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/**************************************************************************//**
* @file crypto.c
* @version V1.10
* $Revision: 11 $
* $Date: 14/10/03 1:54p $
* @brief Cryptographic Accelerator driver source file
*
* @note
* Copyright (C) 2014 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#include <string.h>
#include "NUC472_442.h"
/** @addtogroup NUC472_442_Device_Driver NUC472/NUC442 Device Driver
@{
*/
/** @addtogroup NUC472_442_CRYPTO_Driver CRYPTO Driver
@{
*/
/** @addtogroup NUC472_442_CRYPTO_EXPORTED_FUNCTIONS CRYPTO Exported Functions
@{
*/
/// @cond HIDDEN_SYMBOLS
static uint32_t g_AES_CTL[4];
static uint32_t g_TDES_CTL[4];
/// @endcond HIDDEN_SYMBOLS
/**
* @brief Open PRNG function
* @param[in] u32KeySize is PRNG key size, including:
* - \ref PRNG_KEY_SIZE_64
* - \ref PRNG_KEY_SIZE_128
* - \ref PRNG_KEY_SIZE_192
* - \ref PRNG_KEY_SIZE_256
* @param[in] u32SeedReload is PRNG seed reload or not, including:
* - \ref PRNG_SEED_CONT
* - \ref PRNG_SEED_RELOAD
* @param[in] u32Seed The new seed. Only valid when u32SeedReload is PRNG_SEED_RELOAD.
* @return None
*/
void PRNG_Open(uint32_t u32KeySize, uint32_t u32SeedReload, uint32_t u32Seed)
{
if (u32SeedReload)
CRPT->PRNG_SEED = u32Seed;
CRPT->PRNG_CTL = (u32KeySize << CRPT_PRNG_CTL_KEYSZ_Pos) |
(u32SeedReload << CRPT_PRNG_CTL_SEEDRLD_Pos);
}
/**
* @brief Start to generate one PRNG key.
* @param None
* @return None
*/
void PRNG_Start(void)
{
CRPT->PRNG_CTL |= CRPT_PRNG_CTL_START_Msk;
}
/**
* @brief Read the PRNG key.
* @param[out] u32RandKey The key buffer to store newly generated PRNG key.
* @return None
*/
void PRNG_Read(uint32_t u32RandKey[])
{
int i, wcnt;
wcnt = (((CRPT->PRNG_CTL & CRPT_PRNG_CTL_KEYSZ_Msk)>>CRPT_PRNG_CTL_KEYSZ_Pos)+1)*2;
for (i = 0; i < wcnt; i++)
u32RandKey[i] = *(uint32_t *)((uint32_t)&(CRPT->PRNG_KEY0) + (i * 4));
}
/**
* @brief Open AES encrypt/decrypt function.
* @param[in] u32Channel AES channel. Must be 0~3.
* @param[in] u32EncDec 1: AES encode; 0: AES decode
* @param[in] u32OpMode AES operation mode, including:
* - \ref AES_MODE_ECB
* - \ref AES_MODE_CBC
* - \ref AES_MODE_CFB
* - \ref AES_MODE_OFB
* - \ref AES_MODE_CTR
* - \ref AES_MODE_CBC_CS1
* - \ref AES_MODE_CBC_CS2
* - \ref AES_MODE_CBC_CS3
* @param[in] u32KeySize is AES key size, including:
* - \ref AES_KEY_SIZE_128
* - \ref AES_KEY_SIZE_192
* - \ref AES_KEY_SIZE_256
* @param[in] u32SwapType is AES input/output data swap control, including:
* - \ref AES_NO_SWAP
* - \ref AES_OUT_SWAP
* - \ref AES_IN_SWAP
* - \ref AES_IN_OUT_SWAP
* @return None
*/
void AES_Open(uint32_t u32Channel, uint32_t u32EncDec,
uint32_t u32OpMode, uint32_t u32KeySize, uint32_t u32SwapType)
{
CRPT->AES_CTL = (u32Channel << CRPT_AES_CTL_CHANNEL_Pos) |
(u32EncDec << CRPT_AES_CTL_ENCRPT_Pos) |
(u32OpMode << CRPT_AES_CTL_OPMODE_Pos) |
(u32KeySize << CRPT_AES_CTL_KEYSZ_Pos) |
(u32SwapType << CRPT_AES_CTL_OUTSWAP_Pos);
g_AES_CTL[u32Channel] = CRPT->AES_CTL;
}
/**
* @brief Start AES encrypt/decrypt
* @param[in] u32Channel AES channel. Must be 0~3.
* @param[in] u32DMAMode AES DMA control, including:
* - \ref CRYPTO_DMA_ONE_SHOT One shop AES encrypt/decrypt.
* - \ref CRYPTO_DMA_CONTINUE Continuous AES encrypt/decrypt.
* - \ref CRYPTO_DMA_LAST Last AES encrypt/decrypt of a series of AES_Start.
* @return None
*/
void AES_Start(int32_t u32Channel, uint32_t u32DMAMode)
{
CRPT->AES_CTL = g_AES_CTL[u32Channel];
CRPT->AES_CTL |= CRPT_AES_CTL_START_Msk | (u32DMAMode << CRPT_AES_CTL_DMALAST_Pos);
}
/**
* @brief Set AES keys
* @param[in] u32Channel AES channel. Must be 0~3.
* @param[in] au32Keys An word array contains AES keys.
* @param[in] u32KeySize is AES key size, including:
* - \ref AES_KEY_SIZE_128
* - \ref AES_KEY_SIZE_192
* - \ref AES_KEY_SIZE_256
* @return None
*/
void AES_SetKey(uint32_t u32Channel, uint32_t au32Keys[], uint32_t u32KeySize)
{
int i, wcnt;
uint32_t *key_ptr;
key_ptr = (uint32_t *)((uint32_t)&CRPT->AES0_KEY0 + (u32Channel * 0x3C));
wcnt = 4 + u32KeySize*2;
for (i = 0; i < wcnt; i++, key_ptr++)
*key_ptr = au32Keys[i];
}
/**
* @brief Set AES initial vectors
* @param[in] u32Channel AES channel. Must be 0~3.
* @param[in] au32IV A four entry word array contains AES initial vectors.
* @return None
*/
void AES_SetInitVect(uint32_t u32Channel, uint32_t au32IV[])
{
int i;
uint32_t *key_ptr;
key_ptr = (uint32_t *)((uint32_t)&CRPT->AES0_IV0 + (u32Channel * 0x3C));
for (i = 0; i < 4; i++, key_ptr++)
*key_ptr = au32IV[i];
}
/**
* @brief Set AES DMA transfer configuration.
* @param[in] u32Channel AES channel. Must be 0~3.
* @param[in] u32SrcAddr AES DMA source address
* @param[in] u32DstAddr AES DMA destination address
* @param[in] u32TransCnt AES DMA transfer byte count
* @return None
*/
void AES_SetDMATransfer(uint32_t u32Channel, uint32_t u32SrcAddr,
uint32_t u32DstAddr, uint32_t u32TransCnt)
{
*(uint32_t *)((uint32_t)&CRPT->AES0_SADDR + (u32Channel * 0x3C)) = u32SrcAddr;
*(uint32_t *)((uint32_t)&CRPT->AES0_DADDR + (u32Channel * 0x3C)) = u32DstAddr;
*(uint32_t *)((uint32_t)&CRPT->AES0_CNT + (u32Channel * 0x3C)) = u32TransCnt;
}
/**
* @brief Open TDES encrypt/decrypt function.
* @param[in] u32Channel TDES channel. Must be 0~3.
* @param[in] u32EncDec 1: TDES encode; 0: TDES decode
* @param[in] u32OpMode TDES operation mode, including:
* - \ref TDES_MODE_ECB
* - \ref TDES_MODE_CBC
* - \ref TDES_MODE_CFB
* - \ref TDES_MODE_OFB
* - \ref TDES_MODE_CTR
* @param[in] u32SwapType is TDES input/output data swap control and word swap control, including:
* - \ref TDES_NO_SWAP
* - \ref TDES_WHL_SWAP
* - \ref TDES_OUT_SWAP
* - \ref TDES_OUT_WHL_SWAP
* - \ref TDES_IN_SWAP
* - \ref TDES_IN_WHL_SWAP
* - \ref TDES_IN_OUT_SWAP
* - \ref TDES_IN_OUT_WHL_SWAP
* @return None
*/
void TDES_Open(uint32_t u32Channel, uint32_t u32EncDec, uint32_t u32OpMode, uint32_t u32SwapType)
{
g_TDES_CTL[u32Channel] = (u32Channel << CRPT_TDES_CTL_CHANNEL_Pos) |
(u32EncDec << CRPT_TDES_CTL_ENCRPT_Pos) |
u32OpMode |
(u32SwapType << CRPT_TDES_CTL_BLKSWAP_Pos);
}
/**
* @brief Start TDES encrypt/decrypt
* @param[in] u32Channel TDES channel. Must be 0~3.
* @param[in] u32DMAMode TDES DMA control, including:
* - \ref CRYPTO_DMA_ONE_SHOT One shop TDES encrypt/decrypt.
* - \ref CRYPTO_DMA_CONTINUE Continuous TDES encrypt/decrypt.
* - \ref CRYPTO_DMA_LAST Last TDES encrypt/decrypt of a series of TDES_Start.
* @return None
*/
void TDES_Start(int32_t u32Channel, uint32_t u32DMAMode)
{
g_TDES_CTL[u32Channel] |= CRPT_TDES_CTL_START_Msk | (u32DMAMode << CRPT_TDES_CTL_DMALAST_Pos);
CRPT->TDES_CTL = g_TDES_CTL[u32Channel];
}
/**
* @brief Set TDES keys
* @param[in] u32Channel TDES channel. Must be 0~3.
* @param[in] au8Keys The TDES keys.
* @return None
*/
void TDES_SetKey(uint32_t u32Channel, uint8_t au8Keys[3][8])
{
int i;
uint8_t *pu8TKey;
pu8TKey = (uint8_t *)((uint32_t)&CRPT->TDES0_KEY1H + (0x40 * u32Channel));
for (i = 0; i < 3; i++, pu8TKey+=8)
memcpy(pu8TKey, &au8Keys[i][0], 8);
}
/**
* @brief Set TDES initial vectors
* @param[in] u32Channel TDES channel. Must be 0~3.
* @param[in] u32IVH TDES initial vector high word.
* @param[in] u32IVL TDES initial vector low word.
* @return None
*/
void TDES_SetInitVect(uint32_t u32Channel, uint32_t u32IVH, uint32_t u32IVL)
{
*(uint32_t *)((uint32_t)&CRPT->TDES0_IVH + 0x40 * u32Channel) = u32IVH;
*(uint32_t *)((uint32_t)&CRPT->TDES0_IVL + 0x40 * u32Channel) = u32IVL;
}
/**
* @brief Set TDES DMA transfer configuration.
* @param[in] u32Channel TDES channel. Must be 0~3.
* @param[in] u32SrcAddr TDES DMA source address
* @param[in] u32DstAddr TDES DMA destination address
* @param[in] u32TransCnt TDES DMA transfer byte count
* @return None
*/
void TDES_SetDMATransfer(uint32_t u32Channel, uint32_t u32SrcAddr,
uint32_t u32DstAddr, uint32_t u32TransCnt)
{
*(uint32_t *)((uint32_t)&CRPT->TDES0_SADDR + (u32Channel * 0x40)) = u32SrcAddr;
*(uint32_t *)((uint32_t)&CRPT->TDES0_DADDR + (u32Channel * 0x40)) = u32DstAddr;
*(uint32_t *)((uint32_t)&CRPT->TDES0_CNT + (u32Channel * 0x40)) = u32TransCnt;
}
/**
* @brief Open SHA encrypt function.
* @param[in] u32OpMode SHA operation mode, including:
* - \ref SHA_MODE_SHA1
* - \ref SHA_MODE_SHA224
* - \ref SHA_MODE_SHA256
* @param[in] u32SwapType is SHA input/output data swap control, including:
* - \ref SHA_NO_SWAP
* - \ref SHA_OUT_SWAP
* - \ref SHA_IN_SWAP
* - \ref SHA_IN_OUT_SWAP
* @return None
*/
void SHA_Open(uint32_t u32OpMode, uint32_t u32SwapType)
{
CRPT->SHA_CTL = (u32OpMode << CRPT_SHA_CTL_OPMODE_Pos) |
(u32SwapType << CRPT_SHA_CTL_OUTSWAP_Pos);
}
/**
* @brief Start SHA encrypt
* @param[in] u32DMAMode TDES DMA control, including:
* - \ref CRYPTO_DMA_ONE_SHOT One shop SHA encrypt.
* - \ref CRYPTO_DMA_CONTINUE Continuous SHA encrypt.
* - \ref CRYPTO_DMA_LAST Last SHA encrypt of a series of SHA_Start.
* @return None
*/
void SHA_Start(uint32_t u32DMAMode)
{
CRPT->SHA_CTL &= ~(0x7 << CRPT_SHA_CTL_DMALAST_Pos);
CRPT->SHA_CTL |= CRPT_SHA_CTL_START_Msk | (u32DMAMode << CRPT_SHA_CTL_DMALAST_Pos);
}
/**
* @brief Set SHA DMA transfer
* @param[in] u32SrcAddr SHA DMA source address
* @param[in] u32TransCnt SHA DMA transfer byte count
* @return None
*/
void SHA_SetDMATransfer(uint32_t u32SrcAddr, uint32_t u32TransCnt)
{
CRPT->SHA_SADDR = u32SrcAddr;
CRPT->SHA_DMACNT = u32TransCnt;
}
/**
* @brief Read the SHA digest.
* @param[out] u32Digest The SHA encrypt output digest.
* @return None
*/
void SHA_Read(uint32_t u32Digest[])
{
uint32_t i, wcnt;
i = (CRPT->SHA_CTL & CRPT_SHA_CTL_OPMODE_Msk) >> CRPT_SHA_CTL_OPMODE_Pos;
if (i == SHA_MODE_SHA1)
wcnt = 5;
else if (i == SHA_MODE_SHA224)
wcnt = 7;
else
wcnt = 8;
for (i = 0; i < wcnt; i++)
u32Digest[i] = *(uint32_t *)((uint32_t)&(CRPT->SHA_DGST0) + (i * 4));
}
/*@}*/ /* end of group NUC472_442_CRYPTO_EXPORTED_FUNCTIONS */
/*@}*/ /* end of group NUC472_442_CRYPTO_Driver */
/*@}*/ /* end of group NUC472_442_Device_Driver */
/*** (C) COPYRIGHT 2013 Nuvoton Technology Corp. ***/