##// END OF EJS Templates
try to shutdown at the end of every notebook run...
try to shutdown at the end of every notebook run this line causes noise in the test suite, but if we just ignore it, we'll never get to the bottom of it. It seems to only happen when running 'iptest js', and *not* when running the 'casperjs test' command directly, with a notebookserver that was launched manually.

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heartmonitor.py
190 lines | 7.1 KiB | text/x-python | PythonLexer
#!/usr/bin/env python
"""
A multi-heart Heartbeat system using PUB and ROUTER sockets. pings are sent out on the PUB,
and hearts are tracked based on their DEALER identities.
Authors:
* Min RK
"""
#-----------------------------------------------------------------------------
# Copyright (C) 2010-2011 The IPython Development Team
#
# Distributed under the terms of the BSD License. The full license is in
# the file COPYING, distributed as part of this software.
#-----------------------------------------------------------------------------
from __future__ import print_function
import time
import uuid
import zmq
from zmq.devices import ThreadDevice, ThreadMonitoredQueue
from zmq.eventloop import ioloop, zmqstream
from IPython.config.configurable import LoggingConfigurable
from IPython.utils.py3compat import str_to_bytes
from IPython.utils.traitlets import Set, Instance, CFloat, Integer, Dict
from IPython.parallel.util import log_errors
class Heart(object):
"""A basic heart object for responding to a HeartMonitor.
This is a simple wrapper with defaults for the most common
Device model for responding to heartbeats.
It simply builds a threadsafe zmq.FORWARDER Device, defaulting to using
SUB/DEALER for in/out.
You can specify the DEALER's IDENTITY via the optional heart_id argument."""
device=None
id=None
def __init__(self, in_addr, out_addr, mon_addr=None, in_type=zmq.SUB, out_type=zmq.DEALER, mon_type=zmq.PUB, heart_id=None):
if mon_addr is None:
self.device = ThreadDevice(zmq.FORWARDER, in_type, out_type)
else:
self.device = ThreadMonitoredQueue(in_type, out_type, mon_type, in_prefix=b"", out_prefix=b"")
# do not allow the device to share global Context.instance,
# which is the default behavior in pyzmq > 2.1.10
self.device.context_factory = zmq.Context
self.device.daemon=True
self.device.connect_in(in_addr)
self.device.connect_out(out_addr)
if mon_addr is not None:
self.device.connect_mon(mon_addr)
if in_type == zmq.SUB:
self.device.setsockopt_in(zmq.SUBSCRIBE, b"")
if heart_id is None:
heart_id = uuid.uuid4().bytes
self.device.setsockopt_out(zmq.IDENTITY, heart_id)
self.id = heart_id
def start(self):
return self.device.start()
class HeartMonitor(LoggingConfigurable):
"""A basic HeartMonitor class
pingstream: a PUB stream
pongstream: an ROUTER stream
period: the period of the heartbeat in milliseconds"""
period = Integer(3000, config=True,
help='The frequency at which the Hub pings the engines for heartbeats '
'(in ms)',
)
max_heartmonitor_misses = Integer(10, config=True,
help='Allowed consecutive missed pings from controller Hub to engine before unregistering.',
)
pingstream=Instance('zmq.eventloop.zmqstream.ZMQStream')
pongstream=Instance('zmq.eventloop.zmqstream.ZMQStream')
loop = Instance('zmq.eventloop.ioloop.IOLoop')
def _loop_default(self):
return ioloop.IOLoop.instance()
# not settable:
hearts=Set()
responses=Set()
on_probation=Dict()
last_ping=CFloat(0)
_new_handlers = Set()
_failure_handlers = Set()
lifetime = CFloat(0)
tic = CFloat(0)
def __init__(self, **kwargs):
super(HeartMonitor, self).__init__(**kwargs)
self.pongstream.on_recv(self.handle_pong)
def start(self):
self.tic = time.time()
self.caller = ioloop.PeriodicCallback(self.beat, self.period, self.loop)
self.caller.start()
def add_new_heart_handler(self, handler):
"""add a new handler for new hearts"""
self.log.debug("heartbeat::new_heart_handler: %s", handler)
self._new_handlers.add(handler)
def add_heart_failure_handler(self, handler):
"""add a new handler for heart failure"""
self.log.debug("heartbeat::new heart failure handler: %s", handler)
self._failure_handlers.add(handler)
def beat(self):
self.pongstream.flush()
self.last_ping = self.lifetime
toc = time.time()
self.lifetime += toc-self.tic
self.tic = toc
self.log.debug("heartbeat::sending %s", self.lifetime)
goodhearts = self.hearts.intersection(self.responses)
missed_beats = self.hearts.difference(goodhearts)
newhearts = self.responses.difference(goodhearts)
map(self.handle_new_heart, newhearts)
heartfailures, on_probation = self._check_missed(missed_beats, self.on_probation,
self.hearts)
map(self.handle_heart_failure, heartfailures)
self.on_probation = on_probation
self.responses = set()
#print self.on_probation, self.hearts
# self.log.debug("heartbeat::beat %.3f, %i beating hearts", self.lifetime, len(self.hearts))
self.pingstream.send(str_to_bytes(str(self.lifetime)))
# flush stream to force immediate socket send
self.pingstream.flush()
def _check_missed(self, missed_beats, on_probation, hearts):
"""Update heartbeats on probation, identifying any that have too many misses.
"""
failures = []
new_probation = {}
for cur_heart in (b for b in missed_beats if b in hearts):
miss_count = on_probation.get(cur_heart, 0) + 1
self.log.info("heartbeat::missed %s : %s" % (cur_heart, miss_count))
if miss_count > self.max_heartmonitor_misses:
failures.append(cur_heart)
else:
new_probation[cur_heart] = miss_count
return failures, new_probation
def handle_new_heart(self, heart):
if self._new_handlers:
for handler in self._new_handlers:
handler(heart)
else:
self.log.info("heartbeat::yay, got new heart %s!", heart)
self.hearts.add(heart)
def handle_heart_failure(self, heart):
if self._failure_handlers:
for handler in self._failure_handlers:
try:
handler(heart)
except Exception as e:
self.log.error("heartbeat::Bad Handler! %s", handler, exc_info=True)
pass
else:
self.log.info("heartbeat::Heart %s failed :(", heart)
self.hearts.remove(heart)
@log_errors
def handle_pong(self, msg):
"a heart just beat"
current = str_to_bytes(str(self.lifetime))
last = str_to_bytes(str(self.last_ping))
if msg[1] == current:
delta = time.time()-self.tic
# self.log.debug("heartbeat::heart %r took %.2f ms to respond"%(msg[0], 1000*delta))
self.responses.add(msg[0])
elif msg[1] == last:
delta = time.time()-self.tic + (self.lifetime-self.last_ping)
self.log.warn("heartbeat::heart %r missed a beat, and took %.2f ms to respond", msg[0], 1000*delta)
self.responses.add(msg[0])
else:
self.log.warn("heartbeat::got bad heartbeat (possibly old?): %s (current=%.3f)", msg[1], self.lifetime)