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//usr/lib/python2.4/site-packages/dbus/matchrules.py
from exceptions import DBusException class SignalMatchNode: def __init__(self): self.wildcard = None self.finite = {} self.rules = [] def add(self, key, leaf=None): node = None if key: if self.finite.has_key(key): node = self.finite[key] else: node = SignalMatchNode() self.finite[key] = node else: if self.wildcard: node = self.wildcard else: node = SignalMatchNode() self.wildcard = node node.rules.append(leaf) return node def get_matches(self, key): result = [] if self.wildcard: result.append(self.wildcard) if self.finite.has_key(key): result.append(self.finite[key]) return result def get_match(self, key): if key: if self.finite.has_key(key): return self.finite[key] else: return None return self.wildcard def has_children(self): if self.wildcard or len(self.finite.iterkeys()) > 0: return True return False def remove_child(self, child, key=None): if self.wildcard == child: self.wildcard = None elif self.finite.has_key(key): del self.finite[key] class SignalMatchTree: """This class creates an ordered tree of SignalMatchRules to speed searchs. Left branches are wildcard elements and all other branches are concreet elements. """ def __init__(self): self._tree = SignalMatchNode() def add(self, rule): interface = self._tree.add(rule.sender) signal = interface.add(rule.dbus_interface) path = signal.add(rule.signal_name) path.add(rule.path, leaf=rule) def exec_matches(self, match_rule, message): args = message.get_args_list() sender_matches = self._tree.get_matches(match_rule.sender) for sender_node in sender_matches: interface_matches = sender_node.get_matches(match_rule.dbus_interface) for interface_node in interface_matches: signal_matches = interface_node.get_matches(match_rule.signal_name) for signal_node in signal_matches: path_matches = signal_node.get_matches(match_rule.path) for path_node in path_matches: if(path_node.rules): for rule in path_node.rules: if (rule.match_args_from_list(args)): rule.execute(message, args) def remove(self, rule): try: sender = self._tree.get_match(rule.sender) interface = sender.get_match(rule.dbus_interface) signal = interface.get_match(rule.signal_name) path = signal.get_match(rule.path) rule_matches = [] for _rule in path.rules: if _rule.is_match(rule): rule_matches.append(_rule) for _rule in rule_matches: path.rules.remove(_rule) #clean up tree if len(path.rules) == 0: signal.remove_child(path, key = rule.path) if not signal.has_children(): interface.remove_child(signal, key = rule.signal_name) if not interface.has_children(): sender.remove_child(interface, key = rule.dbus_interface) if not sender.has_children(): self._tree.remove_child(sender, key = rule.sender) except: raise DBusException ("Trying to remove unkown rule: %s"%str(rule)) class SignalMatchRule: """This class represents a dbus rule used to filter signals. When a rule matches a filter, the signal is propagated to the handler_funtions """ def __init__(self, signal_name, dbus_interface, sender, path): self.handler_functions = [] self.signal_name = signal_name self.dbus_interface = dbus_interface self.sender = sender self.path = path self.args = None def add_args_match(self, args): self.args = args def execute(self, message, args=None): keywords = {} if self.sender_keyword is not None: keywords[self.sender_keyword] = message.get_sender() if self.path_keyword is not None: keywords[self.path_keyword] = message.get_path() # optimization just in case we already extracted the args if not args: args = message.get_args_list() for handler in self.handler_functions: if getattr(handler, "_dbus_pass_message", False): keywords["dbus_message"] = message if len(keywords) == 0: handler(*args) else: handler(*args, **keywords) def add_handler(self, handler): self.handler_functions.append(handler) #matches only those arguments listed by self def match_args_from_list(self, args_list): if not self.args: return True last_index = len(args_list) - 1 for (index, value) in self.args.iteritems(): if index > last_index: return False if not (args_list[index] == value): return False return True #does exact matching def match_args_from_rule(self, rule): if self.args == rule.args: return True if self.args == None or rule.args == None: return False my_args_list = self.args.items() match_args_list = rule.args.iterms() if len(my_args_list) != len(match_args_list): return False for (key, value) in my_args_list: if rule.args.get(key) != value: return False return True def is_match(self, rule): if (self.signal_name == rule.signal_name and self.dbus_interface == rule.dbus_interface and self.sender == rule.sender and self.path == rule.path and self.match_args_from_rule(rule)): if rule.handler_functions == []: return True _funcs_copy_a = self.handler_functions[0:] _funcs_copy_b = rule.handler_functions[0:] _funcs_copy_a.sort() _funcs_copy_b.sort() return _funcs_copy_a == _funcs_copy_b return False def __repr__(self): """Returns a custom representation of this DBusMatchRule that can be used with dbus_bindings """ repr = "type='signal'" if (self.dbus_interface): repr = repr + ",interface='%s'" % (self.dbus_interface) if (self.sender): repr = repr + ",sender='%s'" % (self.sender) if (self.path): repr = repr + ",path='%s'" % (self.path) if (self.signal_name): repr = repr + ",member='%s'" % (self.signal_name) if (self.args): my_args_list = self.args.items() my_args_list.sort() for (index, value) in my_args_list: repr = repr + ",arg%i='%s'" % (index, value) return repr