/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * Copyright 2019 (c) Holger Zipper, ifak */ #include #include #include "securitypolicy_mbedtls_common.h" #ifdef UA_ENABLE_PUBSUB_ENCRYPTION #include #include #include #include #include #include #include #include #include /* Orinigal Notes: * mbedTLS' AES allows in-place encryption and decryption. Sow we don't have to * allocate temp buffers. * https://tls.mbed.org/discussions/generic/in-place-decryption-with-aes256-same-input-output-buffer */ #define UA_SHA256_LENGTH 32 #define UA_AES128CTR_SIGNING_KEY_LENGTH 32 #define UA_AES128CTR_KEY_LENGTH 16 #define UA_AES128CTR_KEYNONCE_LENGTH 4 #define UA_AES128CTR_MESSAGENONCE_LENGTH 8 #define UA_AES128CTR_ENCRYPTION_BLOCK_SIZE 16 #define UA_AES128CTR_PLAIN_TEXT_BLOCK_SIZE 16 /* counter block=keynonce(4Byte)+Messagenonce(8Byte)+counter(4Byte) see Part14 * 7.2.2.2.3.2 for details */ #define UA_AES128CTR_COUNTERBLOCK_SIZE 16 typedef struct { const UA_PubSubSecurityPolicy *securityPolicy; mbedtls_ctr_drbg_context drbgContext; mbedtls_entropy_context entropyContext; mbedtls_md_context_t sha256MdContext; } PUBSUB_AES128CTR_PolicyContext; typedef struct { PUBSUB_AES128CTR_PolicyContext *policyContext; UA_Byte signingKey[UA_AES128CTR_SIGNING_KEY_LENGTH]; UA_Byte encryptingKey[UA_AES128CTR_KEY_LENGTH]; UA_Byte keyNonce[UA_AES128CTR_KEYNONCE_LENGTH]; UA_Byte messageNonce[UA_AES128CTR_MESSAGENONCE_LENGTH]; } PUBSUB_AES128CTR_ChannelContext; /*******************/ /* SymmetricModule */ /*******************/ /* Signature and verify all using HMAC-SHA2-256, nothing to change */ static UA_StatusCode verify_sp_pubsub_aes128ctr(PUBSUB_AES128CTR_ChannelContext *cc, const UA_ByteString *message, const UA_ByteString *signature) { if(cc == NULL || message == NULL || signature == NULL) return UA_STATUSCODE_BADINTERNALERROR; /* Compute MAC */ if(signature->length != UA_SHA256_LENGTH) return UA_STATUSCODE_BADSECURITYCHECKSFAILED; PUBSUB_AES128CTR_PolicyContext *pc = (PUBSUB_AES128CTR_PolicyContext *)cc->policyContext; unsigned char mac[UA_SHA256_LENGTH]; UA_ByteString signingKey = {UA_AES128CTR_SIGNING_KEY_LENGTH, cc->signingKey}; mbedtls_hmac(&pc->sha256MdContext, &signingKey, message, mac); /* Compare with Signature */ if(!UA_constantTimeEqual(signature->data, mac, UA_SHA256_LENGTH)) return UA_STATUSCODE_BADSECURITYCHECKSFAILED; return UA_STATUSCODE_GOOD; } static UA_StatusCode sign_sp_pubsub_aes128ctr(PUBSUB_AES128CTR_ChannelContext *cc, const UA_ByteString *message, UA_ByteString *signature) { if(signature->length != UA_SHA256_LENGTH) return UA_STATUSCODE_BADINTERNALERROR; UA_ByteString signingKey = {UA_AES128CTR_SIGNING_KEY_LENGTH, cc->signingKey}; mbedtls_hmac(&cc->policyContext->sha256MdContext, &signingKey, message, signature->data); return UA_STATUSCODE_GOOD; } static size_t getSignatureSize_sp_pubsub_aes128ctr(const void *channelContext) { return UA_SHA256_LENGTH; } static size_t getSigningKeyLength_sp_pubsub_aes128ctr(const void *const channelContext) { return UA_AES128CTR_SIGNING_KEY_LENGTH; } static size_t getEncryptionKeyLength_sp_pubsub_aes128ctr(const void *channelContext) { return UA_AES128CTR_KEY_LENGTH; } static size_t getEncryptionBlockSize_sp_pubsub_aes128ctr(const void *channelContext) { return UA_AES128CTR_ENCRYPTION_BLOCK_SIZE; } static size_t getPlainTextBlockSize_sp_pubsub_aes128ctr(const void *channelContext) { return UA_AES128CTR_PLAIN_TEXT_BLOCK_SIZE; } static UA_StatusCode encrypt_sp_pubsub_aes128ctr(const PUBSUB_AES128CTR_ChannelContext *cc, UA_ByteString *data) { if(cc == NULL || data == NULL) return UA_STATUSCODE_BADINTERNALERROR; /* CTR mode does not need padding */ /* Decode the header to Extract the message nonce */ /* Keylength in bits */ unsigned int keylength = (unsigned int)(UA_AES128CTR_KEY_LENGTH * 8); mbedtls_aes_context aesContext; int mbedErr = mbedtls_aes_setkey_enc(&aesContext, cc->encryptingKey, keylength); if(mbedErr) return UA_STATUSCODE_BADINTERNALERROR; /* Prepare the counterBlock required for encryption/decryption * Block counter starts at 1 according to part 14 (7.2.2.4.3.2)*/ UA_Byte counterBlockCopy[UA_AES128CTR_ENCRYPTION_BLOCK_SIZE]; UA_Byte counterInitialValue[4] = {0,0,0,1}; memcpy(counterBlockCopy, cc->keyNonce, UA_AES128CTR_KEYNONCE_LENGTH); memcpy(counterBlockCopy + UA_AES128CTR_KEYNONCE_LENGTH, cc->messageNonce, UA_AES128CTR_MESSAGENONCE_LENGTH); memcpy(counterBlockCopy + UA_AES128CTR_KEYNONCE_LENGTH + UA_AES128CTR_MESSAGENONCE_LENGTH, &counterInitialValue, 4); size_t counterblockoffset = 0; UA_Byte aesBuffer[UA_AES128CTR_ENCRYPTION_BLOCK_SIZE]; mbedErr = mbedtls_aes_crypt_ctr(&aesContext, data->length, &counterblockoffset, counterBlockCopy, aesBuffer, data->data, data->data); if(mbedErr) return UA_STATUSCODE_BADINTERNALERROR; return UA_STATUSCODE_GOOD; } /* a decryption function is exactly the same as an encryption one, since they all do XOR * operations*/ static UA_StatusCode decrypt_sp_pubsub_aes128ctr(const PUBSUB_AES128CTR_ChannelContext *cc, UA_ByteString *data) { return encrypt_sp_pubsub_aes128ctr(cc, data); } /*Tested, meeting Profile*/ static UA_StatusCode generateKey_sp_pubsub_aes128ctr(void *policyContext, const UA_ByteString *secret, const UA_ByteString *seed, UA_ByteString *out) { return UA_STATUSCODE_BADNOTIMPLEMENTED; } /* This nonce does not need to be a cryptographically random number, it can be * pseudo-random */ static UA_StatusCode generateNonce_sp_pubsub_aes128ctr(void *policyContext, UA_ByteString *out) { if(policyContext == NULL || out == NULL) return UA_STATUSCODE_BADINTERNALERROR; PUBSUB_AES128CTR_PolicyContext *pc = (PUBSUB_AES128CTR_PolicyContext *)policyContext; int mbedErr = mbedtls_ctr_drbg_random(&pc->drbgContext, out->data, out->length); if(mbedErr) return UA_STATUSCODE_BADUNEXPECTEDERROR; return UA_STATUSCODE_GOOD; } /*****************/ /* ChannelModule */ /*****************/ static void channelContext_deleteContext_sp_pubsub_aes128ctr(PUBSUB_AES128CTR_ChannelContext *cc) { UA_free(cc); } static UA_StatusCode channelContext_newContext_sp_pubsub_aes128ctr(void *policyContext, const UA_ByteString *signingKey, const UA_ByteString *encryptingKey, const UA_ByteString *keyNonce, void **wgContext) { if((signingKey && signingKey->length != UA_AES128CTR_SIGNING_KEY_LENGTH) || (encryptingKey && encryptingKey->length != UA_AES128CTR_KEY_LENGTH) || (keyNonce && keyNonce->length != UA_AES128CTR_KEYNONCE_LENGTH)) return UA_STATUSCODE_BADSECURITYCHECKSFAILED; /* Allocate the channel context */ PUBSUB_AES128CTR_ChannelContext *cc = (PUBSUB_AES128CTR_ChannelContext *) UA_calloc(1, sizeof(PUBSUB_AES128CTR_ChannelContext)); if(cc == NULL) return UA_STATUSCODE_BADOUTOFMEMORY; /* Initialize the channel context */ cc->policyContext = (PUBSUB_AES128CTR_PolicyContext *)policyContext; if(signingKey) memcpy(cc->signingKey, signingKey->data, signingKey->length); if(encryptingKey) memcpy(cc->encryptingKey, encryptingKey->data, encryptingKey->length); if(keyNonce) memcpy(cc->keyNonce, keyNonce->data, keyNonce->length); *wgContext = cc; return UA_STATUSCODE_GOOD; } static UA_StatusCode channelContext_setKeys_sp_pubsub_aes128ctr(PUBSUB_AES128CTR_ChannelContext *cc, const UA_ByteString *signingKey, const UA_ByteString *encryptingKey, const UA_ByteString *keyNonce) { if(!cc) return UA_STATUSCODE_BADINTERNALERROR; if(!signingKey || signingKey->length != UA_AES128CTR_SIGNING_KEY_LENGTH || !encryptingKey || encryptingKey->length != UA_AES128CTR_KEY_LENGTH || !keyNonce || keyNonce->length != UA_AES128CTR_KEYNONCE_LENGTH) return UA_STATUSCODE_BADSECURITYCHECKSFAILED; memcpy(cc->signingKey, signingKey->data, signingKey->length); memcpy(cc->encryptingKey, encryptingKey->data, encryptingKey->length); memcpy(cc->keyNonce, keyNonce->data, keyNonce->length); return UA_STATUSCODE_GOOD; } static UA_StatusCode channelContext_setMessageNonce_sp_pubsub_aes128ctr(PUBSUB_AES128CTR_ChannelContext *cc, const UA_ByteString *nonce) { if(nonce->length != UA_AES128CTR_MESSAGENONCE_LENGTH) return UA_STATUSCODE_BADSECURITYCHECKSFAILED; memcpy(cc->messageNonce, nonce->data, nonce->length); return UA_STATUSCODE_GOOD; } static void deleteMembers_sp_pubsub_aes128ctr(UA_PubSubSecurityPolicy *securityPolicy) { if(securityPolicy == NULL) return; if(securityPolicy->policyContext == NULL) return; /* delete all allocated members in the context */ PUBSUB_AES128CTR_PolicyContext *pc = (PUBSUB_AES128CTR_PolicyContext *)securityPolicy->policyContext; mbedtls_ctr_drbg_free(&pc->drbgContext); mbedtls_entropy_free(&pc->entropyContext); mbedtls_md_free(&pc->sha256MdContext); UA_LOG_DEBUG(securityPolicy->logger, UA_LOGCATEGORY_SECURITYPOLICY, "Deleted members of EndpointContext for sp_PUBSUB_AES128CTR"); UA_free(pc); securityPolicy->policyContext = NULL; } static UA_StatusCode policyContext_newContext_sp_pubsub_aes128ctr(UA_PubSubSecurityPolicy *securityPolicy) { UA_StatusCode retval = UA_STATUSCODE_GOOD; if(securityPolicy == NULL) return UA_STATUSCODE_BADINTERNALERROR; PUBSUB_AES128CTR_PolicyContext *pc = (PUBSUB_AES128CTR_PolicyContext *) UA_calloc(1, sizeof(PUBSUB_AES128CTR_PolicyContext)); securityPolicy->policyContext = (void *)pc; if(!pc) { retval = UA_STATUSCODE_BADOUTOFMEMORY; goto error; } /* Initialize the PolicyContext */ memset(pc, 0, sizeof(PUBSUB_AES128CTR_PolicyContext)); mbedtls_ctr_drbg_init(&pc->drbgContext); mbedtls_entropy_init(&pc->entropyContext); mbedtls_md_init(&pc->sha256MdContext); pc->securityPolicy = securityPolicy; /* Initialized the message digest */ const mbedtls_md_info_t *const mdInfo = mbedtls_md_info_from_type(MBEDTLS_MD_SHA256); int mbedErr = mbedtls_md_setup(&pc->sha256MdContext, mdInfo, MBEDTLS_MD_SHA256); if(mbedErr) { retval = UA_STATUSCODE_BADOUTOFMEMORY; goto error; } mbedErr = mbedtls_entropy_self_test(0); if(mbedErr) { retval = UA_STATUSCODE_BADSECURITYCHECKSFAILED; goto error; } /* Seed the RNG */ char *personalization = "open62541-drbg"; mbedErr = mbedtls_ctr_drbg_seed(&pc->drbgContext, mbedtls_entropy_func, &pc->entropyContext, (const unsigned char *)personalization, 14); if(mbedErr) { retval = UA_STATUSCODE_BADSECURITYCHECKSFAILED; goto error; } return retval; error: UA_LOG_ERROR(securityPolicy->logger, UA_LOGCATEGORY_SECURITYPOLICY, "Could not create securityContext"); if(securityPolicy->policyContext != NULL) deleteMembers_sp_pubsub_aes128ctr(securityPolicy); return retval; } UA_StatusCode UA_PubSubSecurityPolicy_Aes128Ctr(UA_PubSubSecurityPolicy *policy, const UA_Logger *logger) { memset(policy, 0, sizeof(UA_PubSubSecurityPolicy)); policy->logger = logger; policy->policyUri = UA_STRING("http://opcfoundation.org/UA/SecurityPolicy#PubSub-Aes128-CTR"); UA_SecurityPolicySymmetricModule *symmetricModule = &policy->symmetricModule; /* SymmetricModule */ symmetricModule->generateKey = generateKey_sp_pubsub_aes128ctr; symmetricModule->generateNonce = generateNonce_sp_pubsub_aes128ctr; UA_SecurityPolicySignatureAlgorithm *signatureAlgorithm = &symmetricModule->cryptoModule.signatureAlgorithm; signatureAlgorithm->uri = UA_STRING("http://www.w3.org/2001/04/xmlenc#sha256"); signatureAlgorithm->verify = (UA_StatusCode(*)(void *, const UA_ByteString *, const UA_ByteString *))verify_sp_pubsub_aes128ctr; signatureAlgorithm->sign = (UA_StatusCode(*)(void *, const UA_ByteString *, UA_ByteString *))sign_sp_pubsub_aes128ctr; signatureAlgorithm->getLocalSignatureSize = getSignatureSize_sp_pubsub_aes128ctr; signatureAlgorithm->getRemoteSignatureSize = getSignatureSize_sp_pubsub_aes128ctr; signatureAlgorithm->getLocalKeyLength = (size_t(*)(const void *))getSigningKeyLength_sp_pubsub_aes128ctr; signatureAlgorithm->getRemoteKeyLength = (size_t(*)(const void *))getSigningKeyLength_sp_pubsub_aes128ctr; UA_SecurityPolicyEncryptionAlgorithm *encryptionAlgorithm = &symmetricModule->cryptoModule.encryptionAlgorithm; encryptionAlgorithm->uri = UA_STRING("https://tools.ietf.org/html/rfc3686"); /* Temp solution */ encryptionAlgorithm->encrypt = (UA_StatusCode(*)(void *, UA_ByteString *))encrypt_sp_pubsub_aes128ctr; encryptionAlgorithm->decrypt = (UA_StatusCode(*)(void *, UA_ByteString *))decrypt_sp_pubsub_aes128ctr; encryptionAlgorithm->getLocalKeyLength = getEncryptionKeyLength_sp_pubsub_aes128ctr; encryptionAlgorithm->getRemoteKeyLength = getEncryptionKeyLength_sp_pubsub_aes128ctr; encryptionAlgorithm->getRemoteBlockSize = (size_t(*)(const void *))getEncryptionBlockSize_sp_pubsub_aes128ctr; encryptionAlgorithm->getRemotePlainTextBlockSize = (size_t(*)(const void *))getPlainTextBlockSize_sp_pubsub_aes128ctr; symmetricModule->secureChannelNonceLength = UA_AES128CTR_SIGNING_KEY_LENGTH + UA_AES128CTR_KEY_LENGTH + UA_AES128CTR_KEYNONCE_LENGTH; /* ChannelModule */ policy->newContext = channelContext_newContext_sp_pubsub_aes128ctr; policy->deleteContext = (void (*)(void *)) channelContext_deleteContext_sp_pubsub_aes128ctr; policy->setSecurityKeys = (UA_StatusCode(*)(void *, const UA_ByteString *, const UA_ByteString *, const UA_ByteString *)) channelContext_setKeys_sp_pubsub_aes128ctr; policy->setMessageNonce = (UA_StatusCode(*)(void *, const UA_ByteString *)) channelContext_setMessageNonce_sp_pubsub_aes128ctr; policy->clear = deleteMembers_sp_pubsub_aes128ctr; policy->policyContext = NULL; /* Initialize the policyContext */ return policyContext_newContext_sp_pubsub_aes128ctr(policy); } #endif