rhodecode-enterprise-ce Files · rhodecode/tests/lib/test_encrypt.py

artifacts: expose a special auth-token based artifacts download urls....

artifacts: expose a special auth-token based artifacts download urls. This will allow sharing download to external locations used new generated artifact download tokens. This feature allows also serving downloads using secret urls with all the fancy logic of our auth tokens.

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      # -*- coding: utf-8 -*-

      # Copyright (C) 2010-2019 RhodeCode GmbH

      #

      # This program is free software: you can redistribute it and/or modify

      # it under the terms of the GNU Affero General Public License, version 3

      # (only), as published by the Free Software Foundation.

      #

      # This program is distributed in the hope that it will be useful,

      # but WITHOUT ANY WARRANTY; without even the implied warranty of

      # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

      # GNU General Public License for more details.

      #

      # You should have received a copy of the GNU Affero General Public License

      # along with this program.  If not, see <http://www.gnu.org/licenses/>.

      #

      # This program is dual-licensed. If you wish to learn more about the

      # RhodeCode Enterprise Edition, including its added features, Support services,

      # and proprietary license terms, please see https://rhodecode.com/licenses/

      import pytest

      from rhodecode.lib.encrypt import (

          AESCipher, SignatureVerificationError, InvalidDecryptedValue)

      from rhodecode.lib.encrypt2 import (Encryptor, InvalidToken)

      class TestEncryptModule(object):

          @pytest.mark.parametrize(

              "key, text",

              [

                  ('a', 'short'),

                  ('a'*64, 'too long(trimmed to 32)'),

                  ('a'*32, 'just enough'),

                  ('ąćęćę', 'non asci'),

                  ('$asa$asa', 'special $ used'),

              ]

          )

          def test_encryption(self, key, text):

              enc = AESCipher(key).encrypt(text)

              assert AESCipher(key).decrypt(enc) == text

          def test_encryption_with_hmac(self):

              key = 'secret'

              text = 'ihatemysql'

              enc = AESCipher(key, hmac=True).encrypt(text)

              assert AESCipher(key, hmac=True).decrypt(enc) == text

          def test_encryption_with_hmac_with_bad_key(self):

              key = 'secretstring'

              text = 'ihatemysql'

              enc = AESCipher(key, hmac=True).encrypt(text)

              with pytest.raises(SignatureVerificationError) as e:

                  assert AESCipher('differentsecret', hmac=True).decrypt(enc) == ''

              assert 'Encryption signature verification failed' in str(e)

          def test_encryption_with_hmac_with_bad_data(self):

              key = 'secret'

              text = 'ihatemysql'

              enc = AESCipher(key, hmac=True).encrypt(text)

              enc = 'xyz' + enc[3:]

              with pytest.raises(SignatureVerificationError) as e:

                  assert AESCipher(key, hmac=True).decrypt(enc) == text

              assert 'Encryption signature verification failed' in str(e)

          def test_encryption_with_hmac_with_bad_key_not_strict(self):

              key = 'secretstring'

              text = 'ihatemysql'

              enc = AESCipher(key, hmac=True).encrypt(text)

              assert isinstance(AESCipher(

                  'differentsecret', hmac=True, strict_verification=False

              ).decrypt(enc), InvalidDecryptedValue)

      class TestEncryptModule2(object):

          @pytest.mark.parametrize(

              "key, text",

              [

                  ('a', 'short'),

                  ('a'*64, 'too long(trimmed to 32)'),

                  ('a'*32, 'just enough'),

                  ('ąćęćę', 'non asci'),

                  ('$asa$asa', 'special $ used'),

              ]

          )

          def test_encryption(self, key, text):

              enc = Encryptor(key).encrypt(text)

              assert Encryptor(key).decrypt(enc) == text

          def test_encryption_with_bad_key(self):

              key = 'secretstring'

              text = 'ihatemysql'

              enc = Encryptor(key).encrypt(text)

              assert Encryptor('differentsecret').decrypt(enc) == ''

          def test_encryption_with_bad_key_raises(self):

              key = 'secretstring'

              text = 'ihatemysql'

              enc = Encryptor(key).encrypt(text)

              with pytest.raises(InvalidToken) as e:

                  Encryptor('differentsecret').decrypt(enc, safe=False)

              assert 'InvalidToken' in str(e)

          def test_encryption_with_bad_format_data(self):

              key = 'secret'

              text = 'ihatemysql'

              enc = Encryptor(key).encrypt(text)

              enc = '$xyz' + enc[3:]

              with pytest.raises(ValueError) as e:

                  Encryptor(key).decrypt(enc, safe=False)

              assert 'Encrypted Data has invalid format' in str(e)

          def test_encryption_with_bad_data(self):

              key = 'secret'

              text = 'ihatemysql'

              enc = Encryptor(key).encrypt(text)

              enc = enc[:-5]

              with pytest.raises(InvalidToken) as e:

                  Encryptor(key).decrypt(enc, safe=False)

              assert 'InvalidToken' in str(e)

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				# -- coding: utf-8 --

				# Copyright (C) 2010-2019 RhodeCode GmbH
				#
				# This program is free software: you can redistribute it and/or modify
				# it under the terms of the GNU Affero General Public License, version 3
				# (only), as published by the Free Software Foundation.
				#
				# This program is distributed in the hope that it will be useful,
				# but WITHOUT ANY WARRANTY; without even the implied warranty of
				# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
				# GNU General Public License for more details.
				#
				# You should have received a copy of the GNU Affero General Public License
				# along with this program. If not, see <http://www.gnu.org/licenses/>.
				#
				# This program is dual-licensed. If you wish to learn more about the
				# RhodeCode Enterprise Edition, including its added features, Support services,
				# and proprietary license terms, please see https://rhodecode.com/licenses/

				import pytest

				from rhodecode.lib.encrypt import (
				AESCipher, SignatureVerificationError, InvalidDecryptedValue)
				from rhodecode.lib.encrypt2 import (Encryptor, InvalidToken)


				class TestEncryptModule(object):

				@pytest.mark.parametrize(
				"key, text",
				[
				('a', 'short'),
				('a'*64, 'too long(trimmed to 32)'),
				('a'*32, 'just enough'),
				('ąćęćę', 'non asci'),
				('$asa$asa', 'special $ used'),
				]
				)
				def test_encryption(self, key, text):
				enc = AESCipher(key).encrypt(text)
				assert AESCipher(key).decrypt(enc) == text

				def test_encryption_with_hmac(self):
				key = 'secret'
				text = 'ihatemysql'
				enc = AESCipher(key, hmac=True).encrypt(text)
				assert AESCipher(key, hmac=True).decrypt(enc) == text

				def test_encryption_with_hmac_with_bad_key(self):
				key = 'secretstring'
				text = 'ihatemysql'
				enc = AESCipher(key, hmac=True).encrypt(text)

				with pytest.raises(SignatureVerificationError) as e:
				assert AESCipher('differentsecret', hmac=True).decrypt(enc) == ''

				assert 'Encryption signature verification failed' in str(e)

				def test_encryption_with_hmac_with_bad_data(self):
				key = 'secret'
				text = 'ihatemysql'
				enc = AESCipher(key, hmac=True).encrypt(text)
				enc = 'xyz' + enc[3:]
				with pytest.raises(SignatureVerificationError) as e:
				assert AESCipher(key, hmac=True).decrypt(enc) == text

				assert 'Encryption signature verification failed' in str(e)

				def test_encryption_with_hmac_with_bad_key_not_strict(self):
				key = 'secretstring'
				text = 'ihatemysql'
				enc = AESCipher(key, hmac=True).encrypt(text)

				assert isinstance(AESCipher(
				'differentsecret', hmac=True, strict_verification=False
				).decrypt(enc), InvalidDecryptedValue)


				class TestEncryptModule2(object):

				@pytest.mark.parametrize(
				"key, text",
				[
				('a', 'short'),
				('a'*64, 'too long(trimmed to 32)'),
				('a'*32, 'just enough'),
				('ąćęćę', 'non asci'),
				('$asa$asa', 'special $ used'),
				]
				)
				def test_encryption(self, key, text):
				enc = Encryptor(key).encrypt(text)
				assert Encryptor(key).decrypt(enc) == text

				def test_encryption_with_bad_key(self):
				key = 'secretstring'
				text = 'ihatemysql'
				enc = Encryptor(key).encrypt(text)

				assert Encryptor('differentsecret').decrypt(enc) == ''

				def test_encryption_with_bad_key_raises(self):
				key = 'secretstring'
				text = 'ihatemysql'
				enc = Encryptor(key).encrypt(text)

				with pytest.raises(InvalidToken) as e:
				Encryptor('differentsecret').decrypt(enc, safe=False)

				assert 'InvalidToken' in str(e)

				def test_encryption_with_bad_format_data(self):
				key = 'secret'
				text = 'ihatemysql'
				enc = Encryptor(key).encrypt(text)
				enc = '$xyz' + enc[3:]

				with pytest.raises(ValueError) as e:
				Encryptor(key).decrypt(enc, safe=False)

				assert 'Encrypted Data has invalid format' in str(e)

				def test_encryption_with_bad_data(self):
				key = 'secret'
				text = 'ihatemysql'
				enc = Encryptor(key).encrypt(text)
				enc = enc[:-5]

				with pytest.raises(InvalidToken) as e:
				Encryptor(key).decrypt(enc, safe=False)

				assert 'InvalidToken' in str(e)