/* * Copyright (c) 2006-2023, RT-Thread Development Team * * SPDX-License-Identifier: Apache-2.0 * * Change Logs: * Date Author Notes * 2019-04-25 tyx the first version */ #include #include #include /** * @brief Creating Symmetric Encryption and Decryption Context * * @param device Hardware crypto device * @param type Type of symmetric crypto context * * @return Symmetric crypto context */ struct rt_hwcrypto_ctx *rt_hwcrypto_symmetric_create(struct rt_hwcrypto_device *device, hwcrypto_type type) { struct rt_hwcrypto_ctx *ctx; ctx = rt_hwcrypto_ctx_create(device, type, sizeof(struct hwcrypto_symmetric)); return ctx; } /** * @brief Destroy Symmetric Encryption and Decryption Context * * @param ctx Symmetric crypto context */ void rt_hwcrypto_symmetric_destroy(struct rt_hwcrypto_ctx *ctx) { rt_hwcrypto_ctx_destroy(ctx); } /** * @brief This function performs a symmetric encryption or decryption operation * * @param ctx Symmetric crypto context * @param mode Operation mode. HWCRYPTO_MODE_ENCRYPT or HWCRYPTO_MODE_DECRYPT * @param length The length of the input data in Bytes. This must be a multiple of the block size * @param in The buffer holding the input data * @param out The buffer holding the output data * * @return RT_EOK on success. */ rt_err_t rt_hwcrypto_symmetric_crypt(struct rt_hwcrypto_ctx *ctx, hwcrypto_mode mode, rt_size_t length, const rt_uint8_t *in, rt_uint8_t *out) { struct hwcrypto_symmetric *symmetric_ctx; struct hwcrypto_symmetric_info symmetric_info; rt_err_t err; if (ctx == RT_NULL) { return -RT_EINVAL; } symmetric_ctx = (struct hwcrypto_symmetric *)ctx; if (symmetric_ctx->ops->crypt == RT_NULL) { return -RT_ERROR; } if (mode != HWCRYPTO_MODE_ENCRYPT && mode != HWCRYPTO_MODE_DECRYPT) { return -RT_EINVAL; } /* Input information packaging */ symmetric_info.mode = mode; symmetric_info.in = in; symmetric_info.out = out; symmetric_info.length = length; /* Calling Hardware Encryption and Decryption Function */ err = symmetric_ctx->ops->crypt(symmetric_ctx, &symmetric_info); /* clean up flags */ symmetric_ctx->flags &= ~(SYMMTRIC_MODIFY_KEY | SYMMTRIC_MODIFY_IV | SYMMTRIC_MODIFY_IVOFF); return err; } /** * @brief Set Symmetric Encryption and Decryption Key * * @param ctx Symmetric crypto context * @param key The crypto key * @param bitlen The crypto key bit length * * @return RT_EOK on success. */ rt_err_t rt_hwcrypto_symmetric_setkey(struct rt_hwcrypto_ctx *ctx, const rt_uint8_t *key, rt_uint32_t bitlen) { struct hwcrypto_symmetric *symmetric_ctx; if (ctx && bitlen <= RT_HWCRYPTO_KEYBIT_MAX_SIZE) { symmetric_ctx = (struct hwcrypto_symmetric *)ctx; rt_memcpy(symmetric_ctx->key, key, bitlen >> 3); /* Record key length */ symmetric_ctx->key_bitlen = bitlen; /* Key change flag set up */ symmetric_ctx->flags |= SYMMTRIC_MODIFY_KEY; return RT_EOK; } return -RT_EINVAL; } /** * @brief Get Symmetric Encryption and Decryption Key * * @param ctx Symmetric crypto context * @param key The crypto key buffer * @param bitlen The crypto key bit length * * @return Key length of copy */ int rt_hwcrypto_symmetric_getkey(struct rt_hwcrypto_ctx *ctx, rt_uint8_t *key, rt_uint32_t bitlen) { struct hwcrypto_symmetric *symmetric_ctx = (struct hwcrypto_symmetric *)ctx; if (ctx && bitlen >= symmetric_ctx->key_bitlen) { rt_memcpy(key, symmetric_ctx->key, symmetric_ctx->key_bitlen >> 3); return symmetric_ctx->key_bitlen; } return 0; } /** * @brief Set Symmetric Encryption and Decryption initialization vector * * @param ctx Symmetric crypto context * @param iv The crypto initialization vector * @param len The crypto initialization vector length * * @return RT_EOK on success. */ rt_err_t rt_hwcrypto_symmetric_setiv(struct rt_hwcrypto_ctx *ctx, const rt_uint8_t *iv, rt_size_t len) { struct hwcrypto_symmetric *symmetric_ctx; if (ctx && len <= RT_HWCRYPTO_IV_MAX_SIZE) { symmetric_ctx = (struct hwcrypto_symmetric *)ctx; rt_memcpy(symmetric_ctx->iv, iv, len); symmetric_ctx->iv_len = len; /* IV change flag set up */ symmetric_ctx->flags |= SYMMTRIC_MODIFY_IV; return RT_EOK; } return -RT_EINVAL; } /** * @brief Get Symmetric Encryption and Decryption initialization vector * * @param ctx Symmetric crypto context * @param iv The crypto initialization vector buffer * @param len The crypto initialization vector buffer length * * @return IV length of copy */ int rt_hwcrypto_symmetric_getiv(struct rt_hwcrypto_ctx *ctx, rt_uint8_t *iv, rt_size_t len) { struct hwcrypto_symmetric *symmetric_ctx = (struct hwcrypto_symmetric *)ctx;; if (ctx && len >= symmetric_ctx->iv_len) { rt_memcpy(iv, symmetric_ctx->iv, symmetric_ctx->iv_len); return symmetric_ctx->iv_len; } return 0; } /** * @brief Set offset in initialization vector * * @param ctx Symmetric crypto context * @param iv_off The offset in IV */ void rt_hwcrypto_symmetric_set_ivoff(struct rt_hwcrypto_ctx *ctx, rt_int32_t iv_off) { if (ctx) { ((struct hwcrypto_symmetric *)ctx)->iv_off = iv_off; /* iv_off change flag set up */ ((struct hwcrypto_symmetric *)ctx)->flags |= SYMMTRIC_MODIFY_IVOFF; } } /** * @brief Get offset in initialization vector * * @param ctx Symmetric crypto context * @param iv_off It must point to a valid memory */ void rt_hwcrypto_symmetric_get_ivoff(struct rt_hwcrypto_ctx *ctx, rt_int32_t *iv_off) { if (ctx && iv_off) { *iv_off = ((struct hwcrypto_symmetric *)ctx)->iv_off; } } /** * @brief This function copy symmetric crypto context * * @param des The destination symmetric crypto context * @param src The symmetric crypto context to be copy * * @return RT_EOK on success. */ rt_err_t rt_hwcrypto_symmetric_cpy(struct rt_hwcrypto_ctx *des, const struct rt_hwcrypto_ctx *src) { struct hwcrypto_symmetric *symmetric_des = (struct hwcrypto_symmetric *)des; struct hwcrypto_symmetric *symmetric_src = (struct hwcrypto_symmetric *)src; if (des != RT_NULL && src != RT_NULL) { /* Copy Symmetric Encryption and Decryption Context Information */ symmetric_des->flags = symmetric_src->flags ; symmetric_des->iv_len = symmetric_src->iv_len ; symmetric_des->iv_off = symmetric_src->iv_off ; symmetric_des->key_bitlen = symmetric_src->key_bitlen; rt_memcpy(symmetric_des->iv, symmetric_src->iv, symmetric_src->iv_len); rt_memcpy(symmetric_des->key, symmetric_src->key, symmetric_src->key_bitlen >> 3); /* Hardware context copy */ return rt_hwcrypto_ctx_cpy(des, src); } return -RT_EINVAL; } /** * @brief Reset symmetric crypto context * * @param ctx Symmetric crypto context */ void rt_hwcrypto_symmetric_reset(struct rt_hwcrypto_ctx *ctx) { struct hwcrypto_symmetric *symmetric_ctx = (struct hwcrypto_symmetric *)ctx; if (ctx != RT_NULL) { /* Copy Symmetric Encryption and Decryption Context Information */ symmetric_ctx->flags = 0x00; symmetric_ctx->iv_len = 0x00; symmetric_ctx->iv_off = 0x00; symmetric_ctx->key_bitlen = 0x00; rt_memset(symmetric_ctx->iv, 0, RT_HWCRYPTO_IV_MAX_SIZE); rt_memset(symmetric_ctx->key, 0, RT_HWCRYPTO_KEYBIT_MAX_SIZE >> 3); /* Hardware context reset */ rt_hwcrypto_ctx_reset(ctx); } } /** * @brief Setting symmetric crypto context type * * @param ctx Symmetric crypto context * @param type Types of settings * * @return RT_EOK on success. */ rt_err_t rt_hwcrypto_symmetric_set_type(struct rt_hwcrypto_ctx *ctx, hwcrypto_type type) { return rt_hwcrypto_set_type(ctx, type); }