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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 <fmt/format.h>
#include <memory>
#include <string>
#include "mongo/bson/util/bson_extract.h"
#include "mongo/client/read_preference.h"
#include "mongo/db/api_parameters.h"
#include "mongo/db/auth/authorization_checks.h"
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/catalog/collection.h"
#include "mongo/db/client.h"
#include "mongo/db/clientcursor.h"
#include "mongo/db/commands.h"
#include "mongo/db/curop.h"
#include "mongo/db/curop_failpoint_helpers.h"
#include "mongo/db/cursor_manager.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/exec/working_set_common.h"
#include "mongo/db/pipeline/change_stream_invalidation_info.h"
#include "mongo/db/query/cursor_response.h"
#include "mongo/db/query/find.h"
#include "mongo/db/query/find_common.h"
#include "mongo/db/query/getmore_command_gen.h"
#include "mongo/db/query/plan_executor.h"
#include "mongo/db/query/plan_summary_stats.h"
#include "mongo/db/read_concern.h"
#include "mongo/db/repl/oplog.h"
#include "mongo/db/repl/replication_coordinator.h"
#include "mongo/db/repl/speculative_majority_read_info.h"
#include "mongo/db/service_context.h"
#include "mongo/db/stats/counters.h"
#include "mongo/db/stats/resource_consumption_metrics.h"
#include "mongo/db/stats/top.h"
#include "mongo/logv2/log.h"
#include "mongo/rpc/rewrite_state_change_errors.h"
#include "mongo/util/fail_point.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/time_support.h"
#define MONGO_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kQuery
namespace mongo {
namespace {
using namespace fmt::literals;
MONGO_FAIL_POINT_DEFINE(rsStopGetMoreCmd);
MONGO_FAIL_POINT_DEFINE(getMoreHangAfterPinCursor);
// The timeout when waiting for linearizable read concern on a getMore command.
static constexpr Milliseconds kLinearizableReadConcernTimeout{15000};
// getMore can run with any readConcern, because cursor-creating commands like find can run with any
// readConcern. However, since getMore automatically uses the readConcern of the command that
// created the cursor, it is not appropriate to apply the default readConcern (just as
// client-specified readConcern isn't appropriate).
static const ReadConcernSupportResult kSupportsReadConcernResult{
Status::OK(),
{{ErrorCodes::InvalidOptions,
"default read concern not permitted (getMore uses the cursor's read concern)"}}};
/**
* Validates that the lsid of 'opCtx' matches that of 'cursor'. This must be called after
* authenticating, so that it is safe to report the lsid of 'cursor'.
*/
void validateLSID(OperationContext* opCtx, int64_t cursorId, const ClientCursor* cursor) {
uassert(50736,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was not created in a session, in session "
<< *opCtx->getLogicalSessionId(),
!opCtx->getLogicalSessionId() || cursor->getSessionId());
uassert(50737,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was created in session " << *cursor->getSessionId()
<< ", without an lsid",
opCtx->getLogicalSessionId() || !cursor->getSessionId());
uassert(50738,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was created in session " << *cursor->getSessionId()
<< ", in session " << *opCtx->getLogicalSessionId(),
!opCtx->getLogicalSessionId() || !cursor->getSessionId() ||
(opCtx->getLogicalSessionId() == cursor->getSessionId()));
}
/**
* Validates that the txnNumber of 'opCtx' matches that of 'cursor'. This must be called after
* authenticating, so that it is safe to report the txnNumber of 'cursor'.
*/
void validateTxnNumber(OperationContext* opCtx, int64_t cursorId, const ClientCursor* cursor) {
uassert(50739,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was not created in a transaction, in transaction "
<< *opCtx->getTxnNumber(),
!opCtx->getTxnNumber() || cursor->getTxnNumber());
uassert(50740,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was created in transaction " << *cursor->getTxnNumber()
<< ", without a txnNumber",
opCtx->getTxnNumber() || !cursor->getTxnNumber());
uassert(50741,
str::stream() << "Cannot run getMore on cursor " << cursorId
<< ", which was created in transaction " << *cursor->getTxnNumber()
<< ", in transaction " << *opCtx->getTxnNumber(),
!opCtx->getTxnNumber() || !cursor->getTxnNumber() ||
(*opCtx->getTxnNumber() == *cursor->getTxnNumber()));
}
/**
* Validate that the client has necessary privileges to call getMore on the given cursor.
*/
void validateAuthorization(const OperationContext* opCtx, const ClientCursor& cursor) {
auto authzSession = AuthorizationSession::get(opCtx->getClient());
// A user can only call getMore on their own cursor.
if (!authzSession->isCoauthorizedWith(cursor.getAuthenticatedUser())) {
uasserted(ErrorCodes::Unauthorized,
str::stream() << "cursor id " << cursor.cursorid()
<< " was not created by the authenticated user");
}
// Ensure that the client still has the privileges to run the originating command.
if (!authzSession->isAuthorizedForPrivileges(cursor.getOriginatingPrivileges())) {
uasserted(ErrorCodes::Unauthorized,
str::stream() << "not authorized for getMore with cursor id "
<< cursor.cursorid());
}
}
/**
* Validate that the command's and cursor's namespaces match.
*/
void validateNamespace(const NamespaceString& commandNss, const ClientCursor& cursor) {
uassert(ErrorCodes::Unauthorized,
str::stream() << "Requested getMore on namespace '" << commandNss.ns()
<< "', but cursor belongs to a different namespace " << cursor.nss().ns(),
commandNss == cursor.nss());
if (commandNss.isOplog() && MONGO_unlikely(rsStopGetMoreCmd.shouldFail())) {
uasserted(ErrorCodes::CommandFailed,
str::stream() << "getMore on " << commandNss.ns()
<< " rejected due to active fail point rsStopGetMoreCmd");
}
}
/**
* Validate that the command's maxTimeMS is only set when the cursor is in awaitData mode.
*/
void validateMaxTimeMS(const boost::optional<std::int64_t>& commandMaxTimeMS,
const ClientCursor& cursor) {
if (commandMaxTimeMS.has_value()) {
uassert(ErrorCodes::BadValue,
"cannot set maxTimeMS on getMore command for a non-awaitData cursor",
cursor.isAwaitData());
}
}
/**
* Apply the read concern from the cursor to this operation.
*/
void applyCursorReadConcern(OperationContext* opCtx, repl::ReadConcernArgs rcArgs) {
const auto replicationMode = repl::ReplicationCoordinator::get(opCtx)->getReplicationMode();
// Select the appropriate read source. If we are in a transaction with read concern majority,
// this will already be set to kNoTimestamp, so don't set it again.
if (replicationMode == repl::ReplicationCoordinator::modeReplSet &&
rcArgs.getLevel() == repl::ReadConcernLevel::kMajorityReadConcern &&
!opCtx->inMultiDocumentTransaction()) {
switch (rcArgs.getMajorityReadMechanism()) {
case repl::ReadConcernArgs::MajorityReadMechanism::kMajoritySnapshot: {
// Make sure we read from the majority snapshot.
opCtx->recoveryUnit()->setTimestampReadSource(
RecoveryUnit::ReadSource::kMajorityCommitted);
uassertStatusOK(opCtx->recoveryUnit()->majorityCommittedSnapshotAvailable());
break;
}
case repl::ReadConcernArgs::MajorityReadMechanism::kSpeculative: {
// Mark the operation as speculative and select the correct read source.
repl::SpeculativeMajorityReadInfo::get(opCtx).setIsSpeculativeRead();
opCtx->recoveryUnit()->setTimestampReadSource(RecoveryUnit::ReadSource::kNoOverlap);
break;
}
}
}
if (replicationMode == repl::ReplicationCoordinator::modeReplSet &&
rcArgs.getLevel() == repl::ReadConcernLevel::kSnapshotReadConcern &&
!opCtx->inMultiDocumentTransaction()) {
auto atClusterTime = rcArgs.getArgsAtClusterTime();
invariant(atClusterTime && *atClusterTime != LogicalTime::kUninitialized);
opCtx->recoveryUnit()->setTimestampReadSource(RecoveryUnit::ReadSource::kProvided,
atClusterTime->asTimestamp());
}
// For cursor commands that take locks internally, the read concern on the
// OperationContext may affect the timestamp read source selected by the storage engine.
// We place the cursor read concern onto the OperationContext so the lock acquisition
// respects the cursor's read concern.
{
stdx::lock_guard<Client> lk(*opCtx->getClient());
repl::ReadConcernArgs::get(opCtx) = rcArgs;
}
}
/**
* Sets a deadline on the operation if the originating command had a maxTimeMS specified or if this
* is a tailable, awaitData cursor.
*/
void setUpOperationDeadline(OperationContext* opCtx,
const ClientCursor& cursor,
const GetMoreCommandRequest& cmd,
bool disableAwaitDataFailpointActive) {
// We assume that cursors created through a DBDirectClient are always used from their
// original OperationContext, so we do not need to move time to and from the cursor.
if (!opCtx->getClient()->isInDirectClient()) {
// There is no time limit set directly on this getMore command. If the cursor is
// awaitData, then we supply a default time of one second. Otherwise we roll over
// any leftover time from the maxTimeMS of the operation that spawned this cursor,
// applying it to this getMore.
if (cursor.isAwaitData() && !disableAwaitDataFailpointActive) {
awaitDataState(opCtx).waitForInsertsDeadline =
opCtx->getServiceContext()->getPreciseClockSource()->now() +
Milliseconds{cmd.getMaxTimeMS().value_or(1000)};
} else if (cursor.getLeftoverMaxTimeMicros() < Microseconds::max()) {
opCtx->setDeadlineAfterNowBy(cursor.getLeftoverMaxTimeMicros(),
ErrorCodes::MaxTimeMSExpired);
}
}
}
/**
* Sets up the OperationContext in order to correctly inherit options like the read concern from the
* cursor to this operation.
*/
void setUpOperationContextStateForGetMore(OperationContext* opCtx,
const ClientCursor& cursor,
const GetMoreCommandRequest& cmd,
bool disableAwaitDataFailpointActive) {
applyCursorReadConcern(opCtx, cursor.getReadConcernArgs());
opCtx->setWriteConcern(cursor.getWriteConcernOptions());
ReadPreferenceSetting::get(opCtx) = cursor.getReadPreferenceSetting();
auto apiParamsFromClient = APIParameters::get(opCtx);
uassert(
ErrorCodes::APIMismatchError,
"API parameter mismatch: getMore used params {}, the cursor-creating command used {}"_format(
apiParamsFromClient.toBSON().toString(), cursor.getAPIParameters().toBSON().toString()),
apiParamsFromClient == cursor.getAPIParameters());
setUpOperationDeadline(opCtx, cursor, cmd, disableAwaitDataFailpointActive);
// If the originating command had a 'comment' field, we extract it and set it on opCtx. Note
// that if the 'getMore' command itself has a 'comment' field, we give precedence to it.
auto comment = cursor.getOriginatingCommandObj()["comment"];
if (!opCtx->getComment() && comment) {
stdx::lock_guard<Client> lk(*opCtx->getClient());
opCtx->setComment(comment.wrap());
}
}
/**
* A command for running getMore() against an existing cursor registered with a CursorManager.
* Used to generate the next batch of results for a ClientCursor.
*
* Can be used in combination with any cursor-generating command (e.g. find, aggregate,
* listIndexes).
*/
class GetMoreCmd final : public Command {
public:
GetMoreCmd() : Command("getMore") {}
const std::set<std::string>& apiVersions() const {
return kApiVersions1;
}
std::unique_ptr<CommandInvocation> parse(OperationContext* opCtx,
const OpMsgRequest& opMsgRequest) override {
return std::make_unique<Invocation>(this, opMsgRequest);
}
bool allowedInTransactions() const final {
return true;
}
bool allowedWithSecurityToken() const final {
return true;
}
class Invocation final : public CommandInvocation {
public:
Invocation(Command* cmd, const OpMsgRequest& request)
: CommandInvocation(cmd),
_cmd(GetMoreCommandRequest::parse(IDLParserContext{"getMore"}, request)) {
NamespaceString nss(_cmd.getDbName(), _cmd.getCollection());
uassert(ErrorCodes::InvalidNamespace,
str::stream() << "Invalid namespace for getMore: " << nss.ns(),
nss.isValid());
}
private:
bool supportsWriteConcern() const override {
return false;
}
ReadConcernSupportResult supportsReadConcern(repl::ReadConcernLevel level,
bool isImplicitDefault) const override {
return kSupportsReadConcernResult;
}
bool allowsAfterClusterTime() const override {
return false;
}
bool canIgnorePrepareConflicts() const override {
return true;
}
NamespaceString ns() const override {
return NamespaceString(_cmd.getDbName(), _cmd.getCollection());
}
void doCheckAuthorization(OperationContext* opCtx) const override {
uassertStatusOK(auth::checkAuthForGetMore(AuthorizationSession::get(opCtx->getClient()),
ns(),
_cmd.getCommandParameter(),
_cmd.getTerm().has_value()));
}
/**
* Uses 'cursor' and 'request' to fill out 'nextBatch' with the batch of result documents to
* be returned by this getMore.
*
* Returns true if the cursor should be saved for subsequent getMores, and false otherwise.
* Fills out *numResults with the number of documents in the batch, which must be
* initialized to zero by the caller.
*
* Throws an exception on failure.
*/
bool generateBatch(OperationContext* opCtx,
ClientCursor* cursor,
const GetMoreCommandRequest& cmd,
const bool isTailable,
CursorResponseBuilder* nextBatch,
std::uint64_t* numResults,
ResourceConsumption::DocumentUnitCounter* docUnitsReturned) {
PlanExecutor* exec = cursor->getExecutor();
// If an awaitData getMore is killed during this process due to our max time expiring at
// an interrupt point, we just continue as normal and return rather than reporting a
// timeout to the user.
BSONObj obj;
PlanExecutor::ExecState state;
size_t batchSize = cmd.getBatchSize().value_or(0);
try {
while (!FindCommon::enoughForGetMore(batchSize, *numResults) &&
PlanExecutor::ADVANCED == (state = exec->getNext(&obj, nullptr))) {
// If adding this object will cause us to exceed the message size limit, then we
// stash it for later.
if (!FindCommon::haveSpaceForNext(obj, *numResults, nextBatch->bytesUsed())) {
exec->stashResult(obj);
break;
}
// As soon as we get a result, this operation no longer waits.
awaitDataState(opCtx).shouldWaitForInserts = false;
// If this executor produces a postBatchResumeToken, add it to the response.
nextBatch->setPostBatchResumeToken(exec->getPostBatchResumeToken());
// At this point, we know that there will be at least one document in this
// batch. Reserve an initial estimated number of bytes for the response.
if (*numResults == 0) {
auto bytesToReserve = FindCommon::getBytesToReserveForGetMoreReply(
isTailable, obj.objsize(), batchSize);
nextBatch->reserveReplyBuffer(bytesToReserve);
}
nextBatch->append(obj);
(*numResults)++;
docUnitsReturned->observeOne(obj.objsize());
}
} catch (const ExceptionFor<ErrorCodes::CloseChangeStream>&) {
// This exception indicates that we should close the cursor without reporting an
// error.
return false;
} catch (const ExceptionFor<ErrorCodes::ChangeStreamInvalidated>& ex) {
// This exception is thrown when a change-stream cursor is invalidated. Set the PBRT
// to the resume token of the invalidating event, and mark the cursor response as
// invalidated. We always expect to have ExtraInfo for this error code.
const auto extraInfo = ex.extraInfo<ChangeStreamInvalidationInfo>();
tassert(5493700, "Missing ChangeStreamInvalidationInfo on exception", extraInfo);
nextBatch->setPostBatchResumeToken(extraInfo->getInvalidateResumeToken());
nextBatch->setInvalidated();
return false;
} catch (DBException& exception) {
nextBatch->abandon();
auto&& explainer = exec->getPlanExplainer();
auto&& [stats, _] =
explainer.getWinningPlanStats(ExplainOptions::Verbosity::kExecStats);
LOGV2_WARNING(20478,
"getMore command executor error: {error}, stats: {stats}, cmd: {cmd}",
"getMore command executor error",
"error"_attr = exception.toStatus(),
"stats"_attr = redact(stats),
"cmd"_attr = cmd.toBSON({}));
exception.addContext("Executor error during getMore");
throw;
}
if (state == PlanExecutor::IS_EOF) {
// The latest oplog timestamp may advance even when there are no results. Ensure
// that we have the latest postBatchResumeToken produced by the plan executor.
// The getMore command does not accept a batchSize of 0, so empty batches are
// always caused by hitting EOF and do not need to be handled separately.
nextBatch->setPostBatchResumeToken(exec->getPostBatchResumeToken());
}
return shouldSaveCursorGetMore(exec, isTailable);
}
void acquireLocksAndIterateCursor(OperationContext* opCtx,
rpc::ReplyBuilderInterface* reply,
ClientCursorPin& cursorPin,
CurOp* curOp) {
// Cursors come in one of two flavors:
//
// - Cursors which read from a single collection, such as those generated via the
// find command. For these cursors, we hold the appropriate collection lock for the
// duration of the getMore using AutoGetCollectionForRead. These cursors have the
// 'kLockExternally' lock policy.
//
// - Cursors which may read from many collections, e.g. those generated via the
// aggregate command, or which do not read from a collection at all, e.g. those
// generated by the listIndexes command. We don't need to acquire locks to use these
// cursors, since they either manage locking themselves or don't access data protected
// by collection locks. These cursors have the 'kLocksInternally' lock policy.
//
// While we only need to acquire locks for 'kLockExternally' cursors, we need to create
// an AutoStatsTracker in either case. This is responsible for updating statistics in
// CurOp and Top. We avoid using AutoGetCollectionForReadCommand because we may need to
// drop and reacquire locks when the cursor is awaitData, but we don't want to update
// the stats twice.
boost::optional<AutoGetCollectionForReadMaybeLockFree> readLock;
boost::optional<AutoStatsTracker> statsTracker;
NamespaceString nss(_cmd.getDbName(), _cmd.getCollection());
const bool disableAwaitDataFailpointActive =
MONGO_unlikely(disableAwaitDataForGetMoreCmd.shouldFail());
// Inherit properties like readConcern and maxTimeMS from our originating cursor.
setUpOperationContextStateForGetMore(
opCtx, *cursorPin.getCursor(), _cmd, disableAwaitDataFailpointActive);
// On early return, typically due to a failed assertion, delete the cursor.
ScopeGuard cursorDeleter([&] { cursorPin.deleteUnderlying(); });
if (cursorPin->getExecutor()->lockPolicy() ==
PlanExecutor::LockPolicy::kLocksInternally) {
if (!nss.isCollectionlessCursorNamespace()) {
statsTracker.emplace(
opCtx,
nss,
Top::LockType::NotLocked,
AutoStatsTracker::LogMode::kUpdateTopAndCurOp,
CollectionCatalog::get(opCtx)->getDatabaseProfileLevel(nss.dbName()));
}
} else {
invariant(cursorPin->getExecutor()->lockPolicy() ==
PlanExecutor::LockPolicy::kLockExternally);
// Lock the backing collection by using the executor's namespace. Note that it may
// be different from the cursor's namespace. One such possible scenario is when
// getMore() is executed against a view. Technically, views are pipelines and under
// normal circumstances use 'kLocksInternally' policy, so we shouldn't be getting
// into here in the first place. However, if the pipeline was optimized away and
// replaced with a query plan, its lock policy would have also been changed to
// 'kLockExternally'. So, we'll use the executor's namespace to take the lock (which
// is always the backing collection namespace), but will use the namespace provided
// in the user request for profiling.
// Otherwise, these two namespaces will match.
// Note that some pipelines which were optimized away may require locking multiple
// namespaces. As such, we pass any secondary namespaces required by the pinned
// cursor's executor when constructing 'readLock'.
readLock.emplace(opCtx,
cursorPin->getExecutor()->nss(),
AutoGetCollectionViewMode::kViewsForbidden,
Date_t::max(),
cursorPin->getExecutor()->getSecondaryNamespaces());
statsTracker.emplace(
opCtx,
nss,
Top::LockType::ReadLocked,
AutoStatsTracker::LogMode::kUpdateTopAndCurOp,
CollectionCatalog::get(opCtx)->getDatabaseProfileLevel(nss.dbName()));
// Check whether we are allowed to read from this node after acquiring our locks.
uassertStatusOK(repl::ReplicationCoordinator::get(opCtx)->checkCanServeReadsFor(
opCtx, nss, true));
}
if (MONGO_unlikely(waitAfterPinningCursorBeforeGetMoreBatch.shouldFail())) {
CurOpFailpointHelpers::waitWhileFailPointEnabled(
&waitAfterPinningCursorBeforeGetMoreBatch,
opCtx,
"waitAfterPinningCursorBeforeGetMoreBatch",
[]() {}, /*empty function*/
nss);
}
if (!cursorPin->isAwaitData()) {
opCtx->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point.
}
PlanExecutor* exec = cursorPin->getExecutor();
const auto* cq = exec->getCanonicalQuery();
if (cq && cq->getFindCommandRequest().getReadOnce()) {
// The readOnce option causes any storage-layer cursors created during plan
// execution to assume read data will not be needed again and need not be cached.
opCtx->recoveryUnit()->setReadOnce(true);
}
exec->reattachToOperationContext(opCtx);
exec->restoreState(readLock ? &readLock->getCollection() : nullptr);
auto planSummary = exec->getPlanExplainer().getPlanSummary();
{
stdx::lock_guard<Client> lk(*opCtx->getClient());
curOp->setPlanSummary_inlock(planSummary);
// Ensure that the original query or command object is available in the slow query
// log, profiler and currentOp.
auto originatingCommand = cursorPin->getOriginatingCommandObj();
if (!originatingCommand.isEmpty()) {
curOp->setOriginatingCommand_inlock(originatingCommand);
}
// Update the genericCursor stored in curOp with the new cursor stats.
curOp->setGenericCursor_inlock(cursorPin->toGenericCursor());
}
// If the 'failGetMoreAfterCursorCheckout' failpoint is enabled, throw an exception with
// the given 'errorCode' value, or ErrorCodes::InternalError if 'errorCode' is omitted.
failGetMoreAfterCursorCheckout.executeIf(
[&](const BSONObj& data) {
rpc::RewriteStateChangeErrors::onActiveFailCommand(opCtx, data);
auto errorCode = (data["errorCode"] ? data["errorCode"].safeNumberLong()
: ErrorCodes::InternalError);
uasserted(errorCode, "Hit the 'failGetMoreAfterCursorCheckout' failpoint");
},
[&opCtx, &cursorPin](const BSONObj& data) {
auto dataForFailCommand =
data.addField(BSON("failCommands" << BSON_ARRAY("getMore")).firstElement());
auto* getMoreCommand = CommandHelpers::findCommand("getMore");
return CommandHelpers::shouldActivateFailCommandFailPoint(
dataForFailCommand, cursorPin->nss(), getMoreCommand, opCtx->getClient());
});
CursorId respondWithId = 0;
CursorResponseBuilder::Options options;
if (!opCtx->inMultiDocumentTransaction()) {
options.atClusterTime = repl::ReadConcernArgs::get(opCtx).getArgsAtClusterTime();
}
CursorResponseBuilder nextBatch(reply, options);
BSONObj obj;
std::uint64_t numResults = 0;
ResourceConsumption::DocumentUnitCounter docUnitsReturned;
// We report keysExamined and docsExamined to OpDebug for a given getMore operation. To
// obtain these values we need to take a diff of the pre-execution and post-execution
// metrics, as they accumulate over the course of a cursor's lifetime.
PlanSummaryStats preExecutionStats;
exec->getPlanExplainer().getSummaryStats(&preExecutionStats);
// Mark this as an AwaitData operation if appropriate.
if (cursorPin->isAwaitData() && !disableAwaitDataFailpointActive) {
auto lastKnownCommittedOpTime = _cmd.getLastKnownCommittedOpTime();
if (opCtx->isExhaust() && cursorPin->getLastKnownCommittedOpTime()) {
// Use the commit point of the last batch for exhaust cursors.
lastKnownCommittedOpTime = cursorPin->getLastKnownCommittedOpTime();
}
if (lastKnownCommittedOpTime) {
clientsLastKnownCommittedOpTime(opCtx) = lastKnownCommittedOpTime.value();
}
awaitDataState(opCtx).shouldWaitForInserts = true;
}
waitWithPinnedCursorDuringGetMoreBatch.execute([&](const BSONObj& data) {
CurOpFailpointHelpers::waitWhileFailPointEnabled(
&waitWithPinnedCursorDuringGetMoreBatch,
opCtx,
"waitWithPinnedCursorDuringGetMoreBatch",
[]() {}, /*empty function*/
nss);
});
const auto shouldSaveCursor = generateBatch(opCtx,
cursorPin.getCursor(),
_cmd,
cursorPin->isTailable(),
&nextBatch,
&numResults,
&docUnitsReturned);
PlanSummaryStats postExecutionStats;
exec->getPlanExplainer().getSummaryStats(&postExecutionStats);
postExecutionStats.totalKeysExamined -= preExecutionStats.totalKeysExamined;
postExecutionStats.totalDocsExamined -= preExecutionStats.totalDocsExamined;
curOp->debug().setPlanSummaryMetrics(postExecutionStats);
// We do not report 'execStats' for aggregation or other cursors with the
// 'kLocksInternally' policy, both in the original request and subsequent getMore. It
// would be useful to have this info for an aggregation, but the source PlanExecutor
// could be destroyed before we know if we need 'execStats' and we do not want to
// generate the stats eagerly for all operations due to cost.
if (cursorPin->getExecutor()->lockPolicy() !=
PlanExecutor::LockPolicy::kLocksInternally &&
curOp->shouldDBProfile(opCtx)) {
auto&& explainer = exec->getPlanExplainer();
auto&& [stats, _] =
explainer.getWinningPlanStats(ExplainOptions::Verbosity::kExecStats);
curOp->debug().execStats = std::move(stats);
}
if (shouldSaveCursor) {
respondWithId = cursorPin->cursorid();
exec->saveState();
exec->detachFromOperationContext();
cursorPin->setLeftoverMaxTimeMicros(opCtx->getRemainingMaxTimeMicros());
if (opCtx->isExhaust() && !clientsLastKnownCommittedOpTime(opCtx).isNull()) {
// Set the commit point of the latest batch.
auto replCoord = repl::ReplicationCoordinator::get(opCtx);
cursorPin->setLastKnownCommittedOpTime(replCoord->getLastCommittedOpTime());
}
} else {
curOp->debug().cursorExhausted = true;
}
nextBatch.done(respondWithId, nss.ns());
// Increment this metric once we have generated a response and we know it will return
// documents.
auto& metricsCollector = ResourceConsumption::MetricsCollector::get(opCtx);
metricsCollector.incrementDocUnitsReturned(curOp->getNS(), docUnitsReturned);
cursorPin->incNReturnedSoFar(numResults);
cursorPin->incNBatches();
// Ensure log and profiler include the number of results returned in this getMore's
// response batch.
curOp->debug().nreturned = numResults;
if (respondWithId) {
cursorDeleter.dismiss();
if (opCtx->isExhaust()) {
// Indicate that an exhaust message should be generated and the previous BSONObj
// command parameters should be reused as the next BSONObj command parameters.
reply->setNextInvocation(boost::none);
}
}
}
void run(OperationContext* opCtx, rpc::ReplyBuilderInterface* reply) override {
// Counted as a getMore, not as a command.
globalOpCounters.gotGetMore();
auto curOp = CurOp::get(opCtx);
NamespaceString nss = ns();
int64_t cursorId = _cmd.getCommandParameter();
curOp->debug().cursorid = cursorId;
// The presence of a term in the request indicates that this is an internal replication
// oplog read request.
if (_cmd.getTerm() && nss == NamespaceString::kRsOplogNamespace) {
// Validate term before acquiring locks.
auto replCoord = repl::ReplicationCoordinator::get(opCtx);
// Note: updateTerm returns ok if term stayed the same.
uassertStatusOK(replCoord->updateTerm(opCtx, *_cmd.getTerm()));
// If the term field is present in an oplog request, it means this is an oplog
// getMore for replication oplog fetching because the term field is only allowed for
// internal clients (see checkAuthForGetMore).
curOp->debug().isReplOplogGetMore = true;
// We do not want to take tickets for internal (replication) oplog reads. Stalling
// on ticket acquisition can cause complicated deadlocks. Primaries may depend on
// data reaching secondaries in order to proceed; and secondaries may get stalled
// replicating because of an inability to acquire a read ticket.
opCtx->lockState()->setAdmissionPriority(AdmissionContext::Priority::kImmediate);
}
// Perform validation checks which don't cause the cursor to be deleted on failure.
auto pinCheck = [&](const ClientCursor& cc) {
validateLSID(opCtx, cursorId, &cc);
validateTxnNumber(opCtx, cursorId, &cc);
validateAuthorization(opCtx, cc);
validateNamespace(nss, cc);
validateMaxTimeMS(_cmd.getMaxTimeMS(), cc);
};
auto cursorPin =
uassertStatusOK(CursorManager::get(opCtx)->pinCursor(opCtx, cursorId, pinCheck));
// Get the read concern level here in case the cursor is exhausted while iterating.
const auto isLinearizableReadConcern = cursorPin->getReadConcernArgs().getLevel() ==
repl::ReadConcernLevel::kLinearizableReadConcern;
acquireLocksAndIterateCursor(opCtx, reply, cursorPin, curOp);
if (MONGO_unlikely(getMoreHangAfterPinCursor.shouldFail())) {
LOGV2(20477,
"getMoreHangAfterPinCursor fail point enabled. Blocking until fail "
"point is disabled");
getMoreHangAfterPinCursor.pauseWhileSet(opCtx);
}
if (isLinearizableReadConcern) {
// waitForLinearizableReadConcern performs a NoOp write and waits for that write
// to have been majority committed. awaitReplication requires that we release all
// locks to prevent blocking for a long time while doing network activity. Since
// getMores do not have support for a maxTimeout duration, we hardcode the timeout
// to avoid waiting indefinitely.
uassertStatusOK(
mongo::waitForLinearizableReadConcern(opCtx, kLinearizableReadConcernTimeout));
}
// We're about to unpin or delete the cursor as the ClientCursorPin goes out of scope.
// If the 'waitBeforeUnpinningOrDeletingCursorAfterGetMoreBatch' failpoint is active, we
// set the 'msg' field of this operation's CurOp to signal that we've hit this point and
// then spin until the failpoint is released.
if (MONGO_unlikely(waitBeforeUnpinningOrDeletingCursorAfterGetMoreBatch.shouldFail())) {
CurOpFailpointHelpers::waitWhileFailPointEnabled(
&waitBeforeUnpinningOrDeletingCursorAfterGetMoreBatch,
opCtx,
"waitBeforeUnpinningOrDeletingCursorAfterGetMoreBatch");
}
if (getTestCommandsEnabled()) {
validateResult(reply);
}
}
void validateResult(rpc::ReplyBuilderInterface* reply) {
auto ret = reply->getBodyBuilder().asTempObj();
CursorGetMoreReply::parse(IDLParserContext{"CursorGetMoreReply"},
ret.removeField("ok"));
}
const GetMoreCommandRequest _cmd;
};
bool maintenanceOk() const override {
return false;
}
AllowedOnSecondary secondaryAllowed(ServiceContext*) const override {
return AllowedOnSecondary::kAlways;
}
ReadWriteType getReadWriteType() const override {
return ReadWriteType::kRead;
}
std::string help() const override {
return "retrieve more results from an existing cursor";
}
LogicalOp getLogicalOp() const override {
return LogicalOp::opGetMore;
}
bool collectsResourceConsumptionMetrics() const override {
return true;
}
/**
* A getMore command increments the getMore counter, not the command counter.
*/
bool shouldAffectCommandCounter() const override {
return false;
}
bool adminOnly() const override {
return false;
}
} getMoreCmd;
} // namespace
} // namespace mongo
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