Eventloops and PyZMQ¶
Facebook’s Tornado includes an eventloop for handing poll events on filedescriptors and
native sockets. We have included a small part of Tornado (specifically its
ioloop), and adapted its
IOStream class into
handling poll events on ØMQ sockets. A ZMQStream object works much like a Socket object,
but instead of calling
recv() directly, you register a callback with
on_recv(). Callbacks can also be registered for send events
With PyZMQ’s ioloop, you can use zmq sockets in any tornado application. You can tell tornado to use zmq’s poller by calling the
from zmq.eventloop import ioloop ioloop.install()
You can also do the same thing by requesting the global instance from pyzmq:
from zmq.eventloop.ioloop import IOLoop loop = IOLoop.current()
This configures tornado’s
tornado.ioloop.IOLoop to use zmq’s poller,
and registers the current instance.
install() or retrieving the zmq instance must be done before the global * instance is registered, else there will be a conflict.
It is possible to use PyZMQ sockets with tornado without registering as the global instance, but it is less convenient. First, you must instruct the tornado IOLoop to use the zmq poller:
from zmq.eventloop.ioloop import ZMQIOLoop loop = ZMQIOLoop()
Then, when you instantiate tornado and ZMQStream objects, you must pass the io_loop argument to ensure that they use this loop, instead of the global instance.
This is especially useful for writing tests, such as this:
from tornado.testing import AsyncTestCase from zmq.eventloop.ioloop import ZMQIOLoop from zmq.eventloop.zmqstream import ZMQStream class TestZMQBridge(AsyncTestCase): # Use a ZMQ-compatible I/O loop so that we can use `ZMQStream`. def get_new_ioloop(self): return ZMQIOLoop()
You can also manually install this IOLoop as the global tornado instance, with:
from zmq.eventloop.ioloop import ZMQIOLoop loop = ZMQIOLoop() loop.install()
Futures and coroutines¶
PyZMQ 15 adds
zmq.eventloop.future, containing a Socket subclass
Future objects for use in
ZMQStream objects let you register callbacks to handle messages as they arrive,
for use with the tornado eventloop.
ZMQStream objects do have
methods, which behaves the same way as
Socket.send(), but instead of sending right
IOLoop will wait until socket is able to send (for instance if
is met, or a
REQ/REP pattern prohibits sending at a certain point). Messages sent via
send will also be passed to the callback registered with
ZMQStream.on_recv() is the primary method for using a ZMQStream. It registers a
callback to fire with messages as they are received, which will always be multipart,
even if its length is 1. You can easily use this to build things like an echo socket:
s = ctx.socket(zmq.REP) s.bind('tcp://localhost:12345') stream = ZMQStream(s) def echo(msg): stream.send_multipart(msg) stream.on_recv(echo) ioloop.IOLoop.instance().start()
A callback must be registered using either
ZMQStream.on_recv_stream() before any data will be received on the
underlying socket. This allows you to temporarily pause processing on a
socket by setting both callbacks to None. Processing can later be resumed
by restoring either callback.
ZMQStream.on_recv_stream() is just like on_recv above, but the callback will be
passed both the message and the stream, rather than just the message. This is meant to make
it easier to use a single callback with multiple streams.
s1 = ctx.socket(zmq.REP) s1.bind('tcp://localhost:12345') stream1 = ZMQStream(s1) s2 = ctx.socket(zmq.REP) s2.bind('tcp://localhost:54321') stream2 = ZMQStream(s2) def echo(stream, msg): stream.send_multipart(msg) stream1.on_recv_stream(echo) stream2.on_recv_stream(echo) ioloop.IOLoop.instance().start()
Sometimes with an eventloop, there can be multiple events ready on a single iteration of
the loop. The
flush() method allows developers to pull messages off of
the queue to enforce some priority over the event loop ordering. flush pulls any pending
events off of the queue. You can specify to flush only recv events, only send events, or
any events, and you can specify a limit for how many events to flush in order to prevent
PyZMQ and gevent¶
import zmq.green as zmq
Then write your code as normal.
Socket.send/recv and zmq.Poller are gevent-aware.
In PyZMQ ≥ 184.108.40.206, green.device and green.eventloop should be gevent-friendly as well.
The green device does not release the GIL, unlike the true device in zmq.core.
zmq.green.eventloop includes minimally patched IOLoop/ZMQStream in order to use the gevent-enabled Poller, so you should be able to use the ZMQStream interface in gevent apps as well, though using two eventloops simultaneously (tornado + gevent) is not recommended.
There is a known issue in gevent ≤ 1.0 or libevent, which can cause zeromq socket events to be missed. PyZMQ works around this by adding a timeout so it will not wait forever for gevent to notice events. The only known solution for this is to use gevent ≥ 1.0, which is currently at 1.0b3, and does not exhibit this behavior.
zmq.green examples on GitHub.