from datetime import datetime, timedelta from unittest.mock import patch import pytz from sentry.models import Environment, Group, GroupRelease, Release from sentry.testutils import SnubaTestCase, TestCase from sentry.testutils.helpers.datetime import iso_format from sentry.testutils.performance_issues.store_transaction import PerfIssueTransactionTestMixin from sentry.testutils.silo import region_silo_test from sentry.tsdb.base import TSDBModel from sentry.tsdb.snuba import SnubaTSDB from sentry.types.issues import GroupType from sentry.utils.dates import to_datetime, to_timestamp from sentry.utils.snuba import aliased_query def timestamp(d): t = int(to_timestamp(d)) return t - (t % 3600) def has_shape(data, shape, allow_empty=False): """ Determine if a data object has the provided shape At any level, the object in `data` and in `shape` must have the same type. A dict is the same shape if all its keys and values have the same shape as the key/value in `shape`. The number of keys/values is not relevant. A list is the same shape if all its items have the same shape as the value in `shape` A tuple is the same shape if it has the same length as `shape` and all the values have the same shape as the corresponding value in `shape` Any other object simply has to have the same type. If `allow_empty` is set, lists and dicts in `data` will pass even if they are empty. """ if not isinstance(data, type(shape)): return False if isinstance(data, dict): return ( (allow_empty or len(data) > 0) and all(has_shape(k, list(shape.keys())[0]) for k in data.keys()) and all(has_shape(v, list(shape.values())[0]) for v in data.values()) ) elif isinstance(data, list): return (allow_empty or len(data) > 0) and all(has_shape(v, shape[0]) for v in data) elif isinstance(data, tuple): return len(data) == len(shape) and all( has_shape(data[i], shape[i]) for i in range(len(data)) ) else: return True class SnubaTSDBTest(TestCase, SnubaTestCase): def setUp(self): super().setUp() self.db = SnubaTSDB() self.now = (datetime.utcnow() - timedelta(hours=4)).replace( hour=0, minute=0, second=0, microsecond=0, tzinfo=pytz.UTC ) self.proj1 = self.create_project() env1 = "test" env2 = "dev" defaultenv = "" release1 = "1" * 10 release2 = "2" * 10 self.release1 = Release.objects.create( organization_id=self.organization.id, version=release1, date_added=self.now ) self.release1.add_project(self.proj1) self.release2 = Release.objects.create( organization_id=self.organization.id, version=release2, date_added=self.now ) self.release2.add_project(self.proj1) for r in range(0, 14400, 600): # Every 10 min for 4 hours self.store_event( data={ "event_id": (str(r) * 32)[:32], "message": "message 1", "platform": "python", "fingerprint": [["group-1"], ["group-2"]][ (r // 600) % 2 ], # Switch every 10 mins "timestamp": iso_format(self.now + timedelta(seconds=r)), "tags": { "foo": "bar", "baz": "quux", # Switch every 2 hours "environment": [env1, None][(r // 7200) % 3], "sentry:user": f"id:user{r // 3300}", }, "user": { # change every 55 min so some hours have 1 user, some have 2 "id": f"user{r // 3300}", }, "release": str(r // 3600) * 10, # 1 per hour, }, project_id=self.proj1.id, ) groups = Group.objects.filter(project=self.proj1).order_by("id") self.proj1group1 = groups[0] self.proj1group2 = groups[1] self.env1 = Environment.objects.get(name=env1) self.env2 = self.create_environment(name=env2) # No events self.defaultenv = Environment.objects.get(name=defaultenv) self.group1release1env1 = GroupRelease.objects.get( project_id=self.proj1.id, group_id=self.proj1group1.id, release_id=self.release1.id, environment=env1, ) self.group1release2env1 = GroupRelease.objects.create( project_id=self.proj1.id, group_id=self.proj1group1.id, release_id=self.release2.id, environment=env1, ) self.group2release1env1 = GroupRelease.objects.get( project_id=self.proj1.id, group_id=self.proj1group2.id, release_id=self.release1.id, environment=env1, ) def test_range_single(self): env1 = "test" project = self.create_project() for r in range(0, 600 * 6 * 4, 300): # Every 10 min for 4 hours self.store_event( data={ "event_id": (str(r) * 32)[:32], "message": "message 1", "platform": "python", "fingerprint": ["group-1"], "timestamp": iso_format(self.now + timedelta(seconds=r)), "tags": { "foo": "bar", "baz": "quux", # Switch every 2 hours "environment": [env1, None][(r // 7200) % 3], "sentry:user": f"id:user{r // 3300}", }, "user": { # change every 55 min so some hours have 1 user, some have 2 "id": f"user{r // 3300}", }, "release": str(r // 3600) * 10, # 1 per hour, }, project_id=project.id, ) groups = Group.objects.filter(project=project).order_by("id") group = groups[0] dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_range(TSDBModel.group, [group.id], dts[0], dts[-1], rollup=3600) == { group.id: [ (timestamp(dts[0]), 6 * 2), (timestamp(dts[1]), 6 * 2), (timestamp(dts[2]), 6 * 2), (timestamp(dts[3]), 6 * 2), ] } def test_range_groups(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_range( TSDBModel.group, [self.proj1group1.id], dts[0], dts[-1], rollup=3600 ) == { self.proj1group1.id: [ (timestamp(dts[0]), 3), (timestamp(dts[1]), 3), (timestamp(dts[2]), 3), (timestamp(dts[3]), 3), ] } # Multiple groups assert self.db.get_range( TSDBModel.group, [self.proj1group1.id, self.proj1group2.id], dts[0], dts[-1], rollup=3600, ) == { self.proj1group1.id: [ (timestamp(dts[0]), 3), (timestamp(dts[1]), 3), (timestamp(dts[2]), 3), (timestamp(dts[3]), 3), ], self.proj1group2.id: [ (timestamp(dts[0]), 3), (timestamp(dts[1]), 3), (timestamp(dts[2]), 3), (timestamp(dts[3]), 3), ], } assert self.db.get_range(TSDBModel.group, [], dts[0], dts[-1], rollup=3600) == {} def test_range_releases(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_range( TSDBModel.release, [self.release1.id], dts[0], dts[-1], rollup=3600 ) == { self.release1.id: [ (timestamp(dts[0]), 0), (timestamp(dts[1]), 6), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } def test_range_project(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=3600 ) == { self.proj1.id: [ (timestamp(dts[0]), 6), (timestamp(dts[1]), 6), (timestamp(dts[2]), 6), (timestamp(dts[3]), 6), ] } def test_range_environment_filter(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=3600, environment_ids=[self.env1.id], ) == { self.proj1.id: [ (timestamp(dts[0]), 6), (timestamp(dts[1]), 6), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } # No events submitted for env2 assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=3600, environment_ids=[self.env2.id], ) == { self.proj1.id: [ (timestamp(dts[0]), 0), (timestamp(dts[1]), 0), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } # Events submitted with no environment should match default environment assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=3600, environment_ids=[self.defaultenv.id], ) == { self.proj1.id: [ (timestamp(dts[0]), 0), (timestamp(dts[1]), 0), (timestamp(dts[2]), 6), (timestamp(dts[3]), 6), ] } def test_range_rollups(self): # Daily daystart = self.now.replace(hour=0) # day buckets start on day boundaries dts = [daystart + timedelta(days=i) for i in range(2)] assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=86400 ) == {self.proj1.id: [(timestamp(dts[0]), 24), (timestamp(dts[1]), 0)]} # Minutely dts = [self.now + timedelta(minutes=i) for i in range(120)] # Expect every 10th minute to have a 1, else 0 expected = [(to_timestamp(d), 1 if i % 10 == 0 else 0) for i, d in enumerate(dts)] assert self.db.get_range( TSDBModel.project, [self.proj1.id], dts[0], dts[-1], rollup=60 ) == {self.proj1.id: expected} def test_distinct_counts_series_users(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_distinct_counts_series( TSDBModel.users_affected_by_group, [self.proj1group1.id], dts[0], dts[-1], rollup=3600 ) == { self.proj1group1.id: [ (timestamp(dts[0]), 1), (timestamp(dts[1]), 1), (timestamp(dts[2]), 1), (timestamp(dts[3]), 2), ] } dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_distinct_counts_series( TSDBModel.users_affected_by_project, [self.proj1.id], dts[0], dts[-1], rollup=3600 ) == { self.proj1.id: [ (timestamp(dts[0]), 1), (timestamp(dts[1]), 2), (timestamp(dts[2]), 2), (timestamp(dts[3]), 2), ] } assert ( self.db.get_distinct_counts_series( TSDBModel.users_affected_by_group, [], dts[0], dts[-1], rollup=3600 ) == {} ) def get_distinct_counts_totals_users(self): assert self.db.get_distinct_counts_totals( TSDBModel.users_affected_by_group, [self.proj1group1.id], self.now, self.now + timedelta(hours=4), rollup=3600, ) == { self.proj1group1.id: 2 # 2 unique users overall } assert self.db.get_distinct_counts_totals( TSDBModel.users_affected_by_group, [self.proj1group1.id], self.now, self.now, rollup=3600, ) == { self.proj1group1.id: 1 # Only 1 unique user in the first hour } assert self.db.get_distinct_counts_totals( TSDBModel.users_affected_by_project, [self.proj1.id], self.now, self.now + timedelta(hours=4), rollup=3600, ) == {self.proj1.id: 2} assert ( self.db.get_distinct_counts_totals( TSDBModel.users_affected_by_group, [], self.now, self.now + timedelta(hours=4), rollup=3600, ) == {} ) def test_most_frequent(self): assert self.db.get_most_frequent( TSDBModel.frequent_issues_by_project, [self.proj1.id], self.now, self.now + timedelta(hours=4), rollup=3600, ) in [ {self.proj1.id: [(self.proj1group1.id, 2.0), (self.proj1group2.id, 1.0)]}, {self.proj1.id: [(self.proj1group2.id, 2.0), (self.proj1group1.id, 1.0)]}, ] # Both issues equally frequent assert ( self.db.get_most_frequent( TSDBModel.frequent_issues_by_project, [], self.now, self.now + timedelta(hours=4), rollup=3600, ) == {} ) def test_frequency_series(self): dts = [self.now + timedelta(hours=i) for i in range(4)] assert self.db.get_frequency_series( TSDBModel.frequent_releases_by_group, { self.proj1group1.id: (self.group1release1env1.id, self.group1release2env1.id), self.proj1group2.id: (self.group2release1env1.id,), }, dts[0], dts[-1], rollup=3600, ) == { self.proj1group1.id: [ (timestamp(dts[0]), {self.group1release1env1.id: 0, self.group1release2env1.id: 0}), (timestamp(dts[1]), {self.group1release1env1.id: 3, self.group1release2env1.id: 0}), (timestamp(dts[2]), {self.group1release1env1.id: 0, self.group1release2env1.id: 3}), (timestamp(dts[3]), {self.group1release1env1.id: 0, self.group1release2env1.id: 0}), ], self.proj1group2.id: [ (timestamp(dts[0]), {self.group2release1env1.id: 0}), (timestamp(dts[1]), {self.group2release1env1.id: 3}), (timestamp(dts[2]), {self.group2release1env1.id: 0}), (timestamp(dts[3]), {self.group2release1env1.id: 0}), ], } assert ( self.db.get_frequency_series( TSDBModel.frequent_releases_by_group, {}, dts[0], dts[-1], rollup=3600 ) == {} ) def test_result_shape(self): """ Tests that the results from the different TSDB methods have the expected format. """ project_id = self.proj1.id dts = [self.now + timedelta(hours=i) for i in range(4)] results = self.db.get_most_frequent( TSDBModel.frequent_issues_by_project, [project_id], dts[0], dts[0] ) assert has_shape(results, {1: [(1, 1.0)]}) results = self.db.get_most_frequent_series( TSDBModel.frequent_issues_by_project, [project_id], dts[0], dts[0] ) assert has_shape(results, {1: [(1, {1: 1.0})]}) items = { # {project_id: (issue_id, issue_id, ...)} project_id: (self.proj1group1.id, self.proj1group2.id) } results = self.db.get_frequency_series( TSDBModel.frequent_issues_by_project, items, dts[0], dts[-1] ) assert has_shape(results, {1: [(1, {1: 1})]}) results = self.db.get_frequency_totals( TSDBModel.frequent_issues_by_project, items, dts[0], dts[-1] ) assert has_shape(results, {1: {1: 1}}) results = self.db.get_range(TSDBModel.project, [project_id], dts[0], dts[-1]) assert has_shape(results, {1: [(1, 1)]}) results = self.db.get_distinct_counts_series( TSDBModel.users_affected_by_project, [project_id], dts[0], dts[-1] ) assert has_shape(results, {1: [(1, 1)]}) results = self.db.get_distinct_counts_totals( TSDBModel.users_affected_by_project, [project_id], dts[0], dts[-1] ) assert has_shape(results, {1: 1}) results = self.db.get_distinct_counts_union( TSDBModel.users_affected_by_project, [project_id], dts[0], dts[-1] ) assert has_shape(results, 1) def test_calculated_limit(self): with patch("sentry.tsdb.snuba.snuba") as snuba: # 24h test rollup = 3600 end = self.now start = end + timedelta(days=-1, seconds=rollup) self.db.get_data(TSDBModel.group, [1, 2, 3, 4, 5], start, end, rollup=rollup) assert snuba.query.call_args[1]["limit"] == 120 # 14 day test rollup = 86400 start = end + timedelta(days=-14, seconds=rollup) self.db.get_data(TSDBModel.group, [1, 2, 3, 4, 5], start, end, rollup=rollup) assert snuba.query.call_args[1]["limit"] == 70 # 1h test rollup = 3600 end = self.now start = end + timedelta(hours=-1, seconds=rollup) self.db.get_data(TSDBModel.group, [1, 2, 3, 4, 5], start, end, rollup=rollup) assert snuba.query.call_args[1]["limit"] == 5 @region_silo_test class SnubaTSDBGroupPerformanceTest(TestCase, SnubaTestCase, PerfIssueTransactionTestMixin): def setUp(self): super().setUp() self.db = SnubaTSDB() self.now = (datetime.utcnow() - timedelta(hours=4)).replace( hour=0, minute=0, second=0, microsecond=0, tzinfo=pytz.UTC ) self.proj1 = self.create_project() self.env1 = Environment.objects.get_or_create( organization_id=self.proj1.organization_id, name="test" )[0] self.env2 = Environment.objects.get_or_create( organization_id=self.proj1.organization_id, name="dev" )[0] defaultenv = "" group1_fingerprint = f"{GroupType.PERFORMANCE_SLOW_SPAN.value}-group1" group2_fingerprint = f"{GroupType.PERFORMANCE_N_PLUS_ONE.value}-group2" for r in range(0, 14400, 600): # Every 10 min for 4 hours event = self.store_transaction( environment=[self.env1.name, None][(r // 7200) % 3], project_id=self.proj1.id, # change every 55 min so some hours have 1 user, some have 2 user_id=f"user{r // 3300}", # release_version=str(r // 3600) * 10, # 1 per hour, timestamp=self.now + timedelta(seconds=r), fingerprint=[group1_fingerprint, group2_fingerprint] if ((r // 600) % 2) else [], ) self.proj1group1 = event.groups[0] self.proj1group2 = event.groups[1] self.defaultenv = Environment.objects.get(name=defaultenv) def test_range_groups_single(self): from sentry.snuba.dataset import Dataset now = (datetime.utcnow() - timedelta(days=1)).replace( hour=10, minute=0, second=0, microsecond=0, tzinfo=pytz.UTC ) dts = [now + timedelta(hours=i) for i in range(4)] project = self.create_project() group_fingerprint = f"{GroupType.PERFORMANCE_N_PLUS_ONE.value}-group3" # not sure what's going on here, but `times=1,2,3,4` work fine # fails with anything above 4 times = 4 event_ids = [] events = [] for i in range(0, times): res = self.store_transaction( environment=None, project_id=project.id, user_id="my_user", timestamp=now + timedelta(minutes=i * 10), fingerprint=[group_fingerprint], ) grouped_by_project = aliased_query( dataset=Dataset.Transactions, start=None, end=None, groupby=None, conditions=None, filter_keys={"project_id": [project.id], "event_id": [res.event_id]}, selected_columns=["event_id", "project_id", "group_ids"], aggregations=None, ) assert grouped_by_project["data"][0]["event_id"] == res.event_id from sentry.eventstore.models import Event event_from_nodestore = Event(project_id=project.id, event_id=res.event_id) assert event_from_nodestore.event_id == res.event_id event_ids.append(res.event_id) events.append(res) group = events[0].groups[0] transactions_for_project = aliased_query( dataset=Dataset.Transactions, start=None, end=None, groupby=None, conditions=None, filter_keys={"project_id": [project.id]}, selected_columns=["project_id", "event_id"], aggregations=None, ) assert len(transactions_for_project["data"]) == times transactions_by_group = aliased_query( dataset=Dataset.Transactions, start=None, end=None, # start=group.first_seen, # end=now + timedelta(hours=4), groupby=["group_id"], conditions=None, filter_keys={"project_id": [project.id], "group_id": [group.id]}, aggregations=[ ["arrayJoin", ["group_ids"], "group_id"], ["count()", "", "times_seen"], ], ) assert transactions_by_group["data"][0]["times_seen"] == times # 1 + (times % 5) assert self.db.get_range( TSDBModel.group_performance, [group.id], dts[0], dts[-1], rollup=3600, ) == { group.id: [ # (timestamp(dts[0]), 1 + (times % 5)), (timestamp(dts[0]), times), (timestamp(dts[1]), 0), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } def test_range_groups_mult(self): now = (datetime.utcnow() - timedelta(days=1)).replace( hour=10, minute=0, second=0, microsecond=0, tzinfo=pytz.UTC ) dts = [now + timedelta(hours=i) for i in range(4)] project = self.create_project() group_fingerprint = f"{GroupType.PERFORMANCE_N_PLUS_ONE.value}-group4" ids = ["a", "b", "c", "d", "e", "f", "1", "2", "3", "4", "5"] events = [] for i, _ in enumerate(ids): event = self.store_transaction( environment=None, project_id=project.id, user_id="my_user", timestamp=now + timedelta(minutes=i * 10), fingerprint=[group_fingerprint], ) events.append(event) group = events[0].groups[0] assert self.db.get_range( TSDBModel.group_performance, [group.id], dts[0], dts[-1], rollup=3600, ) == { group.id: [ (timestamp(dts[0]), 6), (timestamp(dts[1]), 5), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } def test_range_groups_simple(self): project = self.create_project() now = (datetime.utcnow() - timedelta(days=1)).replace( hour=10, minute=0, second=0, microsecond=0, tzinfo=pytz.UTC ) group_fingerprint = f"{GroupType.PERFORMANCE_SLOW_SPAN.value}-group5" # for r in range(0, 14400, 600): # Every 10 min for 4 hours # for r in [1, 2, 3, 4, 5, 6, 7, 8]: ids = ["a", "b", "c", "d", "e"] # , "f"] events = [] for r in ids: # for r in range(0, 9, 1): event = self.store_transaction( environment=None, project_id=project.id, # change every 55 min so some hours have 1 user, some have 2 user_id=f"user{r}", # release_version=str(r // 3600) * 10, # 1 per hour, timestamp=now, fingerprint=[group_fingerprint], ) events.append(event) group = events[0].groups[0] dts = [now + timedelta(hours=i) for i in range(4)] assert self.db.get_range( TSDBModel.group_performance, [group.id], dts[0], dts[-1], rollup=3600, ) == { group.id: [ (timestamp(dts[0]), len(ids)), (timestamp(dts[1]), 0), (timestamp(dts[2]), 0), (timestamp(dts[3]), 0), ] } def test_range_groups(self): dts = [self.now + timedelta(hours=i) for i in range(4)] # Multiple groups assert self.db.get_range( TSDBModel.group_performance, [self.proj1group1.id, self.proj1group2.id], dts[0], dts[-1], rollup=3600, ) == { self.proj1group1.id: [ (timestamp(dts[0]), 3), (timestamp(dts[1]), 3), (timestamp(dts[2]), 3), (timestamp(dts[3]), 3), ], self.proj1group2.id: [ (timestamp(dts[0]), 3), (timestamp(dts[1]), 3), (timestamp(dts[2]), 3), (timestamp(dts[3]), 3), ], } assert ( self.db.get_range(TSDBModel.group_performance, [], dts[0], dts[-1], rollup=3600) == {} ) class AddJitterToSeriesTest(TestCase): def setUp(self): self.db = SnubaTSDB() def run_test(self, end, interval, jitter, expected_start, expected_end): end = end.replace(tzinfo=pytz.UTC) start = end - interval rollup, rollup_series = self.db.get_optimal_rollup_series(start, end) series = self.db._add_jitter_to_series(rollup_series, start, rollup, jitter) assert to_datetime(series[0]) == expected_start.replace(tzinfo=pytz.UTC) assert to_datetime(series[-1]) == expected_end.replace(tzinfo=pytz.UTC) def test(self): self.run_test( end=datetime(2022, 5, 18, 10, 23, 4), interval=timedelta(hours=1), jitter=5, expected_start=datetime(2022, 5, 18, 9, 22, 55), expected_end=datetime(2022, 5, 18, 10, 22, 55), ) self.run_test( end=datetime(2022, 5, 18, 10, 23, 8), interval=timedelta(hours=1), jitter=5, expected_start=datetime(2022, 5, 18, 9, 23, 5), expected_end=datetime(2022, 5, 18, 10, 23, 5), ) # Jitter should be the same self.run_test( end=datetime(2022, 5, 18, 10, 23, 8), interval=timedelta(hours=1), jitter=55, expected_start=datetime(2022, 5, 18, 9, 23, 5), expected_end=datetime(2022, 5, 18, 10, 23, 5), ) self.run_test( end=datetime(2022, 5, 18, 22, 33, 2), interval=timedelta(minutes=1), jitter=3, expected_start=datetime(2022, 5, 18, 22, 31, 53), expected_end=datetime(2022, 5, 18, 22, 32, 53), ) def test_empty_series(self): assert self.db._add_jitter_to_series([], datetime(2022, 5, 18, 10, 23, 4), 60, 127) == [] assert self.db._add_jitter_to_series([], datetime(2022, 5, 18, 10, 23, 4), 60, None) == []