def castVote(self, vote):
     for i in range(10):
         vote = Vote(Voter("Bad Voter {}".format(i)),
                     Candidate("Bad Candidate"))
         block = block(vote, self.chain.last)
         # mostly invalid proof
         proof = hash(block)
         self.chain.addBlock(block, proof)
     self.announceNewBlock()
     return true
Beispiel #2
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    def test_duplicateVoters(self):

        for voter in self.voters:
            node = self.network.nodes[randint(0,self.nNodes-1)]
            candidate = choice(self.candidates)
            vote = Vote(voter, candidate)
            print("{} goes to node {} and chooses to vote for candidate {}".format(voter, node, candidate))

            self.assertEqual(node.castVote(vote), True)

        duplicateVoter = self.voters[0]
        node = self.network.nodes[randint(0,self.nNodes-1)]
        candidate = choice(self.candidates)
        vote = Vote(voter, candidate)

        print("\n\n\nNow {} goes to node {} and attempts to vote again, now for candidate {}".format(duplicateVoter, node, candidate))

        self.assertEqual(node.castVote(vote), False)

        print("\nTEST 3 PASSED\n=============")
        print("{} attempted to duplicate vote \nbut node disallowed".format(duplicateVoter))
    def _vote(self):
        '''
        Place a vote.
        '''
        self._process_menu()
        cmd = 0x24
        self._send_str(cmd)

        if True == self._is_menu_id_valid_op(cmd):

            # check to see if there are any candidates to vote for
            if 0 == self.state['e'].get_candidate_count():
                self._receive_by_len(self.EMPTY_CANDIDATES,
                                     term=CONFIG['TERM'])
            else:
                # read candidate list
                self._receive_by_len(self.SELECT_CANDIDATE,
                                     term=CONFIG['TERM'])
                fmt = "\t{0}: {1} {2}\n"
                for c in self.state['e'].candidates:
                    line = fmt.format(c.id, c.f_name, c.l_name)
                    self._receive_by_len(line)

                self._receive_by_len(self.CHOOSE, term=CONFIG['TERM'])

                # make selection
                c = self.state['e'].get_random_candidate()
                self._send_str(c.id)

                # receive voting receipt
                p1 = "Confirmation #"
                p2 = " Vote recorded for candidate: {0} {1}.\n"

                self._receive_by_len(p1)

                vote_id = Variable('voteid{0}'.format(
                    self.state['e'].authd_user.id))
                vote_id.set_slice(0)
                self.read(delim='.', assign=vote_id)

                self._receive_by_len(p2.format(c.f_name, c.l_name))

                # record vote
                v = Vote(vote_id, self.state['e'].authd_user, c)
                self.state['e'].add_vote(v)

            self.state['e'].authd_user = None
            return 0
        else:
            self._receive_fail()
            return -1
Beispiel #4
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    def test_badNode(self):

        self.network.addBadNode()

        for voter in self.voters:
            node = self.network.nodes[randint(0,self.nNodes-1)]
            candidate = choice(self.candidates)
            vote = Vote(voter, candidate)
            print("{} goes to node {} and chooses to vote for candidate {}".format(voter, node, candidate))

        self.assertNotEqual(self.network.nodes[0], self.network.nodes[-1])

        print("\n\n\nTEST 4 PASSED\n=============")
        print("All good nodes rejected\ninvalid chain")
Beispiel #5
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    def test_RunElection(self):

    	print("\n\n#### COMMENCE VOTING ####\n")

    	for voter in self.voters:
    		node = self.network.nodes[randint(0,self.nNodes-1)]
    		candidate = choice(self.candidates)
    		vote = Vote(voter, candidate)
    		print("{} goes to node {} and chooses to vote for candidate {}".format(voter, node, candidate))

    		self.assertEqual(node.castVote(vote), True)

    	print("\n\n#### COMPARING EACH NODE'S CHAIN ####\n")

    	for i in range(self.nNodes):
    		for j in range(self.nNodes):
    			if i != j:
		    		self.assertEqual(self.network.nodes[i].chain, self.network.nodes[j].chain)
		    		print("{} == {} with Length: {}".format(self.network.nodes[i], self.network.nodes[j], self.network.nodes[i].chain.length))

    	print("\nTEST 2 PASSED\n=============")
    	print("{} votes successfully cast".format(self.nVoters))
    	print("All nodes have equal chains\n".format(self.nVoters))
Beispiel #6
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from block import Block
from election import Vote, Voter, Candidate
from blockchain import Blockchain, InvalidBlockchain

# Voters
Amany = Voter("Amany")
Anthony = Voter("Anthony")
Owen = Voter("Owen")

# Candidates
James = Candidate("James")
Marcus = Candidate("Marcus")
Ronny = Candidate("Ronny")

ab = {
    'jy': Vote(Amany, James),
    'mc': Vote(Amany, Marcus),
    'rk': Vote(Amany, Ronny)
}

ak = {
    'jy': Vote(Anthony, James),
    'mc': Vote(Anthony, Marcus),
    'rk': Vote(Anthony, Ronny)
}

on = {
    'jy': Vote(Owen, James),
    'mc': Vote(Owen, Marcus),
    'rk': Vote(Owen, Ronny)
}