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apache / doris / refs/heads/bugfix_bitmap / . / be / test / util / metrics_test.cpp
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// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements. See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership. The ASF licenses this file
// to you 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 "util/metrics.h"
#include <glog/logging.h>
#include <gtest/gtest-message.h>
#include <gtest/gtest-test-part.h>
#include <unistd.h>
#include <thread>
#include "gtest/gtest_pred_impl.h"
#include "testutil/test_util.h"
#include "util/stopwatch.hpp"
namespace doris {
class MetricsTest : public testing::Test {
public:
MetricsTest() {}
virtual ~MetricsTest() {}
};
TEST_F(MetricsTest, Counter) {
{
IntCounter counter;
EXPECT_EQ(0, counter.value());
counter.increment(100);
EXPECT_EQ(100, counter.value());
EXPECT_STREQ("100", counter.to_string().c_str());
}
{
IntCounter counter;
EXPECT_EQ(0, counter.value());
counter.increment(100);
EXPECT_EQ(100, counter.value());
EXPECT_STREQ("100", counter.to_string().c_str());
}
{
UIntCounter counter;
EXPECT_EQ(0, counter.value());
counter.increment(100);
EXPECT_EQ(100, counter.value());
EXPECT_STREQ("100", counter.to_string().c_str());
}
{
DoubleCounter counter;
EXPECT_EQ(0, counter.value());
counter.increment(1.23);
EXPECT_EQ(1.23, counter.value());
EXPECT_STREQ("1.230000", counter.to_string().c_str());
}
}
template <typename T>
void mt_updater(int32_t loop, T* counter, std::atomic<uint64_t>* used_time) {
sleep(1);
MonotonicStopWatch watch;
watch.start();
for (int i = 0; i < loop; ++i) {
counter->increment(1);
}
uint64_t elapsed = watch.elapsed_time();
used_time->fetch_add(elapsed);
}
TEST_F(MetricsTest, CounterPerf) {
static const int kLoopCount = LOOP_LESS_OR_MORE(10, 100000000);
static const int kThreadLoopCount = LOOP_LESS_OR_MORE(1000, 1000000);
{
int64_t sum = 0;
MonotonicStopWatch watch;
watch.start();
for (int i = 0; i < kLoopCount; ++i) {
sum += 1;
}
uint64_t elapsed = watch.elapsed_time();
EXPECT_EQ(kLoopCount, sum);
LOG(INFO) << "int64_t: elapsed: " << elapsed << "ns, ns/iter:" << elapsed / kLoopCount;
}
// IntAtomicCounter
{
IntCounter counter;
MonotonicStopWatch watch;
watch.start();
for (int i = 0; i < kLoopCount; ++i) {
counter.increment(1);
}
uint64_t elapsed = watch.elapsed_time();
EXPECT_EQ(kLoopCount, counter.value());
LOG(INFO) << "IntAtomicCounter: elapsed: " << elapsed
<< "ns, ns/iter:" << elapsed / kLoopCount;
}
// IntCounter
{
IntCounter counter;
MonotonicStopWatch watch;
watch.start();
for (int i = 0; i < kLoopCount; ++i) {
counter.increment(1);
}
uint64_t elapsed = watch.elapsed_time();
EXPECT_EQ(kLoopCount, counter.value());
LOG(INFO) << "IntCounter: elapsed: " << elapsed << "ns, ns/iter:" << elapsed / kLoopCount;
}
// multi-thread for IntCounter
{
IntCounter mt_counter;
std::vector<std::thread> updaters;
std::atomic<uint64_t> used_time(0);
for (int i = 0; i < 8; ++i) {
updaters.emplace_back(&mt_updater<IntCounter>, kThreadLoopCount, &mt_counter,
&used_time);
}
for (int i = 0; i < 8; ++i) {
updaters[i].join();
}
LOG(INFO) << "IntCounter multi-thread elapsed: " << used_time.load()
<< "ns, ns/iter:" << used_time.load() / (8 * kThreadLoopCount);
EXPECT_EQ(8 * kThreadLoopCount, mt_counter.value());
}
// multi-thread for IntAtomicCounter
{
IntCounter mt_counter;
std::vector<std::thread> updaters;
std::atomic<uint64_t> used_time(0);
for (int i = 0; i < 8; ++i) {
updaters.emplace_back(&mt_updater<IntCounter>, kThreadLoopCount, &mt_counter,
&used_time);
}
for (int i = 0; i < 8; ++i) {
updaters[i].join();
}
LOG(INFO) << "IntAtomicCounter multi-thread elapsed: " << used_time.load()
<< "ns, ns/iter:" << used_time.load() / (8 * kThreadLoopCount);
EXPECT_EQ(8 * kThreadLoopCount, mt_counter.value());
}
}
TEST_F(MetricsTest, Gauge) {
// IntGauge
{
IntGauge gauge;
EXPECT_EQ(0, gauge.value());
gauge.set_value(100);
EXPECT_EQ(100, gauge.value());
EXPECT_STREQ("100", gauge.to_string().c_str());
}
// UIntGauge
{
UIntGauge gauge;
EXPECT_EQ(0, gauge.value());
gauge.set_value(100);
EXPECT_EQ(100, gauge.value());
EXPECT_STREQ("100", gauge.to_string().c_str());
}
// DoubleGauge
{
DoubleGauge gauge;
EXPECT_EQ(0.0, gauge.value());
gauge.set_value(1.23);
EXPECT_EQ(1.23, gauge.value());
EXPECT_STREQ("1.230000", gauge.to_string().c_str());
}
}
TEST_F(MetricsTest, MetricPrototype) {
{
MetricPrototype cpu_idle_type(MetricType::COUNTER, MetricUnit::PERCENT,
"fragment_requests_total",
"Total fragment requests received.");
EXPECT_EQ("fragment_requests_total", cpu_idle_type.simple_name());
EXPECT_EQ("fragment_requests_total", cpu_idle_type.combine_name(""));
EXPECT_EQ("doris_be_fragment_requests_total", cpu_idle_type.combine_name("doris_be"));
}
{
MetricPrototype cpu_idle_type(MetricType::COUNTER, MetricUnit::PERCENT, "cpu_idle",
"CPU's idle time percent", "cpu");
EXPECT_EQ("cpu", cpu_idle_type.simple_name());
EXPECT_EQ("cpu", cpu_idle_type.combine_name(""));
EXPECT_EQ("doris_be_cpu", cpu_idle_type.combine_name("doris_be"));
}
}
TEST_F(MetricsTest, MetricEntityWithMetric) {
MetricEntity entity(MetricEntityType::kServer, "test_entity", {});
MetricPrototype cpu_idle_type(MetricType::COUNTER, MetricUnit::PERCENT, "cpu_idle");
// Before register
Metric* metric = entity.get_metric("cpu_idle");
EXPECT_EQ(nullptr, metric);
// Register
IntCounter* cpu_idle = (IntCounter*)entity.register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(12);
metric = entity.get_metric("cpu_idle");
EXPECT_NE(nullptr, metric);
EXPECT_EQ("12", metric->to_string());
cpu_idle->increment(8);
EXPECT_EQ("20", metric->to_string());
// Deregister
entity.deregister_metric(&cpu_idle_type);
// After deregister
metric = entity.get_metric("cpu_idle");
EXPECT_EQ(nullptr, metric);
}
TEST_F(MetricsTest, MetricEntityWithHook) {
MetricEntity entity(MetricEntityType::kServer, "test_entity", {});
MetricPrototype cpu_idle_type(MetricType::COUNTER, MetricUnit::PERCENT, "cpu_idle");
// Register
IntCounter* cpu_idle = (IntCounter*)entity.register_metric<IntCounter>(&cpu_idle_type);
entity.register_hook("test_hook", [cpu_idle]() { cpu_idle->increment(6); });
// Before hook
Metric* metric = entity.get_metric("cpu_idle");
EXPECT_NE(nullptr, metric);
EXPECT_EQ("0", metric->to_string());
// Hook
entity.trigger_hook_unlocked(true);
EXPECT_EQ("6", metric->to_string());
entity.trigger_hook_unlocked(true);
EXPECT_EQ("12", metric->to_string());
// Deregister hook
entity.deregister_hook("test_hook");
// Hook but no effect
entity.trigger_hook_unlocked(true);
EXPECT_EQ("12", metric->to_string());
}
TEST_F(MetricsTest, MetricRegistryRegister) {
MetricRegistry registry("test_registry");
// No entity
EXPECT_EQ("", registry.to_prometheus());
EXPECT_EQ("[]", registry.to_json());
EXPECT_EQ("", registry.to_core_string());
// Register
auto entity1 = registry.register_entity("test_entity");
EXPECT_NE(nullptr, entity1);
// Register again
auto entity2 = registry.register_entity("test_entity");
EXPECT_NE(nullptr, entity2);
EXPECT_EQ(entity1.get(), entity2.get());
// Deregister entity once
registry.deregister_entity(entity1);
// Still exist and equal to entity1
entity2 = registry.get_entity("test_entity");
EXPECT_NE(nullptr, entity2);
EXPECT_EQ(entity1.get(), entity2.get());
// Deregister entity twice
registry.deregister_entity(entity2);
// Not exist and registry is empty
entity2 = registry.get_entity("test_entity");
EXPECT_EQ(nullptr, entity2);
EXPECT_EQ("", registry.to_prometheus());
}
TEST_F(MetricsTest, MetricRegistryOutput) {
MetricRegistry registry("test_registry");
{
// No entity
EXPECT_EQ("", registry.to_prometheus());
EXPECT_EQ("[]", registry.to_json());
EXPECT_EQ("", registry.to_core_string());
}
{
// Register one common metric to the entity
auto entity = registry.register_entity("test_entity");
MetricPrototype cpu_idle_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_idle", "", "",
{}, true);
IntCounter* cpu_idle = (IntCounter*)entity->register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(8);
EXPECT_EQ(R"(# TYPE test_registry_cpu_idle gauge
test_registry_cpu_idle 8
)",
registry.to_prometheus());
EXPECT_EQ(R"([{"tags":{"metric":"cpu_idle"},"unit":"percent","value":8}])",
registry.to_json());
EXPECT_EQ("test_registry_cpu_idle LONG 8\n", registry.to_core_string());
registry.deregister_entity(entity);
}
{
// Register one metric with group name to the entity
auto entity = registry.register_entity("test_entity");
MetricPrototype cpu_idle_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_idle", "", "cpu",
{{"mode", "idle"}}, false);
IntCounter* cpu_idle = (IntCounter*)entity->register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(18);
EXPECT_EQ(R"(# TYPE test_registry_cpu gauge
test_registry_cpu{mode="idle"} 18
)",
registry.to_prometheus());
EXPECT_EQ(R"([{"tags":{"metric":"cpu","mode":"idle"},"unit":"percent","value":18}])",
registry.to_json());
EXPECT_EQ("", registry.to_core_string());
registry.deregister_entity(entity);
}
{
// Register one common metric to an entity with label
auto entity = registry.register_entity("test_entity", {{"name", "label_test"}});
MetricPrototype cpu_idle_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_idle");
IntCounter* cpu_idle = (IntCounter*)entity->register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(28);
EXPECT_EQ(R"(# TYPE test_registry_cpu_idle gauge
test_registry_cpu_idle{name="label_test"} 28
)",
registry.to_prometheus());
EXPECT_EQ(
R"([{"tags":{"metric":"cpu_idle","name":"label_test"},"unit":"percent","value":28}])",
registry.to_json());
EXPECT_EQ("", registry.to_core_string());
registry.deregister_entity(entity);
}
{
// Register one common metric with group name to an entity with label
auto entity = registry.register_entity("test_entity", {{"name", "label_test"}});
MetricPrototype cpu_idle_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_idle", "", "cpu",
{{"mode", "idle"}});
IntCounter* cpu_idle = (IntCounter*)entity->register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(38);
EXPECT_EQ(R"(# TYPE test_registry_cpu gauge
test_registry_cpu{name="label_test",mode="idle"} 38
)",
registry.to_prometheus());
EXPECT_EQ(
R"([{"tags":{"metric":"cpu","mode":"idle","name":"label_test"},"unit":"percent","value":38}])",
registry.to_json());
EXPECT_EQ("", registry.to_core_string());
registry.deregister_entity(entity);
}
{
// Register two common metrics to one entity
auto entity = registry.register_entity("test_entity");
MetricPrototype cpu_idle_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_idle", "", "cpu",
{{"mode", "idle"}});
IntCounter* cpu_idle = (IntCounter*)entity->register_metric<IntCounter>(&cpu_idle_type);
cpu_idle->increment(48);
MetricPrototype cpu_guest_type(MetricType::GAUGE, MetricUnit::PERCENT, "cpu_guest", "",
"cpu", {{"mode", "guest"}});
IntGauge* cpu_guest = (IntGauge*)entity->register_metric<IntGauge>(&cpu_guest_type);
cpu_guest->increment(58);
EXPECT_EQ(R"(# TYPE test_registry_cpu gauge
test_registry_cpu{mode="idle"} 48
test_registry_cpu{mode="guest"} 58
)",
registry.to_prometheus());
EXPECT_EQ(
R"([{"tags":{"metric":"cpu","mode":"guest"},"unit":"percent","value":58},{"tags":{"metric":"cpu","mode":"idle"},"unit":"percent","value":48}])",
registry.to_json());
EXPECT_EQ("", registry.to_core_string());
registry.deregister_entity(entity);
}
}
TEST_F(MetricsTest, HistogramRegistryOutput) {
MetricRegistry registry("test_registry");
{
// Register one histogram metric to the entity
auto entity = registry.register_entity("test_entity");
MetricPrototype task_duration_type(MetricType::HISTOGRAM, MetricUnit::MILLISECONDS,
"task_duration");
HistogramMetric* task_duration =
(HistogramMetric*)entity->register_metric<HistogramMetric>(&task_duration_type);
for (int j = 1; j <= 100; j++) {
task_duration->add(j);
}
EXPECT_EQ(R"(# TYPE test_registry_task_duration histogram
test_registry_task_duration{quantile="0.50"} 50
test_registry_task_duration{quantile="0.75"} 75
test_registry_task_duration{quantile="0.90"} 95.8333
test_registry_task_duration{quantile="0.95"} 100
test_registry_task_duration{quantile="0.99"} 100
test_registry_task_duration_sum 5050
test_registry_task_duration_count 100
test_registry_task_duration_max 100
test_registry_task_duration_min 1
test_registry_task_duration_average 50.5
test_registry_task_duration_median 50
test_registry_task_duration_standard_deviation 28.8661
)",
registry.to_prometheus());
EXPECT_EQ(
R"*([{"tags":{"metric":"task_duration"},"unit":"milliseconds",)*"
R"*("value":{"total_count":100,"min":1,"average":50.5,"median":50.0,)*"
R"*("percentile_50":50.0,"percentile_75":75.0,"percentile_90":95.83333333333334,"percentile_95":100.0,"percentile_99":100.0,)*"
R"*("standard_deviation":28.86607004772212,"max":100,"total_sum":5050}}])*",
registry.to_json());
registry.deregister_entity(entity);
}
{
// Register one histogram metric with labels to the entity
auto entity = registry.register_entity("test_entity", {{"instance", "test"}});
MetricPrototype task_duration_type(MetricType::HISTOGRAM, MetricUnit::MILLISECONDS,
"task_duration", "", "", {{"type", "create_tablet"}});
HistogramMetric* task_duration =
(HistogramMetric*)entity->register_metric<HistogramMetric>(&task_duration_type);
for (int j = 1; j <= 100; j++) {
task_duration->add(j);
}
EXPECT_EQ(R"(# TYPE test_registry_task_duration histogram
test_registry_task_duration{instance="test",type="create_tablet",quantile="0.50"} 50
test_registry_task_duration{instance="test",type="create_tablet",quantile="0.75"} 75
test_registry_task_duration{instance="test",type="create_tablet",quantile="0.90"} 95.8333
test_registry_task_duration{instance="test",type="create_tablet",quantile="0.95"} 100
test_registry_task_duration{instance="test",type="create_tablet",quantile="0.99"} 100
test_registry_task_duration_sum{instance="test",type="create_tablet"} 5050
test_registry_task_duration_count{instance="test",type="create_tablet"} 100
test_registry_task_duration_max{instance="test",type="create_tablet"} 100
test_registry_task_duration_min{instance="test",type="create_tablet"} 1
test_registry_task_duration_average{instance="test",type="create_tablet"} 50.5
test_registry_task_duration_median{instance="test",type="create_tablet"} 50
test_registry_task_duration_standard_deviation{instance="test",type="create_tablet"} 28.8661
)",
registry.to_prometheus());
EXPECT_EQ(
R"*([{"tags":{"metric":"task_duration","type":"create_tablet","instance":"test"},"unit":"milliseconds",)*"
R"*("value":{"total_count":100,"min":1,"average":50.5,"median":50.0,)*"
R"*("percentile_50":50.0,"percentile_75":75.0,"percentile_90":95.83333333333334,"percentile_95":100.0,"percentile_99":100.0,)*"
R"*("standard_deviation":28.86607004772212,"max":100,"total_sum":5050}}])*",
registry.to_json());
registry.deregister_entity(entity);
}
}
} // namespace doris