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- from datetime import timedelta
- import pytest
- from django.urls import reverse
- from sentry.search.events import constants
- from sentry.search.utils import map_device_class_level
- from sentry.testutils.cases import MetricsEnhancedPerformanceTestCase
- from sentry.testutils.helpers.datetime import before_now
- pytestmark = pytest.mark.sentry_metrics
- class OrganizationEventsMetricsEnhancedPerformanceEndpointTest(MetricsEnhancedPerformanceTestCase):
- viewname = "sentry-api-0-organization-events"
- # Poor intentionally omitted for test_measurement_rating_that_does_not_exist
- METRIC_STRINGS = [
- "foo_transaction",
- "bar_transaction",
- ]
- def setUp(self):
- super().setUp()
- self.min_ago = before_now(minutes=1)
- self.six_min_ago = before_now(minutes=6)
- self.three_days_ago = before_now(days=3)
- self.features = {
- "organizations:starfish-view": True,
- }
- def do_request(self, query, features=None):
- if features is None:
- features = {"organizations:discover-basic": True}
- features.update(self.features)
- self.login_as(user=self.user)
- url = reverse(
- self.viewname,
- kwargs={"organization_id_or_slug": self.organization.slug},
- )
- with self.feature(features):
- return self.client.get(url, query, format="json")
- def test_p50_with_no_data(self):
- response = self.do_request(
- {
- "field": ["p50()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["p50()"] == 0
- assert meta["dataset"] == "spansMetrics"
- def test_count(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.three_days_ago,
- )
- response = self.do_request(
- {
- "field": ["count()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "7d",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["count()"] == 1
- assert meta["dataset"] == "spansMetrics"
- def test_count_unique(self):
- self.store_span_metric(
- 1,
- "user",
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 2,
- "user",
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["count_unique(user)"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["count_unique(user)"] == 2
- assert meta["dataset"] == "spansMetrics"
- def test_sum(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 99,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["sum(span.self_time)"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["sum(span.self_time)"] == 420
- assert meta["dataset"] == "spansMetrics"
- def test_percentile(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["percentile(span.self_time, 0.95)"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["percentile(span.self_time, 0.95)"] == 1
- assert meta["dataset"] == "spansMetrics"
- def test_fixed_percentile_functions(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- for function in ["p50()", "p75()", "p95()", "p99()", "p100()"]:
- response = self.do_request(
- {
- "field": [function],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0][function] == 1, function
- assert meta["dataset"] == "spansMetrics", function
- assert meta["fields"][function] == "duration", function
- def test_fixed_percentile_functions_with_duration(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SPAN_METRICS_MAP["span.duration"],
- timestamp=self.min_ago,
- )
- for function in [
- "p50(span.duration)",
- "p75(span.duration)",
- "p95(span.duration)",
- "p99(span.duration)",
- "p100(span.duration)",
- ]:
- response = self.do_request(
- {
- "field": [function],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1, function
- assert data[0][function] == 1, function
- assert meta["dataset"] == "spansMetrics", function
- assert meta["fields"][function] == "duration", function
- def test_avg(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["avg()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["avg()"] == 1
- assert meta["dataset"] == "spansMetrics"
- def test_eps(self):
- for _ in range(6):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["eps()", "sps()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["eps()"] == 0.01
- assert data[0]["sps()"] == 0.01
- assert meta["fields"]["eps()"] == "rate"
- assert meta["fields"]["sps()"] == "rate"
- assert meta["units"]["eps()"] == "1/second"
- assert meta["units"]["sps()"] == "1/second"
- assert meta["dataset"] == "spansMetrics"
- def test_epm(self):
- for _ in range(6):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["epm()", "spm()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["epm()"] == 0.6
- assert data[0]["spm()"] == 0.6
- assert meta["fields"]["epm()"] == "rate"
- assert meta["fields"]["spm()"] == "rate"
- assert meta["units"]["epm()"] == "1/minute"
- assert meta["units"]["spm()"] == "1/minute"
- assert meta["dataset"] == "spansMetrics"
- def test_time_spent_percentage(self):
- for _ in range(4):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"transaction": "foo_transaction"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- tags={"transaction": "foo_transaction"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"transaction": "bar_transaction"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- tags={"transaction": "bar_transaction"},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["transaction", "time_spent_percentage()"],
- "query": "",
- "orderby": ["-time_spent_percentage()"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 2
- assert data[0]["time_spent_percentage()"] == 0.8
- assert data[0]["transaction"] == "foo_transaction"
- assert data[1]["time_spent_percentage()"] == 0.2
- assert data[1]["transaction"] == "bar_transaction"
- assert meta["dataset"] == "spansMetrics"
- def test_time_spent_percentage_local(self):
- response = self.do_request(
- {
- "field": ["time_spent_percentage(local)"],
- "query": "",
- "orderby": ["-time_spent_percentage(local)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["time_spent_percentage(local)"] is None
- assert meta["dataset"] == "spansMetrics"
- def test_time_spent_percentage_on_span_duration(self):
- for _ in range(4):
- self.store_span_metric(
- 1,
- internal_metric=constants.SPAN_METRICS_MAP["span.duration"],
- tags={"transaction": "foo_transaction"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SPAN_METRICS_MAP["span.duration"],
- tags={"transaction": "bar_transaction"},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["transaction", "time_spent_percentage(app,span.duration)"],
- "query": "",
- "orderby": ["-time_spent_percentage(app,span.duration)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 2
- assert data[0]["time_spent_percentage(app,span.duration)"] == 0.8
- assert data[0]["transaction"] == "foo_transaction"
- assert data[1]["time_spent_percentage(app,span.duration)"] == 0.2
- assert data[1]["transaction"] == "bar_transaction"
- assert meta["dataset"] == "spansMetrics"
- def test_http_error_rate_and_count(self):
- for _ in range(4):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"span.status_code": "500"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"span.status_code": "200"},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["http_error_count()", "http_error_rate()"],
- "query": "",
- "orderby": ["-http_error_rate()"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["http_error_rate()"] == 0.8
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["http_error_count()"] == "integer"
- assert meta["fields"]["http_error_rate()"] == "percentage"
- def test_ttid_rate_and_count(self):
- for _ in range(8):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"ttid": "ttid", "ttfd": "ttfd"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"ttfd": "ttfd", "ttid": ""},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"ttfd": "", "ttid": ""},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": [
- "ttid_contribution_rate()",
- "ttid_count()",
- "ttfd_contribution_rate()",
- "ttfd_count()",
- ],
- "query": "",
- "orderby": ["-ttid_contribution_rate()"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["ttid_contribution_rate()"] == 0.8
- assert data[0]["ttid_count()"] == 8
- assert data[0]["ttfd_contribution_rate()"] == 0.9
- assert data[0]["ttfd_count()"] == 9
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["ttid_count()"] == "integer"
- assert meta["fields"]["ttid_contribution_rate()"] == "percentage"
- assert meta["fields"]["ttfd_count()"] == "integer"
- assert meta["fields"]["ttfd_contribution_rate()"] == "percentage"
- def test_main_thread_count(self):
- for _ in range(8):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"span.main_thread": "true"},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={},
- timestamp=self.min_ago,
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"span.main_thread": ""},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": [
- "main_thread_count()",
- ],
- "query": "",
- "orderby": ["-main_thread_count()"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["main_thread_count()"] == 8
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["main_thread_count()"] == "integer"
- def test_use_self_time_light(self):
- self.store_span_metric(
- 100,
- internal_metric=constants.SELF_TIME_LIGHT,
- tags={"transaction": "foo_transaction"},
- timestamp=self.min_ago,
- )
- response = self.do_request(
- {
- "field": ["p50(span.self_time)"],
- # Should be 0 since its filtering on transaction
- "query": "transaction:foo_transaction",
- "orderby": ["-p50(span.self_time)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["p50(span.self_time)"] == 0
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["p50(span.self_time)"] == "duration"
- response = self.do_request(
- {
- # Should be 0 since it has a transaction column
- "field": ["transaction", "p50(span.self_time)"],
- "query": "",
- "orderby": ["-p50(span.self_time)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 0
- response = self.do_request(
- {
- "field": ["p50(span.self_time)"],
- # Should be 100 since its not filtering on transaction
- "query": "",
- "orderby": ["-p50(span.self_time)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["p50(span.self_time)"] == 100
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["p50(span.self_time)"] == "duration"
- def test_span_module(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "http", "span.description": "f"},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "db", "span.description": "e"},
- )
- self.store_span_metric(
- 5,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "foobar", "span.description": "d"},
- )
- self.store_span_metric(
- 7,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "cache", "span.description": "c"},
- )
- self.store_span_metric(
- 9,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "db", "span.op": "db.redis", "span.description": "b"},
- )
- self.store_span_metric(
- 11,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.category": "db", "span.op": "db.sql.room", "span.description": "a"},
- )
- response = self.do_request(
- {
- "field": ["span.module", "span.description", "p50(span.self_time)"],
- "query": "",
- "orderby": ["-p50(span.self_time)"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "10m",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 6
- assert data[0]["p50(span.self_time)"] == 11
- assert data[0]["span.module"] == "other"
- assert data[0]["span.description"] == "a"
- assert data[1]["p50(span.self_time)"] == 9
- assert data[1]["span.module"] == "cache"
- assert data[1]["span.description"] == "b"
- assert data[2]["p50(span.self_time)"] == 7
- assert data[2]["span.module"] == "cache"
- assert data[2]["span.description"] == "c"
- assert data[3]["p50(span.self_time)"] == 5
- assert data[3]["span.module"] == "other"
- assert data[3]["span.description"] == "d"
- assert data[4]["p50(span.self_time)"] == 3
- assert data[4]["span.module"] == "db"
- assert data[4]["span.description"] == "e"
- assert data[5]["p50(span.self_time)"] == 1
- assert data[5]["span.module"] == "http"
- assert data[5]["span.description"] == "f"
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["p50(span.self_time)"] == "duration"
- def test_tag_search(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.description": "foo"},
- )
- self.store_span_metric(
- 99,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.description": "bar"},
- )
- response = self.do_request(
- {
- "field": ["sum(span.self_time)"],
- "query": "span.description:bar",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["sum(span.self_time)"] == 99
- assert meta["dataset"] == "spansMetrics"
- def test_free_text_search(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.description": "foo"},
- )
- self.store_span_metric(
- 99,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.description": "bar"},
- )
- response = self.do_request(
- {
- "field": ["sum(span.self_time)"],
- "query": "foo",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["sum(span.self_time)"] == 321
- assert meta["dataset"] == "spansMetrics"
- def test_avg_compare(self):
- self.store_span_metric(
- 100,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"release": "foo"},
- )
- self.store_span_metric(
- 10,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"release": "bar"},
- )
- for function_name in [
- "avg_compare(span.self_time, release, foo, bar)",
- 'avg_compare(span.self_time, release, "foo", "bar")',
- ]:
- response = self.do_request(
- {
- "field": [function_name],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0][function_name] == -0.9
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"][function_name] == "percent_change"
- def test_avg_compare_invalid_column(self):
- response = self.do_request(
- {
- "field": ["avg_compare(span.self_time, transaction, foo, bar)"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 400, response.content
- def test_span_domain_array(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,"},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,sentry_table2,"},
- )
- response = self.do_request(
- {
- "field": ["span.domain", "p75(span.self_time)"],
- "query": "",
- "project": self.project.id,
- "orderby": ["-p75(span.self_time)"],
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 2
- assert data[0]["span.domain"] == ["sentry_table1"]
- assert data[1]["span.domain"] == ["sentry_table1", "sentry_table2"]
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["span.domain"] == "array"
- def test_span_domain_array_filter(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,"},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,sentry_table2,"},
- )
- response = self.do_request(
- {
- "field": ["span.domain", "p75(span.self_time)"],
- "query": "span.domain:sentry_table2",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["span.domain"] == ["sentry_table1", "sentry_table2"]
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["span.domain"] == "array"
- def test_span_domain_array_filter_wildcard(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,"},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,sentry_table2,"},
- )
- for query in ["sentry*2", "*table2", "sentry_table2*"]:
- response = self.do_request(
- {
- "field": ["span.domain", "p75(span.self_time)"],
- "query": f"span.domain:{query}",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1, query
- assert data[0]["span.domain"] == ["sentry_table1", "sentry_table2"], query
- assert meta["dataset"] == "spansMetrics", query
- assert meta["fields"]["span.domain"] == "array"
- def test_span_domain_array_has_filter(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ""},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,sentry_table2,"},
- )
- response = self.do_request(
- {
- "field": ["span.domain", "p75(span.self_time)"],
- "query": "has:span.domain",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["span.domain"] == ["sentry_table1", "sentry_table2"]
- assert meta["dataset"] == "spansMetrics"
- response = self.do_request(
- {
- "field": ["span.domain", "p75(span.self_time)"],
- "query": "!has:span.domain",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["span.domain"] == "array"
- def test_unique_values_span_domain(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table1,"},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table2,sentry_table3,"},
- )
- response = self.do_request(
- {
- "field": ["unique.span_domains", "count()"],
- "query": "",
- "orderby": "unique.span_domains",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 3
- assert data[0]["unique.span_domains"] == "sentry_table1"
- assert data[1]["unique.span_domains"] == "sentry_table2"
- assert data[2]["unique.span_domains"] == "sentry_table3"
- assert meta["fields"]["unique.span_domains"] == "string"
- def test_unique_values_span_domain_with_filter(self):
- self.store_span_metric(
- 321,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_tible1,"},
- )
- self.store_span_metric(
- 21,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.domain": ",sentry_table2,sentry_table3,"},
- )
- response = self.do_request(
- {
- "field": ["unique.span_domains", "count()"],
- "query": "span.domain:sentry_tab*",
- "orderby": "unique.span_domains",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 2
- assert data[0]["unique.span_domains"] == "sentry_table2"
- assert data[1]["unique.span_domains"] == "sentry_table3"
- assert meta["fields"]["unique.span_domains"] == "string"
- def test_avg_if(self):
- self.store_span_metric(
- 100,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"release": "foo"},
- )
- self.store_span_metric(
- 200,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"release": "foo"},
- )
- self.store_span_metric(
- 10,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"release": "bar"},
- )
- self.store_span_metric(
- 300,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.op": "queue.process"},
- )
- response = self.do_request(
- {
- "field": [
- "avg_if(span.self_time, release, foo)",
- "avg_if(span.self_time, span.op, queue.process)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["avg_if(span.self_time, release, foo)"] == 150
- assert data[0]["avg_if(span.self_time, span.op, queue.process)"] == 300
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["avg_if(span.self_time, release, foo)"] == "duration"
- assert meta["fields"]["avg_if(span.self_time, span.op, queue.process)"] == "duration"
- def test_device_class(self):
- self.store_span_metric(
- 123,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"device.class": "1"},
- )
- self.store_span_metric(
- 678,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"device.class": "2"},
- )
- self.store_span_metric(
- 999,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"device.class": ""},
- )
- response = self.do_request(
- {
- "field": ["device.class", "p95()"],
- "query": "",
- "orderby": "p95()",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 3
- # Need to actually check the dict since the level for 1 isn't guaranteed to stay `low` or `medium`
- assert data[0]["device.class"] == map_device_class_level("1")
- assert data[1]["device.class"] == map_device_class_level("2")
- assert data[2]["device.class"] == "Unknown"
- assert meta["fields"]["device.class"] == "string"
- def test_device_class_filter(self):
- self.store_span_metric(
- 123,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"device.class": "1"},
- )
- # Need to actually check the dict since the level for 1 isn't guaranteed to stay `low`
- level = map_device_class_level("1")
- response = self.do_request(
- {
- "field": ["device.class", "count()"],
- "query": f"device.class:{level}",
- "orderby": "count()",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["device.class"] == level
- assert meta["fields"]["device.class"] == "string"
- def test_device_class_filter_unknown(self):
- self.store_span_metric(
- 123,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"device.class": ""},
- )
- response = self.do_request(
- {
- "field": ["device.class", "count()"],
- "query": "device.class:Unknown",
- "orderby": "count()",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["device.class"] == "Unknown"
- assert meta["fields"]["device.class"] == "string"
- def test_cache_hit_rate(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "true"},
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "false"},
- )
- response = self.do_request(
- {
- "field": ["cache_hit_rate()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["cache_hit_rate()"] == 0.5
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["cache_hit_rate()"] == "percentage"
- def test_cache_miss_rate(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "true"},
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "false"},
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "false"},
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"cache.hit": "false"},
- )
- response = self.do_request(
- {
- "field": ["cache_miss_rate()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- meta = response.data["meta"]
- assert len(data) == 1
- assert data[0]["cache_miss_rate()"] == 0.75
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["cache_miss_rate()"] == "percentage"
- def test_http_response_rate(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.status_code": "200"},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.status_code": "301"},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.status_code": "404"},
- )
- self.store_span_metric(
- 4,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.status_code": "503"},
- )
- self.store_span_metric(
- 5,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"span.status_code": "501"},
- )
- response = self.do_request(
- {
- "field": [
- "http_response_rate(200)", # By exact code
- "http_response_rate(3)", # By code class
- "http_response_rate(4)",
- "http_response_rate(5)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 1
- assert data[0]["http_response_rate(200)"] == 0.2
- assert data[0]["http_response_rate(3)"] == 0.2
- assert data[0]["http_response_rate(4)"] == 0.2
- assert data[0]["http_response_rate(5)"] == 0.4
- meta = response.data["meta"]
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["http_response_rate(200)"] == "percentage"
- def test_regression_score_regression(self):
- # This span increases in duration
- self.store_span_metric(
- 1,
- timestamp=self.six_min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Regressed Span"},
- project=self.project.id,
- )
- self.store_span_metric(
- 100,
- timestamp=self.min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Regressed Span"},
- project=self.project.id,
- )
- # This span stays the same
- self.store_span_metric(
- 1,
- timestamp=self.three_days_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- self.store_span_metric(
- 1,
- timestamp=self.min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- response = self.do_request(
- {
- "field": [
- "span.description",
- f"regression_score(span.self_time,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "transaction:/api/0/projects/",
- "dataset": "spansMetrics",
- "orderby": [
- f"-regression_score(span.self_time,{int(self.two_min_ago.timestamp())})"
- ],
- "start": (self.six_min_ago - timedelta(minutes=1)).isoformat(),
- "end": before_now(minutes=0),
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 2
- assert [row["span.description"] for row in data] == ["Regressed Span", "Non-regressed"]
- def test_regression_score_added_span(self):
- # This span only exists after the breakpoint
- self.store_span_metric(
- 100,
- timestamp=self.min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Added span"},
- project=self.project.id,
- )
- # This span stays the same
- self.store_span_metric(
- 1,
- timestamp=self.three_days_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- self.store_span_metric(
- 1,
- timestamp=self.min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- response = self.do_request(
- {
- "field": [
- "span.description",
- f"regression_score(span.self_time,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "transaction:/api/0/projects/",
- "dataset": "spansMetrics",
- "orderby": [
- f"-regression_score(span.self_time,{int(self.two_min_ago.timestamp())})"
- ],
- "start": (self.six_min_ago - timedelta(minutes=1)).isoformat(),
- "end": before_now(minutes=0),
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 2
- assert [row["span.description"] for row in data] == ["Added span", "Non-regressed"]
- def test_regression_score_removed_span(self):
- # This span only exists before the breakpoint
- self.store_span_metric(
- 100,
- timestamp=self.six_min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Removed span"},
- project=self.project.id,
- )
- # This span stays the same
- self.store_span_metric(
- 1,
- timestamp=self.three_days_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- self.store_span_metric(
- 1,
- timestamp=self.min_ago,
- tags={"transaction": "/api/0/projects/", "span.description": "Non-regressed"},
- project=self.project.id,
- )
- response = self.do_request(
- {
- "field": [
- "span.description",
- f"regression_score(span.self_time,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "transaction:/api/0/projects/",
- "dataset": "spansMetrics",
- "orderby": [
- f"-regression_score(span.self_time,{int(self.two_min_ago.timestamp())})"
- ],
- "start": (self.six_min_ago - timedelta(minutes=1)).isoformat(),
- "end": before_now(minutes=0),
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 2
- assert [row["span.description"] for row in data] == ["Non-regressed", "Removed span"]
- # The regression score is <0 for removed spans, this can act as
- # a way to filter out removed spans when necessary
- assert data[1][f"regression_score(span.self_time,{int(self.two_min_ago.timestamp())})"] < 0
- def test_avg_self_time_by_timestamp(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={},
- )
- response = self.do_request(
- {
- "field": [
- f"avg_by_timestamp(span.self_time,less,{int(self.two_min_ago.timestamp())})",
- f"avg_by_timestamp(span.self_time,greater,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 1
- assert data[0] == {
- f"avg_by_timestamp(span.self_time,less,{int(self.two_min_ago.timestamp())})": 1.0,
- f"avg_by_timestamp(span.self_time,greater,{int(self.two_min_ago.timestamp())})": 3.0,
- }
- def test_avg_self_time_by_timestamp_invalid_condition(self):
- response = self.do_request(
- {
- "field": [
- f"avg_by_timestamp(span.self_time,INVALID_ARG,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 400, response.content
- assert (
- response.data["detail"]
- == "avg_by_timestamp: condition argument invalid: string must be one of ['greater', 'less']"
- )
- def test_epm_by_timestamp(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={},
- )
- # More events occur after the timestamp
- for _ in range(3):
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={},
- )
- response = self.do_request(
- {
- "field": [
- f"epm_by_timestamp(less,{int(self.two_min_ago.timestamp())})",
- f"epm_by_timestamp(greater,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 1
- assert data[0][f"epm_by_timestamp(less,{int(self.two_min_ago.timestamp())})"] < 1.0
- assert data[0][f"epm_by_timestamp(greater,{int(self.two_min_ago.timestamp())})"] > 1.0
- def test_epm_by_timestamp_invalid_condition(self):
- response = self.do_request(
- {
- "field": [
- f"epm_by_timestamp(INVALID_ARG,{int(self.two_min_ago.timestamp())})",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 400, response.content
- assert (
- response.data["detail"]
- == "epm_by_timestamp: condition argument invalid: string must be one of ['greater', 'less']"
- )
- def test_any_function(self):
- for char in "abc":
- for transaction in ["foo", "bar"]:
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.description": char, "transaction": transaction},
- )
- response = self.do_request(
- {
- "field": [
- "transaction",
- "any(span.description)",
- ],
- "query": "",
- "orderby": ["transaction"],
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- assert response.data["data"] == [
- {"transaction": "bar", "any(span.description)": "a"},
- {"transaction": "foo", "any(span.description)": "a"},
- ]
- def test_count_op(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.op": "queue.publish"},
- )
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={"span.op": "queue.process"},
- )
- response = self.do_request(
- {
- "field": [
- "count_op(queue.publish)",
- "count_op(queue.process)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert data == [
- {"count_op(queue.publish)": 1, "count_op(queue.process)": 1},
- ]
- def test_project_mapping(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.six_min_ago,
- tags={},
- )
- # More events occur after the timestamp
- for _ in range(3):
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={},
- )
- response = self.do_request(
- {
- "field": ["project", "project.name", "count()"],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert data[0]["project"] == self.project.slug
- assert data[0]["project.name"] == self.project.slug
- def test_slow_frames_gauge_metric(self):
- self.store_span_metric(
- {
- "min": 5,
- "max": 5,
- "sum": 5,
- "count": 1,
- "last": 5,
- },
- entity="metrics_gauges",
- metric="mobile.slow_frames",
- timestamp=self.six_min_ago,
- tags={"release": "foo"},
- )
- self.store_span_metric(
- {
- "min": 10,
- "max": 10,
- "sum": 10,
- "count": 1,
- "last": 10,
- },
- entity="metrics_gauges",
- metric="mobile.slow_frames",
- timestamp=self.six_min_ago,
- tags={"release": "bar"},
- )
- response = self.do_request(
- {
- "field": [
- "avg_if(mobile.slow_frames,release,foo)",
- "avg_if(mobile.slow_frames,release,bar)",
- "avg_compare(mobile.slow_frames,release,foo,bar)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert data == [
- {
- "avg_compare(mobile.slow_frames,release,foo,bar)": 1.0,
- "avg_if(mobile.slow_frames,release,foo)": 5.0,
- "avg_if(mobile.slow_frames,release,bar)": 10.0,
- }
- ]
- def test_resolve_messaging_message_receive_latency_gauge(self):
- self.store_span_metric(
- {
- "min": 5,
- "max": 5,
- "sum": 5,
- "count": 1,
- "last": 5,
- },
- entity="metrics_gauges",
- metric="messaging.message.receive.latency",
- timestamp=self.six_min_ago,
- tags={"messaging.destination.name": "foo", "trace.status": "ok"},
- )
- self.store_span_metric(
- {
- "min": 10,
- "max": 10,
- "sum": 10,
- "count": 1,
- "last": 10,
- },
- entity="metrics_gauges",
- metric="messaging.message.receive.latency",
- timestamp=self.six_min_ago,
- tags={"messaging.destination.name": "bar", "trace.status": "ok"},
- )
- response = self.do_request(
- {
- "field": [
- "messaging.destination.name",
- "trace.status",
- "avg(messaging.message.receive.latency)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- "statsPeriod": "1h",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert data == [
- {
- "messaging.destination.name": "bar",
- "trace.status": "ok",
- "avg(messaging.message.receive.latency)": 10.0,
- },
- {
- "messaging.destination.name": "foo",
- "trace.status": "ok",
- "avg(messaging.message.receive.latency)": 5.0,
- },
- ]
- def test_trace_status_rate(self):
- self.store_span_metric(
- 1,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"trace.status": "unknown"},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"trace.status": "internal_error"},
- )
- self.store_span_metric(
- 3,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"trace.status": "unauthenticated"},
- )
- self.store_span_metric(
- 4,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"trace.status": "ok"},
- )
- self.store_span_metric(
- 5,
- internal_metric=constants.SELF_TIME_LIGHT,
- timestamp=self.min_ago,
- tags={"trace.status": "ok"},
- )
- response = self.do_request(
- {
- "field": [
- "trace_status_rate(ok)",
- "trace_status_rate(unknown)",
- "trace_status_rate(internal_error)",
- "trace_status_rate(unauthenticated)",
- ],
- "query": "",
- "project": self.project.id,
- "dataset": "spansMetrics",
- }
- )
- assert response.status_code == 200, response.content
- data = response.data["data"]
- assert len(data) == 1
- assert data[0]["trace_status_rate(ok)"] == 0.4
- assert data[0]["trace_status_rate(unknown)"] == 0.2
- assert data[0]["trace_status_rate(internal_error)"] == 0.2
- assert data[0]["trace_status_rate(unauthenticated)"] == 0.2
- meta = response.data["meta"]
- assert meta["dataset"] == "spansMetrics"
- assert meta["fields"]["trace_status_rate(ok)"] == "percentage"
- assert meta["fields"]["trace_status_rate(unknown)"] == "percentage"
- assert meta["fields"]["trace_status_rate(internal_error)"] == "percentage"
- assert meta["fields"]["trace_status_rate(unauthenticated)"] == "percentage"
- class OrganizationEventsMetricsEnhancedPerformanceEndpointTestWithMetricLayer(
- OrganizationEventsMetricsEnhancedPerformanceEndpointTest
- ):
- def setUp(self):
- super().setUp()
- self.features["organizations:use-metrics-layer"] = True
- @pytest.mark.xfail(reason="Not implemented")
- def test_time_spent_percentage(self):
- super().test_time_spent_percentage()
- @pytest.mark.xfail(reason="Not implemented")
- def test_time_spent_percentage_local(self):
- super().test_time_spent_percentage_local()
- @pytest.mark.xfail(reason="Not implemented")
- def test_time_spent_percentage_on_span_duration(self):
- super().test_time_spent_percentage_on_span_duration()
- @pytest.mark.xfail(reason="Cannot group by function 'if'")
- def test_span_module(self):
- super().test_span_module()
- @pytest.mark.xfail(reason="Cannot search by tags")
- def test_tag_search(self):
- super().test_tag_search()
- @pytest.mark.xfail(reason="Cannot search by tags")
- def test_free_text_search(self):
- super().test_free_text_search()
- @pytest.mark.xfail(reason="Not implemented")
- def test_avg_compare(self):
- super().test_avg_compare()
- @pytest.mark.xfail(reason="Not implemented")
- def test_span_domain_array(self):
- super().test_span_domain_array()
- @pytest.mark.xfail(reason="Not implemented")
- def test_span_domain_array_filter(self):
- super().test_span_domain_array_filter()
- @pytest.mark.xfail(reason="Not implemented")
- def test_span_domain_array_filter_wildcard(self):
- super().test_span_domain_array_filter_wildcard()
- @pytest.mark.xfail(reason="Not implemented")
- def test_span_domain_array_has_filter(self):
- super().test_span_domain_array_has_filter()
- @pytest.mark.xfail(reason="Not implemented")
- def test_unique_values_span_domain(self):
- super().test_unique_values_span_domain()
- @pytest.mark.xfail(reason="Not implemented")
- def test_unique_values_span_domain_with_filter(self):
- super().test_unique_values_span_domain_with_filter()
- @pytest.mark.xfail(reason="Not implemented")
- def test_avg_if(self):
- super().test_avg_if()
- @pytest.mark.xfail(reason="Not implemented")
- def test_device_class_filter(self):
- super().test_device_class_filter()
- @pytest.mark.xfail(reason="Not implemented")
- def test_device_class(self):
- super().test_device_class()
- @pytest.mark.xfail(reason="Not implemented")
- def test_count_op(self):
- super().test_count_op()
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