class PerformTest(unittest.TestCase): """Test client perform function.""" def setUp(self): from letsencrypt.continuity_auth import ContinuityAuthenticator self.auth = ContinuityAuthenticator( mock.MagicMock(server="demo_server.org"), None) self.auth.proof_of_pos.perform = mock.MagicMock( name="proof_of_pos_perform", side_effect=gen_client_resp) def test_pop(self): achalls = [] for i in xrange(4): achalls.append(achallenges.ProofOfPossession( challb=None, domain=str(i))) responses = self.auth.perform(achalls) self.assertEqual(len(responses), 4) for i in xrange(4): self.assertEqual(responses[i], "ProofOfPossession%d" % i) def test_unexpected(self): self.assertRaises( errors.ContAuthError, self.auth.perform, [ achallenges.DVSNI( challb=None, domain="0", account_key="invalid_key")]) def test_chall_pref(self): self.assertEqual( self.auth.get_chall_pref("example.com"), [challenges.ProofOfPossession])
class PerformTest(unittest.TestCase): """Test client perform function.""" def setUp(self): from letsencrypt.continuity_auth import ContinuityAuthenticator self.auth = ContinuityAuthenticator( mock.MagicMock(server="demo_server.org"), None) self.auth.proof_of_pos.perform = mock.MagicMock( name="proof_of_pos_perform", side_effect=gen_client_resp) def test_pop(self): achalls = [] for i in xrange(4): achalls.append( achallenges.ProofOfPossession(challb=None, domain=str(i))) responses = self.auth.perform(achalls) self.assertEqual(len(responses), 4) for i in xrange(4): self.assertEqual(responses[i], "ProofOfPossession%d" % i) def test_unexpected(self): self.assertRaises(errors.ContAuthError, self.auth.perform, [ achallenges.DVSNI( challb=None, domain="0", account_key="invalid_key"), ]) def test_chall_pref(self): self.assertEqual(self.auth.get_chall_pref("example.com"), [challenges.ProofOfPossession])
class PerformTest(unittest.TestCase): """Test client perform function.""" def setUp(self): from letsencrypt.continuity_auth import ContinuityAuthenticator self.auth = ContinuityAuthenticator( mock.MagicMock(server="demo_server.org"), None) self.auth.rec_token.perform = mock.MagicMock( name="rec_token_perform", side_effect=gen_client_resp) self.auth.proof_of_pos.perform = mock.MagicMock( name="proof_of_pos_perform", side_effect=gen_client_resp) def test_rec_token1(self): token = achallenges.RecoveryToken(challb=None, domain="0") responses = self.auth.perform([token]) self.assertEqual(responses, ["RecoveryToken0"]) def test_rec_token5(self): tokens = [] for i in xrange(5): tokens.append(achallenges.RecoveryToken(challb=None, domain=str(i))) responses = self.auth.perform(tokens) self.assertEqual(len(responses), 5) for i in xrange(5): self.assertEqual(responses[i], "RecoveryToken%d" % i) def test_pop_and_rec_token(self): achalls = [] for i in xrange(4): if i % 2 == 0: achalls.append( achallenges.RecoveryToken(challb=None, domain=str(i))) else: achalls.append( achallenges.ProofOfPossession(challb=None, domain=str(i))) responses = self.auth.perform(achalls) self.assertEqual(len(responses), 4) for i in xrange(4): if i % 2 == 0: self.assertEqual(responses[i], "RecoveryToken%d" % i) else: self.assertEqual(responses[i], "ProofOfPossession%d" % i) def test_unexpected(self): self.assertRaises( errors.LetsEncryptContAuthError, self.auth.perform, [achallenges.DVSNI(challb=None, domain="0", key="invalid_key")]) def test_chall_pref(self): self.assertEqual( self.auth.get_chall_pref("example.com"), [challenges.ProofOfPossession, challenges.RecoveryToken])
class PerformTest(unittest.TestCase): """Test client perform function.""" def setUp(self): from letsencrypt.continuity_auth import ContinuityAuthenticator self.auth = ContinuityAuthenticator( mock.MagicMock(server="demo_server.org"), None) self.auth.rec_token.perform = mock.MagicMock( name="rec_token_perform", side_effect=gen_client_resp) self.auth.proof_of_pos.perform = mock.MagicMock( name="proof_of_pos_perform", side_effect=gen_client_resp) def test_rec_token1(self): token = achallenges.RecoveryToken(challb=None, domain="0") responses = self.auth.perform([token]) self.assertEqual(responses, ["RecoveryToken0"]) def test_rec_token5(self): tokens = [] for i in xrange(5): tokens.append(achallenges.RecoveryToken(challb=None, domain=str(i))) responses = self.auth.perform(tokens) self.assertEqual(len(responses), 5) for i in xrange(5): self.assertEqual(responses[i], "RecoveryToken%d" % i) def test_pop_and_rec_token(self): achalls = [] for i in xrange(4): if i % 2 == 0: achalls.append(achallenges.RecoveryToken(challb=None, domain=str(i))) else: achalls.append(achallenges.ProofOfPossession(challb=None, domain=str(i))) responses = self.auth.perform(achalls) self.assertEqual(len(responses), 4) for i in xrange(4): if i % 2 == 0: self.assertEqual(responses[i], "RecoveryToken%d" % i) else: self.assertEqual(responses[i], "ProofOfPossession%d" % i) def test_unexpected(self): self.assertRaises( errors.LetsEncryptContAuthError, self.auth.perform, [ achallenges.DVSNI(challb=None, domain="0", key="invalid_key")]) def test_chall_pref(self): self.assertEqual( self.auth.get_chall_pref("example.com"), [challenges.ProofOfPossession, challenges.RecoveryToken])