398 lines
16 KiB
C++
398 lines
16 KiB
C++
/*
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* RestoreMaster.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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// This file declear RestoreMaster interface and actors
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#pragma once
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#if defined(NO_INTELLISENSE) && !defined(FDBSERVER_RESTORE_MASTER_G_H)
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#define FDBSERVER_RESTORE_MASTER_G_H
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#include "fdbserver/RestoreMaster.actor.g.h"
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#elif !defined(FDBSERVER_RESTORE_MASTER_H)
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#define FDBSERVER_RESTORE_MASTER_H
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#include <sstream>
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#include "flow/Stats.h"
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#include "flow/Platform.h"
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#include "fdbclient/FDBTypes.h"
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#include "fdbclient/CommitTransaction.h"
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#include "fdbrpc/fdbrpc.h"
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#include "fdbrpc/Locality.h"
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#include "fdbserver/CoordinationInterface.h"
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#include "fdbserver/RestoreUtil.h"
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#include "fdbserver/RestoreRoleCommon.actor.h"
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#include "fdbserver/RestoreWorker.actor.h"
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#include "flow/actorcompiler.h" // has to be last include
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struct VersionBatch {
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Version beginVersion; // Inclusive
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Version endVersion; // exclusive
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std::set<RestoreFileFR> logFiles;
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std::set<RestoreFileFR> rangeFiles;
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double size; // size of data in range and log files
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int batchIndex; // Never reset
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VersionBatch() : beginVersion(0), endVersion(0), size(0){};
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bool operator<(const VersionBatch& rhs) const {
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return std::tie(batchIndex, beginVersion, endVersion, logFiles, rangeFiles, size) <
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std::tie(rhs.batchIndex, rhs.beginVersion, rhs.endVersion, rhs.logFiles, rhs.rangeFiles, rhs.size);
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}
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bool isEmpty() { return logFiles.empty() && rangeFiles.empty(); }
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void reset() {
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beginVersion = 0;
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endVersion = 0;
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logFiles.clear();
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rangeFiles.clear();
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size = 0;
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}
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// RestoreAsset and VersionBatch both use endVersion as exclusive in version range
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bool isInVersionRange(Version version) const { return version >= beginVersion && version < endVersion; }
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};
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struct MasterBatchData : public ReferenceCounted<MasterBatchData> {
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// rangeToApplier is in master and loader node. Loader uses this to determine which applier a mutation should be sent.
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// KeyRef is the inclusive lower bound of the key range the applier (UID) is responsible for
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std::map<Key, UID> rangeToApplier;
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IndexedSet<Key, int64_t> samples; // sample of range and log files
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double samplesSize; // sum of the metric of all samples
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Optional<Future<Void>> applyToDB;
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MasterBatchData() = default;
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~MasterBatchData() = default;
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// Return true if pass the sanity check
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bool sanityCheckApplierKeyRange() {
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bool ret = true;
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// An applier should only appear once in rangeToApplier
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std::map<UID, Key> applierToRange;
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for (auto& applier : rangeToApplier) {
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if (applierToRange.find(applier.second) == applierToRange.end()) {
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applierToRange[applier.second] = applier.first;
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} else {
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TraceEvent(SevError, "FastRestore")
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.detail("SanityCheckApplierKeyRange", applierToRange.size())
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.detail("ApplierID", applier.second)
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.detail("Key1", applierToRange[applier.second])
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.detail("Key2", applier.first);
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ret = false;
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}
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}
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return ret;
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}
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void logApplierKeyRange(int batchIndex) {
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TraceEvent("FastRestoreLogApplierKeyRange")
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.detail("BatchIndex", batchIndex)
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.detail("ApplierKeyRangeNum", rangeToApplier.size());
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for (auto& applier : rangeToApplier) {
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TraceEvent("FastRestoreLogApplierKeyRange")
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.detail("BatchIndex", batchIndex)
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.detail("KeyRangeLowerBound", applier.first)
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.detail("Applier", applier.second);
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}
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}
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};
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enum class RestoreAssetStatus { Loading, Loaded };
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enum class RestoreSendStatus { SendingLogs, SendedLogs, SendingRanges, SendedRanges };
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enum class RestoreApplyStatus { Applying, Applied };
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// Track restore progress of each RestoreAsset (RA) and
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// Use status to sanity check restore property, e.g., each RA should be processed exactly once.
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struct MasterBatchStatus : public ReferenceCounted<MasterBatchStatus> {
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std::map<RestoreAsset, RestoreAssetStatus> raStatus;
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std::map<UID, RestoreSendStatus> loadStatus;
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std::map<UID, RestoreApplyStatus> applyStatus;
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void addref() { return ReferenceCounted<MasterBatchStatus>::addref(); }
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void delref() { return ReferenceCounted<MasterBatchStatus>::delref(); }
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MasterBatchStatus() = default;
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~MasterBatchStatus() = default;
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};
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struct RestoreMasterData : RestoreRoleData, public ReferenceCounted<RestoreMasterData> {
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std::map<Version, VersionBatch> versionBatches; // key is the beginVersion of the version batch
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Reference<IBackupContainer> bc; // Backup container is used to read backup files
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Key bcUrl; // The url used to get the bc
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std::map<int, Reference<MasterBatchData>> batch;
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std::map<int, Reference<MasterBatchStatus>> batchStatus;
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AsyncVar<int> runningVersionBatches; // Currently running version batches
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std::map<UID, double> rolesHeartBeatTime; // Key: role id; Value: most recent time master receives heart beat
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void addref() { return ReferenceCounted<RestoreMasterData>::addref(); }
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void delref() { return ReferenceCounted<RestoreMasterData>::delref(); }
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RestoreMasterData() {
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role = RestoreRole::Master;
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nodeID = UID();
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runningVersionBatches.set(0);
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}
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~RestoreMasterData() = default;
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int getVersionBatchState(int batchIndex) final { return RoleVersionBatchState::INVALID; }
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void setVersionBatchState(int batchIndex, int vbState) final {}
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void initVersionBatch(int batchIndex) {
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TraceEvent("FastRestoreMasterInitVersionBatch", id()).detail("VersionBatchIndex", batchIndex);
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}
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// Reset master data at the beginning of each restore request
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void resetPerRestoreRequest() {
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TraceEvent("FastRestoreMasterReset").detail("OldVersionBatches", versionBatches.size());
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versionBatches.clear();
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batch.clear();
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batchStatus.clear();
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finishedBatch = NotifiedVersion();
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ASSERT(runningVersionBatches.get() == 0);
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}
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std::string describeNode() {
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std::stringstream ss;
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ss << "Master";
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return ss.str();
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}
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void dumpVersionBatches(const std::map<Version, VersionBatch>& versionBatches) {
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int i = 1;
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for (auto& vb : versionBatches) {
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TraceEvent("FastRestoreVersionBatches")
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.detail("BatchIndex", vb.second.batchIndex)
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.detail("ExpectedBatchIndex", i)
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.detail("BeginVersion", vb.second.beginVersion)
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.detail("EndVersion", vb.second.endVersion)
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.detail("Size", vb.second.size);
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for (auto& f : vb.second.rangeFiles) {
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bool invalidVersion = (f.beginVersion != f.endVersion) || (f.beginVersion >= vb.second.endVersion ||
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f.beginVersion < vb.second.beginVersion);
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TraceEvent(invalidVersion ? SevError : SevInfo, "FastRestoreVersionBatches")
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.detail("BatchIndex", i)
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.detail("RangeFile", f.toString());
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}
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for (auto& f : vb.second.logFiles) {
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bool outOfRange = (f.beginVersion >= vb.second.endVersion || f.endVersion <= vb.second.beginVersion);
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TraceEvent(outOfRange ? SevError : SevInfo, "FastRestoreVersionBatches")
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.detail("BatchIndex", i)
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.detail("LogFile", f.toString());
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}
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++i;
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}
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}
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// Input: Get the size of data in backup files in version range [prevVersion, nextVersion)
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// Return: param1: the size of data at nextVersion, param2: the minimum range file index whose version >
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// nextVersion, param3: log files with data in [prevVersion, nextVersion)
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std::tuple<double, int, std::vector<RestoreFileFR>> getVersionSize(Version prevVersion, Version nextVersion,
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const std::vector<RestoreFileFR>& rangeFiles,
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int rangeIdx,
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const std::vector<RestoreFileFR>& logFiles) {
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double size = 0;
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TraceEvent("FastRestoreGetVersionSize")
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.detail("PreviousVersion", prevVersion)
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.detail("NextVersion", nextVersion)
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.detail("RangeFiles", rangeFiles.size())
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.detail("RangeIndex", rangeIdx)
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.detail("LogFiles", logFiles.size());
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ASSERT(prevVersion <= nextVersion);
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while (rangeIdx < rangeFiles.size()) {
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TraceEvent(SevDebug, "FastRestoreGetVersionSize").detail("RangeFile", rangeFiles[rangeIdx].toString());
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if (rangeFiles[rangeIdx].version < nextVersion) {
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ASSERT(rangeFiles[rangeIdx].version >= prevVersion);
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size += rangeFiles[rangeIdx].fileSize;
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} else {
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break;
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}
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++rangeIdx;
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}
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std::vector<RestoreFileFR> retLogs;
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// Scan all logFiles every time to avoid assumption on log files' version ranges.
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// For example, we do not assume each version range only exists in one log file
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for (const auto& file : logFiles) {
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Version begin = std::max(prevVersion, file.beginVersion);
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Version end = std::min(nextVersion, file.endVersion);
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if (begin < end) { // logIdx file overlap in [prevVersion, nextVersion)
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double ratio = (end - begin) * 1.0 / (file.endVersion - file.beginVersion);
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size += file.fileSize * ratio;
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retLogs.push_back(file);
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}
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}
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return std::make_tuple(size, rangeIdx, retLogs);
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}
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// Split backup files into version batches, each of which has similar data size
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// Input: sorted range files, sorted log files;
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// Output: a set of version batches whose size is less than SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES
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// and each mutation in backup files is included in the version batches exactly once.
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// Assumption 1: input files has no empty files;
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// Assumption 2: range files at one version <= FASTRESTORE_VERSIONBATCH_MAX_BYTES.
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// Note: We do not allow a versionBatch size larger than the FASTRESTORE_VERSIONBATCH_MAX_BYTES because the range
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// file size at a version depends on the number of backupAgents and its upper bound is hard to get.
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void buildVersionBatches(const std::vector<RestoreFileFR>& rangeFiles, const std::vector<RestoreFileFR>& logFiles,
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std::map<Version, VersionBatch>* versionBatches, Version targetVersion) {
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bool rewriteNextVersion = false;
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int rangeIdx = 0;
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int logIdx = 0; // Ensure each log file is included in version batch
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Version prevEndVersion = 0;
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Version nextVersion = 0; // Used to calculate the batch's endVersion
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VersionBatch vb;
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vb.beginVersion = 0; // Version batch range [beginVersion, endVersion)
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vb.batchIndex = 1;
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while (rangeIdx < rangeFiles.size() || logIdx < logFiles.size()) {
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if (!rewriteNextVersion) {
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if (rangeIdx < rangeFiles.size() && logIdx < logFiles.size()) {
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// nextVersion as endVersion is exclusive in the version range
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nextVersion = std::max(rangeFiles[rangeIdx].version + 1, nextVersion);
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} else if (rangeIdx < rangeFiles.size()) { // i.e., logIdx >= logFiles.size()
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nextVersion = rangeFiles[rangeIdx].version + 1;
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} else if (logIdx < logFiles.size()) {
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while (logIdx < logFiles.size() && logFiles[logIdx].endVersion <= nextVersion) {
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logIdx++;
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}
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if (logIdx < logFiles.size()) {
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nextVersion = logFiles[logIdx].endVersion;
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} else {
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break; // Finished all log files
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}
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} else {
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TraceEvent(SevError, "FastRestoreBuildVersionBatch")
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.detail("RangeIndex", rangeIdx)
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.detail("RangeFiles", rangeFiles.size())
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.detail("LogIndex", logIdx)
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.detail("LogFiles", logFiles.size());
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}
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} else {
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rewriteNextVersion = false;
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}
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double nextVersionSize;
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int nextRangeIdx;
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std::vector<RestoreFileFR> curLogFiles;
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std::tie(nextVersionSize, nextRangeIdx, curLogFiles) =
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getVersionSize(prevEndVersion, nextVersion, rangeFiles, rangeIdx, logFiles);
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TraceEvent("FastRestoreBuildVersionBatch")
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.detail("VersionBatchBeginVersion", vb.beginVersion)
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.detail("PreviousEndVersion", prevEndVersion)
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.detail("NextVersion", nextVersion)
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.detail("RangeIndex", rangeIdx)
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.detail("RangeFiles", rangeFiles.size())
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.detail("LogIndex", logIdx)
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.detail("LogFiles", logFiles.size())
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.detail("VersionBatchSizeThreshold", SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES)
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.detail("CurrentBatchSize", vb.size)
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.detail("NextVersionIntervalSize", nextVersionSize)
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.detail("NextRangeIndex", nextRangeIdx)
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.detail("UsedLogFiles", curLogFiles.size());
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ASSERT(prevEndVersion < nextVersion); // Ensure progress
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if (vb.size + nextVersionSize <= SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES ||
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(vb.size < 1 && prevEndVersion + 1 == nextVersion)) {
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// In case the batch size at a single version > FASTRESTORE_VERSIONBATCH_MAX_BYTES,
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// the version batch should include the single version to avoid false positive in simulation.
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if (vb.size + nextVersionSize > SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES) {
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TraceEvent(g_network->isSimulated() ? SevWarnAlways : SevError, "FastRestoreBuildVersionBatch")
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.detail("NextVersion", nextVersion)
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.detail("PreviousEndVersion", prevEndVersion)
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.detail("NextVersionIntervalSize", nextVersionSize)
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.detail("VersionBatchSizeThreshold", SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES)
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.detail("SuggestedMinimumVersionBatchSizeThreshold", nextVersionSize * 2);
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}
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// nextVersion should be included in this batch
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vb.size += nextVersionSize;
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while (rangeIdx < nextRangeIdx && rangeIdx < rangeFiles.size()) {
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ASSERT(rangeFiles[rangeIdx].fileSize > 0);
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vb.rangeFiles.insert(rangeFiles[rangeIdx]);
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++rangeIdx;
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}
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for (auto& log : curLogFiles) {
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ASSERT(log.beginVersion < nextVersion);
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ASSERT(log.endVersion > prevEndVersion);
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ASSERT(log.fileSize > 0);
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vb.logFiles.insert(log);
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}
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vb.endVersion = std::min(nextVersion, targetVersion + 1);
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prevEndVersion = vb.endVersion;
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} else {
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if (vb.size < 1) {
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// [vb.endVersion, nextVersion) > SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES. We should split
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// the version range
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if (prevEndVersion >= nextVersion) {
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// If range files at one version > FASTRESTORE_VERSIONBATCH_MAX_BYTES, DBA should increase
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// FASTRESTORE_VERSIONBATCH_MAX_BYTES to some value larger than nextVersion
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TraceEvent(SevError, "FastRestoreBuildVersionBatch")
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.detail("NextVersion", nextVersion)
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.detail("PreviousEndVersion", prevEndVersion)
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.detail("NextVersionIntervalSize", nextVersionSize)
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.detail("VersionBatchSizeThreshold", SERVER_KNOBS->FASTRESTORE_VERSIONBATCH_MAX_BYTES)
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.detail("SuggestedMinimumVersionBatchSizeThreshold", nextVersionSize * 2);
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// Exit restore early if it won't succeed
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flushAndExit(FDB_EXIT_ERROR);
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}
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ASSERT(prevEndVersion < nextVersion); // Ensure progress
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nextVersion = (prevEndVersion + nextVersion) / 2;
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rewriteNextVersion = true;
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TraceEvent("FastRestoreBuildVersionBatch")
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.detail("NextVersionIntervalSize", nextVersionSize); // Duplicate Trace
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continue;
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}
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// Finalize the current version batch
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versionBatches->emplace(vb.beginVersion, vb); // copy vb to versionBatch
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// start finding the next version batch
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vb.reset();
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vb.size = 0;
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vb.beginVersion = prevEndVersion;
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vb.batchIndex++;
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}
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}
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// The last wip version batch has some files
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if (vb.size > 0) {
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vb.endVersion = std::min(nextVersion, targetVersion + 1);
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versionBatches->emplace(vb.beginVersion, vb);
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}
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}
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void initBackupContainer(Key url) {
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if (bcUrl == url && bc.isValid()) {
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return;
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}
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printf("initBackupContainer, url:%s\n", url.toString().c_str());
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bcUrl = url;
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bc = IBackupContainer::openContainer(url.toString());
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}
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};
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ACTOR Future<Void> startRestoreMaster(Reference<RestoreWorkerData> masterWorker, Database cx);
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#include "flow/unactorcompiler.h"
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#endif
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