foundationdb/fdbserver/workloads/HealthMetricsApi.actor.cpp

180 lines
8.6 KiB
C++

/*
* HealthMetricsApi.actor.cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013-2018 Apple Inc. and the FoundationDB project authors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "fdbserver/TesterInterface.actor.h"
#include "fdbserver/workloads/workloads.actor.h"
#include "fdbserver/WorkerInterface.actor.h"
#include "flow/actorcompiler.h" // This must be the last #include.
// workload description
// This workload can be attached to other workload to collect health information about the FDB cluster.
struct HealthMetricsApiWorkload : TestWorkload {
// Performance Metrics
int64_t worstStorageQueue = 0;
int64_t worstLimitingStorageQueue = 0;
int64_t worstStorageDurabilityLag = 0;
int64_t worstLimitingStorageDurabilityLag = 0;
int64_t worstTLogQueue = 0;
int64_t detailedWorstStorageQueue = 0;
int64_t detailedWorstStorageDurabilityLag = 0;
int64_t detailedWorstTLogQueue = 0;
double detailedWorstCpuUsage = 0;
double detailedWorstDiskUsage = 0;
// Test configuration
double testDuration;
double healthMetricsCheckInterval;
double maxAllowedStaleness;
bool sendDetailedHealthMetrics;
// internal states
bool healthMetricsStoppedUpdating = false;
static constexpr const char* NAME = "HealthMetricsApi";
HealthMetricsApiWorkload(WorkloadContext const& wcx) : TestWorkload(wcx) {
testDuration = getOption(options, LiteralStringRef("testDuration"), 120.0);
healthMetricsCheckInterval = getOption(options, LiteralStringRef("healthMetricsCheckInterval"), 1.0);
sendDetailedHealthMetrics = getOption(options, LiteralStringRef("sendDetailedHealthMetrics"), true);
maxAllowedStaleness = getOption(options, LiteralStringRef("maxAllowedStaleness"), 60.0);
}
std::string description() const override { return HealthMetricsApiWorkload::NAME; }
ACTOR static Future<Void> _setup(Database cx, HealthMetricsApiWorkload* self) {
if (!self->sendDetailedHealthMetrics) {
// Clear detailed health metrics that are already populated
wait(delay(2 * CLIENT_KNOBS->DETAILED_HEALTH_METRICS_MAX_STALENESS));
cx->healthMetrics.storageStats.clear();
cx->healthMetrics.tLogQueue.clear();
}
return Void();
}
Future<Void> setup(Database const& cx) override { return _setup(cx, this); }
ACTOR static Future<Void> _start(Database cx, HealthMetricsApiWorkload* self) {
wait(timeout(healthMetricsChecker(cx, self), self->testDuration, Void()));
return Void();
}
Future<Void> start(Database const& cx) override { return _start(cx, this); }
Future<bool> check(Database const& cx) override {
if (healthMetricsStoppedUpdating) {
TraceEvent(SevError, "HealthMetricsStoppedUpdating").log();
return false;
}
bool correctHealthMetricsState = true;
if (worstStorageQueue == 0 || worstStorageDurabilityLag == 0 || worstTLogQueue == 0)
correctHealthMetricsState = false;
if (sendDetailedHealthMetrics) {
if (detailedWorstStorageQueue == 0 || detailedWorstStorageDurabilityLag == 0 ||
detailedWorstTLogQueue == 0 || detailedWorstCpuUsage == 0.0 || detailedWorstDiskUsage == 0.0)
correctHealthMetricsState = false;
} else {
if (detailedWorstStorageQueue != 0 || detailedWorstStorageDurabilityLag != 0 ||
detailedWorstTLogQueue != 0 || detailedWorstCpuUsage != 0.0 || detailedWorstDiskUsage != 0.0)
correctHealthMetricsState = false;
}
if (!correctHealthMetricsState) {
TraceEvent(SevError, "IncorrectHealthMetricsState")
.detail("WorstStorageQueue", worstStorageQueue)
.detail("WorstLimitingStorageQueue", worstLimitingStorageQueue)
.detail("WorstStorageDurabilityLag", worstStorageDurabilityLag)
.detail("WorstLimitingStorageDurabilityLag", worstLimitingStorageDurabilityLag)
.detail("WorstTLogQueue", worstTLogQueue)
.detail("DetailedWorstStorageQueue", detailedWorstStorageQueue)
.detail("DetailedWorstStorageDurabilityLag", detailedWorstStorageDurabilityLag)
.detail("DetailedWorstTLogQueue", detailedWorstTLogQueue)
.detail("DetailedWorstCpuUsage", detailedWorstCpuUsage)
.detail("DetailedWorstDiskUsage", detailedWorstDiskUsage)
.detail("SendingDetailedHealthMetrics", sendDetailedHealthMetrics);
}
return correctHealthMetricsState;
}
void getMetrics(std::vector<PerfMetric>& m) override {
m.emplace_back("WorstStorageQueue", worstStorageQueue, Averaged::True);
m.emplace_back("DetailedWorstStorageQueue", detailedWorstStorageQueue, Averaged::True);
m.emplace_back("WorstStorageDurabilityLag", worstStorageDurabilityLag, Averaged::True);
m.emplace_back("DetailedWorstStorageDurabilityLag", detailedWorstStorageDurabilityLag, Averaged::True);
m.emplace_back("WorstTLogQueue", worstTLogQueue, Averaged::True);
m.emplace_back("DetailedWorstTLogQueue", detailedWorstTLogQueue, Averaged::True);
m.emplace_back("DetailedWorstCpuUsage", detailedWorstCpuUsage, Averaged::True);
m.emplace_back("DetailedWorstDiskUsage", detailedWorstDiskUsage, Averaged::True);
}
ACTOR static Future<Void> healthMetricsChecker(Database cx, HealthMetricsApiWorkload* self) {
state int repeated = 0;
state HealthMetrics healthMetrics;
loop {
wait(delay(self->healthMetricsCheckInterval));
HealthMetrics newHealthMetrics = wait(cx->getHealthMetrics(self->sendDetailedHealthMetrics));
if (healthMetrics == newHealthMetrics) {
if (++repeated > self->maxAllowedStaleness / self->healthMetricsCheckInterval)
self->healthMetricsStoppedUpdating = true;
} else
repeated = 0;
healthMetrics = newHealthMetrics;
self->worstStorageQueue = std::max(self->worstStorageQueue, healthMetrics.worstStorageQueue);
self->worstLimitingStorageQueue =
std::max(self->worstLimitingStorageQueue, healthMetrics.limitingStorageQueue);
self->worstStorageDurabilityLag =
std::max(self->worstStorageDurabilityLag, healthMetrics.worstStorageDurabilityLag);
self->worstLimitingStorageDurabilityLag =
std::max(self->worstLimitingStorageDurabilityLag, healthMetrics.limitingStorageDurabilityLag);
self->worstTLogQueue = std::max(self->worstTLogQueue, healthMetrics.worstTLogQueue);
TraceEvent("HealthMetrics")
.detail("WorstStorageQueue", healthMetrics.worstStorageQueue)
.detail("LimitingStorageQueue", healthMetrics.limitingStorageQueue)
.detail("WorstStorageDurabilityLag", healthMetrics.worstStorageDurabilityLag)
.detail("LimitingStorageDurabilityLag", healthMetrics.limitingStorageDurabilityLag)
.detail("WorstTLogQueue", healthMetrics.worstTLogQueue)
.detail("TpsLimit", healthMetrics.tpsLimit);
TraceEvent traceStorageQueue("StorageQueue");
TraceEvent traceStorageDurabilityLag("StorageDurabilityLag");
TraceEvent traceCpuUsage("CpuUsage");
TraceEvent traceDiskUsage("DiskUsage");
// update metrics
for (const auto& ss : healthMetrics.storageStats) {
auto storageStats = ss.second;
self->detailedWorstStorageQueue = std::max(self->detailedWorstStorageQueue, storageStats.storageQueue);
traceStorageQueue.detail(format("Storage-%s", ss.first.toString().c_str()), storageStats.storageQueue);
self->detailedWorstStorageDurabilityLag =
std::max(self->detailedWorstStorageDurabilityLag, storageStats.storageDurabilityLag);
traceStorageDurabilityLag.detail(format("Storage-%s", ss.first.toString().c_str()),
storageStats.storageDurabilityLag);
self->detailedWorstCpuUsage = std::max(self->detailedWorstCpuUsage, storageStats.cpuUsage);
traceCpuUsage.detail(format("Storage-%s", ss.first.toString().c_str()), storageStats.cpuUsage);
self->detailedWorstDiskUsage = std::max(self->detailedWorstDiskUsage, storageStats.diskUsage);
traceDiskUsage.detail(format("Storage-%s", ss.first.toString().c_str()), storageStats.diskUsage);
}
TraceEvent traceTLogQueue("TLogQueue");
traceTLogQueue.setMaxEventLength(10000);
for (const auto& ss : healthMetrics.tLogQueue) {
self->detailedWorstTLogQueue = std::max(self->detailedWorstTLogQueue, ss.second);
traceTLogQueue.detail(format("TLog-%s", ss.first.toString().c_str()), ss.second);
}
};
}
};
WorkloadFactory<HealthMetricsApiWorkload> HealthMetricsApiWorkloadFactory(HealthMetricsApiWorkload::NAME);