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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.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kDefault
#include "mongo/platform/basic.h"
#include "mongo/db/operation_context.h"
#include "mongo/bson/inline_decls.h"
#include "mongo/db/client.h"
#include "mongo/db/service_context.h"
#include "mongo/platform/mutex.h"
#include "mongo/platform/random.h"
#include "mongo/transport/baton.h"
#include "mongo/util/assert_util.h"
#include "mongo/util/clock_source.h"
#include "mongo/util/fail_point_service.h"
#include "mongo/util/log.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/system_tick_source.h"
namespace mongo {
namespace {
// 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.
MONGO_FAIL_POINT_DEFINE(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.
MONGO_FAIL_POINT_DEFINE(maxTimeNeverTimeOut);
// Enabling the checkForInterruptFail fail point will start a game of random chance on the
// connection specified in the fail point data, generating an interrupt with a given fixed
// probability. Example invocation:
//
// {configureFailPoint: "checkForInterruptFail",
// mode: "alwaysOn",
// data: {threadName: "threadName", chance: .01}}
//
// Both data fields must be specified. In the above example, all interrupt points on the thread with
// name 'threadName' will generate a kill on the current operation with probability p(.01),
// including interrupt points of nested operations. "chance" must be a double between 0 and 1,
// inclusive.
MONGO_FAIL_POINT_DEFINE(checkForInterruptFail);
const auto kNoWaiterThread = stdx::thread::id();
} // namespace
OperationContext::OperationContext(Client* client, OperationId opId)
: OperationContext(client, OperationIdSlot(opId)) {}
OperationContext::OperationContext(Client* client, OperationIdSlot&& opIdSlot)
: _client(client),
_opId(std::move(opIdSlot)),
_elapsedTime(client ? client->getServiceContext()->getTickSource()
: SystemTickSource::get()) {}
OperationContext::~OperationContext() = default;
void OperationContext::setDeadlineAndMaxTime(Date_t when,
Microseconds maxTime,
ErrorCodes::Error timeoutError) {
invariant(!getClient()->isInDirectClient() || _hasArtificialDeadline);
invariant(ErrorCodes::isExceededTimeLimitError(timeoutError));
invariant(!ErrorExtraInfo::parserFor(timeoutError));
uassert(40120,
"Illegal attempt to change operation deadline",
_hasArtificialDeadline || !hasDeadline());
_deadline = when;
_maxTime = maxTime;
_timeoutError = timeoutError;
}
Microseconds OperationContext::computeMaxTimeFromDeadline(Date_t when) {
Microseconds maxTime;
if (when == Date_t::max()) {
maxTime = Microseconds::max();
} else {
maxTime = when - getServiceContext()->getFastClockSource()->now();
if (maxTime < Microseconds::zero()) {
maxTime = Microseconds::zero();
}
}
return maxTime;
}
void OperationContext::setDeadlineByDate(Date_t when, ErrorCodes::Error timeoutError) {
setDeadlineAndMaxTime(when, computeMaxTimeFromDeadline(when), timeoutError);
}
void OperationContext::setDeadlineAfterNowBy(Microseconds maxTime, ErrorCodes::Error timeoutError) {
Date_t when;
if (maxTime < Microseconds::zero()) {
maxTime = Microseconds::zero();
}
if (maxTime == Microseconds::max()) {
when = Date_t::max();
} else {
auto clock = getServiceContext()->getFastClockSource();
when = clock->now();
if (maxTime > Microseconds::zero()) {
when += clock->getPrecision() + maxTime;
}
}
setDeadlineAndMaxTime(when, maxTime, timeoutError);
}
bool OperationContext::hasDeadlineExpired() const {
if (!hasDeadline()) {
return false;
}
if (MONGO_FAIL_POINT(maxTimeNeverTimeOut)) {
return false;
}
if (MONGO_FAIL_POINT(maxTimeAlwaysTimeOut)) {
return true;
}
// TODO: Remove once all OperationContexts are properly connected to Clients and ServiceContexts
// in tests.
if (MONGO_unlikely(!getClient() || !getServiceContext())) {
return false;
}
const auto now = getServiceContext()->getFastClockSource()->now();
return now >= getDeadline();
}
ErrorCodes::Error OperationContext::getTimeoutError() const {
return _timeoutError;
}
Milliseconds OperationContext::getRemainingMaxTimeMillis() const {
if (!hasDeadline()) {
return Milliseconds::max();
}
return std::max(Milliseconds{0},
getDeadline() - getServiceContext()->getFastClockSource()->now());
}
Microseconds OperationContext::getRemainingMaxTimeMicros() const {
if (!hasDeadline()) {
return Microseconds::max();
}
return _maxTime - getElapsedTime();
}
namespace {
// Helper function for checkForInterrupt fail point. Decides whether the operation currently
// being run by the given Client meet the (probabilistic) conditions for interruption as
// specified in the fail point info.
bool opShouldFail(Client* client, const BSONObj& failPointInfo) {
// Only target the client with the specified connection number.
if (client->desc() != failPointInfo["threadName"].valuestrsafe()) {
return false;
}
// Return true with (approx) probability p = "chance". Recall: 0 <= chance <= 1.
double next = client->getPrng().nextCanonicalDouble();
if (next > failPointInfo["chance"].numberDouble()) {
return false;
}
return true;
}
} // namespace
Status OperationContext::checkForInterruptNoAssert() noexcept {
const auto killStatus = getKillStatus();
if (_ignoreInterruptsExceptForReplStateChange &&
killStatus != ErrorCodes::InterruptedDueToReplStateChange &&
!_killRequestedForReplStateChange.loadRelaxed()) {
return Status::OK();
}
// TODO: Remove the MONGO_likely(hasClientAndServiceContext) once all operation contexts are
// constructed with clients.
const auto hasClientAndServiceContext = getClient() && getServiceContext();
if (MONGO_likely(hasClientAndServiceContext) && getClient()->getKilled() &&
!_isExecutingShutdown) {
return Status(ErrorCodes::ClientMarkedKilled, "client has been killed");
}
if (MONGO_likely(hasClientAndServiceContext) && getServiceContext()->getKillAllOperations() &&
!_isExecutingShutdown) {
return Status(ErrorCodes::InterruptedAtShutdown, "interrupted at shutdown");
}
if (hasDeadlineExpired()) {
if (!_hasArtificialDeadline) {
markKilled(_timeoutError);
}
return Status(_timeoutError, "operation exceeded time limit");
}
if (_ignoreInterrupts) {
return Status::OK();
}
MONGO_FAIL_POINT_BLOCK(checkForInterruptFail, scopedFailPoint) {
if (opShouldFail(getClient(), scopedFailPoint.getData())) {
log() << "set pending kill on op " << getOpID() << ", for checkForInterruptFail";
markKilled();
}
}
if (killStatus != ErrorCodes::OK) {
return Status(killStatus, "operation was interrupted");
}
if (_markKillOnClientDisconnect) {
const auto now = getServiceContext()->getFastClockSource()->now();
if (now > _lastClientCheck + Milliseconds(500)) {
_lastClientCheck = now;
if (!getClient()->session()->isConnected()) {
markKilled(ErrorCodes::ClientDisconnect);
return Status(ErrorCodes::ClientDisconnect,
"operation was interrupted because a client disconnected");
}
}
}
return Status::OK();
}
// waitForConditionOrInterruptNoAssertUntil returns when:
//
// Normal condvar wait criteria:
// - cv is notified
// - deadline is passed
//
// OperationContext kill criteria:
// - _deadline is passed (artificial deadline or maxTimeMS)
// - markKilled is called (killOp)
//
// Baton criteria:
// - _baton is notified (someone's queuing work for the baton)
// - _baton::run returns (timeout fired / networking is ready / socket disconnected)
StatusWith<stdx::cv_status> OperationContext::waitForConditionOrInterruptNoAssertUntil(
stdx::condition_variable& cv, BasicLockableAdapter m, Date_t deadline) noexcept {
invariant(getClient());
if (auto status = checkForInterruptNoAssert(); !status.isOK()) {
return status;
}
// If the maxTimeNeverTimeOut failpoint is set, behave as though the operation's deadline does
// not exist. Under normal circumstances, if the op has an existing deadline which is sooner
// than the deadline passed into this method, we replace our deadline with the op's. This means
// that we expect to time out at the same time as the existing deadline expires. If, when we
// time out, we find that the op's deadline has not expired (as will always be the case if
// maxTimeNeverTimeOut is set) then we assume that the incongruity is due to a clock mismatch
// and return _timeoutError regardless. To prevent this behaviour, only consider the op's
// deadline in the event that the maxTimeNeverTimeOut failpoint is not set.
bool opHasDeadline = (hasDeadline() && !MONGO_FAIL_POINT(maxTimeNeverTimeOut));
if (opHasDeadline) {
deadline = std::min(deadline, getDeadline());
}
const auto waitStatus = [&] {
if (Date_t::max() == deadline) {
Waitable::wait(_baton.get(), getServiceContext()->getPreciseClockSource(), cv, m);
return stdx::cv_status::no_timeout;
}
return getServiceContext()->getPreciseClockSource()->waitForConditionUntil(
cv, m, deadline, _baton.get());
}();
if (auto status = checkForInterruptNoAssert(); !status.isOK()) {
return status;
}
if (opHasDeadline && waitStatus == stdx::cv_status::timeout && deadline == getDeadline()) {
// It's possible that the system clock used in stdx::condition_variable::wait_until
// is slightly ahead of the FastClock used in checkForInterrupt. In this case,
// we treat the operation as though it has exceeded its time limit, just as if the
// FastClock and system clock had agreed.
if (!_hasArtificialDeadline) {
markKilled(_timeoutError);
}
return Status(_timeoutError, "operation exceeded time limit");
}
return waitStatus;
}
void OperationContext::markKilled(ErrorCodes::Error killCode) {
invariant(killCode != ErrorCodes::OK);
invariant(!ErrorExtraInfo::parserFor(killCode));
if (killCode == ErrorCodes::ClientDisconnect) {
log() << "operation was interrupted because a client disconnected";
}
// Record that a kill was requested on this operationContext due to replication state change
// since it is possible to call markKilled() multiple times but only the first killCode will
// be preserved.
if (killCode == ErrorCodes::InterruptedDueToReplStateChange) {
_killRequestedForReplStateChange.store(true);
}
if (auto status = ErrorCodes::OK; _killCode.compareAndSwap(&status, killCode)) {
_baton->notify();
}
}
void OperationContext::markKillOnClientDisconnect() {
if (getClient()->isInDirectClient()) {
return;
}
if (_markKillOnClientDisconnect) {
return;
}
if (getClient() && getClient()->session()) {
_lastClientCheck = getServiceContext()->getFastClockSource()->now();
_markKillOnClientDisconnect = true;
if (_baton) {
_baton->markKillOnClientDisconnect();
}
}
}
void OperationContext::setIsExecutingShutdown() {
invariant(!_isExecutingShutdown);
_isExecutingShutdown = true;
pushIgnoreInterrupts();
}
void OperationContext::setLogicalSessionId(LogicalSessionId lsid) {
_lsid = std::move(lsid);
}
void OperationContext::setTxnNumber(TxnNumber txnNumber) {
invariant(_lsid);
_txnNumber = txnNumber;
}
std::unique_ptr<RecoveryUnit> OperationContext::releaseRecoveryUnit() {
return std::move(_recoveryUnit);
}
WriteUnitOfWork::RecoveryUnitState OperationContext::setRecoveryUnit(
std::unique_ptr<RecoveryUnit> unit, WriteUnitOfWork::RecoveryUnitState state) {
_recoveryUnit = std::move(unit);
WriteUnitOfWork::RecoveryUnitState oldState = _ruState;
_ruState = state;
return oldState;
}
void OperationContext::setLockState(std::unique_ptr<Locker> locker) {
invariant(!_locker);
invariant(locker);
_locker = std::move(locker);
}
std::unique_ptr<Locker> OperationContext::swapLockState(std::unique_ptr<Locker> locker) {
invariant(_locker);
invariant(locker);
_locker.swap(locker);
return locker;
}
Date_t OperationContext::getExpirationDateForWaitForValue(Milliseconds waitFor) {
return getServiceContext()->getPreciseClockSource()->now() + waitFor;
}
bool OperationContext::isIgnoringInterrupts() const {
return _ignoreInterrupts;
}
} // namespace mongo
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