// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 #include #include #include #include #include #include #include "common.h" #include "opentelemetry/common/macros.h" #include "opentelemetry/context/context.h" #include "opentelemetry/metrics/meter.h" #include "opentelemetry/metrics/sync_instruments.h" #include "opentelemetry/nostd/function_ref.h" #include "opentelemetry/nostd/shared_ptr.h" #include "opentelemetry/nostd/string_view.h" #include "opentelemetry/nostd/variant.h" #include "opentelemetry/sdk/instrumentationscope/instrumentation_scope.h" #include "opentelemetry/sdk/metrics/aggregation/aggregation_config.h" #include "opentelemetry/sdk/metrics/data/metric_data.h" #include "opentelemetry/sdk/metrics/data/point_data.h" #include "opentelemetry/sdk/metrics/export/metric_producer.h" #include "opentelemetry/sdk/metrics/instruments.h" #include "opentelemetry/sdk/metrics/meter_provider.h" #include "opentelemetry/sdk/metrics/metric_reader.h" #include "opentelemetry/sdk/metrics/push_metric_exporter.h" #include "opentelemetry/sdk/metrics/view/attributes_processor.h" #include "opentelemetry/sdk/metrics/view/instrument_selector.h" #include "opentelemetry/sdk/metrics/view/meter_selector.h" #include "opentelemetry/sdk/metrics/view/view.h" #if OPENTELEMETRY_HAVE_WORKING_REGEX using namespace opentelemetry; using namespace opentelemetry::sdk::instrumentationscope; using namespace opentelemetry::sdk::metrics; TEST(HistogramToSum, Double) { MeterProvider mp; auto m = mp.GetMeter("meter1", "version1", "schema1"); std::string instrument_unit = "ms"; std::string instrument_name = "historgram1"; std::string instrument_desc = "histogram metrics"; std::unique_ptr exporter(new MockMetricExporter()); std::shared_ptr reader{new MockMetricReader(std::move(exporter))}; mp.AddMetricReader(reader); std::unique_ptr view{ new View("view1", "view1_description", instrument_unit, AggregationType::kSum)}; std::unique_ptr instrument_selector{ new InstrumentSelector(InstrumentType::kHistogram, instrument_name, instrument_unit)}; std::unique_ptr meter_selector{new MeterSelector("meter1", "version1", "schema1")}; mp.AddView(std::move(instrument_selector), std::move(meter_selector), std::move(view)); auto h = m->CreateDoubleHistogram(instrument_name, instrument_desc, instrument_unit); h->Record(5, {}); h->Record(10, {}); h->Record(15, {}); h->Record(20, {}); h->Record(25, {}); h->Record(30, {}); h->Record(35, {}); h->Record(40, {}); h->Record(45, {}); h->Record(50, {}); h->Record(1e6, {}); std::vector actuals; reader->Collect([&](ResourceMetrics &rm) { for (const ScopeMetrics &smd : rm.scope_metric_data_) { for (const MetricData &md : smd.metric_data_) { for (const PointDataAttributes &dp : md.point_data_attr_) { actuals.push_back(opentelemetry::nostd::get(dp.point_data)); } } } return true; }); ASSERT_EQ(1, actuals.size()); const auto &actual = actuals.at(0); ASSERT_EQ(1000275.0, opentelemetry::nostd::get(actual.value_)); } TEST(HistogramToSumFilterAttributes, Double) { MeterProvider mp; auto m = mp.GetMeter("meter1", "version1", "schema1"); std::string instrument_unit = "ms"; std::string instrument_name = "historgram1"; std::string instrument_desc = "histogram metrics"; std::unordered_map allowedattr; allowedattr["attr1"] = true; std::unique_ptr attrproc{ new opentelemetry::sdk::metrics::FilteringAttributesProcessor(allowedattr)}; std::shared_ptr dummy_aggregation_config{ new opentelemetry::sdk::metrics::AggregationConfig}; std::unique_ptr exporter(new MockMetricExporter()); std::shared_ptr reader{new MockMetricReader(std::move(exporter))}; mp.AddMetricReader(reader); std::unique_ptr view{new View("view1", "view1_description", instrument_unit, AggregationType::kSum, dummy_aggregation_config, std::move(attrproc))}; std::unique_ptr instrument_selector{ new InstrumentSelector(InstrumentType::kHistogram, instrument_name, instrument_unit)}; std::unique_ptr meter_selector{new MeterSelector("meter1", "version1", "schema1")}; mp.AddView(std::move(instrument_selector), std::move(meter_selector), std::move(view)); auto h = m->CreateDoubleHistogram(instrument_name, instrument_desc, instrument_unit); std::unordered_map attr1 = {{"attr1", "val1"}, {"attr2", "val2"}}; std::unordered_map attr2 = {{"attr1", "val1"}, {"attr2", "val2"}}; h->Record(5, attr1, opentelemetry::context::Context{}); h->Record(10, attr2, opentelemetry::context::Context{}); reader->Collect([&](ResourceMetrics &rm) { for (const ScopeMetrics &smd : rm.scope_metric_data_) { for (const MetricData &md : smd.metric_data_) { EXPECT_EQ(1, md.point_data_attr_.size()); if (md.point_data_attr_.size() == 1) { EXPECT_EQ(15.0, opentelemetry::nostd::get(opentelemetry::nostd::get( md.point_data_attr_[0].point_data) .value_)); EXPECT_EQ(1, md.point_data_attr_[0].attributes.size()); EXPECT_NE(md.point_data_attr_[0].attributes.end(), md.point_data_attr_[0].attributes.find("attr1")); } } } return true; }); } TEST(CounterToSum, Double) { MeterProvider mp; auto m = mp.GetMeter("meter1", "version1", "schema1"); std::unique_ptr exporter(new MockMetricExporter()); std::shared_ptr reader{new MockMetricReader(std::move(exporter))}; mp.AddMetricReader(reader); std::unique_ptr view{new View("view1", "view1_description", "ms", AggregationType::kSum)}; std::unique_ptr instrument_selector{ new InstrumentSelector(InstrumentType::kCounter, "counter1", "ms")}; std::unique_ptr meter_selector{new MeterSelector("meter1", "version1", "schema1")}; mp.AddView(std::move(instrument_selector), std::move(meter_selector), std::move(view)); auto h = m->CreateDoubleCounter("counter1", "counter1_description", "counter1_unit"); h->Add(5, {}); h->Add(10, {}); h->Add(15, {}); h->Add(20, {}); h->Add(25, {}); h->Add(30, {}); h->Add(35, {}); h->Add(40, {}); h->Add(45, {}); h->Add(50, {}); h->Add(1e6, {}); std::vector actuals; reader->Collect([&](ResourceMetrics &rm) { for (const ScopeMetrics &smd : rm.scope_metric_data_) { for (const MetricData &md : smd.metric_data_) { for (const PointDataAttributes &dp : md.point_data_attr_) { actuals.push_back(opentelemetry::nostd::get(dp.point_data)); } } } return true; }); ASSERT_EQ(1, actuals.size()); const auto &actual = actuals.at(0); ASSERT_EQ(1000275.0, opentelemetry::nostd::get(actual.value_)); } TEST(CounterToSumFilterAttributes, Double) { MeterProvider mp; auto m = mp.GetMeter("meter1", "version1", "schema1"); std::string instrument_unit = "ms"; std::string instrument_name = "counter1"; std::string instrument_desc = "counter metrics"; std::unordered_map allowedattr; allowedattr["attr1"] = true; std::unique_ptr attrproc{ new opentelemetry::sdk::metrics::FilteringAttributesProcessor(allowedattr)}; std::shared_ptr dummy_aggregation_config{ new opentelemetry::sdk::metrics::AggregationConfig}; std::unique_ptr exporter(new MockMetricExporter()); std::shared_ptr reader{new MockMetricReader(std::move(exporter))}; mp.AddMetricReader(reader); std::unique_ptr view{new View("view1", "view1_description", instrument_unit, AggregationType::kSum, dummy_aggregation_config, std::move(attrproc))}; std::unique_ptr instrument_selector{ new InstrumentSelector(InstrumentType::kCounter, instrument_name, instrument_unit)}; std::unique_ptr meter_selector{new MeterSelector("meter1", "version1", "schema1")}; mp.AddView(std::move(instrument_selector), std::move(meter_selector), std::move(view)); auto c = m->CreateDoubleCounter(instrument_name, instrument_desc, instrument_unit); std::unordered_map attr1 = {{"attr1", "val1"}, {"attr2", "val2"}}; std::unordered_map attr2 = {{"attr1", "val1"}, {"attr2", "val2"}}; c->Add(5, attr1, opentelemetry::context::Context{}); c->Add(10, attr2, opentelemetry::context::Context{}); reader->Collect([&](ResourceMetrics &rm) { for (const ScopeMetrics &smd : rm.scope_metric_data_) { for (const MetricData &md : smd.metric_data_) { EXPECT_EQ(1, md.point_data_attr_.size()); if (md.point_data_attr_.size() == 1) { EXPECT_EQ(15.0, opentelemetry::nostd::get(opentelemetry::nostd::get( md.point_data_attr_[0].point_data) .value_)); EXPECT_EQ(1, md.point_data_attr_[0].attributes.size()); EXPECT_NE(md.point_data_attr_[0].attributes.end(), md.point_data_attr_[0].attributes.find("attr1")); } } } return true; }); } class UpDownCounterToSumFixture : public ::testing::TestWithParam {}; TEST_P(UpDownCounterToSumFixture, Double) { bool is_matching_view = GetParam(); MeterProvider mp; auto m = mp.GetMeter("meter1", "version1", "schema1"); std::string instrument_name = "updowncounter1"; std::string instrument_desc = "updowncounter desc"; std::string instrument_unit = "ms"; std::unique_ptr exporter(new MockMetricExporter()); std::shared_ptr reader{new MockMetricReader(std::move(exporter))}; mp.AddMetricReader(reader); if (is_matching_view) { std::unique_ptr view{ new View("view1", "view1_description", instrument_unit, AggregationType::kSum)}; std::unique_ptr instrument_selector{ new InstrumentSelector(InstrumentType::kUpDownCounter, instrument_name, instrument_unit)}; std::unique_ptr meter_selector{ new MeterSelector("meter1", "version1", "schema1")}; mp.AddView(std::move(instrument_selector), std::move(meter_selector), std::move(view)); } auto h = m->CreateDoubleUpDownCounter(instrument_name, instrument_desc, instrument_unit); h->Add(5, {}); h->Add(10, {}); h->Add(-15, {}); h->Add(20, {}); h->Add(25, {}); h->Add(-30, {}); std::vector actuals; reader->Collect([&](ResourceMetrics &rm) { for (const ScopeMetrics &smd : rm.scope_metric_data_) { for (const MetricData &md : smd.metric_data_) { for (const PointDataAttributes &dp : md.point_data_attr_) { actuals.push_back(opentelemetry::nostd::get(dp.point_data)); } } } return true; }); ASSERT_EQ(1, actuals.size()); const auto &actual = actuals.at(0); ASSERT_EQ(15.0, opentelemetry::nostd::get(actual.value_)); } INSTANTIATE_TEST_SUITE_P(UpDownCounterToSum, UpDownCounterToSumFixture, ::testing::Values(true, false)); #endif