# # Claim # import Term def stateDescription(okay,n=1,caps=False): if okay: s = "trace class" if n != 1: s += "es" else: s = "attack" if n != 1: s += "s" if caps: s = s[0].upper() + s[1:] return s class Claim(object): def __init__(self): self.id = None # a unique id string, consisting of 'protocol,label' self.claimtype = None self.label = None self.shortlabel = None self.protocol = None self.role = None self.parameter = None self.failed = 0 self.count = 0 self.states = 0 self.complete = False self.timebound = False self.attacks = [] self.state = False # if true, it is a state, not an attack self.okay = None # true if good, false if bad # derived info self.foundstates = False self.foundproof = False def analyze(self): # determine short label # We need the rightmost thingy here label = self.label while isinstance(label,Term.TermTuple): label = label[1] self.shortlabel = label # determine id self.id = "%s,%s" % (self.protocol,self.shortlabel) # some additional properties if str(self.claimtype) == 'Reachable': self.state = True if self.failed > 0: self.foundstates = True if self.complete: self.foundproof = True # status # normally, with attacks, okay means none self.okay = (self.failed == 0) if self.state: # but the logic reverses when it is states and not # attacks... self.okay = (not self.okay) def stateName(self,count=1): return stateDescription(self.state,count) def __str__(self): s = "claim id [%s]" % (self.id) s+= " " + str(self.claimtype) if self.parameter: s+= " " + str(self.parameter) # determine status s+= " : %i " % (self.failed) s+= self.stateName(self.failed) if self.complete: s+= " (complete)" return s