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/**
* Copyright (c) 2011-2014 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.
*/
#include "mongo/platform/basic.h"
#include <boost/scoped_ptr.hpp>
#include <boost/shared_ptr.hpp>
#include <vector>
#include "mongo/db/auth/action_set.h"
#include "mongo/db/auth/action_type.h"
#include "mongo/db/auth/privilege.h"
#include "mongo/db/catalog/database.h"
#include "mongo/db/client.h"
#include "mongo/db/commands.h"
#include "mongo/db/curop.h"
#include "mongo/db/db_raii.h"
#include "mongo/db/exec/pipeline_proxy.h"
#include "mongo/db/service_context.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/pipeline.h"
#include "mongo/db/pipeline/pipeline_d.h"
#include "mongo/db/query/cursor_responses.h"
#include "mongo/db/query/find_constants.h"
#include "mongo/db/query/get_executor.h"
#include "mongo/db/storage_options.h"
namespace mongo {
using boost::intrusive_ptr;
using boost::scoped_ptr;
using boost::shared_ptr;
using std::unique_ptr;
using std::string;
using std::stringstream;
using std::endl;
/**
* Returns true if we need to keep a ClientCursor saved for this pipeline (for future getMore
* requests). Otherwise, returns false.
*/
static bool handleCursorCommand(OperationContext* txn,
const string& ns,
ClientCursorPin* pin,
PlanExecutor* exec,
const BSONObj& cmdObj,
BSONObjBuilder& result) {
ClientCursor* cursor = pin ? pin->c() : NULL;
if (pin) {
invariant(cursor);
invariant(cursor->getExecutor() == exec);
invariant(cursor->isAggCursor());
}
const long long defaultBatchSize = 101; // Same as query.
long long batchSize;
uassertStatusOK(Command::parseCommandCursorOptions(cmdObj, defaultBatchSize, &batchSize));
// can't use result BSONObjBuilder directly since it won't handle exceptions correctly.
BSONArrayBuilder resultsArray;
const int byteLimit = MaxBytesToReturnToClientAtOnce;
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.
if (exec->getNext(&next, NULL) != PlanExecutor::ADVANCED) {
// make it an obvious error to use cursor or executor after this point
cursor = NULL;
exec = NULL;
break;
}
if (resultsArray.len() + next.objsize() > byteLimit) {
// Get the pipeline proxy stage wrapped by this PlanExecutor.
PipelineProxyStage* proxy = static_cast<PipelineProxyStage*>(exec->getRootStage());
// too big. next will be the first doc in the second batch
proxy->pushBack(next);
break;
}
resultsArray.append(next);
}
// NOTE: exec->isEOF() can have side effects such as writing by $out. However, it should
// be relatively quick since if there was no pin then the input is empty. Also, this
// violates the contract for batchSize==0. Sharding requires a cursor to be returned in that
// case. This is ok for now however, since you can't have a sharded collection that doesn't
// exist.
const bool canReturnMoreBatches = pin;
if (!canReturnMoreBatches && exec && !exec->isEOF()) {
// msgasserting since this shouldn't be possible to trigger from today's aggregation
// language. The wording assumes that the only reason pin would be null is if the
// collection doesn't exist.
msgasserted(17391, str::stream()
<< "Aggregation has more results than fit in initial batch, but can't "
<< "create cursor since collection " << ns << " doesn't exist");
}
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( CurOp::get(txn)->getRemainingMaxTimeMicros() );
CurOp::get(txn)->debug().cursorid = cursor->cursorid();
if (txn->getClient()->isInDirectClient()) {
cursor->setUnownedRecoveryUnit(txn->recoveryUnit());
}
else {
// We stash away the RecoveryUnit in the ClientCursor. It's used for subsequent
// getMore requests. The calling OpCtx gets a fresh RecoveryUnit.
txn->recoveryUnit()->abandonSnapshot();
cursor->setOwnedRecoveryUnit(txn->releaseRecoveryUnit());
StorageEngine* storageEngine = getGlobalServiceContext()->getGlobalStorageEngine();
invariant(txn->setRecoveryUnit(storageEngine->newRecoveryUnit(),
OperationContext::kNotInUnitOfWork)
== OperationContext::kNotInUnitOfWork);
}
// Cursor needs to be in a saved state while we yield locks for getmore. State
// will be restored in getMore().
exec->saveState();
}
const long long cursorId = cursor ? cursor->cursorid() : 0LL;
appendCursorResponseObject(cursorId, ns, resultsArray.arr(), &result);
return static_cast<bool>(cursor);
}
class PipelineCommand :
public Command {
public:
PipelineCommand() :Command(Pipeline::commandName) {} // command is called "aggregate"
// Locks are managed manually, in particular by DocumentSourceCursor.
virtual bool isWriteCommandForConfigServer() const { return false; }
virtual bool slaveOk() const { return false; }
virtual bool slaveOverrideOk() const { return true; }
virtual void help(stringstream &help) const {
help << "{ pipeline: [ { $operator: {...}}, ... ]"
<< ", explain: <bool>"
<< ", allowDiskUse: <bool>"
<< ", cursor: {batchSize: <number>}"
<< " }"
<< endl
<< "See http://dochub.mongodb.org/core/aggregation for more details."
;
}
virtual void addRequiredPrivileges(const std::string& dbname,
const BSONObj& cmdObj,
std::vector<Privilege>* out) {
Pipeline::addRequiredPrivileges(this, dbname, cmdObj, out);
}
virtual bool run(OperationContext* txn,
const string &db,
BSONObj &cmdObj,
int options,
string &errmsg,
BSONObjBuilder &result) {
NamespaceString nss(parseNs(db, cmdObj));
if (nss.coll().empty()) {
errmsg = "missing collection name";
return false;
}
intrusive_ptr<ExpressionContext> pCtx = new ExpressionContext(txn, nss);
pCtx->tempDir = storageGlobalParams.dbpath + "/_tmp";
/* try to parse the command; if this fails, then we didn't run */
intrusive_ptr<Pipeline> pPipeline = Pipeline::parseCommand(errmsg, cmdObj, pCtx);
if (!pPipeline.get())
return false;
// This is outside of the if block to keep the object alive until the pipeline is finished.
BSONObj parsed;
if (kDebugBuild && !pPipeline->isExplain() && !pCtx->inShard) {
// Make sure all operations round-trip through Pipeline::toBson() correctly by
// reparsing every command in debug builds. This is important because sharded
// aggregations rely on this ability. Skipping when inShard because this has
// already been through the transformation (and this unsets pCtx->inShard).
parsed = pPipeline->serialize().toBson();
pPipeline = Pipeline::parseCommand(errmsg, parsed, pCtx);
verify(pPipeline);
}
PlanExecutor* exec = NULL;
scoped_ptr<ClientCursorPin> pin; // either this OR the execHolder will be non-null
unique_ptr<PlanExecutor> execHolder;
{
// This will throw if the sharding version for this connection is out of date. The
// lock must be held continuously from now until we have we created both the output
// ClientCursor and the input executor. This ensures that both are using the same
// sharding version that we synchronize on here. This is also why we always need to
// create a ClientCursor even when we aren't outputting to a cursor. See the comment
// on ShardFilterStage for more details.
AutoGetCollectionForRead ctx(txn, nss.ns());
Collection* collection = ctx.getCollection();
// This does mongod-specific stuff like creating the input PlanExecutor and adding
// it to the front of the pipeline if needed.
boost::shared_ptr<PlanExecutor> input = PipelineD::prepareCursorSource(txn,
collection,
pPipeline,
pCtx);
pPipeline->stitch();
// Create the PlanExecutor which returns results from the pipeline. The WorkingSet
// ('ws') and the PipelineProxyStage ('proxy') will be owned by the created
// PlanExecutor.
unique_ptr<WorkingSet> ws(new WorkingSet());
unique_ptr<PipelineProxyStage> proxy(
new PipelineProxyStage(pPipeline, input, ws.get()));
Status execStatus = Status::OK();
if (NULL == collection) {
execStatus = PlanExecutor::make(txn,
ws.release(),
proxy.release(),
nss.ns(),
PlanExecutor::YIELD_MANUAL,
&exec);
}
else {
execStatus = PlanExecutor::make(txn,
ws.release(),
proxy.release(),
collection,
PlanExecutor::YIELD_MANUAL,
&exec);
}
invariant(execStatus.isOK());
execHolder.reset(exec);
if (!collection && input) {
// If we don't have a collection, we won't be able to register any executors, so
// make sure that the input PlanExecutor (likely wrapping an EOFStage) doesn't
// need to be registered.
invariant(!input->collection());
}
if (collection) {
const bool isAggCursor = true; // enable special locking behavior
ClientCursor* cursor = new ClientCursor(collection->getCursorManager(),
execHolder.release(),
nss.ns(),
0,
cmdObj.getOwned(),
isAggCursor);
pin.reset(new ClientCursorPin(collection->getCursorManager(),
cursor->cursorid()));
// Don't add any code between here and the start of the try block.
}
// At this point, it is safe to release the collection lock.
// - In the case where we have a collection: we will need to reacquire the
// collection lock later when cleaning up our ClientCursorPin.
// - In the case where we don't have a collection: our PlanExecutor won't be
// registered, so it will be safe to clean it up outside the lock.
invariant(NULL == execHolder.get() || NULL == execHolder->collection());
}
try {
// Unless set to true, the ClientCursor created above will be deleted on block exit.
bool keepCursor = false;
const bool isCursorCommand = !cmdObj["cursor"].eoo();
// If both explain and cursor are specified, explain wins.
if (pPipeline->isExplain()) {
result << "stages" << Value(pPipeline->writeExplainOps());
}
else if (isCursorCommand) {
keepCursor = handleCursorCommand(txn,
nss.ns(),
pin.get(),
exec,
cmdObj,
result);
}
else {
pPipeline->run(result);
}
// Clean up our ClientCursorPin, if needed. We must reacquire the collection lock
// in order to do so.
if (pin) {
// We acquire locks here with DBLock and CollectionLock instead of using
// AutoGetCollectionForRead. AutoGetCollectionForRead will throw if the
// sharding version is out of date, and we don't care if the sharding version
// has changed.
Lock::DBLock dbLock(txn->lockState(), nss.db(), MODE_IS);
Lock::CollectionLock collLock(txn->lockState(), nss.ns(), MODE_IS);
if (keepCursor) {
pin->release();
}
else {
pin->deleteUnderlying();
}
}
}
catch (...) {
// On our way out of scope, we clean up our ClientCursorPin if needed.
if (pin) {
Lock::DBLock dbLock(txn->lockState(), nss.db(), MODE_IS);
Lock::CollectionLock collLock(txn->lockState(), nss.ns(), MODE_IS);
pin->deleteUnderlying();
}
throw;
}
// Any code that needs the cursor pinned must be inside the try block, above.
return true;
}
} cmdPipeline;
} // namespace mongo
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