739 lines
32 KiB
C++
739 lines
32 KiB
C++
/*
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* Resolver.actor.cpp
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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 2013-2022 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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#include <memory>
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#include "fdbclient/NativeAPI.actor.h"
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#include "fdbclient/Notified.h"
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#include "fdbclient/StorageServerInterface.h"
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#include "fdbclient/SystemData.h"
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#include "fdbserver/ApplyMetadataMutation.h"
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#include "fdbserver/ConflictSet.h"
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#include "fdbserver/EncryptionOpsUtils.h"
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#include "fdbserver/IKeyValueStore.h"
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#include "fdbserver/Knobs.h"
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#include "fdbserver/LogSystem.h"
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#include "fdbserver/LogSystemDiskQueueAdapter.h"
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#include "fdbserver/MasterInterface.h"
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#include "fdbserver/ResolverInterface.h"
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#include "fdbserver/RestoreUtil.h"
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#include "fdbserver/ServerDBInfo.h"
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#include "fdbserver/StorageMetrics.actor.h"
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#include "fdbserver/WaitFailure.h"
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#include "fdbserver/WorkerInterface.actor.h"
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#include "flow/ActorCollection.h"
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#include "flow/Error.h"
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#include "flow/actorcompiler.h" // This must be the last #include.
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namespace {
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struct ProxyRequestsInfo {
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std::map<Version, ResolveTransactionBatchReply> outstandingBatches;
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Version lastVersion;
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ProxyRequestsInfo() : lastVersion(-1) {}
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};
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} // namespace
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namespace {
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class RecentStateTransactionsInfo {
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public:
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RecentStateTransactionsInfo() = default;
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// Erases state transactions up to the given version (inclusive) and returns
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// the number of bytes for the erased mutations.
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int64_t eraseUpTo(Version oldestVersion) {
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recentStateTransactions.erase(recentStateTransactions.begin(),
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recentStateTransactions.upper_bound(oldestVersion));
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int64_t stateBytes = 0;
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while (recentStateTransactionSizes.size() && recentStateTransactionSizes.front().first <= oldestVersion) {
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stateBytes += recentStateTransactionSizes.front().second;
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recentStateTransactionSizes.pop_front();
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}
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return stateBytes;
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}
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// Adds state transactions between two versions to the reply message.
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// "initialShardChanged" indicates if commitVersion has shard changes.
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// Returns if shardChanged has ever happened for these versions.
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[[nodiscard]] bool applyStateTxnsToBatchReply(ResolveTransactionBatchReply* reply,
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Version firstUnseenVersion,
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Version commitVersion,
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bool initialShardChanged) {
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bool shardChanged = initialShardChanged;
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auto stateTransactionItr = recentStateTransactions.lower_bound(firstUnseenVersion);
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auto endItr = recentStateTransactions.lower_bound(commitVersion);
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// Resolver only sends back prior state txns back, because the proxy
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// sends this request has them and will apply them via applyMetadataToCommittedTransactions();
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// and other proxies will get this version's state txns as a prior version.
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for (; stateTransactionItr != endItr; ++stateTransactionItr) {
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shardChanged = shardChanged || stateTransactionItr->value.first;
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reply->stateMutations.push_back(reply->arena, stateTransactionItr->value.second);
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reply->arena.dependsOn(stateTransactionItr->value.second.arena());
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}
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return shardChanged;
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}
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bool empty() const { return recentStateTransactionSizes.empty(); }
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// Returns the number of versions with non-empty state transactions.
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uint32_t size() const { return recentStateTransactionSizes.size(); }
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// Returns the first/smallest version of the state transactions.
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// This can only be called when empty() returns false or size() > 0.
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Version firstVersion() const { return recentStateTransactionSizes.front().first; }
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// Records non-zero stateBytes for a version.
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void addVersionBytes(Version commitVersion, int64_t stateBytes) {
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if (stateBytes > 0)
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recentStateTransactionSizes.emplace_back(commitVersion, stateBytes);
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}
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// Returns the reference to the pair of (shardChanged, stateMutations) for the given version
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std::pair<bool, Standalone<VectorRef<StateTransactionRef>>>& getStateTransactionsRef(Version commitVersion) {
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return recentStateTransactions[commitVersion];
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}
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private:
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// Commit version to a pair of (shardChanged, stateMutations).
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Map<Version, std::pair<bool, Standalone<VectorRef<StateTransactionRef>>>> recentStateTransactions;
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// Only keep versions with non-zero size state transactions.
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Deque<std::pair<Version, int64_t>> recentStateTransactionSizes;
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};
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struct Resolver : ReferenceCounted<Resolver> {
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const UID dbgid;
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const int commitProxyCount, resolverCount;
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NotifiedVersion version;
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AsyncVar<Version> neededVersion;
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RecentStateTransactionsInfo recentStateTransactionsInfo;
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AsyncVar<int64_t> totalStateBytes;
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AsyncTrigger checkNeededVersion;
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std::map<NetworkAddress, ProxyRequestsInfo> proxyInfoMap;
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ConflictSet* conflictSet;
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TransientStorageMetricSample iopsSample;
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// Use LogSystem as backend for txnStateStore. However, the real commit
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// happens at commit proxies and we never "write" to the LogSystem at
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// Resolvers.
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LogSystemDiskQueueAdapter* logAdapter = nullptr;
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Reference<ILogSystem> logSystem;
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IKeyValueStore* txnStateStore = nullptr;
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int localTLogCount = -1;
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std::map<UID, Reference<StorageInfo>> storageCache;
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KeyRangeMap<ServerCacheInfo> keyInfo; // keyrange -> all storage servers in all DCs for the keyrange
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std::unordered_map<UID, StorageServerInterface> tssMapping;
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bool forceRecovery = false;
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Version debugMinRecentStateVersion = 0;
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// The previous commit versions per tlog
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std::vector<Version> tpcvVector;
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CounterCollection cc;
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Counter resolveBatchIn;
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Counter resolveBatchStart;
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Counter resolvedTransactions;
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Counter resolvedBytes;
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Counter resolvedReadConflictRanges;
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Counter resolvedWriteConflictRanges;
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Counter transactionsAccepted;
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Counter transactionsTooOld;
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Counter transactionsConflicted;
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Counter resolvedStateTransactions;
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Counter resolvedStateMutations;
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Counter resolvedStateBytes;
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Counter resolveBatchOut;
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Counter metricsRequests;
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Counter splitRequests;
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int numLogs;
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Future<Void> logger;
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Resolver(UID dbgid, int commitProxyCount, int resolverCount)
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: dbgid(dbgid), commitProxyCount(commitProxyCount), resolverCount(resolverCount), version(-1),
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conflictSet(newConflictSet()), iopsSample(SERVER_KNOBS->KEY_BYTES_PER_SAMPLE), cc("Resolver", dbgid.toString()),
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resolveBatchIn("ResolveBatchIn", cc), resolveBatchStart("ResolveBatchStart", cc),
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resolvedTransactions("ResolvedTransactions", cc), resolvedBytes("ResolvedBytes", cc),
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resolvedReadConflictRanges("ResolvedReadConflictRanges", cc),
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resolvedWriteConflictRanges("ResolvedWriteConflictRanges", cc),
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transactionsAccepted("TransactionsAccepted", cc), transactionsTooOld("TransactionsTooOld", cc),
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transactionsConflicted("TransactionsConflicted", cc),
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resolvedStateTransactions("ResolvedStateTransactions", cc),
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resolvedStateMutations("ResolvedStateMutations", cc), resolvedStateBytes("ResolvedStateBytes", cc),
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resolveBatchOut("ResolveBatchOut", cc), metricsRequests("MetricsRequests", cc),
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splitRequests("SplitRequests", cc) {
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specialCounter(cc, "Version", [this]() { return this->version.get(); });
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specialCounter(cc, "NeededVersion", [this]() { return this->neededVersion.get(); });
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specialCounter(cc, "TotalStateBytes", [this]() { return this->totalStateBytes.get(); });
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logger = cc.traceCounters("ResolverMetrics", dbgid, SERVER_KNOBS->WORKER_LOGGING_INTERVAL, "ResolverMetrics");
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}
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~Resolver() { destroyConflictSet(conflictSet); }
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};
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} // namespace
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ACTOR Future<Void> resolveBatch(Reference<Resolver> self,
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ResolveTransactionBatchRequest req,
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Reference<AsyncVar<ServerDBInfo> const> db) {
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state Optional<UID> debugID;
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state Span span("R:resolveBatch"_loc, req.spanContext);
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// The first request (prevVersion < 0) comes from the master
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state NetworkAddress proxyAddress =
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req.prevVersion >= 0 ? req.reply.getEndpoint().getPrimaryAddress() : NetworkAddress();
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state ProxyRequestsInfo& proxyInfo = self->proxyInfoMap[proxyAddress];
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++self->resolveBatchIn;
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if (req.debugID.present()) {
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debugID = nondeterministicRandom()->randomUniqueID();
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g_traceBatch.addAttach("CommitAttachID", req.debugID.get().first(), debugID.get().first());
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g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.Before");
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}
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/* TraceEvent("ResolveBatchStart", self->dbgid).detail("From", proxyAddress).detail("Version",
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req.version).detail("PrevVersion", req.prevVersion).detail("StateTransactions", req.txnStateTransactions.size())
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.detail("RecentStateTransactions", self->recentStateTransactionsInfo.size()).detail("LastVersion",
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proxyInfo.lastVersion).detail("FirstVersion", self->recentStateTransactionsInfo.empty() ? -1 :
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self->recentStateTransactionsInfo.firstVersion()) .detail("ResolverVersion", self->version.get()); */
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while (self->totalStateBytes.get() > SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT &&
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self->recentStateTransactionsInfo.size() &&
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proxyInfo.lastVersion > self->recentStateTransactionsInfo.firstVersion() &&
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req.version > self->neededVersion.get()) {
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/* TraceEvent("ResolveBatchDelay").detail("From", proxyAddress).detail("StateBytes",
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self->totalStateBytes.get()).detail("RecentStateTransactionSize", self->recentStateTransactionsInfo.size())
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.detail("LastVersion", proxyInfo.lastVersion).detail("RequestVersion", req.version).detail("NeededVersion",
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self->neededVersion.get()) .detail("RecentStateVer", self->recentStateTransactionsInfo.firstVersion());*/
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wait(self->totalStateBytes.onChange() || self->neededVersion.onChange());
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}
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if (debugID.present()) {
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g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.AfterQueueSizeCheck");
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}
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loop {
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if (self->recentStateTransactionsInfo.size() &&
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proxyInfo.lastVersion <= self->recentStateTransactionsInfo.firstVersion()) {
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self->neededVersion.set(std::max(self->neededVersion.get(), req.prevVersion));
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}
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choose {
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when(wait(self->version.whenAtLeast(req.prevVersion))) { break; }
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when(wait(self->checkNeededVersion.onTrigger())) {}
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}
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}
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if (check_yield(TaskPriority::DefaultEndpoint)) {
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wait(delay(0, TaskPriority::Low) || delay(SERVER_KNOBS->COMMIT_SLEEP_TIME)); // FIXME: Is this still right?
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g_network->setCurrentTask(TaskPriority::DefaultEndpoint);
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}
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if (self->version.get() ==
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req.prevVersion) { // Not a duplicate (check relies on no waiting between here and self->version.set() below!)
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++self->resolveBatchStart;
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self->resolvedTransactions += req.transactions.size();
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self->resolvedBytes += req.transactions.expectedSize();
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if (proxyInfo.lastVersion > 0) {
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proxyInfo.outstandingBatches.erase(proxyInfo.outstandingBatches.begin(),
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proxyInfo.outstandingBatches.upper_bound(req.lastReceivedVersion));
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}
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Version firstUnseenVersion = proxyInfo.lastVersion + 1;
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proxyInfo.lastVersion = req.version;
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if (req.debugID.present())
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g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.AfterOrderer");
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ResolveTransactionBatchReply& reply = proxyInfo.outstandingBatches[req.version];
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reply.writtenTags = req.writtenTags;
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std::vector<int> commitList;
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std::vector<int> tooOldList;
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// Detect conflicts
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double expire = now() + SERVER_KNOBS->SAMPLE_EXPIRATION_TIME;
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ConflictBatch conflictBatch(self->conflictSet, &reply.conflictingKeyRangeMap, &reply.arena);
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const Version newOldestVersion = req.version - SERVER_KNOBS->MAX_WRITE_TRANSACTION_LIFE_VERSIONS;
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for (int t = 0; t < req.transactions.size(); t++) {
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conflictBatch.addTransaction(req.transactions[t], newOldestVersion);
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self->resolvedReadConflictRanges += req.transactions[t].read_conflict_ranges.size();
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self->resolvedWriteConflictRanges += req.transactions[t].write_conflict_ranges.size();
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if (self->resolverCount > 1) {
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for (auto it : req.transactions[t].write_conflict_ranges)
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self->iopsSample.addAndExpire(
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it.begin, SERVER_KNOBS->SAMPLE_OFFSET_PER_KEY + it.begin.size(), expire);
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for (auto it : req.transactions[t].read_conflict_ranges)
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self->iopsSample.addAndExpire(
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it.begin, SERVER_KNOBS->SAMPLE_OFFSET_PER_KEY + it.begin.size(), expire);
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}
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}
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conflictBatch.detectConflicts(req.version, newOldestVersion, commitList, &tooOldList);
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reply.debugID = req.debugID;
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reply.committed.resize(reply.arena, req.transactions.size());
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for (int c = 0; c < commitList.size(); c++)
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reply.committed[commitList[c]] = ConflictBatch::TransactionCommitted;
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for (int c = 0; c < tooOldList.size(); c++) {
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ASSERT(reply.committed[tooOldList[c]] == ConflictBatch::TransactionConflict);
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reply.committed[tooOldList[c]] = ConflictBatch::TransactionTooOld;
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}
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self->transactionsAccepted += commitList.size();
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self->transactionsTooOld += tooOldList.size();
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self->transactionsConflicted += req.transactions.size() - commitList.size() - tooOldList.size();
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ASSERT(req.prevVersion >= 0 ||
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req.txnStateTransactions.size() == 0); // The master's request should not have any state transactions
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auto& stateTransactionsPair = self->recentStateTransactionsInfo.getStateTransactionsRef(req.version);
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auto& stateTransactions = stateTransactionsPair.second;
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int64_t stateMutations = 0;
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int64_t stateBytes = 0;
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std::unique_ptr<LogPushData> toCommit(nullptr); // For accumulating private mutations
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std::unique_ptr<ResolverData> resolverData(nullptr);
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bool isLocked = false;
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if (SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS) {
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auto lockedKey = self->txnStateStore->readValue(databaseLockedKey).get();
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isLocked = lockedKey.present() && lockedKey.get().size();
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toCommit.reset(new LogPushData(self->logSystem, self->localTLogCount));
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resolverData.reset(new ResolverData(self->dbgid,
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self->logSystem,
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self->txnStateStore,
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&self->keyInfo,
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toCommit.get(),
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self->forceRecovery,
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req.version + 1,
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&self->storageCache,
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&self->tssMapping));
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}
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for (int t : req.txnStateTransactions) {
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stateMutations += req.transactions[t].mutations.size();
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stateBytes += req.transactions[t].mutations.expectedSize();
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stateTransactions.push_back_deep(
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stateTransactions.arena(),
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StateTransactionRef(reply.committed[t] == ConflictBatch::TransactionCommitted,
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req.transactions[t].mutations));
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// for (const auto& m : req.transactions[t].mutations)
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// DEBUG_MUTATION("Resolver", req.version, m, self->dbgid);
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// Generate private mutations for metadata mutations
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// The condition here must match CommitBatch::applyMetadataToCommittedTransactions()
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if (reply.committed[t] == ConflictBatch::TransactionCommitted && !self->forceRecovery &&
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SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS && (!isLocked || req.transactions[t].lock_aware)) {
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SpanContext spanContext =
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req.transactions[t].spanContext.present() ? req.transactions[t].spanContext.get() : SpanContext();
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applyMetadataMutations(spanContext, *resolverData, req.transactions[t].mutations);
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}
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CODE_PROBE(self->forceRecovery, "Resolver detects forced recovery");
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}
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self->resolvedStateTransactions += req.txnStateTransactions.size();
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self->resolvedStateMutations += stateMutations;
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self->resolvedStateBytes += stateBytes;
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self->recentStateTransactionsInfo.addVersionBytes(req.version, stateBytes);
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ASSERT(req.version >= firstUnseenVersion);
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ASSERT(firstUnseenVersion >= self->debugMinRecentStateVersion);
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CODE_PROBE(firstUnseenVersion == req.version, "Resolver first unseen version is current version");
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// If shardChanged at or before this commit version, the proxy may have computed
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// the wrong set of groups. Then we need to broadcast to all groups below.
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stateTransactionsPair.first = toCommit && toCommit->isShardChanged();
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bool shardChanged = self->recentStateTransactionsInfo.applyStateTxnsToBatchReply(
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&reply, firstUnseenVersion, req.version, toCommit && toCommit->isShardChanged());
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// Adds private mutation messages to the reply message.
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if (SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS) {
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auto privateMutations = toCommit->getAllMessages();
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for (const auto& mutations : privateMutations) {
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reply.privateMutations.push_back(reply.arena, mutations);
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reply.arena.dependsOn(mutations.arena());
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}
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// merge mutation tags with sent client tags
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toCommit->saveTags(reply.writtenTags);
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reply.privateMutationCount = toCommit->getMutationCount();
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}
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//TraceEvent("ResolveBatch", self->dbgid).detail("PrevVersion", req.prevVersion).detail("Version", req.version).detail("StateTransactionVersions", self->recentStateTransactionsInfo.size()).detail("StateBytes", stateBytes).detail("FirstVersion", self->recentStateTransactionsInfo.empty() ? -1 : self->recentStateTransactionsInfo.firstVersion()).detail("StateMutationsIn", req.txnStateTransactions.size()).detail("StateMutationsOut", reply.stateMutations.size()).detail("From", proxyAddress);
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ASSERT(!proxyInfo.outstandingBatches.empty());
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ASSERT(self->proxyInfoMap.size() <= self->commitProxyCount + 1);
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// SOMEDAY: This is O(n) in number of proxies. O(log n) solution using appropriate data structure?
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Version oldestProxyVersion = req.version;
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for (auto itr = self->proxyInfoMap.begin(); itr != self->proxyInfoMap.end(); ++itr) {
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//TraceEvent("ResolveBatchProxyVersion", self->dbgid).detail("CommitProxy", itr->first).detail("Version", itr->second.lastVersion);
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if (itr->first.isValid()) { // Don't consider the first master request
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oldestProxyVersion = std::min(itr->second.lastVersion, oldestProxyVersion);
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} else {
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// The master's request version should never prevent us from clearing recentStateTransactions
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ASSERT(self->debugMinRecentStateVersion == 0 ||
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self->debugMinRecentStateVersion > itr->second.lastVersion);
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}
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}
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CODE_PROBE(oldestProxyVersion == req.version,
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"The proxy that sent this request has the oldest current version");
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CODE_PROBE(oldestProxyVersion != req.version,
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"The proxy that sent this request does not have the oldest current version");
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bool anyPopped = false;
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if (firstUnseenVersion <= oldestProxyVersion && self->proxyInfoMap.size() == self->commitProxyCount + 1) {
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CODE_PROBE(true, "Deleting old state transactions");
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int64_t erasedBytes = self->recentStateTransactionsInfo.eraseUpTo(oldestProxyVersion);
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self->debugMinRecentStateVersion = oldestProxyVersion + 1;
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anyPopped = erasedBytes > 0;
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stateBytes -= erasedBytes;
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}
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if (SERVER_KNOBS->ENABLE_VERSION_VECTOR_TLOG_UNICAST) {
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if (!self->numLogs) {
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reply.tpcvMap.clear();
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} else {
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std::set<uint16_t> writtenTLogs;
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if (shardChanged || reply.privateMutationCount) {
|
|
for (int i = 0; i < self->numLogs; i++) {
|
|
writtenTLogs.insert(i);
|
|
}
|
|
} else {
|
|
toCommit->getLocations(reply.writtenTags, writtenTLogs);
|
|
}
|
|
if (self->tpcvVector[0] == invalidVersion) {
|
|
std::fill(self->tpcvVector.begin(), self->tpcvVector.end(), req.prevVersion);
|
|
}
|
|
for (uint16_t tLog : writtenTLogs) {
|
|
reply.tpcvMap[tLog] = self->tpcvVector[tLog];
|
|
self->tpcvVector[tLog] = req.version;
|
|
}
|
|
}
|
|
}
|
|
self->version.set(req.version);
|
|
bool breachedLimit = self->totalStateBytes.get() <= SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT &&
|
|
self->totalStateBytes.get() + stateBytes > SERVER_KNOBS->RESOLVER_STATE_MEMORY_LIMIT;
|
|
self->totalStateBytes.setUnconditional(self->totalStateBytes.get() + stateBytes);
|
|
if (anyPopped || breachedLimit) {
|
|
self->checkNeededVersion.trigger();
|
|
}
|
|
|
|
if (req.debugID.present())
|
|
g_traceBatch.addEvent("CommitDebug", debugID.get().first(), "Resolver.resolveBatch.After");
|
|
} else {
|
|
CODE_PROBE(true, "Duplicate resolve batch request");
|
|
//TraceEvent("DupResolveBatchReq", self->dbgid).detail("From", proxyAddress);
|
|
}
|
|
|
|
auto proxyInfoItr = self->proxyInfoMap.find(proxyAddress);
|
|
|
|
if (proxyInfoItr != self->proxyInfoMap.end()) {
|
|
auto batchItr = proxyInfoItr->second.outstandingBatches.find(req.version);
|
|
if (batchItr != proxyInfoItr->second.outstandingBatches.end()) {
|
|
req.reply.send(batchItr->second);
|
|
} else {
|
|
CODE_PROBE(true, "No outstanding batches for version on proxy");
|
|
req.reply.send(Never());
|
|
}
|
|
} else {
|
|
ASSERT_WE_THINK(false); // The first non-duplicate request with this proxyAddress, including this one, should
|
|
// have inserted this item in the map!
|
|
// CODE_PROBE(true, "No prior proxy requests");
|
|
req.reply.send(Never());
|
|
}
|
|
|
|
++self->resolveBatchOut;
|
|
|
|
return Void();
|
|
}
|
|
|
|
namespace {
|
|
|
|
// TODO: refactor with the one in CommitProxyServer.actor.cpp
|
|
struct TransactionStateResolveContext {
|
|
// Maximum sequence for txnStateRequest, this is defined when the request last flag is set.
|
|
Sequence maxSequence = std::numeric_limits<Sequence>::max();
|
|
|
|
// Flags marks received transaction state requests, we only process the transaction request when *all* requests are
|
|
// received.
|
|
std::unordered_set<Sequence> receivedSequences;
|
|
|
|
Reference<Resolver> pResolverData;
|
|
|
|
// Pointer to transaction state store, shortcut for commitData.txnStateStore
|
|
IKeyValueStore* pTxnStateStore = nullptr;
|
|
|
|
// Actor streams
|
|
PromiseStream<Future<Void>>* pActors = nullptr;
|
|
|
|
// Flag reports if the transaction state request is complete. This request should only happen during recover, i.e.
|
|
// once per Resolver.
|
|
bool processed = false;
|
|
|
|
TransactionStateResolveContext() = default;
|
|
|
|
TransactionStateResolveContext(Reference<Resolver> pResolverData_, PromiseStream<Future<Void>>* pActors_)
|
|
: pResolverData(pResolverData_), pTxnStateStore(pResolverData_->txnStateStore), pActors(pActors_) {
|
|
ASSERT(pTxnStateStore != nullptr || !SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS);
|
|
}
|
|
};
|
|
|
|
ACTOR Future<Void> processCompleteTransactionStateRequest(TransactionStateResolveContext* pContext,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
state KeyRange txnKeys = allKeys;
|
|
state std::map<Tag, UID> tag_uid;
|
|
|
|
RangeResult UIDtoTagMap = pContext->pTxnStateStore->readRange(serverTagKeys).get();
|
|
for (const KeyValueRef& kv : UIDtoTagMap) {
|
|
tag_uid[decodeServerTagValue(kv.value)] = decodeServerTagKey(kv.key);
|
|
}
|
|
|
|
loop {
|
|
wait(yield());
|
|
|
|
RangeResult data =
|
|
pContext->pTxnStateStore
|
|
->readRange(txnKeys, SERVER_KNOBS->BUGGIFIED_ROW_LIMIT, SERVER_KNOBS->APPLY_MUTATION_BYTES)
|
|
.get();
|
|
if (!data.size())
|
|
break;
|
|
|
|
((KeyRangeRef&)txnKeys) = KeyRangeRef(keyAfter(data.back().key, txnKeys.arena()), txnKeys.end);
|
|
|
|
MutationsVec mutations;
|
|
std::vector<std::pair<MapPair<Key, ServerCacheInfo>, int>> keyInfoData;
|
|
std::vector<UID> src, dest;
|
|
ServerCacheInfo info;
|
|
// NOTE: An ACTOR will be compiled into several classes, the this pointer is from one of them.
|
|
auto updateTagInfo = [pContext = pContext](const std::vector<UID>& uids,
|
|
std::vector<Tag>& tags,
|
|
std::vector<Reference<StorageInfo>>& storageInfoItems) {
|
|
for (const auto& id : uids) {
|
|
auto storageInfo = getStorageInfo(id, &pContext->pResolverData->storageCache, pContext->pTxnStateStore);
|
|
ASSERT(storageInfo->tag != invalidTag);
|
|
tags.push_back(storageInfo->tag);
|
|
storageInfoItems.push_back(storageInfo);
|
|
}
|
|
};
|
|
for (auto& kv : data) {
|
|
if (!kv.key.startsWith(keyServersPrefix)) {
|
|
mutations.emplace_back(mutations.arena(), MutationRef::SetValue, kv.key, kv.value);
|
|
continue;
|
|
}
|
|
|
|
KeyRef k = kv.key.removePrefix(keyServersPrefix);
|
|
if (k == allKeys.end) {
|
|
continue;
|
|
}
|
|
decodeKeyServersValue(tag_uid, kv.value, src, dest);
|
|
|
|
info.tags.clear();
|
|
|
|
info.src_info.clear();
|
|
updateTagInfo(src, info.tags, info.src_info);
|
|
|
|
info.dest_info.clear();
|
|
updateTagInfo(dest, info.tags, info.dest_info);
|
|
|
|
uniquify(info.tags);
|
|
keyInfoData.emplace_back(MapPair<Key, ServerCacheInfo>(k, info), 1);
|
|
}
|
|
|
|
// insert keyTag data separately from metadata mutations so that we can do one bulk insert which
|
|
// avoids a lot of map lookups.
|
|
pContext->pResolverData->keyInfo.rawInsert(keyInfoData);
|
|
|
|
bool confChanges; // Ignore configuration changes for initial commits.
|
|
ResolverData resolverData(
|
|
pContext->pResolverData->dbgid, pContext->pTxnStateStore, &pContext->pResolverData->keyInfo, confChanges);
|
|
applyMetadataMutations(SpanContext(), resolverData, mutations);
|
|
} // loop
|
|
|
|
auto lockedKey = pContext->pTxnStateStore->readValue(databaseLockedKey).get();
|
|
// pContext->pCommitData->locked = lockedKey.present() && lockedKey.get().size();
|
|
// pContext->pCommitData->metadataVersion = pContext->pTxnStateStore->readValue(metadataVersionKey).get();
|
|
|
|
pContext->pTxnStateStore->enableSnapshot();
|
|
|
|
return Void();
|
|
}
|
|
|
|
ACTOR Future<Void> processTransactionStateRequestPart(TransactionStateResolveContext* pContext,
|
|
TxnStateRequest request,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
ASSERT(pContext->pResolverData.getPtr() != nullptr);
|
|
ASSERT(pContext->pActors != nullptr);
|
|
|
|
if (pContext->receivedSequences.count(request.sequence)) {
|
|
// This part is already received. Still we will re-broadcast it to other CommitProxies & Resolvers
|
|
pContext->pActors->send(broadcastTxnRequest(request, SERVER_KNOBS->TXN_STATE_SEND_AMOUNT, true));
|
|
wait(yield());
|
|
return Void();
|
|
}
|
|
|
|
if (request.last) {
|
|
// This is the last piece of subsequence, yet other pieces might still on the way.
|
|
pContext->maxSequence = request.sequence + 1;
|
|
}
|
|
pContext->receivedSequences.insert(request.sequence);
|
|
|
|
// ASSERT(!pContext->pResolverData->validState.isSet());
|
|
|
|
for (auto& kv : request.data) {
|
|
pContext->pTxnStateStore->set(kv, &request.arena);
|
|
}
|
|
pContext->pTxnStateStore->commit(true);
|
|
|
|
if (pContext->receivedSequences.size() == pContext->maxSequence) {
|
|
// Received all components of the txnStateRequest
|
|
ASSERT(!pContext->processed);
|
|
wait(processCompleteTransactionStateRequest(pContext, db));
|
|
pContext->processed = true;
|
|
}
|
|
|
|
pContext->pActors->send(broadcastTxnRequest(request, SERVER_KNOBS->TXN_STATE_SEND_AMOUNT, true));
|
|
wait(yield());
|
|
return Void();
|
|
}
|
|
|
|
} // anonymous namespace
|
|
|
|
ACTOR Future<Void> resolverCore(ResolverInterface resolver,
|
|
InitializeResolverRequest initReq,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
state Reference<Resolver> self(new Resolver(resolver.id(), initReq.commitProxyCount, initReq.resolverCount));
|
|
state ActorCollection actors(false);
|
|
state Future<Void> doPollMetrics = self->resolverCount > 1 ? Void() : Future<Void>(Never());
|
|
state PromiseStream<Future<Void>> addActor;
|
|
actors.add(waitFailureServer(resolver.waitFailure.getFuture()));
|
|
actors.add(traceRole(Role::RESOLVER, resolver.id()));
|
|
|
|
TraceEvent("ResolverInit", resolver.id()).detail("RecoveryCount", initReq.recoveryCount);
|
|
|
|
// Wait until we can load the "real" logsystem, since we don't support switching them currently
|
|
while (!(initReq.masterLifetime.isEqual(db->get().masterLifetime) &&
|
|
db->get().recoveryState >= RecoveryState::RECOVERY_TRANSACTION)) {
|
|
// TraceEvent("ResolverInit2", resolver.id()).detail("LSEpoch", db->get().logSystemConfig.epoch);
|
|
wait(db->onChange());
|
|
}
|
|
|
|
// Initialize txnStateStore
|
|
self->logSystem = ILogSystem::fromServerDBInfo(resolver.id(), db->get(), false, addActor);
|
|
self->localTLogCount = db->get().logSystemConfig.numLogs();
|
|
state Future<Void> onError =
|
|
transformError(actorCollection(addActor.getFuture()), broken_promise(), resolver_failed());
|
|
state TransactionStateResolveContext transactionStateResolveContext;
|
|
if (SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS) {
|
|
self->logAdapter = new LogSystemDiskQueueAdapter(self->logSystem, Reference<AsyncVar<PeekTxsInfo>>(), 1, false);
|
|
self->txnStateStore = keyValueStoreLogSystem(self->logAdapter,
|
|
db,
|
|
resolver.id(),
|
|
2e9,
|
|
true,
|
|
true,
|
|
true,
|
|
isEncryptionOpSupported(EncryptOperationType::TLOG_ENCRYPTION));
|
|
|
|
// wait for txnStateStore recovery
|
|
wait(success(self->txnStateStore->readValue(StringRef())));
|
|
|
|
// This has to be declared after the self->txnStateStore get initialized
|
|
transactionStateResolveContext = TransactionStateResolveContext(self, &addActor);
|
|
|
|
if (SERVER_KNOBS->ENABLE_VERSION_VECTOR_TLOG_UNICAST) {
|
|
self->numLogs = db->get().logSystemConfig.numLogs();
|
|
self->tpcvVector.resize(1 + self->numLogs, 0);
|
|
std::fill(self->tpcvVector.begin(), self->tpcvVector.end(), invalidVersion);
|
|
}
|
|
}
|
|
|
|
loop choose {
|
|
when(ResolveTransactionBatchRequest batch = waitNext(resolver.resolve.getFuture())) {
|
|
actors.add(resolveBatch(self, batch, db));
|
|
}
|
|
when(ResolutionMetricsRequest req = waitNext(resolver.metrics.getFuture())) {
|
|
++self->metricsRequests;
|
|
req.reply.send(self->iopsSample.getEstimate(SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS ? normalKeys
|
|
: allKeys));
|
|
}
|
|
when(ResolutionSplitRequest req = waitNext(resolver.split.getFuture())) {
|
|
++self->splitRequests;
|
|
ResolutionSplitReply rep;
|
|
rep.key = self->iopsSample.splitEstimate(req.range, req.offset, req.front);
|
|
rep.used = self->iopsSample.getEstimate(req.front ? KeyRangeRef(req.range.begin, rep.key)
|
|
: KeyRangeRef(rep.key, req.range.end));
|
|
req.reply.send(rep);
|
|
}
|
|
when(wait(actors.getResult())) {}
|
|
when(wait(onError)) {}
|
|
when(wait(doPollMetrics)) {
|
|
self->iopsSample.poll();
|
|
doPollMetrics = delay(SERVER_KNOBS->SAMPLE_POLL_TIME);
|
|
}
|
|
when(TxnStateRequest request = waitNext(resolver.txnState.getFuture())) {
|
|
if (SERVER_KNOBS->PROXY_USE_RESOLVER_PRIVATE_MUTATIONS) {
|
|
addActor.send(processTransactionStateRequestPart(&transactionStateResolveContext, request, db));
|
|
} else {
|
|
ASSERT(false);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> checkRemoved(Reference<AsyncVar<ServerDBInfo> const> db,
|
|
uint64_t recoveryCount,
|
|
ResolverInterface myInterface) {
|
|
loop {
|
|
if (db->get().recoveryCount >= recoveryCount &&
|
|
!std::count(db->get().resolvers.begin(), db->get().resolvers.end(), myInterface))
|
|
throw worker_removed();
|
|
wait(db->onChange());
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> resolver(ResolverInterface resolver,
|
|
InitializeResolverRequest initReq,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
try {
|
|
state Future<Void> core = resolverCore(resolver, initReq, db);
|
|
loop choose {
|
|
when(wait(core)) { return Void(); }
|
|
when(wait(checkRemoved(db, initReq.recoveryCount, resolver))) {}
|
|
}
|
|
} catch (Error& e) {
|
|
if (e.code() == error_code_actor_cancelled || e.code() == error_code_worker_removed) {
|
|
TraceEvent("ResolverTerminated", resolver.id()).errorUnsuppressed(e);
|
|
return Void();
|
|
}
|
|
throw;
|
|
}
|
|
}
|