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/**
* Copyright (C) 2017 MongoDB Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the GNU Affero General Public License in all respects
* for all of the code used other than as permitted herein. If you modify
* file(s) with this exception, you may extend this exception to your
* version of the file(s), but you are not obligated to do so. If you do not
* wish to do so, delete this exception statement from your version. If you
* delete this exception statement from all source files in the program,
* then also delete it in the license file.
*/
#define MONGO_LOG_DEFAULT_COMPONENT ::mongo::logger::LogComponent::kCommand
#include "mongo/platform/basic.h"
#include "mongo/db/commands/run_aggregate.h"
#include <boost/optional.hpp>
#include <vector>
#include "mongo/db/auth/authorization_session.h"
#include "mongo/db/catalog/database.h"
#include "mongo/db/curop.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/exec/pipeline_proxy.h"
#include "mongo/db/exec/working_set_common.h"
#include "mongo/db/namespace_string.h"
#include "mongo/db/pipeline/accumulator.h"
#include "mongo/db/pipeline/document.h"
#include "mongo/db/pipeline/document_source.h"
#include "mongo/db/pipeline/expression.h"
#include "mongo/db/pipeline/expression_context.h"
#include "mongo/db/pipeline/lite_parsed_pipeline.h"
#include "mongo/db/pipeline/pipeline.h"
#include "mongo/db/pipeline/pipeline_d.h"
#include "mongo/db/query/collation/collator_factory_interface.h"
#include "mongo/db/query/cursor_response.h"
#include "mongo/db/query/find_common.h"
#include "mongo/db/query/get_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/read_concern_args.h"
#include "mongo/db/service_context.h"
#include "mongo/db/storage/storage_options.h"
#include "mongo/db/views/view.h"
#include "mongo/db/views/view_catalog.h"
#include "mongo/db/views/view_sharding_check.h"
#include "mongo/stdx/memory.h"
#include "mongo/util/log.h"
#include "mongo/util/scopeguard.h"
#include "mongo/util/string_map.h"
namespace mongo {
using boost::intrusive_ptr;
using std::endl;
using std::shared_ptr;
using std::string;
using std::stringstream;
using std::unique_ptr;
using stdx::make_unique;
namespace {
/**
* Returns true if we need to keep a ClientCursor saved for this pipeline (for future getMore
* requests). Otherwise, returns false. The passed 'nsForCursor' is only used to determine the
* namespace used in the returned cursor, which will be registered with the global cursor manager,
* and thus will be different from that in 'request'.
*/
bool handleCursorCommand(OperationContext* opCtx,
const NamespaceString& nsForCursor,
ClientCursor* cursor,
const AggregationRequest& request,
BSONObjBuilder& result) {
invariant(cursor);
long long batchSize = request.getBatchSize();
CursorResponseBuilder responseBuilder(true, &result);
BSONObj next;
for (int objCount = 0; objCount < batchSize; objCount++) {
// The initial getNext() on a PipelineProxyStage may be very expensive so we don't
// do it when batchSize is 0 since that indicates a desire for a fast return.
PlanExecutor::ExecState state;
try {
state = cursor->getExecutor()->getNext(&next, nullptr);
} catch (const ExceptionFor<ErrorCodes::CloseChangeStream>&) {
// This exception is thrown when a $changeStream stage encounters an event
// that invalidates the cursor. We should close the cursor and return without
// error.
cursor = nullptr;
break;
}
if (state == PlanExecutor::IS_EOF) {
responseBuilder.setLatestOplogTimestamp(
cursor->getExecutor()->getLatestOplogTimestamp());
if (!cursor->isTailable()) {
// make it an obvious error to use cursor or executor after this point
cursor = nullptr;
}
break;
}
if (PlanExecutor::ADVANCED != state) {
auto status = WorkingSetCommon::getMemberObjectStatus(next);
uasserted(status.code(),
"PlanExecutor error during aggregation: " +
WorkingSetCommon::toStatusString(next));
}
// If adding this object will cause us to exceed the message size limit, then we stash it
// for later.
if (!FindCommon::haveSpaceForNext(next, objCount, responseBuilder.bytesUsed())) {
cursor->getExecutor()->enqueue(next);
break;
}
responseBuilder.setLatestOplogTimestamp(cursor->getExecutor()->getLatestOplogTimestamp());
responseBuilder.append(next);
}
if (cursor) {
// If a time limit was set on the pipeline, remaining time is "rolled over" to the
// cursor (for use by future getmore ops).
cursor->setLeftoverMaxTimeMicros(opCtx->getRemainingMaxTimeMicros());
CurOp::get(opCtx)->debug().cursorid = cursor->cursorid();
// Cursor needs to be in a saved state while we yield locks for getmore. State
// will be restored in getMore().
cursor->getExecutor()->saveState();
cursor->getExecutor()->detachFromOperationContext();
} else {
CurOp::get(opCtx)->debug().cursorExhausted = true;
}
const CursorId cursorId = cursor ? cursor->cursorid() : 0LL;
responseBuilder.done(cursorId, nsForCursor.ns());
return static_cast<bool>(cursor);
}
StatusWith<StringMap<ExpressionContext::ResolvedNamespace>> resolveInvolvedNamespaces(
OperationContext* opCtx, const AggregationRequest& request) {
const LiteParsedPipeline liteParsedPipeline(request);
const auto& pipelineInvolvedNamespaces = liteParsedPipeline.getInvolvedNamespaces();
// If there are no involved namespaces, return before attempting to take any locks. This is
// important for collectionless aggregations, which may be expected to run without locking.
if (pipelineInvolvedNamespaces.empty()) {
return {StringMap<ExpressionContext::ResolvedNamespace>()};
}
// We intentionally do not drop and reacquire our DB lock after resolving the view definition in
// order to prevent the definition for any view namespaces we've already resolved from changing.
// This is necessary to prevent a cycle from being formed among the view definitions cached in
// 'resolvedNamespaces' because we won't re-resolve a view namespace we've already encountered.
AutoGetDb autoDb(opCtx, request.getNamespaceString().db(), MODE_IS);
Database* const db = autoDb.getDb();
ViewCatalog* viewCatalog = db ? db->getViewCatalog() : nullptr;
std::deque<NamespaceString> involvedNamespacesQueue(pipelineInvolvedNamespaces.begin(),
pipelineInvolvedNamespaces.end());
StringMap<ExpressionContext::ResolvedNamespace> resolvedNamespaces;
while (!involvedNamespacesQueue.empty()) {
auto involvedNs = std::move(involvedNamespacesQueue.front());
involvedNamespacesQueue.pop_front();
if (resolvedNamespaces.find(involvedNs.coll()) != resolvedNamespaces.end()) {
continue;
}
if (!db || db->getCollection(opCtx, involvedNs)) {
// If the database exists and 'involvedNs' refers to a collection namespace, then we
// resolve it as an empty pipeline in order to read directly from the underlying
// collection. If the database doesn't exist, then we still resolve it as an empty
// pipeline because 'involvedNs' doesn't refer to a view namespace in our consistent
// snapshot of the view catalog.
resolvedNamespaces[involvedNs.coll()] = {involvedNs, std::vector<BSONObj>{}};
} else if (viewCatalog->lookup(opCtx, involvedNs.ns())) {
// If 'involvedNs' refers to a view namespace, then we resolve its definition.
auto resolvedView = viewCatalog->resolveView(opCtx, involvedNs);
if (!resolvedView.isOK()) {
return {ErrorCodes::FailedToParse,
str::stream() << "Failed to resolve view '" << involvedNs.ns() << "': "
<< resolvedView.getStatus().toString()};
}
resolvedNamespaces[involvedNs.coll()] = {resolvedView.getValue().getNamespace(),
resolvedView.getValue().getPipeline()};
// We parse the pipeline corresponding to the resolved view in case we must resolve
// other view namespaces that are also involved.
LiteParsedPipeline resolvedViewLitePipeline(
{resolvedView.getValue().getNamespace(), resolvedView.getValue().getPipeline()});
const auto& resolvedViewInvolvedNamespaces =
resolvedViewLitePipeline.getInvolvedNamespaces();
involvedNamespacesQueue.insert(involvedNamespacesQueue.end(),
resolvedViewInvolvedNamespaces.begin(),
resolvedViewInvolvedNamespaces.end());
} else {
// 'involvedNs' is neither a view nor a collection, so resolve it as an empty pipeline
// to treat it as reading from a non-existent collection.
resolvedNamespaces[involvedNs.coll()] = {involvedNs, std::vector<BSONObj>{}};
}
}
return resolvedNamespaces;
}
/**
* Round trips the pipeline through serialization by calling serialize(), then Pipeline::parse().
* fasserts if it fails to parse after being serialized.
*/
std::unique_ptr<Pipeline, Pipeline::Deleter> reparsePipeline(
const Pipeline* pipeline,
const AggregationRequest& request,
const boost::intrusive_ptr<ExpressionContext>& expCtx) {
auto serialized = pipeline->serialize();
// Convert vector<Value> to vector<BSONObj>.
std::vector<BSONObj> parseableSerialization;
parseableSerialization.reserve(serialized.size());
for (auto&& serializedStage : serialized) {
invariant(serializedStage.getType() == BSONType::Object);
parseableSerialization.push_back(serializedStage.getDocument().toBson());
}
auto reparsedPipeline = Pipeline::parse(parseableSerialization, expCtx);
if (!reparsedPipeline.isOK()) {
error() << "Aggregation command did not round trip through parsing and serialization "
"correctly. Input pipeline: "
<< Value(request.getPipeline()) << ", serialized pipeline: " << Value(serialized);
fassertFailedWithStatusNoTrace(40175, reparsedPipeline.getStatus());
}
reparsedPipeline.getValue()->optimizePipeline();
return std::move(reparsedPipeline.getValue());
}
/**
* Returns Status::OK if each view namespace in 'pipeline' has a default collator equivalent to
* 'collator'. Otherwise, returns ErrorCodes::OptionNotSupportedOnView.
*/
Status collatorCompatibleWithPipeline(OperationContext* opCtx,
Database* db,
const CollatorInterface* collator,
const Pipeline* pipeline) {
if (!db || !pipeline) {
return Status::OK();
}
for (auto&& potentialViewNs : pipeline->getInvolvedCollections()) {
if (db->getCollection(opCtx, potentialViewNs)) {
continue;
}
auto view = db->getViewCatalog()->lookup(opCtx, potentialViewNs.ns());
if (!view) {
continue;
}
if (!CollatorInterface::collatorsMatch(view->defaultCollator(), collator)) {
return {ErrorCodes::OptionNotSupportedOnView,
str::stream() << "Cannot override default collation of view "
<< potentialViewNs.ns()};
}
}
return Status::OK();
}
Status waitForMajorityReadConcern(OperationContext* opCtx) {
const repl::ReadConcernArgs& originalRC = repl::ReadConcernArgs::get(opCtx);
if (!originalRC.hasLevel()) {
// If the read concern level is not specified, upgrade it to "majority".
const repl::ReadConcernArgs readConcern(repl::ReadConcernLevel::kMajorityReadConcern);
auto rcStatus = waitForReadConcern(opCtx, readConcern, true);
if (!rcStatus.isOK()) {
return rcStatus;
}
} else if (originalRC.getLevel() != repl::ReadConcernLevel::kMajorityReadConcern) {
// Otherwise, only "majority" is allowed for change streams.
return {ErrorCodes::InvalidOptions,
str::stream() << "Read concern " << originalRC.toString()
<< " is not supported for change streams. "
"Only read concern level \"majority\" is supported."};
}
return Status::OK();
}
/**
* Resolves the collator to either the user-specified collation or, if none was specified, to the
* collection-default collation.
*/
std::unique_ptr<CollatorInterface> resolveCollator(OperationContext* opCtx,
const AggregationRequest& request,
const Collection* collection) {
if (!request.getCollation().isEmpty()) {
return uassertStatusOK(CollatorFactoryInterface::get(opCtx->getServiceContext())
->makeFromBSON(request.getCollation()));
}
return (collection && collection->getDefaultCollator()
? collection->getDefaultCollator()->clone()
: nullptr);
}
} // namespace
Status runAggregate(OperationContext* opCtx,
const NamespaceString& origNss,
const AggregationRequest& request,
const BSONObj& cmdObj,
BSONObjBuilder& result) {
// For operations on views, this will be the underlying namespace.
NamespaceString nss = request.getNamespaceString();
if (request.getExplain() &&
repl::ReadConcernArgs::get(opCtx).getLevel() != repl::ReadConcernLevel::kLocalReadConcern) {
return {ErrorCodes::InvalidOptions,
str::stream() << "Explain for the aggregate command "
"does not support non-local "
"readConcern levels"};
}
// The collation to use for this aggregation. boost::optional to distinguish between the case
// where the collation has not yet been resolved, and where it has been resolved to nullptr.
boost::optional<std::unique_ptr<CollatorInterface>> collatorToUse;
unique_ptr<PlanExecutor, PlanExecutor::Deleter> exec;
boost::intrusive_ptr<ExpressionContext> expCtx;
Pipeline* unownedPipeline;
auto curOp = CurOp::get(opCtx);
{
const LiteParsedPipeline liteParsedPipeline(request);
if (liteParsedPipeline.hasChangeStream()) {
nss = NamespaceString::kRsOplogNamespace;
// Require $changeNotification to run with readConcern:majority.
uassertStatusOK(waitForMajorityReadConcern(opCtx));
// Resolve the collator to either the user-specified collation or the default collation
// of the collection on which $changeStream was invoked, so that we do not end up
// resolving the collation on the oplog.
invariant(!collatorToUse);
// Change streams can only be created on collections. An error will be raised in
// AutoGetCollection if the given namespace is a view.
AutoGetCollection origNssCtx(opCtx, origNss, MODE_IS);
Collection* origColl = origNssCtx.getCollection();
collatorToUse.emplace(resolveCollator(opCtx, request, origColl));
}
const auto& pipelineInvolvedNamespaces = liteParsedPipeline.getInvolvedNamespaces();
// If emplaced, AutoGetCollectionOrViewForReadCommand will throw if the sharding version for
// this connection is out of date. If the namespace is a view, the lock will be released
// before re-running the expanded aggregation.
boost::optional<AutoGetCollectionOrViewForReadCommand> ctx;
// If this is a collectionless aggregation, we won't create 'ctx' but will still need an
// AutoStatsTracker to record CurOp and Top entries.
boost::optional<AutoStatsTracker> statsTracker;
// If this is a collectionless aggregation with no foreign namespaces, we don't want to
// acquire any locks. Otherwise, lock the collection or view.
if (nss.isCollectionlessAggregateNS() && pipelineInvolvedNamespaces.empty()) {
statsTracker.emplace(opCtx, nss, Top::LockType::NotLocked, 0);
} else {
ctx.emplace(opCtx, nss);
}
Collection* collection = ctx ? ctx->getCollection() : nullptr;
// The collator may already have been set if this is a $changeStream pipeline. If not,
// resolve the collator to either the user-specified collation or the collection default.
if (!collatorToUse) {
collatorToUse.emplace(resolveCollator(opCtx, request, collection));
}
// If this is a view, resolve it by finding the underlying collection and stitching view
// pipelines and this request's pipeline together. We then release our locks before
// recursively calling runAggregate(), which will re-acquire locks on the underlying
// collection. (The lock must be released because recursively acquiring locks on the
// database will prohibit yielding.)
if (ctx && ctx->getView() && !liteParsedPipeline.startsWithCollStats()) {
invariant(nss != NamespaceString::kRsOplogNamespace);
invariant(!nss.isCollectionlessAggregateNS());
// Check that the default collation of 'view' is compatible with the operation's
// collation. The check is skipped if the request did not specify a collation.
if (!request.getCollation().isEmpty()) {
invariant(collatorToUse); // Should already be resolved at this point.
if (!CollatorInterface::collatorsMatch(ctx->getView()->defaultCollator(),
collatorToUse->get())) {
return {ErrorCodes::OptionNotSupportedOnView,
"Cannot override a view's default collation"};
}
}
auto viewDefinition =
ViewShardingCheck::getResolvedViewIfSharded(opCtx, ctx->getDb(), ctx->getView());
if (!viewDefinition.isOK()) {
return viewDefinition.getStatus();
}
if (!viewDefinition.getValue().isEmpty()) {
return ViewShardingCheck::appendShardedViewResponse(viewDefinition.getValue(),
&result);
}
auto resolvedView = ctx->getDb()->getViewCatalog()->resolveView(opCtx, nss);
if (!resolvedView.isOK()) {
return resolvedView.getStatus();
}
// With the view & collation resolved, we can relinquish locks.
ctx->releaseLocksForView();
// Parse the resolved view into a new aggregation request.
auto newRequest = resolvedView.getValue().asExpandedViewAggregation(request);
auto newCmd = newRequest.serializeToCommandObj().toBson();
auto status = runAggregate(opCtx, origNss, newRequest, newCmd, result);
{
// Set the namespace of the curop back to the view namespace so ctx records
// stats on this view namespace on destruction.
stdx::lock_guard<Client> lk(*opCtx->getClient());
curOp->setNS_inlock(nss.ns());
}
return status;
}
invariant(collatorToUse);
expCtx.reset(
new ExpressionContext(opCtx,
request,
std::move(*collatorToUse),
uassertStatusOK(resolveInvolvedNamespaces(opCtx, request))));
expCtx->tempDir = storageGlobalParams.dbpath + "/_tmp";
auto pipeline = uassertStatusOK(Pipeline::parse(request.getPipeline(), expCtx));
// Check that the view's collation matches the collation of any views involved in the
// pipeline.
if (!pipelineInvolvedNamespaces.empty()) {
invariant(ctx);
auto pipelineCollationStatus = collatorCompatibleWithPipeline(
opCtx, ctx->getDb(), expCtx->getCollator(), pipeline.get());
if (!pipelineCollationStatus.isOK()) {
return pipelineCollationStatus;
}
}
pipeline->optimizePipeline();
if (kDebugBuild && !expCtx->explain && !expCtx->fromMongos) {
// Make sure all operations round-trip through Pipeline::serialize() correctly by
// re-parsing every command in debug builds. This is important because sharded
// aggregations rely on this ability. Skipping when fromMongos because this has
// already been through the transformation (and this un-sets expCtx->fromMongos).
pipeline = reparsePipeline(pipeline.get(), request, expCtx);
}
// Prepare a PlanExecutor to provide input into the pipeline, if needed.
if (liteParsedPipeline.hasChangeStream()) {
// If we are using a change stream, the cursor stage should have a simple collation,
// regardless of what the user's collation was.
std::unique_ptr<CollatorInterface> collatorForCursor = nullptr;
auto collatorStash = expCtx->temporarilyChangeCollator(std::move(collatorForCursor));
PipelineD::prepareCursorSource(collection, nss, &request, pipeline.get());
} else {
PipelineD::prepareCursorSource(collection, nss, &request, pipeline.get());
}
// Optimize again, since there may be additional optimizations that can be done after adding
// the initial cursor stage. Note this has to be done outside the above blocks to ensure
// this process uses the correct collation if it does any string comparisons.
pipeline->optimizePipeline();
// Transfer ownership of the Pipeline to the PipelineProxyStage.
unownedPipeline = pipeline.get();
auto ws = make_unique<WorkingSet>();
auto proxy = make_unique<PipelineProxyStage>(opCtx, std::move(pipeline), ws.get());
// This PlanExecutor will simply forward requests to the Pipeline, so does not need to
// yield or to be registered with any collection's CursorManager to receive invalidations.
// The Pipeline may contain PlanExecutors which *are* yielding PlanExecutors and which *are*
// registered with their respective collection's CursorManager
auto statusWithPlanExecutor =
PlanExecutor::make(opCtx, std::move(ws), std::move(proxy), nss, PlanExecutor::NO_YIELD);
invariant(statusWithPlanExecutor.isOK());
exec = std::move(statusWithPlanExecutor.getValue());
{
auto planSummary = Explain::getPlanSummary(exec.get());
stdx::lock_guard<Client> lk(*opCtx->getClient());
curOp->setPlanSummary_inlock(std::move(planSummary));
}
}
// Having released the collection lock, we can now create a cursor that returns results from the
// pipeline. This cursor owns no collection state, and thus we register it with the global
// cursor manager. The global cursor manager does not deliver invalidations or kill
// notifications; the underlying PlanExecutor(s) used by the pipeline will be receiving
// invalidations and kill notifications themselves, not the cursor we create here.
ClientCursorParams cursorParams(
std::move(exec),
origNss,
AuthorizationSession::get(opCtx->getClient())->getAuthenticatedUserNames(),
opCtx->recoveryUnit()->isReadingFromMajorityCommittedSnapshot(),
cmdObj);
if (expCtx->tailableMode == TailableMode::kTailableAndAwaitData) {
cursorParams.setTailable(true);
cursorParams.setAwaitData(true);
}
auto pin =
CursorManager::getGlobalCursorManager()->registerCursor(opCtx, std::move(cursorParams));
ScopeGuard cursorFreer = MakeGuard(&ClientCursorPin::deleteUnderlying, &pin);
// If both explain and cursor are specified, explain wins.
if (expCtx->explain) {
result << "stages" << Value(unownedPipeline->writeExplainOps(*expCtx->explain));
} else {
// Cursor must be specified, if explain is not.
const bool keepCursor =
handleCursorCommand(opCtx, origNss, pin.getCursor(), request, result);
if (keepCursor) {
cursorFreer.Dismiss();
}
}
if (!expCtx->explain) {
PlanSummaryStats stats;
Explain::getSummaryStats(*(pin.getCursor()->getExecutor()), &stats);
curOp->debug().setPlanSummaryMetrics(stats);
curOp->debug().nreturned = stats.nReturned;
}
// Any code that needs the cursor pinned must be inside the try block, above.
return Status::OK();
}
} // namespace mongo
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