/* This work is licensed under a Creative Commons CCZero 1.0 Universal License. * See http://creativecommons.org/publicdomain/zero/1.0/ for more information. * * Copyright 2017-2018 (c) Mark Giraud, Fraunhofer IOSB * Copyright 2017 (c) Stefan Profanter, fortiss GmbH */ #include static UA_StatusCode verify_none(const UA_SecurityPolicy *securityPolicy, void *channelContext, const UA_ByteString *message, const UA_ByteString *signature) { return UA_STATUSCODE_GOOD; } static UA_StatusCode sign_none(const UA_SecurityPolicy *securityPolicy, void *channelContext, const UA_ByteString *message, UA_ByteString *signature) { return UA_STATUSCODE_GOOD; } static size_t length_none(const UA_SecurityPolicy *securityPolicy, const void *channelContext) { return 0; } static UA_StatusCode encrypt_none(const UA_SecurityPolicy *securityPolicy, void *channelContext, UA_ByteString *data) { return UA_STATUSCODE_GOOD; } static UA_StatusCode decrypt_none(const UA_SecurityPolicy *securityPolicy, void *channelContext, UA_ByteString *data) { return UA_STATUSCODE_GOOD; } static UA_StatusCode makeThumbprint_none(const UA_SecurityPolicy *securityPolicy, const UA_ByteString *certificate, UA_ByteString *thumbprint) { return UA_STATUSCODE_GOOD; } static UA_StatusCode compareThumbprint_none(const UA_SecurityPolicy *securityPolicy, const UA_ByteString *certificateThumbprint) { return UA_STATUSCODE_GOOD; } static UA_StatusCode generateKey_none(const UA_SecurityPolicy *securityPolicy, const UA_ByteString *secret, const UA_ByteString *seed, UA_ByteString *out) { return UA_STATUSCODE_GOOD; } /* Use the non-cryptographic RNG to set the nonce */ static UA_StatusCode generateNonce_none(const UA_SecurityPolicy *securityPolicy, UA_ByteString *out) { if(securityPolicy == NULL || out == NULL) return UA_STATUSCODE_BADINTERNALERROR; if(out->length == 0) return UA_STATUSCODE_GOOD; /* Fill blocks of four byte */ size_t i = 0; while(i + 3 < out->length) { UA_UInt32 randNumber = UA_UInt32_random(); memcpy(&out->data[i], &randNumber, 4); i = i+4; } /* Fill the remaining byte */ UA_UInt32 randNumber = UA_UInt32_random(); memcpy(&out->data[i], &randNumber, out->length % 4); return UA_STATUSCODE_GOOD; } static UA_StatusCode newContext_none(const UA_SecurityPolicy *securityPolicy, const UA_ByteString *remoteCertificate, void **channelContext) { return UA_STATUSCODE_GOOD; } static void deleteContext_none(void *channelContext) { } static UA_StatusCode setContextValue_none(void *channelContext, const UA_ByteString *key) { return UA_STATUSCODE_GOOD; } static UA_StatusCode compareCertificate_none(const void *channelContext, const UA_ByteString *certificate) { return UA_STATUSCODE_GOOD; } static UA_StatusCode updateCertificateAndPrivateKey_none(UA_SecurityPolicy *policy, const UA_ByteString newCertificate, const UA_ByteString newPrivateKey) { UA_ByteString_deleteMembers(&policy->localCertificate); UA_ByteString_copy(&newCertificate, &policy->localCertificate); return UA_STATUSCODE_GOOD; } static void policy_clear_none(UA_SecurityPolicy *policy) { UA_ByteString_deleteMembers(&policy->localCertificate); } UA_StatusCode UA_SecurityPolicy_None(UA_SecurityPolicy *policy, UA_CertificateVerification *certificateVerification, const UA_ByteString localCertificate, const UA_Logger *logger) { policy->policyContext = (void *)(uintptr_t)logger; policy->policyUri = UA_STRING("http://opcfoundation.org/UA/SecurityPolicy#None"); policy->logger = logger; UA_ByteString_copy(&localCertificate, &policy->localCertificate); policy->certificateVerification = certificateVerification; policy->symmetricModule.generateKey = generateKey_none; policy->symmetricModule.generateNonce = generateNonce_none; UA_SecurityPolicySignatureAlgorithm *sym_signatureAlgorithm = &policy->symmetricModule.cryptoModule.signatureAlgorithm; sym_signatureAlgorithm->uri = UA_STRING_NULL; sym_signatureAlgorithm->verify = verify_none; sym_signatureAlgorithm->sign = sign_none; sym_signatureAlgorithm->getLocalSignatureSize = length_none; sym_signatureAlgorithm->getRemoteSignatureSize = length_none; sym_signatureAlgorithm->getLocalKeyLength = length_none; sym_signatureAlgorithm->getRemoteKeyLength = length_none; UA_SecurityPolicyEncryptionAlgorithm *sym_encryptionAlgorithm = &policy->symmetricModule.cryptoModule.encryptionAlgorithm; sym_encryptionAlgorithm->encrypt = encrypt_none; sym_encryptionAlgorithm->decrypt = decrypt_none; sym_encryptionAlgorithm->getLocalKeyLength = length_none; sym_encryptionAlgorithm->getRemoteKeyLength = length_none; sym_encryptionAlgorithm->getLocalBlockSize = length_none; sym_encryptionAlgorithm->getRemoteBlockSize = length_none; sym_encryptionAlgorithm->getLocalPlainTextBlockSize = length_none; sym_encryptionAlgorithm->getRemotePlainTextBlockSize = length_none; policy->symmetricModule.secureChannelNonceLength = 0; policy->asymmetricModule.makeCertificateThumbprint = makeThumbprint_none; policy->asymmetricModule.compareCertificateThumbprint = compareThumbprint_none; // This only works for none since symmetric and asymmetric crypto modules do the same i.e. nothing policy->asymmetricModule.cryptoModule = policy->symmetricModule.cryptoModule; // Use the same signing algorithm as for asymmetric signing policy->certificateSigningAlgorithm = policy->asymmetricModule.cryptoModule.signatureAlgorithm; policy->channelModule.newContext = newContext_none; policy->channelModule.deleteContext = deleteContext_none; policy->channelModule.setLocalSymEncryptingKey = setContextValue_none; policy->channelModule.setLocalSymSigningKey = setContextValue_none; policy->channelModule.setLocalSymIv = setContextValue_none; policy->channelModule.setRemoteSymEncryptingKey = setContextValue_none; policy->channelModule.setRemoteSymSigningKey = setContextValue_none; policy->channelModule.setRemoteSymIv = setContextValue_none; policy->channelModule.compareCertificate = compareCertificate_none; policy->updateCertificateAndPrivateKey = updateCertificateAndPrivateKey_none; policy->clear = policy_clear_none; return UA_STATUSCODE_GOOD; }