock&) = delete;
UnreplicatedWritesBlock& operator=(const UnreplicatedWritesBlock&) = delete;
public:
UnreplicatedWritesBlock(OperationContext* opCtx)
: _opCtx(opCtx), _shouldReplicateWrites(opCtx->writesAreReplicated()) {
opCtx->setReplicatedWrites(false);
}
~UnreplicatedWritesBlock() {
_opCtx->setReplicatedWrites(_shouldReplicateWrites);
}
private:
OperationContext* _opCtx;
const bool _shouldReplicateWrites;
};
} // namespace repl
/**
* RAII-style class to indicate the operation is lock-free and code should behave accordingly.
*/
class LockFreeReadsBlock {
LockFreeReadsBlock(const LockFreeReadsBlock&) = delete;
LockFreeReadsBlock& operator=(const LockFreeReadsBlock&) = delete;
public:
LockFreeReadsBlock(OperationContext* opCtx) : _opCtx(opCtx) {
_opCtx->incrementLockFreeReadOpCount();
}
~LockFreeReadsBlock() {
_opCtx->decrementLockFreeReadOpCount();
}
private:
OperationContext* _opCtx;
};
} // namespace mongo
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