# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import datetime
import os
import subprocess # nosec : see comments in the code below
import uuid
from oslo_log import log
from oslo_utils import fileutils
from oslo_utils import importutils
from oslo_utils import timeutils
import saml2
from saml2 import client_base
from saml2 import md
from saml2.profile import ecp
from saml2 import saml
from saml2 import samlp
from saml2.schema import soapenv
from saml2 import sigver
xmldsig = importutils.try_import("saml2.xmldsig")
if not xmldsig:
xmldsig = importutils.try_import("xmldsig")
from keystone.common import utils
import keystone.conf
from keystone import exception
from keystone.i18n import _
LOG = log.getLogger(__name__)
CONF = keystone.conf.CONF
[docs]class SAMLGenerator(object):
"""A class to generate SAML assertions."""
def __init__(self):
self.assertion_id = uuid.uuid4().hex
[docs] def samlize_token(self, issuer, recipient, user, user_domain_name, roles,
project, project_domain_name, expires_in=None):
"""Convert Keystone attributes to a SAML assertion.
:param issuer: URL of the issuing party
:type issuer: string
:param recipient: URL of the recipient
:type recipient: string
:param user: User name
:type user: string
:param user_domain_name: User Domain name
:type user_domain_name: string
:param roles: List of role names
:type roles: list
:param project: Project name
:type project: string
:param project_domain_name: Project Domain name
:type project_domain_name: string
:param expires_in: Sets how long the assertion is valid for, in seconds
:type expires_in: int
:returns: XML <Response> object
"""
expiration_time = self._determine_expiration_time(expires_in)
status = self._create_status()
saml_issuer = self._create_issuer(issuer)
subject = self._create_subject(user, expiration_time, recipient)
attribute_statement = self._create_attribute_statement(
user, user_domain_name, roles, project, project_domain_name)
authn_statement = self._create_authn_statement(issuer, expiration_time)
signature = self._create_signature()
assertion = self._create_assertion(saml_issuer, signature,
subject, authn_statement,
attribute_statement)
assertion = _sign_assertion(assertion)
response = self._create_response(saml_issuer, status, assertion,
recipient)
return response
def _determine_expiration_time(self, expires_in):
if expires_in is None:
expires_in = CONF.saml.assertion_expiration_time
now = timeutils.utcnow()
future = now + datetime.timedelta(seconds=expires_in)
return utils.isotime(future, subsecond=True)
def _create_status(self):
"""Create an object that represents a SAML Status.
<ns0:Status xmlns:ns0="urn:oasis:names:tc:SAML:2.0:protocol">
<ns0:StatusCode
Value="urn:oasis:names:tc:SAML:2.0:status:Success" />
</ns0:Status>
:returns: XML <Status> object
"""
status = samlp.Status()
status_code = samlp.StatusCode()
status_code.value = samlp.STATUS_SUCCESS
status_code.set_text('')
status.status_code = status_code
return status
def _create_issuer(self, issuer_url):
"""Create an object that represents a SAML Issuer.
<ns0:Issuer
xmlns:ns0="urn:oasis:names:tc:SAML:2.0:assertion"
Format="urn:oasis:names:tc:SAML:2.0:nameid-format:entity">
https://acme.com/FIM/sps/openstack/saml20</ns0:Issuer>
:returns: XML <Issuer> object
"""
issuer = saml.Issuer()
issuer.format = saml.NAMEID_FORMAT_ENTITY
issuer.set_text(issuer_url)
return issuer
def _create_subject(self, user, expiration_time, recipient):
"""Create an object that represents a SAML Subject.
<ns0:Subject>
<ns0:NameID>
john@smith.com</ns0:NameID>
<ns0:SubjectConfirmation
Method="urn:oasis:names:tc:SAML:2.0:cm:bearer">
<ns0:SubjectConfirmationData
NotOnOrAfter="2014-08-19T11:53:57.243106Z"
Recipient="http://beta.com/Shibboleth.sso/SAML2/POST" />
</ns0:SubjectConfirmation>
</ns0:Subject>
:returns: XML <Subject> object
"""
name_id = saml.NameID()
name_id.set_text(user)
subject_conf_data = saml.SubjectConfirmationData()
subject_conf_data.recipient = recipient
subject_conf_data.not_on_or_after = expiration_time
subject_conf = saml.SubjectConfirmation()
subject_conf.method = saml.SCM_BEARER
subject_conf.subject_confirmation_data = subject_conf_data
subject = saml.Subject()
subject.subject_confirmation = subject_conf
subject.name_id = name_id
return subject
def _create_attribute_statement(self, user, user_domain_name, roles,
project, project_domain_name):
"""Create an object that represents a SAML AttributeStatement.
<ns0:AttributeStatement>
<ns0:Attribute Name="openstack_user">
<ns0:AttributeValue
xsi:type="xs:string">test_user</ns0:AttributeValue>
</ns0:Attribute>
<ns0:Attribute Name="openstack_user_domain">
<ns0:AttributeValue
xsi:type="xs:string">Default</ns0:AttributeValue>
</ns0:Attribute>
<ns0:Attribute Name="openstack_roles">
<ns0:AttributeValue
xsi:type="xs:string">admin</ns0:AttributeValue>
<ns0:AttributeValue
xsi:type="xs:string">member</ns0:AttributeValue>
</ns0:Attribute>
<ns0:Attribute Name="openstack_project">
<ns0:AttributeValue
xsi:type="xs:string">development</ns0:AttributeValue>
</ns0:Attribute>
<ns0:Attribute Name="openstack_project_domain">
<ns0:AttributeValue
xsi:type="xs:string">Default</ns0:AttributeValue>
</ns0:Attribute>
</ns0:AttributeStatement>
:returns: XML <AttributeStatement> object
"""
def _build_attribute(attribute_name, attribute_values):
attribute = saml.Attribute()
attribute.name = attribute_name
for value in attribute_values:
attribute_value = saml.AttributeValue()
attribute_value.set_text(value)
attribute.attribute_value.append(attribute_value)
return attribute
user_attribute = _build_attribute('openstack_user', [user])
roles_attribute = _build_attribute('openstack_roles', roles)
project_attribute = _build_attribute('openstack_project', [project])
project_domain_attribute = _build_attribute(
'openstack_project_domain', [project_domain_name])
user_domain_attribute = _build_attribute(
'openstack_user_domain', [user_domain_name])
attribute_statement = saml.AttributeStatement()
attribute_statement.attribute.append(user_attribute)
attribute_statement.attribute.append(roles_attribute)
attribute_statement.attribute.append(project_attribute)
attribute_statement.attribute.append(project_domain_attribute)
attribute_statement.attribute.append(user_domain_attribute)
return attribute_statement
def _create_authn_statement(self, issuer, expiration_time):
"""Create an object that represents a SAML AuthnStatement.
<ns0:AuthnStatement xmlns:ns0="urn:oasis:names:tc:SAML:2.0:assertion"
AuthnInstant="2014-07-30T03:04:25Z" SessionIndex="47335964efb"
SessionNotOnOrAfter="2014-07-30T03:04:26Z">
<ns0:AuthnContext>
<ns0:AuthnContextClassRef>
urn:oasis:names:tc:SAML:2.0:ac:classes:Password
</ns0:AuthnContextClassRef>
<ns0:AuthenticatingAuthority>
https://acme.com/FIM/sps/openstack/saml20
</ns0:AuthenticatingAuthority>
</ns0:AuthnContext>
</ns0:AuthnStatement>
:returns: XML <AuthnStatement> object
"""
authn_statement = saml.AuthnStatement()
authn_statement.authn_instant = utils.isotime()
authn_statement.session_index = uuid.uuid4().hex
authn_statement.session_not_on_or_after = expiration_time
authn_context = saml.AuthnContext()
authn_context_class = saml.AuthnContextClassRef()
authn_context_class.set_text(saml.AUTHN_PASSWORD)
authn_authority = saml.AuthenticatingAuthority()
authn_authority.set_text(issuer)
authn_context.authn_context_class_ref = authn_context_class
authn_context.authenticating_authority = authn_authority
authn_statement.authn_context = authn_context
return authn_statement
def _create_assertion(self, issuer, signature, subject, authn_statement,
attribute_statement):
"""Create an object that represents a SAML Assertion.
<ns0:Assertion
ID="35daed258ba647ba8962e9baff4d6a46"
IssueInstant="2014-06-11T15:45:58Z"
Version="2.0">
<ns0:Issuer> ... </ns0:Issuer>
<ns1:Signature> ... </ns1:Signature>
<ns0:Subject> ... </ns0:Subject>
<ns0:AuthnStatement> ... </ns0:AuthnStatement>
<ns0:AttributeStatement> ... </ns0:AttributeStatement>
</ns0:Assertion>
:returns: XML <Assertion> object
"""
assertion = saml.Assertion()
assertion.id = self.assertion_id
assertion.issue_instant = utils.isotime()
assertion.version = '2.0'
assertion.issuer = issuer
assertion.signature = signature
assertion.subject = subject
assertion.authn_statement = authn_statement
assertion.attribute_statement = attribute_statement
return assertion
def _create_response(self, issuer, status, assertion, recipient):
"""Create an object that represents a SAML Response.
<ns0:Response
Destination="http://beta.com/Shibboleth.sso/SAML2/POST"
ID="c5954543230e4e778bc5b92923a0512d"
IssueInstant="2014-07-30T03:19:45Z"
Version="2.0" />
<ns0:Issuer> ... </ns0:Issuer>
<ns0:Assertion> ... </ns0:Assertion>
<ns0:Status> ... </ns0:Status>
</ns0:Response>
:returns: XML <Response> object
"""
response = samlp.Response()
response.id = uuid.uuid4().hex
response.destination = recipient
response.issue_instant = utils.isotime()
response.version = '2.0'
response.issuer = issuer
response.status = status
response.assertion = assertion
return response
def _create_signature(self):
"""Create an object that represents a SAML <Signature>.
This must be filled with algorithms that the signing binary will apply
in order to sign the whole message.
Currently we enforce X509 signing.
Example of the template::
<Signature xmlns="http://www.w3.org/2000/09/xmldsig#">
<SignedInfo>
<CanonicalizationMethod
Algorithm="http://www.w3.org/2001/10/xml-exc-c14n#"/>
<SignatureMethod
Algorithm="http://www.w3.org/2000/09/xmldsig#rsa-sha1"/>
<Reference URI="#<Assertion ID>">
<Transforms>
<Transform
Algorithm="http://www.w3.org/2000/09/xmldsig#enveloped-signature"/>
<Transform Algorithm="http://www.w3.org/2001/10/xml-exc-c14n#"/>
</Transforms>
<DigestMethod Algorithm="http://www.w3.org/2000/09/xmldsig#sha1"/>
<DigestValue />
</Reference>
</SignedInfo>
<SignatureValue />
<KeyInfo>
<X509Data />
</KeyInfo>
</Signature>
:returns: XML <Signature> object
"""
canonicalization_method = xmldsig.CanonicalizationMethod()
canonicalization_method.algorithm = xmldsig.ALG_EXC_C14N
signature_method = xmldsig.SignatureMethod(
algorithm=xmldsig.SIG_RSA_SHA1)
transforms = xmldsig.Transforms()
envelope_transform = xmldsig.Transform(
algorithm=xmldsig.TRANSFORM_ENVELOPED)
c14_transform = xmldsig.Transform(algorithm=xmldsig.ALG_EXC_C14N)
transforms.transform = [envelope_transform, c14_transform]
digest_method = xmldsig.DigestMethod(algorithm=xmldsig.DIGEST_SHA1)
digest_value = xmldsig.DigestValue()
reference = xmldsig.Reference()
reference.uri = '#' + self.assertion_id
reference.digest_method = digest_method
reference.digest_value = digest_value
reference.transforms = transforms
signed_info = xmldsig.SignedInfo()
signed_info.canonicalization_method = canonicalization_method
signed_info.signature_method = signature_method
signed_info.reference = reference
key_info = xmldsig.KeyInfo()
key_info.x509_data = xmldsig.X509Data()
signature = xmldsig.Signature()
signature.signed_info = signed_info
signature.signature_value = xmldsig.SignatureValue()
signature.key_info = key_info
return signature
def _verify_assertion_binary_is_installed():
"""Make sure the specified xmlsec binary is installed.
If the binary specified in configuration isn't installed, make sure we
leave some sort of useful error message for operators since the absense of
it is going to throw an HTTP 500.
"""
try:
# `check_output` just returns the output of whatever is passed in
# (hence the name). We don't really care about where the location of
# the binary exists, though. We just want to make sure it's actually
# installed and if an `CalledProcessError` isn't thrown, it is.
subprocess.check_output( # nosec : The contents of this command are
# coming from either the default
# configuration value for
# CONF.saml.xmlsec1_binary or an operator
# supplied location for that binary. In
# either case, it is safe to assume this
# input is coming from a trusted source and
# not a possible attacker (over the API).
['/usr/bin/which', CONF.saml.xmlsec1_binary]
)
except subprocess.CalledProcessError:
msg = (
'Unable to locate %(binary)s binary on the system. Check to make '
'sure it is installed.' % {'binary': CONF.saml.xmlsec1_binary}
)
LOG.error(msg)
raise exception.SAMLSigningError(reason=msg)
def _sign_assertion(assertion):
"""Sign a SAML assertion.
This method utilizes ``xmlsec1`` binary and signs SAML assertions in a
separate process. ``xmlsec1`` cannot read input data from stdin so the
prepared assertion needs to be serialized and stored in a temporary file.
This file will be deleted immediately after ``xmlsec1`` returns. The signed
assertion is redirected to a standard output and read using
``subprocess.PIPE`` redirection. A ``saml.Assertion`` class is created from
the signed string again and returned.
Parameters that are required in the CONF::
* xmlsec_binary
* private key file path
* public key file path
:returns: XML <Assertion> object
"""
# Ensure that the configured certificate paths do not contain any commas,
# before we string format a comma in between them and cause xmlsec1 to
# explode like a thousand fiery supernovas made entirely of unsigned SAML.
for option in ('keyfile', 'certfile'):
if ',' in getattr(CONF.saml, option, ''):
raise exception.UnexpectedError(
'The configuration value in `keystone.conf [saml] %s` cannot '
'contain a comma (`,`). Please fix your configuration.' %
option)
# xmlsec1 --sign --privkey-pem privkey,cert --id-attr:ID <tag> <file>
certificates = '%(idp_private_key)s,%(idp_public_key)s' % {
'idp_public_key': CONF.saml.certfile,
'idp_private_key': CONF.saml.keyfile,
}
# Verify that the binary used to create the assertion actually exists on
# the system. If it doesn't, log a warning for operators to go and install
# it. Requests for assertions will fail with HTTP 500s until the package is
# installed, so providing something useful in the logs is about the best we
# can do.
_verify_assertion_binary_is_installed()
command_list = [
CONF.saml.xmlsec1_binary, '--sign', '--privkey-pem', certificates,
'--id-attr:ID', 'Assertion']
file_path = None
try:
# NOTE(gyee): need to make the namespace prefixes explicit so
# they won't get reassigned when we wrap the assertion into
# SAML2 response
file_path = fileutils.write_to_tempfile(assertion.to_string(
nspair={'saml': saml2.NAMESPACE,
'xmldsig': xmldsig.NAMESPACE}))
command_list.append(file_path)
stdout = subprocess.check_output(command_list, # nosec : The contents
# of the command list are coming from
# a trusted source because the
# executable and arguments all either
# come from the config file or are
# hardcoded. The command list is
# initialized earlier in this function
# to a list and it's still a list at
# this point in the function. There is
# no opportunity for an attacker to
# attempt command injection via string
# parsing.
stderr=subprocess.STDOUT)
except Exception as e:
msg = ('Error when signing assertion, reason: %(reason)s%(output)s')
LOG.error(msg,
{'reason': e,
'output': ' ' + e.output if hasattr(e, 'output') else ''})
raise exception.SAMLSigningError(reason=e)
finally:
try:
if file_path:
os.remove(file_path)
except OSError: # nosec
# The file is already gone, good.
pass
return saml2.create_class_from_xml_string(saml.Assertion, stdout)
[docs]class MetadataGenerator(object):
"""A class for generating SAML IdP Metadata."""
[docs] def generate_metadata(self):
"""Generate Identity Provider Metadata.
Generate and format metadata into XML that can be exposed and
consumed by a federated Service Provider.
:returns: XML <EntityDescriptor> object.
:raises keystone.exception.ValidationError: If the required
config options aren't set.
"""
self._ensure_required_values_present()
entity_descriptor = self._create_entity_descriptor()
entity_descriptor.idpsso_descriptor = (
self._create_idp_sso_descriptor())
return entity_descriptor
def _create_entity_descriptor(self):
ed = md.EntityDescriptor()
ed.entity_id = CONF.saml.idp_entity_id
return ed
def _create_idp_sso_descriptor(self):
def get_cert():
try:
return sigver.read_cert_from_file(CONF.saml.certfile, 'pem')
except (IOError, sigver.CertificateError) as e:
msg = _('Cannot open certificate %(cert_file)s. '
'Reason: %(reason)s')
msg = msg % {'cert_file': CONF.saml.certfile, 'reason': e}
LOG.error(msg)
raise IOError(msg)
def key_descriptor():
cert = get_cert()
return md.KeyDescriptor(
key_info=xmldsig.KeyInfo(
x509_data=xmldsig.X509Data(
x509_certificate=xmldsig.X509Certificate(text=cert)
)
), use='signing'
)
def single_sign_on_service():
idp_sso_endpoint = CONF.saml.idp_sso_endpoint
return md.SingleSignOnService(
binding=saml2.BINDING_URI,
location=idp_sso_endpoint)
def organization():
name = md.OrganizationName(lang=CONF.saml.idp_lang,
text=CONF.saml.idp_organization_name)
display_name = md.OrganizationDisplayName(
lang=CONF.saml.idp_lang,
text=CONF.saml.idp_organization_display_name)
url = md.OrganizationURL(lang=CONF.saml.idp_lang,
text=CONF.saml.idp_organization_url)
return md.Organization(
organization_display_name=display_name,
organization_url=url, organization_name=name)
def contact_person():
company = md.Company(text=CONF.saml.idp_contact_company)
given_name = md.GivenName(text=CONF.saml.idp_contact_name)
surname = md.SurName(text=CONF.saml.idp_contact_surname)
email = md.EmailAddress(text=CONF.saml.idp_contact_email)
telephone = md.TelephoneNumber(
text=CONF.saml.idp_contact_telephone)
contact_type = CONF.saml.idp_contact_type
return md.ContactPerson(
company=company, given_name=given_name, sur_name=surname,
email_address=email, telephone_number=telephone,
contact_type=contact_type)
def name_id_format():
return md.NameIDFormat(text=saml.NAMEID_FORMAT_TRANSIENT)
idpsso = md.IDPSSODescriptor()
idpsso.protocol_support_enumeration = samlp.NAMESPACE
idpsso.key_descriptor = key_descriptor()
idpsso.single_sign_on_service = single_sign_on_service()
idpsso.name_id_format = name_id_format()
if self._check_organization_values():
idpsso.organization = organization()
if self._check_contact_person_values():
idpsso.contact_person = contact_person()
return idpsso
def _ensure_required_values_present(self):
"""Ensure idp_sso_endpoint and idp_entity_id have values."""
if CONF.saml.idp_entity_id is None:
msg = _('Ensure configuration option idp_entity_id is set.')
raise exception.ValidationError(msg)
if CONF.saml.idp_sso_endpoint is None:
msg = _('Ensure configuration option idp_sso_endpoint is set.')
raise exception.ValidationError(msg)
def _check_contact_person_values(self):
"""Determine if contact information is included in metadata."""
# Check if we should include contact information
params = [CONF.saml.idp_contact_company,
CONF.saml.idp_contact_name,
CONF.saml.idp_contact_surname,
CONF.saml.idp_contact_email,
CONF.saml.idp_contact_telephone,
CONF.saml.idp_contact_type]
for value in params:
if value is None:
return False
return True
def _check_organization_values(self):
"""Determine if organization information is included in metadata."""
params = [CONF.saml.idp_organization_name,
CONF.saml.idp_organization_display_name,
CONF.saml.idp_organization_url]
for value in params:
if value is None:
return False
return True
[docs]class ECPGenerator(object):
"""A class for generating an ECP assertion."""
[docs] @staticmethod
def generate_ecp(saml_assertion, relay_state_prefix):
ecp_generator = ECPGenerator()
header = ecp_generator._create_header(relay_state_prefix)
body = ecp_generator._create_body(saml_assertion)
envelope = soapenv.Envelope(header=header, body=body)
return envelope
def _create_header(self, relay_state_prefix):
relay_state_text = relay_state_prefix + uuid.uuid4().hex
relay_state = ecp.RelayState(actor=client_base.ACTOR,
must_understand='1',
text=relay_state_text)
header = soapenv.Header()
header.extension_elements = (
[saml2.element_to_extension_element(relay_state)])
return header
def _create_body(self, saml_assertion):
body = soapenv.Body()
body.extension_elements = (
[saml2.element_to_extension_element(saml_assertion)])
return body
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