#!/usr/bin/env python """edited session.py to work with streams, and move msg_type to the header """ #----------------------------------------------------------------------------- # Copyright (C) 2010-2011 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. #----------------------------------------------------------------------------- import os import pprint import uuid from datetime import datetime try: import cPickle pickle = cPickle except: cPickle = None import pickle import zmq from zmq.utils import jsonapi from zmq.eventloop.zmqstream import ZMQStream from .util import ISO8601 def squash_unicode(obj): """coerce unicode back to bytestrings.""" if isinstance(obj,dict): for key in obj.keys(): obj[key] = squash_unicode(obj[key]) if isinstance(key, unicode): obj[squash_unicode(key)] = obj.pop(key) elif isinstance(obj, list): for i,v in enumerate(obj): obj[i] = squash_unicode(v) elif isinstance(obj, unicode): obj = obj.encode('utf8') return obj def _date_default(obj): if isinstance(obj, datetime): return obj.strftime(ISO8601) else: raise TypeError("%r is not JSON serializable"%obj) _default_key = 'on_unknown' if jsonapi.jsonmod.__name__ == 'jsonlib' else 'default' json_packer = lambda obj: jsonapi.dumps(obj, **{_default_key:_date_default}) json_unpacker = lambda s: squash_unicode(jsonapi.loads(s)) pickle_packer = lambda o: pickle.dumps(o,-1) pickle_unpacker = pickle.loads default_packer = json_packer default_unpacker = json_unpacker DELIM="" class Message(object): """A simple message object that maps dict keys to attributes. A Message can be created from a dict and a dict from a Message instance simply by calling dict(msg_obj).""" def __init__(self, msg_dict): dct = self.__dict__ for k, v in dict(msg_dict).iteritems(): if isinstance(v, dict): v = Message(v) dct[k] = v # Having this iterator lets dict(msg_obj) work out of the box. def __iter__(self): return iter(self.__dict__.iteritems()) def __repr__(self): return repr(self.__dict__) def __str__(self): return pprint.pformat(self.__dict__) def __contains__(self, k): return k in self.__dict__ def __getitem__(self, k): return self.__dict__[k] def msg_header(msg_id, msg_type, username, session): date=datetime.now().strftime(ISO8601) return locals() def extract_header(msg_or_header): """Given a message or header, return the header.""" if not msg_or_header: return {} try: # See if msg_or_header is the entire message. h = msg_or_header['header'] except KeyError: try: # See if msg_or_header is just the header h = msg_or_header['msg_id'] except KeyError: raise else: h = msg_or_header if not isinstance(h, dict): h = dict(h) return h class StreamSession(object): """tweaked version of IPython.zmq.session.Session, for development in Parallel""" debug=False key=None def __init__(self, username=None, session=None, packer=None, unpacker=None, key=None, keyfile=None): if username is None: username = os.environ.get('USER','username') self.username = username if session is None: self.session = str(uuid.uuid4()) else: self.session = session self.msg_id = str(uuid.uuid4()) if packer is None: self.pack = default_packer else: if not callable(packer): raise TypeError("packer must be callable, not %s"%type(packer)) self.pack = packer if unpacker is None: self.unpack = default_unpacker else: if not callable(unpacker): raise TypeError("unpacker must be callable, not %s"%type(unpacker)) self.unpack = unpacker if key is not None and keyfile is not None: raise TypeError("Must specify key OR keyfile, not both") if keyfile is not None: with open(keyfile) as f: self.key = f.read().strip() else: self.key = key if isinstance(self.key, unicode): self.key = self.key.encode('utf8') # print key, keyfile, self.key self.none = self.pack({}) def msg_header(self, msg_type): h = msg_header(self.msg_id, msg_type, self.username, self.session) self.msg_id = str(uuid.uuid4()) return h def msg(self, msg_type, content=None, parent=None, subheader=None): msg = {} msg['header'] = self.msg_header(msg_type) msg['msg_id'] = msg['header']['msg_id'] msg['parent_header'] = {} if parent is None else extract_header(parent) msg['msg_type'] = msg_type msg['content'] = {} if content is None else content sub = {} if subheader is None else subheader msg['header'].update(sub) return msg def check_key(self, msg_or_header): """Check that a message's header has the right key""" if self.key is None: return True header = extract_header(msg_or_header) return header.get('key', None) == self.key def send(self, stream, msg_or_type, content=None, buffers=None, parent=None, subheader=None, ident=None, track=False): """Build and send a message via stream or socket. Parameters ---------- stream : zmq.Socket or ZMQStream the socket-like object used to send the data msg_or_type : str or Message/dict Normally, msg_or_type will be a msg_type unless a message is being sent more than once. content : dict or None the content of the message (ignored if msg_or_type is a message) buffers : list or None the already-serialized buffers to be appended to the message parent : Message or dict or None the parent or parent header describing the parent of this message subheader : dict or None extra header keys for this message's header ident : bytes or list of bytes the zmq.IDENTITY routing path track : bool whether to track. Only for use with Sockets, because ZMQStream objects cannot track messages. Returns ------- msg : message dict the constructed message (msg,tracker) : (message dict, MessageTracker) if track=True, then a 2-tuple will be returned, the first element being the constructed message, and the second being the MessageTracker """ if not isinstance(stream, (zmq.Socket, ZMQStream)): raise TypeError("stream must be Socket or ZMQStream, not %r"%type(stream)) elif track and isinstance(stream, ZMQStream): raise TypeError("ZMQStream cannot track messages") if isinstance(msg_or_type, (Message, dict)): # we got a Message, not a msg_type # don't build a new Message msg = msg_or_type content = msg['content'] else: msg = self.msg(msg_or_type, content, parent, subheader) buffers = [] if buffers is None else buffers to_send = [] if isinstance(ident, list): # accept list of idents to_send.extend(ident) elif ident is not None: to_send.append(ident) to_send.append(DELIM) if self.key is not None: to_send.append(self.key) to_send.append(self.pack(msg['header'])) to_send.append(self.pack(msg['parent_header'])) if content is None: content = self.none elif isinstance(content, dict): content = self.pack(content) elif isinstance(content, bytes): # content is already packed, as in a relayed message pass else: raise TypeError("Content incorrect type: %s"%type(content)) to_send.append(content) flag = 0 if buffers: flag = zmq.SNDMORE _track = False else: _track=track if track: tracker = stream.send_multipart(to_send, flag, copy=False, track=_track) else: tracker = stream.send_multipart(to_send, flag, copy=False) for b in buffers[:-1]: stream.send(b, flag, copy=False) if buffers: if track: tracker = stream.send(buffers[-1], copy=False, track=track) else: tracker = stream.send(buffers[-1], copy=False) # omsg = Message(msg) if self.debug: pprint.pprint(msg) pprint.pprint(to_send) pprint.pprint(buffers) msg['tracker'] = tracker return msg def send_raw(self, stream, msg, flags=0, copy=True, ident=None): """Send a raw message via ident path. Parameters ---------- msg : list of sendable buffers""" to_send = [] if isinstance(ident, bytes): ident = [ident] if ident is not None: to_send.extend(ident) to_send.append(DELIM) if self.key is not None: to_send.append(self.key) to_send.extend(msg) stream.send_multipart(msg, flags, copy=copy) def recv(self, socket, mode=zmq.NOBLOCK, content=True, copy=True): """receives and unpacks a message returns [idents], msg""" if isinstance(socket, ZMQStream): socket = socket.socket try: msg = socket.recv_multipart(mode) except zmq.ZMQError as e: if e.errno == zmq.EAGAIN: # We can convert EAGAIN to None as we know in this case # recv_multipart won't return None. return None else: raise # return an actual Message object # determine the number of idents by trying to unpack them. # this is terrible: idents, msg = self.feed_identities(msg, copy) try: return idents, self.unpack_message(msg, content=content, copy=copy) except Exception as e: print (idents, msg) # TODO: handle it raise e def feed_identities(self, msg, copy=True): """feed until DELIM is reached, then return the prefix as idents and remainder as msg. This is easily broken by setting an IDENT to DELIM, but that would be silly. Parameters ---------- msg : a list of Message or bytes objects the message to be split copy : bool flag determining whether the arguments are bytes or Messages Returns ------- (idents,msg) : two lists idents will always be a list of bytes - the indentity prefix msg will be a list of bytes or Messages, unchanged from input msg should be unpackable via self.unpack_message at this point. """ ikey = int(self.key is not None) minlen = 3 + ikey msg = list(msg) idents = [] while len(msg) > minlen: if copy: s = msg[0] else: s = msg[0].bytes if s == DELIM: msg.pop(0) break else: idents.append(s) msg.pop(0) return idents, msg def unpack_message(self, msg, content=True, copy=True): """Return a message object from the format sent by self.send. Parameters: ----------- content : bool (True) whether to unpack the content dict (True), or leave it serialized (False) copy : bool (True) whether to return the bytes (True), or the non-copying Message object in each place (False) """ ikey = int(self.key is not None) minlen = 3 + ikey message = {} if not copy: for i in range(minlen): msg[i] = msg[i].bytes if ikey: if not self.key == msg[0]: raise KeyError("Invalid Session Key: %s"%msg[0]) if not len(msg) >= minlen: raise TypeError("malformed message, must have at least %i elements"%minlen) message['header'] = self.unpack(msg[ikey+0]) message['msg_type'] = message['header']['msg_type'] message['parent_header'] = self.unpack(msg[ikey+1]) if content: message['content'] = self.unpack(msg[ikey+2]) else: message['content'] = msg[ikey+2] message['buffers'] = msg[ikey+3:]# [ m.buffer for m in msg[3:] ] return message def test_msg2obj(): am = dict(x=1) ao = Message(am) assert ao.x == am['x'] am['y'] = dict(z=1) ao = Message(am) assert ao.y.z == am['y']['z'] k1, k2 = 'y', 'z' assert ao[k1][k2] == am[k1][k2] am2 = dict(ao) assert am['x'] == am2['x'] assert am['y']['z'] == am2['y']['z']