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# Copyright (C) 2013-2014 science + computing ag
# Author: Sebastian Deiss <sebastian.deiss@t-online.de>
#
#
# This file is part of paramiko.
#
# Paramiko is free software; you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation; either version 2.1 of the License, or (at your option)
# any later version.
#
# Paramiko is distributed in the hope that it will be useful, but WITHOUT ANY
# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
# A PARTICULAR PURPOSE.  See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with Paramiko; if not, write to the Free Software Foundation, Inc.,
# 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA.

"""
Test the used APIs for GSS-API / SSPI authentication
"""

import unittest
import socket

from .util import needs_gssapi


@needs_gssapi
class GSSAPITest(unittest.TestCase):
    def setup():
        # TODO: these vars should all come from os.environ or whatever the
        # approved pytest method is for runtime-configuring test data.
        self.krb5_mech = "1.2.840.113554.1.2.2"
        self.targ_name = "hostname"
        self.server_mode = False

    def test_1_pyasn1(self):
        """
        Test the used methods of pyasn1.
        """
        from pyasn1.type.univ import ObjectIdentifier
        from pyasn1.codec.der import encoder, decoder

        oid = encoder.encode(ObjectIdentifier(self.krb5_mech))
        mech, __ = decoder.decode(oid)
        self.assertEquals(self.krb5_mech, mech.__str__())

    def test_2_gssapi_sspi(self):
        """
        Test the used methods of python-gssapi or sspi, sspicon from pywin32.
        """
        _API = "MIT"
        try:
            import gssapi
        except ImportError:
            import sspicon
            import sspi

            _API = "SSPI"

        c_token = None
        gss_ctxt_status = False
        mic_msg = b"G'day Mate!"

        if _API == "MIT":
            if self.server_mode:
                gss_flags = (
                    gssapi.C_PROT_READY_FLAG,
                    gssapi.C_INTEG_FLAG,
                    gssapi.C_MUTUAL_FLAG,
                    gssapi.C_DELEG_FLAG,
                )
            else:
                gss_flags = (
                    gssapi.C_PROT_READY_FLAG,
                    gssapi.C_INTEG_FLAG,
                    gssapi.C_DELEG_FLAG,
                )
            # Initialize a GSS-API context.
            ctx = gssapi.Context()
            ctx.flags = gss_flags
            krb5_oid = gssapi.OID.mech_from_string(self.krb5_mech)
            target_name = gssapi.Name(
                "host@" + self.targ_name, gssapi.C_NT_HOSTBASED_SERVICE
            )
            gss_ctxt = gssapi.InitContext(
                peer_name=target_name, mech_type=krb5_oid, req_flags=ctx.flags
            )
            if self.server_mode:
                c_token = gss_ctxt.step(c_token)
                gss_ctxt_status = gss_ctxt.established
                self.assertEquals(False, gss_ctxt_status)
                # Accept a GSS-API context.
                gss_srv_ctxt = gssapi.AcceptContext()
                s_token = gss_srv_ctxt.step(c_token)
                gss_ctxt_status = gss_srv_ctxt.established
                self.assertNotEquals(None, s_token)
                self.assertEquals(True, gss_ctxt_status)
                # Establish the client context
                c_token = gss_ctxt.step(s_token)
                self.assertEquals(None, c_token)
            else:
                while not gss_ctxt.established:
                    c_token = gss_ctxt.step(c_token)
                self.assertNotEquals(None, c_token)
            # Build MIC
            mic_token = gss_ctxt.get_mic(mic_msg)

            if self.server_mode:
                # Check MIC
                status = gss_srv_ctxt.verify_mic(mic_msg, mic_token)
                self.assertEquals(0, status)
        else:
            gss_flags = (
                sspicon.ISC_REQ_INTEGRITY
                | sspicon.ISC_REQ_MUTUAL_AUTH
                | sspicon.ISC_REQ_DELEGATE
            )
            # Initialize a GSS-API context.
            target_name = "host/" + socket.getfqdn(self.targ_name)
            gss_ctxt = sspi.ClientAuth(
                "Kerberos", scflags=gss_flags, targetspn=target_name
            )
            if self.server_mode:
                error, token = gss_ctxt.authorize(c_token)
                c_token = token[0].Buffer
                self.assertEquals(0, error)
                # Accept a GSS-API context.
                gss_srv_ctxt = sspi.ServerAuth("Kerberos", spn=target_name)
                error, token = gss_srv_ctxt.authorize(c_token)
                s_token = token[0].Buffer
                # Establish the context.
                error, token = gss_ctxt.authorize(s_token)
                c_token = token[0].Buffer
                self.assertEquals(None, c_token)
                self.assertEquals(0, error)
                # Build MIC
                mic_token = gss_ctxt.sign(mic_msg)
                # Check MIC
                gss_srv_ctxt.verify(mic_msg, mic_token)
            else:
                error, token = gss_ctxt.authorize(c_token)
                c_token = token[0].Buffer
                self.assertNotEquals(0, error)