Ejemplo n.º 1
0
void generateLegacyQueryErrorResponse(const AssertionException* exception,
                                      const QueryMessage& queryMessage,
                                      CurOp* curop,
                                      Message* response) {
    curop->debug().exceptionInfo = exception->getInfo();

    log(LogComponent::kQuery) << "assertion " << exception->toString() << " ns:" << queryMessage.ns
                              << " query:" << (queryMessage.query.valid()
                                                   ? queryMessage.query.toString()
                                                   : "query object is corrupt");
    if (queryMessage.ntoskip || queryMessage.ntoreturn) {
        log(LogComponent::kQuery) << " ntoskip:" << queryMessage.ntoskip
                                  << " ntoreturn:" << queryMessage.ntoreturn;
    }

    const SendStaleConfigException* scex = (exception->getCode() == ErrorCodes::SendStaleConfig)
        ? static_cast<const SendStaleConfigException*>(exception)
        : NULL;

    BSONObjBuilder err;
    exception->getInfo().append(err);
    if (scex) {
        err.append("ok", 0.0);
        err.append("ns", scex->getns());
        scex->getVersionReceived().addToBSON(err, "vReceived");
        scex->getVersionWanted().addToBSON(err, "vWanted");
    }
    BSONObj errObj = err.done();

    if (scex) {
        log(LogComponent::kQuery) << "stale version detected during query over " << queryMessage.ns
                                  << " : " << errObj;
    }

    BufBuilder bb;
    bb.skip(sizeof(QueryResult::Value));
    bb.appendBuf((void*)errObj.objdata(), errObj.objsize());

    // TODO: call replyToQuery() from here instead of this!!! see dbmessage.h
    QueryResult::View msgdata = bb.buf();
    bb.decouple();
    QueryResult::View qr = msgdata;
    qr.setResultFlags(ResultFlag_ErrSet);
    if (scex)
        qr.setResultFlags(qr.getResultFlags() | ResultFlag_ShardConfigStale);
    qr.msgdata().setLen(bb.len());
    qr.msgdata().setOperation(opReply);
    qr.setCursorId(0);
    qr.setStartingFrom(0);
    qr.setNReturned(1);
    response->setData(msgdata.view2ptr(), true);
}
Ejemplo n.º 2
0
void OpQueryReplyBuilder::putInMessage(
    Message* out, int queryResultFlags, int nReturned, int startingFrom, long long cursorId) {
    QueryResult::View qr = _buffer.buf();
    qr.setResultFlags(queryResultFlags);
    qr.msgdata().setLen(_buffer.len());
    qr.msgdata().setOperation(opReply);
    qr.setCursorId(cursorId);
    qr.setStartingFrom(startingFrom);
    qr.setNReturned(nReturned);
    out->setData(_buffer.release());  // transport will free
}
Ejemplo n.º 3
0
    void replyToQuery( int queryResultFlags, Message& response, const BSONObj& resultObj ) {
        BufBuilder bufBuilder;
        bufBuilder.skip( sizeof( QueryResult::Value ));
        bufBuilder.appendBuf( reinterpret_cast< void *>(
                const_cast< char* >( resultObj.objdata() )), resultObj.objsize() );

        QueryResult::View queryResult = bufBuilder.buf();
        bufBuilder.decouple();

        queryResult.setResultFlags(queryResultFlags);
        queryResult.msgdata().setLen(bufBuilder.len());
        queryResult.msgdata().setOperation( opReply );
        queryResult.setCursorId(0);
        queryResult.setStartingFrom(0);
        queryResult.setNReturned(1);

        response.setData( queryResult.view2ptr(), true ); // transport will free
    }
Ejemplo n.º 4
0
 void replyToQuery(int queryResultFlags,
                   AbstractMessagingPort* p, Message& requestMsg,
                   void *data, int size,
                   int nReturned, int startingFrom,
                   long long cursorId 
                   ) {
     BufBuilder b(32768);
     b.skip(sizeof(QueryResult::Value));
     b.appendBuf(data, size);
     QueryResult::View qr = b.buf();
     qr.setResultFlags(queryResultFlags);
     qr.msgdata().setLen(b.len());
     qr.msgdata().setOperation(opReply);
     qr.setCursorId(cursorId);
     qr.setStartingFrom(startingFrom);
     qr.setNReturned(nReturned);
     b.decouple();
     Message resp(qr.view2ptr(), true);
     p->reply(requestMsg, resp, requestMsg.header().getId());
 }
Ejemplo n.º 5
0
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);
}
Ejemplo n.º 6
0
    /**
     * Called by db/instance.cpp.  This is the getMore entry point.
     *
     * pass - when QueryOption_AwaitData is in use, the caller will make repeated calls 
     *        when this method returns an empty result, incrementing pass on each call.  
     *        Thus, pass == 0 indicates this is the first "attempt" before any 'awaiting'.
     */
    QueryResult::View newGetMore(OperationContext* txn,
                            const char* ns,
                            int ntoreturn,
                            long long cursorid,
                            CurOp& curop,
                            int pass,
                            bool& exhaust,
                            bool* isCursorAuthorized,
                            bool fromDBDirectClient) {

        // For testing, we may want to fail if we receive a getmore.
        if (MONGO_FAIL_POINT(failReceivedGetmore)) {
            invariant(0);
        }

        exhaust = false;

        // This is a read lock.
        const NamespaceString nss(ns);
        scoped_ptr<AutoGetCollectionForRead> ctx(new AutoGetCollectionForRead(txn, nss));
        Collection* collection = ctx->getCollection();
        uassert( 17356, "collection dropped between getMore calls", collection );

        QLOG() << "Running getMore, cursorid: " << cursorid << endl;

        // This checks to make sure the operation is allowed on a replicated node.  Since we are not
        // passing in a query object (necessary to check SlaveOK query option), the only state where
        // reads are allowed is PRIMARY (or master in master/slave).  This function uasserts if
        // reads are not okay.
        Status status = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor(
                txn,
                nss,
                true);
        uassertStatusOK(status);

        // A pin performs a CC lookup and if there is a CC, increments the CC's pin value so it
        // doesn't time out.  Also informs ClientCursor that there is somebody actively holding the
        // CC, so don't delete it.
        ClientCursorPin ccPin(collection, cursorid);
        ClientCursor* cc = ccPin.c();

        // If we're not being called from DBDirectClient we want to associate the RecoveryUnit
        // used to create the execution machinery inside the cursor with our OperationContext.
        // If we throw or otherwise exit this method in a disorderly fashion, we must ensure
        // that further calls to getMore won't fail, and that the provided OperationContext
        // has a valid RecoveryUnit.  As such, we use RAII to accomplish this.
        //
        // This must be destroyed before the ClientCursor is destroyed.
        std::auto_ptr<ScopedRecoveryUnitSwapper> ruSwapper;

        // These are set in the QueryResult msg we return.
        int resultFlags = ResultFlag_AwaitCapable;

        int numResults = 0;
        int startingResult = 0;

        const int InitialBufSize =
            512 + sizeof(QueryResult::Value) + MaxBytesToReturnToClientAtOnce;

        BufBuilder bb(InitialBufSize);
        bb.skip(sizeof(QueryResult::Value));

        if (NULL == cc) {
            cursorid = 0;
            resultFlags = ResultFlag_CursorNotFound;
        }
        else {
            // Quote: check for spoofing of the ns such that it does not match the one originally
            // there for the cursor
            uassert(17011, "auth error", str::equals(ns, cc->ns().c_str()));
            *isCursorAuthorized = true;

            // Restore the RecoveryUnit if we need to.
            if (fromDBDirectClient) {
                if (cc->hasRecoveryUnit())
                    invariant(txn->recoveryUnit() == cc->getUnownedRecoveryUnit());
            }
            else {
                if (!cc->hasRecoveryUnit()) {
                    // Start using a new RecoveryUnit
                    cc->setOwnedRecoveryUnit(
                        getGlobalEnvironment()->getGlobalStorageEngine()->newRecoveryUnit(txn));

                }
                // Swap RecoveryUnit(s) between the ClientCursor and OperationContext.
                ruSwapper.reset(new ScopedRecoveryUnitSwapper(cc, txn));
            }

            // Reset timeout timer on the cursor since the cursor is still in use.
            cc->setIdleTime(0);

            // TODO: fail point?

            // If the operation that spawned this cursor had a time limit set, apply leftover
            // time to this getmore.
            curop.setMaxTimeMicros(cc->getLeftoverMaxTimeMicros());
            txn->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point.

            if (0 == pass) { 
                cc->updateSlaveLocation(txn, curop); 
            }

            if (cc->isAggCursor) {
                // Agg cursors handle their own locking internally.
                ctx.reset(); // unlocks
            }

            CollectionMetadataPtr collMetadata = cc->getCollMetadata();

            // If we're replaying the oplog, we save the last time that we read.
            OpTime slaveReadTill;

            // What number result are we starting at?  Used to fill out the reply.
            startingResult = cc->pos();

            // What gives us results.
            PlanExecutor* exec = cc->getExecutor();
            const int queryOptions = cc->queryOptions();

            // Get results out of the executor.
            exec->restoreState(txn);

            BSONObj obj;
            PlanExecutor::ExecState state;
            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 (queryOptions & QueryOption_OplogReplay) {
                    BSONElement e = obj["ts"];
                    if (Date == e.type() || Timestamp == e.type()) {
                        slaveReadTill = e._opTime();
                    }
                }

                if ((ntoreturn && numResults >= ntoreturn)
                    || bb.len() > MaxBytesToReturnToClientAtOnce) {
                    break;
                }
            }

            // We save the client cursor when there might be more results, and hence we may receive
            // another getmore. If we receive a EOF or an error, or 'exec' is dead, then we know
            // that we will not be producing more results. We indicate that the cursor is closed by
            // sending a cursorId of 0 back to the client.
            //
            // On the other hand, if we retrieve all results necessary for this batch, then
            // 'saveClientCursor' is true and we send a valid cursorId back to the client. In
            // this case, there may or may not actually be more results (for example, the next call
            // to getNext(...) might just return EOF).
            bool saveClientCursor = false;

            if (PlanExecutor::DEAD == state || PlanExecutor::EXEC_ERROR == state) {
                // Propagate this error to caller.
                if (PlanExecutor::EXEC_ERROR == state) {
                    scoped_ptr<PlanStageStats> stats(exec->getStats());
                    error() << "Plan executor error, stats: "
                            << Explain::statsToBSON(*stats);
                    uasserted(17406, "getMore executor error: " +
                              WorkingSetCommon::toStatusString(obj));
                }

                // If we're dead there's no way to get more results.
                saveClientCursor = false;

                // In the old system tailable capped cursors would be killed off at the
                // cursorid level.  If a tailable capped cursor is nuked the cursorid
                // would vanish.
                //
                // In the new system they die and are cleaned up later (or time out).
                // So this is where we get to remove the cursorid.
                if (0 == numResults) {
                    resultFlags = ResultFlag_CursorNotFound;
                }
            }
            else if (PlanExecutor::IS_EOF == state) {
                // EOF is also end of the line unless it's tailable.
                saveClientCursor = queryOptions & QueryOption_CursorTailable;
            }
            else {
                verify(PlanExecutor::ADVANCED == state);
                saveClientCursor = true;
            }

            if (!saveClientCursor) {
                ruSwapper.reset();
                ccPin.deleteUnderlying();
                // cc is now invalid, as is the executor
                cursorid = 0;
                cc = NULL;
                QLOG() << "getMore NOT saving client cursor, ended with state "
                       << PlanExecutor::statestr(state)
                       << endl;
            }
            else {
                // Continue caching the ClientCursor.
                cc->incPos(numResults);
                exec->saveState();
                QLOG() << "getMore saving client cursor ended with state "
                       << PlanExecutor::statestr(state)
                       << endl;

                if (PlanExecutor::IS_EOF == state && (queryOptions & QueryOption_CursorTailable)) {
                    if (!fromDBDirectClient) {
                        // Don't stash the RU. Get a new one on the next getMore.
                        ruSwapper.reset();
                        delete cc->releaseOwnedRecoveryUnit();
                    }

                    if ((queryOptions & QueryOption_AwaitData)
                            && (numResults == 0)
                            && (pass < 1000)) {
                        // Bubble up to the AwaitData handling code in receivedGetMore which will
                        // try again.
                        return NULL;
                    }
                }

                // Possibly note slave's position in the oplog.
                if ((queryOptions & QueryOption_OplogReplay) && !slaveReadTill.isNull()) {
                    cc->slaveReadTill(slaveReadTill);
                }

                exhaust = (queryOptions & QueryOption_Exhaust);

                // If the getmore had a time limit, remaining time is "rolled over" back to the
                // cursor (for use by future getmore ops).
                cc->setLeftoverMaxTimeMicros( curop.getRemainingMaxTimeMicros() );
            }
        }

        QueryResult::View qr = bb.buf();
        qr.msgdata().setLen(bb.len());
        qr.msgdata().setOperation(opReply);
        qr.setResultFlags(resultFlags);
        qr.setCursorId(cursorid);
        qr.setStartingFrom(startingResult);
        qr.setNReturned(numResults);
        bb.decouple();
        QLOG() << "getMore returned " << numResults << " results\n";
        return qr;
    }
Ejemplo n.º 7
0
    /**
     * Called by db/instance.cpp.  This is the getMore entry point.
     *
     * pass - when QueryOption_AwaitData is in use, the caller will make repeated calls 
     *        when this method returns an empty result, incrementing pass on each call.  
     *        Thus, pass == 0 indicates this is the first "attempt" before any 'awaiting'.
     */
    QueryResult::View getMore(OperationContext* txn,
                              const char* ns,
                              int ntoreturn,
                              long long cursorid,
                              CurOp& curop,
                              int pass,
                              bool& exhaust,
                              bool* isCursorAuthorized) {

        // For testing, we may want to fail if we receive a getmore.
        if (MONGO_FAIL_POINT(failReceivedGetmore)) {
            invariant(0);
        }

        exhaust = false;

        const NamespaceString nss(ns);

        // Depending on the type of cursor being operated on, we hold locks for the whole getMore,
        // or none of the getMore, or part of the getMore.  The three cases in detail:
        //
        // 1) Normal cursor: we lock with "ctx" and hold it for the whole getMore.
        // 2) Cursor owned by global cursor manager: we don't lock anything.  These cursors don't
        //    own any collection state.
        // 3) Agg cursor: we lock with "ctx", then release, then relock with "unpinDBLock" and
        //    "unpinCollLock".  This is because agg cursors handle locking internally (hence the
        //    release), but the pin and unpin of the cursor must occur under the collection lock.
        //    We don't use our AutoGetCollectionForRead "ctx" to relock, because
        //    AutoGetCollectionForRead checks the sharding version (and we want the relock for the
        //    unpin to succeed even if the sharding version has changed).
        //
        // Note that we declare our locks before our ClientCursorPin, in order to ensure that the
        // pin's destructor is called before the lock destructors (so that the unpin occurs under
        // the lock).
        boost::scoped_ptr<AutoGetCollectionForRead> ctx;
        boost::scoped_ptr<Lock::DBLock> unpinDBLock;
        boost::scoped_ptr<Lock::CollectionLock> unpinCollLock;

        CursorManager* cursorManager;
        CursorManager* globalCursorManager = CursorManager::getGlobalCursorManager();
        if (globalCursorManager->ownsCursorId(cursorid)) {
            cursorManager = globalCursorManager;
        }
        else {
            ctx.reset(new AutoGetCollectionForRead(txn, nss));
            Collection* collection = ctx->getCollection();
            uassert( 17356, "collection dropped between getMore calls", collection );
            cursorManager = collection->getCursorManager();
        }

        LOG(5) << "Running getMore, cursorid: " << cursorid << endl;

        // This checks to make sure the operation is allowed on a replicated node.  Since we are not
        // passing in a query object (necessary to check SlaveOK query option), the only state where
        // reads are allowed is PRIMARY (or master in master/slave).  This function uasserts if
        // reads are not okay.
        Status status = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor(
                txn,
                nss,
                true);
        uassertStatusOK(status);

        // A pin performs a CC lookup and if there is a CC, increments the CC's pin value so it
        // doesn't time out.  Also informs ClientCursor that there is somebody actively holding the
        // CC, so don't delete it.
        ClientCursorPin ccPin(cursorManager, cursorid);
        ClientCursor* cc = ccPin.c();

        // If we're not being called from DBDirectClient we want to associate the RecoveryUnit
        // used to create the execution machinery inside the cursor with our OperationContext.
        // If we throw or otherwise exit this method in a disorderly fashion, we must ensure
        // that further calls to getMore won't fail, and that the provided OperationContext
        // has a valid RecoveryUnit.  As such, we use RAII to accomplish this.
        //
        // This must be destroyed before the ClientCursor is destroyed.
        std::auto_ptr<ScopedRecoveryUnitSwapper> ruSwapper;

        // These are set in the QueryResult msg we return.
        int resultFlags = ResultFlag_AwaitCapable;

        int numResults = 0;
        int startingResult = 0;

        const int InitialBufSize =
            512 + sizeof(QueryResult::Value) + MaxBytesToReturnToClientAtOnce;

        BufBuilder bb(InitialBufSize);
        bb.skip(sizeof(QueryResult::Value));

        if (NULL == cc) {
            cursorid = 0;
            resultFlags = ResultFlag_CursorNotFound;
        }
        else {
            // Check for spoofing of the ns such that it does not match the one originally
            // there for the cursor.
            uassert(ErrorCodes::Unauthorized,
                    str::stream() << "Requested getMore on namespace " << ns << ", but cursor "
                                  << cursorid << " belongs to namespace " << cc->ns(),
                    ns == cc->ns());
            *isCursorAuthorized = true;

            // Restore the RecoveryUnit if we need to.
            if (txn->getClient()->isInDirectClient()) {
                if (cc->hasRecoveryUnit())
                    invariant(txn->recoveryUnit() == cc->getUnownedRecoveryUnit());
            }
            else {
                if (!cc->hasRecoveryUnit()) {
                    // Start using a new RecoveryUnit
                    cc->setOwnedRecoveryUnit(
                        getGlobalServiceContext()->getGlobalStorageEngine()->newRecoveryUnit());

                }
                // Swap RecoveryUnit(s) between the ClientCursor and OperationContext.
                ruSwapper.reset(new ScopedRecoveryUnitSwapper(cc, txn));
            }

            // Reset timeout timer on the cursor since the cursor is still in use.
            cc->setIdleTime(0);

            // If the operation that spawned this cursor had a time limit set, apply leftover
            // time to this getmore.
            curop.setMaxTimeMicros(cc->getLeftoverMaxTimeMicros());
            txn->checkForInterrupt(); // May trigger maxTimeAlwaysTimeOut fail point.

            if (0 == pass) { 
                cc->updateSlaveLocation(txn); 
            }

            if (cc->isAggCursor()) {
                // Agg cursors handle their own locking internally.
                ctx.reset(); // unlocks
            }

            // If we're replaying the oplog, we save the last time that we read.
            Timestamp slaveReadTill;

            // What number result are we starting at?  Used to fill out the reply.
            startingResult = cc->pos();

            // What gives us results.
            PlanExecutor* exec = cc->getExecutor();
            const int queryOptions = cc->queryOptions();

            // Get results out of the executor.
            exec->restoreState(txn);

            BSONObj obj;
            PlanExecutor::ExecState state;
            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 (queryOptions & QueryOption_OplogReplay) {
                    BSONElement e = obj["ts"];
                    if (Date == e.type() || bsonTimestamp == e.type()) {
                        slaveReadTill = e.timestamp();
                    }
                }

                if (enoughForGetMore(ntoreturn, numResults, bb.len())) {
                    break;
                }
            }

            if (PlanExecutor::DEAD == state || PlanExecutor::FAILURE == state) {
                // Propagate this error to caller.
                if (PlanExecutor::FAILURE == state) {
                    scoped_ptr<PlanStageStats> stats(exec->getStats());
                    error() << "Plan executor error, stats: "
                            << Explain::statsToBSON(*stats);
                    uasserted(17406, "getMore executor error: " +
                              WorkingSetCommon::toStatusString(obj));
                }

                // In the old system tailable capped cursors would be killed off at the
                // cursorid level.  If a tailable capped cursor is nuked the cursorid
                // would vanish.
                //
                // In the new system they die and are cleaned up later (or time out).
                // So this is where we get to remove the cursorid.
                if (0 == numResults) {
                    resultFlags = ResultFlag_CursorNotFound;
                }
            }

            const bool shouldSaveCursor =
                    shouldSaveCursorGetMore(state, exec, isCursorTailable(cc));

            // In order to deregister a cursor, we need to be holding the DB + collection lock and
            // if the cursor is aggregation, we release these locks.
            if (cc->isAggCursor()) {
                invariant(NULL == ctx.get());
                unpinDBLock.reset(new Lock::DBLock(txn->lockState(), nss.db(), MODE_IS));
                unpinCollLock.reset(new Lock::CollectionLock(txn->lockState(), nss.ns(), MODE_IS));
            }

            // Our two possible ClientCursorPin cleanup paths are:
            // 1) If the cursor is not going to be saved, we call deleteUnderlying() on the pin.
            // 2) If the cursor is going to be saved, we simply let the pin go out of scope.  In
            //    this case, the pin's destructor will be invoked, which will call release() on the
            //    pin.  Because our ClientCursorPin is declared after our lock is declared, this
            //    will happen under the lock.
            if (!shouldSaveCursor) {
                ruSwapper.reset();
                ccPin.deleteUnderlying();

                // cc is now invalid, as is the executor
                cursorid = 0;
                cc = NULL;
                curop.debug().cursorExhausted = true;

                LOG(5) << "getMore NOT saving client cursor, ended with state "
                       << PlanExecutor::statestr(state)
                       << endl;
            }
            else {
                // Continue caching the ClientCursor.
                cc->incPos(numResults);
                exec->saveState();
                LOG(5) << "getMore saving client cursor ended with state "
                       << PlanExecutor::statestr(state)
                       << endl;

                if (PlanExecutor::IS_EOF == state && (queryOptions & QueryOption_CursorTailable)) {
                    if (!txn->getClient()->isInDirectClient()) {
                        // Don't stash the RU. Get a new one on the next getMore.
                        ruSwapper->dismiss();
                    }

                    if ((queryOptions & QueryOption_AwaitData)
                            && (numResults == 0)
                            && (pass < 1000)) {
                        // Bubble up to the AwaitData handling code in receivedGetMore which will
                        // try again.
                        return NULL;
                    }
                }

                // Possibly note slave's position in the oplog.
                if ((queryOptions & QueryOption_OplogReplay) && !slaveReadTill.isNull()) {
                    cc->slaveReadTill(slaveReadTill);
                }

                exhaust = (queryOptions & QueryOption_Exhaust);

                // If the getmore had a time limit, remaining time is "rolled over" back to the
                // cursor (for use by future getmore ops).
                cc->setLeftoverMaxTimeMicros( curop.getRemainingMaxTimeMicros() );
            }
        }

        QueryResult::View qr = bb.buf();
        qr.msgdata().setLen(bb.len());
        qr.msgdata().setOperation(opReply);
        qr.setResultFlags(resultFlags);
        qr.setCursorId(cursorid);
        qr.setStartingFrom(startingResult);
        qr.setNReturned(numResults);
        bb.decouple();
        LOG(5) << "getMore returned " << numResults << " results\n";
        return qr;
    }
Ejemplo n.º 8
0
/**
 * Called by db/instance.cpp.  This is the getMore entry point.
 */
QueryResult::View getMore(OperationContext* txn,
                          const char* ns,
                          int ntoreturn,
                          long long cursorid,
                          bool* exhaust,
                          bool* isCursorAuthorized) {
    invariant(ntoreturn >= 0);

    CurOp& curop = *CurOp::get(txn);

    // For testing, we may want to fail if we receive a getmore.
    if (MONGO_FAIL_POINT(failReceivedGetmore)) {
        invariant(0);
    }

    *exhaust = false;

    const NamespaceString nss(ns);

    // Depending on the type of cursor being operated on, we hold locks for the whole getMore,
    // or none of the getMore, or part of the getMore.  The three cases in detail:
    //
    // 1) Normal cursor: we lock with "ctx" and hold it for the whole getMore.
    // 2) Cursor owned by global cursor manager: we don't lock anything.  These cursors don't own
    //    any collection state. These cursors are generated either by the listCollections or
    //    listIndexes commands, as these special cursor-generating commands operate over catalog
    //    data rather than targeting the data within a collection.
    // 3) Agg cursor: we lock with "ctx", then release, then relock with "unpinDBLock" and
    //    "unpinCollLock".  This is because agg cursors handle locking internally (hence the
    //    release), but the pin and unpin of the cursor must occur under the collection lock.
    //    We don't use our AutoGetCollectionForRead "ctx" to relock, because
    //    AutoGetCollectionForRead checks the sharding version (and we want the relock for the
    //    unpin to succeed even if the sharding version has changed).
    //
    // Note that we declare our locks before our ClientCursorPin, in order to ensure that the
    // pin's destructor is called before the lock destructors (so that the unpin occurs under
    // the lock).
    unique_ptr<AutoGetCollectionForRead> ctx;
    unique_ptr<Lock::DBLock> unpinDBLock;
    unique_ptr<Lock::CollectionLock> unpinCollLock;

    CursorManager* cursorManager;
    if (nss.isListIndexesCursorNS() || nss.isListCollectionsCursorNS()) {
        // List collections and list indexes are special cursor-generating commands whose
        // cursors are managed globally, as they operate over catalog data rather than targeting
        // the data within a collection.
        cursorManager = CursorManager::getGlobalCursorManager();
    } else {
        ctx = stdx::make_unique<AutoGetCollectionForRead>(txn, nss);
        Collection* collection = ctx->getCollection();
        uassert(17356, "collection dropped between getMore calls", collection);
        cursorManager = collection->getCursorManager();
    }

    LOG(5) << "Running getMore, cursorid: " << cursorid << endl;

    // This checks to make sure the operation is allowed on a replicated node.  Since we are not
    // passing in a query object (necessary to check SlaveOK query option), the only state where
    // reads are allowed is PRIMARY (or master in master/slave).  This function uasserts if
    // reads are not okay.
    Status status = repl::getGlobalReplicationCoordinator()->checkCanServeReadsFor(txn, nss, true);
    uassertStatusOK(status);

    // A pin performs a CC lookup and if there is a CC, increments the CC's pin value so it
    // doesn't time out.  Also informs ClientCursor that there is somebody actively holding the
    // CC, so don't delete it.
    ClientCursorPin ccPin(cursorManager, cursorid);
    ClientCursor* cc = ccPin.c();
    // These are set in the QueryResult msg we return.
    int resultFlags = ResultFlag_AwaitCapable;

    int numResults = 0;
    int startingResult = 0;

    const int InitialBufSize =
        512 + sizeof(QueryResult::Value) + FindCommon::kMaxBytesToReturnToClientAtOnce;

    BufBuilder bb(InitialBufSize);
    bb.skip(sizeof(QueryResult::Value));

    if (NULL == cc) {
        cursorid = 0;
        resultFlags = ResultFlag_CursorNotFound;
    } else {
        // Check for spoofing of the ns such that it does not match the one originally
        // there for the cursor.
        uassert(ErrorCodes::Unauthorized,
                str::stream() << "Requested getMore on namespace " << ns << ", but cursor "
                              << cursorid << " belongs to namespace " << cc->ns(),
                ns == cc->ns());
        *isCursorAuthorized = true;

        if (cc->isReadCommitted())
            uassertStatusOK(txn->recoveryUnit()->setReadFromMajorityCommittedSnapshot());

        // Reset timeout timer on the cursor since the cursor is still in use.
        cc->setIdleTime(0);

        // If the operation that spawned this cursor had a time limit set, apply leftover
        // time to this getmore.
        curop.setMaxTimeMicros(cc->getLeftoverMaxTimeMicros());
        txn->checkForInterrupt();  // May trigger maxTimeAlwaysTimeOut fail point.

        // Ensure that the original query or command object is available in the slow query log,
        // profiler, and currentOp.
        curop.debug().query = cc->getQuery();
        {
            stdx::lock_guard<Client> lk(*txn->getClient());
            curop.setQuery_inlock(cc->getQuery());
        }

        cc->updateSlaveLocation(txn);

        if (cc->isAggCursor()) {
            // Agg cursors handle their own locking internally.
            ctx.reset();  // unlocks
        }

        // If we're replaying the oplog, we save the last time that we read.
        Timestamp slaveReadTill;

        // What number result are we starting at?  Used to fill out the reply.
        startingResult = cc->pos();

        uint64_t notifierVersion = 0;
        std::shared_ptr<CappedInsertNotifier> notifier;
        if (isCursorAwaitData(cc)) {
            invariant(ctx->getCollection()->isCapped());
            // Retrieve the notifier which we will wait on until new data arrives. We make sure
            // to do this in the lock because once we drop the lock it is possible for the
            // collection to become invalid. The notifier itself will outlive the collection if
            // the collection is dropped, as we keep a shared_ptr to it.
            notifier = ctx->getCollection()->getCappedInsertNotifier();

            // Must get the version before we call generateBatch in case a write comes in after
            // that call and before we call wait on the notifier.
            notifierVersion = notifier->getVersion();
        }

        PlanExecutor* exec = cc->getExecutor();
        exec->reattachToOperationContext(txn);
        exec->restoreState();
        PlanExecutor::ExecState state;

        generateBatch(ntoreturn, cc, &bb, &numResults, &slaveReadTill, &state);

        // If this is an await data cursor, and we hit EOF without generating any results, then
        // we block waiting for new data to arrive.
        if (isCursorAwaitData(cc) && state == PlanExecutor::IS_EOF && numResults == 0) {
            // Save the PlanExecutor and drop our locks.
            exec->saveState();
            ctx.reset();

            // Block waiting for data for up to 1 second.
            Seconds timeout(1);
            notifier->wait(notifierVersion, timeout);
            notifier.reset();

            // Set expected latency to match wait time. This makes sure the logs aren't spammed
            // by awaitData queries that exceed slowms due to blocking on the CappedInsertNotifier.
            curop.setExpectedLatencyMs(durationCount<Milliseconds>(timeout));

            // Reacquiring locks.
            ctx = make_unique<AutoGetCollectionForRead>(txn, nss);
            exec->restoreState();

            // We woke up because either the timed_wait expired, or there was more data. Either
            // way, attempt to generate another batch of results.
            generateBatch(ntoreturn, cc, &bb, &numResults, &slaveReadTill, &state);
        }

        // We have to do this before re-acquiring locks in the agg case because
        // shouldSaveCursorGetMore() can make a network call for agg cursors.
        //
        // TODO: Getting rid of PlanExecutor::isEOF() in favor of PlanExecutor::IS_EOF would mean
        // that this network operation is no longer necessary.
        const bool shouldSaveCursor = shouldSaveCursorGetMore(state, exec, isCursorTailable(cc));

        // In order to deregister a cursor, we need to be holding the DB + collection lock and
        // if the cursor is aggregation, we release these locks.
        if (cc->isAggCursor()) {
            invariant(NULL == ctx.get());
            unpinDBLock = make_unique<Lock::DBLock>(txn->lockState(), nss.db(), MODE_IS);
            unpinCollLock = make_unique<Lock::CollectionLock>(txn->lockState(), nss.ns(), MODE_IS);
        }

        // Our two possible ClientCursorPin cleanup paths are:
        // 1) If the cursor is not going to be saved, we call deleteUnderlying() on the pin.
        // 2) If the cursor is going to be saved, we simply let the pin go out of scope.  In
        //    this case, the pin's destructor will be invoked, which will call release() on the
        //    pin.  Because our ClientCursorPin is declared after our lock is declared, this
        //    will happen under the lock.
        if (!shouldSaveCursor) {
            ccPin.deleteUnderlying();

            // cc is now invalid, as is the executor
            cursorid = 0;
            cc = NULL;
            curop.debug().cursorExhausted = true;

            LOG(5) << "getMore NOT saving client cursor, ended with state "
                   << PlanExecutor::statestr(state) << endl;
        } else {
            // Continue caching the ClientCursor.
            cc->incPos(numResults);
            exec->saveState();
            exec->detachFromOperationContext();
            LOG(5) << "getMore saving client cursor ended with state "
                   << PlanExecutor::statestr(state) << endl;

            // Possibly note slave's position in the oplog.
            if ((cc->queryOptions() & QueryOption_OplogReplay) && !slaveReadTill.isNull()) {
                cc->slaveReadTill(slaveReadTill);
            }

            *exhaust = cc->queryOptions() & QueryOption_Exhaust;

            // If the getmore had a time limit, remaining time is "rolled over" back to the
            // cursor (for use by future getmore ops).
            cc->setLeftoverMaxTimeMicros(curop.getRemainingMaxTimeMicros());
        }
    }

    QueryResult::View qr = bb.buf();
    qr.msgdata().setLen(bb.len());
    qr.msgdata().setOperation(opReply);
    qr.setResultFlags(resultFlags);
    qr.setCursorId(cursorid);
    qr.setStartingFrom(startingResult);
    qr.setNReturned(numResults);
    bb.decouple();
    LOG(5) << "getMore returned " << numResults << " results\n";
    return qr;
}
Ejemplo n.º 9
0
/**
 * Called by db/instance.cpp.  This is the getMore entry point.
 */
Message getMore(OperationContext* opCtx,
                const char* ns,
                int ntoreturn,
                long long cursorid,
                bool* exhaust,
                bool* isCursorAuthorized) {
    invariant(ntoreturn >= 0);

    CurOp& curOp = *CurOp::get(opCtx);
    curOp.ensureStarted();

    // For testing, we may want to fail if we receive a getmore.
    if (MONGO_FAIL_POINT(failReceivedGetmore)) {
        MONGO_UNREACHABLE;
    }

    *exhaust = false;

    const NamespaceString nss(ns);

    // Cursors come in one of two flavors:
    // - Cursors owned by the collection cursor manager, 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.
    // - Cursors owned by the global cursor manager, such as those generated via the aggregate
    //   command. These cursors either hold no collection state or manage their collection state
    //   internally, so we acquire no locks.
    //
    // While we only need to acquire locks in the case of a cursor which is *not* globally owned, 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.
    //
    // Note that we acquire our locks before our ClientCursorPin, in order to ensure that the pin's
    // destructor is called before the lock's destructor (if there is one) so that the cursor
    // cleanup can occur under the lock.
    UninterruptibleLockGuard noInterrupt(opCtx->lockState());
    boost::optional<AutoGetCollectionForRead> readLock;
    boost::optional<AutoStatsTracker> statsTracker;
    CursorManager* cursorManager;

    if (CursorManager::isGloballyManagedCursor(cursorid)) {
        cursorManager = CursorManager::getGlobalCursorManager();

        if (boost::optional<NamespaceString> nssForCurOp = nss.isGloballyManagedNamespace()
                ? nss.getTargetNSForGloballyManagedNamespace()
                : nss) {
            AutoGetDb autoDb(opCtx, nssForCurOp->db(), MODE_IS);
            const auto profilingLevel = autoDb.getDb()
                ? boost::optional<int>{autoDb.getDb()->getProfilingLevel()}
                : boost::none;
            statsTracker.emplace(opCtx, *nssForCurOp, Top::LockType::NotLocked, profilingLevel);
            auto view = autoDb.getDb()
                ? autoDb.getDb()->getViewCatalog()->lookup(opCtx, nssForCurOp->ns())
                : nullptr;
            uassert(
                ErrorCodes::CommandNotSupportedOnView,
                str::stream() << "Namespace " << nssForCurOp->ns()
                              << " is a view. OP_GET_MORE operations are not supported on views. "
                              << "Only clients which support the getMore command can be used to "
                                 "query views.",
                !view);
        }
    } else {
        readLock.emplace(opCtx, nss);
        const int doNotChangeProfilingLevel = 0;
        statsTracker.emplace(opCtx,
                             nss,
                             Top::LockType::ReadLocked,
                             readLock->getDb() ? readLock->getDb()->getProfilingLevel()
                                               : doNotChangeProfilingLevel);
        Collection* collection = readLock->getCollection();
        uassert(
            ErrorCodes::OperationFailed, "collection dropped between getMore calls", collection);
        cursorManager = collection->getCursorManager();

        // This checks to make sure the operation is allowed on a replicated node.  Since we are not
        // passing in a query object (necessary to check SlaveOK query option), we allow reads
        // whether we are PRIMARY or SECONDARY.
        uassertStatusOK(
            repl::ReplicationCoordinator::get(opCtx)->checkCanServeReadsFor(opCtx, nss, true));
    }

    LOG(5) << "Running getMore, cursorid: " << cursorid;

    // A pin performs a CC lookup and if there is a CC, increments the CC's pin value so it
    // doesn't time out.  Also informs ClientCursor that there is somebody actively holding the
    // CC, so don't delete it.
    auto ccPin = cursorManager->pinCursor(opCtx, cursorid);

    // These are set in the QueryResult msg we return.
    int resultFlags = ResultFlag_AwaitCapable;

    int numResults = 0;
    int startingResult = 0;

    const int InitialBufSize =
        512 + sizeof(QueryResult::Value) + FindCommon::kMaxBytesToReturnToClientAtOnce;

    BufBuilder bb(InitialBufSize);
    bb.skip(sizeof(QueryResult::Value));

    if (!ccPin.isOK()) {
        if (ccPin == ErrorCodes::CursorNotFound) {
            cursorid = 0;
            resultFlags = ResultFlag_CursorNotFound;
        } else {
            uassertStatusOK(ccPin.getStatus());
        }
    } else {
        ClientCursor* cc = ccPin.getValue().getCursor();

        // Check for spoofing of the ns such that it does not match the one originally
        // there for the cursor.
        uassert(ErrorCodes::Unauthorized,
                str::stream() << "Requested getMore on namespace " << ns << ", but cursor "
                              << cursorid
                              << " belongs to namespace "
                              << cc->nss().ns(),
                nss == cc->nss());

        // A user can only call getMore on their own cursor. If there were multiple users
        // authenticated when the cursor was created, then at least one of them must be
        // authenticated in order to run getMore on the cursor.
        uassert(ErrorCodes::Unauthorized,
                str::stream() << "cursor id " << cursorid
                              << " was not created by the authenticated user",
                AuthorizationSession::get(opCtx->getClient())
                    ->isCoauthorizedWith(cc->getAuthenticatedUsers()));

        *isCursorAuthorized = true;

        const auto replicationMode = repl::ReplicationCoordinator::get(opCtx)->getReplicationMode();
        opCtx->recoveryUnit()->setReadConcernLevelAndReplicationMode(cc->getReadConcernLevel(),
                                                                     replicationMode);

        // TODO SERVER-33698: Remove kSnapshotReadConcern clause once we can guarantee that a
        // readConcern level snapshot getMore will have an established point-in-time WiredTiger
        // snapshot.
        if (replicationMode == repl::ReplicationCoordinator::modeReplSet &&
            (cc->getReadConcernLevel() == repl::ReadConcernLevel::kMajorityReadConcern ||
             cc->getReadConcernLevel() == repl::ReadConcernLevel::kSnapshotReadConcern)) {
            uassertStatusOK(opCtx->recoveryUnit()->obtainMajorityCommittedSnapshot());
        }

        uassert(40548,
                "OP_GET_MORE operations are not supported on tailable aggregations. Only clients "
                "which support the getMore command can be used on tailable aggregations.",
                readLock || !cc->isAwaitData());

        // If the operation that spawned this cursor had a time limit set, apply leftover
        // time to this getmore.
        if (cc->getLeftoverMaxTimeMicros() < Microseconds::max()) {
            uassert(40136,
                    "Illegal attempt to set operation deadline within DBDirectClient",
                    !opCtx->getClient()->isInDirectClient());
            opCtx->setDeadlineAfterNowBy(cc->getLeftoverMaxTimeMicros());
        }
        opCtx->checkForInterrupt();  // May trigger maxTimeAlwaysTimeOut fail point.

        // What number result are we starting at?  Used to fill out the reply.
        startingResult = cc->pos();

        uint64_t notifierVersion = 0;
        std::shared_ptr<CappedInsertNotifier> notifier;
        if (cc->isAwaitData()) {
            invariant(readLock->getCollection()->isCapped());
            // Retrieve the notifier which we will wait on until new data arrives. We make sure
            // to do this in the lock because once we drop the lock it is possible for the
            // collection to become invalid. The notifier itself will outlive the collection if
            // the collection is dropped, as we keep a shared_ptr to it.
            notifier = readLock->getCollection()->getCappedInsertNotifier();

            // Must get the version before we call generateBatch in case a write comes in after
            // that call and before we call wait on the notifier.
            notifierVersion = notifier->getVersion();
        }

        PlanExecutor* exec = cc->getExecutor();
        exec->reattachToOperationContext(opCtx);
        uassertStatusOK(exec->restoreState());

        auto planSummary = Explain::getPlanSummary(exec);
        {
            stdx::lock_guard<Client> lk(*opCtx->getClient());
            curOp.setPlanSummary_inlock(planSummary);

            // Ensure that the original query object is available in the slow query log, profiler
            // and currentOp. Upconvert _query to resemble a getMore command, and set the original
            // command or upconverted legacy query in the originatingCommand field.
            curOp.setOpDescription_inlock(upconvertGetMoreEntry(nss, cursorid, ntoreturn));
            curOp.setOriginatingCommand_inlock(cc->getOriginatingCommandObj());
        }

        PlanExecutor::ExecState state;

        // 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;
        Explain::getSummaryStats(*exec, &preExecutionStats);

        generateBatch(ntoreturn, cc, &bb, &numResults, &state);

        // If this is an await data cursor, and we hit EOF without generating any results, then
        // we block waiting for new data to arrive.
        if (cc->isAwaitData() && state == PlanExecutor::IS_EOF && numResults == 0) {
            // Save the PlanExecutor and drop our locks.
            exec->saveState();
            readLock.reset();

            // Block waiting for data for up to 1 second. Time spent blocking is not counted towards
            // the total operation latency.
            curOp.pauseTimer();
            Seconds timeout(1);
            notifier->waitUntil(notifierVersion,
                                opCtx->getServiceContext()->getPreciseClockSource()->now() +
                                    timeout);
            notifier.reset();
            curOp.resumeTimer();

            // Reacquiring locks.
            readLock.emplace(opCtx, nss);
            uassertStatusOK(exec->restoreState());

            // We woke up because either the timed_wait expired, or there was more data. Either
            // way, attempt to generate another batch of results.
            generateBatch(ntoreturn, cc, &bb, &numResults, &state);
        }

        PlanSummaryStats postExecutionStats;
        Explain::getSummaryStats(*exec, &postExecutionStats);
        postExecutionStats.totalKeysExamined -= preExecutionStats.totalKeysExamined;
        postExecutionStats.totalDocsExamined -= preExecutionStats.totalDocsExamined;
        curOp.debug().setPlanSummaryMetrics(postExecutionStats);

        // We do not report 'execStats' for aggregation or other globally managed cursors, both in
        // the original request and subsequent getMore. It would be useful to have this information
        // for an aggregation, but the source PlanExecutor could be destroyed before we know whether
        // we need execStats and we do not want to generate for all operations due to cost.
        if (!CursorManager::isGloballyManagedCursor(cursorid) && curOp.shouldDBProfile()) {
            BSONObjBuilder execStatsBob;
            Explain::getWinningPlanStats(exec, &execStatsBob);
            curOp.debug().execStats = execStatsBob.obj();
        }

        // Our two possible ClientCursorPin cleanup paths are:
        // 1) If the cursor is not going to be saved, we call deleteUnderlying() on the pin.
        // 2) If the cursor is going to be saved, we simply let the pin go out of scope. In this
        //    case, the pin's destructor will be invoked, which will call release() on the pin.
        //    Because our ClientCursorPin is declared after our lock is declared, this will happen
        //    under the lock if any locking was necessary.
        if (!shouldSaveCursorGetMore(state, exec, cc->isTailable())) {
            ccPin.getValue().deleteUnderlying();

            // cc is now invalid, as is the executor
            cursorid = 0;
            cc = nullptr;
            curOp.debug().cursorExhausted = true;

            LOG(5) << "getMore NOT saving client cursor, ended with state "
                   << PlanExecutor::statestr(state);
        } else {
            // Continue caching the ClientCursor.
            cc->incPos(numResults);
            exec->saveState();
            exec->detachFromOperationContext();
            LOG(5) << "getMore saving client cursor ended with state "
                   << PlanExecutor::statestr(state);

            *exhaust = cc->queryOptions() & QueryOption_Exhaust;

            // 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 getmore had a time limit, remaining time is "rolled over" back to the
                // cursor (for use by future getmore ops).
                cc->setLeftoverMaxTimeMicros(opCtx->getRemainingMaxTimeMicros());
            }
        }
    }

    QueryResult::View qr = bb.buf();
    qr.msgdata().setLen(bb.len());
    qr.msgdata().setOperation(opReply);
    qr.setResultFlags(resultFlags);
    qr.setCursorId(cursorid);
    qr.setStartingFrom(startingResult);
    qr.setNReturned(numResults);
    LOG(5) << "getMore returned " << numResults << " results\n";
    return Message(bb.release());
}