void ReplCoordTest::simulateSuccessfulElection() {
    OperationContextReplMock txn;
    ReplicationCoordinatorImpl* replCoord = getReplCoord();
    NetworkInterfaceMock* net = getNet();
    ReplicaSetConfig rsConfig = replCoord->getReplicaSetConfig_forTest();
    ASSERT(replCoord->getMemberState().secondary()) << replCoord->getMemberState().toString();
    while (!replCoord->getMemberState().primary()) {
        log() << "Waiting on network in state " << replCoord->getMemberState();
        getNet()->enterNetwork();
        const NetworkInterfaceMock::NetworkOperationIterator noi = net->getNextReadyRequest();
        const RemoteCommandRequest& request = noi->getRequest();
        log() << request.target.toString() << " processing " << request.cmdObj;
        ReplSetHeartbeatArgs hbArgs;
        if (hbArgs.initialize(request.cmdObj).isOK()) {
            ReplSetHeartbeatResponse hbResp;
            hbResp.setSetName(rsConfig.getReplSetName());
            hbResp.setState(MemberState::RS_SECONDARY);
            hbResp.setConfigVersion(rsConfig.getConfigVersion());
            BSONObjBuilder respObj;
            respObj << "ok" << 1;
            hbResp.addToBSON(&respObj, false);
            net->scheduleResponse(noi, net->now(), makeResponseStatus(respObj.obj()));
        } else if (request.cmdObj.firstElement().fieldNameStringData() == "replSetFresh") {
            net->scheduleResponse(
                noi,
                net->now(),
                makeResponseStatus(BSON("ok" << 1 << "fresher" << false << "opTime" << Date_t()
                                             << "veto" << false)));
        } else if (request.cmdObj.firstElement().fieldNameStringData() == "replSetElect") {
            net->scheduleResponse(noi,
                                  net->now(),
                                  makeResponseStatus(BSON("ok" << 1 << "vote" << 1 << "round"
                                                               << request.cmdObj["round"].OID())));
        } else {
            error() << "Black holing unexpected request to " << request.target << ": "
                    << request.cmdObj;
            net->blackHole(noi);
        }
        net->runReadyNetworkOperations();
        getNet()->exitNetwork();
    }
    ASSERT(replCoord->isWaitingForApplierToDrain());
    ASSERT(replCoord->getMemberState().primary()) << replCoord->getMemberState().toString();

    IsMasterResponse imResponse;
    replCoord->fillIsMasterForReplSet(&imResponse);
    ASSERT_FALSE(imResponse.isMaster()) << imResponse.toBSON().toString();
    ASSERT_TRUE(imResponse.isSecondary()) << imResponse.toBSON().toString();
    replCoord->signalDrainComplete(&txn);
    replCoord->fillIsMasterForReplSet(&imResponse);
    ASSERT_TRUE(imResponse.isMaster()) << imResponse.toBSON().toString();
    ASSERT_FALSE(imResponse.isSecondary()) << imResponse.toBSON().toString();

    ASSERT(replCoord->getMemberState().primary()) << replCoord->getMemberState().toString();

    // Consume the notification of election win.
    for (int i = 0; i < rsConfig.getNumMembers() - 1; i++) {
        replyToReceivedHeartbeat();
    }
}
void ReplCoordTest::simulateSuccessfulV1Election() {
    OperationContextReplMock txn;
    ReplicationCoordinatorImpl* replCoord = getReplCoord();
    NetworkInterfaceMock* net = getNet();
    ReplicaSetConfig rsConfig = replCoord->getReplicaSetConfig_forTest();
    ASSERT(replCoord->getMemberState().secondary()) << replCoord->getMemberState().toString();
    while (!replCoord->getMemberState().primary()) {
        log() << "Waiting on network in state " << replCoord->getMemberState();
        getNet()->enterNetwork();
        const NetworkInterfaceMock::NetworkOperationIterator noi = net->getNextReadyRequest();
        const RemoteCommandRequest& request = noi->getRequest();
        log() << request.target.toString() << " processing " << request.cmdObj;
        ReplSetHeartbeatArgsV1 hbArgs;
        Status status = hbArgs.initialize(request.cmdObj);
        if (hbArgs.initialize(request.cmdObj).isOK()) {
            ReplSetHeartbeatResponse hbResp;
            hbResp.setSetName(rsConfig.getReplSetName());
            hbResp.setState(MemberState::RS_SECONDARY);
            hbResp.setConfigVersion(rsConfig.getConfigVersion());
            net->scheduleResponse(noi, net->now(), makeResponseStatus(hbResp.toBSON(true)));
        } else if (request.cmdObj.firstElement().fieldNameStringData() == "replSetRequestVotes") {
            net->scheduleResponse(
                noi,
                net->now(),
                makeResponseStatus(BSON("ok" << 1 << "reason"
                                             << ""
                                             << "term" << request.cmdObj["term"].Long()
                                             << "voteGranted" << true)));
        } else if (request.cmdObj.firstElement().fieldNameStringData() ==
                   "replSetDeclareElectionWinner") {
            net->scheduleResponse(
                noi,
                net->now(),
                makeResponseStatus(BSON("ok" << 1 << "term" << request.cmdObj["term"].Long())));
        } else {
            error() << "Black holing unexpected request to " << request.target << ": "
                    << request.cmdObj;
            net->blackHole(noi);
        }
        net->runReadyNetworkOperations();
        getNet()->exitNetwork();
    }
    ASSERT(replCoord->isWaitingForApplierToDrain());
    ASSERT(replCoord->getMemberState().primary()) << replCoord->getMemberState().toString();

    IsMasterResponse imResponse;
    replCoord->fillIsMasterForReplSet(&imResponse);
    ASSERT_FALSE(imResponse.isMaster()) << imResponse.toBSON().toString();
    ASSERT_TRUE(imResponse.isSecondary()) << imResponse.toBSON().toString();
    replCoord->signalDrainComplete(&txn);
    replCoord->fillIsMasterForReplSet(&imResponse);
    ASSERT_TRUE(imResponse.isMaster()) << imResponse.toBSON().toString();
    ASSERT_FALSE(imResponse.isSecondary()) << imResponse.toBSON().toString();

    ASSERT(replCoord->getMemberState().primary()) << replCoord->getMemberState().toString();
}
Exemplo n.º 3
0
void appendReplicationInfo(OperationContext* txn, BSONObjBuilder& result, int level) {
    ReplicationCoordinator* replCoord = getGlobalReplicationCoordinator();
    if (replCoord->getSettings().usingReplSets()) {
        IsMasterResponse isMasterResponse;
        replCoord->fillIsMasterForReplSet(&isMasterResponse);
        result.appendElements(isMasterResponse.toBSON());
        if (level) {
            replCoord->appendSlaveInfoData(&result);
        }
        return;
    }

    // TODO(dannenberg) replAllDead is bad and should be removed when master slave is removed
    if (replAllDead) {
        result.append("ismaster", 0);
        string s = string("dead: ") + replAllDead;
        result.append("info", s);
    } else {
        result.appendBool("ismaster",
                          getGlobalReplicationCoordinator()->isMasterForReportingPurposes());
    }

    if (level) {
        BSONObjBuilder sources(result.subarrayStart("sources"));

        int n = 0;
        list<BSONObj> src;
        {
            const char* localSources = "local.sources";
            AutoGetCollectionForRead ctx(txn, localSources);
            unique_ptr<PlanExecutor> exec(
                InternalPlanner::collectionScan(txn, localSources, ctx.getCollection()));
            BSONObj obj;
            PlanExecutor::ExecState state;
            while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) {
                src.push_back(obj);
            }
        }

        for (list<BSONObj>::const_iterator i = src.begin(); i != src.end(); i++) {
            BSONObj s = *i;
            BSONObjBuilder bb;
            bb.append(s["host"]);
            string sourcename = s["source"].valuestr();
            if (sourcename != "main")
                bb.append(s["source"]);
            {
                BSONElement e = s["syncedTo"];
                BSONObjBuilder t(bb.subobjStart("syncedTo"));
                t.appendDate("time", e.timestampTime());
                t.append("inc", e.timestampInc());
                t.done();
            }

            if (level > 1) {
                wassert(!txn->lockState()->isLocked());
                // note: there is no so-style timeout on this connection; perhaps we should have
                // one.
                ScopedDbConnection conn(s["host"].valuestr());

                DBClientConnection* cliConn = dynamic_cast<DBClientConnection*>(&conn.conn());
                if (cliConn && replAuthenticate(cliConn)) {
                    BSONObj first = conn->findOne((string) "local.oplog.$" + sourcename,
                                                  Query().sort(BSON("$natural" << 1)));
                    BSONObj last = conn->findOne((string) "local.oplog.$" + sourcename,
                                                 Query().sort(BSON("$natural" << -1)));
                    bb.appendDate("masterFirst", first["ts"].timestampTime());
                    bb.appendDate("masterLast", last["ts"].timestampTime());
                    const auto lag = (last["ts"].timestampTime() - s["syncedTo"].timestampTime());
                    bb.append("lagSeconds", durationCount<Milliseconds>(lag) / 1000.0);
                }
                conn.done();
            }

            sources.append(BSONObjBuilder::numStr(n++), bb.obj());
        }

        sources.done();

        replCoord->appendSlaveInfoData(&result);
    }
}
void appendReplicationInfo(OperationContext* opCtx, BSONObjBuilder& result, int level) {
    ReplicationCoordinator* replCoord = ReplicationCoordinator::get(opCtx);
    if (replCoord->getSettings().usingReplSets()) {
        IsMasterResponse isMasterResponse;
        replCoord->fillIsMasterForReplSet(&isMasterResponse);
        result.appendElements(isMasterResponse.toBSON());
        if (level) {
            replCoord->appendSlaveInfoData(&result);
        }
        return;
    }

    result.appendBool("ismaster",
                      ReplicationCoordinator::get(opCtx)->isMasterForReportingPurposes());

    if (level) {
        BSONObjBuilder sources(result.subarrayStart("sources"));

        int n = 0;
        list<BSONObj> src;
        {
            const NamespaceString localSources{"local.sources"};
            AutoGetCollectionForReadCommand ctx(opCtx, localSources);
            auto exec = InternalPlanner::collectionScan(
                opCtx, localSources.ns(), ctx.getCollection(), PlanExecutor::NO_YIELD);
            BSONObj obj;
            PlanExecutor::ExecState state;
            while (PlanExecutor::ADVANCED == (state = exec->getNext(&obj, NULL))) {
                src.push_back(obj.getOwned());
            }

            // Non-yielding collection scans from InternalPlanner will never error.
            invariant(PlanExecutor::IS_EOF == state);
        }

        for (list<BSONObj>::const_iterator i = src.begin(); i != src.end(); i++) {
            BSONObj s = *i;
            BSONObjBuilder bb;
            bb.append(s["host"]);
            string sourcename = s["source"].valuestr();
            if (sourcename != "main")
                bb.append(s["source"]);
            {
                BSONElement e = s["syncedTo"];
                BSONObjBuilder t(bb.subobjStart("syncedTo"));
                t.appendDate("time", e.timestampTime());
                t.append("inc", e.timestampInc());
                t.done();
            }

            if (level > 1) {
                invariant(!opCtx->lockState()->isLocked());
                // note: there is no so-style timeout on this connection; perhaps we should have
                // one.
                ScopedDbConnection conn(s["host"].valuestr());

                DBClientConnection* cliConn = dynamic_cast<DBClientConnection*>(&conn.conn());
                if (cliConn && replAuthenticate(cliConn)) {
                    BSONObj first = conn->findOne((string) "local.oplog.$" + sourcename,
                                                  Query().sort(BSON("$natural" << 1)));
                    BSONObj last = conn->findOne((string) "local.oplog.$" + sourcename,
                                                 Query().sort(BSON("$natural" << -1)));
                    bb.appendDate("masterFirst", first["ts"].timestampTime());
                    bb.appendDate("masterLast", last["ts"].timestampTime());
                    const auto lag = (last["ts"].timestampTime() - s["syncedTo"].timestampTime());
                    bb.append("lagSeconds", durationCount<Milliseconds>(lag) / 1000.0);
                }
                conn.done();
            }

            sources.append(BSONObjBuilder::numStr(n++), bb.obj());
        }

        sources.done();

        replCoord->appendSlaveInfoData(&result);
    }
}