# Copyright (C) 2006, Red Hat, Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
# Mostly taken from dbus-python's service.py
import dbus
import _dbus_bindings
from dbus import service
import inspect
def method(dbus_interface, in_signature=None, out_signature=None, async_callbacks=None, sender_keyword=None, utf8_strings=False, byte_arrays=False, object_path_keyword=None):
_dbus_bindings.validate_interface_name(dbus_interface)
def decorator(func):
args = inspect.getargspec(func)[0]
args.pop(0)
if async_callbacks:
if type(async_callbacks) != tuple:
raise TypeError('async_callbacks must be a tuple of (keyword for return callback, keyword for error callback)')
if len(async_callbacks) != 2:
raise ValueError('async_callbacks must be a tuple of (keyword for return callback, keyword for error callback)')
args.remove(async_callbacks[0])
args.remove(async_callbacks[1])
if sender_keyword:
args.remove(sender_keyword)
if object_path_keyword:
args.remove(object_path_keyword)
if in_signature:
in_sig = tuple(_dbus_bindings.Signature(in_signature))
if len(in_sig) > len(args):
raise ValueError, 'input signature is longer than the number of arguments taken'
elif len(in_sig) < len(args):
raise ValueError, 'input signature is shorter than the number of arguments taken'
func._dbus_is_method = True
func._dbus_async_callbacks = async_callbacks
func._dbus_interface = dbus_interface
func._dbus_in_signature = in_signature
func._dbus_out_signature = out_signature
func._dbus_sender_keyword = sender_keyword
func._dbus_args = args
func._dbus_get_args_options = {'byte_arrays': byte_arrays,
'utf8_strings': utf8_strings}
func._dbus_object_path_keyword = object_path_keyword
return func
return decorator
def fallback_signal(dbus_interface, signature=None, ignore_args=None):
_dbus_bindings.validate_interface_name(dbus_interface)
def decorator(func):
def emit_signal(self, *args, **keywords):
obj_path = func(self, *args, **keywords)
message = _dbus_bindings.SignalMessage(obj_path, dbus_interface, func.__name__)
if emit_signal._dbus_signature:
message.append(signature=emit_signal._dbus_signature,
*args)
else:
message.append(*args)
self._connection.send_message(message)
temp_args = inspect.getargspec(func)[0]
temp_args.pop(0)
args = []
for arg in temp_args:
if arg not in ignore_args:
args.append(arg)
if signature:
sig = tuple(_dbus_bindings.Signature(signature))
if len(sig) > len(args):
raise ValueError, 'signal signature is longer than the number of arguments provided'
elif len(sig) < len(args):
raise ValueError, 'signal signature is shorter than the number of arguments provided'
emit_signal.__name__ = func.__name__
emit_signal.__doc__ = func.__doc__
emit_signal._dbus_is_signal = True
emit_signal._dbus_interface = dbus_interface
emit_signal._dbus_signature = signature
emit_signal._dbus_args = args
return emit_signal
return decorator
class FallbackObject(dbus.service.Object):
"""A base class for exporting your own Objects across the Bus.
Just inherit from Object and provide a list of methods to share
across the Bus
"""
def __init__(self, conn=None, fallback_object_path=None, bus_name=None):
if fallback_object_path is None:
raise TypeError('The fallback_object_path argument is required')
if isinstance(conn, dbus.service.BusName):
# someone's using the old API; don't gratuitously break them
bus_name = conn
conn = bus_name.get_bus()
elif conn is None:
# someone's using the old API but naming arguments, probably
if bus_name is None:
raise TypeError('Either conn or bus_name is required')
conn = bus_name.get_bus()
self._object_path = fallback_object_path
self._name = bus_name
self._bus = conn
self._connection = self._bus.get_connection()
self._connection._register_object_path(fallback_object_path, self._message_cb, self._unregister_cb, fallback=True)
def _message_cb(self, connection, message):
try:
# lookup candidate method and parent method
method_name = message.get_member()
interface_name = message.get_interface()
(candidate_method, parent_method) = dbus.service._method_lookup(self, method_name, interface_name)
# set up method call parameters
args = message.get_args_list(**parent_method._dbus_get_args_options)
keywords = {}
if parent_method._dbus_out_signature is not None:
signature = _dbus_bindings.Signature(parent_method._dbus_out_signature)
else:
signature = None
# set up async callback functions
if parent_method._dbus_async_callbacks:
(return_callback, error_callback) = parent_method._dbus_async_callbacks
keywords[return_callback] = lambda *retval: dbus.service._method_reply_return(connection, message, method_name, signature, *retval)
keywords[error_callback] = lambda exception: dbus.service._method_reply_error(connection, message, exception)
# include the sender if desired
if parent_method._dbus_sender_keyword:
keywords[parent_method._dbus_sender_keyword] = message.get_sender()
if parent_method._dbus_object_path_keyword:
keywords[parent_method._dbus_object_path_keyword] = message.get_object_path()
# call method
retval = candidate_method(self, *args, **keywords)
# we're done - the method has got callback functions to reply with
if parent_method._dbus_async_callbacks:
return
# otherwise we send the return values in a reply. if we have a
# signature, use it to turn the return value into a tuple as
# appropriate
if signature is not None:
signature_tuple = tuple(signature)
# if we have zero or one return values we want make a tuple
# for the _method_reply_return function, otherwise we need
# to check we're passing it a sequence
if len(signature_tuple) == 0:
if retval == None:
retval = ()
else:
raise TypeError('%s has an empty output signature but did not return None' %
method_name)
elif len(signature_tuple) == 1:
retval = (retval,)
else:
if operator.isSequenceType(retval):
# multi-value signature, multi-value return... proceed unchanged
pass
else:
raise TypeError('%s has multiple output values in signature %s but did not return a sequence' %
(method_name, signature))
# no signature, so just turn the return into a tuple and send it as normal
else:
if retval == None:
retval = ()
else:
retval = (retval,)
dbus.service._method_reply_return(connection, message, method_name, signature, *retval)
except Exception, exception:
# send error reply
dbus.service._method_reply_error(connection, message, exception)
@method('org.freedesktop.DBus.Introspectable', in_signature='', out_signature='s', object_path_keyword="dbus_object_path")
def Introspect(self, dbus_object_path=None):
reflection_data = '\n'
reflection_data += '\n' % (dbus_object_path)
interfaces = self._dbus_class_table[self.__class__.__module__ + '.' + self.__class__.__name__]
for (name, funcs) in interfaces.iteritems():
reflection_data += ' \n' % (name)
for func in funcs.values():
if getattr(func, '_dbus_is_method', False):
reflection_data += self.__class__._reflect_on_method(func)
elif getattr(func, '_dbus_is_signal', False):
reflection_data += self.__class__._reflect_on_signal(func)
reflection_data += ' \n'
reflection_data += '\n'
return reflection_data
def __repr__(self):
return '' % (self._object_path, self._name, id(self))
__str__ = __repr__