1044 lines
46 KiB
C++
1044 lines
46 KiB
C++
/*
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* GrvProxyServer.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 "fdbclient/Knobs.h"
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#include "fdbclient/Notified.h"
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#include "fdbclient/TransactionLineage.h"
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#include "fdbserver/LogSystem.h"
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#include "fdbserver/LogSystemDiskQueueAdapter.h"
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#include "fdbclient/CommitProxyInterface.h"
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#include "fdbclient/GrvProxyInterface.h"
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#include "fdbserver/WaitFailure.h"
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#include "fdbserver/WorkerInterface.actor.h"
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#include "fdbrpc/sim_validation.h"
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#include "flow/flow.h"
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#include "flow/actorcompiler.h" // This must be the last #include.
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struct GrvProxyStats {
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CounterCollection cc;
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Counter txnRequestIn, txnRequestOut, txnRequestErrors;
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Counter txnStartIn, txnStartOut, txnStartBatch;
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Counter txnSystemPriorityStartIn, txnSystemPriorityStartOut;
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Counter txnBatchPriorityStartIn, txnBatchPriorityStartOut;
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Counter txnDefaultPriorityStartIn, txnDefaultPriorityStartOut;
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Counter txnThrottled;
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Counter updatesFromRatekeeper, leaseTimeouts;
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int systemGRVQueueSize, defaultGRVQueueSize, batchGRVQueueSize;
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double transactionRateAllowed, batchTransactionRateAllowed;
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double transactionLimit, batchTransactionLimit;
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// how much of the GRV requests queue was processed in one attempt to hand out read version.
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double percentageOfDefaultGRVQueueProcessed;
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double percentageOfBatchGRVQueueProcessed;
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bool lastBatchQueueThrottled;
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bool lastDefaultQueueThrottled;
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double batchThrottleStartTime;
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double defaultThrottleStartTime;
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LatencySample defaultTxnGRVTimeInQueue;
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LatencySample batchTxnGRVTimeInQueue;
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LatencyBands grvLatencyBands;
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LatencySample grvLatencySample; // GRV latency metric sample of default priority
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LatencySample grvBatchLatencySample; // GRV latency metric sample of batched priority
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Future<Void> logger;
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int recentRequests;
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Deque<int> requestBuckets;
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double lastBucketBegin;
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double bucketInterval;
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Reference<Histogram> grvConfirmEpochLiveDist;
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Reference<Histogram> grvGetCommittedVersionRpcDist;
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void updateRequestBuckets() {
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while (now() - lastBucketBegin > bucketInterval) {
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lastBucketBegin += bucketInterval;
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recentRequests -= requestBuckets.front();
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requestBuckets.pop_front();
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requestBuckets.push_back(0);
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}
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}
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void addRequest(int transactionCount) {
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updateRequestBuckets();
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recentRequests += transactionCount;
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requestBuckets.back() += transactionCount;
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}
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int getRecentRequests() {
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updateRequestBuckets();
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return recentRequests /
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(FLOW_KNOBS->BASIC_LOAD_BALANCE_UPDATE_RATE - (lastBucketBegin + bucketInterval - now()));
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}
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// Current stats maintained for a given grv proxy server
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explicit GrvProxyStats(UID id)
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: cc("GrvProxyStats", id.toString()),
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txnRequestIn("TxnRequestIn", cc), txnRequestOut("TxnRequestOut", cc), txnRequestErrors("TxnRequestErrors", cc),
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txnStartIn("TxnStartIn", cc), txnStartOut("TxnStartOut", cc), txnStartBatch("TxnStartBatch", cc),
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txnSystemPriorityStartIn("TxnSystemPriorityStartIn", cc),
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txnSystemPriorityStartOut("TxnSystemPriorityStartOut", cc),
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txnBatchPriorityStartIn("TxnBatchPriorityStartIn", cc),
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txnBatchPriorityStartOut("TxnBatchPriorityStartOut", cc),
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txnDefaultPriorityStartIn("TxnDefaultPriorityStartIn", cc),
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txnDefaultPriorityStartOut("TxnDefaultPriorityStartOut", cc), txnThrottled("TxnThrottled", cc),
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updatesFromRatekeeper("UpdatesFromRatekeeper", cc), leaseTimeouts("LeaseTimeouts", cc), systemGRVQueueSize(0),
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defaultGRVQueueSize(0), batchGRVQueueSize(0), transactionRateAllowed(0), batchTransactionRateAllowed(0),
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transactionLimit(0), batchTransactionLimit(0), percentageOfDefaultGRVQueueProcessed(0),
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percentageOfBatchGRVQueueProcessed(0), lastBatchQueueThrottled(false), lastDefaultQueueThrottled(false),
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batchThrottleStartTime(0.0), defaultThrottleStartTime(0.0),
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defaultTxnGRVTimeInQueue("DefaultTxnGRVTimeInQueue",
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id,
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SERVER_KNOBS->LATENCY_METRICS_LOGGING_INTERVAL,
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SERVER_KNOBS->LATENCY_SAMPLE_SIZE),
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batchTxnGRVTimeInQueue("BatchTxnGRVTimeInQueue",
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id,
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SERVER_KNOBS->LATENCY_METRICS_LOGGING_INTERVAL,
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SERVER_KNOBS->LATENCY_SAMPLE_SIZE),
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grvLatencyBands("GRVLatencyBands", id, SERVER_KNOBS->STORAGE_LOGGING_DELAY),
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grvLatencySample("GRVLatencyMetrics",
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id,
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SERVER_KNOBS->LATENCY_METRICS_LOGGING_INTERVAL,
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SERVER_KNOBS->LATENCY_SAMPLE_SIZE),
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grvBatchLatencySample("GRVBatchLatencyMetrics",
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id,
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SERVER_KNOBS->LATENCY_METRICS_LOGGING_INTERVAL,
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SERVER_KNOBS->LATENCY_SAMPLE_SIZE),
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recentRequests(0), lastBucketBegin(now()),
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bucketInterval(FLOW_KNOBS->BASIC_LOAD_BALANCE_UPDATE_RATE / FLOW_KNOBS->BASIC_LOAD_BALANCE_BUCKETS),
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grvConfirmEpochLiveDist(Histogram::getHistogram(LiteralStringRef("GrvProxy"),
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LiteralStringRef("GrvConfirmEpochLive"),
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Histogram::Unit::microseconds)),
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grvGetCommittedVersionRpcDist(Histogram::getHistogram(LiteralStringRef("GrvProxy"),
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LiteralStringRef("GrvGetCommittedVersionRpc"),
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Histogram::Unit::microseconds)) {
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// The rate at which the limit(budget) is allowed to grow.
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specialCounter(cc, "SystemGRVQueueSize", [this]() { return this->systemGRVQueueSize; });
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specialCounter(cc, "DefaultGRVQueueSize", [this]() { return this->defaultGRVQueueSize; });
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specialCounter(cc, "BatchGRVQueueSize", [this]() { return this->batchGRVQueueSize; });
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specialCounter(
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cc, "SystemAndDefaultTxnRateAllowed", [this]() { return int64_t(this->transactionRateAllowed); });
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specialCounter(
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cc, "BatchTransactionRateAllowed", [this]() { return int64_t(this->batchTransactionRateAllowed); });
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specialCounter(cc, "SystemAndDefaultTxnLimit", [this]() { return int64_t(this->transactionLimit); });
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specialCounter(cc, "BatchTransactionLimit", [this]() { return int64_t(this->batchTransactionLimit); });
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specialCounter(cc, "PercentageOfDefaultGRVQueueProcessed", [this]() {
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return int64_t(100 * this->percentageOfDefaultGRVQueueProcessed);
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});
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specialCounter(cc, "PercentageOfBatchGRVQueueProcessed", [this]() {
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return int64_t(100 * this->percentageOfBatchGRVQueueProcessed);
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});
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logger = traceCounters("GrvProxyMetrics", id, SERVER_KNOBS->WORKER_LOGGING_INTERVAL, &cc, "GrvProxyMetrics");
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for (int i = 0; i < FLOW_KNOBS->BASIC_LOAD_BALANCE_BUCKETS; i++) {
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requestBuckets.push_back(0);
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}
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}
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};
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struct GrvTransactionRateInfo {
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double rate;
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double limit;
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double budget;
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bool disabled;
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Smoother smoothRate;
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Smoother smoothReleased;
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GrvTransactionRateInfo(double rate)
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: rate(rate), limit(0), budget(0), disabled(true), smoothRate(SERVER_KNOBS->START_TRANSACTION_RATE_WINDOW),
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smoothReleased(SERVER_KNOBS->START_TRANSACTION_RATE_WINDOW) {}
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void reset() {
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// Determine the number of transactions that this proxy is allowed to release
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// Roughly speaking, this is done by computing the number of transactions over some historical window that we
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// could have started but didn't, and making that our limit. More precisely, we track a smoothed rate limit and
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// release rate, the difference of which is the rate of additional transactions that we could have released
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// based on that window. Then we multiply by the window size to get a number of transactions.
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//
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// Limit can be negative in the event that we are releasing more transactions than we are allowed (due to the
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// use of our budget or because of higher priority transactions).
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double releaseRate = smoothRate.smoothTotal() - smoothReleased.smoothRate();
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limit = SERVER_KNOBS->START_TRANSACTION_RATE_WINDOW * releaseRate;
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}
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bool canStart(int64_t numAlreadyStarted, int64_t count) {
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return numAlreadyStarted + count <=
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std::min(limit + budget, SERVER_KNOBS->START_TRANSACTION_MAX_TRANSACTIONS_TO_START);
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}
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void updateBudget(int64_t numStartedAtPriority, bool queueEmptyAtPriority, double elapsed) {
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// Update the budget to accumulate any extra capacity available or remove any excess that was used.
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// The actual delta is the portion of the limit we didn't use multiplied by the fraction of the window that
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// elapsed.
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//
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// We may have exceeded our limit due to the budget or because of higher priority transactions, in which case
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// this delta will be negative. The delta can also be negative in the event that our limit was negative, which
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// can happen if we had already started more transactions in our window than our rate would have allowed.
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//
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// This budget has the property that when the budget is required to start transactions (because batches are
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// big), the sum limit+budget will increase linearly from 0 to the batch size over time and decrease by the
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// batch size upon starting a batch. In other words, this works equivalently to a model where we linearly
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// accumulate budget over time in the case that our batches are too big to take advantage of the window based
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// limits.
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budget = std::max(
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0.0, budget + elapsed * (limit - numStartedAtPriority) / SERVER_KNOBS->START_TRANSACTION_RATE_WINDOW);
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// If we are emptying out the queue of requests, then we don't need to carry much budget forward
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// If we did keep accumulating budget, then our responsiveness to changes in workflow could be compromised
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if (queueEmptyAtPriority) {
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budget = std::min(budget, SERVER_KNOBS->START_TRANSACTION_MAX_EMPTY_QUEUE_BUDGET);
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}
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smoothReleased.addDelta(numStartedAtPriority);
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}
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void disable() {
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disabled = true;
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// Use smoothRate.setTotal(0) instead of setting rate to 0 so txns will not be throttled immediately.
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smoothRate.setTotal(0);
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}
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void setRate(double rate) {
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ASSERT(rate >= 0 && rate != std::numeric_limits<double>::infinity() && !std::isnan(rate));
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this->rate = rate;
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if (disabled) {
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smoothRate.reset(rate);
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disabled = false;
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} else {
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smoothRate.setTotal(rate);
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}
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}
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};
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struct GrvProxyData {
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GrvProxyInterface proxy;
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UID dbgid;
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GrvProxyStats stats;
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MasterInterface master;
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RequestStream<GetReadVersionRequest> getConsistentReadVersion;
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Reference<ILogSystem> logSystem;
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Database cx;
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Reference<AsyncVar<ServerDBInfo> const> db;
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Optional<LatencyBandConfig> latencyBandConfig;
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double lastStartCommit;
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double lastCommitLatency;
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int updateCommitRequests;
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NotifiedDouble lastCommitTime;
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Version minKnownCommittedVersion; // we should ask master for this version.
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void updateLatencyBandConfig(Optional<LatencyBandConfig> newLatencyBandConfig) {
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if (newLatencyBandConfig.present() != latencyBandConfig.present() ||
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(newLatencyBandConfig.present() &&
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newLatencyBandConfig.get().grvConfig != latencyBandConfig.get().grvConfig)) {
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TraceEvent("LatencyBandGrvUpdatingConfig").detail("Present", newLatencyBandConfig.present());
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stats.grvLatencyBands.clearBands();
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if (newLatencyBandConfig.present()) {
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for (auto band : newLatencyBandConfig.get().grvConfig.bands) {
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stats.grvLatencyBands.addThreshold(band);
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}
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}
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}
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latencyBandConfig = newLatencyBandConfig;
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}
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GrvProxyData(UID dbgid,
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MasterInterface master,
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RequestStream<GetReadVersionRequest> getConsistentReadVersion,
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Reference<AsyncVar<ServerDBInfo> const> db)
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: dbgid(dbgid), stats(dbgid), master(master), getConsistentReadVersion(getConsistentReadVersion),
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cx(openDBOnServer(db, TaskPriority::DefaultEndpoint, LockAware::True)), db(db), lastStartCommit(0),
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lastCommitLatency(SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION), updateCommitRequests(0), lastCommitTime(0),
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minKnownCommittedVersion(invalidVersion) {}
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};
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ACTOR Future<Void> healthMetricsRequestServer(GrvProxyInterface grvProxy,
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GetHealthMetricsReply* healthMetricsReply,
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GetHealthMetricsReply* detailedHealthMetricsReply) {
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loop {
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choose {
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when(GetHealthMetricsRequest req = waitNext(grvProxy.getHealthMetrics.getFuture())) {
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if (req.detailed)
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req.reply.send(*detailedHealthMetricsReply);
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else
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req.reply.send(*healthMetricsReply);
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}
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}
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}
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}
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// Get transaction rate info from RateKeeper.
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ACTOR Future<Void> getRate(UID myID,
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Reference<AsyncVar<ServerDBInfo> const> db,
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int64_t* inTransactionCount,
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int64_t* inBatchTransactionCount,
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GrvTransactionRateInfo* transactionRateInfo,
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GrvTransactionRateInfo* batchTransactionRateInfo,
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GetHealthMetricsReply* healthMetricsReply,
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GetHealthMetricsReply* detailedHealthMetricsReply,
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TransactionTagMap<uint64_t>* transactionTagCounter,
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PrioritizedTransactionTagMap<ClientTagThrottleLimits>* throttledTags,
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GrvProxyStats* stats) {
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state Future<Void> nextRequestTimer = Never();
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state Future<Void> leaseTimeout = Never();
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state Future<GetRateInfoReply> reply = Never();
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state double lastDetailedReply = 0.0; // request detailed metrics immediately
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state bool expectingDetailedReply = false;
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state int64_t lastTC = 0;
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if (db->get().ratekeeper.present())
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nextRequestTimer = Void();
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loop choose {
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when(wait(db->onChange())) {
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if (db->get().ratekeeper.present()) {
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TraceEvent("ProxyRatekeeperChanged", myID).detail("RKID", db->get().ratekeeper.get().id());
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nextRequestTimer = Void(); // trigger GetRate request
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} else {
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TraceEvent("ProxyRatekeeperDied", myID).log();
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nextRequestTimer = Never();
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reply = Never();
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}
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}
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when(wait(nextRequestTimer)) {
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nextRequestTimer = Never();
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bool detailed = now() - lastDetailedReply > SERVER_KNOBS->DETAILED_METRIC_UPDATE_RATE;
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TransactionTagMap<uint64_t> tagCounts;
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for (auto itr : *throttledTags) {
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for (auto priorityThrottles : itr.second) {
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tagCounts[priorityThrottles.first] = (*transactionTagCounter)[priorityThrottles.first];
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}
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}
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reply = brokenPromiseToNever(db->get().ratekeeper.get().getRateInfo.getReply(GetRateInfoRequest(
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myID, *inTransactionCount, *inBatchTransactionCount, *transactionTagCounter, detailed)));
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transactionTagCounter->clear();
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expectingDetailedReply = detailed;
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}
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when(GetRateInfoReply rep = wait(reply)) {
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reply = Never();
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transactionRateInfo->setRate(rep.transactionRate);
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batchTransactionRateInfo->setRate(rep.batchTransactionRate);
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stats->transactionRateAllowed = rep.transactionRate;
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stats->batchTransactionRateAllowed = rep.batchTransactionRate;
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++stats->updatesFromRatekeeper;
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//TraceEvent("GrvProxyRate", myID).detail("Rate", rep.transactionRate).detail("BatchRate", rep.batchTransactionRate).detail("Lease", rep.leaseDuration).detail("ReleasedTransactions", *inTransactionCount - lastTC);
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lastTC = *inTransactionCount;
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leaseTimeout = delay(rep.leaseDuration);
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nextRequestTimer = delayJittered(rep.leaseDuration / 2);
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healthMetricsReply->update(rep.healthMetrics, expectingDetailedReply, true);
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if (expectingDetailedReply) {
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detailedHealthMetricsReply->update(rep.healthMetrics, true, true);
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lastDetailedReply = now();
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}
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// Replace our throttles with what was sent by ratekeeper. Because we do this,
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// we are not required to expire tags out of the map
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if (rep.throttledTags.present()) {
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*throttledTags = std::move(rep.throttledTags.get());
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}
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}
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when(wait(leaseTimeout)) {
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transactionRateInfo->disable();
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batchTransactionRateInfo->disable();
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++stats->leaseTimeouts;
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TraceEvent(SevWarn, "GrvProxyRateLeaseExpired", myID).suppressFor(5.0);
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//TraceEvent("GrvProxyRate", myID).detail("Rate", 0.0).detail("BatchRate", 0.0).detail("Lease", 0);
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leaseTimeout = Never();
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}
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}
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}
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// Respond with an error to the GetReadVersion request when the GRV limit is hit.
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void proxyGRVThresholdExceeded(const GetReadVersionRequest* req, GrvProxyStats* stats) {
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++stats->txnRequestErrors;
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req->reply.sendError(proxy_memory_limit_exceeded());
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if (req->priority == TransactionPriority::IMMEDIATE) {
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TraceEvent(SevWarnAlways, "ProxyGRVThresholdExceededSystem").suppressFor(60);
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} else if (req->priority == TransactionPriority::DEFAULT) {
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TraceEvent(SevWarnAlways, "ProxyGRVThresholdExceededDefault").suppressFor(60);
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} else {
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TraceEvent(SevWarnAlways, "ProxyGRVThresholdExceededBatch").suppressFor(60);
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}
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}
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// Drop a GetReadVersion request from a queue, by responding an error to the request.
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void dropRequestFromQueue(Deque<GetReadVersionRequest>* queue, GrvProxyStats* stats) {
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proxyGRVThresholdExceeded(&queue->front(), stats);
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queue->pop_front();
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}
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// Put a GetReadVersion request into the queue corresponding to its priority.
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ACTOR Future<Void> queueGetReadVersionRequests(Reference<AsyncVar<ServerDBInfo> const> db,
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SpannedDeque<GetReadVersionRequest>* systemQueue,
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SpannedDeque<GetReadVersionRequest>* defaultQueue,
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SpannedDeque<GetReadVersionRequest>* batchQueue,
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FutureStream<GetReadVersionRequest> readVersionRequests,
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PromiseStream<Void> GRVTimer,
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double* lastGRVTime,
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double* GRVBatchTime,
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FutureStream<double> normalGRVLatency,
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GrvProxyStats* stats,
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GrvTransactionRateInfo* batchRateInfo,
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TransactionTagMap<uint64_t>* transactionTagCounter) {
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getCurrentLineage()->modify(&TransactionLineage::operation) =
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TransactionLineage::Operation::GetConsistentReadVersion;
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loop choose {
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when(GetReadVersionRequest req = waitNext(readVersionRequests)) {
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// auto lineage = make_scoped_lineage(&TransactionLineage::txID, req.spanContext.first());
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// getCurrentLineage()->modify(&TransactionLineage::txID) =
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// WARNING: this code is run at a high priority, so it needs to do as little work as possible
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bool canBeQueued = true;
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if (stats->txnRequestIn.getValue() - stats->txnRequestOut.getValue() >
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SERVER_KNOBS->START_TRANSACTION_MAX_QUEUE_SIZE) {
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// When the limit is hit, try to drop requests from the lower priority queues.
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if (req.priority == TransactionPriority::BATCH) {
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canBeQueued = false;
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} else if (req.priority == TransactionPriority::DEFAULT) {
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if (!batchQueue->empty()) {
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dropRequestFromQueue(batchQueue, stats);
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--stats->batchGRVQueueSize;
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} else {
|
|
canBeQueued = false;
|
|
}
|
|
} else {
|
|
if (!batchQueue->empty()) {
|
|
dropRequestFromQueue(batchQueue, stats);
|
|
--stats->batchGRVQueueSize;
|
|
} else if (!defaultQueue->empty()) {
|
|
dropRequestFromQueue(defaultQueue, stats);
|
|
--stats->defaultGRVQueueSize;
|
|
} else {
|
|
canBeQueued = false;
|
|
}
|
|
}
|
|
}
|
|
if (!canBeQueued) {
|
|
proxyGRVThresholdExceeded(&req, stats);
|
|
} else {
|
|
stats->addRequest(req.transactionCount);
|
|
// TODO: check whether this is reasonable to do in the fast path
|
|
for (auto tag : req.tags) {
|
|
(*transactionTagCounter)[tag.first] += tag.second;
|
|
}
|
|
|
|
if (req.debugID.present())
|
|
g_traceBatch.addEvent("TransactionDebug",
|
|
req.debugID.get().first(),
|
|
"GrvProxyServer.queueTransactionStartRequests.Before");
|
|
|
|
if (systemQueue->empty() && defaultQueue->empty() && batchQueue->empty()) {
|
|
forwardPromise(GRVTimer,
|
|
delayJittered(std::max(0.0, *GRVBatchTime - (now() - *lastGRVTime)),
|
|
TaskPriority::ProxyGRVTimer));
|
|
}
|
|
|
|
if (req.priority >= TransactionPriority::IMMEDIATE) {
|
|
++stats->txnRequestIn;
|
|
stats->txnStartIn += req.transactionCount;
|
|
stats->txnSystemPriorityStartIn += req.transactionCount;
|
|
++stats->systemGRVQueueSize;
|
|
systemQueue->push_back(req);
|
|
// systemQueue->span.addParent(req.spanContext);
|
|
} else if (req.priority >= TransactionPriority::DEFAULT) {
|
|
++stats->txnRequestIn;
|
|
stats->txnStartIn += req.transactionCount;
|
|
stats->txnDefaultPriorityStartIn += req.transactionCount;
|
|
++stats->defaultGRVQueueSize;
|
|
defaultQueue->push_back(req);
|
|
// defaultQueue->span.addParent(req.spanContext);
|
|
} else {
|
|
// Return error for batch_priority GRV requests
|
|
int64_t proxiesCount = std::max((int)db->get().client.grvProxies.size(), 1);
|
|
if (batchRateInfo->rate <= (1.0 / proxiesCount)) {
|
|
req.reply.sendError(batch_transaction_throttled());
|
|
stats->txnThrottled += req.transactionCount;
|
|
} else {
|
|
++stats->txnRequestIn;
|
|
stats->txnStartIn += req.transactionCount;
|
|
stats->txnBatchPriorityStartIn += req.transactionCount;
|
|
++stats->batchGRVQueueSize;
|
|
batchQueue->push_back(req);
|
|
// batchQueue->span.addParent(req.spanContext);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
// dynamic batching monitors reply latencies
|
|
when(double reply_latency = waitNext(normalGRVLatency)) {
|
|
double target_latency = reply_latency * SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_LATENCY_FRACTION;
|
|
*GRVBatchTime = std::max(
|
|
SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_MIN,
|
|
std::min(SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_MAX,
|
|
target_latency * SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_SMOOTHER_ALPHA +
|
|
*GRVBatchTime * (1 - SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_SMOOTHER_ALPHA)));
|
|
}
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> updateLastCommit(GrvProxyData* self, Optional<UID> debugID = Optional<UID>()) {
|
|
state double confirmStart = now();
|
|
self->lastStartCommit = confirmStart;
|
|
self->updateCommitRequests++;
|
|
wait(self->logSystem->confirmEpochLive(debugID));
|
|
self->updateCommitRequests--;
|
|
self->lastCommitLatency = now() - confirmStart;
|
|
self->lastCommitTime = std::max(self->lastCommitTime.get(), confirmStart);
|
|
return Void();
|
|
}
|
|
|
|
ACTOR Future<Void> lastCommitUpdater(GrvProxyData* self, PromiseStream<Future<Void>> addActor) {
|
|
loop {
|
|
double interval = std::max(SERVER_KNOBS->MIN_CONFIRM_INTERVAL,
|
|
(SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION - self->lastCommitLatency) / 2.0);
|
|
double elapsed = now() - self->lastStartCommit;
|
|
if (elapsed < interval) {
|
|
wait(delay(interval + 0.0001 - elapsed));
|
|
} else {
|
|
// May want to change the default value of MAX_COMMIT_UPDATES since we don't have
|
|
if (self->updateCommitRequests < SERVER_KNOBS->MAX_COMMIT_UPDATES) {
|
|
addActor.send(updateLastCommit(self));
|
|
} else {
|
|
TraceEvent(g_network->isSimulated() ? SevInfo : SevWarnAlways, "TooManyLastCommitUpdates")
|
|
.suppressFor(1.0);
|
|
self->lastStartCommit = now();
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
ACTOR Future<GetReadVersionReply> getLiveCommittedVersion(SpanID parentSpan,
|
|
GrvProxyData* grvProxyData,
|
|
uint32_t flags,
|
|
Optional<UID> debugID,
|
|
int transactionCount,
|
|
int systemTransactionCount,
|
|
int defaultPriTransactionCount,
|
|
int batchPriTransactionCount) {
|
|
// Returns a version which (1) is committed, and (2) is >= the latest version reported committed (by a commit
|
|
// response) when this request was sent (1) The version returned is the committedVersion of some proxy at some point
|
|
// before the request returns, so it is committed. (2) No proxy on our list reported committed a higher version
|
|
// before this request was received, because then its committedVersion would have been higher,
|
|
// and no other proxy could have already committed anything without first ending the epoch
|
|
state Span span("GP:getLiveCommittedVersion"_loc, parentSpan);
|
|
++grvProxyData->stats.txnStartBatch;
|
|
|
|
state double grvStart = now();
|
|
state Future<GetRawCommittedVersionReply> replyFromMasterFuture;
|
|
replyFromMasterFuture = grvProxyData->master.getLiveCommittedVersion.getReply(
|
|
GetRawCommittedVersionRequest(span.context, debugID), TaskPriority::GetLiveCommittedVersionReply);
|
|
|
|
if (!SERVER_KNOBS->ALWAYS_CAUSAL_READ_RISKY && !(flags & GetReadVersionRequest::FLAG_CAUSAL_READ_RISKY)) {
|
|
wait(updateLastCommit(grvProxyData, debugID));
|
|
} else if (SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION > 0 &&
|
|
now() - SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION > grvProxyData->lastCommitTime.get()) {
|
|
wait(grvProxyData->lastCommitTime.whenAtLeast(now() - SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION));
|
|
}
|
|
|
|
state double grvConfirmEpochLive = now();
|
|
grvProxyData->stats.grvConfirmEpochLiveDist->sampleSeconds(grvConfirmEpochLive - grvStart);
|
|
if (debugID.present()) {
|
|
g_traceBatch.addEvent(
|
|
"TransactionDebug", debugID.get().first(), "GrvProxyServer.getLiveCommittedVersion.confirmEpochLive");
|
|
}
|
|
|
|
GetRawCommittedVersionReply repFromMaster = wait(replyFromMasterFuture);
|
|
grvProxyData->minKnownCommittedVersion =
|
|
std::max(grvProxyData->minKnownCommittedVersion, repFromMaster.minKnownCommittedVersion);
|
|
|
|
grvProxyData->stats.grvGetCommittedVersionRpcDist->sampleSeconds(now() - grvConfirmEpochLive);
|
|
GetReadVersionReply rep;
|
|
rep.version = repFromMaster.version;
|
|
rep.locked = repFromMaster.locked;
|
|
rep.metadataVersion = repFromMaster.metadataVersion;
|
|
rep.processBusyTime =
|
|
FLOW_KNOBS->BASIC_LOAD_BALANCE_COMPUTE_PRECISION *
|
|
std::min((std::numeric_limits<int>::max() / FLOW_KNOBS->BASIC_LOAD_BALANCE_COMPUTE_PRECISION) - 1,
|
|
grvProxyData->stats.getRecentRequests());
|
|
rep.processBusyTime += FLOW_KNOBS->BASIC_LOAD_BALANCE_COMPUTE_PRECISION *
|
|
(g_network->isSimulated() ? deterministicRandom()->random01()
|
|
: g_network->networkInfo.metrics.lastRunLoopBusyness);
|
|
|
|
if (debugID.present()) {
|
|
g_traceBatch.addEvent(
|
|
"TransactionDebug", debugID.get().first(), "GrvProxyServer.getLiveCommittedVersion.After");
|
|
}
|
|
|
|
grvProxyData->stats.txnStartOut += transactionCount;
|
|
grvProxyData->stats.txnSystemPriorityStartOut += systemTransactionCount;
|
|
grvProxyData->stats.txnDefaultPriorityStartOut += defaultPriTransactionCount;
|
|
grvProxyData->stats.txnBatchPriorityStartOut += batchPriTransactionCount;
|
|
|
|
return rep;
|
|
}
|
|
|
|
// Returns the current read version (or minimum known committed version if requested),
|
|
// to each request in the provided list. Also check if the request should be throttled.
|
|
// Update GRV statistics according to the request's priority.
|
|
ACTOR Future<Void> sendGrvReplies(Future<GetReadVersionReply> replyFuture,
|
|
std::vector<GetReadVersionRequest> requests,
|
|
GrvProxyStats* stats,
|
|
Version minKnownCommittedVersion,
|
|
PrioritizedTransactionTagMap<ClientTagThrottleLimits> throttledTags,
|
|
int64_t midShardSize = 0) {
|
|
GetReadVersionReply _reply = wait(replyFuture);
|
|
GetReadVersionReply reply = _reply;
|
|
Version replyVersion = reply.version;
|
|
|
|
double end = g_network->timer();
|
|
for (GetReadVersionRequest const& request : requests) {
|
|
double duration = end - request.requestTime();
|
|
if (request.priority == TransactionPriority::BATCH) {
|
|
stats->grvBatchLatencySample.addMeasurement(duration);
|
|
}
|
|
|
|
if (request.priority == TransactionPriority::DEFAULT) {
|
|
stats->grvLatencySample.addMeasurement(duration);
|
|
}
|
|
|
|
if (request.priority >= TransactionPriority::DEFAULT) {
|
|
stats->grvLatencyBands.addMeasurement(duration);
|
|
}
|
|
|
|
if (request.flags & GetReadVersionRequest::FLAG_USE_MIN_KNOWN_COMMITTED_VERSION) {
|
|
// Only backup worker may infrequently use this flag.
|
|
reply.version = minKnownCommittedVersion;
|
|
} else {
|
|
reply.version = replyVersion;
|
|
}
|
|
reply.midShardSize = midShardSize;
|
|
reply.tagThrottleInfo.clear();
|
|
|
|
if (!request.tags.empty()) {
|
|
auto& priorityThrottledTags = throttledTags[request.priority];
|
|
for (auto tag : request.tags) {
|
|
auto tagItr = priorityThrottledTags.find(tag.first);
|
|
if (tagItr != priorityThrottledTags.end()) {
|
|
if (tagItr->second.expiration > now()) {
|
|
if (tagItr->second.tpsRate == std::numeric_limits<double>::max()) {
|
|
TEST(true); // Auto TPS rate is unlimited
|
|
} else {
|
|
TEST(true); // GRV proxy returning tag throttle
|
|
reply.tagThrottleInfo[tag.first] = tagItr->second;
|
|
}
|
|
} else {
|
|
// This isn't required, but we might as well
|
|
TEST(true); // GRV proxy expiring tag throttle
|
|
priorityThrottledTags.erase(tagItr);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
if (stats->lastBatchQueueThrottled) {
|
|
// Check if this throttling has been sustained for a certain amount of time to avoid false positives
|
|
if (now() - stats->batchThrottleStartTime > CLIENT_KNOBS->GRV_SUSTAINED_THROTTLING_THRESHOLD) {
|
|
reply.rkBatchThrottled = true;
|
|
}
|
|
}
|
|
if (stats->lastDefaultQueueThrottled) {
|
|
// Check if this throttling has been sustained for a certain amount of time to avoid false positives
|
|
if (now() - stats->defaultThrottleStartTime > CLIENT_KNOBS->GRV_SUSTAINED_THROTTLING_THRESHOLD) {
|
|
// Consider the batch queue throttled if the default is throttled
|
|
// to deal with a potential lull in activity for that priority.
|
|
// Avoids mistakenly thinking batch is unthrottled while default is still throttled.
|
|
reply.rkBatchThrottled = true;
|
|
reply.rkDefaultThrottled = true;
|
|
}
|
|
}
|
|
request.reply.send(reply);
|
|
++stats->txnRequestOut;
|
|
}
|
|
|
|
return Void();
|
|
}
|
|
|
|
ACTOR Future<Void> monitorDDMetricsChanges(int64_t* midShardSize, Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
state Future<Void> nextRequestTimer = Never();
|
|
state Future<GetDataDistributorMetricsReply> nextReply = Never();
|
|
|
|
if (db->get().distributor.present())
|
|
nextRequestTimer = Void();
|
|
loop {
|
|
try {
|
|
choose {
|
|
when(wait(db->onChange())) {
|
|
if (db->get().distributor.present()) {
|
|
TraceEvent("DataDistributorChanged", db->get().id)
|
|
.detail("DDID", db->get().distributor.get().id());
|
|
nextRequestTimer = Void();
|
|
} else {
|
|
TraceEvent("DataDistributorDied", db->get().id);
|
|
nextRequestTimer = Never();
|
|
}
|
|
nextReply = Never();
|
|
}
|
|
when(wait(nextRequestTimer)) {
|
|
nextRequestTimer = Never();
|
|
if (db->get().distributor.present()) {
|
|
nextReply = brokenPromiseToNever(db->get().distributor.get().dataDistributorMetrics.getReply(
|
|
GetDataDistributorMetricsRequest(normalKeys, CLIENT_KNOBS->TOO_MANY, true)));
|
|
} else
|
|
nextReply = Never();
|
|
}
|
|
when(GetDataDistributorMetricsReply reply = wait(nextReply)) {
|
|
nextReply = Never();
|
|
ASSERT(reply.midShardSize.present());
|
|
*midShardSize = reply.midShardSize.get();
|
|
nextRequestTimer = delay(CLIENT_KNOBS->MID_SHARD_SIZE_MAX_STALENESS);
|
|
}
|
|
}
|
|
} catch (Error& e) {
|
|
TraceEvent("DDMidShardSizeUpdateFail").error(e);
|
|
if (e.code() != error_code_timed_out && e.code() != error_code_dd_not_found)
|
|
throw;
|
|
nextRequestTimer = delay(CLIENT_KNOBS->MID_SHARD_SIZE_MAX_STALENESS);
|
|
nextReply = Never();
|
|
}
|
|
}
|
|
}
|
|
|
|
ACTOR static Future<Void> transactionStarter(GrvProxyInterface proxy,
|
|
Reference<AsyncVar<ServerDBInfo> const> db,
|
|
PromiseStream<Future<Void>> addActor,
|
|
GrvProxyData* grvProxyData,
|
|
GetHealthMetricsReply* healthMetricsReply,
|
|
GetHealthMetricsReply* detailedHealthMetricsReply) {
|
|
state double lastGRVTime = 0;
|
|
state PromiseStream<Void> GRVTimer;
|
|
state double GRVBatchTime = SERVER_KNOBS->START_TRANSACTION_BATCH_INTERVAL_MIN;
|
|
|
|
state int64_t transactionCount = 0;
|
|
state int64_t batchTransactionCount = 0;
|
|
state GrvTransactionRateInfo normalRateInfo(10);
|
|
state GrvTransactionRateInfo batchRateInfo(0);
|
|
|
|
state SpannedDeque<GetReadVersionRequest> systemQueue("GP:transactionStarterSystemQueue"_loc);
|
|
state SpannedDeque<GetReadVersionRequest> defaultQueue("GP:transactionStarterDefaultQueue"_loc);
|
|
state SpannedDeque<GetReadVersionRequest> batchQueue("GP:transactionStarterBatchQueue"_loc);
|
|
|
|
state TransactionTagMap<uint64_t> transactionTagCounter;
|
|
state PrioritizedTransactionTagMap<ClientTagThrottleLimits> throttledTags;
|
|
|
|
state PromiseStream<double> normalGRVLatency;
|
|
// state Span span;
|
|
|
|
state int64_t midShardSize = SERVER_KNOBS->MIN_SHARD_BYTES;
|
|
getCurrentLineage()->modify(&TransactionLineage::operation) =
|
|
TransactionLineage::Operation::GetConsistentReadVersion;
|
|
addActor.send(monitorDDMetricsChanges(&midShardSize, db));
|
|
|
|
addActor.send(getRate(proxy.id(),
|
|
db,
|
|
&transactionCount,
|
|
&batchTransactionCount,
|
|
&normalRateInfo,
|
|
&batchRateInfo,
|
|
healthMetricsReply,
|
|
detailedHealthMetricsReply,
|
|
&transactionTagCounter,
|
|
&throttledTags,
|
|
&grvProxyData->stats));
|
|
addActor.send(queueGetReadVersionRequests(db,
|
|
&systemQueue,
|
|
&defaultQueue,
|
|
&batchQueue,
|
|
proxy.getConsistentReadVersion.getFuture(),
|
|
GRVTimer,
|
|
&lastGRVTime,
|
|
&GRVBatchTime,
|
|
normalGRVLatency.getFuture(),
|
|
&grvProxyData->stats,
|
|
&batchRateInfo,
|
|
&transactionTagCounter));
|
|
|
|
while (std::find(db->get().client.grvProxies.begin(), db->get().client.grvProxies.end(), proxy) ==
|
|
db->get().client.grvProxies.end()) {
|
|
wait(db->onChange());
|
|
}
|
|
|
|
ASSERT(db->get().recoveryState >=
|
|
RecoveryState::ACCEPTING_COMMITS); // else potentially we could return uncommitted read versions from master.
|
|
TraceEvent("GrvProxyReadyForTxnStarts", proxy.id());
|
|
|
|
loop {
|
|
waitNext(GRVTimer.getFuture());
|
|
// Select zero or more transactions to start
|
|
double t = now();
|
|
double elapsed = now() - lastGRVTime;
|
|
lastGRVTime = t;
|
|
|
|
// Resolve a possible indeterminate multiplication with infinite transaction rate
|
|
if (elapsed == 0) {
|
|
elapsed = 1e-15;
|
|
}
|
|
|
|
normalRateInfo.reset();
|
|
batchRateInfo.reset();
|
|
|
|
grvProxyData->stats.transactionLimit = normalRateInfo.limit;
|
|
grvProxyData->stats.batchTransactionLimit = batchRateInfo.limit;
|
|
|
|
int transactionsStarted[2] = { 0, 0 };
|
|
int systemTransactionsStarted[2] = { 0, 0 };
|
|
int defaultPriTransactionsStarted[2] = { 0, 0 };
|
|
int batchPriTransactionsStarted[2] = { 0, 0 };
|
|
|
|
std::vector<std::vector<GetReadVersionRequest>> start(
|
|
2); // start[0] is transactions starting with !(flags&CAUSAL_READ_RISKY), start[1] is transactions starting
|
|
// with flags&CAUSAL_READ_RISKY
|
|
Optional<UID> debugID;
|
|
|
|
int requestsToStart = 0;
|
|
|
|
uint32_t defaultQueueSize = defaultQueue.size();
|
|
uint32_t batchQueueSize = batchQueue.size();
|
|
while (requestsToStart < SERVER_KNOBS->START_TRANSACTION_MAX_REQUESTS_TO_START) {
|
|
SpannedDeque<GetReadVersionRequest>* transactionQueue;
|
|
if (!systemQueue.empty()) {
|
|
transactionQueue = &systemQueue;
|
|
} else if (!defaultQueue.empty()) {
|
|
transactionQueue = &defaultQueue;
|
|
} else if (!batchQueue.empty()) {
|
|
transactionQueue = &batchQueue;
|
|
} else {
|
|
break;
|
|
}
|
|
// transactionQueue->span.swap(span);
|
|
|
|
auto& req = transactionQueue->front();
|
|
int tc = req.transactionCount;
|
|
|
|
if (req.priority < TransactionPriority::DEFAULT &&
|
|
!batchRateInfo.canStart(transactionsStarted[0] + transactionsStarted[1], tc)) {
|
|
break;
|
|
} else if (req.priority < TransactionPriority::IMMEDIATE &&
|
|
!normalRateInfo.canStart(transactionsStarted[0] + transactionsStarted[1], tc)) {
|
|
break;
|
|
}
|
|
|
|
if (req.debugID.present()) {
|
|
if (!debugID.present())
|
|
debugID = nondeterministicRandom()->randomUniqueID();
|
|
g_traceBatch.addAttach("TransactionAttachID", req.debugID.get().first(), debugID.get().first());
|
|
}
|
|
|
|
transactionsStarted[req.flags & 1] += tc;
|
|
double currentTime = g_network->timer();
|
|
if (req.priority >= TransactionPriority::IMMEDIATE) {
|
|
systemTransactionsStarted[req.flags & 1] += tc;
|
|
--grvProxyData->stats.systemGRVQueueSize;
|
|
} else if (req.priority >= TransactionPriority::DEFAULT) {
|
|
defaultPriTransactionsStarted[req.flags & 1] += tc;
|
|
grvProxyData->stats.defaultTxnGRVTimeInQueue.addMeasurement(currentTime - req.requestTime());
|
|
--grvProxyData->stats.defaultGRVQueueSize;
|
|
} else {
|
|
batchPriTransactionsStarted[req.flags & 1] += tc;
|
|
grvProxyData->stats.batchTxnGRVTimeInQueue.addMeasurement(currentTime - req.requestTime());
|
|
--grvProxyData->stats.batchGRVQueueSize;
|
|
}
|
|
start[req.flags & 1].push_back(std::move(req));
|
|
static_assert(GetReadVersionRequest::FLAG_CAUSAL_READ_RISKY == 1, "Implementation dependent on flag value");
|
|
transactionQueue->pop_front();
|
|
requestsToStart++;
|
|
}
|
|
if (!batchQueue.empty()) {
|
|
if (!grvProxyData->stats.lastBatchQueueThrottled) {
|
|
grvProxyData->stats.lastBatchQueueThrottled = true;
|
|
grvProxyData->stats.batchThrottleStartTime = now();
|
|
}
|
|
} else {
|
|
grvProxyData->stats.lastBatchQueueThrottled = false;
|
|
}
|
|
if (!defaultQueue.empty()) {
|
|
if (!grvProxyData->stats.lastDefaultQueueThrottled) {
|
|
grvProxyData->stats.lastDefaultQueueThrottled = true;
|
|
grvProxyData->stats.defaultThrottleStartTime = now();
|
|
}
|
|
} else {
|
|
grvProxyData->stats.lastDefaultQueueThrottled = false;
|
|
}
|
|
|
|
if (!systemQueue.empty() || !defaultQueue.empty() || !batchQueue.empty()) {
|
|
forwardPromise(
|
|
GRVTimer,
|
|
delayJittered(SERVER_KNOBS->START_TRANSACTION_BATCH_QUEUE_CHECK_INTERVAL, TaskPriority::ProxyGRVTimer));
|
|
}
|
|
|
|
/*TraceEvent("GRVBatch", proxy.id())
|
|
.detail("Elapsed", elapsed)
|
|
.detail("NTransactionToStart", nTransactionsToStart)
|
|
.detail("TransactionRate", transactionRate)
|
|
.detail("TransactionQueueSize", transactionQueue.size())
|
|
.detail("NumTransactionsStarted", transactionsStarted[0] + transactionsStarted[1])
|
|
.detail("NumSystemTransactionsStarted", systemTransactionsStarted[0] + systemTransactionsStarted[1])
|
|
.detail("NumNonSystemTransactionsStarted", transactionsStarted[0] + transactionsStarted[1] -
|
|
systemTransactionsStarted[0] - systemTransactionsStarted[1])
|
|
.detail("TransactionBudget", transactionBudget)
|
|
.detail("BatchTransactionBudget", batchTransactionBudget);*/
|
|
|
|
int systemTotalStarted = systemTransactionsStarted[0] + systemTransactionsStarted[1];
|
|
int normalTotalStarted = defaultPriTransactionsStarted[0] + defaultPriTransactionsStarted[1];
|
|
int batchTotalStarted = batchPriTransactionsStarted[0] + batchPriTransactionsStarted[1];
|
|
|
|
transactionCount += transactionsStarted[0] + transactionsStarted[1];
|
|
batchTransactionCount += batchTotalStarted;
|
|
|
|
normalRateInfo.updateBudget(
|
|
systemTotalStarted + normalTotalStarted, systemQueue.empty() && defaultQueue.empty(), elapsed);
|
|
batchRateInfo.updateBudget(systemTotalStarted + normalTotalStarted + batchTotalStarted,
|
|
systemQueue.empty() && defaultQueue.empty() && batchQueue.empty(),
|
|
elapsed);
|
|
|
|
if (debugID.present()) {
|
|
g_traceBatch.addEvent("TransactionDebug",
|
|
debugID.get().first(),
|
|
"GrvProxyServer.transactionStarter.AskLiveCommittedVersionFromMaster");
|
|
}
|
|
|
|
int defaultGRVProcessed = 0;
|
|
int batchGRVProcessed = 0;
|
|
for (int i = 0; i < start.size(); i++) {
|
|
if (start[i].size()) {
|
|
Future<GetReadVersionReply> readVersionReply = getLiveCommittedVersion(UID() /*span.context*/,
|
|
grvProxyData,
|
|
i,
|
|
debugID,
|
|
transactionsStarted[i],
|
|
systemTransactionsStarted[i],
|
|
defaultPriTransactionsStarted[i],
|
|
batchPriTransactionsStarted[i]);
|
|
addActor.send(sendGrvReplies(readVersionReply,
|
|
start[i],
|
|
&grvProxyData->stats,
|
|
grvProxyData->minKnownCommittedVersion,
|
|
throttledTags,
|
|
midShardSize));
|
|
|
|
// Use normal priority transaction's GRV latency to dynamically calculate transaction batching interval.
|
|
if (i == 0) {
|
|
addActor.send(timeReply(readVersionReply, normalGRVLatency));
|
|
}
|
|
defaultGRVProcessed += defaultPriTransactionsStarted[i];
|
|
batchGRVProcessed += batchPriTransactionsStarted[i];
|
|
}
|
|
}
|
|
// span = Span(span.location);
|
|
|
|
grvProxyData->stats.percentageOfDefaultGRVQueueProcessed =
|
|
defaultQueueSize ? (double)defaultGRVProcessed / defaultQueueSize : 1;
|
|
grvProxyData->stats.percentageOfBatchGRVQueueProcessed =
|
|
batchQueueSize ? (double)batchGRVProcessed / batchQueueSize : 1;
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> grvProxyServerCore(GrvProxyInterface proxy,
|
|
MasterInterface master,
|
|
LifetimeToken masterLifetime,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
state GrvProxyData grvProxyData(proxy.id(), master, proxy.getConsistentReadVersion, db);
|
|
|
|
state PromiseStream<Future<Void>> addActor;
|
|
state Future<Void> onError = transformError(actorCollection(addActor.getFuture()), broken_promise(), tlog_failed());
|
|
|
|
state GetHealthMetricsReply healthMetricsReply;
|
|
state GetHealthMetricsReply detailedHealthMetricsReply;
|
|
|
|
addActor.send(waitFailureServer(proxy.waitFailure.getFuture()));
|
|
addActor.send(traceRole(Role::GRV_PROXY, proxy.id()));
|
|
|
|
TraceEvent("GrvProxyServerCore", proxy.id())
|
|
.detail("MasterId", master.id())
|
|
.detail("MasterLifetime", masterLifetime.toString())
|
|
.detail("RecoveryCount", db->get().recoveryCount);
|
|
|
|
// Wait until we can load the "real" logsystem, since we don't support switching them currently
|
|
while (!(masterLifetime.isEqual(grvProxyData.db->get().masterLifetime) &&
|
|
grvProxyData.db->get().recoveryState >= RecoveryState::ACCEPTING_COMMITS)) {
|
|
wait(grvProxyData.db->onChange());
|
|
}
|
|
// Do we need to wait for any db info change? Yes. To update latency band.
|
|
state Future<Void> dbInfoChange = grvProxyData.db->onChange();
|
|
grvProxyData.logSystem = ILogSystem::fromServerDBInfo(proxy.id(), grvProxyData.db->get(), false, addActor);
|
|
|
|
grvProxyData.updateLatencyBandConfig(grvProxyData.db->get().latencyBandConfig);
|
|
|
|
addActor.send(transactionStarter(
|
|
proxy, grvProxyData.db, addActor, &grvProxyData, &healthMetricsReply, &detailedHealthMetricsReply));
|
|
addActor.send(healthMetricsRequestServer(proxy, &healthMetricsReply, &detailedHealthMetricsReply));
|
|
|
|
if (SERVER_KNOBS->REQUIRED_MIN_RECOVERY_DURATION > 0) {
|
|
addActor.send(lastCommitUpdater(&grvProxyData, addActor));
|
|
}
|
|
|
|
loop choose {
|
|
when(wait(dbInfoChange)) {
|
|
dbInfoChange = grvProxyData.db->onChange();
|
|
|
|
if (masterLifetime.isEqual(grvProxyData.db->get().masterLifetime) &&
|
|
grvProxyData.db->get().recoveryState >= RecoveryState::RECOVERY_TRANSACTION) {
|
|
grvProxyData.logSystem =
|
|
ILogSystem::fromServerDBInfo(proxy.id(), grvProxyData.db->get(), false, addActor);
|
|
}
|
|
grvProxyData.updateLatencyBandConfig(grvProxyData.db->get().latencyBandConfig);
|
|
}
|
|
when(wait(onError)) {}
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> checkRemoved(Reference<AsyncVar<ServerDBInfo> const> db,
|
|
uint64_t recoveryCount,
|
|
GrvProxyInterface myInterface) {
|
|
loop {
|
|
if (db->get().recoveryCount >= recoveryCount &&
|
|
!std::count(db->get().client.grvProxies.begin(), db->get().client.grvProxies.end(), myInterface)) {
|
|
throw worker_removed();
|
|
}
|
|
wait(db->onChange());
|
|
}
|
|
}
|
|
|
|
ACTOR Future<Void> grvProxyServer(GrvProxyInterface proxy,
|
|
InitializeGrvProxyRequest req,
|
|
Reference<AsyncVar<ServerDBInfo> const> db) {
|
|
try {
|
|
state Future<Void> core = grvProxyServerCore(proxy, req.master, req.masterLifetime, db);
|
|
wait(core || checkRemoved(db, req.recoveryCount, proxy));
|
|
} catch (Error& e) {
|
|
TraceEvent("GrvProxyTerminated", proxy.id()).errorUnsuppressed(e);
|
|
|
|
if (e.code() != error_code_worker_removed && e.code() != error_code_tlog_stopped &&
|
|
e.code() != error_code_tlog_failed && e.code() != error_code_coordinators_changed &&
|
|
e.code() != error_code_coordinated_state_conflict && e.code() != error_code_new_coordinators_timed_out) {
|
|
throw;
|
|
}
|
|
}
|
|
return Void();
|
|
}
|