/** * Copyright (C) 2020-present MongoDB, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the Server Side Public License, version 1, * as published by MongoDB, Inc. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * Server Side Public License for more details. * * You should have received a copy of the Server Side Public License * along with this program. If not, see * . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the Server Side Public License in all respects for * all of the code used other than as permitted herein. If you modify file(s) * with this exception, you may extend this exception to your version of the * file(s), but you are not obligated to do so. If you do not wish to do so, * delete this exception statement from your version. If you delete this * exception statement from all source files in the program, then also delete * it in the license file. */ #define MONGO_LOGV2_DEFAULT_COMPONENT ::mongo::logv2::LogComponent::kCommand #include "mongo/platform/basic.h" #include "mongo/db/mirror_maestro.h" #include #include #include #include #include "mongo/bson/bsonelement.h" #include "mongo/bson/bsonobjbuilder.h" #include "mongo/bson/json.h" #include "mongo/db/client_out_of_line_executor.h" #include "mongo/db/commands.h" #include "mongo/db/commands/server_status.h" #include "mongo/db/mirror_maestro_gen.h" #include "mongo/db/mirroring_sampler.h" #include "mongo/db/repl/is_master_response.h" #include "mongo/db/repl/replication_coordinator.h" #include "mongo/db/repl/topology_version_observer.h" #include "mongo/executor/connection_pool.h" #include "mongo/executor/network_interface_factory.h" #include "mongo/executor/remote_command_request.h" #include "mongo/executor/thread_pool_task_executor.h" #include "mongo/logv2/log.h" #include "mongo/util/concurrency/thread_pool.h" #include "mongo/util/synchronized_value.h" namespace mongo { namespace { constexpr auto kMirrorMaestroName = "MirrorMaestro"_sd; constexpr auto kMirrorMaestroThreadPoolMaxThreads = 2ull; // Just enough to allow concurrency constexpr auto kMirrorMaestroConnPoolMinSize = 1ull; // Always be able to mirror eventually constexpr auto kMirrorMaestroConnPoolMaxSize = 4ull; // Never use more than a handful constexpr auto kMirroredReadsParamName = "mirrorReads"_sd; constexpr auto kMirroredReadsName = "mirroredReads"_sd; constexpr auto kMirroredReadsSeenKey = "seen"_sd; constexpr auto kMirroredReadsSentKey = "sent"_sd; constexpr auto kMirroredReadsResolvedKey = "resolved"_sd; constexpr auto kMirroredReadsResolvedBreakdownKey = "resolvedBreakdown"_sd; MONGO_FAIL_POINT_DEFINE(mirrorMaestroExpectsResponse); class MirrorMaestroImpl { public: /** * Make the TaskExecutor and initialize other components */ void init(ServiceContext* serviceContext) noexcept; /** * Shutdown the TaskExecutor and cancel any outstanding work */ void shutdown() noexcept; /** * Mirror only if this maestro has been initialized */ void tryMirror(std::shared_ptr invocation) noexcept; /** * Maintains the state required for mirroring requests. */ class MirroredRequestState { public: MirroredRequestState(MirrorMaestroImpl* maestro, std::vector hosts, std::shared_ptr invocation, MirroredReadsParameters params) : _maestro(std::move(maestro)), _hosts(std::move(hosts)), _invocation(std::move(invocation)), _params(std::move(params)) {} MirroredRequestState() = delete; void mirror() noexcept { invariant(_maestro); _maestro->_mirror(_hosts, _invocation, _params); } private: MirrorMaestroImpl* _maestro; std::vector _hosts; std::shared_ptr _invocation; MirroredReadsParameters _params; }; private: /** * Attempt to mirror invocation to a subset of hosts based on params * * This command is expected to only run on the _executor */ void _mirror(const std::vector& hosts, std::shared_ptr invocation, const MirroredReadsParameters& params) noexcept; /** * An enum detailing the liveness of the Maestro * * The state transition map for liveness looks like so: * kUninitialized -> kRunning, kShutdown * kRunning -> kShutdown * kShutdown -> null */ enum class Liveness { kUninitialized, kRunning, kShutdown, }; // InitializationGuard guards and serializes the initialization and shutdown of members struct InitializationGuard { Mutex mutex = MONGO_MAKE_LATCH("MirrorMaestroImpl::InitializationGuard::mutex"); Liveness liveness; }; InitializationGuard _initGuard; // _isInitialized guards the use of heap allocated members like _executor // Even if _isInitialized is true, any member function of the variables below must still be // inately thread safe. If _isInitialized is false, there may not even be correct pointers to // call member functions upon. AtomicWord _isInitialized; MirroredReadsServerParameter* _params = nullptr; MirroringSampler _sampler; std::shared_ptr _executor; repl::TopologyVersionObserver _topologyVersionObserver; }; const auto getMirrorMaestroImpl = ServiceContext::declareDecoration(); // Define a new serverStatus section "mirroredReads" class MirroredReadsSection final : public ServerStatusSection { public: using CounterT = long long; MirroredReadsSection() : ServerStatusSection(kMirroredReadsName.toString()) {} bool includeByDefault() const override { return false; } BSONObj generateSection(OperationContext* opCtx, const BSONElement&) const override { BSONObjBuilder section; section.append(kMirroredReadsSeenKey, seen.loadRelaxed()); section.append(kMirroredReadsSentKey, sent.loadRelaxed()); if (MONGO_unlikely(mirrorMaestroExpectsResponse.shouldFail())) { // We only can see if the command resolved if we got a response section.append(kMirroredReadsResolvedKey, resolved.loadRelaxed()); section.append(kMirroredReadsResolvedBreakdownKey, resolvedBreakdown.toBSON()); } return section.obj(); }; /** * Maintains a breakdown for resolved requests by host name. * This class may only be used for testing (e.g., as part of a fail-point). */ class ResolvedBreakdownByHost { public: void onResponseReceived(const HostAndPort& host) noexcept { const auto hostName = host.toString(); stdx::lock_guard lk(_mutex); if (_resolved.find(hostName) == _resolved.end()) { _resolved[hostName] = 0; } _resolved[hostName]++; } BSONObj toBSON() const noexcept { stdx::lock_guard lk(_mutex); BSONObjBuilder bob; for (auto entry : _resolved) { bob.append(entry.first, entry.second); } return bob.obj(); } private: mutable Mutex _mutex = MONGO_MAKE_LATCH("ResolvedBreakdownByHost"_sd); stdx::unordered_map _resolved; }; ResolvedBreakdownByHost resolvedBreakdown; AtomicWord seen; AtomicWord sent; AtomicWord resolved; } gMirroredReadsSection; auto parseMirroredReadsParameters(const BSONObj& obj) { IDLParserErrorContext ctx("mirrorReads"); return MirroredReadsParameters::parse(ctx, obj); } } // namespace void MirroredReadsServerParameter::append(OperationContext*, BSONObjBuilder& bob, const std::string& name) { auto subBob = BSONObjBuilder(bob.subobjStart(name)); _data->serialize(&subBob); } Status MirroredReadsServerParameter::set(const BSONElement& value) try { auto obj = value.Obj(); _data = parseMirroredReadsParameters(obj); return Status::OK(); } catch (const AssertionException& e) { return e.toStatus(); } Status MirroredReadsServerParameter::setFromString(const std::string& str) try { auto obj = fromjson(str); _data = parseMirroredReadsParameters(obj); return Status::OK(); } catch (const AssertionException& e) { return e.toStatus(); } void MirrorMaestro::init(ServiceContext* serviceContext) noexcept { auto replCoord = repl::ReplicationCoordinator::get(serviceContext); invariant(replCoord); if (replCoord->getReplicationMode() != repl::ReplicationCoordinator::modeReplSet) { // We only need a maestro if we're in a replica set return; } auto& impl = getMirrorMaestroImpl(serviceContext); impl.init(serviceContext); } void MirrorMaestro::shutdown(ServiceContext* serviceContext) noexcept { auto& impl = getMirrorMaestroImpl(serviceContext); impl.shutdown(); } void MirrorMaestro::tryMirrorRequest(OperationContext* opCtx) noexcept { auto& impl = getMirrorMaestroImpl(opCtx->getServiceContext()); auto invocation = CommandInvocation::get(opCtx); impl.tryMirror(std::move(invocation)); } void MirrorMaestroImpl::tryMirror(std::shared_ptr invocation) noexcept { if (!_isInitialized.load()) { // If we're not even available, nothing to do return; } invariant(invocation); if (!invocation->supportsReadMirroring()) { // That's all, folks return; } gMirroredReadsSection.seen.fetchAndAdd(1); auto params = _params->_data.get(); if (params.getSamplingRate() == 0) { // Nothing to do if sampling rate is zero. return; } auto imr = _topologyVersionObserver.getCached(); auto samplingParams = MirroringSampler::SamplingParameters(params.getSamplingRate()); if (!_sampler.shouldSample(imr, samplingParams)) { // If we wouldn't select a host, then nothing more to do return; } auto hosts = _sampler.getRawMirroringTargets(imr); invariant(!hosts.empty()); auto clientExecutor = ClientOutOfLineExecutor::get(Client::getCurrent()); auto clientExecutorHandle = clientExecutor->getHandle(); // NOTE: before using Client's out-of-line executor outside of MirrorMaestro, we must first // move the consumption (i.e., `consumeAllTasks`) to the baton. clientExecutor->consumeAllTasks(); // There is the potential to actually mirror requests, so schedule the _mirror() invocation // out-of-line. This means the command itself can return quickly and we do the arduous work of // building new bsons and evaluating randomness in a less important context. auto requestState = std::make_unique( this, std::move(hosts), std::move(invocation), std::move(params)); ExecutorFuture(_executor) // .getAsync([clientExecutorHandle, requestState = std::move(requestState)](const auto& status) mutable { if (!ErrorCodes::isShutdownError(status)) { invariant(status.isOK()); requestState->mirror(); } clientExecutorHandle.schedule([requestState = std::move(requestState)]( const Status&) mutable { requestState.reset(); }); }); } void MirrorMaestroImpl::_mirror(const std::vector& hosts, std::shared_ptr invocation, const MirroredReadsParameters& params) noexcept try { auto payload = [&] { BSONObjBuilder bob; invocation->appendMirrorableRequest(&bob); // Limit the maxTimeMS bob.append("maxTimeMS", params.getMaxTimeMS()); { // Set secondaryPreferred read preference BSONObjBuilder rpBob = bob.subobjStart("$readPreference"); rpBob.append("mode", "secondaryPreferred"); } { // Set local read concern BSONObjBuilder rcBob = bob.subobjStart("readConcern"); rcBob.append("level", "local"); } return bob.obj(); }(); // Mirror to a normalized subset of eligible hosts (i.e., secondaries). const auto startIndex = rand() % hosts.size(); const auto mirroringFactor = std::ceil(params.getSamplingRate() * hosts.size()); for (auto i = 0; i < mirroringFactor; i++) { auto& host = hosts[(startIndex + i) % hosts.size()]; auto mirrorResponseCallback = [host](auto& args) { if (MONGO_likely(!mirrorMaestroExpectsResponse.shouldFail())) { // If we don't expect responses, then there is nothing to do here return; } if (MONGO_unlikely(!args.response.isOK())) { LOGV2_FATAL(4717301, "Received mirroring response with a non-okay status", "error"_attr = args.response); } gMirroredReadsSection.resolved.fetchAndAdd(1); gMirroredReadsSection.resolvedBreakdown.onResponseReceived(host); LOGV2_DEBUG( 31457, 4, "Response received", "host"_attr = host, "response"_attr = args.response); }; auto newRequest = executor::RemoteCommandRequest( host, invocation->ns().db().toString(), payload, nullptr); if (MONGO_likely(!mirrorMaestroExpectsResponse.shouldFail())) { // If we're not expecting a response, set to fire and forget newRequest.fireAndForgetMode = executor::RemoteCommandRequest::FireAndForgetMode::kOn; } LOGV2_DEBUG(31455, 4, "About to mirror", "host"_attr = host, "request"_attr = newRequest); auto status = _executor->scheduleRemoteCommand(newRequest, std::move(mirrorResponseCallback)) .getStatus(); uassertStatusOK(status); gMirroredReadsSection.sent.fetchAndAdd(1); } } catch (const DBException& e) { // TODO SERVER-44570 Invariant this only in testing LOGV2_DEBUG(31456, 2, "Mirroring failed", "reason"_attr = e); } void MirrorMaestroImpl::init(ServiceContext* serviceContext) noexcept { LOGV2_DEBUG(31452, 2, "Initializing MirrorMaestro"); // Until the end of this scope, no other thread can mutate _initGuard.liveness, so no other // thread can be in the critical section of init() or shutdown(). stdx::lock_guard lk(_initGuard.mutex); switch (_initGuard.liveness) { case Liveness::kUninitialized: { // We can init } break; case Liveness::kRunning: { // If someone else already initialized, do nothing return; } break; case Liveness::kShutdown: { LOGV2_DEBUG(31453, 2, "Cannot initialize an already shutdown MirrorMaestro"); return; } break; }; auto makeNet = [&] { executor::ConnectionPool::Options options; options.minConnections = kMirrorMaestroConnPoolMinSize; options.maxConnections = kMirrorMaestroConnPoolMaxSize; return executor::makeNetworkInterface( kMirrorMaestroName.toString(), {}, {}, std::move(options)); }; auto makePool = [&] { ThreadPool::Options options; options.poolName = kMirrorMaestroName.toString(); options.maxThreads = kMirrorMaestroThreadPoolMaxThreads; return std::make_unique(std::move(options)); }; _executor = std::make_shared(makePool(), makeNet()); _executor->startup(); _topologyVersionObserver.init(serviceContext); _params = ServerParameterSet::getGlobal()->get(kMirroredReadsParamName); invariant(_params); // Set _initGuard.liveness to kRunning _initGuard.liveness = Liveness::kRunning; // Mark the maestro as initialized. It is now safe to call tryMirrorRequest(), use the // _executor, or otherwise rely on members to be alive and well. _isInitialized.store(true); } void MirrorMaestroImpl::shutdown() noexcept { LOGV2_DEBUG(31454, 2, "Shutting down MirrorMaestro"); // Until the end of this scope, no other thread can mutate _initGuard.liveness, so no other // thread can be in the critical section of init() or shutdown(). stdx::lock_guard lk(_initGuard.mutex); switch (_initGuard.liveness) { case Liveness::kUninitialized: case Liveness::kShutdown: { // If someone else already shutdown or we never init'd, do nothing return; } break; case Liveness::kRunning: { // Time to shut it all down } break; }; _topologyVersionObserver.shutdown(); if (_executor) { _executor->shutdown(); } // Set _initGuard.liveness to kShutdown _initGuard.liveness = Liveness::kShutdown; } } // namespace mongo