foundationdb/fdbclient/MonitorLeader.h

135 lines
5.5 KiB
C++

/*
* MonitorLeader.h
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef FDBCLIENT_MONITORLEADER_H
#define FDBCLIENT_MONITORLEADER_H
#pragma once
#include "fdbclient/FDBTypes.h"
#include "fdbclient/CoordinationInterface.h"
#include "fdbclient/ClusterInterface.h"
#include "fdbclient/CommitProxyInterface.h"
#define CLUSTER_FILE_ENV_VAR_NAME "FDB_CLUSTER_FILE"
class ClientCoordinators;
struct ClientStatusInfo {
Key traceLogGroup;
Standalone<VectorRef<ClientVersionRef>> versions;
Standalone<VectorRef<StringRef>> issues;
ClientStatusInfo() {}
ClientStatusInfo(Key const& traceLogGroup,
Standalone<VectorRef<ClientVersionRef>> versions,
Standalone<VectorRef<StringRef>> issues)
: traceLogGroup(traceLogGroup), versions(versions), issues(issues) {}
};
struct ClientData {
std::map<NetworkAddress, ClientStatusInfo> clientStatusInfoMap;
Reference<AsyncVar<CachedSerialization<ClientDBInfo>>> clientInfo;
OpenDatabaseRequest getRequest();
ClientData() : clientInfo(makeReference<AsyncVar<CachedSerialization<ClientDBInfo>>>()) {}
};
struct MonitorLeaderInfo {
bool hasConnected;
Reference<IClusterConnectionRecord> intermediateConnRecord;
MonitorLeaderInfo() : hasConnected(false) {}
explicit MonitorLeaderInfo(Reference<IClusterConnectionRecord> intermediateConnRecord)
: hasConnected(false), intermediateConnRecord(intermediateConnRecord) {}
};
Optional<std::pair<LeaderInfo, bool>> getLeader(const std::vector<Optional<LeaderInfo>>& nominees);
// This is one place where the leader election algorithm is run. The coodinator contacts all coodinators to collect
// nominees, the nominee with the most nomination is the leader. This function also monitors the change of the leader.
// If a leader is elected for long enough and communication with a quorum of coordinators is possible, eventually
// outKnownLeader will be that leader's interface.
template <class LeaderInterface>
Future<Void> monitorLeader(Reference<IClusterConnectionRecord> const& connFile,
Reference<AsyncVar<Optional<LeaderInterface>>> const& outKnownLeader);
// This is one place where the leader election algorithm is run. The coodinator contacts all coodinators to collect
// nominees, the nominee with the most nomination is the leader, and collects client data from the leader. This function
// also monitors the change of the leader.
Future<Void> monitorLeaderAndGetClientInfo(Value const& key,
std::vector<NetworkAddress> const& coordinators,
ClientData* const& clientData,
Reference<AsyncVar<Optional<LeaderInfo>>> const& leaderInfo);
Future<Void> monitorProxies(
Reference<AsyncVar<Reference<IClusterConnectionRecord>>> const& connRecord,
Reference<AsyncVar<ClientDBInfo>> const& clientInfo,
Reference<AsyncVar<Optional<ClientLeaderRegInterface>>> const& coordinator,
Reference<ReferencedObject<Standalone<VectorRef<ClientVersionRef>>>> const& supportedVersions,
Key const& traceLogGroup);
void shrinkProxyList(ClientDBInfo& ni,
std::vector<UID>& lastCommitProxyUIDs,
std::vector<CommitProxyInterface>& lastCommitProxies,
std::vector<UID>& lastGrvProxyUIDs,
std::vector<GrvProxyInterface>& lastGrvProxies);
#ifndef __INTEL_COMPILER
#pragma region Implementation
#endif
Future<Void> monitorLeaderInternal(Reference<IClusterConnectionRecord> const& connRecord,
Reference<AsyncVar<Value>> const& outSerializedLeaderInfo);
template <class LeaderInterface>
struct LeaderDeserializer {
Future<Void> operator()(const Reference<AsyncVar<Value>>& serializedInfo,
const Reference<AsyncVar<Optional<LeaderInterface>>>& outKnownLeader) {
return asyncDeserialize(serializedInfo, outKnownLeader);
}
};
Future<Void> asyncDeserializeClusterInterface(const Reference<AsyncVar<Value>>& serializedInfo,
const Reference<AsyncVar<Optional<ClusterInterface>>>& outKnownLeader);
template <>
struct LeaderDeserializer<ClusterInterface> {
Future<Void> operator()(const Reference<AsyncVar<Value>>& serializedInfo,
const Reference<AsyncVar<Optional<ClusterInterface>>>& outKnownLeader) {
return asyncDeserializeClusterInterface(serializedInfo, outKnownLeader);
}
};
template <class LeaderInterface>
Future<Void> monitorLeader(Reference<IClusterConnectionRecord> const& connRecord,
Reference<AsyncVar<Optional<LeaderInterface>>> const& outKnownLeader) {
LeaderDeserializer<LeaderInterface> deserializer;
auto serializedInfo = makeReference<AsyncVar<Value>>();
Future<Void> m = monitorLeaderInternal(connRecord, serializedInfo);
return m || deserializer(serializedInfo, outKnownLeader);
}
#ifndef __INTEL_COMPILER
#pragma endregion
#endif
#endif