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