# Copyright (c) Frederick Dean # See LICENSE for details. """ Unit tests for :py:obj:`OpenSSL.rand`. """ from unittest import main import os import stat import sys from OpenSSL.test.util import NON_ASCII, TestCase, b from OpenSSL import rand class RandTests(TestCase): def test_bytes_wrong_args(self): """ :py:obj:`OpenSSL.rand.bytes` raises :py:obj:`TypeError` if called with the wrong number of arguments or with a non-:py:obj:`int` argument. """ self.assertRaises(TypeError, rand.bytes) self.assertRaises(TypeError, rand.bytes, None) self.assertRaises(TypeError, rand.bytes, 3, None) def test_insufficientMemory(self): """ :py:obj:`OpenSSL.rand.bytes` raises :py:obj:`MemoryError` if more bytes are requested than will fit in memory. """ self.assertRaises(MemoryError, rand.bytes, sys.maxsize) def test_bytes(self): """ Verify that we can obtain bytes from rand_bytes() and that they are different each time. Test the parameter of rand_bytes() for bad values. """ b1 = rand.bytes(50) self.assertEqual(len(b1), 50) b2 = rand.bytes(num_bytes=50) # parameter by name self.assertNotEqual(b1, b2) # Hip, Hip, Horay! FIPS complaince b3 = rand.bytes(num_bytes=0) self.assertEqual(len(b3), 0) exc = self.assertRaises(ValueError, rand.bytes, -1) self.assertEqual(str(exc), "num_bytes must not be negative") def test_add_wrong_args(self): """ When called with the wrong number of arguments, or with arguments not of type :py:obj:`str` and :py:obj:`int`, :py:obj:`OpenSSL.rand.add` raises :py:obj:`TypeError`. """ self.assertRaises(TypeError, rand.add) self.assertRaises(TypeError, rand.add, b("foo"), None) self.assertRaises(TypeError, rand.add, None, 3) self.assertRaises(TypeError, rand.add, b("foo"), 3, None) def test_add(self): """ :py:obj:`OpenSSL.rand.add` adds entropy to the PRNG. """ rand.add(b('hamburger'), 3) def test_seed_wrong_args(self): """ When called with the wrong number of arguments, or with a non-:py:obj:`str` argument, :py:obj:`OpenSSL.rand.seed` raises :py:obj:`TypeError`. """ self.assertRaises(TypeError, rand.seed) self.assertRaises(TypeError, rand.seed, None) self.assertRaises(TypeError, rand.seed, b("foo"), None) def test_seed(self): """ :py:obj:`OpenSSL.rand.seed` adds entropy to the PRNG. """ rand.seed(b('milk shake')) def test_status_wrong_args(self): """ :py:obj:`OpenSSL.rand.status` raises :py:obj:`TypeError` when called with any arguments. """ self.assertRaises(TypeError, rand.status, None) def test_status(self): """ :py:obj:`OpenSSL.rand.status` returns :py:obj:`True` if the PRNG has sufficient entropy, :py:obj:`False` otherwise. """ # It's hard to know what it is actually going to return. Different # OpenSSL random engines decide differently whether they have enough # entropy or not. self.assertTrue(rand.status() in (1, 2)) def test_egd_wrong_args(self): """ :py:obj:`OpenSSL.rand.egd` raises :py:obj:`TypeError` when called with the wrong number of arguments or with arguments not of type :py:obj:`str` and :py:obj:`int`. """ self.assertRaises(TypeError, rand.egd) self.assertRaises(TypeError, rand.egd, None) self.assertRaises(TypeError, rand.egd, "foo", None) self.assertRaises(TypeError, rand.egd, None, 3) self.assertRaises(TypeError, rand.egd, "foo", 3, None) def test_egd_missing(self): """ :py:obj:`OpenSSL.rand.egd` returns :py:obj:`0` or :py:obj:`-1` if the EGD socket passed to it does not exist. """ result = rand.egd(self.mktemp()) expected = (-1, 0) self.assertTrue( result in expected, "%r not in %r" % (result, expected)) def test_egd_missing_and_bytes(self): """ :py:obj:`OpenSSL.rand.egd` returns :py:obj:`0` or :py:obj:`-1` if the EGD socket passed to it does not exist even if a size argument is explicitly passed. """ result = rand.egd(self.mktemp(), 1024) expected = (-1, 0) self.assertTrue( result in expected, "%r not in %r" % (result, expected)) def test_cleanup_wrong_args(self): """ :py:obj:`OpenSSL.rand.cleanup` raises :py:obj:`TypeError` when called with any arguments. """ self.assertRaises(TypeError, rand.cleanup, None) def test_cleanup(self): """ :py:obj:`OpenSSL.rand.cleanup` releases the memory used by the PRNG and returns :py:obj:`None`. """ self.assertIdentical(rand.cleanup(), None) def test_load_file_wrong_args(self): """ :py:obj:`OpenSSL.rand.load_file` raises :py:obj:`TypeError` when called the wrong number of arguments or arguments not of type :py:obj:`str` and :py:obj:`int`. """ self.assertRaises(TypeError, rand.load_file) self.assertRaises(TypeError, rand.load_file, "foo", None) self.assertRaises(TypeError, rand.load_file, None, 1) self.assertRaises(TypeError, rand.load_file, "foo", 1, None) def test_write_file_wrong_args(self): """ :py:obj:`OpenSSL.rand.write_file` raises :py:obj:`TypeError` when called with the wrong number of arguments or a non-:py:obj:`str` argument. """ self.assertRaises(TypeError, rand.write_file) self.assertRaises(TypeError, rand.write_file, None) self.assertRaises(TypeError, rand.write_file, "foo", None) def _read_write_test(self, path): """ Verify that ``rand.write_file`` and ``rand.load_file`` can be used. """ # Create the file so cleanup is more straightforward with open(path, "w"): pass try: # Write random bytes to a file rand.write_file(path) # Verify length of written file size = os.stat(path)[stat.ST_SIZE] self.assertEqual(1024, size) # Read random bytes from file rand.load_file(path) rand.load_file(path, 4) # specify a length finally: # Cleanup os.unlink(path) def test_bytes_paths(self): """ Random data can be saved and loaded to files with paths specified as bytes. """ path = self.mktemp() path += NON_ASCII.encode(sys.getfilesystemencoding()) self._read_write_test(path) def test_unicode_paths(self): """ Random data can be saved and loaded to files with paths specified as unicode. """ path = self.mktemp().decode('utf-8') + NON_ASCII self._read_write_test(path) if __name__ == '__main__': main()