std::unique_ptr<Message> LegacyReplyBuilder::done() { invariant(_state == State::kOutputDocs); BSONObj reply = uassertStatusOK(rpc::downconvertReplyMetadata(_commandReply, _metadata)); BufBuilder bufBuilder; bufBuilder.skip(sizeof(QueryResult::Value)); if (_allowAddingOutputDocs) { BSONObjBuilder topBuilder(bufBuilder); for (const auto& el : reply) { if (kCursorTag != el.fieldNameStringData()) { topBuilder.append(el); continue; } invariant(el.isABSONObj()); BSONObjBuilder curBuilder(topBuilder.subobjStart(kCursorTag)); for (const auto& insideEl : el.Obj()) { if (kFirstBatchTag != insideEl.fieldNameStringData()) { curBuilder.append(insideEl); continue; } invariant(insideEl.isABSONObj()); BSONArrayBuilder arrBuilder(curBuilder.subarrayStart(kFirstBatchTag)); for (const auto& doc : _outputDocs) { arrBuilder.append(doc); } arrBuilder.doneFast(); } curBuilder.doneFast(); } topBuilder.doneFast(); } else { reply.appendSelfToBufBuilder(bufBuilder); } auto msgHeaderSz = static_cast<std::size_t>(MsgData::MsgDataHeaderSize); invariant(static_cast<std::size_t>(bufBuilder.len()) + msgHeaderSz <= mongol::MaxMessageSizeBytes); QueryResult::View qr = bufBuilder.buf(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bufBuilder.len()); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); _message->setData(qr.view2ptr(), true); bufBuilder.decouple(); _state = State::kDone; return std::move(_message); }
Message LegacyReplyBuilder::done() { invariant(_state == State::kOutputDocs); QueryResult::View qr = _builder.buf(); qr.setResultFlagsToOk(); qr.msgdata().setLen(_builder.len()); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); _message.setData(qr.view2ptr(), true); _builder.decouple(); _state = State::kDone; return std::move(_message); }
Message LegacyReplyBuilder::done() { invariant(_haveCommandReply); QueryResult::View qr = _builder.buf(); if (_staleConfigError) { // For compatibility with legacy mongos, we need to set this result flag on StaleConfig qr.setResultFlags(ResultFlag_ErrSet | ResultFlag_ShardConfigStale); } else { qr.setResultFlagsToOk(); } qr.msgdata().setLen(_builder.len()); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); _message.setData(_builder.release()); return std::move(_message); }
std::string newRunQuery(OperationContext* txn, Message& m, QueryMessage& q, CurOp& curop, Message &result, bool fromDBDirectClient) { // Validate the namespace. const char *ns = q.ns; uassert(16332, "can't have an empty ns", ns[0]); const NamespaceString nsString(ns); uassert(16256, str::stream() << "Invalid ns [" << ns << "]", nsString.isValid()); // Set curop information. curop.debug().ns = ns; curop.debug().ntoreturn = q.ntoreturn; curop.debug().query = q.query; curop.setQuery(q.query); // If the query is really a command, run it. if (nsString.isCommand()) { int nToReturn = q.ntoreturn; uassert(16979, str::stream() << "bad numberToReturn (" << nToReturn << ") for $cmd type ns - can only be 1 or -1", nToReturn == 1 || nToReturn == -1); curop.markCommand(); BufBuilder bb; bb.skip(sizeof(QueryResult::Value)); BSONObjBuilder cmdResBuf; if (!runCommands(txn, ns, q.query, curop, bb, cmdResBuf, false, q.queryOptions)) { uasserted(13530, "bad or malformed command request?"); } curop.debug().iscommand = true; // TODO: Does this get overwritten/do we really need to set this twice? curop.debug().query = q.query; QueryResult::View qr = bb.buf(); bb.decouple(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bb.len()); curop.debug().responseLength = bb.len(); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); result.setData(qr.view2ptr(), true); return ""; } const NamespaceString nss(q.ns); // Parse the qm into a CanonicalQuery. CanonicalQuery* cq; Status canonStatus = CanonicalQuery::canonicalize( q, &cq, WhereCallbackReal(txn, StringData(nss.db()))); if (!canonStatus.isOK()) { uasserted(17287, str::stream() << "Can't canonicalize query: " << canonStatus.toString()); } QLOG() << "Running query:\n" << cq->toString(); LOG(2) << "Running query: " << cq->toStringShort(); // Parse, canonicalize, plan, transcribe, and get a plan executor. PlanExecutor* rawExec = NULL; // We use this a lot below. const LiteParsedQuery& pq = cq->getParsed(); AutoGetCollectionForRead ctx(txn, nss); const int dbProfilingLevel = (ctx.getDb() != NULL) ? ctx.getDb()->getProfilingLevel() : serverGlobalParams.defaultProfile; Collection* collection = ctx.getCollection(); // We'll now try to get the query executor that will execute this query for us. There // are a few cases in which we know upfront which executor we should get and, therefore, // we shortcut the selection process here. // // (a) If the query is over a collection that doesn't exist, we use an EOFStage. // // (b) if the query is a replication's initial sync one, we use a specifically designed // stage that skips extents faster (see details in exec/oplogstart.h). // // Otherwise we go through the selection of which executor is most suited to the // query + run-time context at hand. Status status = Status::OK(); if (NULL != collection && pq.getOptions().oplogReplay) { // Takes ownership of 'cq'. status = getOplogStartHack(txn, collection, cq, &rawExec); } else { size_t options = QueryPlannerParams::DEFAULT; if (shardingState.needCollectionMetadata(pq.ns())) { options |= QueryPlannerParams::INCLUDE_SHARD_FILTER; } // Takes ownership of 'cq'. status = getExecutor(txn, collection, cq, PlanExecutor::YIELD_AUTO, &rawExec, options); } if (!status.isOK()) { // NOTE: Do not access cq as getExecutor has deleted it. uasserted(17007, "Unable to execute query: " + status.reason()); } verify(NULL != rawExec); auto_ptr<PlanExecutor> exec(rawExec); // If it's actually an explain, do the explain and return rather than falling through // to the normal query execution loop. if (pq.isExplain()) { BufBuilder bb; bb.skip(sizeof(QueryResult::Value)); BSONObjBuilder explainBob; Explain::explainStages(exec.get(), ExplainCommon::EXEC_ALL_PLANS, &explainBob); // Add the resulting object to the return buffer. BSONObj explainObj = explainBob.obj(); bb.appendBuf((void*)explainObj.objdata(), explainObj.objsize()); curop.debug().iscommand = true; // TODO: Does this get overwritten/do we really need to set this twice? curop.debug().query = q.query; // Set query result fields. QueryResult::View qr = bb.buf(); bb.decouple(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bb.len()); curop.debug().responseLength = bb.len(); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); result.setData(qr.view2ptr(), true); return ""; } // We freak out later if this changes before we're done with the query. const ChunkVersion shardingVersionAtStart = shardingState.getVersion(cq->ns()); // Handle query option $maxTimeMS (not used with commands). curop.setMaxTimeMicros(static_cast<unsigned long long>(pq.getMaxTimeMS()) * 1000); txn->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point. // uassert if we are not on a primary, and not a secondary with SlaveOk query parameter set. bool slaveOK = pq.getOptions().slaveOk || pq.hasReadPref(); status = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor( txn, NamespaceString(cq->ns()), slaveOK); uassertStatusOK(status); // If this exists, the collection is sharded. // If it doesn't exist, we can assume we're not sharded. // If we're sharded, we might encounter data that is not consistent with our sharding state. // We must ignore this data. CollectionMetadataPtr collMetadata; if (!shardingState.needCollectionMetadata(pq.ns())) { collMetadata = CollectionMetadataPtr(); } else { collMetadata = shardingState.getCollectionMetadata(pq.ns()); } // Run the query. // bb is used to hold query results // this buffer should contain either requested documents per query or // explain information, but not both BufBuilder bb(32768); bb.skip(sizeof(QueryResult::Value)); // How many results have we obtained from the executor? int numResults = 0; // If we're replaying the oplog, we save the last time that we read. OpTime slaveReadTill; // Do we save the PlanExecutor in a ClientCursor for getMore calls later? bool saveClientCursor = false; BSONObj obj; PlanExecutor::ExecState state; // uint64_t numMisplacedDocs = 0; // Get summary info about which plan the executor is using. curop.debug().planSummary = Explain::getPlanSummary(exec.get()); while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) { // Add result to output buffer. bb.appendBuf((void*)obj.objdata(), obj.objsize()); // Count the result. ++numResults; // Possibly note slave's position in the oplog. if (pq.getOptions().oplogReplay) { BSONElement e = obj["ts"]; if (Date == e.type() || Timestamp == e.type()) { slaveReadTill = e._opTime(); } } // TODO: only one type of 2d search doesn't support this. We need a way to pull it out // of CanonicalQuery. :( const bool supportsGetMore = true; if (!supportsGetMore && (enough(pq, numResults) || bb.len() >= MaxBytesToReturnToClientAtOnce)) { break; } else if (enoughForFirstBatch(pq, numResults, bb.len())) { QLOG() << "Enough for first batch, wantMore=" << pq.wantMore() << " numToReturn=" << pq.getNumToReturn() << " numResults=" << numResults << endl; // If only one result requested assume it's a findOne() and don't save the cursor. if (pq.wantMore() && 1 != pq.getNumToReturn()) { QLOG() << " executor EOF=" << exec->isEOF() << endl; saveClientCursor = !exec->isEOF(); } break; } } // If we cache the executor later, we want to deregister it as it receives notifications // anyway by virtue of being cached. // // If we don't cache the executor later, we are deleting it, so it must be deregistered. // // So, no matter what, deregister the executor. exec->deregisterExec(); // Caller expects exceptions thrown in certain cases. if (PlanExecutor::EXEC_ERROR == state) { scoped_ptr<PlanStageStats> stats(exec->getStats()); error() << "Plan executor error, stats: " << Explain::statsToBSON(*stats); uasserted(17144, "Executor error: " + WorkingSetCommon::toStatusString(obj)); } // Why save a dead executor? if (PlanExecutor::DEAD == state) { saveClientCursor = false; } else if (pq.getOptions().tailable) { // If we're tailing a capped collection, we don't bother saving the cursor if the // collection is empty. Otherwise, the semantics of the tailable cursor is that the // client will keep trying to read from it. So we'll keep it around. if (collection && collection->numRecords(txn) != 0 && pq.getNumToReturn() != 1) { saveClientCursor = true; } } // TODO(greg): This will go away soon. if (!shardingState.getVersion(pq.ns()).isWriteCompatibleWith(shardingVersionAtStart)) { // if the version changed during the query we might be missing some data and its safe to // send this as mongos can resend at this point throw SendStaleConfigException(pq.ns(), "version changed during initial query", shardingVersionAtStart, shardingState.getVersion(pq.ns())); } const logger::LogComponent queryLogComponent = logger::LogComponent::kQuery; const logger::LogSeverity logLevelOne = logger::LogSeverity::Debug(1); PlanSummaryStats summaryStats; Explain::getSummaryStats(exec.get(), &summaryStats); curop.debug().ntoskip = pq.getSkip(); curop.debug().nreturned = numResults; curop.debug().scanAndOrder = summaryStats.hasSortStage; curop.debug().nscanned = summaryStats.totalKeysExamined; curop.debug().nscannedObjects = summaryStats.totalDocsExamined; curop.debug().idhack = summaryStats.isIdhack; // Set debug information for consumption by the profiler. if (dbProfilingLevel > 0 || curop.elapsedMillis() > serverGlobalParams.slowMS || logger::globalLogDomain()->shouldLog(queryLogComponent, logLevelOne)) { // Get BSON stats. scoped_ptr<PlanStageStats> execStats(exec->getStats()); BSONObjBuilder statsBob; Explain::statsToBSON(*execStats, &statsBob); curop.debug().execStats.set(statsBob.obj()); // Replace exec stats with plan summary if stats cannot fit into CachedBSONObj. if (curop.debug().execStats.tooBig() && !curop.debug().planSummary.empty()) { BSONObjBuilder bob; bob.append("summary", curop.debug().planSummary.toString()); curop.debug().execStats.set(bob.done()); } } long long ccId = 0; if (saveClientCursor) { // We won't use the executor until it's getMore'd. exec->saveState(); // Allocate a new ClientCursor. We don't have to worry about leaking it as it's // inserted into a global map by its ctor. ClientCursor* cc = new ClientCursor(collection, exec.get(), cq->getParsed().getOptions().toInt(), cq->getParsed().getFilter()); ccId = cc->cursorid(); if (fromDBDirectClient) { cc->setUnownedRecoveryUnit(txn->recoveryUnit()); } else if (state == PlanExecutor::IS_EOF && pq.getOptions().tailable) { // Don't stash the RU for tailable cursors at EOF, let them get a new RU on their // next getMore. } else { // We stash away the RecoveryUnit in the ClientCursor. It's used for subsequent // getMore requests. The calling OpCtx gets a fresh RecoveryUnit. cc->setOwnedRecoveryUnit(txn->releaseRecoveryUnit()); StorageEngine* storageEngine = getGlobalEnvironment()->getGlobalStorageEngine(); txn->setRecoveryUnit(storageEngine->newRecoveryUnit(txn)); } QLOG() << "caching executor with cursorid " << ccId << " after returning " << numResults << " results" << endl; // ClientCursor takes ownership of executor. Release to make sure it's not deleted. exec.release(); // TODO document if (pq.getOptions().oplogReplay && !slaveReadTill.isNull()) { cc->slaveReadTill(slaveReadTill); } // TODO document if (pq.getOptions().exhaust) { curop.debug().exhaust = true; } // Set attributes for getMore. cc->setCollMetadata(collMetadata); cc->setPos(numResults); // If the query had a time limit, remaining time is "rolled over" to the cursor (for // use by future getmore ops). cc->setLeftoverMaxTimeMicros(curop.getRemainingMaxTimeMicros()); } else { QLOG() << "Not caching executor but returning " << numResults << " results.\n"; } // Add the results from the query into the output buffer. result.appendData(bb.buf(), bb.len()); bb.decouple(); // Fill out the output buffer's header. QueryResult::View qr = result.header().view2ptr(); qr.setCursorId(ccId); curop.debug().cursorid = (0 == ccId ? -1 : ccId); qr.setResultFlagsToOk(); qr.msgdata().setOperation(opReply); qr.setStartingFrom(0); qr.setNReturned(numResults); // curop.debug().exhaust is set above. return curop.debug().exhaust ? pq.ns() : ""; }
std::string runQuery(OperationContext* txn, QueryMessage& q, const NamespaceString& nss, CurOp& curop, Message &result) { // Validate the namespace. uassert(16256, str::stream() << "Invalid ns [" << nss.ns() << "]", nss.isValid()); invariant(!nss.isCommand()); // Set curop information. beginQueryOp(nss, q.query, q.ntoreturn, q.ntoskip, &curop); // Parse the qm into a CanonicalQuery. std::auto_ptr<CanonicalQuery> cq; { CanonicalQuery* cqRaw; Status canonStatus = CanonicalQuery::canonicalize(q, &cqRaw, WhereCallbackReal(txn, nss.db())); if (!canonStatus.isOK()) { uasserted(17287, str::stream() << "Can't canonicalize query: " << canonStatus.toString()); } cq.reset(cqRaw); } invariant(cq.get()); LOG(5) << "Running query:\n" << cq->toString(); LOG(2) << "Running query: " << cq->toStringShort(); // Parse, canonicalize, plan, transcribe, and get a plan executor. AutoGetCollectionForRead ctx(txn, nss); Collection* collection = ctx.getCollection(); const int dbProfilingLevel = ctx.getDb() ? ctx.getDb()->getProfilingLevel() : serverGlobalParams.defaultProfile; // We have a parsed query. Time to get the execution plan for it. std::unique_ptr<PlanExecutor> exec; { PlanExecutor* rawExec; Status execStatus = getExecutorFind(txn, collection, nss, cq.release(), PlanExecutor::YIELD_AUTO, &rawExec); uassertStatusOK(execStatus); exec.reset(rawExec); } const LiteParsedQuery& pq = exec->getCanonicalQuery()->getParsed(); // If it's actually an explain, do the explain and return rather than falling through // to the normal query execution loop. if (pq.isExplain()) { BufBuilder bb; bb.skip(sizeof(QueryResult::Value)); BSONObjBuilder explainBob; Explain::explainStages(exec.get(), ExplainCommon::EXEC_ALL_PLANS, &explainBob); // Add the resulting object to the return buffer. BSONObj explainObj = explainBob.obj(); bb.appendBuf((void*)explainObj.objdata(), explainObj.objsize()); // TODO: Does this get overwritten/do we really need to set this twice? curop.debug().query = q.query; // Set query result fields. QueryResult::View qr = bb.buf(); bb.decouple(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bb.len()); curop.debug().responseLength = bb.len(); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); result.setData(qr.view2ptr(), true); return ""; } // We freak out later if this changes before we're done with the query. const ChunkVersion shardingVersionAtStart = shardingState.getVersion(nss.ns()); // Handle query option $maxTimeMS (not used with commands). curop.setMaxTimeMicros(static_cast<unsigned long long>(pq.getMaxTimeMS()) * 1000); txn->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point. // uassert if we are not on a primary, and not a secondary with SlaveOk query parameter set. bool slaveOK = pq.isSlaveOk() || pq.hasReadPref(); Status serveReadsStatus = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor( txn, nss, slaveOK); uassertStatusOK(serveReadsStatus); // Run the query. // bb is used to hold query results // this buffer should contain either requested documents per query or // explain information, but not both BufBuilder bb(32768); bb.skip(sizeof(QueryResult::Value)); // How many results have we obtained from the executor? int numResults = 0; // If we're replaying the oplog, we save the last time that we read. Timestamp slaveReadTill; BSONObj obj; PlanExecutor::ExecState state; // uint64_t numMisplacedDocs = 0; // Get summary info about which plan the executor is using. curop.debug().planSummary = Explain::getPlanSummary(exec.get()); while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) { // Add result to output buffer. bb.appendBuf((void*)obj.objdata(), obj.objsize()); // Count the result. ++numResults; // Possibly note slave's position in the oplog. if (pq.isOplogReplay()) { BSONElement e = obj["ts"]; if (Date == e.type() || bsonTimestamp == e.type()) { slaveReadTill = e.timestamp(); } } if (enoughForFirstBatch(pq, numResults, bb.len())) { LOG(5) << "Enough for first batch, wantMore=" << pq.wantMore() << " numToReturn=" << pq.getNumToReturn() << " numResults=" << numResults << endl; break; } } // If we cache the executor later, we want to deregister it as it receives notifications // anyway by virtue of being cached. // // If we don't cache the executor later, we are deleting it, so it must be deregistered. // // So, no matter what, deregister the executor. exec->deregisterExec(); // Caller expects exceptions thrown in certain cases. if (PlanExecutor::FAILURE == state) { scoped_ptr<PlanStageStats> stats(exec->getStats()); error() << "Plan executor error, stats: " << Explain::statsToBSON(*stats); uasserted(17144, "Executor error: " + WorkingSetCommon::toStatusString(obj)); } // TODO: Currently, chunk ranges are kept around until all ClientCursors created while the // chunk belonged on this node are gone. Separating chunk lifetime management from // ClientCursor should allow this check to go away. if (!shardingState.getVersion(nss.ns()).isWriteCompatibleWith(shardingVersionAtStart)) { // if the version changed during the query we might be missing some data and its safe to // send this as mongos can resend at this point throw SendStaleConfigException(nss.ns(), "version changed during initial query", shardingVersionAtStart, shardingState.getVersion(nss.ns())); } // Fill out curop based on query results. If we have a cursorid, we will fill out curop with // this cursorid later. long long ccId = 0; if (shouldSaveCursor(txn, collection, state, exec.get())) { // We won't use the executor until it's getMore'd. exec->saveState(); // Allocate a new ClientCursor. We don't have to worry about leaking it as it's // inserted into a global map by its ctor. ClientCursor* cc = new ClientCursor(collection->getCursorManager(), exec.release(), nss.ns(), pq.getOptions(), pq.getFilter()); ccId = cc->cursorid(); if (txn->getClient()->isInDirectClient()) { cc->setUnownedRecoveryUnit(txn->recoveryUnit()); } else if (state == PlanExecutor::IS_EOF && pq.isTailable()) { // Don't stash the RU for tailable cursors at EOF, let them get a new RU on their // next getMore. } 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(); cc->setOwnedRecoveryUnit(txn->releaseRecoveryUnit()); StorageEngine* storageEngine = getGlobalServiceContext()->getGlobalStorageEngine(); invariant(txn->setRecoveryUnit(storageEngine->newRecoveryUnit(), OperationContext::kNotInUnitOfWork) == OperationContext::kNotInUnitOfWork); } LOG(5) << "caching executor with cursorid " << ccId << " after returning " << numResults << " results" << endl; // TODO document if (pq.isOplogReplay() && !slaveReadTill.isNull()) { cc->slaveReadTill(slaveReadTill); } // TODO document if (pq.isExhaust()) { curop.debug().exhaust = true; } cc->setPos(numResults); // If the query had a time limit, remaining time is "rolled over" to the cursor (for // use by future getmore ops). cc->setLeftoverMaxTimeMicros(curop.getRemainingMaxTimeMicros()); endQueryOp(cc->getExecutor(), dbProfilingLevel, numResults, ccId, &curop); } else { LOG(5) << "Not caching executor but returning " << numResults << " results.\n"; endQueryOp(exec.get(), dbProfilingLevel, numResults, ccId, &curop); } // Add the results from the query into the output buffer. result.appendData(bb.buf(), bb.len()); bb.decouple(); // Fill out the output buffer's header. QueryResult::View qr = result.header().view2ptr(); qr.setCursorId(ccId); qr.setResultFlagsToOk(); qr.msgdata().setOperation(opReply); qr.setStartingFrom(0); qr.setNReturned(numResults); // curop.debug().exhaust is set above. return curop.debug().exhaust ? nss.ns() : ""; }
std::string runQuery(OperationContext* txn, QueryMessage& q, const NamespaceString& nss, Message& result) { CurOp& curop = *CurOp::get(txn); uassert(ErrorCodes::InvalidNamespace, str::stream() << "Invalid ns [" << nss.ns() << "]", nss.isValid()); invariant(!nss.isCommand()); // Set curop information. beginQueryOp(txn, nss, q.query, q.ntoreturn, q.ntoskip); // Parse the qm into a CanonicalQuery. auto statusWithCQ = CanonicalQuery::canonicalize(q, ExtensionsCallbackReal(txn, &nss)); if (!statusWithCQ.isOK()) { uasserted( 17287, str::stream() << "Can't canonicalize query: " << statusWithCQ.getStatus().toString()); } unique_ptr<CanonicalQuery> cq = std::move(statusWithCQ.getValue()); invariant(cq.get()); LOG(5) << "Running query:\n" << cq->toString(); LOG(2) << "Running query: " << cq->toStringShort(); // Parse, canonicalize, plan, transcribe, and get a plan executor. AutoGetCollectionForRead ctx(txn, nss); Collection* collection = ctx.getCollection(); const int dbProfilingLevel = ctx.getDb() ? ctx.getDb()->getProfilingLevel() : serverGlobalParams.defaultProfile; // We have a parsed query. Time to get the execution plan for it. std::unique_ptr<PlanExecutor> exec = uassertStatusOK( getExecutorFind(txn, collection, nss, std::move(cq), PlanExecutor::YIELD_AUTO)); const LiteParsedQuery& pq = exec->getCanonicalQuery()->getParsed(); // If it's actually an explain, do the explain and return rather than falling through // to the normal query execution loop. if (pq.isExplain()) { BufBuilder bb; bb.skip(sizeof(QueryResult::Value)); BSONObjBuilder explainBob; Explain::explainStages(exec.get(), ExplainCommon::EXEC_ALL_PLANS, &explainBob); // Add the resulting object to the return buffer. BSONObj explainObj = explainBob.obj(); bb.appendBuf((void*)explainObj.objdata(), explainObj.objsize()); // TODO: Does this get overwritten/do we really need to set this twice? curop.debug().query = q.query; // Set query result fields. QueryResult::View qr = bb.buf(); bb.decouple(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bb.len()); curop.debug().responseLength = bb.len(); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); result.setData(qr.view2ptr(), true); return ""; } // Handle query option $maxTimeMS (not used with commands). curop.setMaxTimeMicros(static_cast<unsigned long long>(pq.getMaxTimeMS()) * 1000); txn->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point. // uassert if we are not on a primary, and not a secondary with SlaveOk query parameter set. bool slaveOK = pq.isSlaveOk() || pq.hasReadPref(); Status serveReadsStatus = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor(txn, nss, slaveOK); uassertStatusOK(serveReadsStatus); // Run the query. // bb is used to hold query results // this buffer should contain either requested documents per query or // explain information, but not both BufBuilder bb(FindCommon::kInitReplyBufferSize); bb.skip(sizeof(QueryResult::Value)); // How many results have we obtained from the executor? int numResults = 0; // If we're replaying the oplog, we save the last time that we read. Timestamp slaveReadTill; BSONObj obj; PlanExecutor::ExecState state; // Get summary info about which plan the executor is using. { stdx::lock_guard<Client> lk(*txn->getClient()); curop.setPlanSummary_inlock(Explain::getPlanSummary(exec.get())); } while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) { // If we can't fit this result inside the current batch, then we stash it for later. if (!FindCommon::haveSpaceForNext(obj, numResults, bb.len())) { exec->enqueue(obj); break; } // Add result to output buffer. bb.appendBuf((void*)obj.objdata(), obj.objsize()); // Count the result. ++numResults; // Possibly note slave's position in the oplog. if (pq.isOplogReplay()) { BSONElement e = obj["ts"]; if (Date == e.type() || bsonTimestamp == e.type()) { slaveReadTill = e.timestamp(); } } if (FindCommon::enoughForFirstBatch(pq, numResults)) { LOG(5) << "Enough for first batch, wantMore=" << pq.wantMore() << " ntoreturn=" << pq.getNToReturn().value_or(0) << " numResults=" << numResults << endl; break; } } // If we cache the executor later, we want to deregister it as it receives notifications // anyway by virtue of being cached. // // If we don't cache the executor later, we are deleting it, so it must be deregistered. // // So, no matter what, deregister the executor. exec->deregisterExec(); // Caller expects exceptions thrown in certain cases. if (PlanExecutor::FAILURE == state || PlanExecutor::DEAD == state) { error() << "Plan executor error during find: " << PlanExecutor::statestr(state) << ", stats: " << Explain::getWinningPlanStats(exec.get()); uasserted(17144, "Executor error: " + WorkingSetCommon::toStatusString(obj)); } // Before saving the cursor, ensure that whatever plan we established happened with the expected // collection version auto css = CollectionShardingState::get(txn, nss); css->checkShardVersionOrThrow(txn); // Fill out curop based on query results. If we have a cursorid, we will fill out curop with // this cursorid later. long long ccId = 0; if (shouldSaveCursor(txn, collection, state, exec.get())) { // We won't use the executor until it's getMore'd. exec->saveState(); exec->detachFromOperationContext(); // Allocate a new ClientCursor. We don't have to worry about leaking it as it's // inserted into a global map by its ctor. ClientCursor* cc = new ClientCursor(collection->getCursorManager(), exec.release(), nss.ns(), txn->recoveryUnit()->isReadingFromMajorityCommittedSnapshot(), pq.getOptions(), pq.getFilter()); ccId = cc->cursorid(); LOG(5) << "caching executor with cursorid " << ccId << " after returning " << numResults << " results" << endl; // TODO document if (pq.isOplogReplay() && !slaveReadTill.isNull()) { cc->slaveReadTill(slaveReadTill); } // TODO document if (pq.isExhaust()) { curop.debug().exhaust = true; } cc->setPos(numResults); // If the query had a time limit, remaining time is "rolled over" to the cursor (for // use by future getmore ops). cc->setLeftoverMaxTimeMicros(curop.getRemainingMaxTimeMicros()); endQueryOp(txn, collection, *cc->getExecutor(), dbProfilingLevel, numResults, ccId); } else { LOG(5) << "Not caching executor but returning " << numResults << " results.\n"; endQueryOp(txn, collection, *exec, dbProfilingLevel, numResults, ccId); } // Add the results from the query into the output buffer. result.appendData(bb.buf(), bb.len()); bb.decouple(); // Fill out the output buffer's header. QueryResult::View qr = result.header().view2ptr(); qr.setCursorId(ccId); qr.setResultFlagsToOk(); qr.msgdata().setOperation(opReply); qr.setStartingFrom(0); qr.setNReturned(numResults); // curop.debug().exhaust is set above. return curop.debug().exhaust ? nss.ns() : ""; }
std::string runQuery(OperationContext* opCtx, QueryMessage& q, const NamespaceString& nss, Message& result) { CurOp& curOp = *CurOp::get(opCtx); curOp.ensureStarted(); uassert(ErrorCodes::InvalidNamespace, str::stream() << "Invalid ns [" << nss.ns() << "]", nss.isValid()); invariant(!nss.isCommand()); // Set CurOp information. const auto upconvertedQuery = upconvertQueryEntry(q.query, nss, q.ntoreturn, q.ntoskip); beginQueryOp(opCtx, nss, upconvertedQuery, q.ntoreturn, q.ntoskip); // Parse the qm into a CanonicalQuery. const boost::intrusive_ptr<ExpressionContext> expCtx; auto cq = uassertStatusOKWithContext( CanonicalQuery::canonicalize(opCtx, q, expCtx, ExtensionsCallbackReal(opCtx, &nss), MatchExpressionParser::kAllowAllSpecialFeatures), "Can't canonicalize query"); invariant(cq.get()); LOG(5) << "Running query:\n" << redact(cq->toString()); LOG(2) << "Running query: " << redact(cq->toStringShort()); // Parse, canonicalize, plan, transcribe, and get a plan executor. AutoGetCollectionForReadCommand ctx(opCtx, nss, AutoGetCollection::ViewMode::kViewsForbidden); Collection* const collection = ctx.getCollection(); { const QueryRequest& qr = cq->getQueryRequest(); // Allow the query to run on secondaries if the read preference permits it. If no read // preference was specified, allow the query to run iff slaveOk has been set. const bool slaveOK = qr.hasReadPref() ? uassertStatusOK(ReadPreferenceSetting::fromContainingBSON(q.query)) .canRunOnSecondary() : qr.isSlaveOk(); uassertStatusOK( repl::ReplicationCoordinator::get(opCtx)->checkCanServeReadsFor(opCtx, nss, slaveOK)); } // We have a parsed query. Time to get the execution plan for it. auto exec = uassertStatusOK(getExecutorLegacyFind(opCtx, collection, nss, std::move(cq))); const QueryRequest& qr = exec->getCanonicalQuery()->getQueryRequest(); // If it's actually an explain, do the explain and return rather than falling through // to the normal query execution loop. if (qr.isExplain()) { BufBuilder bb; bb.skip(sizeof(QueryResult::Value)); BSONObjBuilder explainBob; Explain::explainStages( exec.get(), collection, ExplainOptions::Verbosity::kExecAllPlans, &explainBob); // Add the resulting object to the return buffer. BSONObj explainObj = explainBob.obj(); bb.appendBuf((void*)explainObj.objdata(), explainObj.objsize()); // Set query result fields. QueryResult::View qr = bb.buf(); qr.setResultFlagsToOk(); qr.msgdata().setLen(bb.len()); curOp.debug().responseLength = bb.len(); qr.msgdata().setOperation(opReply); qr.setCursorId(0); qr.setStartingFrom(0); qr.setNReturned(1); result.setData(bb.release()); return ""; } // Handle query option $maxTimeMS (not used with commands). if (qr.getMaxTimeMS() > 0) { uassert(40116, "Illegal attempt to set operation deadline within DBDirectClient", !opCtx->getClient()->isInDirectClient()); opCtx->setDeadlineAfterNowBy(Milliseconds{qr.getMaxTimeMS()}); } opCtx->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point. // Run the query. // bb is used to hold query results // this buffer should contain either requested documents per query or // explain information, but not both BufBuilder bb(FindCommon::kInitReplyBufferSize); bb.skip(sizeof(QueryResult::Value)); // How many results have we obtained from the executor? int numResults = 0; BSONObj obj; PlanExecutor::ExecState state; // Get summary info about which plan the executor is using. { stdx::lock_guard<Client> lk(*opCtx->getClient()); curOp.setPlanSummary_inlock(Explain::getPlanSummary(exec.get())); } while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) { // If we can't fit this result inside the current batch, then we stash it for later. if (!FindCommon::haveSpaceForNext(obj, numResults, bb.len())) { exec->enqueue(obj); break; } // Add result to output buffer. bb.appendBuf((void*)obj.objdata(), obj.objsize()); // Count the result. ++numResults; if (FindCommon::enoughForFirstBatch(qr, numResults)) { LOG(5) << "Enough for first batch, wantMore=" << qr.wantMore() << " ntoreturn=" << qr.getNToReturn().value_or(0) << " numResults=" << numResults; break; } } // Caller expects exceptions thrown in certain cases. if (PlanExecutor::FAILURE == state || PlanExecutor::DEAD == state) { error() << "Plan executor error during find: " << PlanExecutor::statestr(state) << ", stats: " << redact(Explain::getWinningPlanStats(exec.get())); uassertStatusOKWithContext(WorkingSetCommon::getMemberObjectStatus(obj), "Executor error during OP_QUERY find"); MONGO_UNREACHABLE; } // Before saving the cursor, ensure that whatever plan we established happened with the expected // collection version auto css = CollectionShardingState::get(opCtx, nss); css->checkShardVersionOrThrow(opCtx); // Fill out CurOp based on query results. If we have a cursorid, we will fill out CurOp with // this cursorid later. long long ccId = 0; if (shouldSaveCursor(opCtx, collection, state, exec.get())) { // We won't use the executor until it's getMore'd. exec->saveState(); exec->detachFromOperationContext(); // Allocate a new ClientCursor and register it with the cursor manager. ClientCursorPin pinnedCursor = collection->getCursorManager()->registerCursor( opCtx, {std::move(exec), nss, AuthorizationSession::get(opCtx->getClient())->getAuthenticatedUserNames(), opCtx->recoveryUnit()->getReadConcernLevel(), upconvertedQuery}); ccId = pinnedCursor.getCursor()->cursorid(); LOG(5) << "caching executor with cursorid " << ccId << " after returning " << numResults << " results"; // TODO document if (qr.isExhaust()) { curOp.debug().exhaust = true; } pinnedCursor.getCursor()->setPos(numResults); // 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()) { // If the query had a time limit, remaining time is "rolled over" to the cursor (for // use by future getmore ops). pinnedCursor.getCursor()->setLeftoverMaxTimeMicros(opCtx->getRemainingMaxTimeMicros()); } endQueryOp(opCtx, collection, *pinnedCursor.getCursor()->getExecutor(), numResults, ccId); } else { LOG(5) << "Not caching executor but returning " << numResults << " results."; endQueryOp(opCtx, collection, *exec, numResults, ccId); } // Fill out the output buffer's header. QueryResult::View queryResultView = bb.buf(); queryResultView.setCursorId(ccId); queryResultView.setResultFlagsToOk(); queryResultView.msgdata().setLen(bb.len()); queryResultView.msgdata().setOperation(opReply); queryResultView.setStartingFrom(0); queryResultView.setNReturned(numResults); // Add the results from the query into the output buffer. result.setData(bb.release()); // curOp.debug().exhaust is set above. return curOp.debug().exhaust ? nss.ns() : ""; }