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I have an application that uses both grequests and multiprocessing.managers for a combination of IPC communication and Asynchronous RESTful communications over HTTP.

It seems that grequests, in using gevent.monkey's patch_all() method, breaks the multiprocessing.connection module used by the multiprocessing.manager.SyncManager class and its derivatives.

This is apparently not an isolated issue, but affects any use case that implements multiprocessing.connetion, such as multiprocessing.pool, for example.

Drilling down into the code in gevent/monkey.py, I found that the swapping of the stdlib socket module with gevent.socket is what causes the breakage. This can be found at line 115 in gevent/monkey.py under the patch_socket() function:

def patch_socket(dns=True, aggressive=True):
    """Replace the standard socket object with gevent's cooperative sockets.
    ...
    _socket.socket = socket.socket # This line breaks multiprocessing.connection!
    ...

My question is then why does this swappage break multiprocessing.connection, and what advantages are derived from using gevent.socket instead of the stdlib's socket module? That is, what performance loss, if any, will I incur from not patching the socket module?

Traceback

Traceback (most recent call last):
  File "clientWithGeventMonkeyPatch.py", line 49, in <module>
    client = GetClient(host, port, authkey)
  File "clientWithGeventMonkeyPatch.py", line 39, in GetClient
    client.connect()
  File "/usr/lib/python2.7/multiprocessing/managers.py", line 500, in connect
    conn = Client(self._address, authkey=self._authkey)
  File "/usr/lib/python2.7/multiprocessing/connection.py", line 175, in Client
    answer_challenge(c, authkey)
  File "/usr/lib/python2.7/multiprocessing/connection.py", line 414, in answer_challenge
    response = connection.recv_bytes(256)        # reject large message
IOError: [Errno 11] Resource temporarily unavailable

code to reproduce the error

(on ubuntu server 11.10, python2.7.3, with gevent, greenlet, and grequests installed)

manager.py

## manager.py
import multiprocessing
import multiprocessing.managers
import datetime


class LocalManager(multiprocessing.managers.SyncManager):
    def __init__(self, *args, **kwargs):
        multiprocessing.managers.SyncManager.__init__(self, *args, **kwargs)
        self.__type__ = 'LocalManager'

def GetManager(host, port, authkey):
    def getdatetime():
        return '{}'.format(datetime.datetime.now())

    LocalManager.register('getdatetime', callable = getdatetime)
    manager = LocalManager(address = (host, port), authkey = authkey)
    manager.start()

    return manager

if __name__ == '__main__':
    # define our manager connection parameters
    port = 55555
    host = 'localhost'
    authkey = 'auth1234'

    # start a manager
    man = GetManager(host, port, authkey)

    # wait for user input to shut down
    raw_input('return to shutdown')
    man.shutdown()

client.py

## client.py -- this one works
import time
import multiprocessing.managers

class RemoteClient(multiprocessing.managers.SyncManager):
    def __init__(self, *args, **kwargs):
        multiprocessing.managers.SyncManager.__init__(self, *args, **kwargs)
        self.__type__ = 'RemoteClient'

def GetClient(host, port, authkey):
    RemoteClient.register('getdatetime')
    client = RemoteClient(address = (host, port), authkey = authkey)
    client.connect()
    return client

if __name__ == '__main__':
    # define our client connection parameters
    port = 55555
    host = 'localhost'
    authkey = 'auth1234'

    # start a manager
    client = GetClient(host, port, authkey)
    print 'connected', client
    print 'client.getdatetime()', client.getdatetime()
    # wait a couple of seconds, then do it again
    time.sleep(2)
    print 'client.getdatetime()', client.getdatetime()

    # exit...

clientWithGeventMonkeyPatch.py

## clientWithGeventMonkeyPatch.py -- breaks, depending on patch_all() parameters        
import time
import multiprocessing.managers


# this part is copied from grequests
# bear in mind that it doesn't actually do anything in this module.
try:
    import gevent
    from gevent import monkey as curious_george
    from gevent.pool import Pool
except ImportError:
    raise RuntimeError('Gevent is required for grequests.')

# this line causes breakage of the multiprocessing.manager connection auth method:
# Monkey-patch. 
# patch_all() parameters with default values:  socket=True, dns=True, time=True, select=True, thread=True, os=True, ssl=True, aggressive=True

curious_george.patch_all(thread=False, select=False) # breaks
#~ curious_george.patch_all(thread=False, select=False, socket = False) # works!
#~ curious_george.patch_all(thread=False, select=False, socket = True, aggressive = True, dns = True) # same as (thread=False, select=False); breaks
#~ curious_george.patch_all(thread=False, select=False, socket = True, aggressive = True, dns = False) # breaks
#~ curious_george.patch_all(thread=False, select=False, socket = True, aggressive = False, dns = True) # breaks
#~ curious_george.patch_all(thread=False, select=False, socket = True, aggressive = False, dns = False) # breaks







class RemoteClient(multiprocessing.managers.SyncManager):
    def __init__(self, *args, **kwargs):
        multiprocessing.managers.SyncManager.__init__(self, *args, **kwargs)
        self.__type__ = 'RemoteClient'

def GetClient(host, port, authkey):
    RemoteClient.register('getdatetime')
    client = RemoteClient(address = (host, port), authkey = authkey)
    client.connect()
    return client

if __name__ == '__main__':
    # define our client connection parameters
    port = 55555
    host = 'localhost'
    authkey = 'auth1234'

    # start a manager
    client = GetClient(host, port, authkey)
    print 'connected', client
    print 'client.getdatetime()', client.getdatetime()
    # wait a couple of seconds, then do it again
    time.sleep(2)
    print 'client.getdatetime()', client.getdatetime()

    # exit...
share|improve this question

1 Answer 1

up vote 2 down vote accepted

If you don't patch the socket module, gevent's ability to not block on network operations won't be available, and thus most of the benefit of using gevent in the first place won't be available.

gevent and multiprocessing aren't really designed to play nicely with one another - gevent mostly assumes that you're doing your network connections through it, and not bypassing the highest level Python socket interfaces (which multiprocessing does).

share|improve this answer
    
I see. Would that then point to [Errno 11] Resource temporarily unavailable being the result of attempting a blocking read on a non-blocking socket connection? –  Nisan.H Feb 6 '13 at 19:15
2  
Though I'm not a gevent developer and haven't looked at its internals recently, that seems like a very likely explanation - the non-blocking socket doesn't have any data to read yet, so it raises a "not yet" exception which gevent would normally catch, but the call path is bypassing that portion of gevent, so the exception isn't caught. –  Amber Feb 6 '13 at 19:17
    
that sounds reasonable. I think my best course of action here is to replace multiprocessing.connection's socket creation method with one that is gevent-aware, and therefore able to go around it and use the original stdlib socket module instead. (Of course, this is the short-term, least-breaking solution, but not the best one, IMO--the best being gevent and elements that use it not overwriting stdlib components and using a proper try...except... on their import to deal with ambiguous imports.) –  Nisan.H Feb 6 '13 at 19:24

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