2017-05-26 04:48:44 +08:00
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/*
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* TDMetric.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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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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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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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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* http://www.apache.org/licenses/LICENSE-2.0
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2018-02-22 02:25:11 +08:00
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*
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2017-05-26 04:48:44 +08:00
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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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2018-10-20 01:30:13 +08:00
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#include "flow/TDMetric.actor.h"
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#include "flow/flow.h"
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2017-05-26 04:48:44 +08:00
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const StringRef BaseEventMetric::metricType = LiteralStringRef("Event");
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template<> const StringRef Int64Metric::metricType = LiteralStringRef("Int64");
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template<> const StringRef BoolMetric::metricType = LiteralStringRef("Bool");
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template<> const StringRef StringMetric::metricType = LiteralStringRef("String");
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std::string reduceFilename(std::string const &filename) {
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std::string r = filename;
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// Remove any path prefix
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size_t trunc = r.find_last_of("/\\");
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if(trunc != r.npos)
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r = r.substr(trunc + 1);
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// Look for sequences of 8 or more hex chars and remove them if found
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size_t pos = 0;
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static const char *hexchars = "0123456789abcdef";
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while(pos < r.size()) {
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size_t first = r.find_first_of(hexchars, pos);
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if(first == r.npos)
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break;
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size_t last = r.find_first_not_of(hexchars, first);
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if(last == r.npos)
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last = r.size();
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int runLen = last - first;
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if(runLen >= 8)
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r.erase(first, runLen);
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else
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pos = last + 1;
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}
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return r;
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}
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void MetricKeyRef::writeField(BinaryWriter& wr) const {
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wr.serializeBytes( LiteralStringRef("\x01") );
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wr.serializeBytes( fieldName );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( fieldType );
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wr.serializeBytes( LiteralStringRef("\x00") );
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}
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void MetricKeyRef::writeMetricName(BinaryWriter &wr) const {
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wr.serializeBytes( LiteralStringRef("\x01") );
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wr.serializeBytes( name.name );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( name.type );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( address );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( name.id );
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wr.serializeBytes( LiteralStringRef("\x00") );
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}
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const Standalone<StringRef> MetricKeyRef::packLatestKey() const {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes( prefix );
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wr.serializeBytes( LiteralStringRef("\x01TDMetricsLastValue\x00") );
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writeMetricName(wr);
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2019-03-29 02:52:50 +08:00
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return wr.toValue();
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2017-05-26 04:48:44 +08:00
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}
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const Standalone<StringRef> MetricKeyRef::packDataKey(int64_t time) const {
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BinaryWriter wr(Unversioned());
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wr.serializeBytes(prefix);
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if(isField())
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wr.serializeBytes( LiteralStringRef("\x01TDFieldData\x00") );
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else
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wr.serializeBytes( LiteralStringRef("\x01TDMetricData\x00") );
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writeMetricName(wr);
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if(isField())
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writeField(wr);
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wr.serializeAsTuple(level);
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if(time >= 0)
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wr.serializeAsTuple(time);
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2019-03-29 02:52:50 +08:00
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return wr.toValue();
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2017-05-26 04:48:44 +08:00
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}
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const Standalone<StringRef> MetricKeyRef::packFieldRegKey() const {
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ASSERT(isField());
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BinaryWriter wr(Unversioned());
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wr.serializeBytes( prefix );
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wr.serializeBytes( LiteralStringRef("\x01TDFields\x00\x01") );
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wr.serializeBytes( name.name );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( name.type );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( fieldName );
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wr.serializeBytes( LiteralStringRef("\x00\x01") );
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wr.serializeBytes( fieldType );
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wr.serializeBytes( LiteralStringRef("\x00") );
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2019-03-29 02:52:50 +08:00
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return wr.toValue();
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2017-05-26 04:48:44 +08:00
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}
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bool TDMetricCollection::canLog(int level) {
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// Whether a given level can be logged or not depends on the length of the rollTimes queue.
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// No restriction until queue size reaches METRIC_LIMIT_START_QUEUE_SIZE
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if(rollTimes.size() < FLOW_KNOBS->METRIC_LIMIT_START_QUEUE_SIZE)
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return true;
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int extraQueueItems = rollTimes.size() - FLOW_KNOBS->METRIC_LIMIT_START_QUEUE_SIZE;
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// Level must be greater than the number of responseFactor-sized groups of additional items in the queue.
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return level > extraQueueItems / FLOW_KNOBS->METRIC_LIMIT_RESPONSE_FACTOR;
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}
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void TDMetricCollection::checkRoll(uint64_t t, int64_t usedBytes) {
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currentTimeBytes += usedBytes;
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if(currentTimeBytes > 1e6) {
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TEST(true); //metrics were rolled
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currentTimeBytes = 0;
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rollTimes.push_back(t);
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for(auto &it : metricMap)
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it.value->rollMetric(t);
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metricEnabled.trigger();
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}
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}
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DynamicEventMetric::DynamicEventMetric(MetricNameRef const& name, Void)
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: BaseEventMetric(name), newFields(false), latestRecorded(false) {
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}
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DynamicEventMetric::~DynamicEventMetric() {
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for(auto &i : fields)
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delete i.second;
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}
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uint64_t DynamicEventMetric::log(uint64_t explicitTime) {
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if(!enabled)
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return 0;
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uint64_t t = explicitTime ? explicitTime : timer_int();
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double x = g_random->random01();
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int64_t l = 0;
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if (x == 0.0)
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l = FLOW_KNOBS->MAX_METRIC_LEVEL-1;
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else
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l = std::min(FLOW_KNOBS->MAX_METRIC_LEVEL-1, (int64_t)(::log(1.0/x) / FLOW_KNOBS->METRIC_LEVEL_DIVISOR));
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if(!TDMetricCollection::getTDMetrics()->canLog(l))
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return 0;
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//fprintf(stderr, "Logging %s with %d fields (other than Time)\n", name.name.toString().c_str(), fields.size());
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if(newFields) {
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// New fields were added so go to new key for all fields (at all levels) so the field parallel data series line up correctly.
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time.nextKeyAllLevels(t);
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for(auto f : fields)
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f.second->nextKeyAllLevels(t);
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newFields = false;
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}
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bool overflow = false;
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int64_t bytes = 0;
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time.log(t, t, l, overflow, bytes);
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for(auto f : fields)
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f.second->log(t, l, overflow, bytes);
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if(overflow) {
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time.nextKey(t, l);
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for(auto f : fields)
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f.second->nextKey(t, l);
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}
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latestRecorded = false;
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TDMetricCollection::getTDMetrics()->checkRoll(t, bytes);
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clearFields();
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return t;
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}
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void DynamicEventMetric::flushData(MetricKeyRef const &mk, uint64_t rollTime, MetricUpdateBatch &batch) {
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time.flushField( mk, rollTime, batch );
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for(auto f : fields)
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f.second->flushField(mk, rollTime, batch);
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if(!latestRecorded) {
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batch.updates.push_back(std::make_pair(mk.packLatestKey(), StringRef()));
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latestRecorded = true;
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}
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}
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void DynamicEventMetric::rollMetric( uint64_t t ) {
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time.rollMetric(t);
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for(auto f : fields)
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f.second->rollMetric(t);
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}
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void DynamicEventMetric::registerFields(MetricKeyRef const &mk, std::vector<Standalone<StringRef>>& fieldKeys) {
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// This is actually redundant on update registrations but it's not a big deal
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time.registerField(mk, fieldKeys);
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// Register the new fields
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for(auto f : fieldsToRegister)
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fields[f]->registerField(mk, fieldKeys);
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// Clear the to-register set.
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fieldsToRegister.clear();
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}
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std::string MetricData::toString() {
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return format("MetricData(addr=%p start=%llu appendStart=%llu rollTime=%llu writerLen=%d)", this, start, appendStart, rollTime, writer.getLength());
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}
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