152 lines
6.1 KiB
C++
152 lines
6.1 KiB
C++
/*
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* DBCoreState.h
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*
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* This source file is part of the FoundationDB open source project
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*
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* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef FDBSERVER_DBCORESTATE_H
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#define FDBSERVER_DBCORESTATE_H
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#pragma once
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#include "fdbrpc/ReplicationPolicy.h"
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// This structure is stored persistently in CoordinatedState and must be versioned carefully!
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// It records a synchronous replication topology which can be used in the absence of faults (or under a limited
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// number of failures, in the case of less than full write quorums) to durably commit transactions. When faults or
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// configuration changes require the topology to be changed, (a read quorum of) the old topology is locked, a new
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// topology is constructed, and then committed to this coordinated state before becoming active. This process
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// is called 'recovery'.
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// At the moment, transaction logs are replicated but not partitioned, so the topology is as simple as a list of
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// transaction log replicas and the write quorum that was used to commit to them. The read quorum required to
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// ensure durability of locking and recovery is therefore tLogWriteAntiQuorum + 1.
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struct CoreTLogSet {
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std::vector< UID > tLogs;
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int32_t tLogWriteAntiQuorum; // The write anti quorum previously used to write to tLogs, which might be different from the anti quorum suggested by the current configuration going forward!
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int32_t tLogReplicationFactor; // The replication factor previously used to write to tLogs, which might be different from the current configuration
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std::vector< LocalityData > tLogLocalities; // Stores the localities of the log servers
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IRepPolicyRef tLogPolicy;
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bool isLocal;
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int8_t locality;
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Version startVersion;
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std::vector<std::vector<int>> satelliteTagLocations;
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CoreTLogSet() : tLogWriteAntiQuorum(0), tLogReplicationFactor(0), isLocal(true), locality(tagLocalityUpgraded), startVersion(invalidVersion) {}
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bool operator == (CoreTLogSet const& rhs) const {
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return tLogs == rhs.tLogs && tLogWriteAntiQuorum == rhs.tLogWriteAntiQuorum && tLogReplicationFactor == rhs.tLogReplicationFactor && isLocal == rhs.isLocal && satelliteTagLocations == rhs.satelliteTagLocations &&
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locality == rhs.locality && startVersion == rhs.startVersion && ((!tLogPolicy && !rhs.tLogPolicy) || (tLogPolicy && rhs.tLogPolicy && (tLogPolicy->info() == rhs.tLogPolicy->info())));
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}
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template <class Archive>
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void serialize(Archive& ar) {
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ar & tLogs & tLogWriteAntiQuorum & tLogReplicationFactor & tLogPolicy & tLogLocalities & isLocal & locality & startVersion & satelliteTagLocations;
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}
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};
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struct OldTLogCoreData {
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std::vector<CoreTLogSet> tLogs;
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int32_t logRouterTags;
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Version epochEnd;
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OldTLogCoreData() : epochEnd(0), logRouterTags(0) {}
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bool operator == (OldTLogCoreData const& rhs) const {
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return tLogs == rhs.tLogs && logRouterTags == rhs.logRouterTags && epochEnd == rhs.epochEnd;
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}
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template <class Archive>
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void serialize(Archive& ar) {
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if( ar.protocolVersion() >= 0x0FDB00A560010001LL) {
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ar & tLogs & logRouterTags & epochEnd;
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}
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else if(ar.isDeserializing) {
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tLogs.push_back(CoreTLogSet());
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ar & tLogs[0].tLogs & tLogs[0].tLogWriteAntiQuorum & tLogs[0].tLogReplicationFactor & tLogs[0].tLogPolicy & epochEnd & tLogs[0].tLogLocalities;
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}
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}
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};
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struct DBCoreState {
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std::vector<CoreTLogSet> tLogs;
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int32_t logRouterTags;
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std::vector<OldTLogCoreData> oldTLogData;
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DBRecoveryCount recoveryCount; // Increases with sequential successful recoveries.
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int logSystemType;
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DBCoreState() : logRouterTags(0), recoveryCount(0), logSystemType(0) {}
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vector<UID> getPriorCommittedLogServers() {
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vector<UID> priorCommittedLogServers;
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for(auto& it : tLogs) {
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for(auto& log : it.tLogs) {
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priorCommittedLogServers.push_back(log);
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}
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}
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for(int i = 0; i < oldTLogData.size(); i++) {
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for(auto& it : oldTLogData[i].tLogs) {
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for(auto& log : it.tLogs) {
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priorCommittedLogServers.push_back(log);
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}
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}
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}
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return priorCommittedLogServers;
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}
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bool isEqual(DBCoreState const& r) const {
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return logSystemType == r.logSystemType && recoveryCount == r.recoveryCount && tLogs == r.tLogs && oldTLogData == r.oldTLogData && logRouterTags == r.logRouterTags;
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}
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bool operator == ( const DBCoreState& rhs ) const { return isEqual(rhs); }
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template <class Archive>
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void serialize(Archive& ar) {
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//FIXME: remove when we no longer need to test upgrades from 4.X releases
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if(g_network->isSimulated() && ar.protocolVersion() < 0x0FDB00A460010001LL) {
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TraceEvent("ElapsedTime").detail("SimTime", now()).detail("RealTime", 0).detail("RandomUnseed", 0);
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flushAndExit(0);
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}
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ASSERT(ar.protocolVersion() >= 0x0FDB00A460010001LL);
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if(ar.protocolVersion() >= 0x0FDB00A560010001LL) {
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ar & tLogs & logRouterTags & oldTLogData & recoveryCount & logSystemType;
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} else if(ar.isDeserializing) {
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tLogs.push_back(CoreTLogSet());
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ar & tLogs[0].tLogs & tLogs[0].tLogWriteAntiQuorum & recoveryCount & tLogs[0].tLogReplicationFactor & logSystemType;
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uint64_t tLocalitySize = (uint64_t)tLogs[0].tLogLocalities.size();
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ar & oldTLogData & tLogs[0].tLogPolicy & tLocalitySize;
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if (ar.isDeserializing) {
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tLogs[0].tLogLocalities.reserve(tLocalitySize);
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for (size_t i = 0; i < tLocalitySize; i++) {
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LocalityData locality;
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ar & locality;
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tLogs[0].tLogLocalities.push_back(locality);
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}
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if(oldTLogData.size()) {
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tLogs[0].startVersion = oldTLogData[0].epochEnd;
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for(int i = 0; i < oldTLogData.size() - 1; i++) {
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oldTLogData[i].tLogs[0].startVersion = oldTLogData[i+1].epochEnd;
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}
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}
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}
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}
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}
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};
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#endif
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