def __init__(self, ns): self.ns = ns self.app = IPKernelApp(transport='ipc') NOP = lambda *a,**kw: None # Don't exit upon parent process exit self.app.init_poller = NOP # Don't redirect stdio self.app.init_io = NOP self.app.init_blackhole = NOP # Don't catch SIGINT self.app.init_signal = NOP self.app.init_connection_file = NOP self.app.log_connection_info = NOP self.app.connection_file = str(RUNDIR / 'ipython.json')
def bind_kernel(self, **kwargs): """Promote engine to listening kernel, accessible to frontends.""" if self.kernel_app is not None: return self.log.info( "Opening ports for direct connections as an IPython kernel") kernel = self.kernel kwargs.setdefault('config', self.config) kwargs.setdefault('log', self.log) kwargs.setdefault('profile_dir', self.profile_dir) kwargs.setdefault('session', self.engine.session) app = self.kernel_app = IPKernelApp(**kwargs) # allow IPKernelApp.instance(): IPKernelApp._instance = app app.init_connection_file() # relevant contents of init_sockets: app.shell_port = app._bind_socket(kernel.shell_streams[0], app.shell_port) app.log.debug("shell ROUTER Channel on port: %i", app.shell_port) app.iopub_port = app._bind_socket(kernel.iopub_socket, app.iopub_port) app.log.debug("iopub PUB Channel on port: %i", app.iopub_port) kernel.stdin_socket = self.engine.context.socket(zmq.ROUTER) app.stdin_port = app._bind_socket(kernel.stdin_socket, app.stdin_port) app.log.debug("stdin ROUTER Channel on port: %i", app.stdin_port) # start the heartbeat, and log connection info: app.init_heartbeat() app.log_connection_info() app.write_connection_file()
dvr = dvr.replace('\\n', '\\\\n') lines.append(' Default: ' + dvr) lines.append('') help = trait.get_metadata('help') if help is not None: help = '\n\n'.join(wrap_paragraphs(help, 76)) lines.append(indent(help, 4)) else: lines.append(' No description') lines.append('') return '\n'.join(lines) kernel_classes = IPKernelApp().classes def write_doc(name, title, classes, preamble=None): configdoc = document_config_options(classes) filename = '%s.rst' % name with open('source/config/options/%s' % filename, 'w') as f: f.write(title + '\n') f.write(('=' * len(title)) + '\n') f.write('\n') if preamble is not None: f.write(preamble + '\n\n') f.write(configdoc) with open('source/config/options/generated', 'a') as f: f.write(filename + '\n')
def complete_registration(self, msg, connect, maybe_tunnel): # print msg self.loop.remove_timeout(self._abort_timeout) ctx = self.context loop = self.loop identity = self.bident idents,msg = self.session.feed_identities(msg) msg = self.session.deserialize(msg) content = msg['content'] info = self.connection_info def url(key): """get zmq url for given channel""" return str(info["interface"] + ":%i" % info[key]) if content['status'] == 'ok': self.id = int(content['id']) # launch heartbeat # possibly forward hb ports with tunnels hb_ping = maybe_tunnel(url('hb_ping')) hb_pong = maybe_tunnel(url('hb_pong')) hb_monitor = None if self.max_heartbeat_misses > 0: # Add a monitor socket which will record the last time a ping was seen mon = self.context.socket(zmq.SUB) mport = mon.bind_to_random_port('tcp://%s' % localhost()) mon.setsockopt(zmq.SUBSCRIBE, b"") self._hb_listener = zmqstream.ZMQStream(mon, self.loop) self._hb_listener.on_recv(self._report_ping) hb_monitor = "tcp://%s:%i" % (localhost(), mport) heart = Heart(hb_ping, hb_pong, hb_monitor , heart_id=identity) heart.start() # create Shell Connections (MUX, Task, etc.): shell_addrs = url('mux'), url('task') # Use only one shell stream for mux and tasks stream = zmqstream.ZMQStream(ctx.socket(zmq.ROUTER), loop) stream.setsockopt(zmq.IDENTITY, identity) shell_streams = [stream] for addr in shell_addrs: connect(stream, addr) # control stream: control_addr = url('control') control_stream = zmqstream.ZMQStream(ctx.socket(zmq.ROUTER), loop) control_stream.setsockopt(zmq.IDENTITY, identity) connect(control_stream, control_addr) # create iopub stream: iopub_addr = url('iopub') iopub_socket = ctx.socket(zmq.PUB) iopub_socket.setsockopt(zmq.IDENTITY, identity) connect(iopub_socket, iopub_addr) # disable history: self.config.HistoryManager.hist_file = ':memory:' # Redirect input streams and set a display hook. if self.out_stream_factory: sys.stdout = self.out_stream_factory(self.session, iopub_socket, u'stdout') sys.stdout.topic = cast_bytes('engine.%i.stdout' % self.id) sys.stderr = self.out_stream_factory(self.session, iopub_socket, u'stderr') sys.stderr.topic = cast_bytes('engine.%i.stderr' % self.id) if self.display_hook_factory: sys.displayhook = self.display_hook_factory(self.session, iopub_socket) sys.displayhook.topic = cast_bytes('engine.%i.execute_result' % self.id) self.kernel = Kernel(parent=self, int_id=self.id, ident=self.ident, session=self.session, control_stream=control_stream, shell_streams=shell_streams, iopub_socket=iopub_socket, loop=loop, user_ns=self.user_ns, log=self.log) self.kernel.shell.display_pub.topic = cast_bytes('engine.%i.displaypub' % self.id) # periodically check the heartbeat pings of the controller # Should be started here and not in "start()" so that the right period can be taken # from the hubs HeartBeatMonitor.period if self.max_heartbeat_misses > 0: # Use a slightly bigger check period than the hub signal period to not warn unnecessary self.hb_check_period = int(content['hb_period'])+10 self.log.info("Starting to monitor the heartbeat signal from the hub every %i ms." , self.hb_check_period) self._hb_reporter = ioloop.PeriodicCallback(self._hb_monitor, self.hb_check_period, self.loop) self._hb_reporter.start() else: self.log.info("Monitoring of the heartbeat signal from the hub is not enabled.") # FIXME: This is a hack until IPKernelApp and IPEngineApp can be fully merged app = IPKernelApp(parent=self, shell=self.kernel.shell, kernel=self.kernel, log=self.log) app.init_profile_dir() app.init_code() self.kernel.start() else: self.log.fatal("Registration Failed: %s"%msg) raise Exception("Registration Failed: %s"%msg) self.log.info("Completed registration with id %i"%self.id)