"""some generic utilities for dealing with classes, urls, and serialization Authors: * Min RK """ #----------------------------------------------------------------------------- # 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. #----------------------------------------------------------------------------- #----------------------------------------------------------------------------- # Imports #----------------------------------------------------------------------------- # Standard library imports. import logging import os import re import stat import socket import sys from signal import signal, SIGINT, SIGABRT, SIGTERM try: from signal import SIGKILL except ImportError: SIGKILL=None try: import cPickle pickle = cPickle except: cPickle = None import pickle # System library imports import zmq from zmq.log import handlers # IPython imports from IPython.utils.pickleutil import can, uncan, canSequence, uncanSequence from IPython.utils.newserialized import serialize, unserialize from IPython.zmq.log import EnginePUBHandler #----------------------------------------------------------------------------- # Classes #----------------------------------------------------------------------------- class Namespace(dict): """Subclass of dict for attribute access to keys.""" def __getattr__(self, key): """getattr aliased to getitem""" if key in self.iterkeys(): return self[key] else: raise NameError(key) def __setattr__(self, key, value): """setattr aliased to setitem, with strict""" if hasattr(dict, key): raise KeyError("Cannot override dict keys %r"%key) self[key] = value class ReverseDict(dict): """simple double-keyed subset of dict methods.""" def __init__(self, *args, **kwargs): dict.__init__(self, *args, **kwargs) self._reverse = dict() for key, value in self.iteritems(): self._reverse[value] = key def __getitem__(self, key): try: return dict.__getitem__(self, key) except KeyError: return self._reverse[key] def __setitem__(self, key, value): if key in self._reverse: raise KeyError("Can't have key %r on both sides!"%key) dict.__setitem__(self, key, value) self._reverse[value] = key def pop(self, key): value = dict.pop(self, key) self._reverse.pop(value) return value def get(self, key, default=None): try: return self[key] except KeyError: return default #----------------------------------------------------------------------------- # Functions #----------------------------------------------------------------------------- def validate_url(url): """validate a url for zeromq""" if not isinstance(url, basestring): raise TypeError("url must be a string, not %r"%type(url)) url = url.lower() proto_addr = url.split('://') assert len(proto_addr) == 2, 'Invalid url: %r'%url proto, addr = proto_addr assert proto in ['tcp','pgm','epgm','ipc','inproc'], "Invalid protocol: %r"%proto # domain pattern adapted from http://www.regexlib.com/REDetails.aspx?regexp_id=391 # author: Remi Sabourin pat = re.compile(r'^([\w\d]([\w\d\-]{0,61}[\w\d])?\.)*[\w\d]([\w\d\-]{0,61}[\w\d])?$') if proto == 'tcp': lis = addr.split(':') assert len(lis) == 2, 'Invalid url: %r'%url addr,s_port = lis try: port = int(s_port) except ValueError: raise AssertionError("Invalid port %r in url: %r"%(port, url)) assert addr == '*' or pat.match(addr) is not None, 'Invalid url: %r'%url else: # only validate tcp urls currently pass return True def validate_url_container(container): """validate a potentially nested collection of urls.""" if isinstance(container, basestring): url = container return validate_url(url) elif isinstance(container, dict): container = container.itervalues() for element in container: validate_url_container(element) def split_url(url): """split a zmq url (tcp://ip:port) into ('tcp','ip','port').""" proto_addr = url.split('://') assert len(proto_addr) == 2, 'Invalid url: %r'%url proto, addr = proto_addr lis = addr.split(':') assert len(lis) == 2, 'Invalid url: %r'%url addr,s_port = lis return proto,addr,s_port def disambiguate_ip_address(ip, location=None): """turn multi-ip interfaces '0.0.0.0' and '*' into connectable ones, based on the location (default interpretation of location is localhost).""" if ip in ('0.0.0.0', '*'): external_ips = socket.gethostbyname_ex(socket.gethostname())[2] if location is None or location in external_ips: ip='127.0.0.1' elif location: return location return ip def disambiguate_url(url, location=None): """turn multi-ip interfaces '0.0.0.0' and '*' into connectable ones, based on the location (default interpretation is localhost). This is for zeromq urls, such as tcp://*:10101.""" try: proto,ip,port = split_url(url) except AssertionError: # probably not tcp url; could be ipc, etc. return url ip = disambiguate_ip_address(ip,location) return "%s://%s:%s"%(proto,ip,port) def serialize_object(obj, threshold=64e-6): """Serialize an object into a list of sendable buffers. Parameters ---------- obj : object The object to be serialized threshold : float The threshold for not double-pickling the content. Returns ------- ('pmd', [bufs]) : where pmd is the pickled metadata wrapper, bufs is a list of data buffers """ databuffers = [] if isinstance(obj, (list, tuple)): clist = canSequence(obj) slist = map(serialize, clist) for s in slist: if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold: databuffers.append(s.getData()) s.data = None return pickle.dumps(slist,-1), databuffers elif isinstance(obj, dict): sobj = {} for k in sorted(obj.iterkeys()): s = serialize(can(obj[k])) if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold: databuffers.append(s.getData()) s.data = None sobj[k] = s return pickle.dumps(sobj,-1),databuffers else: s = serialize(can(obj)) if s.typeDescriptor in ('buffer', 'ndarray') or s.getDataSize() > threshold: databuffers.append(s.getData()) s.data = None return pickle.dumps(s,-1),databuffers def unserialize_object(bufs): """reconstruct an object serialized by serialize_object from data buffers.""" bufs = list(bufs) sobj = pickle.loads(bufs.pop(0)) if isinstance(sobj, (list, tuple)): for s in sobj: if s.data is None: s.data = bufs.pop(0) return uncanSequence(map(unserialize, sobj)), bufs elif isinstance(sobj, dict): newobj = {} for k in sorted(sobj.iterkeys()): s = sobj[k] if s.data is None: s.data = bufs.pop(0) newobj[k] = uncan(unserialize(s)) return newobj, bufs else: if sobj.data is None: sobj.data = bufs.pop(0) return uncan(unserialize(sobj)), bufs def pack_apply_message(f, args, kwargs, threshold=64e-6): """pack up a function, args, and kwargs to be sent over the wire as a series of buffers. Any object whose data is larger than `threshold` will not have their data copied (currently only numpy arrays support zero-copy)""" msg = [pickle.dumps(can(f),-1)] databuffers = [] # for large objects sargs, bufs = serialize_object(args,threshold) msg.append(sargs) databuffers.extend(bufs) skwargs, bufs = serialize_object(kwargs,threshold) msg.append(skwargs) databuffers.extend(bufs) msg.extend(databuffers) return msg def unpack_apply_message(bufs, g=None, copy=True): """unpack f,args,kwargs from buffers packed by pack_apply_message() Returns: original f,args,kwargs""" bufs = list(bufs) # allow us to pop assert len(bufs) >= 3, "not enough buffers!" if not copy: for i in range(3): bufs[i] = bufs[i].bytes cf = pickle.loads(bufs.pop(0)) sargs = list(pickle.loads(bufs.pop(0))) skwargs = dict(pickle.loads(bufs.pop(0))) # print sargs, skwargs f = uncan(cf, g) for sa in sargs: if sa.data is None: m = bufs.pop(0) if sa.getTypeDescriptor() in ('buffer', 'ndarray'): # always use a buffer, until memoryviews get sorted out sa.data = buffer(m) # disable memoryview support # if copy: # sa.data = buffer(m) # else: # sa.data = m.buffer else: if copy: sa.data = m else: sa.data = m.bytes args = uncanSequence(map(unserialize, sargs), g) kwargs = {} for k in sorted(skwargs.iterkeys()): sa = skwargs[k] if sa.data is None: m = bufs.pop(0) if sa.getTypeDescriptor() in ('buffer', 'ndarray'): # always use a buffer, until memoryviews get sorted out sa.data = buffer(m) # disable memoryview support # if copy: # sa.data = buffer(m) # else: # sa.data = m.buffer else: if copy: sa.data = m else: sa.data = m.bytes kwargs[k] = uncan(unserialize(sa), g) return f,args,kwargs #-------------------------------------------------------------------------- # helpers for implementing old MEC API via view.apply #-------------------------------------------------------------------------- def interactive(f): """decorator for making functions appear as interactively defined. This results in the function being linked to the user_ns as globals() instead of the module globals(). """ f.__module__ = '__main__' return f @interactive def _push(ns): """helper method for implementing `client.push` via `client.apply`""" globals().update(ns) @interactive def _pull(keys): """helper method for implementing `client.pull` via `client.apply`""" user_ns = globals() if isinstance(keys, (list,tuple, set)): for key in keys: if not user_ns.has_key(key): raise NameError("name '%s' is not defined"%key) return map(user_ns.get, keys) else: if not user_ns.has_key(keys): raise NameError("name '%s' is not defined"%keys) return user_ns.get(keys) @interactive def _execute(code): """helper method for implementing `client.execute` via `client.apply`""" exec code in globals() #-------------------------------------------------------------------------- # extra process management utilities #-------------------------------------------------------------------------- _random_ports = set() def select_random_ports(n): """Selects and return n random ports that are available.""" ports = [] for i in xrange(n): sock = socket.socket() sock.bind(('', 0)) while sock.getsockname()[1] in _random_ports: sock.close() sock = socket.socket() sock.bind(('', 0)) ports.append(sock) for i, sock in enumerate(ports): port = sock.getsockname()[1] sock.close() ports[i] = port _random_ports.add(port) return ports def signal_children(children): """Relay interupt/term signals to children, for more solid process cleanup.""" def terminate_children(sig, frame): logging.critical("Got signal %i, terminating children..."%sig) for child in children: child.terminate() sys.exit(sig != SIGINT) # sys.exit(sig) for sig in (SIGINT, SIGABRT, SIGTERM): signal(sig, terminate_children) def generate_exec_key(keyfile): import uuid newkey = str(uuid.uuid4()) with open(keyfile, 'w') as f: # f.write('ipython-key ') f.write(newkey+'\n') # set user-only RW permissions (0600) # this will have no effect on Windows os.chmod(keyfile, stat.S_IRUSR|stat.S_IWUSR) def integer_loglevel(loglevel): try: loglevel = int(loglevel) except ValueError: if isinstance(loglevel, str): loglevel = getattr(logging, loglevel) return loglevel def connect_logger(logname, context, iface, root="ip", loglevel=logging.DEBUG): logger = logging.getLogger(logname) if any([isinstance(h, handlers.PUBHandler) for h in logger.handlers]): # don't add a second PUBHandler return loglevel = integer_loglevel(loglevel) lsock = context.socket(zmq.PUB) lsock.connect(iface) handler = handlers.PUBHandler(lsock) handler.setLevel(loglevel) handler.root_topic = root logger.addHandler(handler) logger.setLevel(loglevel) def connect_engine_logger(context, iface, engine, loglevel=logging.DEBUG): logger = logging.getLogger() if any([isinstance(h, handlers.PUBHandler) for h in logger.handlers]): # don't add a second PUBHandler return loglevel = integer_loglevel(loglevel) lsock = context.socket(zmq.PUB) lsock.connect(iface) handler = EnginePUBHandler(engine, lsock) handler.setLevel(loglevel) logger.addHandler(handler) logger.setLevel(loglevel) return logger def local_logger(logname, loglevel=logging.DEBUG): loglevel = integer_loglevel(loglevel) logger = logging.getLogger(logname) if any([isinstance(h, logging.StreamHandler) for h in logger.handlers]): # don't add a second StreamHandler return handler = logging.StreamHandler() handler.setLevel(loglevel) logger.addHandler(handler) logger.setLevel(loglevel) return logger