import logging import time from collections import OrderedDict, defaultdict from datetime import datetime, timedelta from typing import Callable, Dict, Optional, Sequence, Tuple, Type, Union from django.conf import settings from django.db import connection, models from django.db.models import F from psycopg2.sql import SQL, Composable, Identifier, Literal from typing_extensions import TypeAlias from analytics.models import ( BaseCount, FillState, InstallationCount, RealmCount, StreamCount, UserCount, installation_epoch, ) from zerver.lib.logging_util import log_to_file from zerver.lib.timestamp import ceiling_to_day, ceiling_to_hour, floor_to_hour, verify_UTC from zerver.models import Message, Realm, RealmAuditLog, Stream, UserActivityInterval, UserProfile ## Logging setup ## logger = logging.getLogger("zulip.management") log_to_file(logger, settings.ANALYTICS_LOG_PATH) # You can't subtract timedelta.max from a datetime, so use this instead TIMEDELTA_MAX = timedelta(days=365 * 1000) ## Class definitions ## class CountStat: HOUR = "hour" DAY = "day" FREQUENCIES = frozenset([HOUR, DAY]) @property def time_increment(self) -> timedelta: if self.frequency == CountStat.HOUR: return timedelta(hours=1) return timedelta(days=1) def __init__( self, property: str, data_collector: "DataCollector", frequency: str, interval: Optional[timedelta] = None, ) -> None: self.property = property self.data_collector = data_collector # might have to do something different for bitfields if frequency not in self.FREQUENCIES: raise AssertionError(f"Unknown frequency: {frequency}") self.frequency = frequency if interval is not None: self.interval = interval else: self.interval = self.time_increment def __repr__(self) -> str: return f"" def last_successful_fill(self) -> Optional[datetime]: fillstate = FillState.objects.filter(property=self.property).first() if fillstate is None: return None if fillstate.state == FillState.DONE: return fillstate.end_time return fillstate.end_time - self.time_increment class LoggingCountStat(CountStat): def __init__(self, property: str, output_table: Type[BaseCount], frequency: str) -> None: CountStat.__init__(self, property, DataCollector(output_table, None), frequency) class DependentCountStat(CountStat): def __init__( self, property: str, data_collector: "DataCollector", frequency: str, interval: Optional[timedelta] = None, dependencies: Sequence[str] = [], ) -> None: CountStat.__init__(self, property, data_collector, frequency, interval=interval) self.dependencies = dependencies class DataCollector: def __init__( self, output_table: Type[BaseCount], pull_function: Optional[Callable[[str, datetime, datetime, Optional[Realm]], int]], ) -> None: self.output_table = output_table self.pull_function = pull_function ## CountStat-level operations ## def process_count_stat( stat: CountStat, fill_to_time: datetime, realm: Optional[Realm] = None ) -> None: # TODO: The realm argument is not yet supported, in that we don't # have a solution for how to update FillState if it is passed. It # exists solely as partial plumbing for when we do fully implement # doing single-realm analytics runs for use cases like data import. # # Also, note that for the realm argument to be properly supported, # the CountStat object passed in needs to have come from # E.g. get_count_stats(realm), i.e. have the realm_id already # entered into the SQL query defined by the CountState object. verify_UTC(fill_to_time) if floor_to_hour(fill_to_time) != fill_to_time: raise ValueError(f"fill_to_time must be on an hour boundary: {fill_to_time}") fill_state = FillState.objects.filter(property=stat.property).first() if fill_state is None: currently_filled = installation_epoch() fill_state = FillState.objects.create( property=stat.property, end_time=currently_filled, state=FillState.DONE ) logger.info("INITIALIZED %s %s", stat.property, currently_filled) elif fill_state.state == FillState.STARTED: logger.info("UNDO START %s %s", stat.property, fill_state.end_time) do_delete_counts_at_hour(stat, fill_state.end_time) currently_filled = fill_state.end_time - stat.time_increment do_update_fill_state(fill_state, currently_filled, FillState.DONE) logger.info("UNDO DONE %s", stat.property) elif fill_state.state == FillState.DONE: currently_filled = fill_state.end_time else: raise AssertionError(f"Unknown value for FillState.state: {fill_state.state}.") if isinstance(stat, DependentCountStat): for dependency in stat.dependencies: dependency_fill_time = COUNT_STATS[dependency].last_successful_fill() if dependency_fill_time is None: logger.warning( "DependentCountStat %s run before dependency %s.", stat.property, dependency ) return fill_to_time = min(fill_to_time, dependency_fill_time) currently_filled = currently_filled + stat.time_increment while currently_filled <= fill_to_time: logger.info("START %s %s", stat.property, currently_filled) start = time.time() do_update_fill_state(fill_state, currently_filled, FillState.STARTED) do_fill_count_stat_at_hour(stat, currently_filled, realm) do_update_fill_state(fill_state, currently_filled, FillState.DONE) end = time.time() currently_filled = currently_filled + stat.time_increment logger.info("DONE %s (%dms)", stat.property, (end - start) * 1000) def do_update_fill_state(fill_state: FillState, end_time: datetime, state: int) -> None: fill_state.end_time = end_time fill_state.state = state fill_state.save() # We assume end_time is valid (e.g. is on a day or hour boundary as appropriate) # and is time-zone-aware. It is the caller's responsibility to enforce this! def do_fill_count_stat_at_hour( stat: CountStat, end_time: datetime, realm: Optional[Realm] = None ) -> None: start_time = end_time - stat.interval if not isinstance(stat, LoggingCountStat): timer = time.time() assert stat.data_collector.pull_function is not None rows_added = stat.data_collector.pull_function(stat.property, start_time, end_time, realm) logger.info( "%s run pull_function (%dms/%sr)", stat.property, (time.time() - timer) * 1000, rows_added, ) do_aggregate_to_summary_table(stat, end_time, realm) def do_delete_counts_at_hour(stat: CountStat, end_time: datetime) -> None: if isinstance(stat, LoggingCountStat): InstallationCount.objects.filter(property=stat.property, end_time=end_time).delete() if stat.data_collector.output_table in [UserCount, StreamCount]: RealmCount.objects.filter(property=stat.property, end_time=end_time).delete() else: UserCount.objects.filter(property=stat.property, end_time=end_time).delete() StreamCount.objects.filter(property=stat.property, end_time=end_time).delete() RealmCount.objects.filter(property=stat.property, end_time=end_time).delete() InstallationCount.objects.filter(property=stat.property, end_time=end_time).delete() def do_aggregate_to_summary_table( stat: CountStat, end_time: datetime, realm: Optional[Realm] = None ) -> None: cursor = connection.cursor() # Aggregate into RealmCount output_table = stat.data_collector.output_table if realm is not None: realm_clause: Composable = SQL("AND zerver_realm.id = {}").format(Literal(realm.id)) else: realm_clause = SQL("") if output_table in (UserCount, StreamCount): realmcount_query = SQL( """ INSERT INTO analytics_realmcount (realm_id, value, property, subgroup, end_time) SELECT zerver_realm.id, COALESCE(sum({output_table}.value), 0), %(property)s, {output_table}.subgroup, %(end_time)s FROM zerver_realm JOIN {output_table} ON zerver_realm.id = {output_table}.realm_id WHERE {output_table}.property = %(property)s AND {output_table}.end_time = %(end_time)s {realm_clause} GROUP BY zerver_realm.id, {output_table}.subgroup """ ).format( output_table=Identifier(output_table._meta.db_table), realm_clause=realm_clause, ) start = time.time() cursor.execute( realmcount_query, { "property": stat.property, "end_time": end_time, }, ) end = time.time() logger.info( "%s RealmCount aggregation (%dms/%sr)", stat.property, (end - start) * 1000, cursor.rowcount, ) if realm is None: # Aggregate into InstallationCount. Only run if we just # processed counts for all realms. # # TODO: Add support for updating installation data after # changing an individual realm's values. installationcount_query = SQL( """ INSERT INTO analytics_installationcount (value, property, subgroup, end_time) SELECT sum(value), %(property)s, analytics_realmcount.subgroup, %(end_time)s FROM analytics_realmcount WHERE property = %(property)s AND end_time = %(end_time)s GROUP BY analytics_realmcount.subgroup """ ) start = time.time() cursor.execute( installationcount_query, { "property": stat.property, "end_time": end_time, }, ) end = time.time() logger.info( "%s InstallationCount aggregation (%dms/%sr)", stat.property, (end - start) * 1000, cursor.rowcount, ) cursor.close() ## Utility functions called from outside counts.py ## # called from zerver.actions; should not throw any errors def do_increment_logging_stat( zerver_object: Union[Realm, UserProfile, Stream], stat: CountStat, subgroup: Optional[Union[str, int, bool]], event_time: datetime, increment: int = 1, ) -> None: if not increment: return table = stat.data_collector.output_table if table == RealmCount: assert isinstance(zerver_object, Realm) id_args: Dict[str, Union[Realm, UserProfile, Stream]] = {"realm": zerver_object} elif table == UserCount: assert isinstance(zerver_object, UserProfile) id_args = {"realm": zerver_object.realm, "user": zerver_object} else: # StreamCount assert isinstance(zerver_object, Stream) id_args = {"realm": zerver_object.realm, "stream": zerver_object} if stat.frequency == CountStat.DAY: end_time = ceiling_to_day(event_time) else: # CountStat.HOUR: end_time = ceiling_to_hour(event_time) row, created = table.objects.get_or_create( property=stat.property, subgroup=subgroup, end_time=end_time, defaults={"value": increment}, **id_args, ) if not created: row.value = F("value") + increment row.save(update_fields=["value"]) def do_drop_all_analytics_tables() -> None: UserCount.objects.all().delete() StreamCount.objects.all().delete() RealmCount.objects.all().delete() InstallationCount.objects.all().delete() FillState.objects.all().delete() def do_drop_single_stat(property: str) -> None: UserCount.objects.filter(property=property).delete() StreamCount.objects.filter(property=property).delete() RealmCount.objects.filter(property=property).delete() InstallationCount.objects.filter(property=property).delete() FillState.objects.filter(property=property).delete() ## DataCollector-level operations ## QueryFn: TypeAlias = Callable[[Dict[str, Composable]], Composable] def do_pull_by_sql_query( property: str, start_time: datetime, end_time: datetime, query: QueryFn, group_by: Optional[Tuple[Type[models.Model], str]], ) -> int: if group_by is None: subgroup: Composable = SQL("NULL") group_by_clause: Composable = SQL("") else: subgroup = Identifier(group_by[0]._meta.db_table, group_by[1]) group_by_clause = SQL(", {}").format(subgroup) # We do string replacement here because cursor.execute will reject a # group_by_clause given as a param. # We pass in the datetimes as params to cursor.execute so that we don't have to # think about how to convert python datetimes to SQL datetimes. query_ = query( { "subgroup": subgroup, "group_by_clause": group_by_clause, } ) cursor = connection.cursor() cursor.execute( query_, { "property": property, "time_start": start_time, "time_end": end_time, }, ) rowcount = cursor.rowcount cursor.close() return rowcount def sql_data_collector( output_table: Type[BaseCount], query: QueryFn, group_by: Optional[Tuple[Type[models.Model], str]], ) -> DataCollector: def pull_function( property: str, start_time: datetime, end_time: datetime, realm: Optional[Realm] = None ) -> int: # The pull function type needs to accept a Realm argument # because the 'minutes_active::day' CountStat uses # DataCollector directly for do_pull_minutes_active, which # requires the realm argument. We ignore it here, because the # realm should have been already encoded in the `query` we're # passed. return do_pull_by_sql_query(property, start_time, end_time, query, group_by) return DataCollector(output_table, pull_function) def do_pull_minutes_active( property: str, start_time: datetime, end_time: datetime, realm: Optional[Realm] = None ) -> int: user_activity_intervals = ( UserActivityInterval.objects.filter( end__gt=start_time, start__lt=end_time, ) .select_related( "user_profile", ) .values_list("user_profile_id", "user_profile__realm_id", "start", "end") ) seconds_active: Dict[Tuple[int, int], float] = defaultdict(float) for user_id, realm_id, interval_start, interval_end in user_activity_intervals: if realm is None or realm.id == realm_id: start = max(start_time, interval_start) end = min(end_time, interval_end) seconds_active[(user_id, realm_id)] += (end - start).total_seconds() rows = [ UserCount( user_id=ids[0], realm_id=ids[1], property=property, end_time=end_time, value=int(seconds // 60), ) for ids, seconds in seconds_active.items() if seconds >= 60 ] UserCount.objects.bulk_create(rows) return len(rows) def count_message_by_user_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("zerver_userprofile.realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_usercount (user_id, realm_id, value, property, subgroup, end_time) SELECT zerver_userprofile.id, zerver_userprofile.realm_id, count(*), %(property)s, {subgroup}, %(time_end)s FROM zerver_userprofile JOIN zerver_message ON zerver_userprofile.id = zerver_message.sender_id WHERE zerver_userprofile.date_joined < %(time_end)s AND zerver_message.date_sent >= %(time_start)s AND {realm_clause} zerver_message.date_sent < %(time_end)s GROUP BY zerver_userprofile.id {group_by_clause} """ ).format(**kwargs, realm_clause=realm_clause) # Note: ignores the group_by / group_by_clause. def count_message_type_by_user_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("zerver_userprofile.realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_usercount (realm_id, user_id, value, property, subgroup, end_time) SELECT realm_id, id, SUM(count) AS value, %(property)s, message_type, %(time_end)s FROM ( SELECT zerver_userprofile.realm_id, zerver_userprofile.id, count(*), CASE WHEN zerver_recipient.type = 1 THEN 'private_message' WHEN zerver_recipient.type = 3 THEN 'huddle_message' WHEN zerver_stream.invite_only = TRUE THEN 'private_stream' ELSE 'public_stream' END message_type FROM zerver_userprofile JOIN zerver_message ON zerver_userprofile.id = zerver_message.sender_id AND zerver_message.date_sent >= %(time_start)s AND {realm_clause} zerver_message.date_sent < %(time_end)s JOIN zerver_recipient ON zerver_message.recipient_id = zerver_recipient.id LEFT JOIN zerver_stream ON zerver_recipient.type_id = zerver_stream.id GROUP BY zerver_userprofile.realm_id, zerver_userprofile.id, zerver_recipient.type, zerver_stream.invite_only ) AS subquery GROUP BY realm_id, id, message_type """ ).format(**kwargs, realm_clause=realm_clause) # This query joins to the UserProfile table since all current queries that # use this also subgroup on UserProfile.is_bot. If in the future there is a # stat that counts messages by stream and doesn't need the UserProfile # table, consider writing a new query for efficiency. def count_message_by_stream_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("zerver_stream.realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_streamcount (stream_id, realm_id, value, property, subgroup, end_time) SELECT zerver_stream.id, zerver_stream.realm_id, count(*), %(property)s, {subgroup}, %(time_end)s FROM zerver_stream JOIN zerver_recipient ON zerver_stream.id = zerver_recipient.type_id JOIN zerver_message ON zerver_recipient.id = zerver_message.recipient_id JOIN zerver_userprofile ON zerver_message.sender_id = zerver_userprofile.id WHERE zerver_stream.date_created < %(time_end)s AND zerver_recipient.type = 2 AND zerver_message.date_sent >= %(time_start)s AND {realm_clause} zerver_message.date_sent < %(time_end)s GROUP BY zerver_stream.id {group_by_clause} """ ).format(**kwargs, realm_clause=realm_clause) # Hardcodes the query needed by active_users:is_bot:day, since that is # currently the only stat that uses this. def count_user_by_realm_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("zerver_userprofile.realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_realmcount (realm_id, value, property, subgroup, end_time) SELECT zerver_realm.id, count(*), %(property)s, {subgroup}, %(time_end)s FROM zerver_realm JOIN zerver_userprofile ON zerver_realm.id = zerver_userprofile.realm_id WHERE zerver_realm.date_created < %(time_end)s AND zerver_userprofile.date_joined >= %(time_start)s AND zerver_userprofile.date_joined < %(time_end)s AND {realm_clause} zerver_userprofile.is_active = TRUE GROUP BY zerver_realm.id {group_by_clause} """ ).format(**kwargs, realm_clause=realm_clause) # Currently hardcodes the query needed for active_users_audit:is_bot:day. # Assumes that a user cannot have two RealmAuditLog entries with the same event_time and # event_type in [RealmAuditLog.USER_CREATED, USER_DEACTIVATED, etc]. # In particular, it's important to ensure that migrations don't cause that to happen. def check_realmauditlog_by_user_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_usercount (user_id, realm_id, value, property, subgroup, end_time) SELECT ral1.modified_user_id, ral1.realm_id, 1, %(property)s, {subgroup}, %(time_end)s FROM zerver_realmauditlog ral1 JOIN ( SELECT modified_user_id, max(event_time) AS max_event_time FROM zerver_realmauditlog WHERE event_type in ({user_created}, {user_activated}, {user_deactivated}, {user_reactivated}) AND {realm_clause} event_time < %(time_end)s GROUP BY modified_user_id ) ral2 ON ral1.event_time = max_event_time AND ral1.modified_user_id = ral2.modified_user_id JOIN zerver_userprofile ON ral1.modified_user_id = zerver_userprofile.id WHERE ral1.event_type in ({user_created}, {user_activated}, {user_reactivated}) """ ).format( **kwargs, user_created=Literal(RealmAuditLog.USER_CREATED), user_activated=Literal(RealmAuditLog.USER_ACTIVATED), user_deactivated=Literal(RealmAuditLog.USER_DEACTIVATED), user_reactivated=Literal(RealmAuditLog.USER_REACTIVATED), realm_clause=realm_clause, ) def check_useractivityinterval_by_user_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("zerver_userprofile.realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_usercount (user_id, realm_id, value, property, subgroup, end_time) SELECT zerver_userprofile.id, zerver_userprofile.realm_id, 1, %(property)s, {subgroup}, %(time_end)s FROM zerver_userprofile JOIN zerver_useractivityinterval ON zerver_userprofile.id = zerver_useractivityinterval.user_profile_id WHERE zerver_useractivityinterval.end >= %(time_start)s AND {realm_clause} zerver_useractivityinterval.start < %(time_end)s GROUP BY zerver_userprofile.id {group_by_clause} """ ).format(**kwargs, realm_clause=realm_clause) def count_realm_active_humans_query(realm: Optional[Realm]) -> QueryFn: if realm is None: realm_clause: Composable = SQL("") else: realm_clause = SQL("realm_id = {} AND").format(Literal(realm.id)) return lambda kwargs: SQL( """ INSERT INTO analytics_realmcount (realm_id, value, property, subgroup, end_time) SELECT usercount1.realm_id, count(*), %(property)s, NULL, %(time_end)s FROM ( SELECT realm_id, user_id FROM analytics_usercount WHERE property = 'active_users_audit:is_bot:day' AND subgroup = 'false' AND {realm_clause} end_time = %(time_end)s ) usercount1 JOIN ( SELECT realm_id, user_id FROM analytics_usercount WHERE property = '15day_actives::day' AND {realm_clause} end_time = %(time_end)s ) usercount2 ON usercount1.user_id = usercount2.user_id GROUP BY usercount1.realm_id """ ).format(**kwargs, realm_clause=realm_clause) # Currently unused and untested count_stream_by_realm_query = lambda kwargs: SQL( """ INSERT INTO analytics_realmcount (realm_id, value, property, subgroup, end_time) SELECT zerver_realm.id, count(*), %(property)s, {subgroup}, %(time_end)s FROM zerver_realm JOIN zerver_stream ON zerver_realm.id = zerver_stream.realm_id AND WHERE zerver_realm.date_created < %(time_end)s AND zerver_stream.date_created >= %(time_start)s AND zerver_stream.date_created < %(time_end)s GROUP BY zerver_realm.id {group_by_clause} """ ).format(**kwargs) def get_count_stats(realm: Optional[Realm] = None) -> Dict[str, CountStat]: ## CountStat declarations ## count_stats_ = [ # Messages sent stats # Stats that count the number of messages sent in various ways. # These are also the set of stats that read from the Message table. CountStat( "messages_sent:is_bot:hour", sql_data_collector( UserCount, count_message_by_user_query(realm), (UserProfile, "is_bot") ), CountStat.HOUR, ), CountStat( "messages_sent:message_type:day", sql_data_collector(UserCount, count_message_type_by_user_query(realm), None), CountStat.DAY, ), CountStat( "messages_sent:client:day", sql_data_collector( UserCount, count_message_by_user_query(realm), (Message, "sending_client_id") ), CountStat.DAY, ), CountStat( "messages_in_stream:is_bot:day", sql_data_collector( StreamCount, count_message_by_stream_query(realm), (UserProfile, "is_bot") ), CountStat.DAY, ), # Number of users stats # Stats that count the number of active users in the UserProfile.is_active sense. # 'active_users_audit:is_bot:day' is the canonical record of which users were # active on which days (in the UserProfile.is_active sense). # Important that this stay a daily stat, so that 'realm_active_humans::day' works as expected. CountStat( "active_users_audit:is_bot:day", sql_data_collector( UserCount, check_realmauditlog_by_user_query(realm), (UserProfile, "is_bot") ), CountStat.DAY, ), # Important note: LoggingCountStat objects aren't passed the # Realm argument, because by nature they have a logging # structure, not a pull-from-database structure, so there's no # way to compute them for a single realm after the fact (the # use case for passing a Realm argument). # Sanity check on 'active_users_audit:is_bot:day', and a archetype for future LoggingCountStats. # In RealmCount, 'active_users_audit:is_bot:day' should be the partial # sum sequence of 'active_users_log:is_bot:day', for any realm that # started after the latter stat was introduced. LoggingCountStat("active_users_log:is_bot:day", RealmCount, CountStat.DAY), # Another sanity check on 'active_users_audit:is_bot:day'. Is only an # approximation, e.g. if a user is deactivated between the end of the # day and when this stat is run, they won't be counted. However, is the # simplest of the three to inspect by hand. CountStat( "active_users:is_bot:day", sql_data_collector( RealmCount, count_user_by_realm_query(realm), (UserProfile, "is_bot") ), CountStat.DAY, interval=TIMEDELTA_MAX, ), # Messages read stats. messages_read::hour is the total # number of messages read, whereas # messages_read_interactions::hour tries to count the total # number of UI interactions resulting in messages being marked # as read (imperfect because of batching of some request # types, but less likely to be overwhelmed by a single bulk # operation). LoggingCountStat("messages_read::hour", UserCount, CountStat.HOUR), LoggingCountStat("messages_read_interactions::hour", UserCount, CountStat.HOUR), # User activity stats # Stats that measure user activity in the UserActivityInterval sense. CountStat( "1day_actives::day", sql_data_collector(UserCount, check_useractivityinterval_by_user_query(realm), None), CountStat.DAY, interval=timedelta(days=1) - UserActivityInterval.MIN_INTERVAL_LENGTH, ), CountStat( "7day_actives::day", sql_data_collector(UserCount, check_useractivityinterval_by_user_query(realm), None), CountStat.DAY, interval=timedelta(days=7) - UserActivityInterval.MIN_INTERVAL_LENGTH, ), CountStat( "15day_actives::day", sql_data_collector(UserCount, check_useractivityinterval_by_user_query(realm), None), CountStat.DAY, interval=timedelta(days=15) - UserActivityInterval.MIN_INTERVAL_LENGTH, ), CountStat( "minutes_active::day", DataCollector(UserCount, do_pull_minutes_active), CountStat.DAY ), # Rate limiting stats # Used to limit the number of invitation emails sent by a realm LoggingCountStat("invites_sent::day", RealmCount, CountStat.DAY), # Dependent stats # Must come after their dependencies. # Canonical account of the number of active humans in a realm on each day. DependentCountStat( "realm_active_humans::day", sql_data_collector(RealmCount, count_realm_active_humans_query(realm), None), CountStat.DAY, dependencies=["active_users_audit:is_bot:day", "15day_actives::day"], ), ] return OrderedDict((stat.property, stat) for stat in count_stats_) # To avoid refactoring for now COUNT_STATS can be used as before COUNT_STATS = get_count_stats()