class ConnecterConnection: def __init__(self,port): self.s = BTConnection('localhost',port) self.s.read_handshake_medium_rare() self.connection = EncrypterConnection(self.s.get_his_id()) def get_my_id(self): return self.s.get_my_id() def get_unauth_peer_id(self): return self.s.get_his_id() def is_locally_initiated(self): return True def send_message(self,msg): self.s.send(msg) def get_message(self): return self.s.recv() def set_permid(self,x): pass def set_auth_peer_id(self,x): pass def close(self): self.s.close()
def _test_response1(self,ss,gen_resp1,good): print >>sys.stderr,"test: myserver running:",gen_resp1 conn, addr = ss.accept() s = BTConnection('',0,conn) s.read_handshake_medium_rare() # Read challenge msg = s.recv() self.testcase.assert_(msg[0] == CHALLENGE) randomB = bdecode(msg[1:]) self.testcase.assert_(type(randomB) == StringType) self.testcase.assert_(len(randomB) == random_size) [randomA,resp1_data] = gen_resp1(randomB,s.get_his_id()) s.send(resp1_data) if good: # Read response2 msg = s.recv() self.testcase.assert_(msg[0] == RESPONSE2) self.check_response2(msg[1:],randomA,randomB,s.get_my_id()) # the connection should be intact, so this should not throw an # exception: time.sleep(5) s.send('bla') s.close() else: time.sleep(5) # the other side should not our bad RESPONSE1 this and close the # connection msg = s.recv() self.testcase.assert_(len(msg)==0) s.close()
class ConnecterConnection: def __init__(self, port): self.s = BTConnection('localhost', port) self.s.read_handshake_medium_rare() self.connection = EncrypterConnection(self.s.get_his_id()) def get_my_id(self): return self.s.get_my_id() def get_unauth_peer_id(self): return self.s.get_his_id() def is_locally_initiated(self): return True def send_message(self, msg): self.s.send(msg) def get_message(self): return self.s.recv() def set_permid(self, x): pass def set_auth_peer_id(self, x): pass def close(self): self.s.close()
def _test_response1(self, ss, gen_resp1, good): print >> sys.stderr, "test: myserver running:", gen_resp1 conn, addr = ss.accept() s = BTConnection('', 0, conn) s.read_handshake_medium_rare() # Read challenge msg = s.recv() self.testcase.assert_(msg[0] == CHALLENGE) randomB = bdecode(msg[1:]) self.testcase.assert_(type(randomB) == StringType) self.testcase.assert_(len(randomB) == random_size) [randomA, resp1_data] = gen_resp1(randomB, s.get_his_id()) s.send(resp1_data) if good: # Read response2 msg = s.recv() self.testcase.assert_(msg[0] == RESPONSE2) self.check_response2(msg[1:], randomA, randomB, s.get_my_id()) # the connection should be intact, so this should not throw an # exception: time.sleep(5) s.send('bla') s.close() else: time.sleep(5) # the other side should not our bad RESPONSE1 this and close the # connection msg = s.recv() self.testcase.assert_(len(msg) == 0) s.close()
def _test_bad_response2(self, gen_resp2_func): print >>sys.stderr, time.asctime(), "-", "test: bad response2", gen_resp2_func s = BTConnection("localhost", self.hisport) s.read_handshake() [rB, chal_data] = self.create_good_challenge() s.send(chal_data) resp1_data = s.recv() self.assert_(resp1_data[0] == RESPONSE1) resp1_dict = self.check_response1(resp1_data[1:], rB, s.get_my_id()) resp2_data = gen_resp2_func(rB, resp1_dict, s.get_his_id()) s.send(resp2_data) time.sleep(5) # the other side should not like this and close the connection msg = s.recv() self.assert_(len(msg) == 0) s.close()
def _test_bad_response2(self, gen_resp2_func): print >> sys.stderr, "test: bad response2", gen_resp2_func s = BTConnection('localhost', self.hisport) s.read_handshake() [rB, chal_data] = self.create_good_challenge() s.send(chal_data) resp1_data = s.recv() self.assert_(resp1_data[0] == RESPONSE1) resp1_dict = self.check_response1(resp1_data[1:], rB, s.get_my_id()) resp2_data = gen_resp2_func(rB, resp1_dict, s.get_his_id()) s.send(resp2_data) time.sleep(5) # the other side should not like this and close the connection msg = s.recv() self.assert_(len(msg) == 0) s.close()
def subtest_good_challenge_response2(self): """ test good challenge and response2 messages """ print >>sys.stderr, time.asctime(), "-", "test: good challenge/response" s = BTConnection("localhost", self.hisport) s.read_handshake() [rB, chal_data] = self.create_good_challenge() s.send(chal_data) resp1_data = s.recv() self.assert_(resp1_data[0] == RESPONSE1) resp1_dict = self.check_response1(resp1_data[1:], rB, s.get_my_id()) resp2_data = self.create_good_response2(rB, resp1_dict, s.get_his_id()) s.send(resp2_data) time.sleep(10) # the other side should not have closed the connection, as # this is all valid, so this should not throw an exception: s.send("bla") s.close()
def subtest_good_challenge_response2(self): """ test good challenge and response2 messages """ print >> sys.stderr, "test: good challenge/response" s = BTConnection('localhost', self.hisport) s.read_handshake() [rB, chal_data] = self.create_good_challenge() s.send(chal_data) resp1_data = s.recv() self.assert_(resp1_data[0] == RESPONSE1) resp1_dict = self.check_response1(resp1_data[1:], rB, s.get_my_id()) resp2_data = self.create_good_response2(rB, resp1_dict, s.get_his_id()) s.send(resp2_data) time.sleep(10) # the other side should not have closed the connection, as # this is all valid, so this should not throw an exception: s.send('bla') s.close()