openmedialibrary_platform_w.../Lib/site-packages/win32/test/test_sspi.py
2016-04-14 21:54:42 +02:00

141 lines
5.4 KiB
Python

# Some tests of the win32security sspi functions.
# Stolen from Roger's original test_sspi.c, a version of which is in "Demos"
# See also the other SSPI demos.
import win32security, sspi, sspicon, win32api
from pywin32_testutil import TestSkipped, testmain, str2bytes
import unittest
# It is quite likely that the Kerberos tests will fail due to not being
# installed. The NTLM tests do *not* get the same behaviour as they should
# always be there.
def applyHandlingSkips(func, *args):
try:
return func(*args)
except win32api.error as exc:
if exc.winerror == sspicon.SEC_E_NO_CREDENTIALS:
raise TestSkipped(exc)
raise
class TestSSPI(unittest.TestCase):
def assertRaisesHRESULT(self, hr, func, *args):
try:
return func(*args)
raise RuntimeError("expecting %s failure" % (hr,))
except win32security.error as exc:
self.failUnlessEqual(exc.winerror, hr)
def _doAuth(self, pkg_name):
sspiclient=sspi.ClientAuth(pkg_name,targetspn=win32api.GetUserName())
sspiserver=sspi.ServerAuth(pkg_name)
sec_buffer=None
err = 1
while err != 0:
err, sec_buffer = sspiclient.authorize(sec_buffer)
err, sec_buffer = sspiserver.authorize(sec_buffer)
return sspiclient, sspiserver
def _doTestImpersonate(self, pkg_name):
# Just for the sake of code exercising!
sspiclient, sspiserver = self._doAuth(pkg_name)
sspiserver.ctxt.ImpersonateSecurityContext()
sspiserver.ctxt.RevertSecurityContext()
def testImpersonateKerberos(self):
applyHandlingSkips(self._doTestImpersonate, "Kerberos")
def testImpersonateNTLM(self):
self._doTestImpersonate("NTLM")
def _doTestEncrypt(self, pkg_name):
sspiclient, sspiserver = self._doAuth(pkg_name)
pkg_size_info=sspiclient.ctxt.QueryContextAttributes(sspicon.SECPKG_ATTR_SIZES)
msg=str2bytes('some data to be encrypted ......')
trailersize=pkg_size_info['SecurityTrailer']
encbuf=win32security.PySecBufferDescType()
encbuf.append(win32security.PySecBufferType(len(msg), sspicon.SECBUFFER_DATA))
encbuf.append(win32security.PySecBufferType(trailersize, sspicon.SECBUFFER_TOKEN))
encbuf[0].Buffer=msg
sspiclient.ctxt.EncryptMessage(0,encbuf,1)
sspiserver.ctxt.DecryptMessage(encbuf,1)
self.failUnlessEqual(msg, encbuf[0].Buffer)
# and test the higher-level functions
data_in = str2bytes("hello")
data, sig = sspiclient.encrypt(data_in)
self.assertEqual(sspiserver.decrypt(data, sig), data_in)
data, sig = sspiserver.encrypt(data_in)
self.assertEqual(sspiclient.decrypt(data, sig), data_in)
def testEncryptNTLM(self):
self._doTestEncrypt("NTLM")
def testEncryptKerberos(self):
applyHandlingSkips(self._doTestEncrypt, "Kerberos")
def _doTestSign(self, pkg_name):
sspiclient, sspiserver = self._doAuth(pkg_name)
pkg_size_info=sspiclient.ctxt.QueryContextAttributes(sspicon.SECPKG_ATTR_SIZES)
msg=str2bytes('some data to be encrypted ......')
sigsize=pkg_size_info['MaxSignature']
sigbuf=win32security.PySecBufferDescType()
sigbuf.append(win32security.PySecBufferType(len(msg), sspicon.SECBUFFER_DATA))
sigbuf.append(win32security.PySecBufferType(sigsize, sspicon.SECBUFFER_TOKEN))
sigbuf[0].Buffer=msg
sspiclient.ctxt.MakeSignature(0,sigbuf,0)
sspiserver.ctxt.VerifySignature(sigbuf,0)
# and test the higher-level functions
sspiclient.next_seq_num = 1
sspiserver.next_seq_num = 1
data = str2bytes("hello")
key = sspiclient.sign(data)
sspiserver.verify(data, key)
key = sspiclient.sign(data)
self.assertRaisesHRESULT(sspicon.SEC_E_MESSAGE_ALTERED,
sspiserver.verify, data + data, key)
# and the other way
key = sspiserver.sign(data)
sspiclient.verify(data, key)
key = sspiserver.sign(data)
self.assertRaisesHRESULT(sspicon.SEC_E_MESSAGE_ALTERED,
sspiclient.verify, data + data, key)
def testSignNTLM(self):
self._doTestSign("NTLM")
def testSignKerberos(self):
applyHandlingSkips(self._doTestSign, "Kerberos")
def _testSequenceSign(self):
# Only Kerberos supports sequence detection.
sspiclient, sspiserver = self._doAuth("Kerberos")
key = sspiclient.sign("hello")
sspiclient.sign("hello")
self.assertRaisesHRESULT(sspicon.SEC_E_OUT_OF_SEQUENCE,
sspiserver.verify, 'hello', key)
def testSequenceSign(self):
applyHandlingSkips(self._testSequenceSign)
def _testSequenceEncrypt(self):
# Only Kerberos supports sequence detection.
sspiclient, sspiserver = self._doAuth("Kerberos")
blob, key = sspiclient.encrypt("hello",)
blob, key = sspiclient.encrypt("hello")
self.assertRaisesHRESULT(sspicon.SEC_E_OUT_OF_SEQUENCE,
sspiserver.decrypt, blob, key)
def testSequenceEncrypt(self):
applyHandlingSkips(self._testSequenceEncrypt)
if __name__=='__main__':
testmain()