Ejemplo n.º 1
0
    def test_issuer_mismatch(self):
        ISSUER = "https://login.microsoftonline.com/b4ea3de6-839e-4ad1-ae78-c78e5c0cdc06/v2.0/"
        kb = KeyBundle(JWK2["keys"])
        kj = KeyJar()
        kj.issuer_keys[ISSUER] = [kb]
        kj.issuer_keys[""] = []

        authz_resp = AuthorizationResponse().from_urlencoded(
            "id_token=eyJ0eXAiOiJKV1QiLCJhbGciOiJSUzI1NiIsIng1dCI6Ik1uQ19WWmNBVGZNNXBPWWlKSE1iYTlnb0VLWSIsImtpZCI6Ik1u"
            "Q19WWmNBVGZNNXBPWWlKSE1iYTlnb0VLWSJ9.eyJhdWQiOiIwMTZlZDBlNC1mYzUyLTRlYjgtOWVhYy1lODg1MmM4MjEwNTUiLCJpc3Mi"
            "OiJodHRwczovL2xvZ2luLm1pY3Jvc29mdG9ubGluZS5jb20vYjRlYTNkZTYtODM5ZS00YWQxLWFlNzgtYzc4ZTVjMGNkYzA2L3YyLjAvI"
            "iwiaWF0IjoxNDM5OTIzNDY5LCJuYmYiOjE0Mzk5MjM0NjksImV4cCI6MTQzOTkyNzM2OSwidmVyIjoiMi4wIiwidGlkIjoiYjRlYTNkZT"
            "YtODM5ZS00YWQxLWFlNzgtYzc4ZTVjMGNkYzA2Iiwib2lkIjoiNDJjMzliNWUtYmQwNS00YTlhLTlhNWUtMTY5ZDc2N2ZlZjJmIiwicHJ"
            "lZmVycmVkX3VzZXJuYW1lIjoiaW50ZXJvcEBrYXV0aS5vbm1pY3Jvc29mdC5jb20iLCJzdWIiOiJFWGlaVldjakpsREN1LXZzOUxNb1V3"
            "ZGRNNEJZZ2ZISzBJNk40dWpXZkRFIiwibmFtZSI6ImludGVyb3AiLCJub25jZSI6IlpkSHRxQWwzR3c4QiJ9.tH4FKM4H9YCHX2XF4V64"
            "SsLaKh31c0oLpEVlFxFHw8jxL5HujUthZJDUMwngXZ2mPU_1G152ybKiRCV9DKaBh1rFSlZxTDBp0SV_YTwOkGYOt-sOzFUJyvVCjGmRh"
            "vFkOF1kiT3IYjDoRh72U8pMchj1duWSytLczdOc4LJmg24ya5jwqApuyQu7gVqoDH1kEqBAuhBj3a7ZDwxIt-bTKZklsht0RutZjv4Ckg"
            "8qJpzWnY7rIjSKFKfEpAAfk_LqWvTktvDMKTHXLxEPVZymoskE1LthtC8AYoNmtVPxgxf87yGCqYZBsuAnVChdnsItXP7tPeqUjC8Lm3J"
            "jabV-5g&id_token_expires_in=3599&state=6o3FmQ0QZl1zifsE&session_state=d2c97e8a-497c-4ce1-bb10-5058501164eb"
        )

        try:
            authz_resp.verify(keyjar=kj, skew=100000000)
        except MissingSigningKey:
            authz_resp.verify(keyjar=kj, sender=ISSUER, skew=100000000)
Ejemplo n.º 2
0
    def __init__(
        self,
        name,
        sdb,
        cdb,
        userinfo,
        client_authn,
        urlmap=None,
        ca_certs="",
        keyjar=None,
        hostname="",
        dist_claims_mode=None,
    ):
        Provider.__init__(
            self, name, sdb, cdb, None, userinfo, None, client_authn, "", urlmap, ca_certs, keyjar, hostname
        )

        if keyjar is None:
            keyjar = KeyJar(ca_certs)

        for cid, _dic in cdb.items():
            try:
                keyjar.add_symmetric(cid, _dic["client_secret"], ["sig", "ver"])
            except KeyError:
                pass

        self.srvmethod = OICCServer(keyjar=keyjar)
        self.dist_claims_mode = dist_claims_mode
        self.info_store = {}
        self.claims_userinfo_endpoint = ""
Ejemplo n.º 3
0
def init_keyjar():
    # Keys that are kept by the AS
    kb = KeyBundle()
    kb.do_keys(JWKS["keys"])
    keyjar = KeyJar()
    keyjar.add_kb('', kb)
    return keyjar
Ejemplo n.º 4
0
def test_verify_id_token_at_hash_and_chash():
    token = 'AccessTokenWhichCouldBeASignedJWT'
    at_hash = left_hash(token)
    code = 'AccessCode1'
    c_hash = left_hash(code)

    idt = IdToken(**{
        "sub": "553df2bcf909104751cfd8b2",
        "aud": [
            "5542958437706128204e0000",
            "554295ce3770612820620000"
            ],
        "auth_time": 1441364872,
        "azp": "554295ce3770612820620000",
        "at_hash": at_hash,
        'c_hash': c_hash
        })

    kj = KeyJar()
    kj.add_symmetric("", 'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    kj.add_symmetric("https://sso.qa.7pass.ctf.prosiebensat1.com",
                     'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    packer = JWT(kj, sign_alg='HS256',
                 iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                 lifetime=3600)
    _jws = packer.pack(**idt.to_dict())
    msg = AuthorizationResponse(access_token=token, id_token=_jws, code=code)
    verify_id_token(msg, check_hash=True, keyjar=kj,
                    iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                    client_id="554295ce3770612820620000")
Ejemplo n.º 5
0
    def create_token(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[''] = [kb]

        self.access_token = JWTToken(
            'T', keyjar=kj, iss='https://example.com/as', sign_alg='RS256')
Ejemplo n.º 6
0
 def test_get_inactive_ver(self):
     ks = KeyJar()
     ks['http://example.com'] = KeyBundle([{"kty": "oct", "key": "a1b2c3d4", "use": "sig"},
                                           {"kty": "oct", "key": "a1b2c3d4", "use": "ver"}])
     ks['http://example.com'][0]._keys[1].inactive_since = 1
     key = ks.get_verify_key(owner='http://example.com')
     assert len(key) == 2
Ejemplo n.º 7
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def test_verify_id_token_missing_c_hash():
    code = 'AccessCode1'

    idt = IdToken(**{
        "sub": "553df2bcf909104751cfd8b2",
        "aud": [
            "5542958437706128204e0000",
            "554295ce3770612820620000"
            ],
        "auth_time": 1441364872,
        "azp": "554295ce3770612820620000",
        })

    kj = KeyJar()
    kj.add_symmetric("", 'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    kj.add_symmetric("https://sso.qa.7pass.ctf.prosiebensat1.com",
                     'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    packer = JWT(kj, sign_alg='HS256',
                 iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                 lifetime=3600)
    _jws = packer.pack(**idt.to_dict())
    msg = AuthorizationResponse(code=code, id_token=_jws)
    with pytest.raises(MissingRequiredAttribute):
        verify_id_token(msg, check_hash=True, keyjar=kj,
                        iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                        client_id="554295ce3770612820620000")
Ejemplo n.º 8
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def test_verify_id_token_at_hash_fail():
    token = 'AccessTokenWhichCouldBeASignedJWT'
    token2 = 'ACompletelyOtherAccessToken'
    lhsh = left_hash(token)

    idt = IdToken(**{
        "sub": "553df2bcf909104751cfd8b2",
        "aud": [
            "5542958437706128204e0000",
            "554295ce3770612820620000"
            ],
        "auth_time": 1441364872,
        "azp": "554295ce3770612820620000",
        "at_hash": lhsh
        })

    kj = KeyJar()
    kj.add_symmetric("", 'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    kj.add_symmetric("https://sso.qa.7pass.ctf.prosiebensat1.com",
                     'dYMmrcQksKaPkhdgRNYk3zzh5l7ewdDJ', ['sig'])
    packer = JWT(kj, sign_alg='HS256',
                 iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                 lifetime=3600)
    _jws = packer.pack(**idt.to_dict())
    msg = AuthorizationResponse(access_token=token2, id_token=_jws)
    with pytest.raises(AtHashError):
        verify_id_token(msg, check_hash=True, keyjar=kj,
                        iss="https://sso.qa.7pass.ctf.prosiebensat1.com",
                        client_id="554295ce3770612820620000")
Ejemplo n.º 9
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def test_pkce_token():
    kb = KeyBundle(JWKS["keys"])
    kj = KeyJar()
    kj.issuer_keys[''] = [kb]
    constructor = JWTToken('A', keyjar=kj, lt_pattern={'': 900},
                           iss='https://example.com/as', sign_alg='RS256',
                           encrypt=True)

    sid = rndstr(32)
    session_info = {
        'sub': 'subject_id',
        'client_id': 'https://example.com/rp',
        'response_type': ['code'],
        'authzreq': '{}'
    }

    _cli = Client(config={'code_challenge': {'method': 'S512', 'length': 96}})
    args, cv = _cli.add_code_challenge()

    access_grant = constructor(
        sid, sinfo=session_info, kid='sign1',
        code_challenge=args['code_challenge'],
        code_challenge_method=args['code_challenge_method'])

    _info = constructor.get_info(access_grant)
    assert _info['code_challenge_method'] == args['code_challenge_method']
    assert _info['code_challenge'] == args['code_challenge']
Ejemplo n.º 10
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    def create_sdb(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[''] = [kb]

        self.token = JWTToken('T', {'code': 3600, 'token': 900},
                              'https://example.com/as', 'RS256', kj)
Ejemplo n.º 11
0
    def _create_op(self, issuer, endpoint_baseurl, jwks_uri):
        """
        Create the necessary Provider instance.
        :type issuer: str
        :type endpoint_baseurl: str
        :type jwks_uri: str
        :param issuer: issuer URL for the OP
        :param endpoint_baseurl: baseurl to build endpoint URL from
        :param jwks_uri: URL to where the JWKS will be published
        """
        kj = KeyJar()
        signing_key = KeyBundle(source="file://{}".format(self.conf["signing_key_path"]),
                                fileformat="der", keyusage=["sig"])
        kj.add_kb("", signing_key)
        capabilities = {
            "response_types_supported": ["id_token"],
            "id_token_signing_alg_values_supported": [self.sign_alg],
            "response_modes_supported": ["fragment", "query"],
            "subject_types_supported": ["public", "pairwise"],
            "grant_types_supported": ["implicit"],
            "claim_types_supported": ["normal"],
            "claims_parameter_supported": True,
            "request_parameter_supported": False,
            "request_uri_parameter_supported": False,
        }

        if "client_db_path" in self.conf:
            cdb = shelve_wrapper.open(self.conf["client_db_path"])
        else:
            cdb = {}  # client db in memory only

        self.provider = Provider(issuer, None, cdb, None, None, None, None, None, keyjar=kj,
                                 capabilities=capabilities, jwks_uri=jwks_uri)
        self.provider.baseurl = endpoint_baseurl
        self.provider.endp = [RegistrationEndpoint, AuthorizationEndpoint]
Ejemplo n.º 12
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    def create_token(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[''] = [kb]

        self.access_token = JWTToken('T', keyjar=kj,
                              lt_pattern={'code': 3600, 'token': 900},
                              iss='https://example.com/as', encrypt=True)
Ejemplo n.º 13
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def test_kid_usage():
    kb = keybundle_from_local_file("file://jwk.json", "jwk", ["ver", "sig"])
    kj = KeyJar()
    kj.issuer_keys["https://example.com"] = [kb]

    _key = kj.get_key_by_kid("abc", "https://example.com")
    assert _key
    assert _key.kid == "abc"
Ejemplo n.º 14
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    def create_token(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[""] = [kb]

        self.token = JWTToken(
            "T", keyjar=kj, lifetime={"code": 3600, "token": 900}, iss="https://example.com/as", sign_alg="RS256"
        )
Ejemplo n.º 15
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    def test_get_inactive_sig_for_ver(self):
        """get_verify_key can return inactive `sig` key."""
        ks = KeyJar()
        ks['http://example.com'] = KeyBundle([{"kty": "oct", "key": "a1b2c3d4", "use": "sig"}])
        ks['http://example.com'][0]._keys[0].inactive_since = 1
        key = ks.get_verify_key(owner='http://example.com')

        assert len(key) == 1
Ejemplo n.º 16
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    def test_provider(self):
        provider_info = {
            "jwks_uri": "https://connect-op.herokuapp.com/jwks.json",
        }

        ks = KeyJar()
        ks.load_keys(provider_info, "https://connect-op.heroku.com")

        assert ks["https://connect-op.heroku.com"][0].keys()
Ejemplo n.º 17
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def test_local_jwk_file():
    kb = keybundle_from_local_file("file://jwk.json", "jwk", ["ver", "sig"])
    assert len(kb) == 1
    kj = KeyJar()
    kj.issuer_keys[""] = [kb]
    keys = kj.get_signing_key()
    assert len(keys) == 1
    key = keys[0]
    assert isinstance(key, RSAKey)
    assert key.kid == "abc"
Ejemplo n.º 18
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    def create_sdb(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[""] = [kb]

        self.sdb = SessionDB(
            "https://example.com/",
            token_factory=JWTToken(
                "T", keyjar=kj, lifetime={"code": 3600, "token": 900}, iss="https://example.com/as", sign_alg="RS256"
            ),
            refresh_token_factory=JWTToken("R", keyjar=kj, lifetime={"": 24 * 3600}, iss="https://example.com/as"),
        )
Ejemplo n.º 19
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    def create_sdb(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[''] = [kb]

        self.sdb = SessionDB(
            "https://example.com/",
            token_factory=JWTToken('T', {'code': 3600, 'token': 900},
                                   'https://example.com/as', 'RS256', kj),
            refresh_token_factory=JWTToken(
                'R', {'': 24*3600}, 'https://example.com/as', 'RS256', kj)
        )
Ejemplo n.º 20
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def test_signing():
    kb = keybundle_from_local_file("file://jwk.json", "jwk", ["ver", "sig"])
    assert len(kb) == 1
    kj = KeyJar()
    kj.issuer_keys[""] = [kb]
    keys = kj.get_signing_key()
    payload = "Please take a moment to register today"
    _jws = JWS(payload, alg="RS512")
    try:
        _jwt = _jws.sign_compact(keys)
        assert False
    except (NoSuitableSigningKeys, WrongTypeOfKey):
        assert True
Ejemplo n.º 21
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    def create_provider(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[""] = [kb]

        _sdb = SessionDB(
            "https://example.com/",
            token_factory=JWTToken(
                "T", keyjar=kj, lifetime={"code": 3600, "token": 900}, iss="https://example.com/as", sign_alg="RS256"
            ),
            refresh_token_factory=JWTToken("R", keyjar=kj, lifetime={"": 24 * 3600}, iss="https://example.com/as"),
        )
        #  name, sdb, cdb, authn_broker, authz, client_authn,
        self.provider = Provider("as", _sdb, CDB, AUTHN_BROKER, AUTHZ, verify_client, baseurl="https://example.com/as")
Ejemplo n.º 22
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def test_keyjar_pairkeys():
    ks = KeyJar()
    ks[""] = KeyBundle([{"kty": "oct", "key": "a1b2c3d4", "use": "sig"},
                        {"kty": "oct", "key": "a1b2c3d4", "use": "ver"}])
    ks["http://www.example.org"] = KeyBundle([
        {"kty": "oct", "key": "e5f6g7h8", "use": "sig"},
        {"kty": "oct", "key": "e5f6g7h8", "use": "ver"}])
    ks["http://www.example.org"].append(
        keybundle_from_local_file(RSAKEY, "rsa", ["ver", "sig"]))

    collection = ks.verify_keys("http://www.example.org")
    assert len(collection) == 3
    assert len([k for k in collection if k.kty == "oct"]) == 2
    assert len([k for k in collection if k.kty == "RSA"]) == 1
Ejemplo n.º 23
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def test_keyjar_pairkeys():
    ks = KeyJar()
    ks[""] = KeyBundle({"hmac": "a1b2c3d4"}, usage=["sig", "ver"])
    ks["http://www.example.org"] = KeyBundle({"hmac": "e5f6g7h8"},
                                            usage=["sig", "ver"])
    ks["http://www.example.org"].append(KeyBundle({"rsa": "-rsa-key-"},
                                                 usage=["enc", "dec"]))

    ks["http://www.example.org"].append(KeyBundle({"rsa": "i9j10k11l12"},
                                                 usage=["sig", "ver"]))

    collection = ks.verify_keys("http://www.example.org")

    assert _eq(collection.keys(), ["hmac", "rsa"])
Ejemplo n.º 24
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def test_signing():
    # Signing is only possible if key is a private RSA key
    kb = keybundle_from_local_file("rsa.key", "rsa", ["ver", "sig"])
    assert len(kb) == 2
    kj = KeyJar()
    kj.issuer_keys[""] = [kb]
    keys = kj.get_signing_key()
    payload = "Please take a moment to register today"
    _jws = JWS(payload, alg="RS512")
    try:
        _jwt = _jws.sign_compact(keys)
        assert True
    except (NoSuitableSigningKeys, WrongTypeOfKey):
        assert False
Ejemplo n.º 25
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    def test_keyjar_group_keys(self):
        ks = KeyJar()
        ks[""] = KeyBundle([{"kty": "oct", "key": "a1b2c3d4", "use": "sig"},
                            {"kty": "oct", "key": "a1b2c3d4", "use": "ver"}])
        ks["http://www.example.org"] = KeyBundle([
            {"kty": "oct", "key": "e5f6g7h8", "use": "sig"},
            {"kty": "oct", "key": "e5f6g7h8", "use": "ver"}])
        ks["http://www.example.org"].append(
            keybundle_from_local_file(RSAKEY, "rsa", ["ver", "sig"]))

        verified_keys = ks.verify_keys("http://www.example.org")
        assert len(verified_keys) == 3
        assert len([k for k in verified_keys if k.kty == "oct"]) == 2
        assert len([k for k in verified_keys if k.kty == "RSA"]) == 1
Ejemplo n.º 26
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def test_dump_own_keys():
    kb = keybundle_from_local_file("file://jwk.json", "jwk", ["ver", "sig"])
    assert len(kb) == 1
    kj = KeyJar()
    kj.issuer_keys[""] = [kb]
    res = kj.dump_issuer_keys("")

    assert len(res) == 1
    assert res[0] == {
        'use': u'sig',
        'e': u'AQAB',
        'kty': u'RSA',
        'alg': u'RS256',
        'n': u'pKybs0WaHU_y4cHxWbm8Wzj66HtcyFn7Fh3n-99qTXu5yNa30MRYIYfSDwe9JVc1JUoGw41yq2StdGBJ40HxichjE-Yopfu3B58QlgJvToUbWD4gmTDGgMGxQxtv1En2yedaynQ73sDpIK-12JJDY55pvf-PCiSQ9OjxZLiVGKlClDus44_uv2370b9IN2JiEOF-a7JBqaTEYLPpXaoKWDSnJNonr79tL0T7iuJmO1l705oO3Y0TQ-INLY6jnKG_RpsvyvGNnwP9pMvcP1phKsWZ10ofuuhJGRp8IxQL9RfzT87OvF0RBSO1U73h09YP-corWDsnKIi6TbzRpN5YDw',
        'kid': u'abc'}
Ejemplo n.º 27
0
    def create_sdb(self):
        kb = KeyBundle(JWKS["keys"])
        kj = KeyJar()
        kj.issuer_keys[''] = [kb]

        self.sdb = SessionDB(
            "https://example.com/",
            token_factory=JWTToken('T', keyjar=kj,
                                   lt_pattern={'code': 3600, 'token': 900},
                                   iss='https://example.com/as',
                                   sign_alg='RS256'),
            refresh_token_factory=JWTToken(
                'R', keyjar=kj, lt_pattern={'': 24 * 3600},
                iss='https://example.com/as')
        )
Ejemplo n.º 28
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def export_keys(keys):
    kbl = []
    keyjar = KeyJar()
    for typ, info in keys.items():
        kb = KeyBundle(source="file://%s" % info["key"], fileformat="der",
                       keytype=typ)
        keyjar.add_kb("", kb)
        kbl.append(kb)

    try:
        new_name = "static/jwks.json"
        dump_jwks(kbl, new_name)
    except KeyError:
        pass

    return keyjar
Ejemplo n.º 29
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 def rotate_jwks(self):
     # type: () -> None
     """Replace the current JWKS with a fresh one."""
     self.jwks = KeyJar()
     kb = KeyBundle(keyusage=["enc", "sig"])
     kb.append(RSAKey(key=RSA.generate(1024), kid=self._create_kid()))
     self.jwks.add_kb("", kb)
Ejemplo n.º 30
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    def __init__(
        self,
        name,
        sdb,
        cdb,
        authn_broker,
        authz,
        client_authn,
        symkey="",
        urlmap=None,
        iv=0,
        default_scope="",
        ca_bundle=None,
        seed=b"",
        client_authn_methods=None,
        authn_at_registration="",
        client_info_url="",
        secret_lifetime=86400,
        jwks_uri="",
        keyjar=None,
        capabilities=None,
        verify_ssl=True,
        baseurl="",
        hostname="",
    ):

        if not name.endswith("/"):
            name += "/"
        provider.Provider.__init__(
            self, name, sdb, cdb, authn_broker, authz, client_authn, symkey, urlmap, iv, default_scope, ca_bundle
        )

        self.endp.extend([RegistrationEndpoint, ClientInfoEndpoint])

        # dictionary of client authentication methods
        self.client_authn_methods = client_authn_methods
        if authn_at_registration:
            if authn_at_registration not in client_authn_methods:
                raise UnknownAuthnMethod(authn_at_registration)

        self.authn_at_registration = authn_at_registration
        self.seed = seed
        self.client_info_url = client_info_url
        self.secret_lifetime = secret_lifetime
        self.jwks_uri = jwks_uri
        self.verify_ssl = verify_ssl

        self.keyjar = keyjar
        if self.keyjar is None:
            self.keyjar = KeyJar(verify_ssl=self.verify_ssl)

        if capabilities:
            self.verify_capabilities(capabilities)
            self.capabilities = ProviderConfigurationResponse(**capabilities)
        else:
            self.capabilities = self.provider_features()
        self.baseurl = baseurl
        self.hostname = hostname or gethostname()
        self.kid = {"sig": {}, "enc": {}}
Ejemplo n.º 31
0
def fo_keyjar(*args):
    _kj = KeyJar()
    for fo in args:
        _kj.import_jwks(fo.jwks, fo.iss)
    return _kj
Ejemplo n.º 32
0
class Operator(object):
    def __init__(self,
                 keyjar=None,
                 fo_keyjar=None,
                 httpcli=None,
                 iss=None,
                 jwks_file='',
                 jwks=None):
        """

        :param keyjar: Contains the operators signing keys
        :param fo_keyjar: Contains the federation operators signing key
            for all the federations this instance wants to talk to
        :param httpcli: A http client to use when information has to be
            fetched from somewhere else
        :param iss: Issuer ID
        """
        if keyjar:
            self.keyjar = keyjar
        elif jwks_file:
            try:
                fp = open(jwks_file, 'r')
            except Exception:
                self.keyjar = None
            else:
                self.keyjar = KeyJar()
                self.keyjar.import_jwks(json.load(fp), '')
                fp.close()
        elif jwks:
            self.keyjar = KeyJar()
            self.keyjar.import_jwks(jwks, '')
            self.jwks = jwks
        else:
            self.keyjar = None

        self.fo_keyjar = fo_keyjar
        self.httpcli = httpcli
        self.iss = iss
        self.failed = {}

    def unpack_metadata_statement(self,
                                  json_ms=None,
                                  jwt_ms='',
                                  keyjar=None,
                                  cls=ClientMetadataStatement):
        """

        :param json_ms: Metadata statement as a JSON document
        :param jwt_ms: Metadata statement as JWT
        :param keyjar: Keys that should be used to verify the signature of the
            document
        :param cls: What type (Class) of metadata statement this is
        :return: Unpacked and verified metadata statement
        """

        if keyjar is None:
            _keyjar = self.fo_keyjar
        else:
            _keyjar = keyjar

        if jwt_ms:
            try:
                json_ms = unfurl(jwt_ms)
            except JWSException:
                raise
            else:
                msl = []
                if 'metadata_statements' in json_ms:
                    msl = []
                    for meta_s in json_ms['metadata_statements']:
                        try:
                            _ms = self.unpack_metadata_statement(
                                jwt_ms=meta_s, keyjar=_keyjar, cls=cls)
                        except (JWSException, BadSignature, MissingSigningKey):
                            pass
                        else:
                            msl.append(_ms)

                    for _ms in msl:
                        _keyjar.import_jwks(_ms['signing_keys'], '')

                elif 'metadata_statement_uris' in json_ms:
                    pass

                try:
                    _ms = cls().from_jwt(jwt_ms, keyjar=_keyjar)
                except MissingSigningKey:
                    raise

                if msl:
                    _ms['metadata_statements'] = [x.to_json() for x in msl]
                return _ms

        if json_ms:
            msl = []
            if 'metadata_statements' in json_ms:
                for ms in json_ms['metadata_statements']:
                    try:
                        res = self.unpack_metadata_statement(jwt_ms=ms,
                                                             keyjar=keyjar,
                                                             cls=cls)
                    except (JWSException, BadSignature):
                        pass
                    else:
                        msl.append(res)

            if 'metadata_statement_uris' in json_ms:
                if self.httpcli:
                    for iss, url in json_ms['metadata_statement_uris'].items():
                        if iss not in keyjar:  # FO I don't know about
                            continue
                        else:
                            _jwt = self.httpcli.http_request(url)
                            try:
                                _res = self.unpack_metadata_statement(
                                    jwt_ms=_jwt, keyjar=keyjar, cls=cls)
                            except JWSException as err:
                                logger.error(err)
                            else:
                                msl.append(_res)
            if msl:
                json_ms['metadata_statements'] = [x.to_json() for x in msl]
            return json_ms
        else:
            raise AttributeError('Need one of json_ms or jwt_ms')

    def pack_metadata_statement(self,
                                metadata,
                                keyjar=None,
                                iss=None,
                                alg='',
                                **kwargs):
        """

        :param metas: Original metadata statement as a MetadataStatement
        instance
        :param keyjar: KeyJar in which the necessary keys should reside
        :param alg: Which signing algorithm to use
        :param kwargs: Additional metadata statement attribute values
        :return: A JWT
        """
        if iss is None:
            iss = self.iss
        if keyjar is None:
            keyjar = self.keyjar

        # Own copy
        _metadata = copy.deepcopy(metadata)
        _metadata.update(kwargs)
        _jwt = JWT(keyjar, iss=iss, msgtype=_metadata.__class__)
        if alg:
            _jwt.sign_alg = alg

        return _jwt.pack(cls_instance=_metadata)

    def evaluate_metadata_statement(self, metadata):
        """
        Computes the resulting metadata statement from a compounded metadata
        statement.
        If something goes wrong during the evaluation an exception is raised

        :param metadata: The compounded metadata statement
        :return: The resulting metadata statement
        """

        # start from the innermost metadata statement and work outwards

        res = dict([(k, v) for k, v in metadata.items()
                    if k not in IgnoreKeys])

        if 'metadata_statements' in metadata:
            cres = {}
            for ms in metadata['metadata_statements']:
                _msd = self.evaluate_metadata_statement(json.loads(ms))
                for _iss, kw in _msd.items():
                    _break = False
                    _ci = {}
                    for k, v in kw.items():
                        if k in res:
                            if is_lesser(res[k], v):
                                _ci[k] = v
                            else:
                                self.failed['iss'] = (
                                    'Value of {}: {} not <= {}'.format(
                                        k, res[k], v))
                                _break = True
                                break
                        else:
                            _ci[k] = v
                        if _break:
                            break

                    if _break:
                        continue

                    for k, v in res.items():
                        if k not in _ci:
                            _ci[k] = v

                    cres[_iss] = _ci
            return cres
        else:  # this is the innermost
            _iss = metadata['iss']  # The issuer == FO is interesting
            return {_iss: res}
Ejemplo n.º 33
0
class Provider(provider.Provider):
    """A OAuth2 RP that knows all the OAuth2 extensions I've implemented."""
    def __init__(self,
                 name,
                 sdb,
                 cdb,
                 authn_broker,
                 authz,
                 client_authn,
                 symkey=None,
                 urlmap=None,
                 iv=0,
                 default_scope="",
                 ca_bundle=None,
                 seed=b"",
                 client_authn_methods=None,
                 authn_at_registration="",
                 client_info_url="",
                 secret_lifetime=86400,
                 jwks_uri="",
                 keyjar=None,
                 capabilities=None,
                 verify_ssl=True,
                 baseurl="",
                 hostname="",
                 config=None,
                 behavior=None,
                 lifetime_policy=None,
                 message_factory=ExtensionMessageFactory,
                 **kwargs):

        if not name.endswith("/"):
            name += "/"

        try:
            args = {"server_cls": kwargs["server_cls"]}
        except KeyError:
            args = {}

        super().__init__(name,
                         sdb,
                         cdb,
                         authn_broker,
                         authz,
                         client_authn,
                         symkey,
                         urlmap,
                         iv,
                         default_scope,
                         ca_bundle,
                         message_factory=message_factory,
                         **args)

        self.endp.extend([
            RegistrationEndpoint,
            ClientInfoEndpoint,
            RevocationEndpoint,
            IntrospectionEndpoint,
        ])

        # dictionary of client authentication methods
        self.client_authn_methods = client_authn_methods
        if authn_at_registration:
            if authn_at_registration not in client_authn_methods:
                raise UnknownAuthnMethod(authn_at_registration)

        self.authn_at_registration = authn_at_registration
        self.seed = seed
        self.client_info_url = client_info_url
        self.secret_lifetime = secret_lifetime
        self.jwks_uri = jwks_uri
        self.verify_ssl = verify_ssl
        self.scopes.extend(kwargs.get("scopes", []))
        self.keyjar = keyjar  # type: KeyJar
        if self.keyjar is None:
            self.keyjar = KeyJar(verify_ssl=self.verify_ssl)

        if capabilities:
            self.capabilities = self.provider_features(
                provider_config=capabilities)
        else:
            self.capabilities = self.provider_features()
        self.baseurl = baseurl or name
        self.hostname = hostname or socket.gethostname()
        self.kid = {"sig": {}, "enc": {}}  # type: Dict[str, Dict[str, str]]
        self.config = config or {}
        self.behavior = behavior or {}
        self.token_policy = {
            "access_token": {},
            "refresh_token": {},
        }  # type: Dict[str, Dict[str, Dict[str, int]]]
        if lifetime_policy is None:
            self.lifetime_policy = {
                "access_token": {
                    "code": 600,
                    "token": 120,
                    "implicit": 120,
                    "authorization_code": 600,
                    "client_credentials": 600,
                    "password": 600,
                },
                "refresh_token": {
                    "code": 3600,
                    "token": 3600,
                    "implicit": 3600,
                    "authorization_code": 3600,
                    "client_credentials": 3600,
                    "password": 3600,
                },
            }
        else:
            self.lifetime_policy = lifetime_policy

        self.token_handler = TokenHandler(self.baseurl,
                                          self.token_policy,
                                          keyjar=self.keyjar)

    @staticmethod
    def _uris_to_tuples(uris):
        tup = []
        for uri in uris:
            base, query = splitquery(uri)
            if query:
                tup.append((base, query))
            else:
                tup.append((base, ""))
        return tup

    @staticmethod
    def _tuples_to_uris(items):
        _uri = []
        for url, query in items:
            if query:
                _uri.append("%s?%s" % (url, query))
            else:
                _uri.append(url)
        return _uri

    def load_keys(self, request, client_id, client_secret):
        try:
            self.keyjar.load_keys(request, client_id)
            try:
                n_keys = len(self.keyjar[client_id])
                msg = "Found {} keys for client_id={}"
                logger.debug(msg.format(n_keys, client_id))
            except KeyError:
                pass
        except Exception as err:
            msg = "Failed to load client keys: {}"
            logger.error(msg.format(sanitize(request.to_dict())))
            logger.error("%s", err)
            error = ClientRegistrationError(
                error="invalid_configuration_parameter",
                error_description="%s" % err)
            return Response(
                error.to_json(),
                content="application/json",
                status_code="400 Bad Request",
            )

        # Add the client_secret as a symmetric key to the keyjar
        _kc = KeyBundle([
            {
                "kty": "oct",
                "key": client_secret,
                "use": "ver"
            },
            {
                "kty": "oct",
                "key": client_secret,
                "use": "sig"
            },
        ])
        try:
            self.keyjar[client_id].append(_kc)
        except KeyError:
            self.keyjar[client_id] = [_kc]

    @staticmethod
    def verify_correct(cinfo, restrictions):
        for fname, arg in restrictions.items():
            func = restrict.factory(fname)
            res = func(arg, cinfo)
            if res:
                raise RestrictionError(res)

    def set_token_policy(self, cid, cinfo):
        for ttyp in ["access_token", "refresh_token"]:
            pol = {}
            for rgtyp in ["response_type", "grant_type"]:
                try:
                    rtyp = cinfo[rgtyp]
                except KeyError:
                    pass
                else:
                    for typ in rtyp:
                        try:
                            pol[typ] = self.lifetime_policy[ttyp][typ]
                        except KeyError:
                            pass

            self.token_policy[ttyp][cid] = pol

    def create_new_client(self, request, restrictions):
        """
        Create new client based on request and restrictions.

        :param request: The Client registration request
        :param restrictions: Restrictions on the client
        :return: The client_id
        """
        _cinfo = request.to_dict()

        self.match_client_request(_cinfo)

        # create new id and secret
        _id = rndstr(12)
        while _id in self.cdb:
            _id = rndstr(12)

        _cinfo["client_id"] = _id
        _cinfo["client_secret"] = secret(self.seed, _id)
        _cinfo["client_id_issued_at"] = utc_time_sans_frac()
        _cinfo["client_secret_expires_at"] = utc_time_sans_frac(
        ) + self.secret_lifetime

        # If I support client info endpoint
        if ClientInfoEndpoint in self.endp:
            _cinfo["registration_access_token"] = rndstr(32)
            _cinfo["registration_client_uri"] = "%s%s%s?client_id=%s" % (
                self.name,
                self.client_info_url,
                ClientInfoEndpoint.etype,
                _id,
            )

        if "redirect_uris" in request:
            _cinfo["redirect_uris"] = self._uris_to_tuples(
                request["redirect_uris"])

        self.load_keys(request, _id, _cinfo["client_secret"])

        try:
            _behav = self.behavior["client_registration"]
        except KeyError:
            pass
        else:
            self.verify_correct(_cinfo, _behav)

        self.set_token_policy(_id, _cinfo)
        self.cdb[_id] = _cinfo

        return _id

    def match_client_request(self, request):
        for _pref, _prov in PREFERENCE2PROVIDER.items():
            if _pref in request:
                if _pref == "response_types":
                    for val in request[_pref]:
                        match = False
                        p = set(val.split(" "))
                        for cv in self.capabilities[_prov]:
                            if p == set(cv.split(" ")):
                                match = True
                                break
                        if not match:
                            raise CapabilitiesMisMatch(
                                "Not allowed {}".format(_pref))
                else:
                    if isinstance(request[_pref], str):
                        if request[_pref] not in self.capabilities[_prov]:
                            raise CapabilitiesMisMatch(
                                "Not allowed {}".format(_pref))
                    else:
                        if not set(request[_pref]).issubset(
                                set(self.capabilities[_prov])):
                            raise CapabilitiesMisMatch(
                                "Not allowed {}".format(_pref))

    def client_info(self, client_id):
        _cinfo = self.cdb[client_id].copy()
        if not valid_client_info(_cinfo):
            err = ErrorResponse(error="invalid_client",
                                error_description="Invalid client secret")
            return BadRequest(err.to_json(), content="application/json")

        try:
            _cinfo["redirect_uris"] = self._tuples_to_uris(
                _cinfo["redirect_uris"])
        except KeyError:
            pass

        msg = self.server.message_factory.get_response_type("update_endpoint")(
            **_cinfo)
        return Response(msg.to_json(), content="application/json")

    def client_info_update(self, client_id, request):
        _cinfo = self.cdb[client_id].copy()
        try:
            _cinfo["redirect_uris"] = self._tuples_to_uris(
                _cinfo["redirect_uris"])
        except KeyError:
            pass

        for key, value in request.items():
            if key in ["client_secret", "client_id"]:
                # assure it's the same
                if value != _cinfo[key]:
                    raise ModificationForbidden("Not allowed to change")
            else:
                _cinfo[key] = value

        for key in list(_cinfo.keys()):
            if key in [
                    "client_id_issued_at",
                    "client_secret_expires_at",
                    "registration_access_token",
                    "registration_client_uri",
            ]:
                continue
            if key not in request:
                del _cinfo[key]

        if "redirect_uris" in request:
            _cinfo["redirect_uris"] = self._uris_to_tuples(
                request["redirect_uris"])

        self.cdb[client_id] = _cinfo

    def verify_client(self, environ, areq, authn_method, client_id=""):
        """
        Verify the client based on credentials.

        :param environ: WSGI environ
        :param areq: The request
        :param authn_method: client authentication method
        :return:
        """
        if not client_id:
            client_id = get_client_id(self.cdb, areq,
                                      environ["HTTP_AUTHORIZATION"])

        try:
            method = self.client_authn_methods[authn_method]
        except KeyError:
            raise UnSupported()
        return method(self).verify(environ, client_id=client_id)

    def consume_software_statement(self, software_statement):
        return {}

    def registration_endpoint(self, **kwargs):
        """
        Perform dynamic client registration.

        :param request: The request
        :param authn: Client authentication information
        :param kwargs: extra keyword arguments
        :return: A Response instance
        """
        _request = self.server.message_factory.get_request_type(
            "registration_endpoint")().deserialize(kwargs["request"], "json")
        try:
            _request.verify(keyjar=self.keyjar)
        except InvalidRedirectUri as err:
            msg = ClientRegistrationError(error="invalid_redirect_uri",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")
        except (MissingPage, VerificationError) as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")

        # If authentication is necessary at registration
        if self.authn_at_registration:
            try:
                self.verify_client(kwargs["environ"], _request,
                                   self.authn_at_registration)
            except (AuthnFailure, UnknownAssertionType):
                return Unauthorized()

        client_restrictions = {}  # type: ignore
        if "parsed_software_statement" in _request:
            for ss in _request["parsed_software_statement"]:
                client_restrictions.update(self.consume_software_statement(ss))
            del _request["software_statement"]
            del _request["parsed_software_statement"]

        try:
            client_id = self.create_new_client(_request, client_restrictions)
        except CapabilitiesMisMatch as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")
        except RestrictionError as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")

        return self.client_info(client_id)

    def client_info_endpoint(self, method="GET", **kwargs):
        """
        Operations on this endpoint are switched through the use of different HTTP methods.

        :param method: HTTP method used for the request
        :param kwargs: keyword arguments
        :return: A Response instance
        """
        _query = compact(parse_qs(kwargs["query"]))
        try:
            _id = _query["client_id"]
        except KeyError:
            return BadRequest("Missing query component")

        if _id not in self.cdb:
            return Unauthorized()

        # authenticated client
        try:
            self.verify_client(kwargs["environ"],
                               kwargs["request"],
                               "bearer_header",
                               client_id=_id)
        except (AuthnFailure, UnknownAssertionType):
            return Unauthorized()

        if method == "GET":
            return self.client_info(_id)
        elif method == "PUT":
            try:
                _request = self.server.message_factory.get_request_type(
                    "update_endpoint")().from_json(kwargs["request"])
            except ValueError as err:
                return BadRequest(str(err))

            try:
                _request.verify()
            except InvalidRedirectUri as err:
                msg = ClientRegistrationError(error="invalid_redirect_uri",
                                              error_description="%s" % err)
                return BadRequest(msg.to_json(), content="application/json")
            except (MissingPage, VerificationError) as err:
                msg = ClientRegistrationError(error="invalid_client_metadata",
                                              error_description="%s" % err)
                return BadRequest(msg.to_json(), content="application/json")

            try:
                self.client_info_update(_id, _request)
                return self.client_info(_id)
            except ModificationForbidden:
                return Forbidden()
        elif method == "DELETE":
            try:
                del self.cdb[_id]
            except KeyError:
                return Unauthorized()
            else:
                return NoContent()

    @staticmethod
    def verify_code_challenge(code_verifier,
                              code_challenge,
                              code_challenge_method="S256"):
        """
        Verify a PKCE (RFC7636) code challenge.

        :param code_verifier: The origin
        :param code_challenge: The transformed verifier used as challenge
        :return:
        """
        _h = CC_METHOD[code_challenge_method](
            code_verifier.encode("ascii")).digest()
        _cc = b64e(_h)
        if _cc.decode("ascii") != code_challenge:
            logger.error("PCKE Code Challenge check failed")
            err = TokenErrorResponse(error="invalid_request",
                                     error_description="PCKE check failed")
            return Response(err.to_json(),
                            content="application/json",
                            status_code=401)
        return True

    def do_access_token_response(self,
                                 access_token,
                                 atinfo,
                                 state,
                                 refresh_token=None):
        _tinfo = {
            "access_token": access_token,
            "expires_in": atinfo["exp"],
            "token_type": "bearer",
            "state": state,
        }
        try:
            _tinfo["scope"] = atinfo["scope"]
        except KeyError:
            pass

        if refresh_token:
            _tinfo["refresh_token"] = refresh_token

        atr_class = self.server.message_factory.get_response_type(
            "token_endpoint")
        return atr_class(**by_schema(atr_class, **_tinfo))

    def code_grant_type(self, areq):
        # assert that the code is valid
        try:
            _info = self.sdb[areq["code"]]
        except KeyError:
            err = TokenErrorResponse(error="invalid_grant",
                                     error_description="Unknown access grant")
            return Response(err.to_json(),
                            content="application/json",
                            status="401 Unauthorized")

        authzreq = json.loads(_info["authzreq"])
        if "code_verifier" in areq:
            try:
                _method = authzreq["code_challenge_method"]
            except KeyError:
                _method = "S256"

            resp = self.verify_code_challenge(areq["code_verifier"],
                                              authzreq["code_challenge"],
                                              _method)
            if resp:
                return resp

        if "state" in areq:
            if self.sdb[areq["code"]]["state"] != areq["state"]:
                logger.error("State value mismatch")
                err = TokenErrorResponse(error="unauthorized_client")
                return Unauthorized(err.to_json(), content="application/json")

        resp = self.token_scope_check(areq, _info)
        if resp:
            return resp

        # If redirect_uri was in the initial authorization request
        # verify that the one given here is the correct one.
        if "redirect_uri" in _info and areq["redirect_uri"] != _info[
                "redirect_uri"]:
            logger.error("Redirect_uri mismatch")
            err = TokenErrorResponse(error="unauthorized_client")
            return Unauthorized(err.to_json(), content="application/json")

        issue_refresh = False
        if "scope" in authzreq and "offline_access" in authzreq["scope"]:
            if authzreq["response_type"] == "code":
                issue_refresh = True

        try:
            _tinfo = self.sdb.upgrade_to_token(areq["code"],
                                               issue_refresh=issue_refresh)
        except AccessCodeUsed:
            err = TokenErrorResponse(error="invalid_grant",
                                     error_description="Access grant used")
            return Response(err.to_json(),
                            content="application/json",
                            status="401 Unauthorized")

        logger.debug("_tinfo: %s" % _tinfo)

        atr_class = self.server.message_factory.get_response_type(
            "token_endpoint")
        atr = atr_class(**by_schema(atr_class, **_tinfo))

        logger.debug("AccessTokenResponse: %s" % atr)

        return Response(atr.to_json(),
                        content="application/json",
                        headers=OAUTH2_NOCACHE_HEADERS)

    def client_credentials_grant_type(self, areq):
        _at = self.token_handler.get_access_token(
            areq["client_id"],
            scope=areq["scope"],
            grant_type="client_credentials")
        _info = self.token_handler.token_factory.get_info(_at)
        try:
            _rt = self.token_handler.get_refresh_token(self.baseurl,
                                                       _info["access_token"],
                                                       "client_credentials")
        except NotAllowed:
            atr = self.do_access_token_response(_at, _info, areq["state"])
        else:
            atr = self.do_access_token_response(_at, _info, areq["state"], _rt)

        return Response(atr.to_json(), content="application/json")

    def password_grant_type(self, areq):
        """
        Token authorization using Resource owner password credentials.

        RFC6749 section 4.3
        """
        # `Any` comparison tries a first broker, so we either hit an IndexError or get a method
        try:
            authn, authn_class_ref = self.pick_auth(areq, "any")
        except IndexError:
            err = TokenErrorResponse(error="invalid_grant")
            return Unauthorized(err.to_json(), content="application/json")
        identity, _ts = authn.authenticated_as(username=areq["username"],
                                               password=areq["password"])
        if identity is None:
            err = TokenErrorResponse(error="invalid_grant")
            return Unauthorized(err.to_json(), content="application/json")
        # We are returning a token
        areq["response_type"] = ["token"]
        authn_event = AuthnEvent(
            identity["uid"],
            identity.get("salt", ""),
            authn_info=authn_class_ref,
            time_stamp=_ts,
        )
        sid = self.setup_session(areq, authn_event,
                                 self.cdb[areq["client_id"]])
        _at = self.sdb.upgrade_to_token(self.sdb[sid]["code"],
                                        issue_refresh=True)
        atr_class = self.server.message_factory.get_response_type(
            "token_endpoint")
        atr = atr_class(**by_schema(atr_class, **_at))
        return Response(atr.to_json(),
                        content="application/json",
                        headers=OAUTH2_NOCACHE_HEADERS)

    def refresh_token_grant_type(self, areq):
        at = self.token_handler.refresh_access_token(self.baseurl,
                                                     areq["access_token"],
                                                     "refresh_token")

        atr_class = self.server.message_factory.get_response_type(
            "token_endpoint")
        atr = atr_class(**by_schema(atr_class, **at))
        return Response(atr.to_json(), content="application/json")

    @staticmethod
    def token_access(endpoint, client_id, token_info):
        # simple rules: if client_id in azp or aud it's allow to introspect
        # to revoke it has to be in azr
        allow = False
        if endpoint == "revocation_endpoint":
            if "azr" in token_info and client_id == token_info["azr"]:
                allow = True
            elif len(token_info["aud"]) == 1 and token_info["aud"] == [
                    client_id
            ]:
                allow = True
        else:  # has to be introspection endpoint
            if "azr" in token_info and client_id == token_info["azr"]:
                allow = True
            elif "aud" in token_info:
                if client_id in token_info["aud"]:
                    allow = True
        return allow

    def get_token_info(self, authn, req, endpoint):
        """
        Parse token for information.

        :param authn:
        :param req:
        :return:
        """
        try:
            client_id = self.client_authn(self, req, authn)
        except FailedAuthentication as err:
            logger.error(err)
            error = TokenErrorResponse(error="unauthorized_client",
                                       error_description="%s" % err)
            return Response(error.to_json(),
                            content="application/json",
                            status="401 Unauthorized")

        logger.debug("{}: {} requesting {}".format(endpoint, client_id,
                                                   req.to_dict()))

        try:
            token_type = req["token_type_hint"]
        except KeyError:
            try:
                _info = self.sdb.token_factory["access_token"].get_info(
                    req["token"])
            except Exception:
                try:
                    _info = self.sdb.token_factory["refresh_token"].get_info(
                        req["token"])
                except Exception:
                    return self._return_inactive()
                else:
                    token_type = "refresh_token"  # nosec
            else:
                token_type = "access_token"  # nosec
        else:
            try:
                _info = self.sdb.token_factory[token_type].get_info(
                    req["token"])
            except Exception:
                return self._return_inactive()

        if not self.token_access(endpoint, client_id, _info):
            return BadRequest()

        return client_id, token_type, _info

    def _return_inactive(self):
        ir = self.server.message_factory.get_response_type(
            "introspection_endpoint")(active=False)
        return Response(ir.to_json(), content="application/json")

    def revocation_endpoint(self, authn="", request=None, **kwargs):
        """
        Implement RFC7009 allows a client to invalidate an access or refresh token.

        :param authn: Client Authentication information
        :param request: The revocation request
        :param kwargs:
        :return:
        """
        trr = self.server.message_factory.get_request_type(
            "revocation_endpoint")().deserialize(request, "urlencoded")

        resp = self.get_token_info(authn, trr, "revocation_endpoint")

        if isinstance(resp, Response):
            return resp
        else:
            client_id, token_type, _info = resp

        logger.info("{} token revocation: {}".format(client_id, trr.to_dict()))

        try:
            self.sdb.token_factory[token_type].invalidate(trr["token"])
        except KeyError:
            return BadRequest()
        else:
            return Response("OK")

    def introspection_endpoint(self, authn="", request=None, **kwargs):
        """
        Implement RFC7662.

        :param authn: Client Authentication information
        :param request: The introspection request
        :param kwargs:
        :return:
        """
        tir = self.server.message_factory.get_request_type(
            "introspection_endpoint")().deserialize(request, "urlencoded")

        resp = self.get_token_info(authn, tir, "introspection_endpoint")

        if isinstance(resp, Response):
            return resp
        else:
            client_id, token_type, _info = resp

        logger.info("{} token introspection: {}".format(
            client_id, tir.to_dict()))

        ir = self.server.message_factory.get_response_type(
            "introspection_endpoint")(
                active=self.sdb.token_factory[token_type].is_valid(_info),
                **_info.to_dict())

        ir.weed()

        return Response(ir.to_json(), content="application/json")
Ejemplo n.º 34
0
def test_load_spomky_keys():
    kj = KeyJar()
    kj.import_jwks(JWKS_SPO, "")
    assert len(kj.get_issuer_keys("")) == 4
Ejemplo n.º 35
0
def test_load_unknown_keytype():
    kj = KeyJar()
    kj.import_jwks(JWK_UK, "")
    assert len(kj.get_issuer_keys("")) == 1
Ejemplo n.º 36
0
class Client(PBase):
    _endpoints = ENDPOINTS

    def __init__(self, client_id=None, ca_certs=None, client_authn_method=None,
                 keyjar=None, verify_ssl=True):
        """

        :param client_id: The client identifier
        :param ca_certs: Certificates used to verify HTTPS certificates
        :param client_authn_method: Methods that this client can use to
            authenticate itself. It's a dictionary with method names as
            keys and method classes as values.
        :param verify_ssl: Whether the SSL certificate should be verfied.
        :return: Client instance
        """

        PBase.__init__(self, ca_certs, verify_ssl=verify_ssl)

        self.client_id = client_id
        self.client_authn_method = client_authn_method
        self.keyjar = keyjar or KeyJar(verify_ssl=verify_ssl)
        self.verify_ssl = verify_ssl
        #self.secret_type = "basic "

        self.state = None
        self.nonce = None

        self.grant = {}

        # own endpoint
        self.redirect_uris = [None]

        # service endpoints
        self.authorization_endpoint = None
        self.token_endpoint = None
        self.token_revocation_endpoint = None

        self.request2endpoint = REQUEST2ENDPOINT
        self.response2error = RESPONSE2ERROR
        self.grant_class = Grant
        self.token_class = Token

        self.provider_info = {}
        self._c_secret = None

    def get_client_secret(self):
        return self._c_secret

    def set_client_secret(self, val):
        if not val:
            self._c_secret = ""
        else:
            self._c_secret = val
            # client uses it for signing
            # Server might also use it for signing which means the
            # client uses it for verifying server signatures
            if self.keyjar is None:
                self.keyjar = KeyJar()
            self.keyjar.add_symmetric("", str(val), ["sig"])

    client_secret = property(get_client_secret, set_client_secret)

    def reset(self):
        self.state = None
        self.nonce = None

        self.grant = {}

        self.authorization_endpoint = None
        self.token_endpoint = None
        self.redirect_uris = None

    def grant_from_state(self, state):
        for key, grant in self.grant.items():
            if key == state:
                return grant

        return None

    def _parse_args(self, request, **kwargs):
        ar_args = kwargs.copy()

        for prop in request.c_param.keys():
            if prop in ar_args:
                continue
            else:
                if prop == "redirect_uri":
                    _val = getattr(self, "redirect_uris", [None])[0]
                    if _val:
                        ar_args[prop] = _val
                else:
                    _val = getattr(self, prop, None)
                    if _val:
                        ar_args[prop] = _val

        return ar_args

    def _endpoint(self, endpoint, **kwargs):
        try:
            uri = kwargs[endpoint]
            if uri:
                del kwargs[endpoint]
        except KeyError:
            uri = ""

        if not uri:
            try:
                uri = getattr(self, endpoint)
            except Exception:
                raise Exception("No '%s' specified" % endpoint)

        if not uri:
            raise Exception("No '%s' specified" % endpoint)

        return uri

    def get_grant(self, **kwargs):
        try:
            _state = kwargs["state"]
            if not _state:
                _state = self.state
        except KeyError:
            _state = self.state

        try:
            return self.grant[_state]
        except:
            raise Exception("No grant found for state:'%s'" % _state)

    def get_token(self, also_expired=False, **kwargs):
        try:
            return kwargs["token"]
        except KeyError:
            grant = self.get_grant(**kwargs)

            try:
                token = grant.get_token(kwargs["scope"])
            except KeyError:
                token = grant.get_token("")
                if not token:
                    try:
                        token = self.grant[kwargs["state"]].get_token("")
                    except KeyError:
                        raise Exception("No token found for scope")

        if token is None:
            raise Exception("No suitable token found")

        if also_expired:
            return token
        elif token.is_valid():
            return token
        else:
            raise ExpiredToken()

    def construct_request(self, request, request_args=None, extra_args=None):
        if request_args is None:
            request_args = {}

        #logger.debug("request_args: %s" % request_args)
        kwargs = self._parse_args(request, **request_args)

        if extra_args:
            kwargs.update(extra_args)
            #logger.debug("kwargs: %s" % kwargs)
        #logger.debug("request: %s" % request)
        return request(**kwargs)

    def construct_Message(self, request=Message, request_args=None,
                          extra_args=None, **kwargs):

        return self.construct_request(request, request_args, extra_args)

    #noinspection PyUnusedLocal
    def construct_AuthorizationRequest(self, request=AuthorizationRequest,
                                       request_args=None, extra_args=None,
                                       **kwargs):

        if request_args is not None:
            try:  # change default
                new = request_args["redirect_uri"]
                if new:
                    self.redirect_uris = [new]
            except KeyError:
                pass
        else:
            request_args = {}

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id

        return self.construct_request(request, request_args, extra_args)

    #noinspection PyUnusedLocal
    def construct_AccessTokenRequest(self,
                                     request=AccessTokenRequest,
                                     request_args=None, extra_args=None,
                                     **kwargs):

        grant = self.get_grant(**kwargs)

        if not grant.is_valid():
            raise GrantExpired("Authorization Code to old %s > %s" % (
                utc_time_sans_frac(),
                grant.grant_expiration_time))

        if request_args is None:
            request_args = {}

        request_args["code"] = grant.code

        if "grant_type" not in request_args:
            request_args["grant_type"] = "authorization_code"

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id
        return self.construct_request(request, request_args, extra_args)

    def construct_RefreshAccessTokenRequest(self,
                                            request=RefreshAccessTokenRequest,
                                            request_args=None, extra_args=None,
                                            **kwargs):

        if request_args is None:
            request_args = {}

        token = self.get_token(also_expired=True, **kwargs)

        request_args["refresh_token"] = token.refresh_token

        try:
            request_args["scope"] = token.scope
        except AttributeError:
            pass

        return self.construct_request(request, request_args, extra_args)

    def construct_TokenRevocationRequest(self,
                                         request=TokenRevocationRequest,
                                         request_args=None, extra_args=None,
                                         **kwargs):

        if request_args is None:
            request_args = {}

        token = self.get_token(**kwargs)

        request_args["token"] = token.access_token
        return self.construct_request(request, request_args, extra_args)

    def construct_ResourceRequest(self, request=ResourceRequest,
                                  request_args=None, extra_args=None,
                                  **kwargs):

        if request_args is None:
            request_args = {}

        token = self.get_token(**kwargs)

        request_args["access_token"] = token.access_token
        return self.construct_request(request, request_args, extra_args)

    def get_or_post(self, uri, method, req,
                    content_type=DEFAULT_POST_CONTENT_TYPE, **kwargs):
        if method == "GET":
            _qp = req.to_urlencoded()
            if _qp:
                path = uri + '?' + _qp
            else:
                path = uri
            body = None
        elif method == "POST":
            path = uri
            if content_type == URL_ENCODED:
                body = req.to_urlencoded()
            elif content_type == JSON_ENCODED:
                body = req.to_json()
            else:
                raise UnSupported(
                    "Unsupported content type: '%s'" % content_type)

            header_ext = {"content-type": content_type}
            if "headers" in kwargs.keys():
                kwargs["headers"].update(header_ext)
            else:
                kwargs["headers"] = header_ext
        else:
            raise Exception("Unsupported HTTP method: '%s'" % method)

        return path, body, kwargs

    def uri_and_body(self, reqmsg, cis, method="POST", request_args=None,
                     **kwargs):

        if "endpoint" in kwargs and kwargs["endpoint"]:
            uri = kwargs["endpoint"]
        else:
            uri = self._endpoint(self.request2endpoint[reqmsg.__name__],
                                 **request_args)

        uri, body, kwargs = self.get_or_post(uri, method, cis, **kwargs)
        try:
            h_args = {"headers": kwargs["headers"]}
        except KeyError:
            h_args = {}

        return uri, body, h_args, cis

    def request_info(self, request, method="POST", request_args=None,
                     extra_args=None, **kwargs):

        if request_args is None:
            request_args = {}

        try:
            cls = getattr(self, "construct_%s" % request.__name__)
            cis = cls(request_args=request_args, extra_args=extra_args,
                      **kwargs)
        except AttributeError:
            cis = self.construct_request(request, request_args, extra_args)

        if "authn_method" in kwargs:
            h_arg = self.init_authentication_method(cis,
                                                    request_args=request_args,
                                                    **kwargs)
        else:
            h_arg = None

        if h_arg:
            if "headers" in kwargs.keys():
                kwargs["headers"].update(h_arg["headers"])
            else:
                kwargs["headers"] = h_arg["headers"]

        return self.uri_and_body(request, cis, method, request_args,
                                 **kwargs)

    def authorization_request_info(self, request_args=None, extra_args=None,
                                   **kwargs):
        return self.request_info(AuthorizationRequest, "GET",
                                 request_args, extra_args, **kwargs)

    def parse_response(self, response, info="", sformat="json", state="",
                       **kwargs):
        """
        Parse a response

        :param response: Response type
        :param info: The response, can be either in a JSON or an urlencoded
            format
        :param sformat: Which serialization that was used
        :param state:
        :param kwargs: Extra key word arguments
        :return: The parsed and to some extend verified response
        """

        _r2e = self.response2error

        if sformat == "urlencoded":
            if '?' in info or '#' in info:
                parts = urlparse.urlparse(info)
                scheme, netloc, path, params, query, fragment = parts[:6]
                # either query of fragment
                if query:
                    info = query
                else:
                    info = fragment

        err = None
        try:
            resp = response().deserialize(info, sformat, **kwargs)
            if "error" in resp and not isinstance(resp, ErrorResponse):
                resp = None
                try:
                    errmsgs = _r2e[response.__name__]
                except KeyError:
                    errmsgs = [ErrorResponse]

                try:
                    for errmsg in errmsgs:
                        try:
                            resp = errmsg().deserialize(info, sformat)
                            resp.verify()
                            break
                        except Exception, aerr:
                            resp = None
                            err = aerr
                except KeyError:
                    pass
            elif resp.only_extras():
                resp = None
            else:
                verf = resp.verify(**kwargs)
                if not verf:
                    raise PyoidcError("Verification of the response failed")
                if resp.type() == "AuthorizationResponse" and \
                        "scope" not in resp:
                    try:
                        resp["scope"] = kwargs["scope"]
                    except KeyError:
                        pass
        except Exception, derr:
            resp = None
            err = derr

        if not resp:
            if err:
                raise err
            else:
                raise ResponseError("Missing or faulty response")

        if resp.type() in ["AuthorizationResponse", "AccessTokenResponse"]:
            try:
                _state = resp["state"]
            except (AttributeError, KeyError):
                _state = ""

            if not _state:
                _state = state

            try:
                self.grant[_state].update(resp)
            except KeyError:
                self.grant[_state] = self.grant_class(resp=resp)

        return resp
Ejemplo n.º 37
0
def test_load_null_jwks():
    kj = KeyJar()
    with pytest.raises(JWKSError):
        kj.import_jwks({"keys": [None, None]}, "")
Ejemplo n.º 38
0
    def __init__(self, name, sdb, cdb, authn_broker, authz, client_authn,
                 symkey="", urlmap=None, iv=0, default_scope="",
                 ca_bundle=None, seed=b"", client_authn_methods=None,
                 authn_at_registration="", client_info_url="",
                 secret_lifetime=86400, jwks_uri='', keyjar=None,
                 capabilities=None, verify_ssl=True, baseurl='', hostname='',
                 config=None, behavior=None, lifetime_policy=None, **kwargs):

        if not name.endswith("/"):
            name += "/"

        try:
            args = {'server_cls': kwargs['server_cls']}
        except KeyError:
            args = {}

        provider.Provider.__init__(self, name, sdb, cdb, authn_broker, authz,
                                   client_authn, symkey, urlmap, iv,
                                   default_scope, ca_bundle, **args)

        self.endp.extend([RegistrationEndpoint, ClientInfoEndpoint,
                          RevocationEndpoint, IntrospectionEndpoint])

        # dictionary of client authentication methods
        self.client_authn_methods = client_authn_methods
        if authn_at_registration:
            if authn_at_registration not in client_authn_methods:
                raise UnknownAuthnMethod(authn_at_registration)

        self.authn_at_registration = authn_at_registration
        self.seed = seed
        self.client_info_url = client_info_url
        self.secret_lifetime = secret_lifetime
        self.jwks_uri = jwks_uri
        self.verify_ssl = verify_ssl
        try:
            self.scopes = kwargs['scopes']
        except KeyError:
            self.scopes = ['offline_access']
        self.keyjar = keyjar
        if self.keyjar is None:
            self.keyjar = KeyJar(verify_ssl=self.verify_ssl)

        if capabilities:
            self.capabilities = self.provider_features(
                provider_config=capabilities)
        else:
            self.capabilities = self.provider_features()
        self.baseurl = baseurl or name
        self.hostname = hostname or socket.gethostname()
        self.kid = {"sig": {}, "enc": {}}
        self.config = config or {}
        self.behavior = behavior or {}
        self.token_policy = {'access_token': {}, 'refresh_token': {}}
        if lifetime_policy is None:
            self.lifetime_policy = {
                'access_token': {
                    'code': 600,
                    'token': 120,
                    'implicit': 120,
                    'authorization_code': 600,
                    'client_credentials': 600,
                    'password': 600
                },
                'refresh_token': {
                    'code': 3600,
                    'token': 3600,
                    'implicit': 3600,
                    'authorization_code': 3600,
                    'client_credentials': 3600,
                    'password': 3600
                }
            }
        else:
            self.lifetime_policy = lifetime_policy

        self.token_handler = TokenHandler(self.baseurl, self.token_policy,
                                          keyjar=self.keyjar)
Ejemplo n.º 39
0
    def __init__(self,
                 name,
                 sdb,
                 cdb,
                 authn_broker,
                 authz,
                 client_authn,
                 symkey=None,
                 urlmap=None,
                 iv=0,
                 default_scope="",
                 ca_bundle=None,
                 seed=b"",
                 client_authn_methods=None,
                 authn_at_registration="",
                 client_info_url="",
                 secret_lifetime=86400,
                 jwks_uri="",
                 keyjar=None,
                 capabilities=None,
                 verify_ssl=True,
                 baseurl="",
                 hostname="",
                 config=None,
                 behavior=None,
                 lifetime_policy=None,
                 message_factory=ExtensionMessageFactory,
                 **kwargs):

        if not name.endswith("/"):
            name += "/"

        try:
            args = {"server_cls": kwargs["server_cls"]}
        except KeyError:
            args = {}

        super().__init__(name,
                         sdb,
                         cdb,
                         authn_broker,
                         authz,
                         client_authn,
                         symkey,
                         urlmap,
                         iv,
                         default_scope,
                         ca_bundle,
                         message_factory=message_factory,
                         **args)

        self.endp.extend([
            RegistrationEndpoint,
            ClientInfoEndpoint,
            RevocationEndpoint,
            IntrospectionEndpoint,
        ])

        # dictionary of client authentication methods
        self.client_authn_methods = client_authn_methods
        if authn_at_registration:
            if authn_at_registration not in client_authn_methods:
                raise UnknownAuthnMethod(authn_at_registration)

        self.authn_at_registration = authn_at_registration
        self.seed = seed
        self.client_info_url = client_info_url
        self.secret_lifetime = secret_lifetime
        self.jwks_uri = jwks_uri
        self.verify_ssl = verify_ssl
        self.scopes.extend(kwargs.get("scopes", []))
        self.keyjar = keyjar  # type: KeyJar
        if self.keyjar is None:
            self.keyjar = KeyJar(verify_ssl=self.verify_ssl)

        if capabilities:
            self.capabilities = self.provider_features(
                provider_config=capabilities)
        else:
            self.capabilities = self.provider_features()
        self.baseurl = baseurl or name
        self.hostname = hostname or socket.gethostname()
        self.kid = {"sig": {}, "enc": {}}  # type: Dict[str, Dict[str, str]]
        self.config = config or {}
        self.behavior = behavior or {}
        self.token_policy = {
            "access_token": {},
            "refresh_token": {},
        }  # type: Dict[str, Dict[str, Dict[str, int]]]
        if lifetime_policy is None:
            self.lifetime_policy = {
                "access_token": {
                    "code": 600,
                    "token": 120,
                    "implicit": 120,
                    "authorization_code": 600,
                    "client_credentials": 600,
                    "password": 600,
                },
                "refresh_token": {
                    "code": 3600,
                    "token": 3600,
                    "implicit": 3600,
                    "authorization_code": 3600,
                    "client_credentials": 3600,
                    "password": 3600,
                },
            }
        else:
            self.lifetime_policy = lifetime_policy

        self.token_handler = TokenHandler(self.baseurl,
                                          self.token_policy,
                                          keyjar=self.keyjar)
Ejemplo n.º 40
0
class Provider(provider.Provider):
    """
    A OAuth2 RP that knows all the OAuth2 extensions I've implemented
    """

    def __init__(self, name, sdb, cdb, authn_broker, authz, client_authn,
                 symkey="", urlmap=None, iv=0, default_scope="",
                 ca_bundle=None, seed=b"", client_authn_methods=None,
                 authn_at_registration="", client_info_url="",
                 secret_lifetime=86400, jwks_uri='', keyjar=None,
                 capabilities=None, verify_ssl=True, baseurl='', hostname='',
                 config=None, behavior=None, lifetime_policy=None, **kwargs):

        if not name.endswith("/"):
            name += "/"

        try:
            args = {'server_cls': kwargs['server_cls']}
        except KeyError:
            args = {}

        provider.Provider.__init__(self, name, sdb, cdb, authn_broker, authz,
                                   client_authn, symkey, urlmap, iv,
                                   default_scope, ca_bundle, **args)

        self.endp.extend([RegistrationEndpoint, ClientInfoEndpoint,
                          RevocationEndpoint, IntrospectionEndpoint])

        # dictionary of client authentication methods
        self.client_authn_methods = client_authn_methods
        if authn_at_registration:
            if authn_at_registration not in client_authn_methods:
                raise UnknownAuthnMethod(authn_at_registration)

        self.authn_at_registration = authn_at_registration
        self.seed = seed
        self.client_info_url = client_info_url
        self.secret_lifetime = secret_lifetime
        self.jwks_uri = jwks_uri
        self.verify_ssl = verify_ssl
        try:
            self.scopes = kwargs['scopes']
        except KeyError:
            self.scopes = ['offline_access']
        self.keyjar = keyjar
        if self.keyjar is None:
            self.keyjar = KeyJar(verify_ssl=self.verify_ssl)

        if capabilities:
            self.capabilities = self.provider_features(
                provider_config=capabilities)
        else:
            self.capabilities = self.provider_features()
        self.baseurl = baseurl or name
        self.hostname = hostname or socket.gethostname()
        self.kid = {"sig": {}, "enc": {}}
        self.config = config or {}
        self.behavior = behavior or {}
        self.token_policy = {'access_token': {}, 'refresh_token': {}}
        if lifetime_policy is None:
            self.lifetime_policy = {
                'access_token': {
                    'code': 600,
                    'token': 120,
                    'implicit': 120,
                    'authorization_code': 600,
                    'client_credentials': 600,
                    'password': 600
                },
                'refresh_token': {
                    'code': 3600,
                    'token': 3600,
                    'implicit': 3600,
                    'authorization_code': 3600,
                    'client_credentials': 3600,
                    'password': 3600
                }
            }
        else:
            self.lifetime_policy = lifetime_policy

        self.token_handler = TokenHandler(self.baseurl, self.token_policy,
                                          keyjar=self.keyjar)

    @staticmethod
    def _uris_to_tuples(uris):
        tup = []
        for uri in uris:
            base, query = splitquery(uri)
            if query:
                tup.append((base, query))
            else:
                tup.append((base, ""))
        return tup

    @staticmethod
    def _tuples_to_uris(items):
        _uri = []
        for url, query in items:
            if query:
                _uri.append("%s?%s" % (url, query))
            else:
                _uri.append(url)
        return _uri

    def load_keys(self, request, client_id, client_secret):
        try:
            self.keyjar.load_keys(request, client_id)
            try:
                n_keys = len(self.keyjar[client_id])
                msg = "Found {} keys for client_id={}"
                logger.debug(msg.format(n_keys, client_id))
            except KeyError:
                pass
        except Exception as err:
            msg = "Failed to load client keys: {}"
            logger.error(msg.format(sanitize(request.to_dict())))
            logger.error("%s", err)
            err = ClientRegistrationError(
                error="invalid_configuration_parameter",
                error_description="%s" % err)
            return Response(err.to_json(), content="application/json",
                            status="400 Bad Request")

        # Add the client_secret as a symmetric key to the keyjar
        _kc = KeyBundle([{"kty": "oct", "key": client_secret,
                          "use": "ver"},
                         {"kty": "oct", "key": client_secret,
                          "use": "sig"}])
        try:
            self.keyjar[client_id].append(_kc)
        except KeyError:
            self.keyjar[client_id] = [_kc]

    @staticmethod
    def verify_correct(cinfo, restrictions):
        for fname, arg in restrictions.items():
            func = restrict.factory(fname)
            res = func(arg, cinfo)
            if res:
                raise RestrictionError(res)

    def set_token_policy(self, cid, cinfo):
        for ttyp in ['access_token', 'refresh_token']:
            pol = {}
            for rgtyp in ['response_type', 'grant_type']:
                try:
                    rtyp = cinfo[rgtyp]
                except KeyError:
                    pass
                else:
                    for typ in rtyp:
                        try:
                            pol[typ] = self.lifetime_policy[ttyp][typ]
                        except KeyError:
                            pass

            self.token_policy[ttyp][cid] = pol

    def create_new_client(self, request, restrictions):
        """

        :param request: The Client registration request
        :param restrictions: Restrictions on the client
        :return: The client_id
        """

        _cinfo = request.to_dict()

        self.match_client_request(_cinfo)

        # create new id and secret
        _id = rndstr(12)
        while _id in self.cdb:
            _id = rndstr(12)

        _cinfo["client_id"] = _id
        _cinfo["client_secret"] = secret(self.seed, _id)
        _cinfo["client_id_issued_at"] = utc_time_sans_frac()
        _cinfo["client_secret_expires_at"] = utc_time_sans_frac() + self.secret_lifetime

        # If I support client info endpoint
        if ClientInfoEndpoint in self.endp:
            _cinfo["registration_access_token"] = rndstr(32)
            _cinfo["registration_client_uri"] = "%s%s%s?client_id=%s" % (
                self.name, self.client_info_url, ClientInfoEndpoint.etype,
                _id)

        if "redirect_uris" in request:
            _cinfo["redirect_uris"] = self._uris_to_tuples(
                request["redirect_uris"])

        self.load_keys(request, _id, _cinfo["client_secret"])

        try:
            _behav = self.behavior['client_registration']
        except KeyError:
            pass
        else:
            self.verify_correct(_cinfo, _behav)

        self.set_token_policy(_id, _cinfo)
        self.cdb[_id] = _cinfo

        return _id

    def match_client_request(self, request):
        for _pref, _prov in PREFERENCE2PROVIDER.items():
            if _pref in request:
                if _pref == "response_types":
                    for val in request[_pref]:
                        match = False
                        p = set(val.split(" "))
                        for cv in self.capabilities[_prov]:
                            if p == set(cv.split(' ')):
                                match = True
                                break
                        if not match:
                            raise CapabilitiesMisMatch(
                                'Not allowed {}'.format(_pref))
                else:
                    if isinstance(request[_pref], six.string_types):
                        if request[_pref] not in self.capabilities[_prov]:
                            raise CapabilitiesMisMatch(
                                'Not allowed {}'.format(_pref))
                    else:
                        if not set(request[_pref]).issubset(
                                set(self.capabilities[_prov])):
                            raise CapabilitiesMisMatch(
                                'Not allowed {}'.format(_pref))

    def client_info(self, client_id):
        _cinfo = self.cdb[client_id].copy()
        if not valid_client_info(_cinfo):
            err = ErrorResponse(
                error="invalid_client",
                error_description="Invalid client secret")
            return BadRequest(err.to_json(), content="application/json")

        try:
            _cinfo["redirect_uris"] = self._tuples_to_uris(
                _cinfo["redirect_uris"])
        except KeyError:
            pass

        msg = ClientInfoResponse(**_cinfo)
        return Response(msg.to_json(), content="application/json")

    def client_info_update(self, client_id, request):
        _cinfo = self.cdb[client_id].copy()
        try:
            _cinfo["redirect_uris"] = self._tuples_to_uris(
                _cinfo["redirect_uris"])
        except KeyError:
            pass

        for key, value in request.items():
            if key in ["client_secret", "client_id"]:
                # assure it's the same
                try:
                    assert value == _cinfo[key]
                except AssertionError:
                    raise ModificationForbidden("Not allowed to change")
            else:
                _cinfo[key] = value

        for key in list(_cinfo.keys()):
            if key in ["client_id_issued_at", "client_secret_expires_at",
                       "registration_access_token", "registration_client_uri"]:
                continue
            if key not in request:
                del _cinfo[key]

        if "redirect_uris" in request:
            _cinfo["redirect_uris"] = self._uris_to_tuples(
                request["redirect_uris"])

        self.cdb[client_id] = _cinfo

    def verify_client(self, environ, areq, authn_method, client_id=""):
        """

        :param environ: WSGI environ
        :param areq: The request
        :param authn_method: client authentication method
        :return:
        """

        if not client_id:
            client_id = get_client_id(self.cdb, areq,
                                      environ["HTTP_AUTHORIZATION"])

        try:
            method = self.client_authn_methods[authn_method]
        except KeyError:
            raise UnSupported()
        return method(self).verify(environ, client_id=client_id)

    def consume_software_statement(self, software_statement):
        return {}

    def registration_endpoint(self, **kwargs):
        """

        :param request: The request
        :param authn: Client authentication information
        :param kwargs: extra keyword arguments
        :return: A Response instance
        """

        _request = RegistrationRequest().deserialize(kwargs['request'], "json")
        try:
            _request.verify(keyjar=self.keyjar)
        except InvalidRedirectUri as err:
            msg = ClientRegistrationError(error="invalid_redirect_uri",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")
        except (MissingPage, VerificationError) as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")

        # If authentication is necessary at registration
        if self.authn_at_registration:
            try:
                self.verify_client(kwargs['environ'], _request,
                                   self.authn_at_registration)
            except (AuthnFailure, UnknownAssertionType):
                return Unauthorized()

        client_restrictions = {}
        if 'parsed_software_statement' in _request:
            for ss in _request['parsed_software_statement']:
                client_restrictions.update(self.consume_software_statement(ss))
            del _request['software_statement']
            del _request['parsed_software_statement']

        try:
            client_id = self.create_new_client(_request, client_restrictions)
        except CapabilitiesMisMatch as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")
        except RestrictionError as err:
            msg = ClientRegistrationError(error="invalid_client_metadata",
                                          error_description="%s" % err)
            return BadRequest(msg.to_json(), content="application/json")

        return self.client_info(client_id)

    def client_info_endpoint(self, method="GET", **kwargs):
        """
        Operations on this endpoint are switched through the use of different
        HTTP methods

        :param method: HTTP method used for the request
        :param kwargs: keyword arguments
        :return: A Response instance
        """

        _query = compact(parse_qs(kwargs['query']))
        try:
            _id = _query["client_id"]
        except KeyError:
            return BadRequest("Missing query component")

        try:
            assert _id in self.cdb
        except AssertionError:
            return Unauthorized()

        # authenticated client
        try:
            self.verify_client(kwargs['environ'], kwargs['request'],
                               "bearer_header", client_id=_id)
        except (AuthnFailure, UnknownAssertionType):
            return Unauthorized()

        if method == "GET":
            return self.client_info(_id)
        elif method == "PUT":
            try:
                _request = ClientUpdateRequest().from_json(kwargs['request'])
            except ValueError as err:
                return BadRequest(str(err))

            try:
                _request.verify()
            except InvalidRedirectUri as err:
                msg = ClientRegistrationError(error="invalid_redirect_uri",
                                              error_description="%s" % err)
                return BadRequest(msg.to_json(), content="application/json")
            except (MissingPage, VerificationError) as err:
                msg = ClientRegistrationError(error="invalid_client_metadata",
                                              error_description="%s" % err)
                return BadRequest(msg.to_json(), content="application/json")

            try:
                self.client_info_update(_id, _request)
                return self.client_info(_id)
            except ModificationForbidden:
                return Forbidden()
        elif method == "DELETE":
            try:
                del self.cdb[_id]
            except KeyError:
                return Unauthorized()
            else:
                return NoContent()

    def provider_features(self, pcr_class=ServerMetadata, provider_config=None):
        """
        Specifies what the server capabilities are.

        :param pcr_class:
        :return: ProviderConfigurationResponse instance
        """

        _provider_info = pcr_class(**CAPABILITIES)
        _provider_info["scopes_supported"] = self.scopes

        sign_algs = list(jws.SIGNER_ALGS.keys())
        sign_algs.remove('none')
        sign_algs = sorted(sign_algs, key=cmp_to_key(sort_sign_alg))

        _pat1 = "{}_endpoint_auth_signing_alg_values_supported"
        _pat2 = "{}_endpoint_auth_methods_supported"
        for typ in ["token", "revocation", "introspection"]:
            _provider_info[_pat1.format(typ)] = sign_algs
            _provider_info[_pat2.format(typ)] = AUTH_METHODS_SUPPORTED

        if provider_config:
            _provider_info.update(provider_config)

        return _provider_info

    def verify_capabilities(self, capabilities):
        """
        Verify that what the admin wants the server to do actually
        can be done by this implementation.

        :param capabilities: The asked for capabilities as a dictionary
        or a ProviderConfigurationResponse instance. The later can be
        treated as a dictionary.
        :return: True or False
        """
        _pinfo = self.provider_features()
        for key, val in capabilities.items():
            if isinstance(val, six.string_types):
                try:
                    if val in _pinfo[key]:
                        continue
                    else:
                        return False
                except KeyError:
                    return False

        return True

    def create_providerinfo(self, pcr_class=ASConfigurationResponse,
                            setup=None):
        """
        Dynamically create the provider info response
        :param pcr_class:
        :param setup:
        :return:
        """

        _provider_info = self.capabilities

        if self.jwks_uri and self.keyjar:
            _provider_info["jwks_uri"] = self.jwks_uri

        for endp in self.endp:
            # _log_info("# %s, %s" % (endp, endp.name))
            _provider_info['{}_endpoint'.format(endp.etype)] = os.path.join(
                self.baseurl, endp.url)

        if setup and isinstance(setup, dict):
            for key in pcr_class.c_param.keys():
                if key in setup:
                    _provider_info[key] = setup[key]

        _provider_info["issuer"] = self.baseurl
        _provider_info["version"] = "3.0"

        return _provider_info

    def providerinfo_endpoint(self, **kwargs):
        _log_info = logger.info

        _log_info("@providerinfo_endpoint")
        try:
            _response = self.create_providerinfo()
            _log_info("provider_info_response: %s" % (_response.to_dict(),))

            headers = [("Cache-Control", "no-store"), ("x-ffo", "bar")]
            if 'handle' in kwargs:
                (key, timestamp) = kwargs['handle']
                if key.startswith(STR) and key.endswith(STR):
                    cookie = self.cookie_func(key, self.cookie_name, "pinfo",
                                              self.sso_ttl)
                    headers.append(cookie)

            resp = Response(_response.to_json(), content="application/json",
                            headers=headers)
        except Exception:
            message = traceback.format_exception(*sys.exc_info())
            logger.error(message)
            resp = Response(message, content="html/text")

        return resp

    @staticmethod
    def verify_code_challenge(code_verifier, code_challenge,
                              code_challenge_method='S256'):
        """
        Verify a PKCE (RFC7636) code challenge

        :param code_verifier: The origin
        :param code_challenge: The transformed verifier used as challenge
        :return:
        """
        _h = CC_METHOD[code_challenge_method](
            code_verifier.encode()).hexdigest()
        _cc = b64e(_h.encode())
        if _cc.decode() != code_challenge:
            logger.error('PCKE Code Challenge check failed')
            err = TokenErrorResponse(error="invalid_request",
                                     error_description="PCKE check failed")
            return Response(err.to_json(), content="application/json",
                            status="401 Unauthorized")
        return True

    def do_access_token_response(self, access_token, atinfo, state,
                                 refresh_token=None):
        _tinfo = {'access_token': access_token, 'expires_in': atinfo['exp'],
                  'token_type': 'bearer', 'state': state}
        try:
            _tinfo['scope'] = atinfo['scope']
        except KeyError:
            pass

        if refresh_token:
            _tinfo['refresh_token'] = refresh_token

        return AccessTokenResponse(**by_schema(AccessTokenResponse, **_tinfo))

    def code_grant_type(self, areq):
        # assert that the code is valid
        try:
            _info = self.sdb[areq["code"]]
        except KeyError:
            err = TokenErrorResponse(error="invalid_grant",
                                     error_description="Unknown access grant")
            return Response(err.to_json(), content="application/json",
                            status="401 Unauthorized")

        authzreq = json.loads(_info['authzreq'])
        if 'code_verifier' in areq:
            try:
                _method = authzreq['code_challenge_method']
            except KeyError:
                _method = 'S256'

            resp = self.verify_code_challenge(areq['code_verifier'],
                                              authzreq['code_challenge'],
                                              _method)
            if resp:
                return resp

        if 'state' in areq:
            if self.sdb[areq['code']]['state'] != areq['state']:
                logger.error('State value mismatch')
                err = TokenErrorResponse(error="unauthorized_client")
                return Unauthorized(err.to_json(), content="application/json")

        resp = self.token_scope_check(areq, _info)
        if resp:
            return resp

        # If redirect_uri was in the initial authorization request
        # verify that the one given here is the correct one.
        if "redirect_uri" in _info:
            assert areq["redirect_uri"] == _info["redirect_uri"]

        issue_refresh = False
        if 'scope' in authzreq and 'offline_access' in authzreq['scope']:
            if authzreq['response_type'] == 'code':
                issue_refresh = True

        try:
            _tinfo = self.sdb.upgrade_to_token(areq["code"],
                                               issue_refresh=issue_refresh)
        except AccessCodeUsed:
            err = TokenErrorResponse(error="invalid_grant",
                                     error_description="Access grant used")
            return Response(err.to_json(), content="application/json",
                            status="401 Unauthorized")

        logger.debug("_tinfo: %s" % _tinfo)

        atr = AccessTokenResponse(**by_schema(AccessTokenResponse, **_tinfo))

        logger.debug("AccessTokenResponse: %s" % atr)

        return Response(atr.to_json(), content="application/json")

    def client_credentials_grant_type(self, areq):
        _at = self.token_handler.get_access_token(areq['client_id'],
                                                  scope=areq['scope'],
                                                  grant_type='client_credentials')
        _info = self.token_handler.token_factory.get_info(_at)
        try:
            _rt = self.token_handler.get_refresh_token(
                self.baseurl, _info['access_token'], 'client_credentials')
        except NotAllowed:
            atr = self.do_access_token_response(_at, _info, areq['state'])
        else:
            atr = self.do_access_token_response(_at, _info, areq['state'], _rt)

        return Response(atr.to_json(), content="application/json")

    def password_grant_type(self, areq):
        _at = self.token_handler.get_access_token(areq['client_id'],
                                                  scope=areq['scope'],
                                                  grant_type='password')
        _info = self.token_handler.token_factory.get_info(_at)
        try:
            _rt = self.token_handler.get_refresh_token(
                self.baseurl, _info['access_token'], 'password')
        except NotAllowed:
            atr = self.do_access_token_response(_at, _info, areq['state'])
        else:
            atr = self.do_access_token_response(_at, _info, areq['state'], _rt)

        return Response(atr.to_json(), content="application/json")

    def refresh_token_grant_type(self, areq):
        at = self.token_handler.refresh_access_token(
            self.baseurl, areq['access_token'], 'refresh_token')

        atr = AccessTokenResponse(**by_schema(AccessTokenResponse, **at))
        return Response(atr.to_json(), content="application/json")

    def token_endpoint(self, authn="", **kwargs):
        """
        This is where clients come to get their access tokens
        """

        logger.debug("- token -")
        body = kwargs["request"]
        logger.debug("body: %s" % body)

        areq = AccessTokenRequest().deserialize(body, "urlencoded")

        try:
            self.client_authn(self, areq, authn)
        except FailedAuthentication as err:
            logger.error(err)
            err = TokenErrorResponse(error="unauthorized_client",
                                     error_description="%s" % err)
            return Response(err.to_json(), content="application/json",
                            status="401 Unauthorized")

        logger.debug("AccessTokenRequest: %s" % areq)

        _grant_type = areq["grant_type"]
        if _grant_type == "authorization_code":
            return self.code_grant_type(areq)
        elif _grant_type == 'client_credentials':
            return self.client_credentials_grant_type(areq)
        elif _grant_type == 'password':
            return self.password_grant_type(areq)
        elif _grant_type == 'refresh_token':
            return self.refresh_token_grant_type(areq)
        else:
            raise UnSupported('grant_type: {}'.format(_grant_type))

    def key_setup(self, local_path, vault="keys", sig=None, enc=None):
        """
        my keys
        :param local_path: The path to where the JWKs should be stored
        :param vault: Where the private key will be stored
        :param sig: Key for signature
        :param enc: Key for encryption
        :return: A URL the RP can use to download the key.
        """
        self.jwks_uri = key_export(self.baseurl, local_path, vault, self.keyjar,
                                   fqdn=self.hostname, sig=sig, enc=enc)

    @staticmethod
    def token_access(endpoint, client_id, token_info):
        # simple rules: if client_id in azp or aud it's allow to introspect
        # to revoke it has to be in azr
        allow = False
        if endpoint == 'revocation_endpoint':
            if 'azr' in token_info and client_id == token_info['azr']:
                allow = True
            elif len(token_info['aud']) == 1 and token_info['aud'] == [client_id]:
                allow = True
        else:  # has to be introspection endpoint
            if 'azr' in token_info and client_id == token_info['azr']:
                allow = True
            elif 'aud' in token_info:
                if client_id in token_info['aud']:
                    allow = True
        return allow

    def get_token_info(self, authn, req, endpoint):
        """

        :param authn:
        :param req:
        :return:
        """
        try:
            client_id = self.client_authn(self, req, authn)
        except FailedAuthentication as err:
            logger.error(err)
            err = TokenErrorResponse(error="unauthorized_client",
                                     error_description="%s" % err)
            return Response(err.to_json(), content="application/json",
                            status="401 Unauthorized")

        logger.debug('{}: {} requesting {}'.format(endpoint, client_id,
                                                   req.to_dict()))

        try:
            token_type = req['token_type_hint']
        except KeyError:
            try:
                _info = self.sdb.token_factory['access_token'].info(
                    req['token'])
            except KeyError:
                try:
                    _info = self.sdb.token_factory['refresh_token'].get_info(
                        req['token'])
                except KeyError:
                    raise
                else:
                    token_type = 'refresh_token'
            else:
                token_type = 'access_token'
        else:
            try:
                _info = self.sdb.token_factory[token_type].get_info(
                    req['token'])
            except KeyError:
                raise

        if not self.token_access(endpoint, client_id, _info):
            return BadRequest()

        return client_id, token_type, _info

    def revocation_endpoint(self, authn='', request=None, **kwargs):
        """
        Implements RFC7009 allows a client to invalidate an access or refresh
        token.

        :param authn: Client Authentication information
        :param request: The revocation request
        :param kwargs:
        :return:
        """

        trr = TokenRevocationRequest().deserialize(request, "urlencoded")

        resp = self.get_token_info(authn, trr, 'revocation_endpoint')

        if isinstance(resp, Response):
            return resp
        else:
            client_id, token_type, _info = resp

        logger.info('{} token revocation: {}'.format(client_id, trr.to_dict()))

        try:
            self.sdb.token_factory[token_type].invalidate(trr['token'])
        except KeyError:
            return BadRequest()
        else:
            return Response('OK')

    def introspection_endpoint(self, authn='', request=None, **kwargs):
        """
        Implements RFC7662

        :param authn: Client Authentication information
        :param request: The introspection request
        :param kwargs:
        :return:
        """

        tir = TokenIntrospectionRequest().deserialize(request, "urlencoded")

        resp = self.get_token_info(authn, tir, 'introspection_endpoint')

        if isinstance(resp, Response):
            return resp
        else:
            client_id, token_type, _info = resp

        logger.info('{} token introspection: {}'.format(client_id,
                                                        tir.to_dict()))

        ir = TokenIntrospectionResponse(
            active=self.sdb.token_factory[token_type].is_valid(_info),
            **_info.to_dict())

        ir.weed()

        return Response(ir.to_json(), content="application/json")
Ejemplo n.º 41
0
    @staticmethod
    def get_instance():
        """
        Returns an instance of the singleton class.
        """
        if not TestConfiguration._instance:
            TestConfiguration._instance = TestConfiguration()
        return TestConfiguration._instance


CLIENT_ID = "client_1"

_, idp_key_file = FileGenerator.get_instance().generate_cert("idp")
KC_RSA = keybundle_from_local_file(idp_key_file.name, "RSA", ["ver", "sig"],
                                   "op_sign")
KEYJAR = KeyJar()
KEYJAR[CLIENT_ID] = [KC_RSA]
KEYJAR[""] = KC_RSA
JWKS = KEYJAR.export_jwks()

CDB = {
    CLIENT_ID: {
        "client_secret":
        "client_secret",
        "redirect_uris":
        [("%sauthz" % TestConfiguration.get_instance().rp_base, None)],
        "client_salt":
        "salted",
        "response_types": ["code", "token"]
    }
}
Ejemplo n.º 42
0
import argparse
import json
import os

from oic.utils.keyio import KeyJar

from fedoidc import MetadataStatement
from fedoidc.signing_service import InternalSigningService

parser = argparse.ArgumentParser()
parser.add_argument('-r', dest='request')
parser.add_argument('-a', dest='alg', default='RS256')
parser.add_argument(dest="nickname")
args = parser.parse_args()

if not os.path.isdir(args.nickname):
    print('No such entity')
    exit(-1)

kj = KeyJar()
iss = open(os.path.join(args.nickname, 'iss')).read()
jwks = open(os.path.join(args.nickname, 'jwks')).read()
kj.import_jwks(jwks=json.loads(jwks), issuer=iss)

sigserv = InternalSigningService(iss=iss, signing_keys=kj, alg=args.alg)

msg = MetadataStatement()
msg.from_json(open(args.request).read())

print(sigserv(msg))
Ejemplo n.º 43
0
class Client(oauth2.Client):
    def __init__(self,
                 client_id=None,
                 ca_certs=None,
                 client_authn_method=None,
                 keyjar=None,
                 verify_ssl=True):
        oauth2.Client.__init__(self,
                               client_id=client_id,
                               ca_certs=ca_certs,
                               client_authn_method=client_authn_method,
                               keyjar=keyjar,
                               verify_ssl=verify_ssl)
        self.allow = {}
        self.request2endpoint.update({
            "RegistrationRequest":
            "registration_endpoint",
            "ClientUpdateRequest":
            "clientinfo_endpoint"
        })
        self.registration_response = None

    def construct_RegistrationRequest(self,
                                      request=RegistrationRequest,
                                      request_args=None,
                                      extra_args=None,
                                      **kwargs):

        if request_args is None:
            request_args = {}

        return self.construct_request(request, request_args, extra_args)

    def construct_ClientUpdateRequest(self,
                                      request=ClientUpdateRequest,
                                      request_args=None,
                                      extra_args=None,
                                      **kwargs):

        if request_args is None:
            request_args = {}

        return self.construct_request(request, request_args, extra_args)

    def do_client_registration(self,
                               request=RegistrationRequest,
                               body_type="",
                               method="GET",
                               request_args=None,
                               extra_args=None,
                               http_args=None,
                               response_cls=ClientInfoResponse,
                               **kwargs):

        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(http_args)

        resp = self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       http_args=http_args)

        return resp

    def do_client_read_request(self,
                               request=ClientUpdateRequest,
                               body_type="",
                               method="GET",
                               request_args=None,
                               extra_args=None,
                               http_args=None,
                               response_cls=ClientInfoResponse,
                               **kwargs):

        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(http_args)

        resp = self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       http_args=http_args)

        return resp

    def do_client_update_request(self,
                                 request=ClientUpdateRequest,
                                 body_type="",
                                 method="PUT",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 response_cls=ClientInfoResponse,
                                 **kwargs):

        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(http_args)

        resp = self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       http_args=http_args)

        return resp

    def do_client_delete_request(self,
                                 request=ClientUpdateRequest,
                                 body_type="",
                                 method="DELETE",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 response_cls=ClientInfoResponse,
                                 **kwargs):

        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(http_args)

        resp = self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       http_args=http_args)

        return resp

    def handle_provider_config(self, pcr, issuer, keys=True, endpoints=True):
        """
        Deal with Provider Config Response
        :param pcr: The ProviderConfigResponse instance
        :param issuer: The one I thought should be the issuer of the config
        :param keys: Should I deal with keys
        :param endpoints: Should I deal with endpoints, that is store them
        as attributes in self.
        """

        if "issuer" in pcr:
            _pcr_issuer = pcr["issuer"]
            if pcr["issuer"].endswith("/"):
                if issuer.endswith("/"):
                    _issuer = issuer
                else:
                    _issuer = issuer + "/"
            else:
                if issuer.endswith("/"):
                    _issuer = issuer[:-1]
                else:
                    _issuer = issuer

            try:
                _ = self.allow["issuer_mismatch"]
            except KeyError:
                try:
                    assert _issuer == _pcr_issuer
                except AssertionError:
                    raise PyoidcError(
                        "provider info issuer mismatch '%s' != '%s'" %
                        (_issuer, _pcr_issuer))

            self.provider_info = pcr
        else:
            _pcr_issuer = issuer

        if endpoints:
            for key, val in pcr.items():
                if key.endswith("_endpoint"):
                    setattr(self, key, val)

        if keys:
            if self.keyjar is None:
                self.keyjar = KeyJar()

            self.keyjar.load_keys(pcr, _pcr_issuer)

    def provider_config(self,
                        issuer,
                        keys=True,
                        endpoints=True,
                        response_cls=ProviderConfigurationResponse,
                        serv_pattern=OIDCONF_PATTERN):
        if issuer.endswith("/"):
            _issuer = issuer[:-1]
        else:
            _issuer = issuer

        url = serv_pattern % _issuer

        pcr = None
        r = self.http_request(url)
        if r.status_code == 200:
            pcr = response_cls().from_json(r.text)
        elif r.status_code == 302:
            while r.status_code == 302:
                r = self.http_request(r.headers["location"])
                if r.status_code == 200:
                    pcr = response_cls().from_json(r.text)
                    break

        if pcr is None:
            raise PyoidcError("Trying '%s', status %s" % (url, r.status_code))

        self.handle_provider_config(pcr, issuer, keys, endpoints)

        return pcr

    def store_registration_info(self, reginfo):
        self.registration_response = reginfo
        self.client_secret = reginfo["client_secret"]
        self.client_id = reginfo["client_id"]
        self.redirect_uris = reginfo["redirect_uris"]

    def handle_registration_info(self, response):
        if response.status_code in [200, 201]:
            resp = ClientInfoResponse().deserialize(response.text, "json")
            self.store_registration_info(resp)
        else:
            err = ErrorResponse().deserialize(response.text, "json")
            raise PyoidcError("Registration failed: %s" % err.to_json())

        return resp

    def register(self, url, **kwargs):
        """
        Register the client at an OP

        :param url: The OPs registration endpoint
        :param kwargs: parameters to the registration request
        :return:
        """
        req = self.construct_RegistrationRequest(request_args=kwargs)

        headers = {"content-type": "application/json"}

        rsp = self.http_request(url,
                                "POST",
                                data=req.to_json(),
                                headers=headers)

        return self.handle_registration_info(rsp)

    def parse_authz_response(self, query):
        aresp = self.parse_response(AuthorizationResponse,
                                    info=query,
                                    sformat="urlencoded",
                                    keyjar=self.keyjar)
        if aresp.type() == "ErrorResponse":
            logger.info("ErrorResponse: %s" % aresp)
            raise AuthzError(aresp.error)

        logger.info("Aresp: %s" % aresp)

        return aresp
Ejemplo n.º 44
0
 def test_no_use(self):
     kb = KeyBundle(JWK0["keys"])
     kj = KeyJar()
     kj.issuer_keys["abcdefgh"] = [kb]
     enc_key = kj.get_encrypt_key("RSA", "abcdefgh")
     assert enc_key != []
Ejemplo n.º 45
0
class Client(PBase):
    _endpoints = ENDPOINTS

    def __init__(self, client_id=None, ca_certs=None, client_authn_method=None,
                 keyjar=None, verify_ssl=True, config=None, client_cert=None):
        """

        :param client_id: The client identifier
        :param ca_certs: Certificates used to verify HTTPS certificates
        :param client_authn_method: Methods that this client can use to
            authenticate itself. It's a dictionary with method names as
            keys and method classes as values.
        :param verify_ssl: Whether the SSL certificate should be verified.
        :return: Client instance
        """

        PBase.__init__(self, ca_certs, verify_ssl=verify_ssl,
                       client_cert=client_cert, keyjar=keyjar)

        self.client_id = client_id
        self.client_authn_method = client_authn_method
        self.verify_ssl = verify_ssl
        # self.secret_type = "basic "

        # self.state = None
        self.nonce = None

        self.grant = {}
        self.state2nonce = {}
        # own endpoint
        self.redirect_uris = [None]

        # service endpoints
        self.authorization_endpoint = None
        self.token_endpoint = None
        self.token_revocation_endpoint = None

        self.request2endpoint = REQUEST2ENDPOINT
        self.response2error = RESPONSE2ERROR
        self.grant_class = Grant
        self.token_class = Token

        self.provider_info = {}
        self._c_secret = None
        self.kid = {"sig": {}, "enc": {}}
        self.authz_req = None

        # the OAuth issuer is the URL of the authorization server's
        # configuration information location
        self.config = config or {}
        try:
            self.issuer = self.config['issuer']
        except KeyError:
            self.issuer = ''
        self.allow = {}
        self.provider_info = {}

    def store_response(self, clinst, text):
        pass

    def get_client_secret(self):
        return self._c_secret

    def set_client_secret(self, val):
        if not val:
            self._c_secret = ""
        else:
            self._c_secret = val
            # client uses it for signing
            # Server might also use it for signing which means the
            # client uses it for verifying server signatures
            if self.keyjar is None:
                self.keyjar = KeyJar()
            self.keyjar.add_symmetric("", str(val))

    client_secret = property(get_client_secret, set_client_secret)

    def reset(self):
        # self.state = None
        self.nonce = None

        self.grant = {}

        self.authorization_endpoint = None
        self.token_endpoint = None
        self.redirect_uris = None

    def grant_from_state(self, state):
        for key, grant in self.grant.items():
            if key == state:
                return grant

        return None

    def _parse_args(self, request, **kwargs):
        ar_args = kwargs.copy()

        for prop in request.c_param.keys():
            if prop in ar_args:
                continue
            else:
                if prop == "redirect_uri":
                    _val = getattr(self, "redirect_uris", [None])[0]
                    if _val:
                        ar_args[prop] = _val
                else:
                    _val = getattr(self, prop, None)
                    if _val:
                        ar_args[prop] = _val

        return ar_args

    def _endpoint(self, endpoint, **kwargs):
        try:
            uri = kwargs[endpoint]
            if uri:
                del kwargs[endpoint]
        except KeyError:
            uri = ""

        if not uri:
            try:
                uri = getattr(self, endpoint)
            except Exception:
                raise MissingEndpoint("No '%s' specified" % endpoint)

        if not uri:
            raise MissingEndpoint("No '%s' specified" % endpoint)

        return uri

    def get_grant(self, state, **kwargs):
        # try:
        # _state = kwargs["state"]
        # if not _state:
        #         _state = self.state
        # except KeyError:
        #     _state = self.state

        try:
            return self.grant[state]
        except KeyError:
            raise GrantError("No grant found for state:'%s'" % state)

    def get_token(self, also_expired=False, **kwargs):
        try:
            return kwargs["token"]
        except KeyError:
            grant = self.get_grant(**kwargs)

            try:
                token = grant.get_token(kwargs["scope"])
            except KeyError:
                token = grant.get_token("")
                if not token:
                    try:
                        token = self.grant[kwargs["state"]].get_token("")
                    except KeyError:
                        raise TokenError("No token found for scope")

        if token is None:
            raise TokenError("No suitable token found")

        if also_expired:
            return token
        elif token.is_valid():
            return token
        else:
            raise TokenError("Token has expired")

    def construct_request(self, request, request_args=None, extra_args=None):
        if request_args is None:
            request_args = {}

        # logger.debug("request_args: %s" % sanitize(request_args))
        kwargs = self._parse_args(request, **request_args)

        if extra_args:
            kwargs.update(extra_args)
            # logger.debug("kwargs: %s" % sanitize(kwargs))
        # logger.debug("request: %s" % sanitize(request))
        return request(**kwargs)

    def construct_Message(self, request=Message, request_args=None,
                          extra_args=None, **kwargs):

        return self.construct_request(request, request_args, extra_args)

    def construct_AuthorizationRequest(self, request=AuthorizationRequest,
                                       request_args=None, extra_args=None,
                                       **kwargs):

        if request_args is not None:
            try:  # change default
                new = request_args["redirect_uri"]
                if new:
                    self.redirect_uris = [new]
            except KeyError:
                pass
        else:
            request_args = {}

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id

        return self.construct_request(request, request_args, extra_args)

    def construct_AccessTokenRequest(self,
                                     request=AccessTokenRequest,
                                     request_args=None, extra_args=None,
                                     **kwargs):

        if request_args is None:
            request_args = {}
        if request is not ROPCAccessTokenRequest:
            grant = self.get_grant(**kwargs)

            if not grant.is_valid():
                raise GrantExpired("Authorization Code to old %s > %s" % (
                    utc_time_sans_frac(),
                    grant.grant_expiration_time))

            request_args["code"] = grant.code

        try:
            request_args['state'] = kwargs['state']
        except KeyError:
            pass

        if "grant_type" not in request_args:
            request_args["grant_type"] = "authorization_code"

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id
        return self.construct_request(request, request_args, extra_args)

    def construct_RefreshAccessTokenRequest(self,
                                            request=RefreshAccessTokenRequest,
                                            request_args=None, extra_args=None,
                                            **kwargs):

        if request_args is None:
            request_args = {}

        token = self.get_token(also_expired=True, **kwargs)

        request_args["refresh_token"] = token.refresh_token

        try:
            request_args["scope"] = token.scope
        except AttributeError:
            pass

        return self.construct_request(request, request_args, extra_args)

    # def construct_TokenRevocationRequest(self,
    #                                      request=TokenRevocationRequest,
    #                                      request_args=None, extra_args=None,
    #                                      **kwargs):
    #
    #     if request_args is None:
    #         request_args = {}
    #
    #     token = self.get_token(**kwargs)
    #
    #     request_args["token"] = token.access_token
    #     return self.construct_request(request, request_args, extra_args)

    def construct_ResourceRequest(self, request=ResourceRequest,
                                  request_args=None, extra_args=None,
                                  **kwargs):

        if request_args is None:
            request_args = {}

        token = self.get_token(**kwargs)

        request_args["access_token"] = token.access_token
        return self.construct_request(request, request_args, extra_args)

    def uri_and_body(self, reqmsg, cis, method="POST", request_args=None,
                     **kwargs):

        if "endpoint" in kwargs and kwargs["endpoint"]:
            uri = kwargs["endpoint"]
        else:
            uri = self._endpoint(self.request2endpoint[reqmsg.__name__],
                                 **request_args)

        uri, body, kwargs = get_or_post(uri, method, cis, **kwargs)
        try:
            h_args = {"headers": kwargs["headers"]}
        except KeyError:
            h_args = {}

        return uri, body, h_args, cis

    def request_info(self, request, method="POST", request_args=None,
                     extra_args=None, lax=False, **kwargs):

        if request_args is None:
            request_args = {}

        try:
            cls = getattr(self, "construct_%s" % request.__name__)
            cis = cls(request_args=request_args, extra_args=extra_args,
                      **kwargs)
        except AttributeError:
            cis = self.construct_request(request, request_args, extra_args)

        if self.events:
            self.events.store('Protocol request', cis)

        if 'nonce' in cis and 'state' in cis:
            self.state2nonce[cis['state']] = cis['nonce']

        cis.lax = lax

        if "authn_method" in kwargs:
            h_arg = self.init_authentication_method(cis,
                                                    request_args=request_args,
                                                    **kwargs)
        else:
            h_arg = None

        if h_arg:
            if "headers" in kwargs.keys():
                kwargs["headers"].update(h_arg["headers"])
            else:
                kwargs["headers"] = h_arg["headers"]

        return self.uri_and_body(request, cis, method, request_args,
                                 **kwargs)

    def authorization_request_info(self, request_args=None, extra_args=None,
                                   **kwargs):
        return self.request_info(AuthorizationRequest, "GET",
                                 request_args, extra_args, **kwargs)

    def get_urlinfo(self, info):
        if '?' in info or '#' in info:
            parts = urlparse(info)
            scheme, netloc, path, params, query, fragment = parts[:6]
            # either query of fragment
            if query:
                info = query
            else:
                info = fragment
        return info

    def parse_response(self, response, info="", sformat="json", state="",
                       **kwargs):
        """
        Parse a response

        :param response: Response type
        :param info: The response, can be either in a JSON or an urlencoded
            format
        :param sformat: Which serialization that was used
        :param state: The state
        :param kwargs: Extra key word arguments
        :return: The parsed and to some extend verified response
        """

        _r2e = self.response2error

        if sformat == "urlencoded":
            info = self.get_urlinfo(info)

        # if self.events:
        #    self.events.store('Response', info)
        resp = response().deserialize(info, sformat, **kwargs)
        msg = 'Initial response parsing => "{}"'
        logger.debug(msg.format(sanitize(resp.to_dict())))
        if self.events:
            self.events.store('Response', resp.to_dict())

        if "error" in resp and not isinstance(resp, ErrorResponse):
            resp = None
            try:
                errmsgs = _r2e[response.__name__]
            except KeyError:
                errmsgs = [ErrorResponse]

            try:
                for errmsg in errmsgs:
                    try:
                        resp = errmsg().deserialize(info, sformat)
                        resp.verify()
                        break
                    except Exception:
                        resp = None
            except KeyError:
                pass
        elif resp.only_extras():
            resp = None
        else:
            kwargs["client_id"] = self.client_id
            try:
                kwargs['iss'] = self.provider_info['issuer']
            except (KeyError, AttributeError):
                if self.issuer:
                    kwargs['iss'] = self.issuer

            if "key" not in kwargs and "keyjar" not in kwargs:
                kwargs["keyjar"] = self.keyjar

            logger.debug("Verify response with {}".format(sanitize(kwargs)))
            verf = resp.verify(**kwargs)

            if not verf:
                logger.error('Verification of the response failed')
                raise PyoidcError("Verification of the response failed")
            if resp.type() == "AuthorizationResponse" and "scope" not in resp:
                try:
                    resp["scope"] = kwargs["scope"]
                except KeyError:
                    pass

        if not resp:
            logger.error('Missing or faulty response')
            raise ResponseError("Missing or faulty response")

        self.store_response(resp, info)

        if resp.type() in ["AuthorizationResponse", "AccessTokenResponse"]:
            try:
                _state = resp["state"]
            except (AttributeError, KeyError):
                _state = ""

            if not _state:
                _state = state

            try:
                self.grant[_state].update(resp)
            except KeyError:
                self.grant[_state] = self.grant_class(resp=resp)

        return resp

    def init_authentication_method(self, cis, authn_method, request_args=None,
                                   http_args=None, **kwargs):

        if http_args is None:
            http_args = {}
        if request_args is None:
            request_args = {}

        if authn_method:
            return self.client_authn_method[authn_method](self).construct(
                cis, request_args, http_args, **kwargs)
        else:
            return http_args

    def parse_request_response(self, reqresp, response, body_type, state="",
                               **kwargs):

        if reqresp.status_code in SUCCESSFUL:
            body_type = verify_header(reqresp, body_type)
        elif reqresp.status_code in [302, 303]:  # redirect
            return reqresp
        elif reqresp.status_code == 500:
            logger.error("(%d) %s" % (reqresp.status_code,
                                      sanitize(reqresp.text)))
            raise ParseError("ERROR: Something went wrong: %s" % reqresp.text)
        elif reqresp.status_code in [400, 401]:
            # expecting an error response
            if issubclass(response, ErrorResponse):
                pass
        else:
            logger.error("(%d) %s" % (reqresp.status_code,
                                      sanitize(reqresp.text)))
            raise HttpError("HTTP ERROR: %s [%s] on %s" % (
                reqresp.text, reqresp.status_code, reqresp.url))

        if response:
            if body_type == 'txt':
                # no meaning trying to parse unstructured text
                return reqresp.text
            return self.parse_response(response, reqresp.text, body_type,
                                       state, **kwargs)

        # could be an error response
        if reqresp.status_code in [200, 400, 401]:
            if body_type == 'txt':
                body_type = 'urlencoded'
            try:
                err = ErrorResponse().deserialize(reqresp.message,
                                                  method=body_type)
                try:
                    err.verify()
                except PyoidcError:
                    pass
                else:
                    return err
            except Exception:
                pass

        return reqresp

    def request_and_return(self, url, response=None, method="GET", body=None,
                           body_type="json", state="", http_args=None,
                           **kwargs):
        """
        :param url: The URL to which the request should be sent
        :param response: Response type
        :param method: Which HTTP method to use
        :param body: A message body if any
        :param body_type: The format of the body of the return message
        :param http_args: Arguments for the HTTP client
        :return: A cls or ErrorResponse instance or the HTTP response
            instance if no response body was expected.
        """

        if http_args is None:
            http_args = {}

        try:
            resp = self.http_request(url, method, data=body, **http_args)
        except Exception:
            raise

        if "keyjar" not in kwargs:
            kwargs["keyjar"] = self.keyjar

        return self.parse_request_response(resp, response, body_type, state,
                                           **kwargs)

    def do_authorization_request(self, request=AuthorizationRequest,
                                 state="", body_type="", method="GET",
                                 request_args=None, extra_args=None,
                                 http_args=None,
                                 response_cls=AuthorizationResponse,
                                 **kwargs):

        if state:
            try:
                request_args["state"] = state
            except TypeError:
                request_args = {"state": state}

        kwargs['authn_endpoint'] = 'authorization'
        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        try:
            self.authz_req[request_args["state"]] = csi
        except TypeError:
            pass

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        try:
            algs = kwargs["algs"]
        except KeyError:
            algs = {}

        resp = self.request_and_return(url, response_cls, method, body,
                                       body_type, state=state,
                                       http_args=http_args, algs=algs)

        if isinstance(resp, Message):
            if resp.type() in RESPONSE2ERROR["AuthorizationResponse"]:
                resp.state = csi.state

        return resp

    def do_access_token_request(self, request=AccessTokenRequest,
                                scope="", state="", body_type="json",
                                method="POST", request_args=None,
                                extra_args=None, http_args=None,
                                response_cls=AccessTokenResponse,
                                authn_method="", **kwargs):

        kwargs['authn_endpoint'] = 'token'
        # method is default POST
        url, body, ht_args, csi = self.request_info(request, method=method,
                                                    request_args=request_args,
                                                    extra_args=extra_args,
                                                    scope=scope, state=state,
                                                    authn_method=authn_method,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        if self.events is not None:
            self.events.store('request_url', url)
            self.events.store('request_http_args', http_args)
            self.events.store('Request', body)

        logger.debug("<do_access_token> URL: %s, Body: %s" % (url,
                                                              sanitize(body)))
        logger.debug("<do_access_token> response_cls: %s" % response_cls)

        return self.request_and_return(url, response_cls, method, body,
                                       body_type, state=state,
                                       http_args=http_args, **kwargs)

    def do_access_token_refresh(self, request=RefreshAccessTokenRequest,
                                state="", body_type="json", method="POST",
                                request_args=None, extra_args=None,
                                http_args=None,
                                response_cls=AccessTokenResponse,
                                authn_method="", **kwargs):

        token = self.get_token(also_expired=True, state=state, **kwargs)
        kwargs['authn_endpoint'] = 'refresh'
        url, body, ht_args, csi = self.request_info(request, method=method,
                                                    request_args=request_args,
                                                    extra_args=extra_args,
                                                    token=token,
                                                    authn_method=authn_method)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        return self.request_and_return(url, response_cls, method, body,
                                       body_type, state=state,
                                       http_args=http_args)

    # def do_revocate_token(self, request=TokenRevocationRequest,
    #                       scope="", state="", body_type="json", method="POST",
    #                       request_args=None, extra_args=None, http_args=None,
    #                       response_cls=None, authn_method=""):
    #
    #     url, body, ht_args, csi = self.request_info(request, method=method,
    #                                                 request_args=request_args,
    #                                                 extra_args=extra_args,
    #                                                 scope=scope, state=state,
    #                                                 authn_method=authn_method)
    #
    #     if http_args is None:
    #         http_args = ht_args
    #     else:
    #         http_args.update(ht_args)
    #
    #     return self.request_and_return(url, response_cls, method, body,
    #                                    body_type, state=state,
    #                                    http_args=http_args)

    def do_any(self, request, endpoint="", scope="", state="", body_type="json",
               method="POST", request_args=None, extra_args=None,
               http_args=None, response=None, authn_method=""):

        url, body, ht_args, csi = self.request_info(request, method=method,
                                                    request_args=request_args,
                                                    extra_args=extra_args,
                                                    scope=scope, state=state,
                                                    authn_method=authn_method,
                                                    endpoint=endpoint)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        return self.request_and_return(url, response, method, body, body_type,
                                       state=state, http_args=http_args)

    def fetch_protected_resource(self, uri, method="GET", headers=None,
                                 state="", **kwargs):

        if "token" in kwargs and kwargs["token"]:
            token = kwargs["token"]
            request_args = {"access_token": token}
        else:
            try:
                token = self.get_token(state=state, **kwargs)
            except ExpiredToken:
                # The token is to old, refresh
                self.do_access_token_refresh()
                token = self.get_token(state=state, **kwargs)
            request_args = {"access_token": token.access_token}

        if headers is None:
            headers = {}

        if "authn_method" in kwargs:
            http_args = self.init_authentication_method(
                request_args=request_args, **kwargs)
        else:
            # If nothing defined this is the default
            http_args = self.client_authn_method[
                "bearer_header"](self).construct(request_args=request_args)

        headers.update(http_args["headers"])

        logger.debug("Fetch URI: %s" % uri)
        return self.http_request(uri, method, headers=headers)

    def add_code_challenge(self):
        """
        PKCE RFC 7636 support

        :return:
        """
        try:
            cv_len = self.config['code_challenge']['length']
        except KeyError:
            cv_len = 64  # Use default

        code_verifier = unreserved(cv_len)
        _cv = code_verifier.encode()

        try:
            _method = self.config['code_challenge']['method']
        except KeyError:
            _method = 'S256'

        try:
            _h = CC_METHOD[_method](_cv).hexdigest()
            code_challenge = b64e(_h.encode()).decode()
        except KeyError:
            raise Unsupported(
                'PKCE Transformation method:{}'.format(_method))

        # TODO store code_verifier

        return {"code_challenge": code_challenge,
                "code_challenge_method": _method}, code_verifier

    def handle_provider_config(self, pcr, issuer, keys=True, endpoints=True):
        """
        Deal with Provider Config Response
        :param pcr: The ProviderConfigResponse instance
        :param issuer: The one I thought should be the issuer of the config
        :param keys: Should I deal with keys
        :param endpoints: Should I deal with endpoints, that is store them
        as attributes in self.
        """

        if "issuer" in pcr:
            _pcr_issuer = pcr["issuer"]
            if pcr["issuer"].endswith("/"):
                if issuer.endswith("/"):
                    _issuer = issuer
                else:
                    _issuer = issuer + "/"
            else:
                if issuer.endswith("/"):
                    _issuer = issuer[:-1]
                else:
                    _issuer = issuer

            try:
                self.allow["issuer_mismatch"]
            except KeyError:
                try:
                    assert _issuer == _pcr_issuer
                except AssertionError:
                    raise PyoidcError(
                        "provider info issuer mismatch '%s' != '%s'" % (
                            _issuer, _pcr_issuer))

            self.provider_info = pcr
        else:
            _pcr_issuer = issuer

        self.issuer = _pcr_issuer

        if endpoints:
            for key, val in pcr.items():
                if key.endswith("_endpoint"):
                    setattr(self, key, val)

        if keys:
            if self.keyjar is None:
                self.keyjar = KeyJar()

            self.keyjar.load_keys(pcr, _pcr_issuer)

    def provider_config(self, issuer, keys=True, endpoints=True,
                        response_cls=ASConfigurationResponse,
                        serv_pattern=OIDCONF_PATTERN):
        if issuer.endswith("/"):
            _issuer = issuer[:-1]
        else:
            _issuer = issuer

        url = serv_pattern % _issuer

        pcr = None
        r = self.http_request(url)
        if r.status_code == 200:
            pcr = response_cls().from_json(r.text)
        elif r.status_code == 302:
            while r.status_code == 302:
                r = self.http_request(r.headers["location"])
                if r.status_code == 200:
                    pcr = response_cls().from_json(r.text)
                    break

        if pcr is None:
            raise PyoidcError("Trying '%s', status %s" % (url, r.status_code))

        self.handle_provider_config(pcr, issuer, keys, endpoints)

        return pcr
Ejemplo n.º 46
0
            "-zuZqds6_NVlk2Ge4_IAA3TZ9tvIfM5FZVTOQsExu3_LX8FGCspWC1R"
            "-zDqT45Y9bpaCwxekluO7Q",
            "kid":
            "sign1",
        },
        {
            "k":
            b"YTEyZjBlMDgxMGI4YWU4Y2JjZDFiYTFlZTBjYzljNDU3YWM0ZWNiNzhmNmFlYTNkNTY0NzMzYjE",
            "kty": "oct",
            "use": "sig",
        },
    ]
}

kb = KeyBundle(JWKS["keys"])
KEYJAR = KeyJar()
KEYJAR.issuer_keys[""] = [kb]


class TestTokenHandler(object):
    @pytest.fixture(autouse=True)
    def create_handler(self):
        self.th = TokenHandler(
            "https://example.com/as",
            {
                "access_token": {
                    "https://example.org/rp": {
                        "client_credentials": 1200
                    }
                },
                "refresh_token": {
Ejemplo n.º 47
0
class Client(oauth2.Client):
    def __init__(self,
                 client_id=None,
                 client_authn_method=None,
                 keyjar=None,
                 verify_ssl=True,
                 config=None):
        oauth2.Client.__init__(self,
                               client_id=client_id,
                               client_authn_method=client_authn_method,
                               keyjar=keyjar,
                               verify_ssl=verify_ssl,
                               config=config)
        self.allow = {}
        self.request2endpoint.update({
            "RegistrationRequest":
            "registration_endpoint",
            "ClientUpdateRequest":
            "clientinfo_endpoint",
            'TokenIntrospectionRequest':
            'introspection_endpoint',
            'TokenRevocationRequest':
            'revocation_endpoint'
        })
        self.registration_response = None

    def construct_RegistrationRequest(self,
                                      request=RegistrationRequest,
                                      request_args=None,
                                      extra_args=None,
                                      **kwargs):

        if request_args is None:
            request_args = {}

        return self.construct_request(request, request_args, extra_args)

    def construct_ClientUpdateRequest(self,
                                      request=ClientUpdateRequest,
                                      request_args=None,
                                      extra_args=None,
                                      **kwargs):

        if request_args is None:
            request_args = {}

        return self.construct_request(request, request_args, extra_args)

    def _token_interaction_setup(self, request_args=None, **kwargs):
        if request_args is None or 'token' not in request_args:
            token = self.get_token(**kwargs)
            try:
                _token_type_hint = kwargs['token_type_hint']
            except KeyError:
                _token_type_hint = 'access_token'

            request_args = {
                'token_type_hint': _token_type_hint,
                'token': getattr(token, _token_type_hint)
            }

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id

        return request_args

    def construct_TokenIntrospectionRequest(self,
                                            request=TokenIntrospectionRequest,
                                            request_args=None,
                                            extra_args=None,
                                            **kwargs):
        request_args = self._token_interaction_setup(request_args, **kwargs)
        return self.construct_request(request, request_args, extra_args)

    def construct_TokenRevocationRequest(self,
                                         request=TokenRevocationRequest,
                                         request_args=None,
                                         extra_args=None,
                                         **kwargs):

        request_args = self._token_interaction_setup(request_args, **kwargs)

        return self.construct_request(request, request_args, extra_args)

    def do_op(self,
              request,
              body_type='',
              method='GET',
              request_args=None,
              extra_args=None,
              http_args=None,
              response_cls=None,
              **kwargs):

        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(http_args)

        resp = self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       http_args=http_args)

        return resp

    def do_client_registration(self,
                               request=RegistrationRequest,
                               body_type="",
                               method="GET",
                               request_args=None,
                               extra_args=None,
                               http_args=None,
                               response_cls=ClientInfoResponse,
                               **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def do_client_read_request(self,
                               request=ClientUpdateRequest,
                               body_type="",
                               method="GET",
                               request_args=None,
                               extra_args=None,
                               http_args=None,
                               response_cls=ClientInfoResponse,
                               **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def do_client_update_request(self,
                                 request=ClientUpdateRequest,
                                 body_type="",
                                 method="PUT",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 response_cls=ClientInfoResponse,
                                 **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def do_client_delete_request(self,
                                 request=ClientUpdateRequest,
                                 body_type="",
                                 method="DELETE",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 response_cls=ClientInfoResponse,
                                 **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def do_token_introspection(self,
                               request=TokenIntrospectionRequest,
                               body_type="json",
                               method="POST",
                               request_args=None,
                               extra_args=None,
                               http_args=None,
                               response_cls=TokenIntrospectionResponse,
                               **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def do_token_revocation(self,
                            request=TokenRevocationRequest,
                            body_type="",
                            method="POST",
                            request_args=None,
                            extra_args=None,
                            http_args=None,
                            response_cls=None,
                            **kwargs):

        return self.do_op(request=request,
                          body_type=body_type,
                          method=method,
                          request_args=request_args,
                          extra_args=extra_args,
                          http_args=http_args,
                          response_cls=response_cls,
                          **kwargs)

    def add_code_challenge(self):
        try:
            cv_len = self.config['code_challenge']['length']
        except KeyError:
            cv_len = 64  # Use default

        code_verifier = unreserved(cv_len)
        _cv = code_verifier.encode()

        try:
            _method = self.config['code_challenge']['method']
        except KeyError:
            _method = 'S256'

        try:
            _h = CC_METHOD[_method](_cv).hexdigest()
            code_challenge = b64e(_h.encode()).decode()
        except KeyError:
            raise Unsupported('PKCE Transformation method:{}'.format(_method))

        # TODO store code_verifier

        return {
            "code_challenge": code_challenge,
            "code_challenge_method": _method
        }, code_verifier

    def do_authorization_request(self,
                                 request=AuthorizationRequest,
                                 state="",
                                 body_type="",
                                 method="GET",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 response_cls=AuthorizationResponse,
                                 **kwargs):

        if 'code_challenge' in self.config and self.config['code_challenge']:
            _args, code_verifier = self.add_code_challenge()
            request_args.update(_args)

        oauth2.Client.do_authorization_request(self,
                                               request=request,
                                               state=state,
                                               body_type=body_type,
                                               method=method,
                                               request_args=request_args,
                                               extra_args=extra_args,
                                               http_args=http_args,
                                               response_cls=response_cls,
                                               **kwargs)

    def handle_provider_config(self, pcr, issuer, keys=True, endpoints=True):
        """
        Deal with Provider Config Response
        :param pcr: The ProviderConfigResponse instance
        :param issuer: The one I thought should be the issuer of the config
        :param keys: Should I deal with keys
        :param endpoints: Should I deal with endpoints, that is store them
        as attributes in self.
        """

        if "issuer" in pcr:
            _pcr_issuer = pcr["issuer"]
            if pcr["issuer"].endswith("/"):
                if issuer.endswith("/"):
                    _issuer = issuer
                else:
                    _issuer = issuer + "/"
            else:
                if issuer.endswith("/"):
                    _issuer = issuer[:-1]
                else:
                    _issuer = issuer

            if not self.allow.get("issuer_mismatch",
                                  False) and _issuer != _pcr_issuer:
                raise PyoidcError(
                    "provider info issuer mismatch '%s' != '%s'" %
                    (_issuer, _pcr_issuer))

            self.provider_info = pcr
        else:
            _pcr_issuer = issuer

        if endpoints:
            for key, val in pcr.items():
                if key.endswith("_endpoint"):
                    setattr(self, key, val)

        if keys:
            if self.keyjar is None:
                self.keyjar = KeyJar()

            self.keyjar.load_keys(pcr, _pcr_issuer)

    def provider_config(self,
                        issuer,
                        keys=True,
                        endpoints=True,
                        response_cls=ASConfigurationResponse,
                        serv_pattern=OIDCONF_PATTERN):
        if issuer.endswith("/"):
            _issuer = issuer[:-1]
        else:
            _issuer = issuer

        url = serv_pattern % _issuer

        pcr = None
        r = self.http_request(url)

        if self.events:
            self.events.store('HTTP response header', r.headers)

        if r.status_code == 200:
            pcr = response_cls().from_json(r.text)
        elif r.status_code == 302:
            while r.status_code == 302:
                r = self.http_request(r.headers["location"])
                if r.status_code == 200:
                    pcr = response_cls().from_json(r.text)
                    break

        if pcr is None:
            raise PyoidcError("Trying '%s', status %s" % (url, r.status_code))

        self.handle_provider_config(pcr, issuer, keys, endpoints)

        return pcr

    def store_registration_info(self, reginfo):
        self.registration_response = reginfo
        self.client_secret = reginfo["client_secret"]
        self.client_id = reginfo["client_id"]
        self.redirect_uris = reginfo["redirect_uris"]

    def handle_registration_info(self, response):
        if response.status_code in SUCCESSFUL:
            resp = ClientInfoResponse().deserialize(response.text, "json")
            self.store_response(resp, response.text)
            self.store_registration_info(resp)
        else:
            resp = ErrorResponse().deserialize(response.text, "json")
            try:
                resp.verify()
                self.store_response(resp, response.text)
            except Exception:
                raise PyoidcError('Registration failed: {}'.format(
                    response.text))

        return resp

    def register(self, url, **kwargs):
        """
        Register the client at an OP

        :param url: The OPs registration endpoint
        :param kwargs: parameters to the registration request
        :return:
        """
        req = self.construct_RegistrationRequest(request_args=kwargs)

        headers = {"content-type": "application/json"}

        rsp = self.http_request(url,
                                "POST",
                                data=req.to_json(),
                                headers=headers)

        return self.handle_registration_info(rsp)

    def parse_authz_response(self, query):
        aresp = self.parse_response(AuthorizationResponse,
                                    info=query,
                                    sformat="urlencoded",
                                    keyjar=self.keyjar)
        if aresp.type() == "ErrorResponse":
            logger.info("ErrorResponse: %s" % sanitize(aresp))
            raise AuthzError(aresp.error)

        logger.info("Aresp: %s" % sanitize(aresp))

        return aresp
Ejemplo n.º 48
0
print('Registration Request published by RP')
print(70 * "-")
print_lines(
    json.dumps(rere.to_dict(),
               sort_keys=True,
               indent=2,
               separators=(',', ': ')))

# ### ======================================================================
# #   On the OP
# ### ======================================================================

print('The OP chooses which federation it will work under - SWAMID of course')

op_keyjar = KeyJar()
op_keyjar.add_kb(swamid_issuer, KeyBundle(swamid_jwks['keys']))

# -----------------------------------------------------------------------------
# Unpacking the russian doll (= the software_statement)
# -----------------------------------------------------------------------------

msgs = []

# Only one software statement
_rp_jwt = factory(rp_swamid_sost)
_rp_sost = json.loads(_rp_jwt.jwt.part[1].decode('utf8'))

# Only one Software Statement within the signed
sost = _rp_sost['software_statements'][0]
Ejemplo n.º 49
0
    def __init__(self,
                 base,
                 sdb,
                 cdb,
                 authn_broker,
                 userinfo,
                 authz,
                 client_authn,
                 symkey,
                 urlmap=None,
                 keyjar=None,
                 hostname="",
                 configuration=None,
                 ca_certs="",
                 template_lookup=None,
                 verify_login_template=None,
                 base_url=""):

        UmaAS.__init__(self, configuration, baseurl=base_url)

        self.sdb = sdb
        if keyjar:
            self.keyjar = keyjar
        else:
            self.keyjar = KeyJar()

        self.cookie_name = self.__class__.__name__
        self.hostname = hostname or socket.gethostname
        self.jwks_uri = []
        self.endp = UmaAS.endp[:]

        self.srv = {
            "oidc":
            OIDCProvider(base, sdb, cdb, authn_broker, userinfo, authz,
                         client_authn, symkey, urlmap, ca_certs, keyjar,
                         hostname, template_lookup, verify_login_template),
            "dyn_reg":
            dynreg.Provider(base,
                            sdb,
                            cdb,
                            authn_broker,
                            authz,
                            client_authn,
                            symkey,
                            urlmap,
                            client_authn_methods=CLIENT_AUTHN_METHOD),
            "oauth":
            OAUTH2Provider(base,
                           sdb,
                           cdb,
                           authn_broker,
                           authz,
                           client_authn,
                           symkey,
                           urlmap,
                           ca_bundle=ca_certs,
                           client_authn_methods=CLIENT_AUTHN_METHOD)
        }

        self.endp.extend(self.srv["oidc"].endp)
        self.endp = list(set(self.endp))
        self.srv["oidc"].jwks_uri = self.jwks_uri
        self.srv["oidc"].baseurl = base

        self.request2endpoint = dict([
            (e.__class__.__name__, "%s_endpoint" % e.etype) for e in self.endp
        ])

        self.kid = {"sig": {}, "enc": {}}
Ejemplo n.º 50
0
def test_import_jwks():
    kj = KeyJar()
    kj.import_jwks(JWK1, '')
    assert len(kj.get_issuer_keys('')) == 2
Ejemplo n.º 51
0
def run_key_server(server_url, host, script_path="", wdir=""):
    kj = KeyJar()
    _ = key_export(server_url % host, keyjar=kj, **KEY_EXPORT_ARGS)
    return start_key_server(server_url % host, wdir, script_path)
Ejemplo n.º 52
0
from oic.utils.keyio import KeyJar
from oic.utils.keyio import keybundle_from_local_file
from oic.utils.sdb import SessionDB
from oic.utils.time_util import utc_time_sans_frac

__author__ = 'rohe0002'

KC_SYM_VS = KeyBundle({"kty": "oct", "key": "abcdefghijklmnop", "use": "ver"})
KC_SYM_S = KeyBundle({"kty": "oct", "key": "abcdefghijklmnop", "use": "sig"})

BASE_PATH = os.path.abspath(
    os.path.join(os.path.dirname(__file__), "data/keys"))
KC_RSA = keybundle_from_local_file(os.path.join(BASE_PATH, "rsa.key"), "rsa",
                                   ["ver", "sig"])

SRVKEYS = KeyJar()
SRVKEYS[""] = [KC_RSA]
SRVKEYS["client_1"] = [KC_SYM_VS, KC_RSA]

CLIKEYS = KeyJar()
CLIKEYS["http://localhost:8088"] = [KC_RSA]
CLIKEYS[""] = [KC_RSA, KC_SYM_VS]
CLIKEYS["http://example.com"] = [KC_RSA]

SERVER_INFO = {
    "version": "3.0",
    "issuer": "https://localhost:8088",
    "authorization_endpoint": "http://localhost:8088/authorization",
    "token_endpoint": "http://localhost:8088/token",
    "userinfo_endpoint": "http://localhost:8088/userinfo",
    "flows_supported": ["code", "token"],
Ejemplo n.º 53
0
import json
import requests

from jwkest import as_unicode
from jwkest.jws import JWS
from oic.utils.keyio import KeyJar

url = 'https://localhost:8080/bundle'
r = requests.get(url, verify = False)
assert r.status_code == 200
_bundle = r.text

url = 'https://localhost:8080/bundle/sigkey'
r = requests.get(url, verify = False)
assert r.status_code == 200
_sigkey_jwks = json.loads(as_unicode(r.text))

kj = KeyJar()
kj.import_jwks(_sigkey_jwks, '')

_ver_bundle = JWS().verify_compact(_bundle, kj.get_verify_key())

print(_ver_bundle)
Ejemplo n.º 54
0
def test_load_jwks_wrong_argtype():
    kj = KeyJar()
    with pytest.raises(JWKSError):
        kj.import_jwks(JWKS_ERR_1, "")
Ejemplo n.º 55
0
__author__ = "rohe0002"

KC_SYM_S = KeyBundle(
    {
        "kty": "oct",
        "key": "abcdefghijklmnop".encode("utf-8"),
        "use": "sig",
        "alg": "HS256",
    }
)

BASE_PATH = os.path.abspath(os.path.join(os.path.dirname(__file__), "data/keys"))
RSA_KEY = rsa_load(os.path.join(BASE_PATH, "rsa.key"))
KC_RSA = KeyBundle({"key": RSA_KEY, "kty": "RSA", "use": "sig"})

KEYJ = KeyJar()
KEYJ[""] = [KC_RSA, KC_SYM_S]
KEYJ["client_1"] = [KC_RSA, KC_SYM_S]

CLIENT_ID = "client_1"
IDTOKEN = IdToken(
    iss="http://oic.example.org/",
    sub="sub",
    aud=CLIENT_ID,
    exp=utc_time_sans_frac() + 86400,
    nonce="N0nce",
    iat=time.time(),
)


def _eq(l1, l2):
Ejemplo n.º 56
0
class Client(PBase):
    _endpoints = ENDPOINTS

    def __init__(
        self,
        client_id=None,
        client_authn_method=None,
        keyjar=None,
        verify_ssl=True,
        config=None,
        client_cert=None,
        timeout=5,
        message_factory: Type[MessageFactory] = OauthMessageFactory,
    ):
        """
        Initialize the instance.

        :param client_id: The client identifier
        :param client_authn_method: Methods that this client can use to
            authenticate itself. It's a dictionary with method names as
            keys and method classes as values.
        :param keyjar: The keyjar for this client.
        :param verify_ssl: Whether the SSL certificate should be verified.
        :param client_cert: A client certificate to use.
        :param timeout: Timeout for requests library. Can be specified either as
            a single integer or as a tuple of integers. For more details, refer to
            ``requests`` documentation.
        :param: message_factory: Factory for message classes, should inherit from OauthMessageFactory
        :return: Client instance
        """
        PBase.__init__(
            self,
            verify_ssl=verify_ssl,
            keyjar=keyjar,
            client_cert=client_cert,
            timeout=timeout,
        )

        self.client_id = client_id
        self.client_authn_method = client_authn_method

        self.nonce = None

        self.message_factory = message_factory
        self.grant = {}  # type: Dict[str, Grant]
        self.state2nonce = {}  # type: Dict[str, str]
        # own endpoint
        self.redirect_uris = []  # type: List[str]

        # service endpoints
        self.authorization_endpoint = None  # type: Optional[str]
        self.token_endpoint = None  # type: Optional[str]
        self.token_revocation_endpoint = None  # type: Optional[str]

        self.request2endpoint = REQUEST2ENDPOINT
        self.response2error = RESPONSE2ERROR  # type: Dict[str, List]
        self.grant_class = Grant
        self.token_class = Token

        self.provider_info = ASConfigurationResponse()  # type: Message
        self._c_secret = ""  # type: str
        self.kid = {"sig": {}, "enc": {}}  # type: Dict[str, Dict]
        self.authz_req = {}  # type: Dict[str, Message]

        # the OAuth issuer is the URL of the authorization server's
        # configuration information location
        self.config = config or {}
        try:
            self.issuer = self.config["issuer"]
        except KeyError:
            self.issuer = ""
        self.allow = {}  # type: Dict[str, Any]

    def store_response(self, clinst, text):
        pass

    def get_client_secret(self) -> str:
        return self._c_secret

    def set_client_secret(self, val: str):
        if not val:
            self._c_secret = ""
        else:
            self._c_secret = val
            # client uses it for signing
            # Server might also use it for signing which means the
            # client uses it for verifying server signatures
            if self.keyjar is None:
                self.keyjar = KeyJar()
            self.keyjar.add_symmetric("", str(val))

    client_secret = property(get_client_secret, set_client_secret)

    def reset(self) -> None:
        self.nonce = None

        self.grant = {}

        self.authorization_endpoint = None
        self.token_endpoint = None
        self.redirect_uris = []

    def grant_from_state(self, state: str) -> Optional[Grant]:
        for key, grant in self.grant.items():
            if key == state:
                return grant

        return None

    def _parse_args(self, request: Type[Message], **kwargs) -> Dict:
        ar_args = kwargs.copy()

        for prop in request.c_param.keys():
            if prop in ar_args:
                continue
            else:
                if prop == "redirect_uri":
                    _val = getattr(self, "redirect_uris", [None])[0]
                    if _val:
                        ar_args[prop] = _val
                else:
                    _val = getattr(self, prop, None)
                    if _val:
                        ar_args[prop] = _val

        return ar_args

    def _endpoint(self, endpoint: str, **kwargs) -> str:
        try:
            uri = kwargs[endpoint]
            if uri:
                del kwargs[endpoint]
        except KeyError:
            uri = ""

        if not uri:
            try:
                uri = getattr(self, endpoint)
            except Exception:
                raise MissingEndpoint("No '%s' specified" % endpoint)

        if not uri:
            raise MissingEndpoint("No '%s' specified" % endpoint)

        return uri

    def get_grant(self, state: str, **kwargs) -> Grant:
        try:
            return self.grant[state]
        except KeyError:
            raise GrantError("No grant found for state:'%s'" % state)

    def get_token(self, also_expired: bool = False, **kwargs) -> Token:
        try:
            return kwargs["token"]
        except KeyError:
            grant = self.get_grant(**kwargs)

            try:
                token = grant.get_token(kwargs["scope"])
            except KeyError:
                token = grant.get_token("")
                if not token:
                    try:
                        token = self.grant[kwargs["state"]].get_token("")
                    except KeyError:
                        raise TokenError("No token found for scope")

        if token is None:
            raise TokenError("No suitable token found")

        if also_expired:
            return token
        elif token.is_valid():
            return token
        else:
            raise TokenError("Token has expired")

    def clean_tokens(self) -> None:
        """Clean replaced and invalid tokens."""
        for state in self.grant:
            grant = self.get_grant(state)
            for token in grant.tokens:
                if token.replaced or not token.is_valid():
                    grant.delete_token(token)

    def construct_request(self,
                          request: Type[Message],
                          request_args=None,
                          extra_args=None):
        if request_args is None:
            request_args = {}

        kwargs = self._parse_args(request, **request_args)

        if extra_args:
            kwargs.update(extra_args)
        logger.debug("request: %s" % sanitize(request))
        return request(**kwargs)

    def construct_Message(self,
                          request: Type[Message] = Message,
                          request_args=None,
                          extra_args=None,
                          **kwargs) -> Message:

        return self.construct_request(request, request_args, extra_args)

    def construct_AuthorizationRequest(
            self,
            request: Type[AuthorizationRequest] = None,
            request_args=None,
            extra_args=None,
            **kwargs) -> AuthorizationRequest:

        if request is None:
            request = self.message_factory.get_request_type(
                "authorization_endpoint")
        if request_args is not None:
            try:  # change default
                new = request_args["redirect_uri"]
                if new:
                    self.redirect_uris = [new]
            except KeyError:
                pass
        else:
            request_args = {}

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id

        return self.construct_request(request, request_args, extra_args)

    def construct_AccessTokenRequest(self,
                                     request: Type[AccessTokenRequest] = None,
                                     request_args=None,
                                     extra_args=None,
                                     **kwargs) -> AccessTokenRequest:

        if request is None:
            request = self.message_factory.get_request_type("token_endpoint")
        if request_args is None:
            request_args = {}
        if request is not ROPCAccessTokenRequest:
            grant = self.get_grant(**kwargs)

            if not grant.is_valid():
                raise GrantExpired(
                    "Authorization Code to old %s > %s" %
                    (utc_time_sans_frac(), grant.grant_expiration_time))

            request_args["code"] = grant.code

        try:
            request_args["state"] = kwargs["state"]
        except KeyError:
            pass

        if "grant_type" not in request_args:
            request_args["grant_type"] = "authorization_code"

        if "client_id" not in request_args:
            request_args["client_id"] = self.client_id
        elif not request_args["client_id"]:
            request_args["client_id"] = self.client_id
        return self.construct_request(request, request_args, extra_args)

    def construct_RefreshAccessTokenRequest(
            self,
            request: Type[RefreshAccessTokenRequest] = None,
            request_args=None,
            extra_args=None,
            **kwargs) -> RefreshAccessTokenRequest:

        if request is None:
            request = self.message_factory.get_request_type("refresh_endpoint")
        if request_args is None:
            request_args = {}

        token = self.get_token(also_expired=True, **kwargs)

        request_args["refresh_token"] = token.refresh_token

        try:
            request_args["scope"] = token.scope
        except AttributeError:
            pass

        return self.construct_request(request, request_args, extra_args)

    def construct_ResourceRequest(self,
                                  request: Type[ResourceRequest] = None,
                                  request_args=None,
                                  extra_args=None,
                                  **kwargs) -> ResourceRequest:

        if request is None:
            request = self.message_factory.get_request_type(
                "resource_endpoint")
        if request_args is None:
            request_args = {}

        token = self.get_token(**kwargs)

        request_args["access_token"] = token.access_token
        return self.construct_request(request, request_args, extra_args)

    def uri_and_body(self,
                     reqmsg: Type[Message],
                     cis: Message,
                     method="POST",
                     request_args=None,
                     **kwargs) -> Tuple[str, str, Dict, Message]:
        if "endpoint" in kwargs and kwargs["endpoint"]:
            uri = kwargs["endpoint"]
        else:
            uri = self._endpoint(self.request2endpoint[reqmsg.__name__],
                                 **request_args)

        uri, body, kwargs = get_or_post(uri, method, cis, **kwargs)
        try:
            h_args = {"headers": kwargs["headers"]}
        except KeyError:
            h_args = {}

        return uri, body, h_args, cis

    def request_info(self,
                     request: Type[Message],
                     method="POST",
                     request_args=None,
                     extra_args=None,
                     lax=False,
                     **kwargs) -> Tuple[str, str, Dict, Message]:

        if request_args is None:
            request_args = {}

        try:
            cls = getattr(self, "construct_%s" % request.__name__)
            cis = cls(request_args=request_args,
                      extra_args=extra_args,
                      **kwargs)
        except AttributeError:
            cis = self.construct_request(request, request_args, extra_args)

        if self.events:
            self.events.store("Protocol request", cis)

        if "nonce" in cis and "state" in cis:
            self.state2nonce[cis["state"]] = cis["nonce"]

        cis.lax = lax

        if "authn_method" in kwargs:
            h_arg = self.init_authentication_method(cis,
                                                    request_args=request_args,
                                                    **kwargs)
        else:
            h_arg = None

        if h_arg:
            if "headers" in kwargs.keys():
                kwargs["headers"].update(h_arg["headers"])
            else:
                kwargs["headers"] = h_arg["headers"]

        return self.uri_and_body(request, cis, method, request_args, **kwargs)

    def authorization_request_info(self,
                                   request_args=None,
                                   extra_args=None,
                                   **kwargs):
        return self.request_info(
            self.message_factory.get_request_type("authorization_endpoint"),
            "GET", request_args, extra_args, **kwargs)

    @staticmethod
    def get_urlinfo(info: str) -> str:
        if "?" in info or "#" in info:
            parts = urlparse(info)
            scheme, netloc, path, params, query, fragment = parts[:6]
            # either query of fragment
            if query:
                info = query
            else:
                info = fragment
        return info

    def parse_response(self,
                       response: Type[Message],
                       info: str = "",
                       sformat: ENCODINGS = "json",
                       state: str = "",
                       **kwargs) -> Message:
        """
        Parse a response.

        :param response: Response type
        :param info: The response, can be either in a JSON or an urlencoded
            format
        :param sformat: Which serialization that was used
        :param state: The state
        :param kwargs: Extra key word arguments
        :return: The parsed and to some extend verified response
        """
        _r2e = self.response2error

        if sformat == "urlencoded":
            info = self.get_urlinfo(info)

        resp = response().deserialize(info, sformat, **kwargs)
        msg = 'Initial response parsing => "{}"'
        logger.debug(msg.format(sanitize(resp.to_dict())))
        if self.events:
            self.events.store("Response", resp.to_dict())

        if "error" in resp and not isinstance(resp, ErrorResponse):
            resp = None
            errmsgs = []  # type: List[Any]
            try:
                errmsgs = _r2e[response.__name__]
            except KeyError:
                errmsgs = [ErrorResponse]

            try:
                for errmsg in errmsgs:
                    try:
                        resp = errmsg().deserialize(info, sformat)
                        resp.verify()
                        break
                    except Exception:
                        resp = None
            except KeyError:
                pass
        elif resp.only_extras():
            resp = None
        else:
            kwargs["client_id"] = self.client_id
            try:
                kwargs["iss"] = self.provider_info["issuer"]
            except (KeyError, AttributeError):
                if self.issuer:
                    kwargs["iss"] = self.issuer

            if "key" not in kwargs and "keyjar" not in kwargs:
                kwargs["keyjar"] = self.keyjar

            logger.debug("Verify response with {}".format(sanitize(kwargs)))
            verf = resp.verify(**kwargs)

            if not verf:
                logger.error("Verification of the response failed")
                raise PyoidcError("Verification of the response failed")
            if resp.type() == "AuthorizationResponse" and "scope" not in resp:
                try:
                    resp["scope"] = kwargs["scope"]
                except KeyError:
                    pass

        if not resp:
            logger.error("Missing or faulty response")
            raise ResponseError("Missing or faulty response")

        self.store_response(resp, info)

        if isinstance(resp, (AuthorizationResponse, AccessTokenResponse)):
            try:
                _state = resp["state"]
            except (AttributeError, KeyError):
                _state = ""

            if not _state:
                _state = state

            try:
                self.grant[_state].update(resp)
            except KeyError:
                self.grant[_state] = self.grant_class(resp=resp)

        return resp

    def init_authentication_method(self,
                                   cis,
                                   authn_method,
                                   request_args=None,
                                   http_args=None,
                                   **kwargs):

        if http_args is None:
            http_args = {}
        if request_args is None:
            request_args = {}

        if authn_method:
            return self.client_authn_method[authn_method](self).construct(
                cis, request_args, http_args, **kwargs)
        else:
            return http_args

    def parse_request_response(self,
                               reqresp,
                               response,
                               body_type,
                               state="",
                               **kwargs):

        if reqresp.status_code in SUCCESSFUL:
            body_type = verify_header(reqresp, body_type)
        elif reqresp.status_code in [302, 303]:  # redirect
            return reqresp
        elif reqresp.status_code == 500:
            logger.error("(%d) %s" %
                         (reqresp.status_code, sanitize(reqresp.text)))
            raise ParseError("ERROR: Something went wrong: %s" % reqresp.text)
        elif reqresp.status_code in [400, 401]:
            # expecting an error response
            if issubclass(response, ErrorResponse):
                pass
        else:
            logger.error("(%d) %s" %
                         (reqresp.status_code, sanitize(reqresp.text)))
            raise HttpError("HTTP ERROR: %s [%s] on %s" %
                            (reqresp.text, reqresp.status_code, reqresp.url))

        if response:
            if body_type == "txt":
                # no meaning trying to parse unstructured text
                return reqresp.text
            return self.parse_response(response, reqresp.text, body_type,
                                       state, **kwargs)

        # could be an error response
        if reqresp.status_code in [200, 400, 401]:
            if body_type == "txt":
                body_type = "urlencoded"
            try:
                err = ErrorResponse().deserialize(reqresp.message,
                                                  method=body_type)
                try:
                    err.verify()
                except PyoidcError:
                    pass
                else:
                    return err
            except Exception:
                pass

        return reqresp

    def request_and_return(self,
                           url: str,
                           response: Type[Message] = None,
                           method="GET",
                           body=None,
                           body_type: ENCODINGS = "json",
                           state: str = "",
                           http_args=None,
                           **kwargs):
        """
        Perform a request and return the response.

        :param url: The URL to which the request should be sent
        :param response: Response type
        :param method: Which HTTP method to use
        :param body: A message body if any
        :param body_type: The format of the body of the return message
        :param http_args: Arguments for the HTTP client
        :return: A cls or ErrorResponse instance or the HTTP response instance if no response body was expected.
        """
        # FIXME: Cannot annotate return value as Message since it disrupts all other methods
        if http_args is None:
            http_args = {}

        try:
            resp = self.http_request(url, method, data=body, **http_args)
        except Exception:
            raise

        if "keyjar" not in kwargs:
            kwargs["keyjar"] = self.keyjar

        return self.parse_request_response(resp, response, body_type, state,
                                           **kwargs)

    def do_authorization_request(self,
                                 state="",
                                 body_type="",
                                 method="GET",
                                 request_args=None,
                                 extra_args=None,
                                 http_args=None,
                                 **kwargs) -> AuthorizationResponse:

        request = self.message_factory.get_request_type(
            "authorization_endpoint")
        response_cls = self.message_factory.get_response_type(
            "authorization_endpoint")

        if state:
            try:
                request_args["state"] = state
            except TypeError:
                request_args = {"state": state}

        kwargs["authn_endpoint"] = "authorization"
        url, body, ht_args, csi = self.request_info(request, method,
                                                    request_args, extra_args,
                                                    **kwargs)

        try:
            self.authz_req[request_args["state"]] = csi
        except TypeError:
            pass

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        try:
            algs = kwargs["algs"]
        except KeyError:
            algs = {}

        resp = self.request_and_return(
            url,
            response_cls,
            method,
            body,
            body_type,
            state=state,
            http_args=http_args,
            algs=algs,
        )

        if isinstance(resp, Message):
            # FIXME: The Message classes do not have classical attrs
            if resp.type(
            ) in RESPONSE2ERROR["AuthorizationResponse"]:  # type: ignore
                resp.state = csi.state  # type: ignore

        return resp

    def do_access_token_request(self,
                                scope: str = "",
                                state: str = "",
                                body_type: ENCODINGS = "json",
                                method="POST",
                                request_args=None,
                                extra_args=None,
                                http_args=None,
                                authn_method="",
                                **kwargs) -> AccessTokenResponse:

        request = self.message_factory.get_request_type("token_endpoint")
        response_cls = self.message_factory.get_response_type("token_endpoint")

        kwargs["authn_endpoint"] = "token"
        # method is default POST
        url, body, ht_args, csi = self.request_info(request,
                                                    method=method,
                                                    request_args=request_args,
                                                    extra_args=extra_args,
                                                    scope=scope,
                                                    state=state,
                                                    authn_method=authn_method,
                                                    **kwargs)

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        if self.events is not None:
            self.events.store("request_url", url)
            self.events.store("request_http_args", http_args)
            self.events.store("Request", body)

        logger.debug("<do_access_token> URL: %s, Body: %s" %
                     (url, sanitize(body)))
        logger.debug("<do_access_token> response_cls: %s" % response_cls)

        return self.request_and_return(url,
                                       response_cls,
                                       method,
                                       body,
                                       body_type,
                                       state=state,
                                       http_args=http_args,
                                       **kwargs)

    def do_access_token_refresh(self,
                                state: str = "",
                                body_type: ENCODINGS = "json",
                                method="POST",
                                request_args=None,
                                extra_args=None,
                                http_args=None,
                                authn_method="",
                                **kwargs) -> AccessTokenResponse:

        request = self.message_factory.get_request_type("refresh_endpoint")
        response_cls = self.message_factory.get_response_type(
            "refresh_endpoint")

        token = self.get_token(also_expired=True, state=state, **kwargs)
        kwargs["authn_endpoint"] = "refresh"
        url, body, ht_args, csi = self.request_info(
            request,
            method=method,
            request_args=request_args,
            extra_args=extra_args,
            token=token,
            authn_method=authn_method,
        )

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        response = self.request_and_return(url,
                                           response_cls,
                                           method,
                                           body,
                                           body_type,
                                           state=state,
                                           http_args=http_args)
        if token.replaced:
            grant = self.get_grant(state)
            grant.delete_token(token)
        return response

    def do_any(
        self,
        request: Type[Message],
        endpoint="",
        scope="",
        state="",
        body_type="json",
        method="POST",
        request_args=None,
        extra_args=None,
        http_args=None,
        response: Type[Message] = None,
        authn_method="",
    ) -> Message:

        url, body, ht_args, _ = self.request_info(
            request,
            method=method,
            request_args=request_args,
            extra_args=extra_args,
            scope=scope,
            state=state,
            authn_method=authn_method,
            endpoint=endpoint,
        )

        if http_args is None:
            http_args = ht_args
        else:
            http_args.update(ht_args)

        return self.request_and_return(url,
                                       response,
                                       method,
                                       body,
                                       body_type,
                                       state=state,
                                       http_args=http_args)

    def fetch_protected_resource(self,
                                 uri,
                                 method="GET",
                                 headers=None,
                                 state="",
                                 **kwargs):

        if "token" in kwargs and kwargs["token"]:
            token = kwargs["token"]
            request_args = {"access_token": token}
        else:
            try:
                token = self.get_token(state=state, **kwargs)
            except ExpiredToken:
                # The token is to old, refresh
                self.do_access_token_refresh(state=state)
                token = self.get_token(state=state, **kwargs)
            request_args = {"access_token": token.access_token}

        if headers is None:
            headers = {}

        if "authn_method" in kwargs:
            http_args = self.init_authentication_method(
                request_args=request_args, **kwargs)
        else:
            # If nothing defined this is the default
            http_args = self.client_authn_method["bearer_header"](
                self).construct(request_args=request_args)

        headers.update(http_args["headers"])

        logger.debug("Fetch URI: %s" % uri)
        return self.http_request(uri, method, headers=headers)

    def add_code_challenge(self):
        """
        PKCE RFC 7636 support.

        :return:
        """
        try:
            cv_len = self.config["code_challenge"]["length"]
        except KeyError:
            cv_len = 64  # Use default

        code_verifier = unreserved(cv_len)
        _cv = code_verifier.encode("ascii")

        try:
            _method = self.config["code_challenge"]["method"]
        except KeyError:
            _method = "S256"

        try:
            _h = CC_METHOD[_method](_cv).digest()
            code_challenge = b64e(_h).decode("ascii")
        except KeyError:
            raise Unsupported("PKCE Transformation method:{}".format(_method))

        # TODO store code_verifier

        return (
            {
                "code_challenge": code_challenge,
                "code_challenge_method": _method
            },
            code_verifier,
        )

    def handle_provider_config(
        self,
        pcr: ASConfigurationResponse,
        issuer: str,
        keys: bool = True,
        endpoints: bool = True,
    ) -> None:
        """
        Deal with Provider Config Response.

        :param pcr: The ProviderConfigResponse instance
        :param issuer: The one I thought should be the issuer of the config
        :param keys: Should I deal with keys
        :param endpoints: Should I deal with endpoints, that is store them as attributes in self.
        """
        if "issuer" in pcr:
            _pcr_issuer = pcr["issuer"]
            if pcr["issuer"].endswith("/"):
                if issuer.endswith("/"):
                    _issuer = issuer
                else:
                    _issuer = issuer + "/"
            else:
                if issuer.endswith("/"):
                    _issuer = issuer[:-1]
                else:
                    _issuer = issuer

            if not self.allow.get("issuer_mismatch",
                                  False) and _issuer != _pcr_issuer:
                raise PyoidcError(
                    "provider info issuer mismatch '%s' != '%s'" %
                    (_issuer, _pcr_issuer))

            self.provider_info = pcr
        else:
            _pcr_issuer = issuer

        self.issuer = _pcr_issuer

        if endpoints:
            for key, val in pcr.items():
                if key.endswith("_endpoint"):
                    setattr(self, key, val)

        if keys:
            if self.keyjar is None:
                self.keyjar = KeyJar()

            self.keyjar.load_keys(pcr, _pcr_issuer)

    def provider_config(
        self,
        issuer: str,
        keys: bool = True,
        endpoints: bool = True,
        serv_pattern: str = OIDCONF_PATTERN,
    ) -> ASConfigurationResponse:

        response_cls = self.message_factory.get_response_type(
            "configuration_endpoint")
        if issuer.endswith("/"):
            _issuer = issuer[:-1]
        else:
            _issuer = issuer

        url = serv_pattern % _issuer

        pcr = None
        r = self.http_request(url, allow_redirects=True)
        if r.status_code == 200:
            try:
                pcr = response_cls().from_json(r.text)
            except Exception as e:
                # FIXME: This should catch specific exception from `from_json()`
                _err_txt = "Faulty provider config response: {}".format(e)
                logger.error(sanitize(_err_txt))
                raise ParseError(_err_txt)
        else:
            raise CommunicationError("Trying '%s', status %s" %
                                     (url, r.status_code))

        self.store_response(pcr, r.text)
        self.handle_provider_config(pcr, issuer, keys, endpoints)
        return pcr
Ejemplo n.º 57
0
KC_SYM2 = KeyBundle([{
    "kty": "oct",
    "key": "drickyoughurt",
    "use": "sig"
}, {
    "kty": "oct",
    "key": "drickyoughurt",
    "use": "ver"
}])

BASE_PATH = os.path.abspath(
    os.path.join(os.path.dirname(__file__), "data/keys"))
KC_RSA = keybundle_from_local_file(os.path.join(BASE_PATH, "rsa.key"), "RSA",
                                   ["ver", "sig"])

KEYJAR = KeyJar()
KEYJAR[CLIENT_ID] = [KC_SYM, KC_RSA]
KEYJAR["number5"] = [KC_SYM2, KC_RSA]
KEYJAR[""] = KC_RSA

CDB = {
    "number5": {
        "password":
        "******",
        "client_secret":
        "drickyoughurt",
        "redirect_uris": [("http://localhost:8087/authz", None)],
        "post_logout_redirect_uris":
        [("https://example.com/post_logout", None)],
        "client_salt":
        "salted",
Ejemplo n.º 58
0
def keyjar_from_metadata_statements(iss, msl):
    keyjar = KeyJar()
    for ms in msl:
        keyjar.import_jwks(ms['signing_keys'], iss)
    return keyjar