Ejemplo n.º 1
0
    def generate_name_id(value, sp_nq, sp_format, cert=None, debug=False):
        """
        Generates a nameID.

        :param value: fingerprint
        :type: string

        :param sp_nq: SP Name Qualifier
        :type: string

        :param sp_format: SP Format
        :type: string

        :param cert: IdP Public Cert to encrypt the nameID
        :type: string

        :param debug: Activate the xmlsec debug
        :type: bool

        :returns: DOMElement | XMLSec nameID
        :rtype: string
        """
        doc = Document()
        name_id_container = doc.createElementNS(OneLogin_Saml2_Constants.NS_SAML, 'container')
        name_id_container.setAttribute("xmlns:saml", OneLogin_Saml2_Constants.NS_SAML)

        name_id = doc.createElement('saml:NameID')
        name_id.setAttribute('SPNameQualifier', sp_nq)
        name_id.setAttribute('Format', sp_format)
        name_id.appendChild(doc.createTextNode(value))
        name_id_container.appendChild(name_id)

        if cert is not None:
            xml = name_id_container.toxml()
            elem = fromstring(xml)

            xmlsec.initialize()

            if debug:
                xmlsec.set_error_callback(print_xmlsec_errors)

            # Load the public cert
            mngr = xmlsec.KeysMngr()
            file_cert = OneLogin_Saml2_Utils.write_temp_file(cert)
            key_data = xmlsec.Key.load(file_cert.name, xmlsec.KeyDataFormatCertPem, None)
            key_data.name = basename(file_cert.name)
            mngr.addKey(key_data)
            file_cert.close()

            # Prepare for encryption
            enc_data = EncData(xmlsec.TransformAes128Cbc, type=xmlsec.TypeEncElement)
            enc_data.ensureCipherValue()
            key_info = enc_data.ensureKeyInfo()
            # enc_key = key_info.addEncryptedKey(xmlsec.TransformRsaPkcs1)
            enc_key = key_info.addEncryptedKey(xmlsec.TransformRsaOaep)
            enc_key.ensureCipherValue()

            # Encrypt!
            enc_ctx = xmlsec.EncCtx(mngr)
            enc_ctx.encKey = xmlsec.Key.generate(xmlsec.KeyDataAes, 128, xmlsec.KeyDataTypeSession)

            edata = enc_ctx.encryptXml(enc_data, elem[0])

            newdoc = parseString(etree.tostring(edata))

            if newdoc.hasChildNodes():
                child = newdoc.firstChild
                child.removeAttribute('xmlns')
                child.removeAttribute('xmlns:saml')
                child.setAttribute('xmlns:xenc', OneLogin_Saml2_Constants.NS_XENC)
                child.setAttribute('xmlns:dsig', OneLogin_Saml2_Constants.NS_DS)

            nodes = newdoc.getElementsByTagName("*")
            for node in nodes:
                if node.tagName == 'ns0:KeyInfo':
                    node.tagName = 'dsig:KeyInfo'
                    node.removeAttribute('xmlns:ns0')
                    node.setAttribute('xmlns:dsig', OneLogin_Saml2_Constants.NS_DS)
                else:
                    node.tagName = 'xenc:' + node.tagName

            encrypted_id = newdoc.createElement('saml:EncryptedID')
            encrypted_data = newdoc.replaceChild(encrypted_id, newdoc.firstChild)
            encrypted_id.appendChild(encrypted_data)
            return newdoc.saveXML(encrypted_id)
        else:
            return doc.saveXML(name_id)
Ejemplo n.º 2
0
    def generate_name_id(value,
                         sp_nq,
                         sp_format=None,
                         cert=None,
                         debug=False,
                         nq=None):
        """
        Generates a nameID.

        :param value: fingerprint
        :type: string

        :param sp_nq: SP Name Qualifier
        :type: string

        :param sp_format: SP Format
        :type: string

        :param cert: IdP Public Cert to encrypt the nameID
        :type: string

        :param debug: Activate the xmlsec debug
        :type: bool

        :param nq: IDP Name Qualifier
        :type: string

        :returns: DOMElement | XMLSec nameID
        :rtype: string
        """
        doc = Document()
        name_id_container = doc.createElementNS(
            OneLogin_Saml2_Constants.NS_SAML, 'container')
        name_id_container.setAttribute("xmlns:saml",
                                       OneLogin_Saml2_Constants.NS_SAML)

        name_id = doc.createElement('saml:NameID')
        if sp_nq is not None:
            name_id.setAttribute('SPNameQualifier', sp_nq)
        if nq is not None:
            name_id.setAttribute('NameQualifier', nq)
        if sp_format is not None:
            name_id.setAttribute('Format', sp_format)
        name_id.appendChild(doc.createTextNode(value))
        name_id_container.appendChild(name_id)

        if cert is not None:
            xml = name_id_container.toxml()
            elem = fromstring(xml)

            error_callback_method = None
            if debug:
                error_callback_method = print_xmlsec_errors
            xmlsec.set_error_callback(error_callback_method)

            # Load the public cert
            mngr = xmlsec.KeysMngr()
            file_cert = OneLogin_Saml2_Utils.write_temp_file(cert)
            key_data = xmlsec.Key.load(file_cert.name,
                                       xmlsec.KeyDataFormatCertPem, None)
            key_data.name = basename(file_cert.name)
            mngr.addKey(key_data)
            file_cert.close()

            # Prepare for encryption
            enc_data = EncData(xmlsec.TransformAes128Cbc,
                               type=xmlsec.TypeEncElement)
            enc_data.ensureCipherValue()
            key_info = enc_data.ensureKeyInfo()
            # enc_key = key_info.addEncryptedKey(xmlsec.TransformRsaPkcs1)
            enc_key = key_info.addEncryptedKey(xmlsec.TransformRsaOaep)
            enc_key.ensureCipherValue()

            # Encrypt!
            enc_ctx = xmlsec.EncCtx(mngr)
            enc_ctx.encKey = xmlsec.Key.generate(xmlsec.KeyDataAes, 128,
                                                 xmlsec.KeyDataTypeSession)

            edata = enc_ctx.encryptXml(enc_data, elem[0])

            newdoc = parseString(
                tostring(edata, encoding='unicode').encode('utf-8'))

            if newdoc.hasChildNodes():
                child = newdoc.firstChild
                child.removeAttribute('xmlns')
                child.removeAttribute('xmlns:saml')
                child.setAttribute('xmlns:xenc',
                                   OneLogin_Saml2_Constants.NS_XENC)
                child.setAttribute('xmlns:dsig',
                                   OneLogin_Saml2_Constants.NS_DS)

            nodes = newdoc.getElementsByTagName("*")
            for node in nodes:
                if node.tagName == 'ns0:KeyInfo':
                    node.tagName = 'dsig:KeyInfo'
                    node.removeAttribute('xmlns:ns0')
                    node.setAttribute('xmlns:dsig',
                                      OneLogin_Saml2_Constants.NS_DS)
                else:
                    node.tagName = 'xenc:' + node.tagName

            encrypted_id = newdoc.createElement('saml:EncryptedID')
            encrypted_data = newdoc.replaceChild(encrypted_id,
                                                 newdoc.firstChild)
            encrypted_id.appendChild(encrypted_data)
            return newdoc.saveXML(encrypted_id)
        else:
            return doc.saveXML(name_id)
Ejemplo n.º 3
0
def _encrypt_assertion(unencrypted):
    # load the rsa key
    # Create and initialize keys manager, we use a simple list based
    # keys manager, implement your own KeysStore klass if you need
    # something more sophisticated
    # mngr = xmlsec.KeysMngr()
    # config = saml2idp_metadata.SAML2IDP_CONFIG
    # key = xmlsec.cryptoAppKeyLoad(config['public_key_file'], xmlsec.KeyDataFormatPem, None, None, None)
    # key.setName(config['public_key_file'])
    # # add the key to the manager
    # xmlsec.cryptoAppDefaultKeysMngrAdoptKey(mngr, key)
    #
    # # now encrypt the xml
    # doc = libxml2.parseDoc(unencrypted)
    # # Create encryption template to encrypt XML file and replace
    # # its content with encryption result
    # enc_data_node = xmlsec.TmplEncData(doc, xmlsec.transformAes128CbcId(), None, xmlsec.TypeEncElement, None, None)
    # # put encrypted data in the <enc:CipherValue/> node
    # enc_data_node.ensureCipherValue()
    # # add <dsig:KeyInfo/>
    # key_info_node = enc_data_node.ensureKeyInfo(None)
    # # Add <enc:EncryptedKey/> to store the encrypted session key
    # enc_key_node = key_info_node.addEncryptedKey(xmlsec.transformRsaPkcs1Id(), None, None, None)
    # # put encrypted key in the <enc:CipherValue/> node
    # enc_key_node.ensureCipherValue()
    # # Add <dsig:KeyInfo/> and <dsig:KeyName/> nodes to <enc:EncryptedKey/>
    # key_info_node2 = enc_key_node.ensureKeyInfo(None)
    # # Set key name so we can lookup key when needed
    # key_info_node2.addKeyName(config['public_key_file'])
    # # Create encryption context
    # enc_ctx = xmlsec.EncCtx(mngr)
    # # Generate a Triple DES key
    # key = xmlsec.keyGenerate(xmlsec.keyDataDesId(), 192, xmlsec.KeyDataTypeSession)
    # enc_ctx.encKey = key
    # # Encrypt the data
    # enc_ctx.xmlEncrypt(enc_data_node, doc.getRootElement())
    #
    # # Destroy all
    # key.destroy()
    # mngr.destroy()
    # enc_ctx.destroy()
    # enc_data_node.freeNode()
    # # doc.freeDoc()
    # return doc

    xmlsec.initialize()
    config = saml2idp_metadata.SAML2IDP_CONFIG
    mngr = xmlsec.KeysMngr()
    key = xmlsec.Key.load(config["public_key_file"], xmlsec.KeyDataFormatPem)
    key.name = basename(config["public_key_file"])
    mngr.addKey(key)

    doc = fromstring(unencrypted)
    encData = EncData(xmlsec.TransformDes3Cbc, type=xmlsec.TypeEncElement)
    encData.ensureCipherValue()  # target for encryption result
    keyInfo = encData.ensureKeyInfo()
    encKey = keyInfo.addEncryptedKey(xmlsec.TransformRsaPkcs1)
    encKey.ensureCipherValue()
    encKeyInfo = encKey.ensureKeyInfo()
    encKeyInfo.addKeyName(key.name)
    encCtx = xmlsec.EncCtx(mngr)
    encCtx.encKey = xmlsec.Key.generate(xmlsec.KeyDataDes, 192, xmlsec.KeyDataTypeSession)
    ed = encCtx.encryptXml(encData, doc)
    return tostring(ed.getroottree())