# -*- coding: utf-8 -*- # Copyright 2014 Red Hat, Inc. # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. import mock from oslotest import base as test_base import six import testtools import oslo_i18n.fixture from oslo_utils import encodeutils class EncodeUtilsTest(test_base.BaseTestCase): def test_safe_decode(self): safe_decode = encodeutils.safe_decode self.assertRaises(TypeError, safe_decode, True) self.assertEqual(six.u('ni\xf1o'), safe_decode(six.b("ni\xc3\xb1o"), incoming="utf-8")) if six.PY2: # In Python 3, bytes.decode() doesn't support anymore # bytes => bytes encodings like base64 self.assertEqual(six.u("test"), safe_decode("dGVzdA==", incoming='base64')) self.assertEqual(six.u("strange"), safe_decode(six.b('\x80strange'), errors='ignore')) self.assertEqual(six.u('\xc0'), safe_decode(six.b('\xc0'), incoming='iso-8859-1')) # Forcing incoming to ascii so it falls back to utf-8 self.assertEqual(six.u('ni\xf1o'), safe_decode(six.b('ni\xc3\xb1o'), incoming='ascii')) self.assertEqual(six.u('foo'), safe_decode(b'foo')) def test_safe_encode_none_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, None) def test_safe_encode_bool_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, True) def test_safe_encode_int_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, 1) def test_safe_encode_list_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, []) def test_safe_encode_dict_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, {}) def test_safe_encode_tuple_instead_of_text(self): self.assertRaises(TypeError, encodeutils.safe_encode, ('foo', 'bar', )) def test_safe_encode_py2(self): if six.PY2: # In Python 3, str.encode() doesn't support anymore # text => text encodings like base64 self.assertEqual( six.b("dGVzdA==\n"), encodeutils.safe_encode("test", encoding='base64'), ) else: self.skipTest("Requires py2.x") def test_safe_encode_force_incoming_utf8_to_ascii(self): # Forcing incoming to ascii so it falls back to utf-8 self.assertEqual( six.b('ni\xc3\xb1o'), encodeutils.safe_encode(six.b('ni\xc3\xb1o'), incoming='ascii'), ) def test_safe_encode_same_encoding_different_cases(self): with mock.patch.object(encodeutils, 'safe_decode', mock.Mock()): utf8 = encodeutils.safe_encode( six.u('foo\xf1bar'), encoding='utf-8') self.assertEqual( encodeutils.safe_encode(utf8, 'UTF-8', 'utf-8'), encodeutils.safe_encode(utf8, 'utf-8', 'UTF-8'), ) self.assertEqual( encodeutils.safe_encode(utf8, 'UTF-8', 'utf-8'), encodeutils.safe_encode(utf8, 'utf-8', 'utf-8'), ) encodeutils.safe_decode.assert_has_calls([]) def test_safe_encode_different_encodings(self): text = six.u('foo\xc3\xb1bar') result = encodeutils.safe_encode( text=text, incoming='utf-8', encoding='iso-8859-1') self.assertNotEqual(text, result) self.assertNotEqual(six.b("foo\xf1bar"), result) class ExceptionToUnicodeTest(test_base.BaseTestCase): def test_str_exception(self): # The regular Exception class cannot be used directly: # Exception(u'\xe9').__str__() raises an UnicodeEncodeError # on Python 2 class StrException(Exception): def __init__(self, value): Exception.__init__(self) self.value = value def __str__(self): return self.value # On Python 3, an exception which returns bytes with is __str__() # method (like StrException(bytes)) is probably a bug, but it was not # harder to support this silly case in exception_to_unicode(). # Decode from ASCII exc = StrException(b'bytes ascii') self.assertEqual(encodeutils.exception_to_unicode(exc), u'bytes ascii') # Decode from UTF-8 exc = StrException(b'utf-8 \xc3\xa9\xe2\x82\xac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'utf-8 \xe9\u20ac') # Force the locale encoding to ASCII to test the fallback with mock.patch('sys.getfilesystemencoding', return_value='ascii'): # Fallback: decode from ISO-8859-1 exc = StrException(b'rawbytes \x80\xff') self.assertEqual(encodeutils.exception_to_unicode(exc), u'rawbytes \x80\xff') # No conversion needed exc = StrException(u'unicode ascii') self.assertEqual(encodeutils.exception_to_unicode(exc), u'unicode ascii') # No conversion needed exc = StrException(u'unicode \xe9\u20ac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'unicode \xe9\u20ac') # Test the locale encoding with mock.patch('sys.getfilesystemencoding', return_value='koi8_r'): exc = StrException(b'\xf2\xd5\xd3\xd3\xcb\xc9\xca') # Decode from the locale encoding # (the message cannot be decoded from ASCII nor UTF-8) self.assertEqual(encodeutils.exception_to_unicode(exc), u'\u0420\u0443\u0441\u0441\u043a\u0438\u0439') @testtools.skipIf(six.PY3, 'test specific to Python 2') def test_unicode_exception(self): # Exception with a __unicode__() method, but no __str__() class UnicodeException(Exception): def __init__(self, value): Exception.__init__(self) self.value = value def __unicode__(self): return self.value # __unicode__() returns unicode exc = UnicodeException(u'unicode \xe9\u20ac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'unicode \xe9\u20ac') # __unicode__() returns bytes (does this case really happen in the # wild?) exc = UnicodeException(b'utf-8 \xc3\xa9\xe2\x82\xac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'utf-8 \xe9\u20ac') @testtools.skipIf(six.PY3, 'test specific to Python 2') def test_unicode_or_str_exception(self): # Exception with __str__() and __unicode__() methods class UnicodeOrStrException(Exception): def __init__(self, unicode_value, str_value): Exception.__init__(self) self.unicode_value = unicode_value self.str_value = str_value def __unicode__(self): return self.unicode_value def __str__(self): return self.str_value # __unicode__() returns unicode exc = UnicodeOrStrException(u'unicode \xe9\u20ac', b'str') self.assertEqual(encodeutils.exception_to_unicode(exc), u'unicode \xe9\u20ac') # __unicode__() returns bytes (does this case really happen in the # wild?) exc = UnicodeOrStrException(b'utf-8 \xc3\xa9\xe2\x82\xac', b'str') self.assertEqual(encodeutils.exception_to_unicode(exc), u'utf-8 \xe9\u20ac') @testtools.skipIf(six.PY3, 'test specific to Python 2') def test_unicode_only_exception(self): # Exception with a __unicode__() method and a __str__() which # raises an exception (similar to the Message class of oslo_i18n) class UnicodeOnlyException(Exception): def __init__(self, value): Exception.__init__(self) self.value = value def __unicode__(self): return self.value def __str__(self): raise UnicodeError("use unicode()") # __unicode__() returns unicode exc = UnicodeOnlyException(u'unicode \xe9\u20ac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'unicode \xe9\u20ac') # __unicode__() returns bytes exc = UnicodeOnlyException(b'utf-8 \xc3\xa9\xe2\x82\xac') self.assertEqual(encodeutils.exception_to_unicode(exc), u'utf-8 \xe9\u20ac') def test_oslo_i18n_message(self): # use the lazy translation to get a Message instance of oslo_i18n exc = oslo_i18n.fixture.Translation().lazy("test") self.assertEqual(encodeutils.exception_to_unicode(exc), u"test")