Esempio n. 1
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    def test_numeric_inputs(self):

        # Numeric key
        self.assertEqual(safe_key(1, 'prefix', 'version'), 'prefix:version:1')

        # Numeric prefix
        self.assertEqual(safe_key('test', 5, 'version'), '5:version:test')

        # Numeric version
        self.assertEqual(safe_key('test', 'prefix', 5), 'prefix:5:test')
Esempio n. 2
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    def test_numeric_inputs(self):

        # Numeric key
        self.assertEqual(safe_key(1, 'prefix', 'version'), 'prefix:version:1')

        # Numeric prefix
        self.assertEqual(safe_key('test', 5, 'version'), '5:version:test')

        # Numeric version
        self.assertEqual(safe_key('test', 'prefix', 5), 'prefix:5:test')
Esempio n. 3
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    def test_long_key_prefix_version(self):

        # Long key
        key = safe_key('a' * 300, 'prefix', 'version')
        self.assertTrue(self._is_valid_key(key))

        # Long prefix
        key = safe_key('key', 'a' * 300, 'version')
        self.assertTrue(self._is_valid_key(key))

        # Long version
        key = safe_key('key', 'prefix', 'a' * 300)
        self.assertTrue(self._is_valid_key(key))
Esempio n. 4
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    def test_long_key_prefix_version(self):

        # Long key
        key = safe_key('a' * 300, 'prefix', 'version')
        self.assertTrue(self._is_valid_key(key))

        # Long prefix
        key = safe_key('key', 'a' * 300, 'version')
        self.assertTrue(self._is_valid_key(key))

        # Long version
        key = safe_key('key', 'prefix', 'a' * 300)
        self.assertTrue(self._is_valid_key(key))
Esempio n. 5
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    def test_safe_key_version_unicode(self):

        for unicode_char in self.UNICODE_CHAR_CODES:

            # Generate a version with that character
            version = unichr(unicode_char)

            # Make the key safe
            key = safe_key('test', '', version)

            # The key should now be valid
            self.assertTrue(self._is_valid_key(key),
                            msg="Failed for unicode character {0}".format(unicode_char))
Esempio n. 6
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    def test_safe_key_version_unicode(self):

        for unicode_char in self.UNICODE_CHAR_CODES:

            # Generate a version with that character
            version = unichr(unicode_char)

            # Make the key safe
            key = safe_key('test', '', version)

            # The key should now be valid
            self.assertTrue(self._is_valid_key(key),
                            msg="Failed for unicode character {0}".format(unicode_char))
Esempio n. 7
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    def test_safe_key_long(self):

        # Choose lengths close to memcached's cutoff (250)
        for length in [248, 249, 250, 251, 252]:

            # Generate a key of that length
            key = 'a' * length

            # Make the key safe
            key = safe_key(key, '', '')

            # The key should now be valid
            self.assertTrue(self._is_valid_key(key),
                            msg="Failed for key length {0}".format(length))
Esempio n. 8
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    def test_safe_key_long(self):

        # Choose lengths close to memcached's cutoff (250)
        for length in [248, 249, 250, 251, 252]:

            # Generate a key of that length
            key = 'a' * length

            # Make the key safe
            key = safe_key(key, '', '')

            # The key should now be valid
            self.assertTrue(self._is_valid_key(key),
                            msg="Failed for key length {0}".format(length))
Esempio n. 9
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 def test_safe_key(self):
     key = safe_key('test', 'prefix', 'version')
     self.assertEqual(key, 'prefix:version:test')
Esempio n. 10
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 def test_safe_key(self):
     key = safe_key('test', 'prefix', 'version')
     self.assertEqual(key, 'prefix:version:test')