# # Trace # from Misc import * class InvalidAction(TypeError): "Exception used to indicate that a given action is invalid" class InvalidEvent(TypeError): "Exception used to indicate that a given event is invalid" class SemiTrace(object): def __init__(self): self.runs = [] def totalCount(self): count = 0 for run in self.runs: count += len(run.eventList) return count def sortActions(self,actionlist): newlist = actionlist[:] newlist.sort(lambda x,y: self.getOrder(x,y)) return newlist def getEnabled(self,previous): enabled = [] for run in self.runs: for event in run: if event in previous or event in enabled: continue prec = self.getPrecedingEvents(event,previous) if len(prec) == 0: enabled.append(event) return enabled # Returns run,index tuples for all connections def getConnections(self,event,removeIntruder=False): if not removeIntruder: return event.follows result = [] if event.run.intruder: for before in event.getBefore(): result.extend(self.getConnections(before,removeIntruder)) for x in event.follows: fol = self.getEvent(x) # If this is an intruder action descend into it if fol.run.intruder: result.extend(self.getConnections(fol,removeIntruder)) else: result.append(x) return uniq(result) # Return the minimum set of preceding events for a given event # that is the events before this event in the same run and all # actions required by the partional ordering # If previous is non empty remove all events already in previous def getPrecedingEvents(self,event,previous=[]): # If it is cached return cached version if event.preceding != None: return filter(lambda x: x not in previous,event.preceding) preceding = [] for prec in event.getBefore(): preceding.append(prec) preceding.extend(self.getPrecedingEvents(prec)) for x in event.follows: fol = self.getEvent(x) preceding.append(fol) preceding.extend(self.getPrecedingEvents(fol)) preceding = uniq(preceding) event.preceding = preceding preceding = filter(lambda x: x not in previous,preceding) return preceding # Returns -1 if the first event has to be before the second one # +1 if the second event has to be before the first one # 0 if there is no order defined on the two events def getOrder(self,event1,event2): if (event1 in self.getPrecedingEvents(event2)): return -1 if (event2 in self.getPrecedingEvents(event1)): return 1 return 0 # Get event by run id and index def getEvent(self,idx): (rid,index) = idx for run in self.runs: if run.id != rid: continue for event in run: if event.index == index: return event raise InvalidEvent # Get all claim events in the trace def getClaims(self): claims = [] for run in self.runs: for event in run: if isinstance(event,EventClaim): claims.append(event) return claims # Returns a list of all initiation events in the semitrace def getInitiations(self): initiations = [] for run in self.runs: # Initiations are runs of honest agents if (run.intruder): continue # Which contain no reads before the first send for action in run: if (isinstance(action,EventRead)): break elif (isinstance(action,EventSend)): initiations.append(action) break return initiations # Get all runs performed by a specific agent def getAgentRuns(self,agent): result = [] for run in self.runs: if run.getAgent() == agent: result.append(run) return result # Return a list of all runs that are parallel with this run def getParallelRuns(self,run): parallel = [] first = run.getFirstAction() # Process all events that are before the end of the run for event in self.getPrecedingEvents(run.getLastAction()): # Only count those we haven't found yet if event.run in parallel or event.run == run: continue # If the event is also after the beginning of the run it is # parallel if self.getOrder(event,first) == 1: parallel.append(event.run) return parallel def getRun(self,runid): for run in self.runs: if run.id == runid: return run return None class ProtocolDescription(object): def __init__(self,protocol): self.protocol = protocol self.roledescr = {} # Find event by label def findEvent(self,eventlabel,eventType=None): for (role,descr) in self.roledescr.items(): for event in descr: if event.label == eventlabel: if eventType == None or isinstance(event,eventType): return event # Return all events that should have occured before the given event # if the protocol is executed exactly as specified # (i.e. all previous events in the same run and the preceding events # of the matching sends of all reads) def getPrecedingEvents(self,eventlabel,eventType=None): event = self.findEvent(eventlabel,eventType) if event.preceding != None: return event.preceding preceding = event.getBefore()+[event] for prev in preceding: # For this event and all events that are before it in the run # description see if it is a read and if it is also add the # precedinglabelset of the matching send if (isinstance(prev,EventRead)): match = self.findEvent(prev.label,EventSend) if match: preceding.extend(self.getPrecedingEvents(match.label,EventSend)) preceding = uniq(preceding) event.preceding = preceding return preceding # Calculate the preceding labelset that is all read events # that are in the precedingEvents of a certain event def getPrecedingLabelSet(self,eventlabel): events = self.getPrecedingEvents(eventlabel) events = filter(lambda x: isinstance(x,EventRead),events) return [x.label for x in events] # Calculate the roles in preceding labelset that is all roles that # that are in the precedingEvents of a certain event def getPrecedingRoleSet(self,eventlabel): events = self.getPrecedingEvents(eventlabel) roles = uniq([x.run.role for x in events]) return roles def __str__(self): s = '' for x in self.roledescr.values(): for e in x: s += str(e) + "\n" return s class Run(object): def __init__(self): self.id = None self.protocol = None self.role = None self.roleAgents = {} self.eventList = [] self.intruder = False self.attack = None self.variables = [] def __iter__(self): return iter(self.eventList) def getAgent(self): if self.intruder: return None return self.roleAgents[self.role] def getFirstAction(self): return self.eventList[0] def getLastAction(self): return self.eventList[-1] class Event(object): def __init__(self,index,label,follows): self.index = index self.label = label self.follows = follows self.run = None self.preceding = None self.rank = None def shortLabel(self): try: return self.label[len(self.label)-1] except: return str(self.label) def getBefore(self): result = [] for event in self.run: if (event == self): return result result.append(event) # This should never happen assert(False) class EventSend(Event): def __init__(self,index,label,follows,fr,to,message): Event.__init__(self,index,label,follows) self.fr = fr self.to = to self.message = message def __str__(self): if self.run.intruder: return "SEND(%s)" % self.message else: return "SEND_%s(%s,%s)" % (self.shortLabel(),self.to,self.message) class EventRead(Event): def __init__(self,index,label,follows,fr,to,message): Event.__init__(self,index,label,follows) self.fr = fr self.to = to self.message = message def __str__(self): if self.run.intruder: return "READ(%s)" % self.message else: return "READ_%s(%s,%s)" % (self.shortLabel(),self.fr, self.message) class EventClaim(Event): def __init__(self,index,label,follows,role,type,argument): Event.__init__(self,index,label,follows) self.role = role self.type = type self.argument = argument self.broken = None # A Claim should be ignored if there is an untrusted agent in the role # agents def ignore(self): for untrusted in self.run.attack.untrusted: if untrusted in self.run.roleAgents.values(): return True return False # Return (protocol,role) def protocolRole(self): return "(%s,%s)" % (self.run.protocol,self.run.role) def argstr(self): if self.argument == None: return '*' else: return str(self.argument) def __str__(self): return "CLAIM_%s(%s, %s)" % (self.shortLabel(),self.type,self.argstr())