synapse-old/synapse/storage/background_updates.py

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# -*- coding: utf-8 -*-
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# Copyright 2014-2016 OpenMarket Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import synapse.util.async
from ._base import SQLBaseStore
from . import engines
from twisted.internet import defer
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import simplejson as json
import logging
logger = logging.getLogger(__name__)
class BackgroundUpdatePerformance(object):
"""Tracks the how long a background update is taking to update its items"""
def __init__(self, name):
self.name = name
self.total_item_count = 0
self.total_duration_ms = 0
self.avg_item_count = 0
self.avg_duration_ms = 0
def update(self, item_count, duration_ms):
"""Update the stats after doing an update"""
self.total_item_count += item_count
self.total_duration_ms += duration_ms
# Exponential moving averages for the number of items updated and
# the duration.
self.avg_item_count += 0.1 * (item_count - self.avg_item_count)
self.avg_duration_ms += 0.1 * (duration_ms - self.avg_duration_ms)
def average_items_per_ms(self):
"""An estimate of how long it takes to do a single update.
Returns:
A duration in ms as a float
"""
if self.total_item_count == 0:
return None
else:
# Use the exponential moving average so that we can adapt to
# changes in how long the update process takes.
return float(self.avg_item_count) / float(self.avg_duration_ms)
def total_items_per_ms(self):
"""An estimate of how long it takes to do a single update.
Returns:
A duration in ms as a float
"""
if self.total_item_count == 0:
return None
else:
return float(self.total_item_count) / float(self.total_duration_ms)
class BackgroundUpdateStore(SQLBaseStore):
""" Background updates are updates to the database that run in the
background. Each update processes a batch of data at once. We attempt to
limit the impact of each update by monitoring how long each batch takes to
process and autotuning the batch size.
"""
MINIMUM_BACKGROUND_BATCH_SIZE = 100
DEFAULT_BACKGROUND_BATCH_SIZE = 100
BACKGROUND_UPDATE_INTERVAL_MS = 1000
BACKGROUND_UPDATE_DURATION_MS = 100
def __init__(self, db_conn, hs):
super(BackgroundUpdateStore, self).__init__(db_conn, hs)
self._background_update_performance = {}
self._background_update_queue = []
self._background_update_handlers = {}
self._all_done = False
@defer.inlineCallbacks
def start_doing_background_updates(self):
logger.info("Starting background schema updates")
while True:
yield synapse.util.async.sleep(
self.BACKGROUND_UPDATE_INTERVAL_MS / 1000.)
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try:
result = yield self.do_next_background_update(
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self.BACKGROUND_UPDATE_DURATION_MS
)
except Exception:
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logger.exception("Error doing update")
else:
if result is None:
logger.info(
"No more background updates to do."
" Unscheduling background update task."
)
self._all_done = True
defer.returnValue(None)
@defer.inlineCallbacks
def has_completed_background_updates(self):
"""Check if all the background updates have completed
Returns:
Deferred[bool]: True if all background updates have completed
"""
# if we've previously determined that there is nothing left to do, that
# is easy
if self._all_done:
defer.returnValue(True)
# obviously, if we have things in our queue, we're not done.
if self._background_update_queue:
defer.returnValue(False)
# otherwise, check if there are updates to be run. This is important,
# as we may be running on a worker which doesn't perform the bg updates
# itself, but still wants to wait for them to happen.
updates = yield self._simple_select_onecol(
"background_updates",
keyvalues=None,
retcol="1",
desc="check_background_updates",
)
if not updates:
self._all_done = True
defer.returnValue(True)
defer.returnValue(False)
@defer.inlineCallbacks
def do_next_background_update(self, desired_duration_ms):
"""Does some amount of work on the next queued background update
Args:
desired_duration_ms(float): How long we want to spend
updating.
Returns:
A deferred that completes once some amount of work is done.
The deferred will have a value of None if there is currently
no more work to do.
"""
if not self._background_update_queue:
updates = yield self._simple_select_list(
"background_updates",
keyvalues=None,
retcols=("update_name", "depends_on"),
)
in_flight = set(update["update_name"] for update in updates)
for update in updates:
if update["depends_on"] not in in_flight:
self._background_update_queue.append(update['update_name'])
if not self._background_update_queue:
# no work left to do
defer.returnValue(None)
# pop from the front, and add back to the back
update_name = self._background_update_queue.pop(0)
self._background_update_queue.append(update_name)
res = yield self._do_background_update(update_name, desired_duration_ms)
defer.returnValue(res)
@defer.inlineCallbacks
def _do_background_update(self, update_name, desired_duration_ms):
logger.info("Starting update batch on background update '%s'",
update_name)
update_handler = self._background_update_handlers[update_name]
performance = self._background_update_performance.get(update_name)
if performance is None:
performance = BackgroundUpdatePerformance(update_name)
self._background_update_performance[update_name] = performance
items_per_ms = performance.average_items_per_ms()
if items_per_ms is not None:
batch_size = int(desired_duration_ms * items_per_ms)
# Clamp the batch size so that we always make progress
batch_size = max(batch_size, self.MINIMUM_BACKGROUND_BATCH_SIZE)
else:
batch_size = self.DEFAULT_BACKGROUND_BATCH_SIZE
progress_json = yield self._simple_select_one_onecol(
"background_updates",
keyvalues={"update_name": update_name},
retcol="progress_json"
)
progress = json.loads(progress_json)
time_start = self._clock.time_msec()
items_updated = yield update_handler(progress, batch_size)
time_stop = self._clock.time_msec()
duration_ms = time_stop - time_start
logger.info(
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"Updating %r. Updated %r items in %rms."
" (total_rate=%r/ms, current_rate=%r/ms, total_updated=%r, batch_size=%r)",
update_name, items_updated, duration_ms,
performance.total_items_per_ms(),
performance.average_items_per_ms(),
performance.total_item_count,
batch_size,
)
performance.update(items_updated, duration_ms)
defer.returnValue(len(self._background_update_performance))
def register_background_update_handler(self, update_name, update_handler):
"""Register a handler for doing a background update.
The handler should take two arguments:
* A dict of the current progress
* An integer count of the number of items to update in this batch.
The handler should return a deferred integer count of items updated.
The hander is responsible for updating the progress of the update.
Args:
update_name(str): The name of the update that this code handles.
update_handler(function): The function that does the update.
"""
self._background_update_handlers[update_name] = update_handler
def register_noop_background_update(self, update_name):
"""Register a noop handler for a background update.
This is useful when we previously did a background update, but no
longer wish to do the update. In this case the background update should
be removed from the schema delta files, but there may still be some
users who have the background update queued, so this method should
also be called to clear the update.
Args:
update_name (str): Name of update
"""
@defer.inlineCallbacks
def noop_update(progress, batch_size):
yield self._end_background_update(update_name)
defer.returnValue(1)
self.register_background_update_handler(update_name, noop_update)
def register_background_index_update(self, update_name, index_name,
table, columns, where_clause=None,
unique=False,
psql_only=False):
"""Helper for store classes to do a background index addition
To use:
1. use a schema delta file to add a background update. Example:
INSERT INTO background_updates (update_name, progress_json) VALUES
('my_new_index', '{}');
2. In the Store constructor, call this method
Args:
update_name (str): update_name to register for
index_name (str): name of index to add
table (str): table to add index to
columns (list[str]): columns/expressions to include in index
unique (bool): true to make a UNIQUE index
psql_only: true to only create this index on psql databases (useful
for virtual sqlite tables)
"""
def create_index_psql(conn):
conn.rollback()
# postgres insists on autocommit for the index
conn.set_session(autocommit=True)
try:
c = conn.cursor()
# If a previous attempt to create the index was interrupted,
# we may already have a half-built index. Let's just drop it
# before trying to create it again.
sql = "DROP INDEX IF EXISTS %s" % (index_name,)
logger.debug("[SQL] %s", sql)
c.execute(sql)
sql = (
"CREATE %(unique)s INDEX CONCURRENTLY %(name)s"
" ON %(table)s"
" (%(columns)s) %(where_clause)s"
) % {
"unique": "UNIQUE" if unique else "",
"name": index_name,
"table": table,
"columns": ", ".join(columns),
"where_clause": "WHERE " + where_clause if where_clause else ""
}
logger.debug("[SQL] %s", sql)
c.execute(sql)
finally:
conn.set_session(autocommit=False)
def create_index_sqlite(conn):
# Sqlite doesn't support concurrent creation of indexes.
#
# We don't use partial indices on SQLite as it wasn't introduced
# until 3.8, and wheezy and CentOS 7 have 3.7
#
# We assume that sqlite doesn't give us invalid indices; however
# we may still end up with the index existing but the
# background_updates not having been recorded if synapse got shut
# down at the wrong moment - hance we use IF NOT EXISTS. (SQLite
# has supported CREATE TABLE|INDEX IF NOT EXISTS since 3.3.0.)
sql = (
"CREATE %(unique)s INDEX IF NOT EXISTS %(name)s ON %(table)s"
" (%(columns)s)"
) % {
"unique": "UNIQUE" if unique else "",
"name": index_name,
"table": table,
"columns": ", ".join(columns),
}
c = conn.cursor()
logger.debug("[SQL] %s", sql)
c.execute(sql)
if isinstance(self.database_engine, engines.PostgresEngine):
runner = create_index_psql
elif psql_only:
runner = None
else:
runner = create_index_sqlite
@defer.inlineCallbacks
def updater(progress, batch_size):
if runner is not None:
logger.info("Adding index %s to %s", index_name, table)
yield self.runWithConnection(runner)
yield self._end_background_update(update_name)
defer.returnValue(1)
self.register_background_update_handler(update_name, updater)
def start_background_update(self, update_name, progress):
"""Starts a background update running.
Args:
update_name: The update to set running.
progress: The initial state of the progress of the update.
Returns:
A deferred that completes once the task has been added to the
queue.
"""
# Clear the background update queue so that we will pick up the new
# task on the next iteration of do_background_update.
self._background_update_queue = []
progress_json = json.dumps(progress)
return self._simple_insert(
"background_updates",
{"update_name": update_name, "progress_json": progress_json}
)
def _end_background_update(self, update_name):
"""Removes a completed background update task from the queue.
Args:
update_name(str): The name of the completed task to remove
Returns:
A deferred that completes once the task is removed.
"""
self._background_update_queue = [
name for name in self._background_update_queue if name != update_name
]
return self._simple_delete_one(
"background_updates", keyvalues={"update_name": update_name}
)
def _background_update_progress_txn(self, txn, update_name, progress):
"""Update the progress of a background update
Args:
txn(cursor): The transaction.
update_name(str): The name of the background update task
progress(dict): The progress of the update.
"""
progress_json = json.dumps(progress)
self._simple_update_one_txn(
txn,
"background_updates",
keyvalues={"update_name": update_name},
updatevalues={"progress_json": progress_json},
)