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Iliyan Angelov
2025-09-26 00:15:37 +03:00
commit fe26b7cca4
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gnx-react/venv/lib/python3.12/site-packages/celery/events/__init__.py Normal file
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"""Monitoring Event Receiver+Dispatcher.
Events is a stream of messages sent for certain actions occurring
in the worker (and clients if :setting:`task_send_sent_event`
is enabled), used for monitoring purposes.
"""
from .dispatcher import EventDispatcher
from .event import Event, event_exchange, get_exchange, group_from
from .receiver import EventReceiver
__all__ = (
'Event', 'EventDispatcher', 'EventReceiver',
'event_exchange', 'get_exchange', 'group_from',
)

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"""Graphical monitor of Celery events using curses."""
import curses
import sys
import threading
from datetime import datetime
from itertools import count
from math import ceil
from textwrap import wrap
from time import time
from celery import VERSION_BANNER, states
from celery.app import app_or_default
from celery.utils.text import abbr, abbrtask
__all__ = ('CursesMonitor', 'evtop')
BORDER_SPACING = 4
LEFT_BORDER_OFFSET = 3
UUID_WIDTH = 36
STATE_WIDTH = 8
TIMESTAMP_WIDTH = 8
MIN_WORKER_WIDTH = 15
MIN_TASK_WIDTH = 16
# this module is considered experimental
# we don't care about coverage.
STATUS_SCREEN = """\
events: {s.event_count} tasks:{s.task_count} workers:{w_alive}/{w_all}
"""
class CursesMonitor: # pragma: no cover
"""A curses based Celery task monitor."""
keymap = {}
win = None
screen_delay = 10
selected_task = None
selected_position = 0
selected_str = 'Selected: '
foreground = curses.COLOR_BLACK
background = curses.COLOR_WHITE
online_str = 'Workers online: '
help_title = 'Keys: '
help = ('j:down k:up i:info t:traceback r:result c:revoke ^c: quit')
greet = f'celery events {VERSION_BANNER}'
info_str = 'Info: '
def __init__(self, state, app, keymap=None):
self.app = app
self.keymap = keymap or self.keymap
self.state = state
default_keymap = {
'J': self.move_selection_down,
'K': self.move_selection_up,
'C': self.revoke_selection,
'T': self.selection_traceback,
'R': self.selection_result,
'I': self.selection_info,
'L': self.selection_rate_limit,
}
self.keymap = dict(default_keymap, **self.keymap)
self.lock = threading.RLock()
def format_row(self, uuid, task, worker, timestamp, state):
mx = self.display_width
# include spacing
detail_width = mx - 1 - STATE_WIDTH - 1 - TIMESTAMP_WIDTH
uuid_space = detail_width - 1 - MIN_TASK_WIDTH - 1 - MIN_WORKER_WIDTH
if uuid_space < UUID_WIDTH:
uuid_width = uuid_space
else:
uuid_width = UUID_WIDTH
detail_width = detail_width - uuid_width - 1
task_width = int(ceil(detail_width / 2.0))
worker_width = detail_width - task_width - 1
uuid = abbr(uuid, uuid_width).ljust(uuid_width)
worker = abbr(worker, worker_width).ljust(worker_width)
task = abbrtask(task, task_width).ljust(task_width)
state = abbr(state, STATE_WIDTH).ljust(STATE_WIDTH)
timestamp = timestamp.ljust(TIMESTAMP_WIDTH)
row = f'{uuid} {worker} {task} {timestamp} {state} '
if self.screen_width is None:
self.screen_width = len(row[:mx])
return row[:mx]
@property
def screen_width(self):
_, mx = self.win.getmaxyx()
return mx
@property
def screen_height(self):
my, _ = self.win.getmaxyx()
return my
@property
def display_width(self):
_, mx = self.win.getmaxyx()
return mx - BORDER_SPACING
@property
def display_height(self):
my, _ = self.win.getmaxyx()
return my - 10
@property
def limit(self):
return self.display_height
def find_position(self):
if not self.tasks:
return 0
for i, e in enumerate(self.tasks):
if self.selected_task == e[0]:
return i
return 0
def move_selection_up(self):
self.move_selection(-1)
def move_selection_down(self):
self.move_selection(1)
def move_selection(self, direction=1):
if not self.tasks:
return
pos = self.find_position()
try:
self.selected_task = self.tasks[pos + direction][0]
except IndexError:
self.selected_task = self.tasks[0][0]
keyalias = {curses.KEY_DOWN: 'J',
curses.KEY_UP: 'K',
curses.KEY_ENTER: 'I'}
def handle_keypress(self):
try:
key = self.win.getkey().upper()
except Exception: # pylint: disable=broad-except
return
key = self.keyalias.get(key) or key
handler = self.keymap.get(key)
if handler is not None:
handler()
def alert(self, callback, title=None):
self.win.erase()
my, mx = self.win.getmaxyx()
y = blank_line = count(2)
if title:
self.win.addstr(next(y), 3, title,
curses.A_BOLD | curses.A_UNDERLINE)
next(blank_line)
callback(my, mx, next(y))
self.win.addstr(my - 1, 0, 'Press any key to continue...',
curses.A_BOLD)
self.win.refresh()
while 1:
try:
return self.win.getkey().upper()
except Exception: # pylint: disable=broad-except
pass
def selection_rate_limit(self):
if not self.selected_task:
return curses.beep()
task = self.state.tasks[self.selected_task]
if not task.name:
return curses.beep()
my, mx = self.win.getmaxyx()
r = 'New rate limit: '
self.win.addstr(my - 2, 3, r, curses.A_BOLD | curses.A_UNDERLINE)
self.win.addstr(my - 2, len(r) + 3, ' ' * (mx - len(r)))
rlimit = self.readline(my - 2, 3 + len(r))
if rlimit:
reply = self.app.control.rate_limit(task.name,
rlimit.strip(), reply=True)
self.alert_remote_control_reply(reply)
def alert_remote_control_reply(self, reply):
def callback(my, mx, xs):
y = count(xs)
if not reply:
self.win.addstr(
next(y), 3, 'No replies received in 1s deadline.',
curses.A_BOLD + curses.color_pair(2),
)
return
for subreply in reply:
curline = next(y)
host, response = next(subreply.items())
host = f'{host}: '
self.win.addstr(curline, 3, host, curses.A_BOLD)
attr = curses.A_NORMAL
text = ''
if 'error' in response:
text = response['error']
attr |= curses.color_pair(2)
elif 'ok' in response:
text = response['ok']
attr |= curses.color_pair(3)
self.win.addstr(curline, 3 + len(host), text, attr)
return self.alert(callback, 'Remote Control Command Replies')
def readline(self, x, y):
buffer = ''
curses.echo()
try:
i = 0
while 1:
ch = self.win.getch(x, y + i)
if ch != -1:
if ch in (10, curses.KEY_ENTER): # enter
break
if ch in (27,):
buffer = ''
break
buffer += chr(ch)
i += 1
finally:
curses.noecho()
return buffer
def revoke_selection(self):
if not self.selected_task:
return curses.beep()
reply = self.app.control.revoke(self.selected_task, reply=True)
self.alert_remote_control_reply(reply)
def selection_info(self):
if not self.selected_task:
return
def alert_callback(mx, my, xs):
my, mx = self.win.getmaxyx()
y = count(xs)
task = self.state.tasks[self.selected_task]
info = task.info(extra=['state'])
infoitems = [
('args', info.pop('args', None)),
('kwargs', info.pop('kwargs', None))
] + list(info.items())
for key, value in infoitems:
if key is None:
continue
value = str(value)
curline = next(y)
keys = key + ': '
self.win.addstr(curline, 3, keys, curses.A_BOLD)
wrapped = wrap(value, mx - 2)
if len(wrapped) == 1:
self.win.addstr(
curline, len(keys) + 3,
abbr(wrapped[0],
self.screen_width - (len(keys) + 3)))
else:
for subline in wrapped:
nexty = next(y)
if nexty >= my - 1:
subline = ' ' * 4 + '[...]'
self.win.addstr(
nexty, 3,
abbr(' ' * 4 + subline, self.screen_width - 4),
curses.A_NORMAL,
)
return self.alert(
alert_callback, f'Task details for {self.selected_task}',
)
def selection_traceback(self):
if not self.selected_task:
return curses.beep()
task = self.state.tasks[self.selected_task]
if task.state not in states.EXCEPTION_STATES:
return curses.beep()
def alert_callback(my, mx, xs):
y = count(xs)
for line in task.traceback.split('\n'):
self.win.addstr(next(y), 3, line)
return self.alert(
alert_callback,
f'Task Exception Traceback for {self.selected_task}',
)
def selection_result(self):
if not self.selected_task:
return
def alert_callback(my, mx, xs):
y = count(xs)
task = self.state.tasks[self.selected_task]
result = (getattr(task, 'result', None) or
getattr(task, 'exception', None))
for line in wrap(result or '', mx - 2):
self.win.addstr(next(y), 3, line)
return self.alert(
alert_callback,
f'Task Result for {self.selected_task}',
)
def display_task_row(self, lineno, task):
state_color = self.state_colors.get(task.state)
attr = curses.A_NORMAL
if task.uuid == self.selected_task:
attr = curses.A_STANDOUT
timestamp = datetime.utcfromtimestamp(
task.timestamp or time(),
)
timef = timestamp.strftime('%H:%M:%S')
hostname = task.worker.hostname if task.worker else '*NONE*'
line = self.format_row(task.uuid, task.name,
hostname,
timef, task.state)
self.win.addstr(lineno, LEFT_BORDER_OFFSET, line, attr)
if state_color:
self.win.addstr(lineno,
len(line) - STATE_WIDTH + BORDER_SPACING - 1,
task.state, state_color | attr)
def draw(self):
with self.lock:
win = self.win
self.handle_keypress()
x = LEFT_BORDER_OFFSET
y = blank_line = count(2)
my, _ = win.getmaxyx()
win.erase()
win.bkgd(' ', curses.color_pair(1))
win.border()
win.addstr(1, x, self.greet, curses.A_DIM | curses.color_pair(5))
next(blank_line)
win.addstr(next(y), x, self.format_row('UUID', 'TASK',
'WORKER', 'TIME', 'STATE'),
curses.A_BOLD | curses.A_UNDERLINE)
tasks = self.tasks
if tasks:
for row, (_, task) in enumerate(tasks):
if row > self.display_height:
break
if task.uuid:
lineno = next(y)
self.display_task_row(lineno, task)
# -- Footer
next(blank_line)
win.hline(my - 6, x, curses.ACS_HLINE, self.screen_width - 4)
# Selected Task Info
if self.selected_task:
win.addstr(my - 5, x, self.selected_str, curses.A_BOLD)
info = 'Missing extended info'
detail = ''
try:
selection = self.state.tasks[self.selected_task]
except KeyError:
pass
else:
info = selection.info()
if 'runtime' in info:
info['runtime'] = '{:.2f}'.format(info['runtime'])
if 'result' in info:
info['result'] = abbr(info['result'], 16)
info = ' '.join(
f'{key}={value}'
for key, value in info.items()
)
detail = '... -> key i'
infowin = abbr(info,
self.screen_width - len(self.selected_str) - 2,
detail)
win.addstr(my - 5, x + len(self.selected_str), infowin)
# Make ellipsis bold
if detail in infowin:
detailpos = len(infowin) - len(detail)
win.addstr(my - 5, x + len(self.selected_str) + detailpos,
detail, curses.A_BOLD)
else:
win.addstr(my - 5, x, 'No task selected', curses.A_NORMAL)
# Workers
if self.workers:
win.addstr(my - 4, x, self.online_str, curses.A_BOLD)
win.addstr(my - 4, x + len(self.online_str),
', '.join(sorted(self.workers)), curses.A_NORMAL)
else:
win.addstr(my - 4, x, 'No workers discovered.')
# Info
win.addstr(my - 3, x, self.info_str, curses.A_BOLD)
win.addstr(
my - 3, x + len(self.info_str),
STATUS_SCREEN.format(
s=self.state,
w_alive=len([w for w in self.state.workers.values()
if w.alive]),
w_all=len(self.state.workers),
),
curses.A_DIM,
)
# Help
self.safe_add_str(my - 2, x, self.help_title, curses.A_BOLD)
self.safe_add_str(my - 2, x + len(self.help_title), self.help,
curses.A_DIM)
win.refresh()
def safe_add_str(self, y, x, string, *args, **kwargs):
if x + len(string) > self.screen_width:
string = string[:self.screen_width - x]
self.win.addstr(y, x, string, *args, **kwargs)
def init_screen(self):
with self.lock:
self.win = curses.initscr()
self.win.nodelay(True)
self.win.keypad(True)
curses.start_color()
curses.init_pair(1, self.foreground, self.background)
# exception states
curses.init_pair(2, curses.COLOR_RED, self.background)
# successful state
curses.init_pair(3, curses.COLOR_GREEN, self.background)
# revoked state
curses.init_pair(4, curses.COLOR_MAGENTA, self.background)
# greeting
curses.init_pair(5, curses.COLOR_BLUE, self.background)
# started state
curses.init_pair(6, curses.COLOR_YELLOW, self.foreground)
self.state_colors = {states.SUCCESS: curses.color_pair(3),
states.REVOKED: curses.color_pair(4),
states.STARTED: curses.color_pair(6)}
for state in states.EXCEPTION_STATES:
self.state_colors[state] = curses.color_pair(2)
curses.cbreak()
def resetscreen(self):
with self.lock:
curses.nocbreak()
self.win.keypad(False)
curses.echo()
curses.endwin()
def nap(self):
curses.napms(self.screen_delay)
@property
def tasks(self):
return list(self.state.tasks_by_time(limit=self.limit))
@property
def workers(self):
return [hostname for hostname, w in self.state.workers.items()
if w.alive]
class DisplayThread(threading.Thread): # pragma: no cover
def __init__(self, display):
self.display = display
self.shutdown = False
super().__init__()
def run(self):
while not self.shutdown:
self.display.draw()
self.display.nap()
def capture_events(app, state, display): # pragma: no cover
def on_connection_error(exc, interval):
print('Connection Error: {!r}. Retry in {}s.'.format(
exc, interval), file=sys.stderr)
while 1:
print('-> evtop: starting capture...', file=sys.stderr)
with app.connection_for_read() as conn:
try:
conn.ensure_connection(on_connection_error,
app.conf.broker_connection_max_retries)
recv = app.events.Receiver(conn, handlers={'*': state.event})
display.resetscreen()
display.init_screen()
recv.capture()
except conn.connection_errors + conn.channel_errors as exc:
print(f'Connection lost: {exc!r}', file=sys.stderr)
def evtop(app=None): # pragma: no cover
"""Start curses monitor."""
app = app_or_default(app)
state = app.events.State()
display = CursesMonitor(state, app)
display.init_screen()
refresher = DisplayThread(display)
refresher.start()
try:
capture_events(app, state, display)
except Exception:
refresher.shutdown = True
refresher.join()
display.resetscreen()
raise
except (KeyboardInterrupt, SystemExit):
refresher.shutdown = True
refresher.join()
display.resetscreen()
if __name__ == '__main__': # pragma: no cover
evtop()

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gnx-react/venv/lib/python3.12/site-packages/celery/events/dispatcher.py Normal file
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"""Event dispatcher sends events."""
import os
import threading
import time
from collections import defaultdict, deque
from kombu import Producer
from celery.app import app_or_default
from celery.utils.nodenames import anon_nodename
from celery.utils.time import utcoffset
from .event import Event, get_exchange, group_from
__all__ = ('EventDispatcher',)
class EventDispatcher:
"""Dispatches event messages.
Arguments:
connection (kombu.Connection): Connection to the broker.
hostname (str): Hostname to identify ourselves as,
by default uses the hostname returned by
:func:`~celery.utils.anon_nodename`.
groups (Sequence[str]): List of groups to send events for.
:meth:`send` will ignore send requests to groups not in this list.
If this is :const:`None`, all events will be sent.
Example groups include ``"task"`` and ``"worker"``.
enabled (bool): Set to :const:`False` to not actually publish any
events, making :meth:`send` a no-op.
channel (kombu.Channel): Can be used instead of `connection` to specify
an exact channel to use when sending events.
buffer_while_offline (bool): If enabled events will be buffered
while the connection is down. :meth:`flush` must be called
as soon as the connection is re-established.
Note:
You need to :meth:`close` this after use.
"""
DISABLED_TRANSPORTS = {'sql'}
app = None
# set of callbacks to be called when :meth:`enabled`.
on_enabled = None
# set of callbacks to be called when :meth:`disabled`.
on_disabled = None
def __init__(self, connection=None, hostname=None, enabled=True,
channel=None, buffer_while_offline=True, app=None,
serializer=None, groups=None, delivery_mode=1,
buffer_group=None, buffer_limit=24, on_send_buffered=None):
self.app = app_or_default(app or self.app)
self.connection = connection
self.channel = channel
self.hostname = hostname or anon_nodename()
self.buffer_while_offline = buffer_while_offline
self.buffer_group = buffer_group or frozenset()
self.buffer_limit = buffer_limit
self.on_send_buffered = on_send_buffered
self._group_buffer = defaultdict(list)
self.mutex = threading.Lock()
self.producer = None
self._outbound_buffer = deque()
self.serializer = serializer or self.app.conf.event_serializer
self.on_enabled = set()
self.on_disabled = set()
self.groups = set(groups or [])
self.tzoffset = [-time.timezone, -time.altzone]
self.clock = self.app.clock
self.delivery_mode = delivery_mode
if not connection and channel:
self.connection = channel.connection.client
self.enabled = enabled
conninfo = self.connection or self.app.connection_for_write()
self.exchange = get_exchange(conninfo,
name=self.app.conf.event_exchange)
if conninfo.transport.driver_type in self.DISABLED_TRANSPORTS:
self.enabled = False
if self.enabled:
self.enable()
self.headers = {'hostname': self.hostname}
self.pid = os.getpid()
def __enter__(self):
return self
def __exit__(self, *exc_info):
self.close()
def enable(self):
self.producer = Producer(self.channel or self.connection,
exchange=self.exchange,
serializer=self.serializer,
auto_declare=False)
self.enabled = True
for callback in self.on_enabled:
callback()
def disable(self):
if self.enabled:
self.enabled = False
self.close()
for callback in self.on_disabled:
callback()
def publish(self, type, fields, producer,
blind=False, Event=Event, **kwargs):
"""Publish event using custom :class:`~kombu.Producer`.
Arguments:
type (str): Event type name, with group separated by dash (`-`).
fields: Dictionary of event fields, must be json serializable.
producer (kombu.Producer): Producer instance to use:
only the ``publish`` method will be called.
retry (bool): Retry in the event of connection failure.
retry_policy (Mapping): Map of custom retry policy options.
See :meth:`~kombu.Connection.ensure`.
blind (bool): Don't set logical clock value (also don't forward
the internal logical clock).
Event (Callable): Event type used to create event.
Defaults to :func:`Event`.
utcoffset (Callable): Function returning the current
utc offset in hours.
"""
clock = None if blind else self.clock.forward()
event = Event(type, hostname=self.hostname, utcoffset=utcoffset(),
pid=self.pid, clock=clock, **fields)
with self.mutex:
return self._publish(event, producer,
routing_key=type.replace('-', '.'), **kwargs)
def _publish(self, event, producer, routing_key, retry=False,
retry_policy=None, utcoffset=utcoffset):
exchange = self.exchange
try:
producer.publish(
event,
routing_key=routing_key,
exchange=exchange.name,
retry=retry,
retry_policy=retry_policy,
declare=[exchange],
serializer=self.serializer,
headers=self.headers,
delivery_mode=self.delivery_mode,
)
except Exception as exc: # pylint: disable=broad-except
if not self.buffer_while_offline:
raise
self._outbound_buffer.append((event, routing_key, exc))
def send(self, type, blind=False, utcoffset=utcoffset, retry=False,
retry_policy=None, Event=Event, **fields):
"""Send event.
Arguments:
type (str): Event type name, with group separated by dash (`-`).
retry (bool): Retry in the event of connection failure.
retry_policy (Mapping): Map of custom retry policy options.
See :meth:`~kombu.Connection.ensure`.
blind (bool): Don't set logical clock value (also don't forward
the internal logical clock).
Event (Callable): Event type used to create event,
defaults to :func:`Event`.
utcoffset (Callable): unction returning the current utc offset
in hours.
**fields (Any): Event fields -- must be json serializable.
"""
if self.enabled:
groups, group = self.groups, group_from(type)
if groups and group not in groups:
return
if group in self.buffer_group:
clock = self.clock.forward()
event = Event(type, hostname=self.hostname,
utcoffset=utcoffset(),
pid=self.pid, clock=clock, **fields)
buf = self._group_buffer[group]
buf.append(event)
if len(buf) >= self.buffer_limit:
self.flush()
elif self.on_send_buffered:
self.on_send_buffered()
else:
return self.publish(type, fields, self.producer, blind=blind,
Event=Event, retry=retry,
retry_policy=retry_policy)
def flush(self, errors=True, groups=True):
"""Flush the outbound buffer."""
if errors:
buf = list(self._outbound_buffer)
try:
with self.mutex:
for event, routing_key, _ in buf:
self._publish(event, self.producer, routing_key)
finally:
self._outbound_buffer.clear()
if groups:
with self.mutex:
for group, events in self._group_buffer.items():
self._publish(events, self.producer, '%s.multi' % group)
events[:] = [] # list.clear
def extend_buffer(self, other):
"""Copy the outbound buffer of another instance."""
self._outbound_buffer.extend(other._outbound_buffer)
def close(self):
"""Close the event dispatcher."""
self.mutex.locked() and self.mutex.release()
self.producer = None
def _get_publisher(self):
return self.producer
def _set_publisher(self, producer):
self.producer = producer
publisher = property(_get_publisher, _set_publisher) # XXX compat

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"""Utility to dump events to screen.
This is a simple program that dumps events to the console
as they happen. Think of it like a `tcpdump` for Celery events.
"""
import sys
from datetime import datetime
from celery.app import app_or_default
from celery.utils.functional import LRUCache
from celery.utils.time import humanize_seconds
__all__ = ('Dumper', 'evdump')
TASK_NAMES = LRUCache(limit=0xFFF)
HUMAN_TYPES = {
'worker-offline': 'shutdown',
'worker-online': 'started',
'worker-heartbeat': 'heartbeat',
}
CONNECTION_ERROR = """\
-> Cannot connect to %s: %s.
Trying again %s
"""
def humanize_type(type):
try:
return HUMAN_TYPES[type.lower()]
except KeyError:
return type.lower().replace('-', ' ')
class Dumper:
"""Monitor events."""
def __init__(self, out=sys.stdout):
self.out = out
def say(self, msg):
print(msg, file=self.out)
# need to flush so that output can be piped.
try:
self.out.flush()
except AttributeError: # pragma: no cover
pass
def on_event(self, ev):
timestamp = datetime.utcfromtimestamp(ev.pop('timestamp'))
type = ev.pop('type').lower()
hostname = ev.pop('hostname')
if type.startswith('task-'):
uuid = ev.pop('uuid')
if type in ('task-received', 'task-sent'):
task = TASK_NAMES[uuid] = '{}({}) args={} kwargs={}' \
.format(ev.pop('name'), uuid,
ev.pop('args'),
ev.pop('kwargs'))
else:
task = TASK_NAMES.get(uuid, '')
return self.format_task_event(hostname, timestamp,
type, task, ev)
fields = ', '.join(
f'{key}={ev[key]}' for key in sorted(ev)
)
sep = fields and ':' or ''
self.say(f'{hostname} [{timestamp}] {humanize_type(type)}{sep} {fields}')
def format_task_event(self, hostname, timestamp, type, task, event):
fields = ', '.join(
f'{key}={event[key]}' for key in sorted(event)
)
sep = fields and ':' or ''
self.say(f'{hostname} [{timestamp}] {humanize_type(type)}{sep} {task} {fields}')
def evdump(app=None, out=sys.stdout):
"""Start event dump."""
app = app_or_default(app)
dumper = Dumper(out=out)
dumper.say('-> evdump: starting capture...')
conn = app.connection_for_read().clone()
def _error_handler(exc, interval):
dumper.say(CONNECTION_ERROR % (
conn.as_uri(), exc, humanize_seconds(interval, 'in', ' ')
))
while 1:
try:
conn.ensure_connection(_error_handler)
recv = app.events.Receiver(conn, handlers={'*': dumper.on_event})
recv.capture()
except (KeyboardInterrupt, SystemExit):
return conn and conn.close()
except conn.connection_errors + conn.channel_errors:
dumper.say('-> Connection lost, attempting reconnect')
if __name__ == '__main__': # pragma: no cover
evdump()

63
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"""Creating events, and event exchange definition."""
import time
from copy import copy
from kombu import Exchange
__all__ = (
'Event', 'event_exchange', 'get_exchange', 'group_from',
)
EVENT_EXCHANGE_NAME = 'celeryev'
#: Exchange used to send events on.
#: Note: Use :func:`get_exchange` instead, as the type of
#: exchange will vary depending on the broker connection.
event_exchange = Exchange(EVENT_EXCHANGE_NAME, type='topic')
def Event(type, _fields=None, __dict__=dict, __now__=time.time, **fields):
"""Create an event.
Notes:
An event is simply a dictionary: the only required field is ``type``.
A ``timestamp`` field will be set to the current time if not provided.
"""
event = __dict__(_fields, **fields) if _fields else fields
if 'timestamp' not in event:
event.update(timestamp=__now__(), type=type)
else:
event['type'] = type
return event
def group_from(type):
"""Get the group part of an event type name.
Example:
>>> group_from('task-sent')
'task'
>>> group_from('custom-my-event')
'custom'
"""
return type.split('-', 1)[0]
def get_exchange(conn, name=EVENT_EXCHANGE_NAME):
"""Get exchange used for sending events.
Arguments:
conn (kombu.Connection): Connection used for sending/receiving events.
name (str): Name of the exchange. Default is ``celeryev``.
Note:
The event type changes if Redis is used as the transport
(from topic -> fanout).
"""
ex = copy(event_exchange)
if conn.transport.driver_type == 'redis':
# quick hack for Issue #436
ex.type = 'fanout'
if name != ex.name:
ex.name = name
return ex

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"""Event receiver implementation."""
import time
from operator import itemgetter
from kombu import Queue
from kombu.connection import maybe_channel
from kombu.mixins import ConsumerMixin
from celery import uuid
from celery.app import app_or_default
from celery.utils.time import adjust_timestamp
from .event import get_exchange
__all__ = ('EventReceiver',)
CLIENT_CLOCK_SKEW = -1
_TZGETTER = itemgetter('utcoffset', 'timestamp')
class EventReceiver(ConsumerMixin):
"""Capture events.
Arguments:
connection (kombu.Connection): Connection to the broker.
handlers (Mapping[Callable]): Event handlers.
This is a map of event type names and their handlers.
The special handler `"*"` captures all events that don't have a
handler.
"""
app = None
def __init__(self, channel, handlers=None, routing_key='#',
node_id=None, app=None, queue_prefix=None,
accept=None, queue_ttl=None, queue_expires=None):
self.app = app_or_default(app or self.app)
self.channel = maybe_channel(channel)
self.handlers = {} if handlers is None else handlers
self.routing_key = routing_key
self.node_id = node_id or uuid()
self.queue_prefix = queue_prefix or self.app.conf.event_queue_prefix
self.exchange = get_exchange(
self.connection or self.app.connection_for_write(),
name=self.app.conf.event_exchange)
if queue_ttl is None:
queue_ttl = self.app.conf.event_queue_ttl
if queue_expires is None:
queue_expires = self.app.conf.event_queue_expires
self.queue = Queue(
'.'.join([self.queue_prefix, self.node_id]),
exchange=self.exchange,
routing_key=self.routing_key,
auto_delete=True, durable=False,
message_ttl=queue_ttl,
expires=queue_expires,
)
self.clock = self.app.clock
self.adjust_clock = self.clock.adjust
self.forward_clock = self.clock.forward
if accept is None:
accept = {self.app.conf.event_serializer, 'json'}
self.accept = accept
def process(self, type, event):
"""Process event by dispatching to configured handler."""
handler = self.handlers.get(type) or self.handlers.get('*')
handler and handler(event)
def get_consumers(self, Consumer, channel):
return [Consumer(queues=[self.queue],
callbacks=[self._receive], no_ack=True,
accept=self.accept)]
def on_consume_ready(self, connection, channel, consumers,
wakeup=True, **kwargs):
if wakeup:
self.wakeup_workers(channel=channel)
def itercapture(self, limit=None, timeout=None, wakeup=True):
return self.consume(limit=limit, timeout=timeout, wakeup=wakeup)
def capture(self, limit=None, timeout=None, wakeup=True):
"""Open up a consumer capturing events.
This has to run in the main process, and it will never stop
unless :attr:`EventDispatcher.should_stop` is set to True, or
forced via :exc:`KeyboardInterrupt` or :exc:`SystemExit`.
"""
for _ in self.consume(limit=limit, timeout=timeout, wakeup=wakeup):
pass
def wakeup_workers(self, channel=None):
self.app.control.broadcast('heartbeat',
connection=self.connection,
channel=channel)
def event_from_message(self, body, localize=True,
now=time.time, tzfields=_TZGETTER,
adjust_timestamp=adjust_timestamp,
CLIENT_CLOCK_SKEW=CLIENT_CLOCK_SKEW):
type = body['type']
if type == 'task-sent':
# clients never sync so cannot use their clock value
_c = body['clock'] = (self.clock.value or 1) + CLIENT_CLOCK_SKEW
self.adjust_clock(_c)
else:
try:
clock = body['clock']
except KeyError:
body['clock'] = self.forward_clock()
else:
self.adjust_clock(clock)
if localize:
try:
offset, timestamp = tzfields(body)
except KeyError:
pass
else:
body['timestamp'] = adjust_timestamp(timestamp, offset)
body['local_received'] = now()
return type, body
def _receive(self, body, message, list=list, isinstance=isinstance):
if isinstance(body, list): # celery 4.0+: List of events
process, from_message = self.process, self.event_from_message
[process(*from_message(event)) for event in body]
else:
self.process(*self.event_from_message(body))
@property
def connection(self):
return self.channel.connection.client if self.channel else None

111
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"""Periodically store events in a database.
Consuming the events as a stream isn't always suitable
so this module implements a system to take snapshots of the
state of a cluster at regular intervals. There's a full
implementation of this writing the snapshots to a database
in :mod:`djcelery.snapshots` in the `django-celery` distribution.
"""
from kombu.utils.limits import TokenBucket
from celery import platforms
from celery.app import app_or_default
from celery.utils.dispatch import Signal
from celery.utils.imports import instantiate
from celery.utils.log import get_logger
from celery.utils.time import rate
from celery.utils.timer2 import Timer
__all__ = ('Polaroid', 'evcam')
logger = get_logger('celery.evcam')
class Polaroid:
"""Record event snapshots."""
timer = None
shutter_signal = Signal(name='shutter_signal', providing_args={'state'})
cleanup_signal = Signal(name='cleanup_signal')
clear_after = False
_tref = None
_ctref = None
def __init__(self, state, freq=1.0, maxrate=None,
cleanup_freq=3600.0, timer=None, app=None):
self.app = app_or_default(app)
self.state = state
self.freq = freq
self.cleanup_freq = cleanup_freq
self.timer = timer or self.timer or Timer()
self.logger = logger
self.maxrate = maxrate and TokenBucket(rate(maxrate))
def install(self):
self._tref = self.timer.call_repeatedly(self.freq, self.capture)
self._ctref = self.timer.call_repeatedly(
self.cleanup_freq, self.cleanup,
)
def on_shutter(self, state):
pass
def on_cleanup(self):
pass
def cleanup(self):
logger.debug('Cleanup: Running...')
self.cleanup_signal.send(sender=self.state)
self.on_cleanup()
def shutter(self):
if self.maxrate is None or self.maxrate.can_consume():
logger.debug('Shutter: %s', self.state)
self.shutter_signal.send(sender=self.state)
self.on_shutter(self.state)
def capture(self):
self.state.freeze_while(self.shutter, clear_after=self.clear_after)
def cancel(self):
if self._tref:
self._tref() # flush all received events.
self._tref.cancel()
if self._ctref:
self._ctref.cancel()
def __enter__(self):
self.install()
return self
def __exit__(self, *exc_info):
self.cancel()
def evcam(camera, freq=1.0, maxrate=None, loglevel=0,
logfile=None, pidfile=None, timer=None, app=None,
**kwargs):
"""Start snapshot recorder."""
app = app_or_default(app)
if pidfile:
platforms.create_pidlock(pidfile)
app.log.setup_logging_subsystem(loglevel, logfile)
print(f'-> evcam: Taking snapshots with {camera} (every {freq} secs.)')
state = app.events.State()
cam = instantiate(camera, state, app=app, freq=freq,
maxrate=maxrate, timer=timer)
cam.install()
conn = app.connection_for_read()
recv = app.events.Receiver(conn, handlers={'*': state.event})
try:
try:
recv.capture(limit=None)
except KeyboardInterrupt:
raise SystemExit
finally:
cam.cancel()
conn.close()

730
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"""In-memory representation of cluster state.
This module implements a data-structure used to keep
track of the state of a cluster of workers and the tasks
it is working on (by consuming events).
For every event consumed the state is updated,
so the state represents the state of the cluster
at the time of the last event.
Snapshots (:mod:`celery.events.snapshot`) can be used to
take "pictures" of this state at regular intervals
to for example, store that in a database.
"""
import bisect
import sys
import threading
from collections import defaultdict
from collections.abc import Callable
from datetime import datetime
from decimal import Decimal
from itertools import islice
from operator import itemgetter
from time import time
from typing import Mapping, Optional # noqa
from weakref import WeakSet, ref
from kombu.clocks import timetuple
from kombu.utils.objects import cached_property
from celery import states
from celery.utils.functional import LRUCache, memoize, pass1
from celery.utils.log import get_logger
__all__ = ('Worker', 'Task', 'State', 'heartbeat_expires')
# pylint: disable=redefined-outer-name
# We cache globals and attribute lookups, so disable this warning.
# pylint: disable=too-many-function-args
# For some reason pylint thinks ._event is a method, when it's a property.
#: Set if running PyPy
PYPY = hasattr(sys, 'pypy_version_info')
#: The window (in percentage) is added to the workers heartbeat
#: frequency. If the time between updates exceeds this window,
#: then the worker is considered to be offline.
HEARTBEAT_EXPIRE_WINDOW = 200
#: Max drift between event timestamp and time of event received
#: before we alert that clocks may be unsynchronized.
HEARTBEAT_DRIFT_MAX = 16
DRIFT_WARNING = (
"Substantial drift from %s may mean clocks are out of sync. Current drift is "
"%s seconds. [orig: %s recv: %s]"
)
logger = get_logger(__name__)
warn = logger.warning
R_STATE = '<State: events={0.event_count} tasks={0.task_count}>'
R_WORKER = '<Worker: {0.hostname} ({0.status_string} clock:{0.clock})'
R_TASK = '<Task: {0.name}({0.uuid}) {0.state} clock:{0.clock}>'
#: Mapping of task event names to task state.
TASK_EVENT_TO_STATE = {
'sent': states.PENDING,
'received': states.RECEIVED,
'started': states.STARTED,
'failed': states.FAILURE,
'retried': states.RETRY,
'succeeded': states.SUCCESS,
'revoked': states.REVOKED,
'rejected': states.REJECTED,
}
class CallableDefaultdict(defaultdict):
""":class:`~collections.defaultdict` with configurable __call__.
We use this for backwards compatibility in State.tasks_by_type
etc, which used to be a method but is now an index instead.
So you can do::
>>> add_tasks = state.tasks_by_type['proj.tasks.add']
while still supporting the method call::
>>> add_tasks = list(state.tasks_by_type(
... 'proj.tasks.add', reverse=True))
"""
def __init__(self, fun, *args, **kwargs):
self.fun = fun
super().__init__(*args, **kwargs)
def __call__(self, *args, **kwargs):
return self.fun(*args, **kwargs)
Callable.register(CallableDefaultdict)
@memoize(maxsize=1000, keyfun=lambda a, _: a[0])
def _warn_drift(hostname, drift, local_received, timestamp):
# we use memoize here so the warning is only logged once per hostname
warn(DRIFT_WARNING, hostname, drift,
datetime.fromtimestamp(local_received),
datetime.fromtimestamp(timestamp))
def heartbeat_expires(timestamp, freq=60,
expire_window=HEARTBEAT_EXPIRE_WINDOW,
Decimal=Decimal, float=float, isinstance=isinstance):
"""Return time when heartbeat expires."""
# some json implementations returns decimal.Decimal objects,
# which aren't compatible with float.
freq = float(freq) if isinstance(freq, Decimal) else freq
if isinstance(timestamp, Decimal):
timestamp = float(timestamp)
return timestamp + (freq * (expire_window / 1e2))
def _depickle_task(cls, fields):
return cls(**fields)
def with_unique_field(attr):
def _decorate_cls(cls):
def __eq__(this, other):
if isinstance(other, this.__class__):
return getattr(this, attr) == getattr(other, attr)
return NotImplemented
cls.__eq__ = __eq__
def __hash__(this):
return hash(getattr(this, attr))
cls.__hash__ = __hash__
return cls
return _decorate_cls
@with_unique_field('hostname')
class Worker:
"""Worker State."""
heartbeat_max = 4
expire_window = HEARTBEAT_EXPIRE_WINDOW
_fields = ('hostname', 'pid', 'freq', 'heartbeats', 'clock',
'active', 'processed', 'loadavg', 'sw_ident',
'sw_ver', 'sw_sys')
if not PYPY: # pragma: no cover
__slots__ = _fields + ('event', '__dict__', '__weakref__')
def __init__(self, hostname=None, pid=None, freq=60,
heartbeats=None, clock=0, active=None, processed=None,
loadavg=None, sw_ident=None, sw_ver=None, sw_sys=None):
self.hostname = hostname
self.pid = pid
self.freq = freq
self.heartbeats = [] if heartbeats is None else heartbeats
self.clock = clock or 0
self.active = active
self.processed = processed
self.loadavg = loadavg
self.sw_ident = sw_ident
self.sw_ver = sw_ver
self.sw_sys = sw_sys
self.event = self._create_event_handler()
def __reduce__(self):
return self.__class__, (self.hostname, self.pid, self.freq,
self.heartbeats, self.clock, self.active,
self.processed, self.loadavg, self.sw_ident,
self.sw_ver, self.sw_sys)
def _create_event_handler(self):
_set = object.__setattr__
hbmax = self.heartbeat_max
heartbeats = self.heartbeats
hb_pop = self.heartbeats.pop
hb_append = self.heartbeats.append
def event(type_, timestamp=None,
local_received=None, fields=None,
max_drift=HEARTBEAT_DRIFT_MAX, abs=abs, int=int,
insort=bisect.insort, len=len):
fields = fields or {}
for k, v in fields.items():
_set(self, k, v)
if type_ == 'offline':
heartbeats[:] = []
else:
if not local_received or not timestamp:
return
drift = abs(int(local_received) - int(timestamp))
if drift > max_drift:
_warn_drift(self.hostname, drift,
local_received, timestamp)
if local_received: # pragma: no cover
hearts = len(heartbeats)
if hearts > hbmax - 1:
hb_pop(0)
if hearts and local_received > heartbeats[-1]:
hb_append(local_received)
else:
insort(heartbeats, local_received)
return event
def update(self, f, **kw):
d = dict(f, **kw) if kw else f
for k, v in d.items():
setattr(self, k, v)
def __repr__(self):
return R_WORKER.format(self)
@property
def status_string(self):
return 'ONLINE' if self.alive else 'OFFLINE'
@property
def heartbeat_expires(self):
return heartbeat_expires(self.heartbeats[-1],
self.freq, self.expire_window)
@property
def alive(self, nowfun=time):
return bool(self.heartbeats and nowfun() < self.heartbeat_expires)
@property
def id(self):
return '{0.hostname}.{0.pid}'.format(self)
@with_unique_field('uuid')
class Task:
"""Task State."""
name = received = sent = started = succeeded = failed = retried = \
revoked = rejected = args = kwargs = eta = expires = retries = \
worker = result = exception = timestamp = runtime = traceback = \
exchange = routing_key = root_id = parent_id = client = None
state = states.PENDING
clock = 0
_fields = (
'uuid', 'name', 'state', 'received', 'sent', 'started', 'rejected',
'succeeded', 'failed', 'retried', 'revoked', 'args', 'kwargs',
'eta', 'expires', 'retries', 'worker', 'result', 'exception',
'timestamp', 'runtime', 'traceback', 'exchange', 'routing_key',
'clock', 'client', 'root', 'root_id', 'parent', 'parent_id',
'children',
)
if not PYPY: # pragma: no cover
__slots__ = ('__dict__', '__weakref__')
#: How to merge out of order events.
#: Disorder is detected by logical ordering (e.g., :event:`task-received`
#: must've happened before a :event:`task-failed` event).
#:
#: A merge rule consists of a state and a list of fields to keep from
#: that state. ``(RECEIVED, ('name', 'args')``, means the name and args
#: fields are always taken from the RECEIVED state, and any values for
#: these fields received before or after is simply ignored.
merge_rules = {
states.RECEIVED: (
'name', 'args', 'kwargs', 'parent_id',
'root_id', 'retries', 'eta', 'expires',
),
}
#: meth:`info` displays these fields by default.
_info_fields = (
'args', 'kwargs', 'retries', 'result', 'eta', 'runtime',
'expires', 'exception', 'exchange', 'routing_key',
'root_id', 'parent_id',
)
def __init__(self, uuid=None, cluster_state=None, children=None, **kwargs):
self.uuid = uuid
self.cluster_state = cluster_state
if self.cluster_state is not None:
self.children = WeakSet(
self.cluster_state.tasks.get(task_id)
for task_id in children or ()
if task_id in self.cluster_state.tasks
)
else:
self.children = WeakSet()
self._serializer_handlers = {
'children': self._serializable_children,
'root': self._serializable_root,
'parent': self._serializable_parent,
}
if kwargs:
self.__dict__.update(kwargs)
def event(self, type_, timestamp=None, local_received=None, fields=None,
precedence=states.precedence, setattr=setattr,
task_event_to_state=TASK_EVENT_TO_STATE.get, RETRY=states.RETRY):
fields = fields or {}
# using .get is faster than catching KeyError in this case.
state = task_event_to_state(type_)
if state is not None:
# sets, for example, self.succeeded to the timestamp.
setattr(self, type_, timestamp)
else:
state = type_.upper() # custom state
# note that precedence here is reversed
# see implementation in celery.states.state.__lt__
if state != RETRY and self.state != RETRY and \
precedence(state) > precedence(self.state):
# this state logically happens-before the current state, so merge.
keep = self.merge_rules.get(state)
if keep is not None:
fields = {
k: v for k, v in fields.items() if k in keep
}
else:
fields.update(state=state, timestamp=timestamp)
# update current state with info from this event.
self.__dict__.update(fields)
def info(self, fields=None, extra=None):
"""Information about this task suitable for on-screen display."""
extra = [] if not extra else extra
fields = self._info_fields if fields is None else fields
def _keys():
for key in list(fields) + list(extra):
value = getattr(self, key, None)
if value is not None:
yield key, value
return dict(_keys())
def __repr__(self):
return R_TASK.format(self)
def as_dict(self):
get = object.__getattribute__
handler = self._serializer_handlers.get
return {
k: handler(k, pass1)(get(self, k)) for k in self._fields
}
def _serializable_children(self, value):
return [task.id for task in self.children]
def _serializable_root(self, value):
return self.root_id
def _serializable_parent(self, value):
return self.parent_id
def __reduce__(self):
return _depickle_task, (self.__class__, self.as_dict())
@property
def id(self):
return self.uuid
@property
def origin(self):
return self.client if self.worker is None else self.worker.id
@property
def ready(self):
return self.state in states.READY_STATES
@cached_property
def parent(self):
# issue github.com/mher/flower/issues/648
try:
return self.parent_id and self.cluster_state.tasks.data[self.parent_id]
except KeyError:
return None
@cached_property
def root(self):
# issue github.com/mher/flower/issues/648
try:
return self.root_id and self.cluster_state.tasks.data[self.root_id]
except KeyError:
return None
class State:
"""Records clusters state."""
Worker = Worker
Task = Task
event_count = 0
task_count = 0
heap_multiplier = 4
def __init__(self, callback=None,
workers=None, tasks=None, taskheap=None,
max_workers_in_memory=5000, max_tasks_in_memory=10000,
on_node_join=None, on_node_leave=None,
tasks_by_type=None, tasks_by_worker=None):
self.event_callback = callback
self.workers = (LRUCache(max_workers_in_memory)
if workers is None else workers)
self.tasks = (LRUCache(max_tasks_in_memory)
if tasks is None else tasks)
self._taskheap = [] if taskheap is None else taskheap
self.max_workers_in_memory = max_workers_in_memory
self.max_tasks_in_memory = max_tasks_in_memory
self.on_node_join = on_node_join
self.on_node_leave = on_node_leave
self._mutex = threading.Lock()
self.handlers = {}
self._seen_types = set()
self._tasks_to_resolve = {}
self.rebuild_taskheap()
self.tasks_by_type = CallableDefaultdict(
self._tasks_by_type, WeakSet) # type: Mapping[str, WeakSet[Task]]
self.tasks_by_type.update(
_deserialize_Task_WeakSet_Mapping(tasks_by_type, self.tasks))
self.tasks_by_worker = CallableDefaultdict(
self._tasks_by_worker, WeakSet) # type: Mapping[str, WeakSet[Task]]
self.tasks_by_worker.update(
_deserialize_Task_WeakSet_Mapping(tasks_by_worker, self.tasks))
@cached_property
def _event(self):
return self._create_dispatcher()
def freeze_while(self, fun, *args, **kwargs):
clear_after = kwargs.pop('clear_after', False)
with self._mutex:
try:
return fun(*args, **kwargs)
finally:
if clear_after:
self._clear()
def clear_tasks(self, ready=True):
with self._mutex:
return self._clear_tasks(ready)
def _clear_tasks(self, ready: bool = True):
if ready:
in_progress = {
uuid: task for uuid, task in self.itertasks()
if task.state not in states.READY_STATES
}
self.tasks.clear()
self.tasks.update(in_progress)
else:
self.tasks.clear()
self._taskheap[:] = []
def _clear(self, ready=True):
self.workers.clear()
self._clear_tasks(ready)
self.event_count = 0
self.task_count = 0
def clear(self, ready: bool = True):
with self._mutex:
return self._clear(ready)
def get_or_create_worker(self, hostname, **kwargs):
"""Get or create worker by hostname.
Returns:
Tuple: of ``(worker, was_created)`` pairs.
"""
try:
worker = self.workers[hostname]
if kwargs:
worker.update(kwargs)
return worker, False
except KeyError:
worker = self.workers[hostname] = self.Worker(
hostname, **kwargs)
return worker, True
def get_or_create_task(self, uuid):
"""Get or create task by uuid."""
try:
return self.tasks[uuid], False
except KeyError:
task = self.tasks[uuid] = self.Task(uuid, cluster_state=self)
return task, True
def event(self, event):
with self._mutex:
return self._event(event)
def task_event(self, type_, fields):
"""Deprecated, use :meth:`event`."""
return self._event(dict(fields, type='-'.join(['task', type_])))[0]
def worker_event(self, type_, fields):
"""Deprecated, use :meth:`event`."""
return self._event(dict(fields, type='-'.join(['worker', type_])))[0]
def _create_dispatcher(self):
# pylint: disable=too-many-statements
# This code is highly optimized, but not for reusability.
get_handler = self.handlers.__getitem__
event_callback = self.event_callback
wfields = itemgetter('hostname', 'timestamp', 'local_received')
tfields = itemgetter('uuid', 'hostname', 'timestamp',
'local_received', 'clock')
taskheap = self._taskheap
th_append = taskheap.append
th_pop = taskheap.pop
# Removing events from task heap is an O(n) operation,
# so easier to just account for the common number of events
# for each task (PENDING->RECEIVED->STARTED->final)
#: an O(n) operation
max_events_in_heap = self.max_tasks_in_memory * self.heap_multiplier
add_type = self._seen_types.add
on_node_join, on_node_leave = self.on_node_join, self.on_node_leave
tasks, Task = self.tasks, self.Task
workers, Worker = self.workers, self.Worker
# avoid updating LRU entry at getitem
get_worker, get_task = workers.data.__getitem__, tasks.data.__getitem__
get_task_by_type_set = self.tasks_by_type.__getitem__
get_task_by_worker_set = self.tasks_by_worker.__getitem__
def _event(event,
timetuple=timetuple, KeyError=KeyError,
insort=bisect.insort, created=True):
self.event_count += 1
if event_callback:
event_callback(self, event)
group, _, subject = event['type'].partition('-')
try:
handler = get_handler(group)
except KeyError:
pass
else:
return handler(subject, event), subject
if group == 'worker':
try:
hostname, timestamp, local_received = wfields(event)
except KeyError:
pass
else:
is_offline = subject == 'offline'
try:
worker, created = get_worker(hostname), False
except KeyError:
if is_offline:
worker, created = Worker(hostname), False
else:
worker = workers[hostname] = Worker(hostname)
worker.event(subject, timestamp, local_received, event)
if on_node_join and (created or subject == 'online'):
on_node_join(worker)
if on_node_leave and is_offline:
on_node_leave(worker)
workers.pop(hostname, None)
return (worker, created), subject
elif group == 'task':
(uuid, hostname, timestamp,
local_received, clock) = tfields(event)
# task-sent event is sent by client, not worker
is_client_event = subject == 'sent'
try:
task, task_created = get_task(uuid), False
except KeyError:
task = tasks[uuid] = Task(uuid, cluster_state=self)
task_created = True
if is_client_event:
task.client = hostname
else:
try:
worker = get_worker(hostname)
except KeyError:
worker = workers[hostname] = Worker(hostname)
task.worker = worker
if worker is not None and local_received:
worker.event(None, local_received, timestamp)
origin = hostname if is_client_event else worker.id
# remove oldest event if exceeding the limit.
heaps = len(taskheap)
if heaps + 1 > max_events_in_heap:
th_pop(0)
# most events will be dated later than the previous.
timetup = timetuple(clock, timestamp, origin, ref(task))
if heaps and timetup > taskheap[-1]:
th_append(timetup)
else:
insort(taskheap, timetup)
if subject == 'received':
self.task_count += 1
task.event(subject, timestamp, local_received, event)
task_name = task.name
if task_name is not None:
add_type(task_name)
if task_created: # add to tasks_by_type index
get_task_by_type_set(task_name).add(task)
get_task_by_worker_set(hostname).add(task)
if task.parent_id:
try:
parent_task = self.tasks[task.parent_id]
except KeyError:
self._add_pending_task_child(task)
else:
parent_task.children.add(task)
try:
_children = self._tasks_to_resolve.pop(uuid)
except KeyError:
pass
else:
task.children.update(_children)
return (task, task_created), subject
return _event
def _add_pending_task_child(self, task):
try:
ch = self._tasks_to_resolve[task.parent_id]
except KeyError:
ch = self._tasks_to_resolve[task.parent_id] = WeakSet()
ch.add(task)
def rebuild_taskheap(self, timetuple=timetuple):
heap = self._taskheap[:] = [
timetuple(t.clock, t.timestamp, t.origin, ref(t))
for t in self.tasks.values()
]
heap.sort()
def itertasks(self, limit: Optional[int] = None):
for index, row in enumerate(self.tasks.items()):
yield row
if limit and index + 1 >= limit:
break
def tasks_by_time(self, limit=None, reverse: bool = True):
"""Generator yielding tasks ordered by time.
Yields:
Tuples of ``(uuid, Task)``.
"""
_heap = self._taskheap
if reverse:
_heap = reversed(_heap)
seen = set()
for evtup in islice(_heap, 0, limit):
task = evtup[3]()
if task is not None:
uuid = task.uuid
if uuid not in seen:
yield uuid, task
seen.add(uuid)
tasks_by_timestamp = tasks_by_time
def _tasks_by_type(self, name, limit=None, reverse=True):
"""Get all tasks by type.
This is slower than accessing :attr:`tasks_by_type`,
but will be ordered by time.
Returns:
Generator: giving ``(uuid, Task)`` pairs.
"""
return islice(
((uuid, task) for uuid, task in self.tasks_by_time(reverse=reverse)
if task.name == name),
0, limit,
)
def _tasks_by_worker(self, hostname, limit=None, reverse=True):
"""Get all tasks by worker.
Slower than accessing :attr:`tasks_by_worker`, but ordered by time.
"""
return islice(
((uuid, task) for uuid, task in self.tasks_by_time(reverse=reverse)
if task.worker.hostname == hostname),
0, limit,
)
def task_types(self):
"""Return a list of all seen task types."""
return sorted(self._seen_types)
def alive_workers(self):
"""Return a list of (seemingly) alive workers."""
return (w for w in self.workers.values() if w.alive)
def __repr__(self):
return R_STATE.format(self)
def __reduce__(self):
return self.__class__, (
self.event_callback, self.workers, self.tasks, None,
self.max_workers_in_memory, self.max_tasks_in_memory,
self.on_node_join, self.on_node_leave,
_serialize_Task_WeakSet_Mapping(self.tasks_by_type),
_serialize_Task_WeakSet_Mapping(self.tasks_by_worker),
)
def _serialize_Task_WeakSet_Mapping(mapping):
return {name: [t.id for t in tasks] for name, tasks in mapping.items()}
def _deserialize_Task_WeakSet_Mapping(mapping, tasks):
mapping = mapping or {}
return {name: WeakSet(tasks[i] for i in ids if i in tasks)
for name, ids in mapping.items()}