#!/usr/bin/env python # -*- coding: utf-8 -*- # """ Functions connected to signing and verifying. Based on the use of xmlsec1 binaries and not the python xmlsec module. """ from OpenSSL import crypto import base64 import hashlib import logging import os import ssl import six from time import mktime from binascii import hexlify from future.backports.urllib.parse import urlencode from cryptography.exceptions import InvalidSignature from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives import hashes from cryptography.hazmat.primitives.asymmetric import rsa from cryptography.hazmat.primitives.asymmetric.padding import PKCS1v15 from cryptography.hazmat.primitives.serialization import load_pem_private_key from cryptography.x509 import load_pem_x509_certificate from tempfile import NamedTemporaryFile from subprocess import Popen from subprocess import PIPE from saml2 import samlp from saml2 import SamlBase from saml2 import SAMLError from saml2 import extension_elements_to_elements from saml2 import class_name from saml2 import saml from saml2 import ExtensionElement from saml2 import VERSION from saml2.cert import OpenSSLWrapper from saml2.extension import pefim from saml2.extension.pefim import SPCertEnc from saml2.saml import EncryptedAssertion import saml2.xmldsig as ds from saml2.s_utils import sid from saml2.s_utils import Unsupported from saml2.time_util import instant from saml2.time_util import utc_now from saml2.time_util import str_to_time from saml2.xmldsig import SIG_RSA_SHA1 from saml2.xmldsig import SIG_RSA_SHA224 from saml2.xmldsig import SIG_RSA_SHA256 from saml2.xmldsig import SIG_RSA_SHA384 from saml2.xmldsig import SIG_RSA_SHA512 from saml2.xmlenc import EncryptionMethod from saml2.xmlenc import EncryptedKey from saml2.xmlenc import CipherData from saml2.xmlenc import CipherValue from saml2.xmlenc import EncryptedData logger = logging.getLogger(__name__) SIG = "{%s#}%s" % (ds.NAMESPACE, "Signature") RSA_1_5 = "http://www.w3.org/2001/04/xmlenc#rsa-1_5" TRIPLE_DES_CBC = "http://www.w3.org/2001/04/xmlenc#tripledes-cbc" XMLTAG = "" PREFIX1 = "" PREFIX2 = '' backend = default_backend() class SigverError(SAMLError): pass class CertificateTooOld(SigverError): pass class XmlsecError(SigverError): pass class MissingKey(SigverError): pass class DecryptError(XmlsecError): pass class EncryptError(XmlsecError): pass class SignatureError(XmlsecError): pass class BadSignature(SigverError): """The signature is invalid.""" pass class CertificateError(SigverError): pass def read_file(*args, **kwargs): with open(*args, **kwargs) as handler: return handler.read() def rm_xmltag(statement): try: _t = statement.startswith(XMLTAG) except TypeError: statement = statement.decode("utf8") _t = statement.startswith(XMLTAG) if _t: statement = statement[len(XMLTAG):] if statement[0] == '\n': statement = statement[1:] elif statement.startswith(PREFIX1): statement = statement[len(PREFIX1):] if statement[0] == '\n': statement = statement[1:] elif statement.startswith(PREFIX2): statement = statement[len(PREFIX2):] if statement[0] == '\n': statement = statement[1:] return statement def signed(item): """ Is any part of the document signed ? :param item: A Samlbase instance :return: True if some part of it is signed """ if SIG in item.c_children.keys() and item.signature: return True else: for prop in item.c_child_order: child = getattr(item, prop, None) if isinstance(child, list): for chi in child: if signed(chi): return True elif child and signed(child): return True return False def get_xmlsec_binary(paths=None): """ Tries to find the xmlsec1 binary. :param paths: Non-system path paths which should be searched when looking for xmlsec1 :return: full name of the xmlsec1 binary found. If no binaries are found then an exception is raised. """ if os.name == "posix": bin_name = ["xmlsec1"] elif os.name == "nt": bin_name = ["xmlsec.exe", "xmlsec1.exe"] else: # Default !? bin_name = ["xmlsec1"] if paths: for bname in bin_name: for path in paths: fil = os.path.join(path, bname) try: if os.lstat(fil): return fil except OSError: pass for path in os.environ["PATH"].split(os.pathsep): for bname in bin_name: fil = os.path.join(path, bname) try: if os.lstat(fil): return fil except OSError: pass raise SigverError("Can't find %s" % bin_name) def _get_xmlsec_cryptobackend(path=None, search_paths=None, debug=False): """ Initialize a CryptoBackendXmlSec1 crypto backend. This function is now internal to this module. """ if path is None: path = get_xmlsec_binary(paths=search_paths) return CryptoBackendXmlSec1(path, debug=debug) ID_ATTR = "ID" NODE_NAME = "urn:oasis:names:tc:SAML:2.0:assertion:Assertion" ENC_NODE_NAME = "urn:oasis:names:tc:SAML:2.0:assertion:EncryptedAssertion" ENC_KEY_CLASS = "EncryptedKey" _TEST_ = True # -------------------------------------------------------------------------- def _make_vals(val, klass, seccont, klass_inst=None, prop=None, part=False, base64encode=False, elements_to_sign=None): """ Creates a class instance with a specified value, the specified class instance may be a value on a property in a defined class instance. :param val: The value :param klass: The value class :param klass_inst: The class instance which has a property on which what this function returns is a value. :param prop: The property which the value should be assigned to. :param part: If the value is one of a possible list of values it should be handled slightly different compared to if it isn't. :return: Value class instance """ cinst = None # print("make_vals(%s, %s)" % (val, klass)) if isinstance(val, dict): cinst = _instance(klass, val, seccont, base64encode=base64encode, elements_to_sign=elements_to_sign) else: try: cinst = klass().set_text(val) except ValueError: if not part: cis = [_make_vals(sval, klass, seccont, klass_inst, prop, True, base64encode, elements_to_sign) for sval in val] setattr(klass_inst, prop, cis) else: raise if part: return cinst else: if cinst: cis = [cinst] setattr(klass_inst, prop, cis) def _instance(klass, ava, seccont, base64encode=False, elements_to_sign=None): instance = klass() for prop in instance.c_attributes.values(): # print("# %s" % (prop)) if prop in ava: if isinstance(ava[prop], bool): setattr(instance, prop, str(ava[prop]).encode('utf-8')) elif isinstance(ava[prop], int): setattr(instance, prop, "%d" % ava[prop]) else: setattr(instance, prop, ava[prop]) if "text" in ava: instance.set_text(ava["text"], base64encode) for prop, klassdef in instance.c_children.values(): # print("## %s, %s" % (prop, klassdef)) if prop in ava: # print("### %s" % ava[prop]) if isinstance(klassdef, list): # means there can be a list of values _make_vals(ava[prop], klassdef[0], seccont, instance, prop, base64encode=base64encode, elements_to_sign=elements_to_sign) else: cis = _make_vals(ava[prop], klassdef, seccont, instance, prop, True, base64encode, elements_to_sign) setattr(instance, prop, cis) if "extension_elements" in ava: for item in ava["extension_elements"]: instance.extension_elements.append( ExtensionElement(item["tag"]).loadd(item)) if "extension_attributes" in ava: for key, val in ava["extension_attributes"].items(): instance.extension_attributes[key] = val if "signature" in ava: elements_to_sign.append((class_name(instance), instance.id)) return instance def signed_instance_factory(instance, seccont, elements_to_sign=None): """ :param instance: The instance to be signed or not :param seccont: The security context :param elements_to_sign: Which parts if any that should be signed :return: A class instance if not signed otherwise a string """ if elements_to_sign: signed_xml = str(instance) for (node_name, nodeid) in elements_to_sign: signed_xml = seccont.sign_statement( signed_xml, node_name=node_name, node_id=nodeid) # print("xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx") # print("%s" % signed_xml) # print("xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx") return signed_xml else: return instance # -------------------------------------------------------------------------- # def create_id(): # """ Create a string of 40 random characters from the set [a-p], # can be used as a unique identifier of objects. # # :return: The string of random characters # """ # return rndstr(40, "abcdefghijklmonp") def make_temp(string, suffix="", decode=True, delete=True): """ xmlsec needs files in some cases where only strings exist, hence the need for this function. It creates a temporary file with the string as only content. :param string: The information to be placed in the file :param suffix: The temporary file might have to have a specific suffix in certain circumstances. :param decode: The input string might be base64 coded. If so it must, in some cases, be decoded before being placed in the file. :return: 2-tuple with file pointer ( so the calling function can close the file) and filename (which is for instance needed by the xmlsec function). """ ntf = NamedTemporaryFile(suffix=suffix, delete=delete) # Python3 tempfile requires byte-like object if not isinstance(string, six.binary_type): string = string.encode("utf8") if decode: ntf.write(base64.b64decode(string)) else: ntf.write(string) ntf.seek(0) return ntf, ntf.name def split_len(seq, length): return [seq[i:i + length] for i in range(0, len(seq), length)] # -------------------------------------------------------------------------- M2_TIME_FORMAT = "%b %d %H:%M:%S %Y" def to_time(_time): assert _time.endswith(" GMT") _time = _time[:-4] return mktime(str_to_time(_time, M2_TIME_FORMAT)) def active_cert(key): """ Verifies that a key is active that is present time is after not_before and before not_after. :param key: The Key :return: True if the key is active else False """ try: cert_str = pem_format(key) cert = crypto.load_certificate(crypto.FILETYPE_PEM, cert_str) assert cert.has_expired() == 0 assert not OpenSSLWrapper().certificate_not_valid_yet(cert) return True except AssertionError: return False except AttributeError: return False def cert_from_key_info(key_info, ignore_age=False): """ Get all X509 certs from a KeyInfo instance. Care is taken to make sure that the certs are continues sequences of bytes. All certificates appearing in an X509Data element MUST relate to the validation key by either containing it or being part of a certification chain that terminates in a certificate containing the validation key. :param key_info: The KeyInfo instance :return: A possibly empty list of certs """ res = [] for x509_data in key_info.x509_data: # print("X509Data",x509_data) x509_certificate = x509_data.x509_certificate cert = x509_certificate.text.strip() cert = "\n".join(split_len("".join([s.strip() for s in cert.split()]), 64)) if ignore_age or active_cert(cert): res.append(cert) else: logger.info("Inactive cert") return res def cert_from_key_info_dict(key_info, ignore_age=False): """ Get all X509 certs from a KeyInfo dictionary. Care is taken to make sure that the certs are continues sequences of bytes. All certificates appearing in an X509Data element MUST relate to the validation key by either containing it or being part of a certification chain that terminates in a certificate containing the validation key. :param key_info: The KeyInfo dictionary :return: A possibly empty list of certs in their text representation """ res = [] if not "x509_data" in key_info: return res for x509_data in key_info["x509_data"]: x509_certificate = x509_data["x509_certificate"] cert = x509_certificate["text"].strip() cert = "\n".join(split_len("".join([s.strip() for s in cert.split()]), 64)) if ignore_age or active_cert(cert): res.append(cert) else: logger.info("Inactive cert") return res def cert_from_instance(instance): """ Find certificates that are part of an instance :param instance: An instance :return: possible empty list of certificates """ if instance.signature: if instance.signature.key_info: return cert_from_key_info(instance.signature.key_info, ignore_age=True) return [] # ============================================================================= def intarr2long(arr): return long(''.join(["%02x" % byte for byte in arr]), 16) def dehexlify(bi): s = hexlify(bi) return [int(s[i] + s[i + 1], 16) for i in range(0, len(s), 2)] def base64_to_long(data): _d = base64.urlsafe_b64decode(data + '==') return intarr2long(dehexlify(_d)) def key_from_key_value(key_info): res = [] for value in key_info.key_value: if value.rsa_key_value: e = base64_to_long(value.rsa_key_value.exponent) m = base64_to_long(value.rsa_key_value.modulus) key = RSA.construct((m, e)) res.append(key) return res def key_from_key_value_dict(key_info): res = [] if not "key_value" in key_info: return res for value in key_info["key_value"]: if "rsa_key_value" in value: e = base64_to_long(value["rsa_key_value"]["exponent"]) m = base64_to_long(value["rsa_key_value"]["modulus"]) key = RSA.construct((m, e)) res.append(key) return res # ============================================================================= # def rsa_load(filename): # """Read a PEM-encoded RSA key pair from a file.""" # return M2Crypto.RSA.load_key(filename, M2Crypto.util # .no_passphrase_callback) # # # def rsa_loads(key): # """Read a PEM-encoded RSA key pair from a string.""" # return M2Crypto.RSA.load_key_string(key, # M2Crypto.util.no_passphrase_callback) def rsa_eq(key1, key2): # Check if two RSA keys are in fact the same if key1.n == key2.n and key1.e == key2.e: return True else: return False def extract_rsa_key_from_x509_cert(pem): cert = load_pem_x509_certificate(pem, backend) return cert.public_key() def pem_format(key): return "\n".join(["-----BEGIN CERTIFICATE-----", key, "-----END CERTIFICATE-----"]).encode('ascii') def import_rsa_key_from_file(filename): return load_pem_private_key(read_file(filename, 'rb'), None, backend) def parse_xmlsec_output(output): """ Parse the output from xmlsec to try to find out if the command was successfull or not. :param output: The output from Popen :return: A boolean; True if the command was a success otherwise False """ for line in output.splitlines(): if line == "OK": return True elif line == "FAIL": raise XmlsecError(output) raise XmlsecError(output) def sha1_digest(msg): return hashlib.sha1(msg).digest() class Signer(object): """Abstract base class for signing algorithms.""" def __init__(self, key): self.key = key def sign(self, msg, key): """Sign ``msg`` with ``key`` and return the signature.""" raise NotImplementedError def verify(self, msg, sig, key): """Return True if ``sig`` is a valid signature for ``msg``.""" raise NotImplementedError class RSASigner(Signer): def __init__(self, digest, key=None): Signer.__init__(self, key) self.digest = digest def sign(self, msg, key=None): if key is None: key = self.key return key.sign(msg, PKCS1v15(), self.digest) def verify(self, msg, sig, key=None): if key is None: key = self.key try: if isinstance(key, rsa.RSAPrivateKey): key = key.public_key() key.verify(sig, msg, PKCS1v15(), self.digest) return True except InvalidSignature: return False SIGNER_ALGS = { SIG_RSA_SHA1: RSASigner(hashes.SHA1()), SIG_RSA_SHA224: RSASigner(hashes.SHA224()), SIG_RSA_SHA256: RSASigner(hashes.SHA256()), SIG_RSA_SHA384: RSASigner(hashes.SHA384()), SIG_RSA_SHA512: RSASigner(hashes.SHA512()), } REQ_ORDER = ["SAMLRequest", "RelayState", "SigAlg"] RESP_ORDER = ["SAMLResponse", "RelayState", "SigAlg"] class RSACrypto(object): def __init__(self, key): self.key = key def get_signer(self, sigalg, sigkey=None): try: signer = SIGNER_ALGS[sigalg] except KeyError: return None else: if sigkey: signer.key = sigkey else: signer.key = self.key return signer def verify_redirect_signature(saml_msg, crypto, cert=None, sigkey=None): """ :param saml_msg: A dictionary with strings as values, *NOT* lists as produced by parse_qs. :param cert: A certificate to use when verifying the signature :return: True, if signature verified """ try: signer = crypto.get_signer(saml_msg["SigAlg"], sigkey) except KeyError: raise Unsupported("Signature algorithm: %s" % saml_msg["SigAlg"]) else: if saml_msg["SigAlg"] in SIGNER_ALGS: if "SAMLRequest" in saml_msg: _order = REQ_ORDER elif "SAMLResponse" in saml_msg: _order = RESP_ORDER else: raise Unsupported( "Verifying signature on something that should not be " "signed") _args = saml_msg.copy() del _args["Signature"] # everything but the signature string = "&".join( [urlencode({k: _args[k]}) for k in _order if k in _args]).encode('ascii') if cert: _key = extract_rsa_key_from_x509_cert(pem_format(cert)) else: _key = sigkey _sign = base64.b64decode(saml_msg["Signature"]) return bool(signer.verify(string, _sign, _key)) LOG_LINE = 60 * "=" + "\n%s\n" + 60 * "-" + "\n%s" + 60 * "=" LOG_LINE_2 = 60 * "=" + "\n%s\n%s\n" + 60 * "-" + "\n%s" + 60 * "=" def make_str(txt): if isinstance(txt, six.string_types): return txt else: return txt.decode("utf8") # --------------------------------------------------------------------------- def read_cert_from_file(cert_file, cert_type): """ Reads a certificate from a file. The assumption is that there is only one certificate in the file :param cert_file: The name of the file :param cert_type: The certificate type :return: A base64 encoded certificate as a string or the empty string """ if not cert_file: return "" if cert_type == "pem": _a = read_file(cert_file, 'rb').decode("utf8") _b = _a.replace("\r\n", "\n") lines = _b.split("\n") for pattern in ("-----BEGIN CERTIFICATE-----", "-----BEGIN PUBLIC KEY-----"): if pattern in lines: lines = lines[lines.index(pattern) + 1:] break else: raise CertificateError("Strange beginning of PEM file") for pattern in ("-----END CERTIFICATE-----", "-----END PUBLIC KEY-----"): if pattern in lines: lines = lines[:lines.index(pattern)] break else: raise CertificateError("Strange end of PEM file") return make_str("".join(lines).encode("utf8")) if cert_type in ["der", "cer", "crt"]: data = read_file(cert_file, 'rb') _cert = base64.b64encode(data) return make_str(_cert) class CryptoBackend(): def __init__(self, debug=False): self.debug = debug def version(self): raise NotImplementedError() def encrypt(self, text, recv_key, template, key_type): raise NotImplementedError() def encrypt_assertion(self, statement, enc_key, template, key_type, node_xpath): raise NotImplementedError() def decrypt(self, enctext, key_file): raise NotImplementedError() def sign_statement(self, statement, node_name, key_file, node_id, id_attr): raise NotImplementedError() def validate_signature(self, enctext, cert_file, cert_type, node_name, node_id, id_attr): raise NotImplementedError() ASSERT_XPATH = ''.join(["/*[local-name()=\"%s\"]" % v for v in [ "Response", "EncryptedAssertion", "Assertion"]]) class CryptoBackendXmlSec1(CryptoBackend): """ CryptoBackend implementation using external binary 1 to sign and verify XML documents. """ __DEBUG = 0 def __init__(self, xmlsec_binary, **kwargs): CryptoBackend.__init__(self, **kwargs) assert (isinstance(xmlsec_binary, six.string_types)) self.xmlsec = xmlsec_binary if os.environ.get('PYSAML2_KEEP_XMLSEC_TMP', None): self._xmlsec_delete_tmpfiles = False else: self._xmlsec_delete_tmpfiles = True try: self.non_xml_crypto = RSACrypto(kwargs['rsa_key']) except KeyError: pass def version(self): com_list = [self.xmlsec, "--version"] pof = Popen(com_list, stderr=PIPE, stdout=PIPE) content = pof.stdout.read().decode('ascii') pof.wait() try: return content.split(" ")[1] except IndexError: return "" def encrypt(self, text, recv_key, template, session_key_type, xpath=""): """ :param text: The text to be compiled :param recv_key: Filename of a file where the key resides :param template: Filename of a file with the pre-encryption part :param session_key_type: Type and size of a new session key "des-192" generates a new 192 bits DES key for DES3 encryption :param xpath: What should be encrypted :return: """ logger.debug("Encryption input len: %d", len(text)) _, fil = make_temp(str(text).encode('utf-8'), decode=False) com_list = [self.xmlsec, "--encrypt", "--pubkey-cert-pem", recv_key, "--session-key", session_key_type, "--xml-data", fil] if xpath: com_list.extend(['--node-xpath', xpath]) (_stdout, _stderr, output) = self._run_xmlsec(com_list, [template], exception=DecryptError, validate_output=False) if isinstance(output, six.binary_type): output = output.decode('utf-8') return output def encrypt_assertion(self, statement, enc_key, template, key_type="des-192", node_xpath=None, node_id=None): """ Will encrypt an assertion :param statement: A XML document that contains the assertion to encrypt :param enc_key: File name of a file containing the encryption key :param template: A template for the encryption part to be added. :param key_type: The type of session key to use. :return: The encrypted text """ if isinstance(statement, SamlBase): statement = pre_encrypt_assertion(statement) _, fil = make_temp(str(statement).encode('utf-8'), decode=False, delete=False) _, tmpl = make_temp(str(template).encode('utf-8'), decode=False) if not node_xpath: node_xpath = ASSERT_XPATH com_list = [self.xmlsec, "encrypt", "--pubkey-cert-pem", enc_key, "--session-key", key_type, "--xml-data", fil, "--node-xpath", node_xpath] if node_id: com_list.extend(["--node-id", node_id]) (_stdout, _stderr, output) = self._run_xmlsec( com_list, [tmpl], exception=EncryptError, validate_output=False) os.unlink(fil) if not output: raise EncryptError(_stderr) return output.decode('utf-8') def decrypt(self, enctext, key_file): """ :param enctext: XML document containing an encrypted part :param key_file: The key to use for the decryption :return: The decrypted document """ logger.debug("Decrypt input len: %d", len(enctext)) _, fil = make_temp(str(enctext).encode('utf-8'), decode=False) com_list = [self.xmlsec, "--decrypt", "--privkey-pem", key_file, "--id-attr:%s" % ID_ATTR, ENC_KEY_CLASS] (_stdout, _stderr, output) = self._run_xmlsec(com_list, [fil], exception=DecryptError, validate_output=False) return output.decode('utf-8') def sign_statement(self, statement, node_name, key_file, node_id, id_attr): """ Sign an XML statement. :param statement: The statement to be signed :param node_name: string like 'urn:oasis:names:...:Assertion' :param key_file: The file where the key can be found :param node_id: :param id_attr: The attribute name for the identifier, normally one of 'id','Id' or 'ID' :return: The signed statement """ if isinstance(statement, SamlBase): statement = str(statement) _, fil = make_temp(statement, suffix=".xml", decode=False, delete=self._xmlsec_delete_tmpfiles) com_list = [self.xmlsec, "--sign", "--privkey-pem", key_file, "--id-attr:%s" % id_attr, node_name] if node_id: com_list.extend(["--node-id", node_id]) try: (stdout, stderr, signed_statement) = self._run_xmlsec( com_list, [fil], validate_output=False) # this doesn't work if --store-signatures are used if stdout == "": if signed_statement: return signed_statement.decode('utf-8') logger.error( "Signing operation failed :\nstdout : %s\nstderr : %s", stdout, stderr) raise SigverError(stderr) except DecryptError: raise SigverError("Signing failed") def validate_signature(self, signedtext, cert_file, cert_type, node_name, node_id, id_attr): """ Validate signature on XML document. :param signedtext: The XML document as a string :param cert_file: The public key that was used to sign the document :param cert_type: The file type of the certificate :param node_name: The name of the class that is signed :param node_id: The identifier of the node :param id_attr: Should normally be one of "id", "Id" or "ID" :return: Boolean True if the signature was correct otherwise False. """ if not isinstance(signedtext, six.binary_type): signedtext = signedtext.encode('utf-8') _, fil = make_temp(signedtext, suffix=".xml", decode=False, delete=self._xmlsec_delete_tmpfiles) com_list = [self.xmlsec, "--verify", "--pubkey-cert-%s" % cert_type, cert_file, "--id-attr:%s" % id_attr, node_name] if self.debug: com_list.append("--store-signatures") if node_id: com_list.extend(["--node-id", node_id]) if self.__DEBUG: try: print(" ".join(com_list)) except TypeError: print("cert_type", cert_type) print("cert_file", cert_file) print("node_name", node_name) print("fil", fil) raise print("%s: %s" % (cert_file, os.access(cert_file, os.F_OK))) print("%s: %s" % (fil, os.access(fil, os.F_OK))) (_stdout, stderr, _output) = self._run_xmlsec(com_list, [fil], exception=SignatureError) return parse_xmlsec_output(stderr) def _run_xmlsec(self, com_list, extra_args, validate_output=True, exception=XmlsecError): """ Common code to invoke xmlsec and parse the output. :param com_list: Key-value parameter list for xmlsec :param extra_args: Positional parameters to be appended after all key-value parameters :param validate_output: Parse and validate the output :param exception: The exception class to raise on errors :result: Whatever xmlsec wrote to an --output temporary file """ ntf = NamedTemporaryFile(suffix=".xml", delete=self._xmlsec_delete_tmpfiles) com_list.extend(["--output", ntf.name]) com_list += extra_args logger.debug("xmlsec command: %s", " ".join(com_list)) pof = Popen(com_list, stderr=PIPE, stdout=PIPE) p_out = pof.stdout.read().decode('utf-8') p_err = pof.stderr.read().decode('utf-8') pof.wait() if pof.returncode is not None and pof.returncode < 0: logger.error(LOG_LINE, p_out, p_err) raise XmlsecError("%d:%s" % (pof.returncode, p_err)) try: if validate_output: parse_xmlsec_output(p_err) except XmlsecError as exc: logger.error(LOG_LINE_2, p_out, p_err, exc) raise ntf.seek(0) return p_out, p_err, ntf.read() class CryptoBackendXMLSecurity(CryptoBackend): """ CryptoBackend implementation using pyXMLSecurity to sign and verify XML documents. Encrypt and decrypt is currently unsupported by pyXMLSecurity. pyXMLSecurity uses lxml (libxml2) to parse XML data, but otherwise try to get by with native Python code. It does native Python RSA signatures, or alternatively PyKCS11 to offload cryptographic work to an external PKCS#11 module. """ def __init__(self, debug=False): CryptoBackend.__init__(self) self.debug = debug def version(self): # XXX if XMLSecurity.__init__ included a __version__, that would be # better than static 0.0 here. return "XMLSecurity 0.0" def sign_statement(self, statement, node_name, key_file, node_id, _id_attr): """ Sign an XML statement. The parameters actually used in this CryptoBackend implementation are : :param statement: XML as string :param node_name: Name of the node to sign :param key_file: xmlsec key_spec string(), filename, "pkcs11://" URI or PEM data :returns: Signed XML as string """ import xmlsec import lxml.etree xml = xmlsec.parse_xml(statement) signed = xmlsec.sign(xml, key_file) return lxml.etree.tostring(signed, xml_declaration=True) def validate_signature(self, signedtext, cert_file, cert_type, node_name, node_id, id_attr): """ Validate signature on XML document. The parameters actually used in this CryptoBackend implementation are : :param signedtext: The signed XML data as string :param cert_file: xmlsec key_spec string(), filename, "pkcs11://" URI or PEM data :param cert_type: string, must be 'pem' for now :returns: True on successful validation, False otherwise """ if cert_type != "pem": raise Unsupported("Only PEM certs supported here") import xmlsec xml = xmlsec.parse_xml(signedtext) try: return xmlsec.verify(xml, cert_file) except xmlsec.XMLSigException: return False def security_context(conf, debug=None): """ Creates a security context based on the configuration :param conf: The configuration, this is a Config instance :return: A SecurityContext instance """ if not conf: return None if debug is None: try: debug = conf.debug except AttributeError: pass try: metadata = conf.metadata except AttributeError: metadata = None _only_md = conf.only_use_keys_in_metadata if _only_md is None: _only_md = False sec_backend = None if conf.crypto_backend == 'xmlsec1': xmlsec_binary = conf.xmlsec_binary if not xmlsec_binary: try: _path = conf.xmlsec_path except AttributeError: _path = [] xmlsec_binary = get_xmlsec_binary(_path) # verify that xmlsec is where it's supposed to be if not os.path.exists(xmlsec_binary): # if not os.access(, os.F_OK): raise SigverError( "xmlsec binary not in '%s' !" % xmlsec_binary) crypto = _get_xmlsec_cryptobackend(xmlsec_binary, debug=debug) _file_name = conf.getattr("key_file", "") if _file_name: try: rsa_key = import_rsa_key_from_file(_file_name) except Exception as err: logger.error("Could not import key from {}: {}".format(_file_name, err)) raise else: sec_backend = RSACrypto(rsa_key) elif conf.crypto_backend == 'XMLSecurity': # new and somewhat untested pyXMLSecurity crypto backend. crypto = CryptoBackendXMLSecurity(debug=debug) else: raise SigverError('Unknown crypto_backend %s' % ( repr(conf.crypto_backend))) enc_key_files = [] if conf.encryption_keypairs is not None: for _encryption_keypair in conf.encryption_keypairs: if "key_file" in _encryption_keypair: enc_key_files.append(_encryption_keypair["key_file"]) return SecurityContext( crypto, conf.key_file, cert_file=conf.cert_file, metadata=metadata, debug=debug, only_use_keys_in_metadata=_only_md, cert_handler_extra_class=conf.cert_handler_extra_class, generate_cert_info=conf.generate_cert_info, tmp_cert_file=conf.tmp_cert_file, tmp_key_file=conf.tmp_key_file, validate_certificate=conf.validate_certificate, enc_key_files=enc_key_files, encryption_keypairs=conf.encryption_keypairs, sec_backend=sec_backend) def encrypt_cert_from_item(item): _encrypt_cert = None try: try: _elem = extension_elements_to_elements( item.extensions.extension_elements, [pefim, ds]) except: _elem = extension_elements_to_elements( item.extension_elements[0].children, [pefim, ds]) for _tmp_elem in _elem: if isinstance(_tmp_elem, SPCertEnc): for _tmp_key_info in _tmp_elem.key_info: if _tmp_key_info.x509_data is not None and len( _tmp_key_info.x509_data) > 0: _encrypt_cert = _tmp_key_info.x509_data[ 0].x509_certificate.text break # _encrypt_cert = _elem[0].x509_data[ # 0].x509_certificate.text # else: # certs = cert_from_instance(item) # if len(certs) > 0: # _encrypt_cert = certs[0] except Exception as _exception: pass # if _encrypt_cert is None: # certs = cert_from_instance(item) # if len(certs) > 0: # _encrypt_cert = certs[0] if _encrypt_cert is not None: if _encrypt_cert.find("-----BEGIN CERTIFICATE-----\n") == -1: _encrypt_cert = "-----BEGIN CERTIFICATE-----\n" + _encrypt_cert if _encrypt_cert.find("\n-----END CERTIFICATE-----") == -1: _encrypt_cert = _encrypt_cert + "\n-----END CERTIFICATE-----" return _encrypt_cert class CertHandlerExtra(object): def __init__(self): pass def use_generate_cert_func(self): raise Exception("use_generate_cert_func function must be implemented") def generate_cert(self, generate_cert_info, root_cert_string, root_key_string): raise Exception("generate_cert function must be implemented") # Excepts to return (cert_string, key_string) def use_validate_cert_func(self): raise Exception("use_validate_cert_func function must be implemented") def validate_cert(self, cert_str, root_cert_string, root_key_string): raise Exception("validate_cert function must be implemented") # Excepts to return True/False class CertHandler(object): def __init__(self, security_context, cert_file=None, cert_type="pem", key_file=None, key_type="pem", generate_cert_info=None, cert_handler_extra_class=None, tmp_cert_file=None, tmp_key_file=None, verify_cert=False): """ Initiates the class for handling certificates. Enables the certificates to either be a single certificate as base functionality or makes it possible to generate a new certificate for each call to the function. :param security_context: :param cert_file: :param cert_type: :param key_file: :param key_type: :param generate_cert_info: :param cert_handler_extra_class: :param tmp_cert_file: :param tmp_key_file: :param verify_cert: """ self._verify_cert = False self._generate_cert = False # This cert do not have to be valid, it is just the last cert to be # validated. self._last_cert_verified = None self._last_validated_cert = None if cert_type == "pem" and key_type == "pem": self._verify_cert = verify_cert is True self._security_context = security_context self._osw = OpenSSLWrapper() if key_file and os.path.isfile(key_file): self._key_str = self._osw.read_str_from_file(key_file, key_type) else: self._key_str = "" if cert_file and os.path.isfile(cert_file): self._cert_str = self._osw.read_str_from_file(cert_file, cert_type) else: self._cert_str = "" self._tmp_cert_str = self._cert_str self._tmp_key_str = self._key_str self._tmp_cert_file = tmp_cert_file self._tmp_key_file = tmp_key_file self._cert_info = None self._generate_cert_func_active = False if generate_cert_info is not None and len(self._cert_str) > 0 and \ len(self._key_str) > 0 and tmp_key_file is not \ None and tmp_cert_file is not None: self._generate_cert = True self._cert_info = generate_cert_info self._cert_handler_extra_class = cert_handler_extra_class def verify_cert(self, cert_file): if self._verify_cert: if cert_file and os.path.isfile(cert_file): cert_str = self._osw.read_str_from_file(cert_file, "pem") else: return False self._last_validated_cert = cert_str if self._cert_handler_extra_class is not None and \ self._cert_handler_extra_class.use_validate_cert_func(): self._cert_handler_extra_class.validate_cert( cert_str, self._cert_str, self._key_str) else: valid, mess = self._osw.verify(self._cert_str, cert_str) logger.info("CertHandler.verify_cert: %s", mess) return valid return True def generate_cert(self): return self._generate_cert def update_cert(self, active=False, client_crt=None): if (self._generate_cert and active) or client_crt is not None: if client_crt is not None: self._tmp_cert_str = client_crt # No private key for signing self._tmp_key_str = "" elif self._cert_handler_extra_class is not None and \ self._cert_handler_extra_class.use_generate_cert_func(): (self._tmp_cert_str, self._tmp_key_str) = \ self._cert_handler_extra_class.generate_cert( self._cert_info, self._cert_str, self._key_str) else: self._tmp_cert_str, self._tmp_key_str = self._osw \ .create_certificate( self._cert_info, request=True) self._tmp_cert_str = self._osw.create_cert_signed_certificate( self._cert_str, self._key_str, self._tmp_cert_str) valid, mess = self._osw.verify(self._cert_str, self._tmp_cert_str) self._osw.write_str_to_file(self._tmp_cert_file, self._tmp_cert_str) self._osw.write_str_to_file(self._tmp_key_file, self._tmp_key_str) self._security_context.key_file = self._tmp_key_file self._security_context.cert_file = self._tmp_cert_file self._security_context.key_type = "pem" self._security_context.cert_type = "pem" self._security_context.my_cert = read_cert_from_file( self._security_context.cert_file, self._security_context.cert_type) # How to get a rsa pub key fingerprint from a certificate # openssl x509 -inform pem -noout -in server.crt -pubkey > publickey.pem # openssl rsa -inform pem -noout -in publickey.pem -pubin -modulus class SecurityContext(object): my_cert = None def __init__(self, crypto, key_file="", key_type="pem", cert_file="", cert_type="pem", metadata=None, debug=False, template="", encrypt_key_type="des-192", only_use_keys_in_metadata=False, cert_handler_extra_class=None, generate_cert_info=None, tmp_cert_file=None, tmp_key_file=None, validate_certificate=None, enc_key_files=None, enc_key_type="pem", encryption_keypairs=None, enc_cert_type="pem", sec_backend=None): self.crypto = crypto assert (isinstance(self.crypto, CryptoBackend)) if sec_backend: assert (isinstance(sec_backend, RSACrypto)) self.sec_backend = sec_backend # Your private key for signing self.key_file = key_file self.key_type = key_type # Your public key for signing self.cert_file = cert_file self.cert_type = cert_type # Your private key for encryption self.enc_key_files = enc_key_files self.enc_key_type = enc_key_type # Your public key for encryption self.encryption_keypairs = encryption_keypairs self.enc_cert_type = enc_cert_type self.my_cert = read_cert_from_file(cert_file, cert_type) self.cert_handler = CertHandler(self, cert_file, cert_type, key_file, key_type, generate_cert_info, cert_handler_extra_class, tmp_cert_file, tmp_key_file, validate_certificate) self.cert_handler.update_cert(True) self.metadata = metadata self.only_use_keys_in_metadata = only_use_keys_in_metadata self.debug = debug if not template: this_dir, this_filename = os.path.split(__file__) self.template = os.path.join(this_dir, "xml_template", "template.xml") else: self.template = template self.encrypt_key_type = encrypt_key_type # keep certificate files to debug xmlsec invocations if os.environ.get('PYSAML2_KEEP_XMLSEC_TMP', None): self._xmlsec_delete_tmpfiles = False else: self._xmlsec_delete_tmpfiles = True def correctly_signed(self, xml, must=False): logger.debug("verify correct signature") return self.correctly_signed_response(xml, must) def encrypt(self, text, recv_key="", template="", key_type=""): """ xmlsec encrypt --pubkey-pem pub-userkey.pem --session-key aes128-cbc --xml-data doc-plain.xml --output doc-encrypted.xml session-key-template.xml :param text: Text to encrypt :param recv_key: A file containing the receivers public key :param template: A file containing the XMLSEC template :param key_type: The type of session key to use :result: An encrypted XML text """ if not key_type: key_type = self.encrypt_key_type if not template: template = self.template return self.crypto.encrypt(text, recv_key, template, key_type) def encrypt_assertion(self, statement, enc_key, template, key_type="des-192", node_xpath=None): """ Will encrypt an assertion :param statement: A XML document that contains the assertion to encrypt :param enc_key: File name of a file containing the encryption key :param template: A template for the encryption part to be added. :param key_type: The type of session key to use. :return: The encrypted text """ return self.crypto.encrypt_assertion(statement, enc_key, template, key_type, node_xpath) def decrypt_keys(self, enctext, keys=None): """ Decrypting an encrypted text by the use of a private key. :param enctext: The encrypted text as a string :return: The decrypted text """ _enctext = None if not isinstance(keys, list): keys = [keys] if self.enc_key_files is not None: for _enc_key_file in self.enc_key_files: _enctext = self.crypto.decrypt(enctext, _enc_key_file) if _enctext is not None and len(_enctext) > 0: return _enctext for _key in keys: if _key is not None and len(_key.strip()) > 0: if not isinstance(_key, six.binary_type): _key = str(_key).encode('ascii') _, key_file = make_temp(_key, decode=False) _enctext = self.crypto.decrypt(enctext, key_file) if _enctext is not None and len(_enctext) > 0: return _enctext return enctext def decrypt(self, enctext, key_file=None): """ Decrypting an encrypted text by the use of a private key. :param enctext: The encrypted text as a string :return: The decrypted text """ _enctext = None if self.enc_key_files is not None: for _enc_key_file in self.enc_key_files: _enctext = self.crypto.decrypt(enctext, _enc_key_file) if _enctext is not None and len(_enctext) > 0: return _enctext if key_file is not None and len(key_file.strip()) > 0: _enctext = self.crypto.decrypt(enctext, key_file) if _enctext is not None and len(_enctext) > 0: return _enctext return enctext def verify_signature(self, signedtext, cert_file=None, cert_type="pem", node_name=NODE_NAME, node_id=None, id_attr=""): """ Verifies the signature of a XML document. :param signedtext: The XML document as a string :param cert_file: The public key that was used to sign the document :param cert_type: The file type of the certificate :param node_name: The name of the class that is signed :param node_id: The identifier of the node :param id_attr: Should normally be one of "id", "Id" or "ID" :return: Boolean True if the signature was correct otherwise False. """ # This is only for testing purposes, otherwise when would you receive # stuff that is signed with your key !? if not cert_file: cert_file = self.cert_file cert_type = self.cert_type if not id_attr: id_attr = ID_ATTR return self.crypto.validate_signature(signedtext, cert_file=cert_file, cert_type=cert_type, node_name=node_name, node_id=node_id, id_attr=id_attr) def _check_signature(self, decoded_xml, item, node_name=NODE_NAME, origdoc=None, id_attr="", must=False, only_valid_cert=False, issuer=None): # print(item) try: _issuer = item.issuer.text.strip() except AttributeError: _issuer = None if _issuer is None: try: _issuer = issuer.text.strip() except AttributeError: _issuer = None # More trust in certs from metadata then certs in the XML document if self.metadata: try: _certs = self.metadata.certs(_issuer, "any", "signing") except KeyError: _certs = [] certs = [] for cert in _certs: if isinstance(cert, six.string_types): certs.append(make_temp(pem_format(cert), suffix=".pem", decode=False, delete=self._xmlsec_delete_tmpfiles)) else: certs.append(cert) else: certs = [] if not certs and not self.only_use_keys_in_metadata: logger.debug("==== Certs from instance ====") certs = [make_temp(pem_format(cert), suffix=".pem", decode=False, delete=self._xmlsec_delete_tmpfiles) for cert in cert_from_instance(item)] else: logger.debug("==== Certs from metadata ==== %s: %s ====", issuer, certs) if not certs: raise MissingKey("%s" % issuer) # print(certs) verified = False last_pem_file = None for _, pem_file in certs: try: last_pem_file = pem_file if self.verify_signature(decoded_xml, pem_file, node_name=node_name, node_id=item.id, id_attr=id_attr): verified = True break except XmlsecError as exc: logger.error("check_sig: %s", exc) pass except SignatureError as exc: logger.error("check_sig: %s", exc) pass except Exception as exc: logger.error("check_sig: %s", exc) raise if (not verified) and (not only_valid_cert): raise SignatureError("Failed to verify signature") else: if not self.cert_handler.verify_cert(last_pem_file): raise CertificateError("Invalid certificate!") return item def check_signature(self, item, node_name=NODE_NAME, origdoc=None, id_attr="", must=False, issuer=None): """ :param item: Parsed entity :param node_name: The name of the node/class/element that is signed :param origdoc: The original XML string :param id_attr: :param must: :return: """ return self._check_signature(origdoc, item, node_name, origdoc, id_attr=id_attr, must=must, issuer=issuer) def correctly_signed_message(self, decoded_xml, msgtype, must=False, origdoc=None, only_valid_cert=False): """Check if a request is correctly signed, if we have metadata for the entity that sent the info use that, if not use the key that are in the message if any. :param decoded_xml: The SAML message as an XML infoset (a string) :param msgtype: SAML protocol message type :param must: Whether there must be a signature :param origdoc: :return: """ try: _func = getattr(samlp, "%s_from_string" % msgtype) except AttributeError: _func = getattr(saml, "%s_from_string" % msgtype) msg = _func(decoded_xml) if not msg: raise TypeError("Not a %s" % msgtype) if not msg.signature: if must: raise SignatureError( "Required signature missing on %s" % msgtype) else: return msg return self._check_signature(decoded_xml, msg, class_name(msg), origdoc, must=must, only_valid_cert=only_valid_cert) def correctly_signed_authn_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "authn_request", must, origdoc, only_valid_cert=only_valid_cert) def correctly_signed_authn_query(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "authn_query", must, origdoc, only_valid_cert) def correctly_signed_logout_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "logout_request", must, origdoc, only_valid_cert) def correctly_signed_logout_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "logout_response", must, origdoc, only_valid_cert) def correctly_signed_attribute_query(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "attribute_query", must, origdoc, only_valid_cert) def correctly_signed_authz_decision_query(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "authz_decision_query", must, origdoc, only_valid_cert) def correctly_signed_authz_decision_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "authz_decision_response", must, origdoc, only_valid_cert) def correctly_signed_name_id_mapping_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "name_id_mapping_request", must, origdoc, only_valid_cert) def correctly_signed_name_id_mapping_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "name_id_mapping_response", must, origdoc, only_valid_cert) def correctly_signed_artifact_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "artifact_request", must, origdoc, only_valid_cert) def correctly_signed_artifact_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "artifact_response", must, origdoc, only_valid_cert) def correctly_signed_manage_name_id_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "manage_name_id_request", must, origdoc, only_valid_cert) def correctly_signed_manage_name_id_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "manage_name_id_response", must, origdoc, only_valid_cert) def correctly_signed_assertion_id_request(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "assertion_id_request", must, origdoc, only_valid_cert) def correctly_signed_assertion_id_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, **kwargs): return self.correctly_signed_message(decoded_xml, "assertion", must, origdoc, only_valid_cert) def correctly_signed_response(self, decoded_xml, must=False, origdoc=None, only_valid_cert=False, require_response_signature=False, **kwargs): """ Check if a instance is correctly signed, if we have metadata for the IdP that sent the info use that, if not use the key that are in the message if any. :param decoded_xml: The SAML message as a XML string :param must: Whether there must be a signature :param origdoc: :param only_valid_cert: :param require_response_signature: :return: None if the signature can not be verified otherwise an instance """ response = samlp.any_response_from_string(decoded_xml) if not response: raise TypeError("Not a Response") if response.signature: if "do_not_verify" in kwargs: pass else: self._check_signature(decoded_xml, response, class_name(response), origdoc) elif require_response_signature: raise SignatureError("Signature missing for response") return response # -------------------------------------------------------------------------- # SIGNATURE PART # -------------------------------------------------------------------------- def sign_statement_using_xmlsec(self, statement, **kwargs): """ Deprecated function. See sign_statement(). """ return self.sign_statement(statement, **kwargs) def sign_statement(self, statement, node_name, key=None, key_file=None, node_id=None, id_attr=""): """Sign a SAML statement. :param statement: The statement to be signed :param node_name: string like 'urn:oasis:names:...:Assertion' :param key: The key to be used for the signing, either this or :param key_file: The file where the key can be found :param node_id: :param id_attr: The attribute name for the identifier, normally one of 'id','Id' or 'ID' :return: The signed statement """ if not id_attr: id_attr = ID_ATTR if not key_file and key: _, key_file = make_temp(str(key).encode('utf-8'), ".pem") if not key and not key_file: key_file = self.key_file return self.crypto.sign_statement(statement, node_name, key_file, node_id, id_attr) def sign_assertion_using_xmlsec(self, statement, **kwargs): """ Deprecated function. See sign_assertion(). """ return self.sign_statement(statement, class_name(saml.Assertion()), **kwargs) def sign_assertion(self, statement, **kwargs): """Sign a SAML assertion. See sign_statement() for the kwargs. :param statement: The statement to be signed :return: The signed statement """ return self.sign_statement(statement, class_name(saml.Assertion()), **kwargs) def sign_attribute_query_using_xmlsec(self, statement, **kwargs): """ Deprecated function. See sign_attribute_query(). """ return self.sign_attribute_query(statement, **kwargs) def sign_attribute_query(self, statement, **kwargs): """Sign a SAML attribute query. See sign_statement() for the kwargs. :param statement: The statement to be signed :return: The signed statement """ return self.sign_statement(statement, class_name( samlp.AttributeQuery()), **kwargs) def multiple_signatures(self, statement, to_sign, key=None, key_file=None, sign_alg=None, digest_alg=None): """ Sign multiple parts of a statement :param statement: The statement that should be sign, this is XML text :param to_sign: A list of (items, id, id attribute name) tuples that specifies what to sign :param key: A key that should be used for doing the signing :param key_file: A file that contains the key to be used :return: A possibly multiple signed statement """ for (item, sid, id_attr) in to_sign: if not sid: if not item.id: sid = item.id = sid() else: sid = item.id if not item.signature: item.signature = pre_signature_part(sid, self.cert_file, sign_alg=sign_alg, digest_alg=digest_alg) statement = self.sign_statement(statement, class_name(item), key=key, key_file=key_file, node_id=sid, id_attr=id_attr) return statement # =========================================================================== def pre_signature_part(ident, public_key=None, identifier=None, digest_alg=None, sign_alg=None): """ If an assertion is to be signed the signature part has to be preset with which algorithms to be used, this function returns such a preset part. :param ident: The identifier of the assertion, so you know which assertion was signed :param public_key: The base64 part of a PEM file :param identifier: :return: A preset signature part """ if not digest_alg: digest_alg = ds.DefaultSignature().get_digest_alg() if not sign_alg: sign_alg = ds.DefaultSignature().get_sign_alg() signature_method = ds.SignatureMethod(algorithm=sign_alg) canonicalization_method = ds.CanonicalizationMethod( algorithm=ds.ALG_EXC_C14N) trans0 = ds.Transform(algorithm=ds.TRANSFORM_ENVELOPED) trans1 = ds.Transform(algorithm=ds.ALG_EXC_C14N) transforms = ds.Transforms(transform=[trans0, trans1]) digest_method = ds.DigestMethod(algorithm=digest_alg) reference = ds.Reference(uri="#%s" % ident, digest_value=ds.DigestValue(), transforms=transforms, digest_method=digest_method) signed_info = ds.SignedInfo(signature_method=signature_method, canonicalization_method=canonicalization_method, reference=reference) signature = ds.Signature(signed_info=signed_info, signature_value=ds.SignatureValue()) if identifier: signature.id = "Signature%d" % identifier if public_key: x509_data = ds.X509Data( x509_certificate=[ds.X509Certificate(text=public_key)]) key_info = ds.KeyInfo(x509_data=x509_data) signature.key_info = key_info return signature # # # # # # # # my-rsa-key # # # # # # # # # # # # # # # def pre_encryption_part(msg_enc=TRIPLE_DES_CBC, key_enc=RSA_1_5, key_name="my-rsa-key"): """ :param msg_enc: :param key_enc: :param key_name: :return: """ msg_encryption_method = EncryptionMethod(algorithm=msg_enc) key_encryption_method = EncryptionMethod(algorithm=key_enc) encrypted_key = EncryptedKey(id="EK", encryption_method=key_encryption_method, key_info=ds.KeyInfo( key_name=ds.KeyName(text=key_name)), cipher_data=CipherData( cipher_value=CipherValue(text=""))) key_info = ds.KeyInfo(encrypted_key=encrypted_key) encrypted_data = EncryptedData( id="ED", type="http://www.w3.org/2001/04/xmlenc#Element", encryption_method=msg_encryption_method, key_info=key_info, cipher_data=CipherData(cipher_value=CipherValue(text=""))) return encrypted_data def pre_encrypt_assertion(response): """ Move the assertion to within a encrypted_assertion :param response: The response with one assertion :return: The response but now with the assertion within an encrypted_assertion. """ assertion = response.assertion response.assertion = None response.encrypted_assertion = EncryptedAssertion() if assertion is not None: if isinstance(assertion, list): response.encrypted_assertion.add_extension_elements(assertion) else: response.encrypted_assertion.add_extension_element(assertion) # txt = "%s" % response # _ass = "%s" % assertion # _ass = rm_xmltag(_ass) # txt.replace( # "", # "%s" % _ass) return response def response_factory(sign=False, encrypt=False, sign_alg=None, digest_alg=None, **kwargs): response = samlp.Response(id=sid(), version=VERSION, issue_instant=instant()) if sign: response.signature = pre_signature_part(kwargs["id"], sign_alg=sign_alg, digest_alg=digest_alg) if encrypt: pass for key, val in kwargs.items(): setattr(response, key, val) return response # ---------------------------------------------------------------------------- if __name__ == '__main__': import argparse parser = argparse.ArgumentParser() parser.add_argument('-s', '--list-sigalgs', dest='listsigalgs', action='store_true', help='List implemented signature algorithms') args = parser.parse_args() if args.listsigalgs: print('\n'.join([key for key, value in SIGNER_ALGS.items()]))