What is a good way to communicate between two separate Python runtimes? Thing's I've tried:

  • reading/writing on named pipes e.g. os.mkfifo (feels hacky)
  • dbus services (worked on desktop, but too heavyweight for headless)
  • sockets (seems too low-level, surely there's a higher level module to use?)

My basic requirement is to be able to run python listen.py and have that process just doing it's thing there, like a daemon, able to receive messages from python client.py --bar. The client call should just send a message to the existing process and terminate, with return code 0 for success or nonzero for failure (i.e. some two-way communication will be required)


The multiprocessing library provides listeners and clients that wrap sockets and allow you to pass arbitrary python objects.

Your server could listen to receive python objects:

from multiprocessing.connection import Listener

address = ('localhost', 6000)     # family is deduced to be 'AF_INET'
listener = Listener(address, authkey='secret password')
conn = listener.accept()
print 'connection accepted from', listener.last_accepted
while True:
    msg = conn.recv()
    # do something with msg
    if msg == 'close':

Your client could send commands as objects:

from multiprocessing.connection import Client

address = ('localhost', 6000)
conn = Client(address, authkey='secret password')
# can also send arbitrary objects:
# conn.send(['a', 2.5, None, int, sum])
  • 24
    In python 3 authkey should be a byte string: authkey=b'secret password'
    – Noam Peled
    Mar 18 '16 at 1:36
  • 4
    really a good solution, no extra libraries to install, and just works as expected. thanks!
    – complexM
    Sep 2 '16 at 19:13
  • 1
    Worked well for me! And easy to run in the background using threading.Thread
    – rkok
    Apr 5 '17 at 21:27
  • 1
    Great solution. After reading the docs, specifically the section on Authentication Keys, it seems like the data transferred between client and server is not encrypted. Anyone know the best way to encrypt data transmitted between client and server?
    – MikeyE
    May 28 '18 at 1:53
  • 5
    Are there any rules for which port number I should be using? And how should I detect if a port is already being used or not?
    – sorbet
    Oct 31 '19 at 22:12

Nah, zeromq is the way to go. Delicious, isn't it?

import argparse
import zmq

parser = argparse.ArgumentParser(description='zeromq server/client')
args = parser.parse_args()

if args.bar:
    # client
    context = zmq.Context()
    socket = context.socket(zmq.REQ)
    msg = socket.recv()
    print msg
    # server
    context = zmq.Context()
    socket = context.socket(zmq.REP)
    while True:
        msg = socket.recv()
        if msg == 'zeromq':
            socket.send('ah ha!')
  • 1
    can this be modified to work in a multi-threaded environment? i have several worker threads connecting now, and it seems to be causing assertion failures in the zmq c code
    – wim
    Oct 2 '11 at 12:25
  • You can also wrap zmq with pizco: pizco.readthedocs.io/en/latest
    – Noam Peled
    Apr 28 '17 at 14:36
  • 1
    delicious 🍕🍕🍕🍕
    – mils
    Dec 14 '17 at 0:41
  • 3
    After staring at the top 2 answers, I have to ask the question, does every solution for this require using an arbitrary port number? And if that port is already being used for something else, might this randomly screw up unrelated stuff which just happens to be running on the same computer?
    – AlanSE
    Aug 27 '19 at 12:24
  • @AlanSE, yes. all require a unique arbitrary port number (more exactly, two processes can share a port number if a different transport like TCP versus UDP). AFAIK you have to have a mechanism to fall back to a free port. Or else you could run into problems. PS: Port number should be >= 1024 unless for a good reason. Jun 5 '20 at 21:40

From my experience, rpyc is by far the simplest and most elegant way to go about it.

(I know this is an old question, but I've just stumbled upon it..)

  • 1
    This is genius. Thank you for introducing me to this library. What I need now is a second upvote button.
    – sorbet
    Nov 4 '19 at 10:09

Based on @vsekhar's answer, here is a Python 3 version with more details and multiple connections:


from multiprocessing.connection import Listener

listener = Listener(('localhost', 6000), authkey=b'secret password')
running = True
while running:
    conn = listener.accept()
    print('connection accepted from', listener.last_accepted)
    while True:
        msg = conn.recv()
        if msg == 'close connection':
        if msg == 'close server':
            running = False


from multiprocessing.connection import Client
import time

# Client 1
conn = Client(('localhost', 6000), authkey=b'secret password')
conn.send('close connection')


# Client 2
conn = Client(('localhost', 6000), authkey=b'secret password')
conn.send('close server')
  • What is the maximum size for queueing in this case? Suppose you add waiting time in the Server code (to simulate processing delay), then what is the maximum number of client requests which can still be sent via this connection, before some sort of error occurs? From my testing 100000 doesn't give any error. Or else is there any way to check the number of queued requests. So that the sender can terminate if there are, let's say more than 100 requests queued. Apr 2 at 21:40

I would use sockets; local communication was strongly optimized, so you shouldn't have performance problems and it gives you the ability to distribute your application to different physical nodes if the needs should arise.

With regard to the "low-level" approach, you're right. But you can always use an higher-level wrapper depending on your needs. XMLRPC could be a good candidate, but it is maybe overkill for the task you're trying to perform.

Twisted offers some good protocol simple implementations, such as LineReceiver (for simple line based messages) or the more elegant AMP (which was, by the way, standardized and implemented in different languages).

  • Aren't sockets relatively slow for local use on Windows? (Or am I thinking of all local IPC?) So it might depend on the OPs deployment environment. And if you're using Twisted, they have ProcessProtocols too, which might be worth looking at.
    – detly
    Aug 3 '11 at 2:36
  • ProcessProtocol solves a completely different problematic and can't be used to communicate with an already running process.
    – GaretJax
    Aug 3 '11 at 2:37
  • Regarding windows, you may be right; I've only a very limited experience on windows. Regarding "all local IPC", if I'll find my references for what stated above, I'll add the link.
    – GaretJax
    Aug 3 '11 at 2:38

I would use sockets, but use Twisted to give you some abstraction, and to make things easy. Their Simple Echo Client / Server example is a good place to start.

You would just have to combine the files and instantiate and run either the client or server depending on the passed argument(s).


Check out a cross-platform library/server called RabbitMQ. Might be too heavy for two-process communication, but if you need multi-process or multi-codebase communication (with various different means, e.g. one-to-many, queues, etc), it is a good option.


$ pip install pika
$ pip install bson # for sending binary content
$ sudo apt-get rabbitmq-server # ubuntu, see rabbitmq installation instructions for other platforms

Publisher (sends data):

import pika, time, bson, os

connection = pika.BlockingConnection(pika.ConnectionParameters('localhost'))
channel = connection.channel()
channel.exchange_declare(exchange='logs', type='fanout')

i = 0
while True:
    data = {'msg': 'Hello %s' % i, b'data': os.urandom(2), 'some': bytes(bytearray(b'\x00\x0F\x98\x24'))}
    channel.basic_publish(exchange='logs', routing_key='', body=bson.dumps(data))
    print("Sent", data)
    i = i + 1


Subscriber (receives data, can be multiple):

import pika, bson

connection = pika.BlockingConnection(pika.ConnectionParameters(host='localhost'))
channel = connection.channel()

channel.exchange_declare(exchange='logs', type='fanout')

result = channel.queue_declare(exclusive=True)
queue_name = result.method.queue

channel.queue_bind(exchange='logs', queue=queue_name)

def callback(ch, method, properties, body):
    data = bson.loads(body)
    print("Received", data)

channel.basic_consume(callback, queue=queue_name, no_ack=True)

Examples based on https://www.rabbitmq.com/tutorials/tutorial-two-python.html

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