# Simple test suite for http/cookies.py from test.support import run_unittest, run_doctest, check_warnings import unittest from http import cookies import pickle import warnings class CookieTests(unittest.TestCase): def setUp(self): self._warnings_manager = check_warnings() self._warnings_manager.__enter__() warnings.filterwarnings("ignore", ".* class is insecure.*", DeprecationWarning) def tearDown(self): self._warnings_manager.__exit__(None, None, None) def test_basic(self): cases = [ {'data': 'chips=ahoy; vienna=finger', 'dict': {'chips':'ahoy', 'vienna':'finger'}, 'repr': "", 'output': 'Set-Cookie: chips=ahoy\nSet-Cookie: vienna=finger'}, {'data': 'keebler="E=mc2; L=\\"Loves\\"; fudge=\\012;"', 'dict': {'keebler' : 'E=mc2; L="Loves"; fudge=\012;'}, 'repr': '''''', 'output': 'Set-Cookie: keebler="E=mc2; L=\\"Loves\\"; fudge=\\012;"'}, # Check illegal cookies that have an '=' char in an unquoted value {'data': 'keebler=E=mc2', 'dict': {'keebler' : 'E=mc2'}, 'repr': "", 'output': 'Set-Cookie: keebler=E=mc2'}, # Cookies with ':' character in their name. Though not mentioned in # RFC, servers / browsers allow it. {'data': 'key:term=value:term', 'dict': {'key:term' : 'value:term'}, 'repr': "", 'output': 'Set-Cookie: key:term=value:term'}, ] for case in cases: C = cookies.SimpleCookie() C.load(case['data']) self.assertEqual(repr(C), case['repr']) self.assertEqual(C.output(sep='\n'), case['output']) for k, v in sorted(case['dict'].items()): self.assertEqual(C[k].value, v) def test_load(self): C = cookies.SimpleCookie() C.load('Customer="WILE_E_COYOTE"; Version=1; Path=/acme') self.assertEqual(C['Customer'].value, 'WILE_E_COYOTE') self.assertEqual(C['Customer']['version'], '1') self.assertEqual(C['Customer']['path'], '/acme') self.assertEqual(C.output(['path']), 'Set-Cookie: Customer="WILE_E_COYOTE"; Path=/acme') self.assertEqual(C.js_output(), r""" """) self.assertEqual(C.js_output(['path']), r""" """) def test_extended_encode(self): # Issue 9824: some browsers don't follow the standard; we now # encode , and ; to keep them from tripping up. C = cookies.SimpleCookie() C['val'] = "some,funky;stuff" self.assertEqual(C.output(['val']), 'Set-Cookie: val="some\\054funky\\073stuff"') def test_special_attrs(self): # 'expires' C = cookies.SimpleCookie('Customer="WILE_E_COYOTE"') C['Customer']['expires'] = 0 # can't test exact output, it always depends on current date/time self.assertTrue(C.output().endswith('GMT')) # loading 'expires' C = cookies.SimpleCookie() C.load('Customer="W"; expires=Wed, 01 Jan 2010 00:00:00 GMT') self.assertEqual(C['Customer']['expires'], 'Wed, 01 Jan 2010 00:00:00 GMT') C = cookies.SimpleCookie() C.load('Customer="W"; expires=Wed, 01 Jan 98 00:00:00 GMT') self.assertEqual(C['Customer']['expires'], 'Wed, 01 Jan 98 00:00:00 GMT') # 'max-age' C = cookies.SimpleCookie('Customer="WILE_E_COYOTE"') C['Customer']['max-age'] = 10 self.assertEqual(C.output(), 'Set-Cookie: Customer="WILE_E_COYOTE"; Max-Age=10') def test_set_secure_httponly_attrs(self): C = cookies.SimpleCookie('Customer="WILE_E_COYOTE"') C['Customer']['secure'] = True C['Customer']['httponly'] = True self.assertEqual(C.output(), 'Set-Cookie: Customer="WILE_E_COYOTE"; httponly; secure') def test_secure_httponly_false_if_not_present(self): C = cookies.SimpleCookie() C.load('eggs=scrambled; Path=/bacon') self.assertFalse(C['eggs']['httponly']) self.assertFalse(C['eggs']['secure']) def test_secure_httponly_true_if_present(self): # Issue 16611 C = cookies.SimpleCookie() C.load('eggs=scrambled; httponly; secure; Path=/bacon') self.assertTrue(C['eggs']['httponly']) self.assertTrue(C['eggs']['secure']) def test_secure_httponly_true_if_have_value(self): # This isn't really valid, but demonstrates what the current code # is expected to do in this case. C = cookies.SimpleCookie() C.load('eggs=scrambled; httponly=foo; secure=bar; Path=/bacon') self.assertTrue(C['eggs']['httponly']) self.assertTrue(C['eggs']['secure']) # Here is what it actually does; don't depend on this behavior. These # checks are testing backward compatibility for issue 16611. self.assertEqual(C['eggs']['httponly'], 'foo') self.assertEqual(C['eggs']['secure'], 'bar') def test_extra_spaces(self): C = cookies.SimpleCookie() C.load('eggs = scrambled ; secure ; path = bar ; foo=foo ') self.assertEqual(C.output(), 'Set-Cookie: eggs=scrambled; Path=bar; secure\r\nSet-Cookie: foo=foo') def test_quoted_meta(self): # Try cookie with quoted meta-data C = cookies.SimpleCookie() C.load('Customer="WILE_E_COYOTE"; Version="1"; Path="/acme"') self.assertEqual(C['Customer'].value, 'WILE_E_COYOTE') self.assertEqual(C['Customer']['version'], '1') self.assertEqual(C['Customer']['path'], '/acme') self.assertEqual(C.output(['path']), 'Set-Cookie: Customer="WILE_E_COYOTE"; Path=/acme') self.assertEqual(C.js_output(), r""" """) self.assertEqual(C.js_output(['path']), r""" """) def test_invalid_cookies(self): # Accepting these could be a security issue C = cookies.SimpleCookie() for s in (']foo=x', '[foo=x', 'blah]foo=x', 'blah[foo=x', 'Set-Cookie: foo=bar', 'Set-Cookie: foo', 'foo=bar; baz', 'baz; foo=bar', 'secure;foo=bar', 'Version=1;foo=bar'): C.load(s) self.assertEqual(dict(C), {}) self.assertEqual(C.output(), '') def test_pickle(self): rawdata = 'Customer="WILE_E_COYOTE"; Path=/acme; Version=1' expected_output = 'Set-Cookie: %s' % rawdata C = cookies.SimpleCookie() C.load(rawdata) self.assertEqual(C.output(), expected_output) for proto in range(pickle.HIGHEST_PROTOCOL + 1): with self.subTest(proto=proto): C1 = pickle.loads(pickle.dumps(C, protocol=proto)) self.assertEqual(C1.output(), expected_output) class MorselTests(unittest.TestCase): """Tests for the Morsel object.""" def test_reserved_keys(self): M = cookies.Morsel() # tests valid and invalid reserved keys for Morsels for i in M._reserved: # Test that all valid keys are reported as reserved and set them self.assertTrue(M.isReservedKey(i)) M[i] = '%s_value' % i for i in M._reserved: # Test that valid key values come out fine self.assertEqual(M[i], '%s_value' % i) for i in "the holy hand grenade".split(): # Test that invalid keys raise CookieError self.assertRaises(cookies.CookieError, M.__setitem__, i, '%s_value' % i) def test_setter(self): M = cookies.Morsel() # tests the .set method to set keys and their values for i in M._reserved: # Makes sure that all reserved keys can't be set this way self.assertRaises(cookies.CookieError, M.set, i, '%s_value' % i, '%s_value' % i) for i in "thou cast _the- !holy! ^hand| +*grenade~".split(): # Try typical use case. Setting decent values. # Check output and js_output. M['path'] = '/foo' # Try a reserved key as well M.set(i, "%s_val" % i, "%s_coded_val" % i) self.assertEqual( M.output(), "Set-Cookie: %s=%s; Path=/foo" % (i, "%s_coded_val" % i)) expected_js_output = """ """ % (i, "%s_coded_val" % i) self.assertEqual(M.js_output(), expected_js_output) for i in ["foo bar", "foo@bar"]: # Try some illegal characters self.assertRaises(cookies.CookieError, M.set, i, '%s_value' % i, '%s_value' % i) def test_main(): run_unittest(CookieTests, MorselTests) run_doctest(cookies) if __name__ == '__main__': test_main()