rt-thread/components/drivers/hwcrypto/hw_gcm.c

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/*
2021-03-08 18:19:04 +08:00
* Copyright (c) 2006-2021, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2019-05-14 tyx the first version
*/
#include <rtthread.h>
#include <rtdevice.h>
#include <hw_gcm.h>
/**
* @brief Creating GCM Context
*
* @param device Hardware crypto device
* @param type Type of symmetric crypto context
*
* @return GCM context
*/
struct rt_hwcrypto_ctx *rt_hwcrypto_gcm_create(struct rt_hwcrypto_device *device,
hwcrypto_type crypt_type)
{
struct rt_hwcrypto_ctx *ctx;
ctx = rt_hwcrypto_ctx_create(device, HWCRYPTO_TYPE_GCM, sizeof(struct hwcrypto_gcm));
if (ctx)
{
((struct hwcrypto_gcm *)ctx)->crypt_type = crypt_type;
}
return ctx;
}
/**
* @brief Destroy GCM Context
*
* @param ctx GCM context
*/
void rt_hwcrypto_gcm_destroy(struct rt_hwcrypto_ctx *ctx)
{
rt_hwcrypto_ctx_destroy(ctx);
}
/**
* @brief This function starts a GCM encryption or decryption operation
*
* @param ctx GCM context
* @param add The buffer holding the additional data
* @param add_len The length of the additional data
*
* @return RT_EOK on success.
*/
rt_err_t rt_hwcrypto_gcm_start(struct rt_hwcrypto_ctx *ctx, const rt_uint8_t *add,
rt_size_t add_len)
{
struct hwcrypto_gcm *gcm_ctx = (struct hwcrypto_gcm *)ctx;
if (gcm_ctx && gcm_ctx->ops->start)
{
return gcm_ctx->ops->start(gcm_ctx, add, add_len);
}
return -RT_EINVAL;
}
/**
* @brief This function finishes the GCM operation and generates the authentication tag
*
* @param ctx GCM context
* @param tag The buffer for holding the tag
* @param tag_len The length of the tag to generate
*
* @return RT_EOK on success.
*/
rt_err_t rt_hwcrypto_gcm_finish(struct rt_hwcrypto_ctx *ctx, const rt_uint8_t *tag,
rt_size_t tag_len)
{
struct hwcrypto_gcm *gcm_ctx = (struct hwcrypto_gcm *)ctx;
if (gcm_ctx && gcm_ctx->ops->finish)
{
return gcm_ctx->ops->finish(gcm_ctx, tag, tag_len);
}
return -RT_EINVAL;
}
/**
* @brief This function performs a symmetric encryption or decryption operation
*
* @param ctx GCM 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_gcm_crypt(struct rt_hwcrypto_ctx *ctx, hwcrypto_mode mode,
rt_size_t length, const rt_uint8_t *in, rt_uint8_t *out)
{
return rt_hwcrypto_symmetric_crypt(ctx, mode, length, in, out);
}
/**
* @brief Set Symmetric Encryption and Decryption Key
*
* @param ctx GCM context
* @param key The crypto key
* @param bitlen The crypto key bit length
*
* @return RT_EOK on success.
*/
rt_err_t rt_hwcrypto_gcm_setkey(struct rt_hwcrypto_ctx *ctx,
const rt_uint8_t *key, rt_uint32_t bitlen)
{
return rt_hwcrypto_symmetric_setkey(ctx, key, bitlen);
}
/**
* @brief Get Symmetric Encryption and Decryption Key
*
* @param ctx GCM context
* @param key The crypto key buffer
* @param bitlen The crypto key bit length
*
* @return Key length of copy
*/
rt_err_t rt_hwcrypto_gcm_getkey(struct rt_hwcrypto_ctx *ctx,
rt_uint8_t *key, rt_uint32_t bitlen)
{
return rt_hwcrypto_symmetric_getkey(ctx, key, bitlen);
}
/**
* @brief Set Symmetric Encryption and Decryption initialization vector
*
* @param ctx GCM context
* @param iv The crypto initialization vector
* @param len The crypto initialization vector length
*
* @return RT_EOK on success.
*/
rt_err_t rt_hwcrypto_gcm_setiv(struct rt_hwcrypto_ctx *ctx,
const rt_uint8_t *iv, rt_size_t len)
{
return rt_hwcrypto_symmetric_setiv(ctx, iv, len);
}
/**
* @brief Get Symmetric Encryption and Decryption initialization vector
*
* @param ctx GCM context
* @param iv The crypto initialization vector buffer
* @param len The crypto initialization vector buffer length
*
* @return IV length of copy
*/
rt_err_t rt_hwcrypto_gcm_getiv(struct rt_hwcrypto_ctx *ctx,
rt_uint8_t *iv, rt_size_t len)
{
return rt_hwcrypto_symmetric_getiv(ctx, iv, len);
}
/**
* @brief Set offset in initialization vector
*
* @param ctx GCM context
* @param iv_off The offset in IV
*/
void rt_hwcrypto_gcm_set_ivoff(struct rt_hwcrypto_ctx *ctx, rt_int32_t iv_off)
{
rt_hwcrypto_symmetric_set_ivoff(ctx, iv_off);
}
/**
* @brief Get offset in initialization vector
*
* @param ctx GCM context
* @param iv_off It must point to a valid memory
*/
void rt_hwcrypto_gcm_get_ivoff(struct rt_hwcrypto_ctx *ctx, rt_int32_t *iv_off)
{
rt_hwcrypto_symmetric_get_ivoff(ctx, iv_off);
}
/**
* @brief This function copy GCM context
*
* @param des The destination GCM context
* @param src The GCM context to be copy
*
* @return RT_EOK on success.
*/
rt_err_t rt_hwcrypto_gcm_cpy(struct rt_hwcrypto_ctx *des,
const struct rt_hwcrypto_ctx *src)
{
struct hwcrypto_gcm *gcm_des = (struct hwcrypto_gcm *)des;
struct hwcrypto_gcm *gcm_src = (struct hwcrypto_gcm *)src;
if (des != RT_NULL && src != RT_NULL)
{
gcm_des->crypt_type = gcm_src->crypt_type;
/* symmetric crypto context copy */
return rt_hwcrypto_symmetric_cpy(des, src);
}
return -RT_EINVAL;
}
/**
* @brief Reset GCM context
*
* @param ctx GCM context
*/
void rt_hwcrypto_gcm_reset(struct rt_hwcrypto_ctx *ctx)
{
rt_hwcrypto_symmetric_reset(ctx);
}