zulip/analytics/lib/counts.py

670 lines
28 KiB
Python

import time
from collections import OrderedDict, defaultdict
from datetime import datetime, timedelta
import logging
from typing import Callable, Dict, List, \
Optional, Tuple, Type, Union
from django.conf import settings
from django.db import connection
from django.db.models import F
from psycopg2.sql import Composable, Identifier, Literal, SQL
from analytics.models import BaseCount, \
FillState, InstallationCount, RealmCount, StreamCount, \
UserCount, installation_epoch, last_successful_fill
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, models
## 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])
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
elif frequency == CountStat.HOUR:
self.interval = timedelta(hours=1)
else: # frequency == CountStat.DAY
self.interval = timedelta(days=1)
def __str__(self) -> str:
return f"<CountStat: {self.property}>"
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: List[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.
if stat.frequency == CountStat.HOUR:
time_increment = timedelta(hours=1)
elif stat.frequency == CountStat.DAY:
time_increment = timedelta(days=1)
else:
raise AssertionError(f"Unknown frequency: {stat.frequency}")
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 - 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 = last_successful_fill(dependency)
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 + 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 + 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 timezone 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 = 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/lib/actions.py; 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:
table = stat.data_collector.output_table
if table == RealmCount:
id_args = {'realm': zerver_object}
elif table == UserCount:
id_args = {'realm': zerver_object.realm, 'user': zerver_object}
else: # StreamCount
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 = 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[models.Model, str]],
) -> int:
if group_by is None:
subgroup = SQL('NULL')
group_by_clause = 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[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 = 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 = 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 = 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 = 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 = 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 = 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 = 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),
# 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('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()