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inputhook: disable CTRL+C when a hook is active....
inputhook: disable CTRL+C when a hook is active. On systems with 'readline', it's very likely to intercept a signal during a select() call. The default SIGINT handler will schedule a KeyboardInterrupt exception to be raised as soon as possible. If ctypes is used to install a Python callback for PyOS_InputHook, this will happen as soon as the bytecode execution starts, so even if the first instruction of the callback is a `try: ... except KeyboardInterrupt` clause, it's actually too late. As ctypes doesn't allow a Python callback to raise an exception, this ends up with IPython detecting an internal error... not pretty. We must therefore ignore the SIGINT signals until we are sure the exception handler is active, in the Python callback.
Bernardo B. Marques - - Load All Authors

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test_session.py
210 lines | 7.9 KiB | text/x-python | PythonLexer
/ IPython / zmq / tests / test_session.py
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"""test building messages with streamsession"""
#-------------------------------------------------------------------------------
# Copyright (C) 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.
#-------------------------------------------------------------------------------
#-------------------------------------------------------------------------------
# Imports
#-------------------------------------------------------------------------------
import os
import uuid
import zmq
from zmq.tests import BaseZMQTestCase
from zmq.eventloop.zmqstream import ZMQStream
from IPython.zmq import session as ss
class SessionTestCase(BaseZMQTestCase):
def setUp(self):
BaseZMQTestCase.setUp(self)
self.session = ss.Session()
class MockSocket(zmq.Socket):
def __init__(self, *args, **kwargs):
super(MockSocket,self).__init__(*args,**kwargs)
self.data = []
def send_multipart(self, msgparts, *args, **kwargs):
self.data.extend(msgparts)
def send(self, part, *args, **kwargs):
self.data.append(part)
def recv_multipart(self, *args, **kwargs):
return self.data
class TestSession(SessionTestCase):
def test_msg(self):
"""message format"""
msg = self.session.msg('execute')
thekeys = set('header parent_header content msg_type msg_id'.split())
s = set(msg.keys())
self.assertEquals(s, thekeys)
self.assertTrue(isinstance(msg['content'],dict))
self.assertTrue(isinstance(msg['header'],dict))
self.assertTrue(isinstance(msg['parent_header'],dict))
self.assertTrue(isinstance(msg['msg_id'],str))
self.assertTrue(isinstance(msg['msg_type'],str))
self.assertEquals(msg['header']['msg_type'], 'execute')
self.assertEquals(msg['msg_type'], 'execute')
def test_serialize(self):
msg = self.session.msg('execute',content=dict(a=10))
msg_list = self.session.serialize(msg, ident=b'foo')
ident, msg_list = self.session.feed_identities(msg_list)
new_msg = self.session.unserialize(msg_list)
self.assertEquals(ident[0], b'foo')
self.assertEquals(new_msg['msg_id'],msg['msg_id'])
self.assertEquals(new_msg['msg_type'],msg['msg_type'])
self.assertEquals(new_msg['header'],msg['header'])
self.assertEquals(new_msg['content'],msg['content'])
self.assertEquals(new_msg['parent_header'],msg['parent_header'])
def test_send(self):
socket = MockSocket(zmq.Context.instance(),zmq.PAIR)
msg = self.session.msg('execute', content=dict(a=10))
self.session.send(socket, msg, ident=b'foo', buffers=[b'bar'])
ident, msg_list = self.session.feed_identities(socket.data)
new_msg = self.session.unserialize(msg_list)
self.assertEquals(ident[0], b'foo')
self.assertEquals(new_msg['msg_id'],msg['msg_id'])
self.assertEquals(new_msg['msg_type'],msg['msg_type'])
self.assertEquals(new_msg['header'],msg['header'])
self.assertEquals(new_msg['content'],msg['content'])
self.assertEquals(new_msg['parent_header'],msg['parent_header'])
self.assertEquals(new_msg['buffers'],[b'bar'])
socket.data = []
content = msg['content']
header = msg['header']
parent = msg['parent_header']
msg_type = header['msg_type']
self.session.send(socket, None, content=content, parent=parent,
header=header, ident=b'foo', buffers=[b'bar'])
ident, msg_list = self.session.feed_identities(socket.data)
new_msg = self.session.unserialize(msg_list)
self.assertEquals(ident[0], b'foo')
self.assertEquals(new_msg['msg_id'],msg['msg_id'])
self.assertEquals(new_msg['msg_type'],msg['msg_type'])
self.assertEquals(new_msg['header'],msg['header'])
self.assertEquals(new_msg['content'],msg['content'])
self.assertEquals(new_msg['parent_header'],msg['parent_header'])
self.assertEquals(new_msg['buffers'],[b'bar'])
socket.data = []
self.session.send(socket, msg, ident=b'foo', buffers=[b'bar'])
ident, new_msg = self.session.recv(socket)
self.assertEquals(ident[0], b'foo')
self.assertEquals(new_msg['msg_id'],msg['msg_id'])
self.assertEquals(new_msg['msg_type'],msg['msg_type'])
self.assertEquals(new_msg['header'],msg['header'])
self.assertEquals(new_msg['content'],msg['content'])
self.assertEquals(new_msg['parent_header'],msg['parent_header'])
self.assertEquals(new_msg['buffers'],[b'bar'])
socket.close()
def test_args(self):
"""initialization arguments for Session"""
s = self.session
self.assertTrue(s.pack is ss.default_packer)
self.assertTrue(s.unpack is ss.default_unpacker)
self.assertEquals(s.username, os.environ.get('USER', u'username'))
s = ss.Session()
self.assertEquals(s.username, os.environ.get('USER', u'username'))
self.assertRaises(TypeError, ss.Session, pack='hi')
self.assertRaises(TypeError, ss.Session, unpack='hi')
u = str(uuid.uuid4())
s = ss.Session(username=u'carrot', session=u)
self.assertEquals(s.session, u)
self.assertEquals(s.username, u'carrot')
def test_tracking(self):
"""test tracking messages"""
a,b = self.create_bound_pair(zmq.PAIR, zmq.PAIR)
s = self.session
stream = ZMQStream(a)
msg = s.send(a, 'hello', track=False)
self.assertTrue(msg['tracker'] is None)
msg = s.send(a, 'hello', track=True)
self.assertTrue(isinstance(msg['tracker'], zmq.MessageTracker))
M = zmq.Message(b'hi there', track=True)
msg = s.send(a, 'hello', buffers=[M], track=True)
t = msg['tracker']
self.assertTrue(isinstance(t, zmq.MessageTracker))
self.assertRaises(zmq.NotDone, t.wait, .1)
del M
t.wait(1) # this will raise
# def test_rekey(self):
# """rekeying dict around json str keys"""
# d = {'0': uuid.uuid4(), 0:uuid.uuid4()}
# self.assertRaises(KeyError, ss.rekey, d)
#
# d = {'0': uuid.uuid4(), 1:uuid.uuid4(), 'asdf':uuid.uuid4()}
# d2 = {0:d['0'],1:d[1],'asdf':d['asdf']}
# rd = ss.rekey(d)
# self.assertEquals(d2,rd)
#
# d = {'1.5':uuid.uuid4(),'1':uuid.uuid4()}
# d2 = {1.5:d['1.5'],1:d['1']}
# rd = ss.rekey(d)
# self.assertEquals(d2,rd)
#
# d = {'1.0':uuid.uuid4(),'1':uuid.uuid4()}
# self.assertRaises(KeyError, ss.rekey, d)
#
def test_unique_msg_ids(self):
"""test that messages receive unique ids"""
ids = set()
for i in range(2**12):
h = self.session.msg_header('test')
msg_id = h['msg_id']
self.assertTrue(msg_id not in ids)
ids.add(msg_id)
def test_feed_identities(self):
"""scrub the front for zmq IDENTITIES"""
theids = "engine client other".split()
content = dict(code='whoda',stuff=object())
themsg = self.session.msg('execute',content=content)
pmsg = theids
def test_session_id(self):
session = ss.Session()
# get bs before us
bs = session.bsession
us = session.session
self.assertEquals(us.encode('ascii'), bs)
session = ss.Session()
# get us before bs
us = session.session
bs = session.bsession
self.assertEquals(us.encode('ascii'), bs)
# change propagates:
session.session = 'something else'
bs = session.bsession
us = session.session
self.assertEquals(us.encode('ascii'), bs)
session = ss.Session(session='stuff')
# get us before bs
self.assertEquals(session.bsession, session.session.encode('ascii'))
self.assertEquals(b'stuff', session.bsession)