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//usr/lib/python2.4/site-packages/dbus/_dbus.py
"""Module for high-level communication over the FreeDesktop.org Bus (DBus) DBus allows you to share and access remote objects between processes running on the desktop, and also to access system services (such as the print spool). To use DBus, first get a Bus object, which provides a connection to one of a few standard dbus-daemon instances that might be running. From the Bus you can get a RemoteService. A service is provided by an application or process connected to the Bus, and represents a set of objects. Once you have a RemoteService you can get a RemoteObject that implements a specific interface (an interface is just a standard group of member functions). Then you can call those member functions directly. You can think of a complete method call as looking something like: Bus:SESSION -> Service:org.gnome.Evolution -> Object:/org/gnome/Evolution/Inbox -> Interface: org.gnome.Evolution.MailFolder -> Method: Forward('message1', 'seth@gnome.org') This communicates over the SESSION Bus to the org.gnome.Evolution process to call the Forward method of the /org/gnome/Evolution/Inbox object (which provides the org.gnome.Evolution.MailFolder interface) with two string arguments. For example, the dbus-daemon itself provides a service and some objects: # Get a connection to the desktop-wide SESSION bus bus = dbus.Bus(dbus.Bus.TYPE_SESSION) # Get the service provided by the dbus-daemon named org.freedesktop.DBus dbus_service = bus.get_service('org.freedesktop.DBus') # Get a reference to the desktop bus' standard object, denoted # by the path /org/freedesktop/DBus. The object /org/freedesktop/DBus # implements the 'org.freedesktop.DBus' interface dbus_object = dbus_service.get_object('/org/freedesktop/DBus', 'org.freedesktop.DBus') # One of the member functions in the org.freedesktop.DBus interface # is ListServices(), which provides a list of all the other services # registered on this bus. Call it, and print the list. print(dbus_object.ListServices()) """ import dbus import dbus_bindings import weakref from proxies import * from exceptions import * from matchrules import * class Bus(object): """A connection to a DBus daemon. One of three possible standard buses, the SESSION, SYSTEM, or STARTER bus """ TYPE_SESSION = dbus_bindings.BUS_SESSION TYPE_SYSTEM = dbus_bindings.BUS_SYSTEM TYPE_STARTER = dbus_bindings.BUS_STARTER """bus_type=[Bus.TYPE_SESSION | Bus.TYPE_SYSTEM | Bus.TYPE_STARTER] """ ProxyObjectClass = ProxyObject START_REPLY_SUCCESS = dbus_bindings.DBUS_START_REPLY_SUCCESS START_REPLY_ALREADY_RUNNING = dbus_bindings.DBUS_START_REPLY_ALREADY_RUNNING _shared_instances = weakref.WeakValueDictionary() def __new__(cls, bus_type=TYPE_SESSION, use_default_mainloop=True, private=False): if (not private and bus_type in cls._shared_instances): return cls._shared_instances[bus_type] # this is a bit odd, but we create instances of the subtypes # so we can return the shared instances if someone tries to # construct one of them (otherwise we'd eg try and return an # instance of Bus from __new__ in SessionBus). why are there # three ways to construct this class? we just don't know. if bus_type == cls.TYPE_SESSION: subclass = SessionBus elif bus_type == cls.TYPE_SYSTEM: subclass = SystemBus elif bus_type == cls.TYPE_STARTER: subclass = StarterBus else: raise ValueError('invalid bus_type %s' % bus_type) bus = object.__new__(subclass) bus._bus_type = bus_type bus._bus_names = weakref.WeakValueDictionary() bus._match_rule_tree = SignalMatchTree() # FIXME: if you get a starter and a system/session bus connection # in the same process, it's the same underlying connection that # is returned by bus_get, but we initialise it twice bus._connection = dbus_bindings.bus_get(bus_type, private) bus._connection.add_filter(bus._signal_func) if use_default_mainloop: func = getattr(dbus, "_dbus_mainloop_setup_function", None) if func: func(bus) if not private: cls._shared_instances[bus_type] = bus return bus def __init__(self, *args, **keywords): # do nothing here because this can get called multiple times on the # same object if __new__ returns a shared instance pass def close(self): self._connection.close() def get_connection(self): return self._connection def get_session(private=False): """Static method that returns the session bus""" return SessionBus(private=private) get_session = staticmethod(get_session) def get_system(private=False): """Static method that returns the system bus""" return SystemBus(private=private) get_system = staticmethod(get_system) def get_starter(private=False): """Static method that returns the starter bus""" return StarterBus(private=private) get_starter = staticmethod(get_starter) def get_object(self, named_service, object_path): """Get a proxy object to call over the bus""" return self.ProxyObjectClass(self, named_service, object_path) def _create_args_dict(self, keywords): args_dict = None for (key, value) in keywords.iteritems(): if key.startswith('arg'): try: snum = key[3:] num = int(snum) if not args_dict: args_dict = {} args_dict[num] = value except ValueError: raise TypeError("Invalid arg index %s"%snum) elif key in ("sender_keyword", "path_keyword"): pass else: raise TypeError("Unknown keyword %s"%(key)) return args_dict def add_signal_receiver(self, handler_function, signal_name=None, dbus_interface=None, named_service=None, path=None, **keywords): args_dict = self._create_args_dict(keywords) if (named_service and named_service[0] != ':'): bus_object = self.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') named_service = bus_object.GetNameOwner(named_service, dbus_interface='org.freedesktop.DBus') match_rule = SignalMatchRule(signal_name, dbus_interface, named_service, path) for kw in ("sender_keyword", "path_keyword"): if kw in keywords: setattr(match_rule, kw, keywords[kw]) else: setattr(match_rule, kw, None) if args_dict: match_rule.add_args_match(args_dict) match_rule.add_handler(handler_function) self._match_rule_tree.add(match_rule) dbus_bindings.bus_add_match(self._connection, repr(match_rule)) def remove_signal_receiver(self, handler_function, signal_name=None, dbus_interface=None, named_service=None, path=None, **keywords): args_dict = self._create_args_dict(keywords) if (named_service and named_service[0] != ':'): bus_object = self.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') named_service = bus_object.GetNameOwner(named_service, dbus_interface='org.freedesktop.DBus') match_rule = SignalMatchRule(signal_name, dbus_interface, named_service, path) if (args_dict): match_rule.add_args_match(args_dict) if (handler_function): match_rule.add_handler(handler_function) self._match_rule_tree.remove(match_rule) #TODO we leak match rules in the lower level bindings. We need to ref count them def get_unix_user(self, named_service): """Get the unix user for the given named_service on this Bus""" return dbus_bindings.bus_get_unix_user(self._connection, named_service) def _signal_func(self, connection, message): if (message.get_type() != dbus_bindings.MESSAGE_TYPE_SIGNAL): return dbus_bindings.HANDLER_RESULT_NOT_YET_HANDLED dbus_interface = message.get_interface() named_service = message.get_sender() path = message.get_path() signal_name = message.get_member() match_rule = SignalMatchRule(signal_name, dbus_interface, named_service, path) self._match_rule_tree.exec_matches(match_rule, message) def start_service_by_name(self, named_service): return dbus_bindings.bus_start_service_by_name(self._connection, named_service) def __repr__(self): if self._bus_type == self.TYPE_SESSION: name = 'SESSION' elif self._bus_type == self.TYPE_SYSTEM: name = 'SYSTEM' elif self._bus_type == self.TYPE_STARTER: name = 'STARTER' else: assert False, 'Unable to represent unknown bus type.' return '<dbus.Bus on %s at %#x>' % (name, id(self)) __str__ = __repr__ class SystemBus(Bus): """The system-wide message bus """ def __new__(cls, use_default_mainloop=True, private=False): return Bus.__new__(cls, Bus.TYPE_SYSTEM, use_default_mainloop, private) class SessionBus(Bus): """The session (current login) message bus """ def __new__(cls, use_default_mainloop=True, private=False): return Bus.__new__(cls, Bus.TYPE_SESSION, use_default_mainloop, private) class StarterBus(Bus): """The bus that activated this process (if this process was launched by DBus activation) """ def __new__(cls, use_default_mainloop=True, private=False): return Bus.__new__(cls, Bus.TYPE_STARTER, use_default_mainloop, private) class Interface: """An interface into a remote object An Interface can be used to wrap ProxyObjects so that calls can be routed to their correct dbus interface """ def __init__(self, object, dbus_interface): self._obj = object self._dbus_interface = dbus_interface def connect_to_signal(self, signal_name, handler_function, dbus_interface = None, **keywords): if not dbus_interface: dbus_interface = self._dbus_interface self._obj.connect_to_signal(signal_name, handler_function, dbus_interface, **keywords) def __getattr__(self, member, **keywords): if (keywords.has_key('dbus_interface')): _dbus_interface = keywords['dbus_interface'] else: _dbus_interface = self._dbus_interface if member == '__call__': return object.__call__ else: ret = self._obj.__getattr__(member, dbus_interface=_dbus_interface) return ret def __repr__(self): return '<Interface %r implementing %r at %#x>'%( self._obj, self._dbus_interface, id(self)) __str__ = __repr__