579 lines
24 KiB
Python
579 lines
24 KiB
Python
# File: objects.py
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# Library: DOPAL - DO Python Azureus Library
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; version 2 of the License.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details ( see the COPYING file ).
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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'''
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Defines the object layer framework.
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'''
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from dopal.core import ExtendedAzureusConnection
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from dopal.errors import AzMethodError, InvalidObjectIDError, \
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RemoteMethodError, StaleObjectReferenceError, ConnectionlessObjectError, \
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NonRefreshableConnectionlessObjectError, MissingRemoteAttributeError, \
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NonRefreshableIncompleteObjectError, NonRefreshableObjectError
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import dopal.utils
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class AzureusObjectConnection(ExtendedAzureusConnection):
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'''
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This connection class generates remote representations of each object available in Azureus.
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@ivar is_persistent_connection: Boolean indicating whether the connection should be persistent. Default is C{False}.
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@ivar converter: Callable object which will be used to convert response data into objects.
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This will usually be a L{RemoteObjectConverter<dopal.convert.RemoteObjectConverter>} instance which will convert the results of method invocations into objects. A value must be assigned for this object to work - no suitable default is provided automatically.
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'''
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def __init__(self): # AzureusObjectConnection
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ExtendedAzureusConnection.__init__(self)
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self.is_persistent_connection = False
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self.converter = None
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self.cached_plugin_interface_object = None
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def _on_reconnect(self): # AzureusObjectConnection
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if not self.is_persistent_connection:
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self.cached_plugin_interface_object = None
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def get_plugin_interface(self): # AzureusObjectConnection
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# XXX: Add docstring.
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obj = self.cached_plugin_interface_object
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if self.cached_plugin_interface_object is not None:
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# Try to verify that it exists.
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#
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# Why do we verify the object? Well, we just want to ensure that
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# the object we return here is valid. It would be valid if we
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# returned getPluginInterface. If the object needs repairing,
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# then it is better to do it immediately.
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#
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# Why do we not rely on the object just sorting itself out?
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# Well, the default definitions for extracting the object from the
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# root will use the plugin interface object as the root.
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#
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try:
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self.verify_objects([self.cached_plugin_interface_object])
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except NonRefreshableObjectError:
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# Subclasses of this error will occur if there's a problem
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# refreshing the object (for whatever reason). Refreshing
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# it will only occur if the object is not valid.
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#
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# If, for whatever reason, our cached plugin interface hasn't
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# repaired itself, we'll just lose the cached version and get
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# a new object.
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#
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# Why do we not just get a plugin interface object and update
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# the cached plugin interface object? If the object is
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# 'broken', or object persistency is not enabled, there's no
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# reason to repair it - we wouldn't normally do that for any
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# other object.
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#
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# But it is important we return a valid object.
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self.cached_plugin_interface_object = None
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if self.cached_plugin_interface_object is None:
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self.cached_plugin_interface_object = self.getPluginInterface()
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return self.cached_plugin_interface_object
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def getPluginInterface(self): # AzureusObjectConnection
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return self.invoke_object_method(None, 'getSingleton', (), 'PluginInterface')
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# Invoke the remote method - nothing regarding object persistency is
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# handled here.
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def _invoke_object_method(self, az_object, method_name, method_args, result_type=None): # AzureusObjectConnection
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if az_object is None:
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az_object_id = None
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else:
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az_object_id = az_object.get_object_id()
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# We don't need to extract the object ID's for objects which are in
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# method_args - they will be an instance of one of the wrapper type
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# classes, which will be appropriate enough to pull out the correct
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# type to use.
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response = self.invoke_remote_method(az_object_id, method_name, method_args)
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result = self.converter(response.response_data, result_type=result_type)
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return result
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def invoke_object_method(self, az_object, method_name, method_args, result_type=None): # AzureusObjectConnection
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objects = [obj for obj in method_args if isinstance(obj, RemoteObject)]
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if az_object is not None:
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objects.insert(0, az_object)
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self.verify_objects(objects)
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try:
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return self._invoke_object_method(az_object, method_name, method_args, result_type)
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except InvalidObjectIDError, error:
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# You don't need to call is_connection_valid, since you'll know
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# from the subclasses error. It's an unnecessary method call - fix
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# it!
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if not self.is_persistent_connection:
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raise
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if self.is_connection_valid():
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raise
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self.establish_connection()
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self.verify_objects(objects)
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# Two very quick failures of this type is unlikely to happen -
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# it is more likely to be a logic error in this case, so we
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# don't retry if it fails again.
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return self._invoke_object_method(az_object, method_name, method_args, result_type)
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def verify_objects(self, objects): # AzureusObjectConnection
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# I did write this as a list expression initially, but I guess we
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# should keep it readable.
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has_refreshed_objects = False
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for obj in objects:
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if obj.__connection_id__ != self.connection_id:
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if self.is_persistent_connection:
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obj._refresh_object(self)
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has_refreshed_objects = True
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else:
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raise StaleObjectReferenceError, obj
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return has_refreshed_objects
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class RemoteObject(object):
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def __init__(self, connection, object_id, attributes=None): # RemoteObject
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if connection is None:
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self.__connection_id__ = None
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elif isinstance(connection, AzureusObjectConnection):
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self.__connection_id__ = connection.connection_id
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else:
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err = "connection must be instance of AzureusObjectConnection: %s"
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raise ValueError, err % connection
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self.__connection__ = connection
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self.__object_id__ = object_id
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if attributes is not None:
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self.update_remote_data(attributes)
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def __repr__(self): # RemoteObject
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txt = "<%s object at 0x%08X" % (self.__class__.__name__, id(self))
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# "sid" stands for short ID.
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sid = self.get_short_object_id()
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if sid is not None:
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txt += ", sid=%s" % sid
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return txt + ">"
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def __str__(self): # RemoteObject
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sid = self.get_short_object_id()
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if sid is None:
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return RemoteObject.__repr__(self)
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else:
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return "<%s, sid=%s>" % (self.__class__.__name__, sid)
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def get_short_object_id(self):
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if self.__object_id__ is None:
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return None
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return dopal.utils.make_short_object_id(self.__object_id__)
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def get_object_id(self): # RemoteObject
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return self.__object_id__
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def get_remote_type(self): # RemoteObject
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if not hasattr(self, 'get_xml_type'):
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return None
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return self.get_xml_type()
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def get_remote_attributes(self): # RemoteObject
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result = {}
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result['__connection__'] = self.__connection__
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result['__connection_id__'] = self.__connection_id__
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result['__object_id__'] = self.__object_id__
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return result
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# set_remote_attribute and update_remote_data are very closely
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# linked - the former sets one attribute at a time while the
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# other sets multiple attributes together. It is recommended
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# that set_remote_attribute is not overridden, but
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# update_remote_data is instead. If you choose to override
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# set_remote_attribute, you should override update_remote_data
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# to use set_remote_attribute.
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def set_remote_attribute(self, name, value): # RemoteObject
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return self.update_remote_data({name: value})
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def update_remote_data(self, attribute_data): # RemoteObject
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for key, value in attribute_data.items():
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setattr(self, key, value)
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def get_connection(self): # RemoteObject
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if self.__connection__ is None:
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raise ConnectionlessObjectError, self
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return self.__connection__
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# Exits quietly if the current connection is valid.
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#
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# If it is invalid, then this object's _refresh_object method will be
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# called instead to retrieve a new object ID (if applicable), but only
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# if this object's connection is a persistent one. If not, it will raise
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# a StaleObjectReferenceError.
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def verify_connection(self): # RemoteObject
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return self.get_connection().verify_objects([self])
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def refresh_object(self): # RemoteObject
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'''
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Updates the remote attributes on this object.
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@raise NonRefreshableConnectionlessObjectError: If the object is not
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attached to a connection.
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@return: None
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'''
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try:
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if not self.verify_connection():
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self._refresh_object(self.__connection__)
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except ConnectionlessObjectError:
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raise NonRefreshableConnectionlessObjectError, self
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def _refresh_object(self, connection_to_use): # RemoteObject
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'''
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Internal method which refreshes the attributes on the object.
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This method actually performs two different functionalities.
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If the connection to use is the same as the one already attached,
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with the same connection ID, then a refresh will take place.
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If the connection is either a different connection, or the connection
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ID is different, then an attempt will be made to retrieve the
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equivalent object to update the attributes.
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@param connection_to_use: The connection object to update with.
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@type connection_to_use: L{AzureusObjectConnection}
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@raise NonRefreshableObjectTypeError: Raised when the object type is
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not one which can be refreshed on broken connections.
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@raise NonRefreshableIncompleteObjectError: Raised when the object is
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missing certain attributes which prevents it being refreshed on broken
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connections.
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@return: None
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'''
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# If the object is still valid, let's use the refresh method.
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if (self.__connection__ == connection_to_use) and \
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self.__connection_id__ == connection_to_use.connection_id:
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new_object = connection_to_use.invoke_object_method(
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self, '_refresh', (), result_type=self.get_xml_type())
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# The object is no longer valid. Let's grab the equivalent object.
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else:
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# Special case - if the object is the cached plugin interface
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# object, then we need to avoid calling get_plugin_interface.
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#
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# Why? Because that'll pick up that the object is invalid, and
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# then attempt to refresh it. Recursive infinite loop.
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#
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# So in that case, we just get a plugin interface object
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# directly.
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if connection_to_use.cached_plugin_interface_object is self:
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new_object = connection_to_use.getPluginInterface()
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else:
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root = connection_to_use.get_plugin_interface()
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new_object = self._get_self_from_root_object(root)
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del root
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# Get the attributes...
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new_data = new_object.get_remote_attributes()
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# (Make sure that the important attributes are there...)
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if __debug__:
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attrs = ['__connection__', '__connection_id__', '__object_id__']
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for key in attrs:
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if key not in new_data:
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err = "%r.get_remote_attributes() is missing values!"
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raise AssertionError, err % self
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del attrs, key
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# Update the values.
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self.update_remote_data(new_data)
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# This method is used to locate the remote equivalent object from the
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# plugin interface object. If the object cannot be retrieved from the
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# PluginInterface, you should raise a NonRefreshableObjectTypeError
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# instead (this is the default behaviour).
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def _get_self_from_root_object(self, plugin_interface): # RemoteObject
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raise NonRefreshableObjectError, self
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def invoke_object_method(self, method, method_args, result_type=None): # RemoteObject
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try:
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return self.get_connection().invoke_object_method(self, method, method_args, result_type=result_type)
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except RemoteMethodError, error:
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# There's three different ways an error can be generated here:
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# 1) _handle_invocation_error raises an error - this will have
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# the traceback of where it was raised.
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# 2) _handle_invocation_error returns an error object - this
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# will have the traceback of the original exception.
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# 3) _handle_invocation_error returns None - this will just
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# reraise the original error.
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error = self._handle_invocation_error(error, method, method_args)
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if error is not None:
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import sys
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raise error, None, sys.exc_info()[2]
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raise
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def _handle_invocation_error(self, error, method_name, method_args): # RemoteObject
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# Default behaviour - just reraise the old error.
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return None
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# Called by the converter classes to determine the type of a remote
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# attribute.
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def _get_type_for_attribute(self, attrib_name, mapping_key=None): # RemoteObject
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return None
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class RemoteConstantsMetaclass(type):
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def __init__(cls, name, bases, cls_dict):
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super(RemoteConstantsMetaclass, cls).__init__(name, bases, cls_dict)
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if hasattr(cls, '__az_constants__'):
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for key, value in cls.__az_constants__.items():
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setattr(cls, key, value)
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# This just used for interrogation purposes - the guts of this function will
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# be used to build other functions (see below).
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#
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# Poor little function - ends up being consumed and tossed aside, like a
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# Hollow devouring a human soul.
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def _invoke_remote_method(self, *args, **kwargs):
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from dopal.utils import handle_kwargs
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kwargs = handle_kwargs(kwargs, result_type=None)
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return self.invoke_object_method(__funcname__, args, **kwargs)
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from dopal.utils import MethodFactory
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_methodobj = MethodFactory(_invoke_remote_method)
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make_instance_remote_method = _methodobj.make_instance_method
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make_class_remote_method = _methodobj.make_class_method
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del _methodobj, MethodFactory
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from dopal.aztypes import AzureusMethods
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class RemoteMethodMetaclass(type):
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def __init__(cls, name, bases, cls_dict):
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super(RemoteMethodMetaclass, cls).__init__(name, bases, cls_dict)
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az_key = '__az_methods__'
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if az_key not in cls_dict:
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methodsobj = AzureusMethods()
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for base in bases:
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if hasattr(base, az_key):
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methodsobj.update(getattr(base, az_key))
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setattr(cls, az_key, methodsobj)
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else:
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methodsobj = getattr(cls, az_key)
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# Create the real methods based on those in __az_methods__.
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for method_name in methodsobj.get_method_names():
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if not hasattr(cls, method_name):
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_mobj = make_class_remote_method(method_name, cls)
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setattr(cls, method_name, _mobj)
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class RemoteMethodMixin(object):
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__use_dynamic_methods__ = False
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__use_type_checking__ = True
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def __getattr__(self, name):
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# Anything which starts with an underscore is unlikely to be a public
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# method.
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if (not name.startswith('_')) and self.__use_dynamic_methods__:
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return self._get_remote_method_on_demand(name)
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_superclass = super(RemoteMethodMixin, self)
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# Influenced by code here:
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# http://aspn.activestate.com/ASPN/Mail/Message/python-list/1620146
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#
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# The problem is that we can't use the super object to get a
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# __getattr__ method for the appropriate class.
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self_mro = list(self.__class__.__mro__)
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for cls in self_mro[self_mro.index(RemoteMethodMixin) + 1:]:
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if hasattr(cls, '__getattr__'):
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return cls.__getattr__(self, name)
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else:
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# Isn't there something I can call to fall back on default
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# behaviour?
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text = "'%s' object has no attribute '%s'"
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raise AttributeError, text % (type(self).__name__, name)
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# Used to create a remote method object on demand.
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def _get_remote_method_on_demand(self, name):
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return make_instance_remote_method(name, self)
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def invoke_object_method(self, method, method_args, result_type=None):
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if self.__use_type_checking__:
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try:
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az_methods = self.__az_methods__
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except AttributeError:
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if not self.__use_dynamic_methods__:
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raise RuntimeError, "%s uses type checking, but has no methods to check against" % type(
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self).__name__
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else:
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try:
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method_args, result_type = \
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az_methods.wrap_args(method, method_args)
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except AzMethodError:
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if not self.__use_dynamic_methods__:
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raise
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return super(RemoteMethodMixin, self).invoke_object_method(method, method_args, result_type=result_type)
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class RemoteAttributeMetaclass(type):
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# XXX: What the hell is this meant to do!?
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def __init__(cls, name, bases, cls_dict):
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deft_names = '__default_remote_attribute_names__'
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az_attrs = '__az_attributes__'
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attr_dict = cls_dict.setdefault(deft_names, {})
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attr_dict.update(cls_dict.get(az_attrs, {}))
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for base in bases:
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attr_dict.update(getattr(base, deft_names, {}))
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attr_dict.update(getattr(base, az_attrs, {}))
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setattr(cls, deft_names, attr_dict)
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super(RemoteAttributeMetaclass, cls).__init__(name, bases, cls_dict)
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class RemoteAttributesMixin(object):
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__default_remote_attribute_names__ = {}
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__reset_attributes_on_refresh__ = False
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__protect_remote_attributes__ = True
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def __init__(self, *args, **kwargs):
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# Class attribute becomes instance attribute.
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super(RemoteAttributesMixin, self).__init__(*args, **kwargs)
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self.__remote_attribute_names__ = self.__default_remote_attribute_names__.copy()
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def __getattr__(self, name):
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if name in self.__remote_attribute_names__:
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raise MissingRemoteAttributeError, name
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|
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# Influenced by code here:
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# http://aspn.activestate.com/ASPN/Mail/Message/python-list/1620146
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self_mro = list(self.__class__.__mro__)
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for cls in self_mro[self_mro.index(RemoteAttributesMixin) + 1:]:
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if hasattr(cls, '__getattr__'):
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return cls.__getattr__(self, name)
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else:
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# Isn't there something I can call to fall back on default
|
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# behaviour?
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text = "'%s' object has no attribute '%s'"
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raise AttributeError, text % (type(self).__name__, name)
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|
|
def __setattr__(self, name, value):
|
|
if self.__protect_remote_attributes__ and not name.startswith('__'):
|
|
if name in self.__remote_attribute_names__:
|
|
err = "cannot set remote attribute directly: %s"
|
|
raise AttributeError, err % name
|
|
return super(RemoteAttributesMixin, self).__setattr__(name, value)
|
|
|
|
def set_remote_attribute(self, name, value):
|
|
if name not in self.__remote_attribute_names__:
|
|
self.__remote_attribute_names__[name] = None
|
|
return super(RemoteAttributesMixin, self).__setattr__(name, value)
|
|
|
|
def get_remote_attributes(self):
|
|
result = super(RemoteAttributesMixin, self).get_remote_attributes()
|
|
for attribute in self.__remote_attribute_names__:
|
|
if hasattr(self, attribute):
|
|
result[attribute] = getattr(self, attribute)
|
|
return result
|
|
|
|
def is_remote_attribute(self, name):
|
|
return name in self.__remote_attribute_names__
|
|
|
|
def update_remote_data(self, remote_attribute_dict):
|
|
if self.__reset_attributes_on_refresh__:
|
|
for attrib in self.__remote_attribute_names__:
|
|
try:
|
|
delattr(self, attrib)
|
|
except AttributeError:
|
|
pass
|
|
|
|
_super = super(RemoteAttributesMixin, self)
|
|
|
|
# XXX: Do a better fix than this!
|
|
pra_value = self.__protect_remote_attributes__
|
|
self.__protect_remote_attributes__ = False
|
|
try:
|
|
return _super.update_remote_data(remote_attribute_dict)
|
|
finally:
|
|
self.__protect_remote_attributes__ = pra_value
|
|
|
|
def _get_type_for_attribute(self, name, mapping_key=None):
|
|
if mapping_key is not None:
|
|
key_to_use = name + ',' + mapping_key
|
|
else:
|
|
key_to_use = name
|
|
result = self.__remote_attribute_names__.get(key_to_use)
|
|
if result is not None:
|
|
return result
|
|
else:
|
|
import dopal
|
|
|
|
if dopal.__dopal_mode__ == 1:
|
|
raise RuntimeError, (self, key_to_use)
|
|
_superfunc = super(RemoteAttributesMixin, self)._get_type_for_attribute
|
|
return _superfunc(name, mapping_key)
|
|
|
|
|
|
class AzureusObjectMetaclass(RemoteConstantsMetaclass, RemoteMethodMetaclass, RemoteAttributeMetaclass):
|
|
pass
|
|
|
|
|
|
class AzureusObject(RemoteAttributesMixin, RemoteMethodMixin, RemoteObject):
|
|
__metaclass__ = AzureusObjectMetaclass
|
|
|
|
def _get_self_from_root_object(self, plugin_interface):
|
|
# XXX: Err, this is a bit incorrect - it should be get_remote_type.
|
|
# But it will do for now. Need to think more carefully about
|
|
# the responsibilities of the two methods.
|
|
if hasattr(self, 'get_xml_type'):
|
|
from dopal.persistency import get_equivalent_object_from_root
|
|
|
|
return get_equivalent_object_from_root(self, plugin_interface)
|
|
return super(AzureusObject, self)._get_self_from_root_object(plugin_interface)
|
|
|
|
|
|
class TypelessRemoteObject(RemoteAttributesMixin, RemoteMethodMixin, RemoteObject):
|
|
__use_dynamic_methods__ = True
|
|
|
|
|
|
TYPELESS_CLASS_MAP = {None: TypelessRemoteObject}
|
|
|
|
# XXX: Define converter here?
|
|
# Add type checking code (though this proably should be core)
|
|
# Add some code to read data from statistics file (what level should this be at?)
|
|
# # Allow some code to make link_error_handler assignable
|
|
# Converter - needs to have some default behaviours (easily changeable):
|
|
# a) Atoms - what to do if no type is suggested. (not so important this one)
|
|
# b) Objects - what to do if no class is given (if no id is given?)
|