def _generate_signed_attrs(self, eta_invoice, signing_time): cert = x509.Certificate.load(base64.b64decode(self.certificate)) data = hashlib.sha256(self._serialize_for_signing(eta_invoice).encode()).digest() return cms.CMSAttributes([ cms.CMSAttribute({ 'type': cms.CMSAttributeType('content_type'), 'values': ('digested_data',), }), cms.CMSAttribute({ 'type': cms.CMSAttributeType('message_digest'), 'values': (data,), }), cms.CMSAttribute({ 'type': tsp.CMSAttributeType('signing_certificate_v2'), 'values': ({ 'certs': (tsp.ESSCertIDv2({ 'hash_algorithm': algos.DigestAlgorithm({'algorithm': 'sha256'}), 'cert_hash': hashlib.sha256(cert.dump()).digest() }),) },), }), cms.CMSAttribute({ 'type': cms.CMSAttributeType('signing_time'), 'values': ( cms.Time({'utc_time': core.UTCTime(signing_time.replace(tzinfo=pytz.UTC))}),) }), ])
def sign_authpack_native(data, privkey, certificate, wrap_signed=False): """ Creating PKCS7 blob which contains the following things: 1. 'data' blob which is an ASN1 encoded "AuthPack" structure 2. the certificate used to sign the data blob 3. the singed 'signed_attrs' structure (ASN1) which points to the "data" structure (in point 1) """ da = {'algorithm': algos.DigestAlgorithmId('1.3.14.3.2.26')} si = {} si['version'] = 'v1' si['sid'] = cms.IssuerAndSerialNumber({ 'issuer': certificate.issuer, 'serial_number': certificate.serial_number, }) si['digest_algorithm'] = algos.DigestAlgorithm(da) si['signed_attrs'] = [ cms.CMSAttribute({ 'type': 'content_type', 'values': ['1.3.6.1.5.2.3.1'] }), # indicates that the encap_content_info's authdata struct (marked with OID '1.3.6.1.5.2.3.1' is signed ) cms.CMSAttribute({ 'type': 'message_digest', 'values': [hashlib.sha1(data).digest()] }), ### hash of the data, the data itself will not be signed, but this block of data will be. ] si['signature_algorithm'] = algos.SignedDigestAlgorithm( {'algorithm': '1.2.840.113549.1.1.1'}) si['signature'] = rsa_pkcs1v15_sign( privkey, cms.CMSAttributes(si['signed_attrs']).dump(), "sha1") ec = {} ec['content_type'] = '1.3.6.1.5.2.3.1' ec['content'] = data sd = {} sd['version'] = 'v3' sd['digest_algorithms'] = [algos.DigestAlgorithm(da)] # must have only one sd['encap_content_info'] = cms.EncapsulatedContentInfo(ec) sd['certificates'] = [certificate] sd['signer_infos'] = cms.SignerInfos([cms.SignerInfo(si)]) if wrap_signed is True: ci = {} ci['content_type'] = '1.2.840.113549.1.7.2' # signed data OID ci['content'] = cms.SignedData(sd) return cms.ContentInfo(ci).dump() return cms.SignedData(sd).dump()
def on_get(self, req, resp): operation = req.get_param("operation", required=True) if operation.lower() == "getcacert": resp.body = keys.parse_certificate( self.authority.certificate_buf).dump() resp.append_header("Content-Type", "application/x-x509-ca-cert") return # If we bump into exceptions later encrypted_container = b"" attr_list = [ cms.CMSAttribute({ 'type': "message_type", 'values': ["3"] }), cms.CMSAttribute({ 'type': "pki_status", 'values': ["2"] # rejected }) ] try: info = cms.ContentInfo.load( b64decode(req.get_param("message", required=True))) ############################################### ### Verify signature of the outer container ### ############################################### signed_envelope = info['content'] encap_content_info = signed_envelope['encap_content_info'] encap_content = encap_content_info['content'] # TODO: try except current_certificate, = signed_envelope["certificates"] signer, = signed_envelope["signer_infos"] # TODO: compare cert to current one if we are renewing assert signer["digest_algorithm"]["algorithm"].native == "md5" assert signer["signature_algorithm"][ "algorithm"].native == "rsassa_pkcs1v15" message_digest = None transaction_id = None sender_nonce = None for attr in signer["signed_attrs"]: if attr["type"].native == "sender_nonce": sender_nonce, = attr["values"] elif attr["type"].native == "trans_id": transaction_id, = attr["values"] elif attr["type"].native == "message_digest": message_digest, = attr["values"] if hashlib.md5(encap_content.native).digest( ) != message_digest.native: raise SCEPBadMessageCheck() assert message_digest msg = signer["signed_attrs"].dump(force=True) assert msg[0] == 160 # Verify signature try: asymmetric.rsa_pkcs1v15_verify( asymmetric.load_certificate(current_certificate.dump()), signer["signature"].native, b"\x31" + msg[1:], # wtf?! "md5") except SignatureError: raise SCEPBadMessageCheck() ############################### ### Decrypt inner container ### ############################### info = cms.ContentInfo.load(encap_content.native) encrypted_envelope = info['content'] encrypted_content_info = encrypted_envelope[ 'encrypted_content_info'] iv = encrypted_content_info['content_encryption_algorithm'][ 'parameters'].native if encrypted_content_info['content_encryption_algorithm'][ "algorithm"].native != "des": raise SCEPBadAlgo() encrypted_content = encrypted_content_info[ 'encrypted_content'].native recipient, = encrypted_envelope['recipient_infos'] if recipient.native["rid"][ "serial_number"] != self.authority.certificate.serial_number: raise SCEPBadCertId() # Since CA private key is not directly readable here, we'll redirect it to signer socket key = asymmetric.rsa_pkcs1v15_decrypt( self.authority.private_key, recipient.native["encrypted_key"]) if len(key) == 8: key = key * 3 # Convert DES to 3DES buf = symmetric.tripledes_cbc_pkcs5_decrypt( key, encrypted_content, iv) _, _, common_name = self.authority.store_request(buf, overwrite=True) cert, buf = self.authority.sign(common_name, overwrite=True) signed_certificate = asymmetric.load_certificate(buf) content = signed_certificate.asn1.dump() except SCEPError as e: attr_list.append( cms.CMSAttribute({ 'type': "fail_info", 'values': ["%d" % e.code] })) else: ################################## ### Degenerate inner container ### ################################## degenerate = cms.ContentInfo({ 'content_type': "signed_data", 'content': cms.SignedData({ 'version': "v1", 'certificates': [signed_certificate.asn1], 'digest_algorithms': [cms.DigestAlgorithm({'algorithm': "md5"})], 'encap_content_info': { 'content_type': "data", 'content': cms.ContentInfo({ 'content_type': "signed_data", 'content': None }).dump() }, 'signer_infos': [] }) }) ################################ ### Encrypt middle container ### ################################ key = os.urandom(8) iv, encrypted_content = symmetric.des_cbc_pkcs5_encrypt( key, degenerate.dump(), os.urandom(8)) assert degenerate.dump() == symmetric.tripledes_cbc_pkcs5_decrypt( key * 3, encrypted_content, iv) ri = cms.RecipientInfo({ 'ktri': cms.KeyTransRecipientInfo({ 'version': "v0", 'rid': cms.RecipientIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': current_certificate.chosen["tbs_certificate"] ["issuer"], 'serial_number': current_certificate.chosen["tbs_certificate"] ["serial_number"], }), }), 'key_encryption_algorithm': { 'algorithm': "rsa" }, 'encrypted_key': asymmetric.rsa_pkcs1v15_encrypt( asymmetric.load_certificate( current_certificate.chosen.dump()), key) }) }) encrypted_container = cms.ContentInfo({ 'content_type': "enveloped_data", 'content': cms.EnvelopedData({ 'version': "v1", 'recipient_infos': [ri], 'encrypted_content_info': { 'content_type': "data", 'content_encryption_algorithm': { 'algorithm': "des", 'parameters': iv }, 'encrypted_content': encrypted_content } }) }).dump() attr_list = [ cms.CMSAttribute({ 'type': "message_digest", 'values': [hashlib.sha1(encrypted_container).digest()] }), cms.CMSAttribute({ 'type': "message_type", 'values': ["3"] }), cms.CMSAttribute({ 'type': "pki_status", 'values': ["0"] # ok }) ] finally: ############################## ### Signed outer container ### ############################## attrs = cms.CMSAttributes(attr_list + [ cms.CMSAttribute({ 'type': "recipient_nonce", 'values': [sender_nonce] }), cms.CMSAttribute({ 'type': "trans_id", 'values': [transaction_id] }) ]) signer = cms.SignerInfo({ "signed_attrs": attrs, 'version': "v1", 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': self.authority.certificate.issuer, 'serial_number': self.authority.certificate.serial_number, }), }), 'digest_algorithm': algos.DigestAlgorithm({'algorithm': "sha1"}), 'signature_algorithm': algos.SignedDigestAlgorithm({'algorithm': "rsassa_pkcs1v15"}), 'signature': asymmetric.rsa_pkcs1v15_sign(self.authority.private_key, b"\x31" + attrs.dump()[1:], "sha1") }) resp.append_header("Content-Type", "application/x-pki-message") resp.body = cms.ContentInfo({ 'content_type': "signed_data", 'content': cms.SignedData({ 'version': "v1", 'certificates': [self.authority.certificate], 'digest_algorithms': [cms.DigestAlgorithm({'algorithm': "sha1"})], 'encap_content_info': { 'content_type': "data", 'content': encrypted_container }, 'signer_infos': [signer] }) }).dump()
def sign_message(data_to_sign, digest_alg, sign_key, use_signed_attributes=True): """Function signs the data and returns the generated ASN.1 :param data_to_sign: A byte string of the data to be signed. :param digest_alg: The digest algorithm to be used for generating the signature. :param sign_key: The key to be used for generating the signature. :param use_signed_attributes: Optional attribute to indicate weather the CMS signature attributes should be included in the signature or not. :return: A CMS ASN.1 byte string of the signed data. """ if use_signed_attributes: digest_func = hashlib.new(digest_alg) digest_func.update(data_to_sign) message_digest = digest_func.digest() class SmimeCapability(core.Sequence): _fields = [('0', core.Any, { 'optional': True }), ('1', core.Any, { 'optional': True }), ('2', core.Any, { 'optional': True }), ('3', core.Any, { 'optional': True }), ('4', core.Any, { 'optional': True })] class SmimeCapabilities(core.Sequence): _fields = [ ('0', SmimeCapability), ('1', SmimeCapability, { 'optional': True }), ('2', SmimeCapability, { 'optional': True }), ('3', SmimeCapability, { 'optional': True }), ('4', SmimeCapability, { 'optional': True }), ('5', SmimeCapability, { 'optional': True }), ] smime_cap = OrderedDict([ ('0', OrderedDict([('0', core.ObjectIdentifier('1.2.840.113549.3.7')) ])), ('1', OrderedDict([('0', core.ObjectIdentifier('1.2.840.113549.3.2')), ('1', core.Integer(128))])), ('2', OrderedDict([('0', core.ObjectIdentifier('1.2.840.113549.3.4')), ('1', core.Integer(128))])), ]) signed_attributes = cms.CMSAttributes([ cms.CMSAttribute({ 'type': cms.CMSAttributeType('content_type'), 'values': cms.SetOfContentType([cms.ContentType('data')]) }), cms.CMSAttribute({ 'type': cms.CMSAttributeType('signing_time'), 'values': cms.SetOfTime( [cms.Time({'utc_time': core.UTCTime(datetime.now())})]) }), cms.CMSAttribute({ 'type': cms.CMSAttributeType('message_digest'), 'values': cms.SetOfOctetString([core.OctetString(message_digest)]) }), cms.CMSAttribute({ 'type': cms.CMSAttributeType('1.2.840.113549.1.9.15'), 'values': cms.SetOfAny([core.Any(SmimeCapabilities(smime_cap))]) }), ]) signature = asymmetric.rsa_pkcs1v15_sign(sign_key[0], signed_attributes.dump(), digest_alg) else: signed_attributes = None signature = asymmetric.rsa_pkcs1v15_sign(sign_key[0], data_to_sign, digest_alg) return cms.ContentInfo({ 'content_type': cms.ContentType('signed_data'), 'content': cms.SignedData({ 'version': cms.CMSVersion('v1'), 'digest_algorithms': cms.DigestAlgorithms([ algos.DigestAlgorithm( {'algorithm': algos.DigestAlgorithmId(digest_alg)}) ]), 'encap_content_info': cms.ContentInfo({'content_type': cms.ContentType('data')}), 'certificates': cms.CertificateSet( [cms.CertificateChoices({'certificate': sign_key[1].asn1})]), 'signer_infos': cms.SignerInfos([ cms.SignerInfo({ 'version': cms.CMSVersion('v1'), 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': sign_key[1].asn1['tbs_certificate']['issuer'], 'serial_number': sign_key[1].asn1['tbs_certificate'] ['serial_number'] }) }), 'digest_algorithm': algos.DigestAlgorithm( {'algorithm': algos.DigestAlgorithmId(digest_alg)}), 'signed_attrs': signed_attributes, 'signature_algorithm': algos.SignedDigestAlgorithm({ 'algorithm': algos.SignedDigestAlgorithmId('rsassa_pkcs1v15') }), 'signature': core.OctetString(signature) }) ]) }) }).dump()
def request_tsa_response(self, req: tsp.TimeStampReq) -> tsp.TimeStampResp: # We pretend that certReq is always true in the request # TODO generalise my detached signature logic to include cases like this # (see § 5.4 in RFC 5652) # TODO does the RFC status = tsp.PKIStatusInfo({'status': tsp.PKIStatus('granted')}) message_imprint: tsp.MessageImprint = req['message_imprint'] md_algorithm = message_imprint['hash_algorithm']['algorithm'].native digest_algorithm_obj = algos.DigestAlgorithm({ 'algorithm': md_algorithm }) dt = self.fixed_dt or datetime.now(tz=tzlocal.get_localzone()) tst_info = { 'version': 'v1', # See http://oidref.com/1.3.6.1.4.1.4146.2.2 # I don't really care too much, this is a testing device anyway 'policy': tsp.ObjectIdentifier('1.3.6.1.4.1.4146.2.2'), 'message_imprint': message_imprint, # should be sufficiently random (again, this is a testing class) 'serial_number': get_nonce(), 'gen_time': dt, 'tsa': x509.GeneralName( name='directory_name', value=self.tsa_cert.subject ) } try: tst_info['nonce'] = req['nonce'] except KeyError: pass tst_info = tsp.TSTInfo(tst_info) tst_info_data = tst_info.dump() message_digest = getattr(hashlib, md_algorithm)(tst_info_data).digest() signed_attrs = cms.CMSAttributes([ simple_cms_attribute('content_type', 'tst_info'), simple_cms_attribute( 'signing_time', cms.Time({'utc_time': core.UTCTime(dt)}) ), simple_cms_attribute( 'signing_certificate', general.as_signing_certificate(self.tsa_cert) ), simple_cms_attribute('message_digest', message_digest), ]) signature = asymmetric.rsa_pkcs1v15_sign( asymmetric.load_private_key(self.tsa_key), signed_attrs.dump(), md_algorithm ) sig_info = cms.SignerInfo({ 'version': 'v1', 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': self.tsa_cert.issuer, 'serial_number': self.tsa_cert.serial_number, }) }), 'digest_algorithm': digest_algorithm_obj, 'signature_algorithm': algos.SignedDigestAlgorithm( {'algorithm': 'rsassa_pkcs1v15'} ), 'signed_attrs': signed_attrs, 'signature': signature }) certs = set(self.certs_to_embed) certs.add(self.tsa_cert) signed_data = { # must use v3 to get access to the EncapsulatedContentInfo construct 'version': 'v3', 'digest_algorithms': cms.DigestAlgorithms((digest_algorithm_obj,)), 'encap_content_info': cms.EncapsulatedContentInfo({ 'content_type': cms.ContentType('tst_info'), 'content': cms.ParsableOctetString(tst_info_data) }), 'certificates': certs, 'signer_infos': [sig_info] } tst = cms.ContentInfo({ 'content_type': cms.ContentType('signed_data'), 'content': cms.SignedData(signed_data) }) return tsp.TimeStampResp({'status': status, 'time_stamp_token': tst})
def sign_message( data_to_sign, digest_alg, sign_key, sign_alg="rsassa_pkcs1v15", use_signed_attributes=True, ): """Function signs the data and returns the generated ASN.1 :param data_to_sign: A byte string of the data to be signed. :param digest_alg: The digest algorithm to be used for generating the signature. :param sign_key: The key to be used for generating the signature. :param sign_alg: The algorithm to be used for signing the message. :param use_signed_attributes: Optional attribute to indicate weather the CMS signature attributes should be included in the signature or not. :return: A CMS ASN.1 byte string of the signed data. """ if use_signed_attributes: digest_func = hashlib.new(digest_alg) digest_func.update(data_to_sign) message_digest = digest_func.digest() class SmimeCapability(core.Sequence): _fields = [ ("0", core.Any, { "optional": True }), ("1", core.Any, { "optional": True }), ("2", core.Any, { "optional": True }), ("3", core.Any, { "optional": True }), ("4", core.Any, { "optional": True }), ] class SmimeCapabilities(core.Sequence): _fields = [ ("0", SmimeCapability), ("1", SmimeCapability, { "optional": True }), ("2", SmimeCapability, { "optional": True }), ("3", SmimeCapability, { "optional": True }), ("4", SmimeCapability, { "optional": True }), ("5", SmimeCapability, { "optional": True }), ] smime_cap = OrderedDict([ ( "0", OrderedDict([ ("0", core.ObjectIdentifier("2.16.840.1.101.3.4.1.42")) ]), ), ( "1", OrderedDict([ ("0", core.ObjectIdentifier("2.16.840.1.101.3.4.1.2")) ]), ), ( "2", OrderedDict([("0", core.ObjectIdentifier("1.2.840.113549.3.7")) ]), ), ( "3", OrderedDict([ ("0", core.ObjectIdentifier("1.2.840.113549.3.2")), ("1", core.Integer(128)), ]), ), ( "4", OrderedDict([ ("0", core.ObjectIdentifier("1.2.840.113549.3.4")), ("1", core.Integer(128)), ]), ), ]) signed_attributes = cms.CMSAttributes([ cms.CMSAttribute({ "type": cms.CMSAttributeType("content_type"), "values": cms.SetOfContentType([cms.ContentType("data")]), }), cms.CMSAttribute({ "type": cms.CMSAttributeType("signing_time"), "values": cms.SetOfTime([ cms.Time({ "utc_time": core.UTCTime( datetime.utcnow().replace(tzinfo=timezone.utc)) }) ]), }), cms.CMSAttribute({ "type": cms.CMSAttributeType("message_digest"), "values": cms.SetOfOctetString([core.OctetString(message_digest)]), }), cms.CMSAttribute({ "type": cms.CMSAttributeType("1.2.840.113549.1.9.15"), "values": cms.SetOfAny([core.Any(SmimeCapabilities(smime_cap))]), }), ]) else: signed_attributes = None # Generate the signature data_to_sign = signed_attributes.dump( ) if signed_attributes else data_to_sign if sign_alg == "rsassa_pkcs1v15": signature = asymmetric.rsa_pkcs1v15_sign(sign_key[0], data_to_sign, digest_alg) elif sign_alg == "rsassa_pss": signature = asymmetric.rsa_pss_sign(sign_key[0], data_to_sign, digest_alg) else: raise AS2Exception("Unsupported Signature Algorithm") return cms.ContentInfo({ "content_type": cms.ContentType("signed_data"), "content": cms.SignedData({ "version": cms.CMSVersion("v1"), "digest_algorithms": cms.DigestAlgorithms([ algos.DigestAlgorithm( {"algorithm": algos.DigestAlgorithmId(digest_alg)}) ]), "encap_content_info": cms.ContentInfo({"content_type": cms.ContentType("data")}), "certificates": cms.CertificateSet( [cms.CertificateChoices({"certificate": sign_key[1].asn1})]), "signer_infos": cms.SignerInfos([ cms.SignerInfo({ "version": cms.CMSVersion("v1"), "sid": cms.SignerIdentifier({ "issuer_and_serial_number": cms.IssuerAndSerialNumber({ "issuer": sign_key[1].asn1["tbs_certificate"]["issuer"], "serial_number": sign_key[1].asn1["tbs_certificate"] ["serial_number"], }) }), "digest_algorithm": algos.DigestAlgorithm( {"algorithm": algos.DigestAlgorithmId(digest_alg)}), "signed_attrs": signed_attributes, "signature_algorithm": algos.SignedDigestAlgorithm( {"algorithm": algos.SignedDigestAlgorithmId(sign_alg)}), "signature": core.OctetString(signature), }) ]), }), }).dump()
def request_tsa_response(self, req: tsp.TimeStampReq) -> tsp.TimeStampResp: # We pretend that certReq is always true in the request status = tsp.PKIStatusInfo({'status': tsp.PKIStatus('granted')}) message_imprint: tsp.MessageImprint = req['message_imprint'] md_algorithm = self.md_algorithm digest_algorithm_obj = algos.DigestAlgorithm({ 'algorithm': md_algorithm }) dt = self.fixed_dt or datetime.now(tz=tzlocal.get_localzone()) tst_info = { 'version': 'v1', 'policy': self.policy, 'message_imprint': message_imprint, 'serial_number': get_nonce(), 'gen_time': dt, 'tsa': x509.GeneralName( name='directory_name', value=self.tsa_cert.subject ) } try: tst_info['nonce'] = req['nonce'] except KeyError: pass tst_info = tsp.TSTInfo(tst_info) tst_info_data = tst_info.dump() message_digest = getattr(hashlib, md_algorithm)(tst_info_data).digest() signing_cert_id = tsp.ESSCertID({ 'cert_hash': hashlib.sha1(self.tsa_cert.dump()).digest() }) signed_attrs = cms.CMSAttributes([ simple_cms_attribute('content_type', 'tst_info'), simple_cms_attribute( 'signing_time', cms.Time({'utc_time': core.UTCTime(dt)}) ), simple_cms_attribute( 'signing_certificate', tsp.SigningCertificate({'certs': [signing_cert_id]}) ), simple_cms_attribute('message_digest', message_digest), ]) signature = generic_sign( self.tsa_key, signed_attrs.dump(), self.signature_algo ) sig_info = cms.SignerInfo({ 'version': 'v1', 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': self.tsa_cert.issuer, 'serial_number': self.tsa_cert.serial_number, }) }), 'digest_algorithm': digest_algorithm_obj, 'signature_algorithm': self.signature_algo, 'signed_attrs': signed_attrs, 'signature': signature }) certs = set(self.certs_to_embed) certs.add(self.tsa_cert) signed_data = { # must use v3 to get access to the EncapsulatedContentInfo construct 'version': 'v3', 'digest_algorithms': cms.DigestAlgorithms((digest_algorithm_obj,)), 'encap_content_info': cms.EncapsulatedContentInfo({ 'content_type': cms.ContentType('tst_info'), 'content': cms.ParsableOctetString(tst_info_data) }), 'certificates': certs, 'signer_infos': [sig_info] } tst = cms.ContentInfo({ 'content_type': cms.ContentType('signed_data'), 'content': cms.SignedData(signed_data) }) return tsp.TimeStampResp({'status': status, 'time_stamp_token': tst})
def on_get(self, req, resp): operation = req.get_param("operation", required=True) if operation == "GetCACert": resp.body = keys.parse_certificate( self.authority.certificate_buf).dump() resp.append_header("Content-Type", "application/x-x509-ca-cert") return elif operation == "GetCACaps": # TODO: return renewal flag based on renewal subnets config option resp.body = "Renewal\nMD5\nSHA-1\nSHA-256\nSHA-512\nDES3\n" return elif operation == "PKIOperation": pass else: raise falcon.HTTPBadRequest("Bad request", "Unknown operation %s" % operation) # If we bump into exceptions later encrypted_container = b"" attr_list = [ cms.CMSAttribute({ 'type': "message_type", 'values': ["3"] }), cms.CMSAttribute({ 'type': "pki_status", 'values': ["2"] # rejected }) ] try: info = cms.ContentInfo.load( b64decode(req.get_param("message", required=True))) ############################################### ### Verify signature of the outer container ### ############################################### signed_envelope = info['content'] encap_content_info = signed_envelope['encap_content_info'] encap_content = encap_content_info['content'] # TODO: try except current_certificate, = signed_envelope["certificates"] signer, = signed_envelope["signer_infos"] # TODO: compare cert to current one if we are renewing digest_algorithm = signer["digest_algorithm"]["algorithm"].native signature_algorithm = signer["signature_algorithm"][ "algorithm"].native if digest_algorithm not in ("md5", "sha1", "sha256", "sha512"): raise SCEPBadAlgo() if signature_algorithm != "rsassa_pkcs1v15": raise SCEPBadAlgo() message_digest = None transaction_id = None sender_nonce = None for attr in signer["signed_attrs"]: if attr["type"].native == "sender_nonce": sender_nonce, = attr["values"] elif attr["type"].native == "trans_id": transaction_id, = attr["values"] elif attr["type"].native == "message_digest": message_digest, = attr["values"] if getattr(hashlib, digest_algorithm)(encap_content.native).digest( ) != message_digest.native: raise SCEPDigestMismatch() if not sender_nonce: raise SCEPBadRequest() if not transaction_id: raise SCEPBadRequest() assert message_digest msg = signer["signed_attrs"].dump(force=True) assert msg[0] == 160 # Verify signature try: asymmetric.rsa_pkcs1v15_verify( asymmetric.load_certificate(current_certificate.dump()), signer["signature"].native, b"\x31" + msg[1:], # wtf?! "md5") except SignatureError: raise SCEPSignatureMismatch() ############################### ### Decrypt inner container ### ############################### info = cms.ContentInfo.load(encap_content.native) encrypted_envelope = info['content'] encrypted_content_info = encrypted_envelope[ 'encrypted_content_info'] iv = encrypted_content_info['content_encryption_algorithm'][ 'parameters'].native if encrypted_content_info['content_encryption_algorithm'][ "algorithm"].native != "des": raise SCEPBadAlgo() encrypted_content = encrypted_content_info[ 'encrypted_content'].native recipient, = encrypted_envelope['recipient_infos'] if recipient.native["rid"][ "serial_number"] != self.authority.certificate.serial_number: raise SCEPBadCertId() key = asymmetric.rsa_pkcs1v15_decrypt( self.authority.private_key, recipient.native["encrypted_key"]) if len(key) == 8: key = key * 3 # Convert DES to 3DES buf = symmetric.tripledes_cbc_pkcs5_decrypt( key, encrypted_content, iv) _, _, common_name = self.authority.store_request(buf, overwrite=True) logger.info( "SCEP client from %s requested with %s digest algorithm, %s signature", req.context["remote_addr"], digest_algorithm, signature_algorithm) cert, buf = self.authority.sign(common_name, profile=config.PROFILES["gw"], overwrite=True) signed_certificate = asymmetric.load_certificate(buf) content = signed_certificate.asn1.dump() except SCEPError as e: attr_list.append( cms.CMSAttribute({ 'type': "fail_info", 'values': ["%d" % e.code] })) logger.info("Failed to sign SCEP request due to: %s" % e.explaination) else: ################################## ### Degenerate inner container ### ################################## degenerate = cms.ContentInfo({ 'content_type': "signed_data", 'content': cms.SignedData({ 'version': "v1", 'certificates': [signed_certificate.asn1], 'digest_algorithms': [cms.DigestAlgorithm({'algorithm': digest_algorithm})], 'encap_content_info': { 'content_type': "data", 'content': cms.ContentInfo({ 'content_type': "signed_data", 'content': None }).dump() }, 'signer_infos': [] }) }) ################################ ### Encrypt middle container ### ################################ key = os.urandom(8) iv, encrypted_content = symmetric.des_cbc_pkcs5_encrypt( key, degenerate.dump(), os.urandom(8)) assert degenerate.dump() == symmetric.tripledes_cbc_pkcs5_decrypt( key * 3, encrypted_content, iv) ri = cms.RecipientInfo({ 'ktri': cms.KeyTransRecipientInfo({ 'version': "v0", 'rid': cms.RecipientIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': current_certificate.chosen["tbs_certificate"] ["issuer"], 'serial_number': current_certificate.chosen["tbs_certificate"] ["serial_number"], }), }), 'key_encryption_algorithm': { 'algorithm': "rsa" }, 'encrypted_key': asymmetric.rsa_pkcs1v15_encrypt( asymmetric.load_certificate( current_certificate.chosen.dump()), key) }) }) encrypted_container = cms.ContentInfo({ 'content_type': "enveloped_data", 'content': cms.EnvelopedData({ 'version': "v1", 'recipient_infos': [ri], 'encrypted_content_info': { 'content_type': "data", 'content_encryption_algorithm': { 'algorithm': "des", 'parameters': iv }, 'encrypted_content': encrypted_content } }) }).dump() attr_list = [ cms.CMSAttribute({ 'type': "message_digest", 'values': [ getattr( hashlib, digest_algorithm)(encrypted_container).digest() ] }), cms.CMSAttribute({ 'type': "message_type", 'values': ["3"] }), cms.CMSAttribute({ 'type': "pki_status", 'values': ["0"] # ok }) ] finally: ############################## ### Signed outer container ### ############################## attrs = cms.CMSAttributes(attr_list + [ cms.CMSAttribute({ 'type': "recipient_nonce", 'values': [sender_nonce] }), cms.CMSAttribute({ 'type': "trans_id", 'values': [transaction_id] }) ]) signer = cms.SignerInfo({ "signed_attrs": attrs, 'version': "v1", 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': self.authority.certificate.issuer, 'serial_number': self.authority.certificate.serial_number, }), }), 'digest_algorithm': algos.DigestAlgorithm({'algorithm': digest_algorithm}), 'signature_algorithm': algos.SignedDigestAlgorithm({'algorithm': "rsassa_pkcs1v15"}), 'signature': asymmetric.rsa_pkcs1v15_sign(self.authority.private_key, b"\x31" + attrs.dump()[1:], digest_algorithm) }) resp.append_header("Content-Type", "application/x-pki-message") resp.body = cms.ContentInfo({ 'content_type': "signed_data", 'content': cms.SignedData({ 'version': "v1", 'certificates': [self.authority.certificate], 'digest_algorithms': [cms.DigestAlgorithm({'algorithm': digest_algorithm})], 'encap_content_info': { 'content_type': "data", 'content': encrypted_container }, 'signer_infos': [signer] }) }).dump()
def request_tsa_response(self, req: tsp.TimeStampReq) \ -> tsp.TimeStampResp: # We pretend that certReq is always true in the request # TODO generalise my detached signature logic to include cases like this # (see § 5.4 in RFC 5652) # TODO does the RFC status = tsp.PKIStatusInfo({'status': tsp.PKIStatus('granted')}) message_imprint: tsp.MessageImprint = req['message_imprint'] md_algorithm = self.override_md if md_algorithm is None: md_algorithm = message_imprint['hash_algorithm'][ 'algorithm'].native digest_algorithm_obj = algos.DigestAlgorithm( {'algorithm': md_algorithm}) dt = self.fixed_dt or datetime.now(tz=tzlocal.get_localzone()) tst_info = { 'version': 'v1', # See http://oidref.com/1.3.6.1.4.1.4146.2.2 # I don't really care too much, this is a testing device anyway 'policy': tsp.ObjectIdentifier('1.3.6.1.4.1.4146.2.2'), 'message_imprint': message_imprint, # should be sufficiently random (again, this is a testing class) 'serial_number': get_nonce(), 'gen_time': dt, 'tsa': x509.GeneralName(name='directory_name', value=self.tsa_cert.subject) } if req['nonce'].native is not None: tst_info['nonce'] = req['nonce'] tst_info = tsp.TSTInfo(tst_info) tst_info_data = tst_info.dump() md_spec = get_pyca_cryptography_hash(md_algorithm) md = hashes.Hash(md_spec) md.update(tst_info_data) message_digest_value = md.finalize() signed_attrs = cms.CMSAttributes([ simple_cms_attribute('content_type', 'tst_info'), simple_cms_attribute('signing_time', cms.Time({'utc_time': core.UTCTime(dt)})), simple_cms_attribute('signing_certificate', general.as_signing_certificate( self.tsa_cert)), simple_cms_attribute('message_digest', message_digest_value), ]) priv_key = serialization.load_der_private_key(self.tsa_key.dump(), password=None) if not isinstance(priv_key, RSAPrivateKey): raise NotImplementedError("Dummy timestamper is RSA-only.") signature = priv_key.sign( signed_attrs.dump(), PKCS1v15(), get_pyca_cryptography_hash(md_algorithm.upper())) sig_info = cms.SignerInfo({ 'version': 'v1', 'sid': cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': self.tsa_cert.issuer, 'serial_number': self.tsa_cert.serial_number, }) }), 'digest_algorithm': digest_algorithm_obj, 'signature_algorithm': algos.SignedDigestAlgorithm({'algorithm': 'rsassa_pkcs1v15'}), 'signed_attrs': signed_attrs, 'signature': signature }) certs = set(self.certs_to_embed) certs.add(self.tsa_cert) signed_data = { # must use v3 to get access to the EncapsulatedContentInfo construct 'version': 'v3', 'digest_algorithms': cms.DigestAlgorithms((digest_algorithm_obj, )), 'encap_content_info': cms.EncapsulatedContentInfo({ 'content_type': cms.ContentType('tst_info'), 'content': cms.ParsableOctetString(tst_info_data) }), 'certificates': certs, 'signer_infos': [sig_info] } tst = cms.ContentInfo({ 'content_type': cms.ContentType('signed_data'), 'content': cms.SignedData(signed_data) }) return tsp.TimeStampResp({'status': status, 'time_stamp_token': tst})
def _cms_signature(self, zulu: datetime, data: bytes) -> bytes: """Sign provided data and return CMS signature. :param zulu: current UTC time+date :param data: to be signed :return: CMS signature (binary) """ assert self.certificate is not None assert self.private_key_pem_data is not None # signed data (main section) signed_data = cms.SignedData() signed_data['version'] = 'v1' signed_data['encap_content_info'] = util.OrderedDict([ ('content_type', 'data') ]) signed_data['digest_algorithms'] = [util.OrderedDict([ ('algorithm', 'sha256'), ('parameters', None)])] # signer info sub-section signer_info = cms.SignerInfo() signer_info['version'] = 'v1' signer_info['digest_algorithm'] = util.OrderedDict([ ('algorithm', 'sha256'), ('parameters', None)]) signer_info['signature_algorithm'] = util.OrderedDict([ ('algorithm', 'rsassa_pkcs1v15'), ('parameters', b'')]) # signed identifier: issuer amd serial number asn1cert = x509.Certificate.load(self.certificate.public_bytes(Encoding.DER)) signer_info['sid'] = cms.SignerIdentifier({ 'issuer_and_serial_number': cms.IssuerAndSerialNumber({ 'issuer': asn1cert.issuer, 'serial_number': asn1cert.serial_number }) }) # signed attributes signed_attrs = cms.CMSAttributes() signed_attrs.append(cms.CMSAttribute({ 'type': 'content_type', 'values': [cms.ContentType('data')], })) # check time-zone is assigned (expected UTC+0) assert zulu.tzinfo signed_attrs.append(cms.CMSAttribute({ 'type': 'signing_time', 'values': [cms.Time(name='utc_time', value=zulu.strftime('%y%m%d%H%M%SZ'))], })) signed_attrs.append(cms.CMSAttribute({ 'type': 'message_digest', 'values': [cms.OctetString(crypto_backend().hash(data))], # digest })) signer_info['signed_attrs'] = signed_attrs # create signature signer_info['signature'] = crypto_backend().rsa_sign(self.private_key_pem_data, signed_attrs.dump()) # Adding SignerInfo object to SignedData object signed_data['signer_infos'] = [signer_info] # content info content_info = cms.ContentInfo() content_info['content_type'] = 'signed_data' content_info['content'] = signed_data return content_info.dump()