515 lines
16 KiB
C++
515 lines
16 KiB
C++
/*
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* MetricLogger.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 2013-2018 Apple Inc. and the FoundationDB project authors
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <cmath>
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#include "flow/UnitTest.h"
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#include "flow/TDMetric.actor.h"
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#include "fdbclient/DatabaseContext.h"
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#include "fdbclient/ReadYourWrites.h"
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#include "fdbclient/KeyBackedTypes.h"
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#include "fdbserver/MetricLogger.actor.h"
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#include "flow/actorcompiler.h" // This must be the last #include.
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struct MetricsRule {
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MetricsRule(bool enabled = false, int minLevel = 0, StringRef const& name = StringRef())
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: namePattern(name), enabled(enabled), minLevel(minLevel) {}
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Standalone<StringRef> typePattern;
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Standalone<StringRef> namePattern;
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Standalone<StringRef> addressPattern;
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Standalone<StringRef> idPattern;
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bool enabled;
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int minLevel;
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Tuple pack() const {
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return Tuple()
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.append(namePattern)
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.append(typePattern)
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.append(addressPattern)
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.append(idPattern)
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.append(enabled ? 1 : 0)
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.append(minLevel);
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}
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static inline MetricsRule unpack(Tuple const& t) {
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MetricsRule r;
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int i = 0;
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if (i < t.size())
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r.namePattern = t.getString(i++);
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if (i < t.size())
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r.typePattern = t.getString(i++);
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if (i < t.size())
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r.addressPattern = t.getString(i++);
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if (i < t.size())
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r.idPattern = t.getString(i++);
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if (i < t.size())
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r.enabled = t.getInt(i++) != 0;
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if (i < t.size())
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r.minLevel = (int)t.getInt(i++);
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return r;
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}
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// For now this just returns true if pat is in subject. Returns true if pat is empty.
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// TODO: Support more complex patterns?
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static inline bool patternMatch(StringRef const& pat, StringRef const& subject) {
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if (pat.size() == 0)
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return true;
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for (int i = 0, iend = subject.size() - pat.size() + 1; i < iend; ++i)
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if (subject.substr(i, pat.size()) == pat)
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return true;
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return false;
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}
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bool applyTo(BaseMetric* m, StringRef const& address) const {
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if (!patternMatch(addressPattern, address))
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return false;
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if (!patternMatch(namePattern, m->metricName.name))
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return false;
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if (!patternMatch(typePattern, m->metricName.type))
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return false;
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if (!patternMatch(idPattern, m->metricName.id))
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return false;
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m->setConfig(enabled, minLevel);
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return true;
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}
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};
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struct MetricsConfig {
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MetricsConfig(Key prefix = KeyRef())
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: space(prefix), ruleMap(space.get(LiteralStringRef("Rules")).key()),
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addressMap(space.get(LiteralStringRef("Enum")).get(LiteralStringRef("Address")).key()),
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nameAndTypeMap(space.get(LiteralStringRef("Enum")).get(LiteralStringRef("NameType")).key()),
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ruleChangeKey(space.get(LiteralStringRef("RulesChanged")).key()),
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enumsChangeKey(space.get(LiteralStringRef("EnumsChanged")).key()),
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fieldChangeKey(space.get(LiteralStringRef("FieldsChanged")).key()) {}
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Subspace space;
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typedef KeyBackedMap<int64_t, MetricsRule> RuleMapT;
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RuleMapT ruleMap;
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RuleMapT::PairsType rules;
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KeyBackedMap<Key, int64_t> addressMap;
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KeyBackedMap<std::pair<Key, Key>, int64_t> nameAndTypeMap;
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Key ruleChangeKey;
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Key enumsChangeKey;
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Key fieldChangeKey;
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};
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/*
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Rule Updater:
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For now:
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Read and store all rules locally.
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For each metric
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Disable the metric
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For each rule in reverse order, apply the rule to the metric and stop if it returns true
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Wait for rule change, repeat.
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If this gets too slow, yields can be added but at the cost of potentially missing a few data points
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because a metric was disabled and not yet re-enabled before it was logged.
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Or, rules and metrics can be stored for more efficient matching and rule updates can be applied
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differentially.
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Read all rules, store latest version
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Clear all configs for each registered metric
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For each rule in order,
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Efficiently select matching metrics and set config
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Loop
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Wait for rule change
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If rule version skipped, go back to start of rule updater
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Read only new rules.
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For each new rule, in order
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Remove any old rules that new rule completely covers
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Efficiently select matching metrics and set config
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Go back to wait for rule change
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*/
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ACTOR Future<Void> metricRuleUpdater(Database cx, MetricsConfig* config, TDMetricCollection* collection) {
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state Reference<ReadYourWritesTransaction> tr(new ReadYourWritesTransaction(cx));
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loop {
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state Future<Void> newMetric = collection->metricAdded.onTrigger();
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try {
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tr->setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
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MetricsConfig::RuleMapT::PairsType rules = wait(config->ruleMap.getRange(tr, 0, {}, 1e6));
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for (auto& it : collection->metricMap) {
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it.value->setConfig(false);
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for (auto i = rules.rbegin(); !(i == rules.rend()); ++i)
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if (i->second.applyTo(it.value.getPtr(), collection->address))
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break;
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}
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config->rules = std::move(rules);
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state Future<Void> rulesChanged = tr->watch(config->ruleChangeKey);
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wait(tr->commit());
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wait(rulesChanged || newMetric);
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tr->reset();
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} catch (Error& e) {
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wait(tr->onError(e));
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}
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}
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}
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// Implementation of IMetricDB
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class MetricDB : public IMetricDB {
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public:
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MetricDB(ReadYourWritesTransaction* tr = nullptr) : tr(tr) {}
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~MetricDB() override {}
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// levelKey is the prefix for the entire level, no timestamp at the end
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ACTOR static Future<Optional<Standalone<StringRef>>> getLastBlock_impl(ReadYourWritesTransaction* tr,
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Standalone<StringRef> levelKey) {
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RangeResult results = wait(tr->getRange(normalKeys.withPrefix(levelKey), 1, Snapshot::True, Reverse::True));
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if (results.size() == 1)
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return results[0].value;
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return Optional<Standalone<StringRef>>();
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}
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Future<Optional<Standalone<StringRef>>> getLastBlock(Standalone<StringRef> key) override {
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return getLastBlock_impl(tr, key);
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}
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ReadYourWritesTransaction* tr;
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};
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ACTOR Future<Void> dumpMetrics(Database cx, MetricsConfig* config, TDMetricCollection* collection) {
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state MetricUpdateBatch batch;
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state Standalone<MetricKeyRef> mk;
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ASSERT(collection != nullptr);
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mk.prefix = StringRef(mk.arena(), config->space.key());
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mk.address = StringRef(mk.arena(), collection->address);
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loop {
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batch.clear();
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uint64_t rollTime = std::numeric_limits<uint64_t>::max();
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if (collection->rollTimes.size()) {
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rollTime = collection->rollTimes.front();
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collection->rollTimes.pop_front();
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}
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// Are any metrics enabled?
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state bool enabled = false;
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// Flush data for each metric, track if any are enabled.
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for (auto& it : collection->metricMap) {
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// If this metric was ever enabled at all then flush it
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if (it.value->pCollection != nullptr) {
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mk.name = it.value->metricName;
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it.value->flushData(mk, rollTime, batch);
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}
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enabled = enabled || it.value->enabled;
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}
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if (rollTime == std::numeric_limits<uint64_t>::max()) {
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collection->currentTimeBytes = 0;
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}
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state ReadYourWritesTransaction cbtr(cx);
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state MetricDB mdb(&cbtr);
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state std::map<int, Future<Void>> results;
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// Call all of the callbacks, map each index to its resulting future
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for (int i = 0, iend = batch.callbacks.size(); i < iend; ++i)
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results[i] = batch.callbacks[i](&mdb, &batch);
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loop {
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state std::map<int, Future<Void>>::iterator cb = results.begin();
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// Wait for each future, return the ones that succeeded
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state Error lastError;
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while (cb != results.end()) {
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try {
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wait(cb->second);
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cb = results.erase(cb);
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} catch (Error& e) {
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++cb;
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lastError = e;
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}
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}
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// If all the callbacks completed then we're done.
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if (results.empty())
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break;
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// Otherwise, wait to retry
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wait(cbtr.onError(lastError));
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for (auto& cb : results)
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cb.second = batch.callbacks[cb.first](&mdb, &batch);
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}
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// If there are more rolltimes then next dump is now, otherwise if no metrics are enabled then it is
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// whenever the next metric is enabled but if there are metrics enabled then it is in 1 second.
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state Future<Void> nextDump;
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if (collection->rollTimes.size() > 0)
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nextDump = Void();
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else {
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nextDump = collection->metricEnabled.onTrigger();
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if (enabled)
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nextDump = nextDump || delay(1.0);
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}
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state Transaction tr(cx);
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loop {
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tr.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
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try {
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for (auto& i : batch.inserts) {
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// fprintf(stderr, "%s: dump insert: %s\n", collection->address.toString().c_str(),
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// printable(allInsertions[i].key).c_str());
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tr.set(i.key, i.value());
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}
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for (auto& a : batch.appends) {
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// fprintf(stderr, "%s: dump append: %s\n", collection->address.toString().c_str(),
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// printable(allAppends[i].key).c_str());
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tr.atomicOp(a.key, a.value(), MutationRef::AppendIfFits);
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}
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for (auto& u : batch.updates) {
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// fprintf(stderr, "%s: dump update: %s\n", collection->address.toString().c_str(),
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// printable(allUpdates[i].first).c_str());
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tr.set(u.first, u.second);
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}
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wait(tr.commit());
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break;
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} catch (Error& e) {
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wait(tr.onError(e));
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}
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}
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wait(nextDump);
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}
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}
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// Push metric field registrations to database.
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ACTOR Future<Void> updateMetricRegistration(Database cx, MetricsConfig* config, TDMetricCollection* collection) {
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state Standalone<MetricKeyRef> mk;
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mk.prefix = StringRef(mk.arena(), config->space.key());
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mk.address = StringRef(mk.arena(), collection->address);
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state bool addressRegistered = false;
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loop {
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state Future<Void> registrationChange = collection->metricRegistrationChanged.onTrigger();
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state Future<Void> newMetric = collection->metricAdded.onTrigger();
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state std::vector<Standalone<StringRef>> keys;
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state bool fieldsChanged = false;
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state bool enumsChanged = false;
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// Register each metric that isn't already registered
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for (auto& it : collection->metricMap) {
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if (!it.value->registered) {
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// Register metric so it can create its field keys
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mk.name = it.value->metricName;
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it.value->registerFields(mk, keys);
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// Also set keys for the metric's (name,type) pair in the type-and-name map
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keys.push_back(
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config->nameAndTypeMap.getProperty({ it.value->metricName.name, it.value->metricName.type }).key);
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it.value->registered = true;
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fieldsChanged = true;
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enumsChanged = true;
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}
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}
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// Set a key for this collection's address in the address map if it hasn't been done.
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if (!addressRegistered) {
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keys.push_back(config->addressMap.getProperty(collection->address).key);
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addressRegistered = true;
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enumsChanged = true;
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}
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if (enumsChanged)
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keys.push_back(config->enumsChangeKey);
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if (fieldsChanged)
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keys.push_back(config->fieldChangeKey);
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// Write keys collected to database
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state Transaction tr(cx);
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loop {
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tr.setOption(FDBTransactionOptions::ACCESS_SYSTEM_KEYS);
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try {
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Value timestamp =
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BinaryWriter::toValue(CompressedInt<int64_t>(now()), AssumeVersion(g_network->protocolVersion()));
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for (auto& key : keys) {
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// fprintf(stderr, "%s: register: %s\n", collection->address.toString().c_str(),
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// printable(key).c_str());
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tr.set(key, timestamp);
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}
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wait(tr.commit());
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break;
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} catch (Error& e) {
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wait(tr.onError(e));
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}
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}
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// Wait for a metric to require registration or a new metric to be added
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wait(registrationChange || newMetric);
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}
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}
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ACTOR Future<Void> runMetrics(Future<Database> fcx, Key prefix) {
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// Never log to an empty prefix, it's pretty much always a bad idea.
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if (prefix.size() == 0) {
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TraceEvent(SevWarnAlways, "TDMetricsRefusingEmptyPrefix").log();
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return Void();
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}
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// Wait until the collection has been created and initialized.
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state TDMetricCollection* metrics = nullptr;
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loop {
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metrics = TDMetricCollection::getTDMetrics();
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if (metrics != nullptr)
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if (metrics->init())
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break;
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wait(delay(1.0));
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}
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state MetricsConfig config(prefix);
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try {
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Database cx = wait(fcx);
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Future<Void> conf = metricRuleUpdater(cx, &config, metrics);
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Future<Void> dump = dumpMetrics(cx, &config, metrics);
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Future<Void> reg = updateMetricRegistration(cx, &config, metrics);
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wait(conf || dump || reg);
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} catch (Error& e) {
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if (e.code() != error_code_actor_cancelled) {
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// Disable all metrics
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for (auto& it : metrics->metricMap)
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it.value->setConfig(false);
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}
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TraceEvent(SevWarnAlways, "TDMetricsStopped").error(e);
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throw e;
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}
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return Void();
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}
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TEST_CASE("/fdbserver/metrics/TraceEvents") {
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auto getenv2 = [](const char* s) -> const char* {
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s = getenv(s);
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return s ? s : "";
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};
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std::string metricsConnFile = getenv2("METRICS_CONNFILE");
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std::string metricsPrefix = getenv2("METRICS_PREFIX");
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if (metricsConnFile == "") {
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fprintf(stdout, "Metrics cluster file must be specified in environment variable METRICS_CONNFILE\n");
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return Void();
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}
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fprintf(stdout, "Using environment variables METRICS_CONNFILE and METRICS_PREFIX.\n");
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state Database metricsDb = Database::createDatabase(metricsConnFile, Database::API_VERSION_LATEST);
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TDMetricCollection::getTDMetrics()->address = LiteralStringRef("0.0.0.0:0");
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state Future<Void> metrics = runMetrics(metricsDb, KeyRef(metricsPrefix));
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state int64_t x = 0;
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state double w = 0.5;
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state int chunk = 4000;
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state int total = 200000;
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fprintf(stdout, "Writing trace event named Dummy with fields a, b, c, d, j, k, s, x, y, z.\n");
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fprintf(stdout, " There is a %f second pause every %d events\n", w, chunk);
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fprintf(stdout, " %d events will be logged.\n", total);
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fprintf(stdout, " a is always present. It starts with = 0 and increments by 1 with each event.\n");
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fprintf(stdout, " b, if present, is always a*2.\n");
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fprintf(stdout, " c, if present, is always a*3.\n");
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fprintf(stdout, " b and c are never present in the same event.\n");
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fprintf(stdout, " x, y, and z, if present, are doubles and equal to 1.5 * a, b, and c, respectively\n");
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fprintf(stdout, " d is always present, is a string, and rotates through the values 'one', 'two', and ''.\n");
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fprintf(stdout, " Plotting j on the x axis and k on the y axis should look like x=sin(2t), y=sin(3t)\n");
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state Int64MetricHandle intMetric = Int64MetricHandle(LiteralStringRef("DummyInt"));
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state BoolMetricHandle boolMetric = BoolMetricHandle(LiteralStringRef("DummyBool"));
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state StringMetricHandle stringMetric = StringMetricHandle(LiteralStringRef("DummyString"));
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static const char* dStrings[] = { "one", "two", "" };
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state const char** d = dStrings;
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state Arena arena;
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loop {
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{
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double sstart = x;
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for (int i = 0; i < chunk; ++i, ++x) {
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intMetric = x;
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boolMetric = (x % 2) > 0;
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const char* s = d[x % 3];
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// s doesn't actually require an arena
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stringMetric = Standalone<StringRef>(StringRef((uint8_t*)s, strlen(s)), arena);
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TraceEvent("Dummy")
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.detail("A", x)
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.detail("X", 1.5 * x)
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.detail("D", s)
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.detail("J", sin(2.0 * x))
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.detail("K", sin(3.0 * x))
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.detail("S", sstart + (double)chunk * sin(10.0 * i / chunk));
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}
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wait(delay(w));
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}
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{
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double sstart = x;
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for (int i = 0; i < chunk; ++i, ++x) {
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intMetric = x;
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boolMetric = x % 2 > 0;
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TraceEvent("Dummy")
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.detail("A", x)
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.detail("X", 1.5 * x)
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.detail("B", x * 2)
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.detail("Y", 3.0 * x)
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.detail("D", d[x % 3])
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.detail("J", sin(2.0 * x))
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.detail("K", sin(3.0 * x))
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.detail("S", sstart + (double)chunk * sin(40.0 * i / chunk));
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}
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wait(delay(w));
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}
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{
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double sstart = x;
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for (int i = 0; i < chunk; ++i, ++x) {
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intMetric = x;
|
|
boolMetric = x % 2 > 0;
|
|
TraceEvent("Dummy")
|
|
.detail("A", x)
|
|
.detail("X", 1.5 * x)
|
|
.detail("C", x * 3)
|
|
.detail("Z", 4.5 * x)
|
|
.detail("D", d[x % 3])
|
|
.detail("J", sin(2.0 * x))
|
|
.detail("K", sin(3.0 * x))
|
|
.detail("S", sstart + (double)chunk * sin(160.0 * i / chunk));
|
|
}
|
|
wait(delay(w));
|
|
|
|
if (x >= total)
|
|
return Void();
|
|
}
|
|
}
|
|
}
|