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/* ... */
#include "stm32f4xx_hal.h"
/* ... */
#if defined (AES) || defined (CRYP)
/* ... */
#ifdef HAL_CRYP_MODULE_ENABLED
/* ... */
#define CRYP_TIMEOUT_KEYPREPARATION 82U
#define CRYP_TIMEOUT_GCMCCMINITPHASE 299U
#define CRYP_TIMEOUT_GCMCCMHEADERPHASE 290U
#define CRYP_PHASE_READY 0x00000001U
#define CRYP_PHASE_PROCESS 0x00000002U
5 defines
#if defined(AES)
#define CRYP_OPERATINGMODE_ENCRYPT 0x00000000U
#define CRYP_OPERATINGMODE_KEYDERIVATION AES_CR_MODE_0
#define CRYP_OPERATINGMODE_DECRYPT AES_CR_MODE_1
#define CRYP_OPERATINGMODE_KEYDERIVATION_DECRYPT AES_CR_MODE
#define CRYP_PHASE_INIT 0x00000000U
#define CRYP_PHASE_HEADER AES_CR_GCMPH_0
#define CRYP_PHASE_PAYLOAD AES_CR_GCMPH_1
#define CRYP_PHASE_FINAL AES_CR_GCMPH
/* ... */#else
#define CRYP_PHASE_INIT 0x00000000U
#define CRYP_PHASE_HEADER CRYP_CR_GCM_CCMPH_0
#define CRYP_PHASE_PAYLOAD CRYP_CR_GCM_CCMPH_1
#define CRYP_PHASE_FINAL CRYP_CR_GCM_CCMPH
#define CRYP_OPERATINGMODE_ENCRYPT 0x00000000U
#define CRYP_OPERATINGMODE_DECRYPT CRYP_CR_ALGODIR
/* ... */#endif
#define CRYP_CCM_CTR1_0 0x07FFFFFFU
#define CRYP_CCM_CTR1_1 0xFFFFFF00U
#define CRYP_CCM_CTR1_2 0x00000001U
/* ... */
Private define
/* ... */
#if defined(CRYP)
#define CRYP_SET_PHASE(__HANDLE__, __PHASE__) do{(__HANDLE__)->Instance->CR &= (uint32_t)(~CRYP_CR_GCM_CCMPH);\
(__HANDLE__)->Instance->CR |= (uint32_t)(__PHASE__);\
...}while(0)...
#define HAL_CRYP_FIFO_FLUSH(__HANDLE__) ((__HANDLE__)->Instance->CR |= CRYP_CR_FFLUSH)
/* ... */
#else
#define CRYP_SET_PHASE(__HANDLE__, __PHASE__) do{(__HANDLE__)->Instance->CR &= (uint32_t)(~AES_CR_GCMPH);\
(__HANDLE__)->Instance->CR |= (uint32_t)(__PHASE__);\
...}while(0)...
/* ... */#endif
/* ... */
Private macro
/* ... */
static void CRYP_SetDMAConfig(CRYP_HandleTypeDef *hcryp, uint32_t inputaddr, uint16_t Size, uint32_t outputaddr);
static void CRYP_DMAInCplt(DMA_HandleTypeDef *hdma);
static void CRYP_DMAOutCplt(DMA_HandleTypeDef *hdma);
static void CRYP_DMAError(DMA_HandleTypeDef *hdma);
static void CRYP_SetKey(CRYP_HandleTypeDef *hcryp, uint32_t KeySize);
static void CRYP_AES_IT(CRYP_HandleTypeDef *hcryp);
#if defined (CRYP_CR_ALGOMODE_AES_GCM)|| defined (AES)
static HAL_StatusTypeDef CRYP_GCMCCM_SetHeaderPhase(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static void CRYP_GCMCCM_SetPayloadPhase_IT(CRYP_HandleTypeDef *hcryp);
static void CRYP_GCMCCM_SetHeaderPhase_IT(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_GCMCCM_SetHeaderPhase_DMA(CRYP_HandleTypeDef *hcryp);
static void CRYP_Workaround(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AESGCM_Process_DMA(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_AESGCM_Process_IT(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_AESGCM_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AESCCM_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AESCCM_Process_IT(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_AESCCM_Process_DMA(CRYP_HandleTypeDef *hcryp);/* ... */
#endif
static void CRYP_AES_ProcessData(CRYP_HandleTypeDef *hcrypt, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AES_Encrypt(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AES_Decrypt(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_AES_Decrypt_IT(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_AES_Encrypt_IT(CRYP_HandleTypeDef *hcryp);
static HAL_StatusTypeDef CRYP_AES_Decrypt_DMA(CRYP_HandleTypeDef *hcryp);
#if defined (CRYP)
static void CRYP_TDES_IT(CRYP_HandleTypeDef *hcryp);
#if defined (CRYP_CR_ALGOMODE_AES_GCM)
static HAL_StatusTypeDef CRYP_WaitOnIFEMFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
#endif
static HAL_StatusTypeDef CRYP_WaitOnBUSYFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_WaitOnOFNEFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
static HAL_StatusTypeDef CRYP_TDES_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);/* ... */
#else
static HAL_StatusTypeDef CRYP_WaitOnCCFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout);
#endif
/* ... */
Private function prototypes
/* ... */
/* ... */
/* ... */
HAL_StatusTypeDef HAL_CRYP_Init(CRYP_HandleTypeDef *hcryp)
{
if (hcryp == NULL)
{
return HAL_ERROR;
}if (hcryp == NULL) { ... }
assert_param(IS_CRYP_KEYSIZE(hcryp->Init.KeySize));
assert_param(IS_CRYP_DATATYPE(hcryp->Init.DataType));
assert_param(IS_CRYP_ALGORITHM(hcryp->Init.Algorithm));
assert_param(IS_CRYP_INIT(hcryp->Init.KeyIVConfigSkip));
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
if (hcryp->State == HAL_CRYP_STATE_RESET)
{
hcryp->Lock = HAL_UNLOCKED;
hcryp->InCpltCallback = HAL_CRYP_InCpltCallback;
hcryp->OutCpltCallback = HAL_CRYP_OutCpltCallback;
hcryp->ErrorCallback = HAL_CRYP_ErrorCallback;
if (hcryp->MspInitCallback == NULL)
{
hcryp->MspInitCallback = HAL_CRYP_MspInit;
}if (hcryp->MspInitCallback == NULL) { ... }
hcryp->MspInitCallback(hcryp);
}if (hcryp->State == HAL_CRYP_STATE_RESET) { ... }
/* ... */#else
if (hcryp->State == HAL_CRYP_STATE_RESET)
{
hcryp->Lock = HAL_UNLOCKED;
HAL_CRYP_MspInit(hcryp);
}if (hcryp->State == HAL_CRYP_STATE_RESET) { ... }
/* ... */#endif
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_DATATYPE | CRYP_CR_KEYSIZE | CRYP_CR_ALGOMODE,
hcryp->Init.DataType | hcryp->Init.KeySize | hcryp->Init.Algorithm);
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE | AES_CR_KEYSIZE | AES_CR_CHMOD,
hcryp->Init.DataType | hcryp->Init.KeySize | hcryp->Init.Algorithm);
/* ... */
#endif
hcryp->ErrorCode = HAL_CRYP_ERROR_NONE;
hcryp->State = HAL_CRYP_STATE_READY;
hcryp->Phase = CRYP_PHASE_READY;
return HAL_OK;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_DeInit(CRYP_HandleTypeDef *hcryp)
{
if (hcryp == NULL)
{
return HAL_ERROR;
}if (hcryp == NULL) { ... }
hcryp->Phase = CRYP_PHASE_READY;
hcryp->CrypInCount = 0;
hcryp->CrypOutCount = 0;
hcryp->CrypHeaderCount = 0;
__HAL_CRYP_DISABLE(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
if (hcryp->MspDeInitCallback == NULL)
{
hcryp->MspDeInitCallback = HAL_CRYP_MspDeInit;
}if (hcryp->MspDeInitCallback == NULL) { ... }
hcryp->MspDeInitCallback(hcryp);
/* ... */
#else
HAL_CRYP_MspDeInit(hcryp);
/* ... */
#endif
hcryp->State = HAL_CRYP_STATE_RESET;
__HAL_UNLOCK(hcryp);
return HAL_OK;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_SetConfig(CRYP_HandleTypeDef *hcryp, CRYP_ConfigTypeDef *pConf)
{
if ((hcryp == NULL) || (pConf == NULL))
{
return HAL_ERROR;
}if ((hcryp == NULL) || (pConf == NULL)) { ... }
assert_param(IS_CRYP_KEYSIZE(pConf->KeySize));
assert_param(IS_CRYP_DATATYPE(pConf->DataType));
assert_param(IS_CRYP_ALGORITHM(pConf->Algorithm));
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->Init.DataType = pConf->DataType;
hcryp->Init.pKey = pConf->pKey;
hcryp->Init.Algorithm = pConf->Algorithm;
hcryp->Init.KeySize = pConf->KeySize;
hcryp->Init.pInitVect = pConf->pInitVect;
hcryp->Init.Header = pConf->Header;
hcryp->Init.HeaderSize = pConf->HeaderSize;
hcryp->Init.B0 = pConf->B0;
hcryp->Init.DataWidthUnit = pConf->DataWidthUnit;
hcryp->Init.KeyIVConfigSkip = pConf->KeyIVConfigSkip;
hcryp->Init.HeaderWidthUnit = pConf->HeaderWidthUnit;
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_DATATYPE | CRYP_CR_KEYSIZE | CRYP_CR_ALGOMODE,
hcryp->Init.DataType | hcryp->Init.KeySize | hcryp->Init.Algorithm);
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE | AES_CR_KEYSIZE | AES_CR_CHMOD,
hcryp->Init.DataType | hcryp->Init.KeySize | hcryp->Init.Algorithm);
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_ERR_CLEAR);
/* ... */
#endif
__HAL_UNLOCK(hcryp);
hcryp->ErrorCode = HAL_CRYP_ERROR_NONE;
hcryp->State = HAL_CRYP_STATE_READY;
hcryp->Phase = CRYP_PHASE_READY;
return HAL_OK;
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
return HAL_ERROR;
}else { ... }
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_GetConfig(CRYP_HandleTypeDef *hcryp, CRYP_ConfigTypeDef *pConf)
{
if ((hcryp == NULL) || (pConf == NULL))
{
return HAL_ERROR;
}if ((hcryp == NULL) || (pConf == NULL)) { ... }
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
pConf->DataType = hcryp->Init.DataType;
pConf->pKey = hcryp->Init.pKey;
pConf->Algorithm = hcryp->Init.Algorithm;
pConf->KeySize = hcryp->Init.KeySize ;
pConf->pInitVect = hcryp->Init.pInitVect;
pConf->Header = hcryp->Init.Header ;
pConf->HeaderSize = hcryp->Init.HeaderSize;
pConf->B0 = hcryp->Init.B0;
pConf->DataWidthUnit = hcryp->Init.DataWidthUnit;
pConf->KeyIVConfigSkip = hcryp->Init.KeyIVConfigSkip;
pConf->HeaderWidthUnit = hcryp->Init.HeaderWidthUnit;
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
return HAL_OK;
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
return HAL_ERROR;
}else { ... }
}{ ... }
/* ... */
__weak void HAL_CRYP_MspInit(CRYP_HandleTypeDef *hcryp)
{
UNUSED(hcryp);
/* ... */
}{ ... }
/* ... */
__weak void HAL_CRYP_MspDeInit(CRYP_HandleTypeDef *hcryp)
{
UNUSED(hcryp);
/* ... */
}{ ... }
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
/* ... */
HAL_StatusTypeDef HAL_CRYP_RegisterCallback(CRYP_HandleTypeDef *hcryp, HAL_CRYP_CallbackIDTypeDef CallbackID,
pCRYP_CallbackTypeDef pCallback)
{
HAL_StatusTypeDef status = HAL_OK;
if (pCallback == NULL)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
return HAL_ERROR;
}if (pCallback == NULL) { ... }
__HAL_LOCK(hcryp);
if (hcryp->State == HAL_CRYP_STATE_READY)
{
switch (CallbackID)
{
case HAL_CRYP_INPUT_COMPLETE_CB_ID :
hcryp->InCpltCallback = pCallback;
break;
case HAL_CRYP_INPUT_COMPLETE_CB_ID :
case HAL_CRYP_OUTPUT_COMPLETE_CB_ID :
hcryp->OutCpltCallback = pCallback;
break;
case HAL_CRYP_OUTPUT_COMPLETE_CB_ID :
case HAL_CRYP_ERROR_CB_ID :
hcryp->ErrorCallback = pCallback;
break;
case HAL_CRYP_ERROR_CB_ID :
case HAL_CRYP_MSPINIT_CB_ID :
hcryp->MspInitCallback = pCallback;
break;
case HAL_CRYP_MSPINIT_CB_ID :
case HAL_CRYP_MSPDEINIT_CB_ID :
hcryp->MspDeInitCallback = pCallback;
break;
case HAL_CRYP_MSPDEINIT_CB_ID :
default :
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
break;default
}switch (CallbackID) { ... }
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else if (hcryp->State == HAL_CRYP_STATE_RESET)
{
switch (CallbackID)
{
case HAL_CRYP_MSPINIT_CB_ID :
hcryp->MspInitCallback = pCallback;
break;
case HAL_CRYP_MSPINIT_CB_ID :
case HAL_CRYP_MSPDEINIT_CB_ID :
hcryp->MspDeInitCallback = pCallback;
break;
case HAL_CRYP_MSPDEINIT_CB_ID :
default :
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
break;default
}switch (CallbackID) { ... }
}else if (hcryp->State == HAL_CRYP_STATE_RESET) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
}else { ... }
__HAL_UNLOCK(hcryp);
return status;
}HAL_CRYP_RegisterCallback (CRYP_HandleTypeDef *hcryp, HAL_CRYP_CallbackIDTypeDef CallbackID, pCRYP_CallbackTypeDef pCallback) { ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_UnRegisterCallback(CRYP_HandleTypeDef *hcryp, HAL_CRYP_CallbackIDTypeDef CallbackID)
{
HAL_StatusTypeDef status = HAL_OK;
__HAL_LOCK(hcryp);
if (hcryp->State == HAL_CRYP_STATE_READY)
{
switch (CallbackID)
{
case HAL_CRYP_INPUT_COMPLETE_CB_ID :
hcryp->InCpltCallback = HAL_CRYP_InCpltCallback;
break;
case HAL_CRYP_INPUT_COMPLETE_CB_ID :
case HAL_CRYP_OUTPUT_COMPLETE_CB_ID :
hcryp->OutCpltCallback = HAL_CRYP_OutCpltCallback;
break;
case HAL_CRYP_OUTPUT_COMPLETE_CB_ID :
case HAL_CRYP_ERROR_CB_ID :
hcryp->ErrorCallback = HAL_CRYP_ErrorCallback;
break;
case HAL_CRYP_ERROR_CB_ID :
case HAL_CRYP_MSPINIT_CB_ID :
hcryp->MspInitCallback = HAL_CRYP_MspInit;
break;
case HAL_CRYP_MSPINIT_CB_ID :
case HAL_CRYP_MSPDEINIT_CB_ID :
hcryp->MspDeInitCallback = HAL_CRYP_MspDeInit;
break;
case HAL_CRYP_MSPDEINIT_CB_ID :
default :
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
break;default
}switch (CallbackID) { ... }
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else if (hcryp->State == HAL_CRYP_STATE_RESET)
{
switch (CallbackID)
{
case HAL_CRYP_MSPINIT_CB_ID :
hcryp->MspInitCallback = HAL_CRYP_MspInit;
break;
case HAL_CRYP_MSPINIT_CB_ID :
case HAL_CRYP_MSPDEINIT_CB_ID :
hcryp->MspDeInitCallback = HAL_CRYP_MspDeInit;
break;
case HAL_CRYP_MSPDEINIT_CB_ID :
default :
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
break;default
}switch (CallbackID) { ... }
}else if (hcryp->State == HAL_CRYP_STATE_RESET) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_INVALID_CALLBACK;
status = HAL_ERROR;
}else { ... }
__HAL_UNLOCK(hcryp);
return status;
}HAL_CRYP_UnRegisterCallback (CRYP_HandleTypeDef *hcryp, HAL_CRYP_CallbackIDTypeDef CallbackID) { ... }
/* ... */#endif
/* ... */
/* ... */
/* ... */
HAL_StatusTypeDef HAL_CRYP_Encrypt(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output,
uint32_t Timeout)
{
uint32_t algo;
HAL_StatusTypeDef status;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_ENCRYPT);
algo = hcryp->Instance->CR & CRYP_CR_ALGOMODE;
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
status = CRYP_TDES_Process(hcryp, Timeout);
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Encrypt(hcryp, Timeout);
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process(hcryp, Timeout);
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process(hcryp, Timeout);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Encrypt(hcryp, Timeout);
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process(hcryp, Timeout) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process(hcryp, Timeout);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;default
}switch (algo) { ... }
/* ... */#endif
if (status == HAL_OK)
{
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}if (status == HAL_OK) { ... }
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
return HAL_ERROR;
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_Decrypt(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output,
uint32_t Timeout)
{
HAL_StatusTypeDef status;
uint32_t algo;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & CRYP_CR_ALGOMODE;
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
status = CRYP_TDES_Process(hcryp, Timeout);
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt(hcryp, Timeout);
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process(hcryp, Timeout) ;
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process(hcryp, Timeout);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt(hcryp, Timeout);
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process(hcryp, Timeout) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process(hcryp, Timeout);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;default
}switch (algo) { ... }
/* ... */#endif
if (status == HAL_OK)
{
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}if (status == HAL_OK) { ... }
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
return HAL_ERROR;
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_Encrypt_IT(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output)
{
uint32_t algo;
HAL_StatusTypeDef status = HAL_OK;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_ENCRYPT);
algo = (hcryp->Instance->CR & CRYP_CR_ALGOMODE);
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_CRYP_ENABLE(hcryp);
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Encrypt_IT(hcryp);
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process_IT(hcryp) ;
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_IT(hcryp);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Encrypt_IT(hcryp);
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process_IT(hcryp) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_IT(hcryp);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */#endif
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
status = HAL_ERROR;
}else { ... }
return status;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_Decrypt_IT(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output)
{
uint32_t algo;
HAL_StatusTypeDef status = HAL_OK;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & CRYP_CR_ALGOMODE;
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_CRYP_ENABLE(hcryp);
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt_IT(hcryp);
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process_IT(hcryp) ;
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_IT(hcryp);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt_IT(hcryp);
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process_IT(hcryp) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_IT(hcryp);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */#endif
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
status = HAL_ERROR;
}else { ... }
return status;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_Encrypt_DMA(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output)
{
uint32_t algo;
HAL_StatusTypeDef status = HAL_OK;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_ENCRYPT);
algo = hcryp->Instance->CR & CRYP_CR_ALGOMODE;
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), ((uint16_t)(hcryp->Size) / 4U),
(uint32_t)(hcryp->pCrypOutBuffPtr));
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1U);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2U);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3U);
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), ((uint16_t)(hcryp->Size) / 4U),
(uint32_t)(hcryp->pCrypOutBuffPtr));
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process_DMA(hcryp) ;
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_DMA(hcryp);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), (hcryp->Size / 4U), (uint32_t)(hcryp->pCrypOutBuffPtr));
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process_DMA(hcryp) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_DMA(hcryp);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */#endif
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
status = HAL_ERROR;
}else { ... }
return status;
}{ ... }
/* ... */
HAL_StatusTypeDef HAL_CRYP_Decrypt_DMA(CRYP_HandleTypeDef *hcryp, uint32_t *Input, uint16_t Size, uint32_t *Output)
{
uint32_t algo;
HAL_StatusTypeDef status = HAL_OK;
if (hcryp->State == HAL_CRYP_STATE_READY)
{
hcryp->State = HAL_CRYP_STATE_BUSY;
__HAL_LOCK(hcryp);
hcryp->CrypInCount = 0U;
hcryp->CrypOutCount = 0U;
hcryp->pCrypInBuffPtr = Input;
hcryp->pCrypOutBuffPtr = Output;
if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD)
{
hcryp->Size = Size * 4U;
}if (hcryp->Init.DataWidthUnit == CRYP_DATAWIDTHUNIT_WORD) { ... }
else
{
hcryp->Size = Size;
}else { ... }
#if defined (CRYP)
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGODIR, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & CRYP_CR_ALGOMODE;
switch (algo)
{
case CRYP_DES_ECB:
case CRYP_DES_CBC:
case CRYP_TDES_ECB:
case CRYP_TDES_CBC:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
}if ((hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
}if ((hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
HAL_CRYP_FIFO_FLUSH(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), ((uint16_t)(hcryp->Size) / 4U),
(uint32_t)(hcryp->pCrypOutBuffPtr));
break;
case CRYP_TDES_CBC:
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt_DMA(hcryp);
break;
#if defined (CRYP_CR_ALGOMODE_AES_GCM)case CRYP_AES_CTR:
case CRYP_AES_GCM:
status = CRYP_AESGCM_Process_DMA(hcryp) ;
break;
case CRYP_AES_GCM:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_DMA(hcryp);
break;/* ... */
#endif
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
algo = hcryp->Instance->CR & AES_CR_CHMOD;
switch (algo)
{
case CRYP_AES_ECB:
case CRYP_AES_CBC:
case CRYP_AES_CTR:
status = CRYP_AES_Decrypt_DMA(hcryp);
break;
case CRYP_AES_CTR:
case CRYP_AES_GCM_GMAC:
status = CRYP_AESGCM_Process_DMA(hcryp) ;
break;
case CRYP_AES_GCM_GMAC:
case CRYP_AES_CCM:
status = CRYP_AESCCM_Process_DMA(hcryp);
break;
case CRYP_AES_CCM:
default:
hcryp->ErrorCode |= HAL_CRYP_ERROR_NOT_SUPPORTED;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
status = HAL_ERROR;
break;default
}switch (algo) { ... }
/* ... */#endif
}if (hcryp->State == HAL_CRYP_STATE_READY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
status = HAL_ERROR;
}else { ... }
return status;
}{ ... }
/* ... */
/* ... */
/* ... */
void HAL_CRYP_IRQHandler(CRYP_HandleTypeDef *hcryp)
{
#if defined (CRYP)
uint32_t itstatus = hcryp->Instance->MISR;
if ((itstatus & (CRYP_IT_INI | CRYP_IT_OUTI)) != 0U)
{
if ((hcryp->Init.Algorithm == CRYP_DES_ECB) || (hcryp->Init.Algorithm == CRYP_DES_CBC)
|| (hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC))
{
CRYP_TDES_IT(hcryp);
}if ((hcryp->Init.Algorithm == CRYP_DES_ECB) || (hcryp->Init.Algorithm == CRYP_DES_CBC) || (hcryp->Init.Algorithm == CRYP_TDES_ECB) || (hcryp->Init.Algorithm == CRYP_TDES_CBC)) { ... }
else if ((hcryp->Init.Algorithm == CRYP_AES_ECB) || (hcryp->Init.Algorithm == CRYP_AES_CBC)
|| (hcryp->Init.Algorithm == CRYP_AES_CTR))
{
CRYP_AES_IT(hcryp);
}else if ((hcryp->Init.Algorithm == CRYP_AES_ECB) || (hcryp->Init.Algorithm == CRYP_AES_CBC) || (hcryp->Init.Algorithm == CRYP_AES_CTR)) { ... }
#if defined (CRYP_CR_ALGOMODE_AES_GCM)
else if ((hcryp->Init.Algorithm == CRYP_AES_GCM) || (hcryp->Init.Algorithm == CRYP_CR_ALGOMODE_AES_CCM))
{
if ((hcryp->Instance->CR & CRYP_PHASE_HEADER) == CRYP_PHASE_HEADER)
{
CRYP_GCMCCM_SetHeaderPhase_IT(hcryp);
}if ((hcryp->Instance->CR & CRYP_PHASE_HEADER) == CRYP_PHASE_HEADER) { ... }
else
{
CRYP_GCMCCM_SetPayloadPhase_IT(hcryp);
}else { ... }
}else if ((hcryp->Init.Algorithm == CRYP_AES_GCM) || (hcryp->Init.Algorithm == CRYP_CR_ALGOMODE_AES_CCM)) { ... }
/* ... */ #endif
else
{
}else { ... }
}if ((itstatus & (CRYP_IT_INI | CRYP_IT_OUTI)) != 0U) { ... }
/* ... */
#else
if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_CCF) != RESET)
{
if (__HAL_CRYP_GET_IT_SOURCE(hcryp, CRYP_IT_CCFIE) != RESET)
{
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
if ((hcryp->Instance->CR & CRYP_PHASE_HEADER) == CRYP_PHASE_HEADER)
{
CRYP_GCMCCM_SetHeaderPhase_IT(hcryp);
}if ((hcryp->Instance->CR & CRYP_PHASE_HEADER) == CRYP_PHASE_HEADER) { ... }
else
{
CRYP_GCMCCM_SetPayloadPhase_IT(hcryp);
}else { ... }
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
else if (hcryp->Init.Algorithm == CRYP_AES_CCM)
{
if (hcryp->Init.HeaderSize >= hcryp->CrypHeaderCount)
{
CRYP_GCMCCM_SetHeaderPhase_IT(hcryp);
}if (hcryp->Init.HeaderSize >= hcryp->CrypHeaderCount) { ... }
else
{
CRYP_GCMCCM_SetPayloadPhase_IT(hcryp);
}else { ... }
}else if (hcryp->Init.Algorithm == CRYP_AES_CCM) { ... }
else
{
CRYP_AES_IT(hcryp);
}else { ... }
}if (__HAL_CRYP_GET_IT_SOURCE(hcryp, CRYP_IT_CCFIE) != RESET) { ... }
}if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_CCF) != RESET) { ... }
if (__HAL_CRYP_GET_IT_SOURCE(hcryp, CRYP_IT_ERRIE) != RESET)
{
if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_WRERR) != RESET)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_WRITE;
}if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_WRERR) != RESET) { ... }
if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_RDERR) != RESET)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_READ;
}if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_IT_RDERR) != RESET) { ... }
}if (__HAL_CRYP_GET_IT_SOURCE(hcryp, CRYP_IT_ERRIE) != RESET) { ... }
/* ... */#endif
}{ ... }
/* ... */
uint32_t HAL_CRYP_GetError(CRYP_HandleTypeDef *hcryp)
{
return hcryp->ErrorCode;
}{ ... }
/* ... */
HAL_CRYP_STATETypeDef HAL_CRYP_GetState(CRYP_HandleTypeDef *hcryp)
{
return hcryp->State;
}{ ... }
/* ... */
__weak void HAL_CRYP_InCpltCallback(CRYP_HandleTypeDef *hcryp)
{
UNUSED(hcryp);
/* ... */
}{ ... }
/* ... */
__weak void HAL_CRYP_OutCpltCallback(CRYP_HandleTypeDef *hcryp)
{
UNUSED(hcryp);
/* ... */
}{ ... }
/* ... */
__weak void HAL_CRYP_ErrorCallback(CRYP_HandleTypeDef *hcryp)
{
UNUSED(hcryp);
/* ... */
}{ ... }
/* ... */
Exported functions
/* ... */
#if defined (CRYP)
/* ... */
static HAL_StatusTypeDef CRYP_TDES_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t temp[2];
uint16_t incount;
uint16_t outcount;
uint32_t i;
__HAL_CRYP_ENABLE(hcryp);
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U)))
{
incount = hcryp->CrypInCount;
if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U)))
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U))) { ... }
if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK) { ... }
outcount = hcryp->CrypOutCount;
if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U)))
{
for (i = 0U; i < 2U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 2U; i++) { ... }
i = 0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 2U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 2U)) { ... }
}if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U))) { ... }
outcount = hcryp->CrypOutCount;
}while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U))) { ... }
__HAL_CRYP_DISABLE(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
return HAL_OK;
}{ ... }
/* ... */
static void CRYP_TDES_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t temp[2];
uint32_t i;
if (hcryp->State == HAL_CRYP_STATE_BUSY)
{
if (__HAL_CRYP_GET_IT(hcryp, CRYP_IT_INI) != 0x0U)
{
if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_FLAG_INRIS) != 0x0U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (hcryp->CrypInCount == ((uint16_t)(hcryp->Size) / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypInCount == ((uint16_t)(hcryp->Size) / 4U)) { ... }
}if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_FLAG_INRIS) != 0x0U) { ... }
}if (__HAL_CRYP_GET_IT(hcryp, CRYP_IT_INI) != 0x0U) { ... }
if (__HAL_CRYP_GET_IT(hcryp, CRYP_IT_OUTI) != 0x0U)
{
if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_FLAG_OUTRIS) != 0x0U)
{
for (i = 0U; i < 2U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 2U; i++) { ... }
i = 0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 2U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 2U)) { ... }
if (hcryp->CrypOutCount == ((uint16_t)(hcryp->Size) / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_OUTI);
__HAL_CRYP_DISABLE(hcryp);
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypOutCount == ((uint16_t)(hcryp->Size) / 4U)) { ... }
}if (__HAL_CRYP_GET_FLAG(hcryp, CRYP_FLAG_OUTRIS) != 0x0U) { ... }
}if (__HAL_CRYP_GET_IT(hcryp, CRYP_IT_OUTI) != 0x0U) { ... }
}if (hcryp->State == HAL_CRYP_STATE_BUSY) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}else { ... }
}{ ... }
/* ... */#endif
/* ... */
static HAL_StatusTypeDef CRYP_AES_Encrypt(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint16_t outcount;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
#if defined (AES)
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#else
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_ENABLE(hcryp);
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U)))
{
CRYP_AES_ProcessData(hcryp, Timeout);
outcount = hcryp->CrypOutCount;
}while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U))) { ... }
__HAL_CRYP_DISABLE(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AES_Encrypt_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
#if defined (AES)
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);
/* ... */
#else
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
if (hcryp->Size != 0U)
{
#if defined (AES)
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
/* ... */
#else
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
#endif
}if (hcryp->Size != 0U) { ... }
else
{
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AES_Decrypt(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint16_t outcount;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
if (hcryp->Init.Algorithm != CRYP_AES_CTR)
{
#if defined (AES)
if (hcryp->AutoKeyDerivation == DISABLE)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
...}
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION_DECRYPT);
}else { ... }
/* ... */#else
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_CR_ALGOMODE_AES_KEY);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK) { ... }
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, hcryp->Init.Algorithm);
/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_CTR) { ... }
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
}else { ... }
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
#if defined (AES)
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#else
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_ENABLE(hcryp);
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U)))
{
CRYP_AES_ProcessData(hcryp, Timeout);
outcount = hcryp->CrypOutCount;
}while ((hcryp->CrypInCount < (hcryp->Size / 4U)) && (outcount < (hcryp->Size / 4U))) { ... }
__HAL_CRYP_DISABLE(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AES_Decrypt_IT(CRYP_HandleTypeDef *hcryp)
{
__IO uint32_t count = 0U;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
if (hcryp->Init.Algorithm != CRYP_AES_CTR)
{
#if defined (AES)
if (hcryp->AutoKeyDerivation == DISABLE)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_KEYPREPARATION;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
...}
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION_DECRYPT);
}else { ... }
/* ... */#else
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_CR_ALGOMODE_AES_KEY);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_KEYPREPARATION;
do
{
count-- ;
if (count == 0U)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_SET(hcryp->Instance->SR, CRYP_FLAG_BUSY));
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, hcryp->Init.Algorithm);
/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_CTR) { ... }
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
}else { ... }
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
#if defined (AES)
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#else
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
if (hcryp->Size != 0U)
{
#if defined (AES)
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + (hcryp->CrypInCount - 1U));
/* ... */
#else
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
#endif
}if (hcryp->Size != 0U) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AES_Decrypt_DMA(CRYP_HandleTypeDef *hcryp)
{
__IO uint32_t count = 0U;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
if (DoKeyIVConfig == 1U)
{
if (hcryp->Init.Algorithm != CRYP_AES_CTR)
{
#if defined (AES)
if (hcryp->AutoKeyDerivation == DISABLE)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_KEYPREPARATION;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_DECRYPT);
...}
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_KEYDERIVATION_DECRYPT);
}else { ... }
/* ... */#else
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_CR_ALGOMODE_AES_KEY);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_KEYPREPARATION;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_SET(hcryp->Instance->SR, CRYP_FLAG_BUSY));
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, hcryp->Init.Algorithm);
/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_CTR) { ... }
else
{
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
}else { ... }
if (hcryp->Init.Algorithm != CRYP_AES_ECB)
{
#if defined (AES)
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#else
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);/* ... */
#endif
}if (hcryp->Init.Algorithm != CRYP_AES_ECB) { ... }
}if (DoKeyIVConfig == 1U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
if (hcryp->Size != 0U)
{
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), (hcryp->Size / 4U), (uint32_t)(hcryp->pCrypOutBuffPtr));
}if (hcryp->Size != 0U) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static void CRYP_DMAInCplt(DMA_HandleTypeDef *hdma)
{
CRYP_HandleTypeDef *hcryp = (CRYP_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
/* ... */
#if defined (CRYP)
hcryp->Instance->DMACR &= (uint32_t)(~CRYP_DMACR_DIEN);
/* ... */
#else
CLEAR_BIT(hcryp->Instance->CR, AES_CR_DMAINEN);
if ((hcryp->Init.Algorithm & CRYP_AES_CCM) == CRYP_AES_CCM)
{
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}if ((hcryp->Init.Algorithm & CRYP_AES_CCM) == CRYP_AES_CCM) { ... }
/* ... */#endif
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}{ ... }
/* ... */
static void CRYP_DMAOutCplt(DMA_HandleTypeDef *hdma)
{
CRYP_HandleTypeDef *hcryp = (CRYP_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
/* ... */
#if defined (CRYP)
hcryp->Instance->DMACR &= (uint32_t)(~CRYP_DMACR_DOEN);
#if defined (CRYP_CR_ALGOMODE_AES_GCM)
if ((hcryp->Init.Algorithm & CRYP_AES_GCM) != CRYP_AES_GCM)
{
__HAL_CRYP_DISABLE(hcryp);
}if ((hcryp->Init.Algorithm & CRYP_AES_GCM) != CRYP_AES_GCM) { ... }
/* ... */
#else
__HAL_CRYP_DISABLE(hcryp);/* ... */
#endif /* ... */
#else
CLEAR_BIT(hcryp->Instance->CR, AES_CR_DMAOUTEN);
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
if ((hcryp->Init.Algorithm & CRYP_AES_GCM_GMAC) != CRYP_AES_GCM_GMAC)
{
__HAL_CRYP_DISABLE(hcryp);
}if ((hcryp->Init.Algorithm & CRYP_AES_GCM_GMAC) != CRYP_AES_GCM_GMAC) { ... }
/* ... */#endif
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}{ ... }
/* ... */
static void CRYP_DMAError(DMA_HandleTypeDef *hdma)
{
CRYP_HandleTypeDef *hcryp = (CRYP_HandleTypeDef *)((DMA_HandleTypeDef *)hdma)->Parent;
hcryp->State = HAL_CRYP_STATE_READY;
hcryp->ErrorCode |= HAL_CRYP_ERROR_DMA;
#if defined (AES)
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
/* ... */
#endif
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}{ ... }
/* ... */
static void CRYP_SetDMAConfig(CRYP_HandleTypeDef *hcryp, uint32_t inputaddr, uint16_t Size, uint32_t outputaddr)
{
hcryp->hdmain->XferCpltCallback = CRYP_DMAInCplt;
hcryp->hdmain->XferErrorCallback = CRYP_DMAError;
hcryp->hdmaout->XferCpltCallback = CRYP_DMAOutCplt;
hcryp->hdmaout->XferErrorCallback = CRYP_DMAError;
#if defined (CRYP)
__HAL_CRYP_ENABLE(hcryp);
if (HAL_DMA_Start_IT(hcryp->hdmain, inputaddr, (uint32_t)&hcryp->Instance->DIN, Size) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_DMA;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (HAL_DMA_Start_IT(hcryp->hdmain, inputaddr, (uint32_t)&hcryp->Instance->DIN, Size) != HAL_OK) { ... }
if (HAL_DMA_Start_IT(hcryp->hdmaout, (uint32_t)&hcryp->Instance->DOUT, outputaddr, Size) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_DMA;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (HAL_DMA_Start_IT(hcryp->hdmaout, (uint32_t)&hcryp->Instance->DOUT, outputaddr, Size) != HAL_OK) { ... }
hcryp->Instance->DMACR = CRYP_DMACR_DOEN | CRYP_DMACR_DIEN;
/* ... */
#else
if (((hcryp->Init.Algorithm & CRYP_AES_GCM_GMAC) != CRYP_AES_GCM_GMAC)
&& ((hcryp->Init.Algorithm & CRYP_AES_CCM) != CRYP_AES_CCM))
{
__HAL_CRYP_ENABLE(hcryp);
}if (((hcryp->Init.Algorithm & CRYP_AES_GCM_GMAC) != CRYP_AES_GCM_GMAC) && ((hcryp->Init.Algorithm & CRYP_AES_CCM) != CRYP_AES_CCM)) { ... }
if (HAL_DMA_Start_IT(hcryp->hdmain, inputaddr, (uint32_t)&hcryp->Instance->DINR, Size) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_DMA;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (HAL_DMA_Start_IT(hcryp->hdmain, inputaddr, (uint32_t)&hcryp->Instance->DINR, Size) != HAL_OK) { ... }
if (HAL_DMA_Start_IT(hcryp->hdmaout, (uint32_t)&hcryp->Instance->DOUTR, outputaddr, Size) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_DMA;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (HAL_DMA_Start_IT(hcryp->hdmaout, (uint32_t)&hcryp->Instance->DOUTR, outputaddr, Size) != HAL_OK) { ... }
if ((hcryp->Init.Algorithm & CRYP_AES_CCM) == CRYP_AES_CCM)
{
SET_BIT(hcryp->Instance->CR, (AES_CR_DMAINEN));
}if ((hcryp->Init.Algorithm & CRYP_AES_CCM) == CRYP_AES_CCM) { ... }
else
{
SET_BIT(hcryp->Instance->CR, (AES_CR_DMAINEN | AES_CR_DMAOUTEN));
}else { ... }
/* ... */#endif
}{ ... }
/* ... */
static void CRYP_AES_ProcessData(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t temp[4];
uint32_t i;
#if defined (CRYP)
uint16_t incount;
uint16_t outcount; /* ... */
#endif
#if defined (CRYP)
incount = hcryp->CrypInCount;
if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U)))
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U))) { ... }
if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK) { ... }
outcount = hcryp->CrypOutCount;
if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U)))
{
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U)) { ... }
}if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U))) { ... }
/* ... */
#else
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUTR;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U)) { ... }
/* ... */#endif
}{ ... }
/* ... */
static void CRYP_AES_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t temp[4];
uint32_t i;
#if defined (CRYP)
uint16_t incount;
uint16_t outcount; /* ... */
#endif
if (hcryp->State == HAL_CRYP_STATE_BUSY)
{
#if defined (CRYP)
incount = hcryp->CrypInCount;
if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U)))
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (hcryp->CrypInCount == ((uint16_t)(hcryp->Size) / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypInCount == ((uint16_t)(hcryp->Size) / 4U)) { ... }
}if (((hcryp->Instance->SR & CRYP_FLAG_IFNF) != 0x0U) && (incount < (hcryp->Size / 4U))) { ... }
outcount = hcryp->CrypOutCount;
if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U)))
{
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U)) { ... }
if (hcryp->CrypOutCount == ((uint16_t)(hcryp->Size) / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_OUTI);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_CRYP_DISABLE(hcryp);
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypOutCount == ((uint16_t)(hcryp->Size) / 4U)) { ... }
}if (((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) && (outcount < (hcryp->Size / 4U))) { ... }
/* ... */
#else
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUTR;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U)) { ... }
if (hcryp->CrypOutCount == (hcryp->Size / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_CRYP_DISABLE(hcryp);
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypOutCount == (hcryp->Size / 4U)) { ... }
else
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (hcryp->CrypInCount == (hcryp->Size / 4U))
{
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypInCount == (hcryp->Size / 4U)) { ... }
}else { ... }
/* ... */#endif
}if (hcryp->State == HAL_CRYP_STATE_BUSY) { ... }
else
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_BUSY;
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}else { ... }
}{ ... }
/* ... */
static void CRYP_SetKey(CRYP_HandleTypeDef *hcryp, uint32_t KeySize)
{
#if defined (CRYP)
switch (KeySize)
{
case CRYP_KEYSIZE_256B:
hcryp->Instance->K0LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K0RR = *(uint32_t *)(hcryp->Init.pKey + 1);
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 5);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 6);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 7);
break;case CRYP_KEYSIZE_256B:
case CRYP_KEYSIZE_192B:
hcryp->Instance->K1LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K1RR = *(uint32_t *)(hcryp->Init.pKey + 1);
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 5);
break;case CRYP_KEYSIZE_192B:
case CRYP_KEYSIZE_128B:
hcryp->Instance->K2LR = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->K2RR = *(uint32_t *)(hcryp->Init.pKey + 1);
hcryp->Instance->K3LR = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->K3RR = *(uint32_t *)(hcryp->Init.pKey + 3);
break;case CRYP_KEYSIZE_128B:
default:
break;default
}switch (KeySize) { ... }
/* ... */#else
switch (KeySize)
{
case CRYP_KEYSIZE_256B:
hcryp->Instance->KEYR7 = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->KEYR6 = *(uint32_t *)(hcryp->Init.pKey + 1);
hcryp->Instance->KEYR5 = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->KEYR4 = *(uint32_t *)(hcryp->Init.pKey + 3);
hcryp->Instance->KEYR3 = *(uint32_t *)(hcryp->Init.pKey + 4);
hcryp->Instance->KEYR2 = *(uint32_t *)(hcryp->Init.pKey + 5);
hcryp->Instance->KEYR1 = *(uint32_t *)(hcryp->Init.pKey + 6);
hcryp->Instance->KEYR0 = *(uint32_t *)(hcryp->Init.pKey + 7);
break;case CRYP_KEYSIZE_256B:
case CRYP_KEYSIZE_128B:
hcryp->Instance->KEYR3 = *(uint32_t *)(hcryp->Init.pKey);
hcryp->Instance->KEYR2 = *(uint32_t *)(hcryp->Init.pKey + 1);
hcryp->Instance->KEYR1 = *(uint32_t *)(hcryp->Init.pKey + 2);
hcryp->Instance->KEYR0 = *(uint32_t *)(hcryp->Init.pKey + 3);
break;case CRYP_KEYSIZE_128B:
default:
break;default
}switch (KeySize) { ... }
/* ... */#endif
}{ ... }
#if defined (CRYP_CR_ALGOMODE_AES_GCM)|| defined (AES)
/* ... */
static HAL_StatusTypeDef CRYP_AESGCM_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
uint32_t wordsize = (uint32_t)(hcryp->Size) / 4U ;
uint16_t outcount;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
#if defined(CRYP)
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
tickstart = HAL_GetTick();
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN)
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN) { ... }
/* ... */
#else
/* ... */
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, CRYP_DATATYPE_32B);
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
/* ... */
#endif
Init phase
if (CRYP_GCMCCM_SetHeaderPhase(hcryp, Timeout) != HAL_OK)
{
return HAL_ERROR;
}if (CRYP_GCMCCM_SetHeaderPhase(hcryp, Timeout) != HAL_OK) { ... }
Header phase
hcryp->Phase = CRYP_PHASE_PROCESS;
#if defined(CRYP)
__HAL_CRYP_DISABLE(hcryp);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
#else
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
/* ... */
#endif
}if (DoKeyIVConfig == 1U) { ... }
if ((hcryp->Size % 16U) != 0U)
{
wordsize = ((wordsize / 4U) * 4U) ;
}if ((hcryp->Size % 16U) != 0U) { ... }
tickstart = HAL_GetTick();
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize))
{
CRYP_AES_ProcessData(hcryp, Timeout);
outcount = hcryp->CrypOutCount;
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize)) { ... }
if ((hcryp->Size % 16U) != 0U)
{
/* ... */
CRYP_Workaround(hcryp, Timeout);
}if ((hcryp->Size % 16U) != 0U) { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AESGCM_Process_IT(CRYP_HandleTypeDef *hcryp)
{
__IO uint32_t count = 0U;
uint32_t DoKeyIVConfig = 1U;
#if defined(AES)
uint32_t loopcounter;
uint32_t lastwordsize;
uint32_t npblb;/* ... */
#endif
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
#if defined(CRYP)
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN);
/* ... */
#else
/* ... */
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, CRYP_DATATYPE_32B);
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
/* ... */
#endif
Init phase
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI);
__HAL_CRYP_ENABLE(hcryp);
/* ... */
#else
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, hcryp->Init.DataType);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
__HAL_CRYP_ENABLE(hcryp);
if (hcryp->Init.HeaderSize == 0U)
{
hcryp->Phase = CRYP_PHASE_PROCESS;
MODIFY_REG(hcryp->Instance->CR, AES_CR_GCMPH, CRYP_PHASE_PAYLOAD);
if (hcryp->Size == 0U)
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}if (hcryp->Size == 0U) { ... }
else if (hcryp->Size >= 16U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (hcryp->CrypInCount == (hcryp->Size / 4U))
{
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypInCount == (hcryp->Size / 4U)) { ... }
}else if (hcryp->Size >= 16U) { ... }
else
{
/* ... */
npblb = 16U - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize ; loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize ; loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
...}
else if ((hcryp->Init.HeaderSize) < 4U)
{
for (loopcounter = 0U; loopcounter < hcryp->Init.HeaderSize ; loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; loopcounter < hcryp->Init.HeaderSize ; loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}else if ((hcryp->Init.HeaderSize) < 4U) { ... }
else if ((hcryp->Init.HeaderSize) >= 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
}else if ((hcryp->Init.HeaderSize) >= 4U) { ... }
else
{
}else { ... }
/* ... */
#endif
}if (DoKeyIVConfig == 1U) { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AESGCM_Process_DMA(CRYP_HandleTypeDef *hcryp)
{
__IO uint32_t count = 0U;
uint32_t wordsize;
uint32_t DoKeyIVConfig = 1U;
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
#if defined(CRYP)
hcryp->Instance->IV0LR = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IV0RR = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IV1LR = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IV1RR = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN);
/* ... */
#else
/* ... */
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, CRYP_DATATYPE_32B);
hcryp->Instance->IVR3 = *(uint32_t *)(hcryp->Init.pInitVect);
hcryp->Instance->IVR2 = *(uint32_t *)(hcryp->Init.pInitVect + 1);
hcryp->Instance->IVR1 = *(uint32_t *)(hcryp->Init.pInitVect + 2);
hcryp->Instance->IVR0 = *(uint32_t *)(hcryp->Init.pInitVect + 3);
__HAL_CRYP_ENABLE(hcryp);
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
/* ... */
#endif
Init phase
if (CRYP_GCMCCM_SetHeaderPhase_DMA(hcryp) != HAL_OK)
{
return HAL_ERROR;
}if (CRYP_GCMCCM_SetHeaderPhase_DMA(hcryp) != HAL_OK) { ... }
Header phase
hcryp->Phase = CRYP_PHASE_PROCESS;
#if defined(CRYP)
__HAL_CRYP_DISABLE(hcryp);
/* ... */
#endif
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
}if (DoKeyIVConfig == 1U) { ... }
if (hcryp->Size != 0U)
{
/* ... */
if ((hcryp->Size % 16U) == 0U)
{
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), (hcryp->Size / 4U), (uint32_t)(hcryp->pCrypOutBuffPtr));
}if ((hcryp->Size % 16U) == 0U) { ... }
else
{
wordsize = (uint32_t)(hcryp->Size) + (16U - ((uint32_t)(hcryp->Size) % 16U)) ;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), ((uint16_t)wordsize / 4U),
(uint32_t)(hcryp->pCrypOutBuffPtr));
}else { ... }
}if (hcryp->Size != 0U) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_AESCCM_Process(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
uint32_t wordsize = (uint32_t)(hcryp->Size) / 4U;
uint16_t outcount;
uint32_t DoKeyIVConfig = 1U;
#if defined(AES)
uint32_t loopcounter;
uint32_t npblb;
uint32_t lastwordsize;/* ... */
#endif
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IV0LR = (hcryp->Init.B0[0]) & CRYP_CCM_CTR1_0;
hcryp->Instance->IV0RR = hcryp->Init.B0[1];
hcryp->Instance->IV1LR = hcryp->Init.B0[2];
hcryp->Instance->IV1RR = (hcryp->Init.B0[3] & CRYP_CCM_CTR1_1) | CRYP_CCM_CTR1_2;
__HAL_CRYP_ENABLE(hcryp);
if (hcryp->Init.DataType == CRYP_DATATYPE_8B)
{
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 3));
}if (hcryp->Init.DataType == CRYP_DATATYPE_8B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_16B)
{
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 1), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 2), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 3), 16);
}else if (hcryp->Init.DataType == CRYP_DATATYPE_16B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_1B)
{
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 3));
}else if (hcryp->Init.DataType == CRYP_DATATYPE_1B) { ... }
else
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 3);
}else { ... }
tickstart = HAL_GetTick();
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN)
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN) { ... }
/* ... */#else
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IVR3 = 0U;
hcryp->Instance->IVR2 = 0U;
hcryp->Instance->IVR1 = 0U;
hcryp->Instance->IVR0 = 0U;
__HAL_CRYP_ENABLE(hcryp);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 3);
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
hcryp->Phase = CRYP_PHASE_PROCESS;
/* ... */
if (hcryp->Init.HeaderSize != 0U)
{
if ((hcryp->Init.HeaderSize % 4U) == 0U)
{
for (loopcounter = 0U; (loopcounter < hcryp->Init.HeaderSize); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < hcryp->Init.HeaderSize); loopcounter += 4U) { ... }
}if ((hcryp->Init.HeaderSize % 4U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((hcryp->Init.HeaderSize) - (hcryp->Init.HeaderSize % 4U))); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < ((hcryp->Init.HeaderSize) - (hcryp->Init.HeaderSize % 4U))); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < (hcryp->Init.HeaderSize % 4U)); loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < (hcryp->Init.HeaderSize % 4U)); loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}else { ... }
}if (hcryp->Init.HeaderSize != 0U) { ... }
}if (DoKeyIVConfig == 1U) { ... }
/* ... */
if (hcryp->Size != 0U)
{
if ((hcryp->Size % 16U) != 0U)
{
wordsize = ((wordsize / 4U) * 4U) ;
}if ((hcryp->Size % 16U) != 0U) { ... }
tickstart = HAL_GetTick();
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize))
{
CRYP_AES_ProcessData(hcryp, Timeout);
outcount = hcryp->CrypOutCount;
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize)) { ... }
if ((hcryp->Size % 16U) != 0U)
{
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter ++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter ++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}if ((hcryp->Size % 16U) != 0U) { ... }
}if (hcryp->Size != 0U) { ... }
#endif
#if defined(CRYP)
/* ... */
if (CRYP_GCMCCM_SetHeaderPhase(hcryp, Timeout) != HAL_OK)
{
return HAL_ERROR;
}if (CRYP_GCMCCM_SetHeaderPhase(hcryp, Timeout) != HAL_OK) { ... }
Header phase
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_DISABLE(hcryp);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
__HAL_CRYP_ENABLE(hcryp);
}CRYP_AESCCM_Process (CRYP_HandleTypeDef *hcryp, uint32_t Timeout) { ... }
if ((hcryp->Size % 16U) != 0U)
{
wordsize = ((wordsize / 4U) * 4U) ;
}if ((hcryp->Size % 16U) != 0U) { ... }
tickstart = HAL_GetTick();
outcount = hcryp->CrypOutCount;
while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize))
{
CRYP_AES_ProcessData(hcryp, Timeout);
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while ((hcryp->CrypInCount < wordsize) && (outcount < wordsize)) { ... }
if ((hcryp->Size % 16U) != 0U)
{
/* ... */
CRYP_Workaround(hcryp, Timeout);
}if ((hcryp->Size % 16U) != 0U) { ... }
#endif
return HAL_OK;
}
/* ... */
static HAL_StatusTypeDef CRYP_AESCCM_Process_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t DoKeyIVConfig = 1U;
#if defined(CRYP)
__IO uint32_t count = 0U;
#endif
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IV0LR = (hcryp->Init.B0[0]) & CRYP_CCM_CTR1_0;
hcryp->Instance->IV0RR = hcryp->Init.B0[1];
hcryp->Instance->IV1LR = hcryp->Init.B0[2];
hcryp->Instance->IV1RR = (hcryp->Init.B0[3] & CRYP_CCM_CTR1_1) | CRYP_CCM_CTR1_2;
__HAL_CRYP_ENABLE(hcryp);
if (hcryp->Init.DataType == CRYP_DATATYPE_8B)
{
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 3));
}if (hcryp->Init.DataType == CRYP_DATATYPE_8B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_16B)
{
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 1), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 2), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 3), 16);
}else if (hcryp->Init.DataType == CRYP_DATATYPE_16B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_1B)
{
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 3));
}else if (hcryp->Init.DataType == CRYP_DATATYPE_1B) { ... }
else
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 3);
}else { ... }
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
}if (DoKeyIVConfig == 1U) { ... }
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI);
__HAL_CRYP_ENABLE(hcryp);
#else
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IVR3 = 0U;
hcryp->Instance->IVR2 = 0U;
hcryp->Instance->IVR1 = 0U;
hcryp->Instance->IVR0 = 0U;
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
__HAL_CRYP_ENABLE(hcryp);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 3);
}CRYP_AESCCM_Process_IT (CRYP_HandleTypeDef *hcryp) { ... }
#endif
return HAL_OK;
}
/* ... */
static HAL_StatusTypeDef CRYP_AESCCM_Process_DMA(CRYP_HandleTypeDef *hcryp)
{
uint32_t wordsize;
__IO uint32_t count = 0U;
uint32_t DoKeyIVConfig = 1U;
#if defined(AES)
uint32_t loopcounter;
uint32_t npblb;
uint32_t lastwordsize;/* ... */
#endif
if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE)
{
if (hcryp->KeyIVConfig == 1U)
{
/* ... */
DoKeyIVConfig = 0U;
hcryp->SizesSum += hcryp->Size;
}if (hcryp->KeyIVConfig == 1U) { ... }
else
{
/* ... */
hcryp->KeyIVConfig = 1U;
hcryp->SizesSum = hcryp->Size;
}else { ... }
}if (hcryp->Init.KeyIVConfigSkip == CRYP_KEYIVCONFIG_ONCE) { ... }
else
{
hcryp->SizesSum = hcryp->Size;
}else { ... }
if (DoKeyIVConfig == 1U)
{
hcryp->CrypHeaderCount = 0U;
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_INIT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IV0LR = (hcryp->Init.B0[0]) & CRYP_CCM_CTR1_0;
hcryp->Instance->IV0RR = hcryp->Init.B0[1];
hcryp->Instance->IV1LR = hcryp->Init.B0[2];
hcryp->Instance->IV1RR = (hcryp->Init.B0[3] & CRYP_CCM_CTR1_1) | CRYP_CCM_CTR1_2;
__HAL_CRYP_ENABLE(hcryp);
if (hcryp->Init.DataType == CRYP_DATATYPE_8B)
{
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __REV(*(uint32_t *)(hcryp->Init.B0 + 3));
}if (hcryp->Init.DataType == CRYP_DATATYPE_8B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_16B)
{
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 1), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 2), 16);
hcryp->Instance->DIN = __ROR(*(uint32_t *)(hcryp->Init.B0 + 3), 16);
}else if (hcryp->Init.DataType == CRYP_DATATYPE_16B) { ... }
else if (hcryp->Init.DataType == CRYP_DATATYPE_1B)
{
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 1));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 2));
hcryp->Instance->DIN = __RBIT(*(uint32_t *)(hcryp->Init.B0 + 3));
}else if (hcryp->Init.DataType == CRYP_DATATYPE_1B) { ... }
else
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.B0 + 3);
}else { ... }
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while ((hcryp->Instance->CR & CRYP_CR_CRYPEN) == CRYP_CR_CRYPEN);
/* ... */
#else
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
MODIFY_REG(hcryp->Instance->CR, AES_CR_MODE, CRYP_OPERATINGMODE_ENCRYPT);
CRYP_SetKey(hcryp, hcryp->Init.KeySize);
hcryp->Instance->IVR3 = 0U;
hcryp->Instance->IVR2 = 0U;
hcryp->Instance->IVR1 = 0U;
hcryp->Instance->IVR0 = 0U;
__HAL_CRYP_ENABLE(hcryp);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 1);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 2);
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.B0 + 3);
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
hcryp->Phase = CRYP_PHASE_PROCESS;
/* ... */
if (hcryp->Init.HeaderSize != 0U)
{
if ((hcryp->Init.HeaderSize % 4U) == 0U)
{
for (loopcounter = 0U; (loopcounter < hcryp->Init.HeaderSize); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < hcryp->Init.HeaderSize); loopcounter += 4U) { ... }
}if ((hcryp->Init.HeaderSize % 4U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((hcryp->Init.HeaderSize) - (hcryp->Init.HeaderSize % 4U))); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < ((hcryp->Init.HeaderSize) - (hcryp->Init.HeaderSize % 4U))); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < (hcryp->Init.HeaderSize % 4U)); loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < (hcryp->Init.HeaderSize % 4U)); loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}else { ... }
}if (hcryp->Init.HeaderSize != 0U) { ... }
}if (DoKeyIVConfig == 1U) { ... }
/* ... */
if (hcryp->Size != 0U)
{
if (hcryp->Size >= 16U)
{
if ((hcryp->Size % 16U) == 0U)
{
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), (hcryp->Size / 4U), (uint32_t)(hcryp->pCrypOutBuffPtr));
}if ((hcryp->Size % 16U) == 0U) { ... }
else
{
wordsize = (uint32_t)(hcryp->Size) + (16U - ((uint32_t)(hcryp->Size) % 16U)) ;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), ((uint16_t)wordsize / 4U),
(uint32_t)(hcryp->pCrypOutBuffPtr));
}else { ... }
}if (hcryp->Size >= 16U) { ... }
if ((hcryp->Size < 16U) != 0U)
{
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter ++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter ++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
count = CRYP_TIMEOUT_GCMCCMINITPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}if ((hcryp->Size < 16U) != 0U) { ... }
}if (hcryp->Size != 0U) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}else { ... }
#endif
#if defined(CRYP)
if (CRYP_GCMCCM_SetHeaderPhase_DMA(hcryp) != HAL_OK)
{
return HAL_ERROR;
}if (CRYP_GCMCCM_SetHeaderPhase_DMA(hcryp) != HAL_OK) { ... }
Header phase
hcryp->Phase = CRYP_PHASE_PROCESS;
__HAL_CRYP_DISABLE(hcryp);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
}CRYP_AESCCM_Process_DMA (CRYP_HandleTypeDef *hcryp) { ... }
if (hcryp->Size != 0U)
{
/* ... */
if ((hcryp->Size % 16U) == 0U)
{
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), hcryp->Size / 4U, (uint32_t)(hcryp->pCrypOutBuffPtr));
}if ((hcryp->Size % 16U) == 0U) { ... }
else
{
wordsize = (uint32_t)(hcryp->Size) + 16U - ((uint32_t)(hcryp->Size) % 16U) ;
CRYP_SetDMAConfig(hcryp, (uint32_t)(hcryp->pCrypInBuffPtr), (uint16_t)wordsize / 4U,
(uint32_t)(hcryp->pCrypOutBuffPtr));
}else { ... }
}if (hcryp->Size != 0U) { ... }
else
{
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}else { ... }
#endif
return HAL_OK;
}
/* ... */
static void CRYP_GCMCCM_SetPayloadPhase_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t loopcounter;
uint32_t temp[4];
uint32_t lastwordsize;
uint32_t npblb;
uint32_t i;
#if defined(AES)
uint16_t outcount;
#endif
#if defined(CRYP)
if (hcryp->Size == 0U)
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_UNLOCK(hcryp);
hcryp->State = HAL_CRYP_STATE_READY;
}if (hcryp->Size == 0U) { ... }
else if (((hcryp->Size / 4U) - (hcryp->CrypInCount)) >= 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if (((hcryp->Size / 4U) == hcryp->CrypInCount) && ((hcryp->Size % 16U) == 0U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if (((hcryp->Size / 4U) == hcryp->CrypInCount) && ((hcryp->Size % 16U) == 0U)) { ... }
if (hcryp->CrypOutCount < (hcryp->Size / 4U))
{
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U)) { ... }
if (((hcryp->Size / 4U) == hcryp->CrypOutCount) && ((hcryp->Size % 16U) == 0U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_OUTI);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_CRYP_DISABLE(hcryp);
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if (((hcryp->Size / 4U) == hcryp->CrypOutCount) && ((hcryp->Size % 16U) == 0U)) { ... }
}if (hcryp->CrypOutCount < (hcryp->Size / 4U)) { ... }
}else if (((hcryp->Size / 4U) - (hcryp->CrypInCount)) >= 4U) { ... }
else if ((hcryp->Size % 16U) != 0U)
{
/* ... */
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI);
if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U)
{
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUT;
}for (i = 0U; i < 4U; i++) { ... }
if (((hcryp->Size) / 4U) == 0U)
{
for (i = 0U; i < ((uint32_t)(hcryp->Size) % 4U); i++)
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
}for (i = 0U; i < ((uint32_t)(hcryp->Size) % 4U); i++) { ... }
}if (((hcryp->Size) / 4U) == 0U) { ... }
i = 0x0U;
while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while (((hcryp->CrypOutCount < ((hcryp->Size) / 4U))) && (i < 4U)) { ... }
}if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) { ... }
if (hcryp->CrypOutCount >= (hcryp->Size / 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_OUTI | CRYP_IT_INI);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if (hcryp->CrypOutCount >= (hcryp->Size / 4U)) { ... }
}else if ((hcryp->Size % 16U) != 0U) { ... }
else
{
}else { ... }
/* ... */#else
for (i = 0U; i < 4U; i++)
{
temp[i] = hcryp->Instance->DOUTR;
}for (i = 0U; i < 4U; i++) { ... }
i = 0U;
while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U))
{
*(uint32_t *)(hcryp->pCrypOutBuffPtr + hcryp->CrypOutCount) = temp[i];
hcryp->CrypOutCount++;
i++;
}while ((hcryp->CrypOutCount < ((hcryp->Size + 3U) / 4U)) && (i < 4U)) { ... }
outcount = hcryp->CrypOutCount;
if ((hcryp->CrypOutCount >= (hcryp->Size / 4U)) && ((outcount * 4U) >= hcryp->Size))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->OutCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_OutCpltCallback(hcryp);/* ... */
#endif
}if ((hcryp->CrypOutCount >= (hcryp->Size / 4U)) && ((outcount * 4U) >= hcryp->Size)) { ... }
else if (((hcryp->Size / 4U) - (hcryp->CrypInCount)) >= 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if ((hcryp->CrypInCount == (hcryp->Size / 4U)) && ((hcryp->Size % 16U) == 0U))
{
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if ((hcryp->CrypInCount == (hcryp->Size / 4U)) && ((hcryp->Size % 16U) == 0U)) { ... }
}else if (((hcryp->Size / 4U) - (hcryp->CrypInCount)) >= 4U) { ... }
else
{
/* ... */
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
/* ... */#endif
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_GCMCCM_SetHeaderPhase(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t loopcounter;
uint32_t size_in_bytes;
uint32_t tmp;
uint32_t mask[12] = {0x0U, 0xFF000000U, 0xFFFF0000U, 0xFFFFFF00U,
0x0U, 0x0000FF00U, 0x0000FFFFU, 0xFF00FFFFU,
0x0U, 0x000000FFU, 0x0000FFFFU, 0x00FFFFFFU...};
if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD)
{
size_in_bytes = hcryp->Init.HeaderSize * 4U;
}if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD) { ... }
else
{
size_in_bytes = hcryp->Init.HeaderSize;
}else { ... }
if (size_in_bytes != 0U)
{
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
if ((size_in_bytes % 16U) == 0U)
{
for (loopcounter = 0U; (loopcounter < (size_in_bytes / 4U)); loopcounter += 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK) { ... }
}for (loopcounter = 0U; (loopcounter < (size_in_bytes / 4U)); loopcounter += 4U) { ... }
}if ((size_in_bytes % 16U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 16U) * 4U)); loopcounter += 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK) { ... }
}for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 16U) * 4U)); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 4U) % 4U)); loopcounter++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 4U) % 4U)); loopcounter++) { ... }
if ((size_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}if ((size_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (size_in_bytes % 4U)];
hcryp->Instance->DIN = tmp;
loopcounter++;
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnIFEMFlag(hcryp, Timeout) != HAL_OK) { ... }
}else { ... }
if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK) { ... }
/* ... */
#else
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, hcryp->Init.DataType);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
if ((size_in_bytes % 16U) == 0U)
{
for (loopcounter = 0U; (loopcounter < (size_in_bytes / 4U)); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < (size_in_bytes / 4U)); loopcounter += 4U) { ... }
}if ((size_in_bytes % 16U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 16U) * 4U)); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 16U) * 4U)); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 4U) % 4U)); loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < ((size_in_bytes / 4U) % 4U)); loopcounter++) { ... }
if ((size_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}if ((size_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (size_in_bytes % 4U)];
hcryp->Instance->DINR = tmp;
loopcounter++;
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}else { ... }
/* ... */#endif
}if (size_in_bytes != 0U) { ... }
else
{
#if defined(AES)
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, hcryp->Init.DataType);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
/* ... */#endif
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_GCMCCM_SetHeaderPhase_DMA(CRYP_HandleTypeDef *hcryp)
{
__IO uint32_t count = 0U;
uint32_t loopcounter;
uint32_t headersize_in_bytes;
uint32_t tmp;
uint32_t mask[12] = {0x0U, 0xFF000000U, 0xFFFF0000U, 0xFFFFFF00U,
0x0U, 0x0000FF00U, 0x0000FFFFU, 0xFF00FFFFU,
0x0U, 0x000000FFU, 0x0000FFFFU, 0x00FFFFFFU...};
if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD)
{
headersize_in_bytes = hcryp->Init.HeaderSize * 4U;
}if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD) { ... }
else
{
headersize_in_bytes = hcryp->Init.HeaderSize;
}else { ... }
if (headersize_in_bytes != 0U)
{
#if defined(CRYP)
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
if ((headersize_in_bytes % 16U) == 0U)
{
for (loopcounter = 0U; (loopcounter < (headersize_in_bytes / 4U)); loopcounter += 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_IFEM));
}for (loopcounter = 0U; (loopcounter < (headersize_in_bytes / 4U)); loopcounter += 4U) { ... }
}if ((headersize_in_bytes % 16U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 16U) * 4U)); loopcounter += 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_IFEM));
}for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 16U) * 4U)); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 4U) % 4U)); loopcounter++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 4U) % 4U)); loopcounter++) { ... }
if ((headersize_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}if ((headersize_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (headersize_in_bytes % 4U)];
hcryp->Instance->DIN = tmp;
loopcounter++;
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_IFEM));
}else { ... }
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_SET(hcryp->Instance->SR, CRYP_FLAG_BUSY));
/* ... */
#else
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, hcryp->Init.DataType);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
if ((headersize_in_bytes % 16U) == 0U)
{
for (loopcounter = 0U; (loopcounter < (headersize_in_bytes / 4U)); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < (headersize_in_bytes / 4U)); loopcounter += 4U) { ... }
}if ((headersize_in_bytes % 16U) == 0U) { ... }
else
{
for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 16U) * 4U)); loopcounter += 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 16U) * 4U)); loopcounter += 4U) { ... }
for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 4U) % 4U)); loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; (loopcounter < ((headersize_in_bytes / 4U) % 4U)); loopcounter++) { ... }
if ((headersize_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}if ((headersize_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (headersize_in_bytes % 4U)];
hcryp->Instance->DINR = tmp;
loopcounter++;
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
count = CRYP_TIMEOUT_GCMCCMHEADERPHASE;
do
{
count-- ;
if (count == 0U)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
return HAL_ERROR;
}if (count == 0U) { ... }
...}
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF));
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
}else { ... }
/* ... */#endif
}if (headersize_in_bytes != 0U) { ... }
else
{
#if defined(AES)
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_DATATYPE, hcryp->Init.DataType);
CRYP_SET_PHASE(hcryp, CRYP_PHASE_HEADER);
__HAL_CRYP_ENABLE(hcryp);
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
/* ... */#endif
}else { ... }
return HAL_OK;
}{ ... }
/* ... */
static void CRYP_GCMCCM_SetHeaderPhase_IT(CRYP_HandleTypeDef *hcryp)
{
uint32_t loopcounter;
#if defined(AES)
uint32_t lastwordsize;
uint32_t npblb;/* ... */
#endif
uint32_t headersize_in_bytes;
uint32_t tmp;
uint32_t mask[12] = {0x0U, 0xFF000000U, 0xFFFF0000U, 0xFFFFFF00U,
0x0U, 0x0000FF00U, 0x0000FFFFU, 0xFF00FFFFU,
0x0U, 0x000000FFU, 0x0000FFFFU, 0x00FFFFFFU...};
if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD)
{
headersize_in_bytes = hcryp->Init.HeaderSize * 4U;
}if (hcryp->Init.HeaderWidthUnit == CRYP_HEADERWIDTHUNIT_WORD) { ... }
else
{
headersize_in_bytes = hcryp->Init.HeaderSize;
}else { ... }
#if defined(CRYP)
if (headersize_in_bytes <= ((uint32_t)(hcryp->CrypHeaderCount) * 4U))
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_INI);
__HAL_CRYP_DISABLE(hcryp);
hcryp->Phase = CRYP_PHASE_PROCESS;
CRYP_SET_PHASE(hcryp, CRYP_PHASE_PAYLOAD);
__HAL_CRYP_ENABLE_IT(hcryp, CRYP_IT_INI | CRYP_IT_OUTI);
__HAL_CRYP_ENABLE(hcryp);
}if (headersize_in_bytes <= ((uint32_t)(hcryp->CrypHeaderCount) * 4U)) { ... }
else if (((headersize_in_bytes / 4U) - (hcryp->CrypHeaderCount)) >= 4U)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}else if (((headersize_in_bytes / 4U) - (hcryp->CrypHeaderCount)) >= 4U) { ... }
else
{
for (loopcounter = 0U; loopcounter < ((headersize_in_bytes / 4U) % 4U); loopcounter++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; loopcounter < ((headersize_in_bytes / 4U) % 4U); loopcounter++) { ... }
if ((headersize_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
hcryp->CrypHeaderCount++;
}while (loopcounter < 4U) { ... }
}if ((headersize_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (headersize_in_bytes % 4U)];
hcryp->Instance->DIN = tmp;
loopcounter++;
hcryp->CrypHeaderCount++;
while (loopcounter < 4U)
{
hcryp->Instance->DIN = 0x0U;
loopcounter++;
hcryp->CrypHeaderCount++;
}while (loopcounter < 4U) { ... }
}else { ... }
}else { ... }
/* ... */#else
if (headersize_in_bytes <= ((uint32_t)(hcryp->CrypHeaderCount) * 4U))
{
hcryp->Phase = CRYP_PHASE_PROCESS;
if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_GCMPH, CRYP_PHASE_PAYLOAD);
}if (hcryp->Init.Algorithm == CRYP_AES_GCM_GMAC) { ... }
if (hcryp->Init.Algorithm == CRYP_AES_CCM)
{
hcryp->CrypHeaderCount++;
}if (hcryp->Init.Algorithm == CRYP_AES_CCM) { ... }
if (hcryp->Size == 0U)
{
__HAL_CRYP_DISABLE_IT(hcryp, CRYP_IT_CCFIE | CRYP_IT_ERRIE);
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
}if (hcryp->Size == 0U) { ... }
else if (hcryp->Size >= 16U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
if ((hcryp->CrypInCount == (hcryp->Size / 4U)) && ((hcryp->Size % 16U) == 0U))
{
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->InCpltCallback(hcryp);/* ... */
#else
HAL_CRYP_InCpltCallback(hcryp);/* ... */
#endif
}if ((hcryp->CrypInCount == (hcryp->Size / 4U)) && ((hcryp->Size % 16U) == 0U)) { ... }
}else if (hcryp->Size >= 16U) { ... }
else
{
/* ... */
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (loopcounter = 0U; loopcounter < lastwordsize; loopcounter++) { ... }
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
}while (loopcounter < 4U) { ... }
}else { ... }
}if (headersize_in_bytes <= ((uint32_t)(hcryp->CrypHeaderCount) * 4U)) { ... }
else if (((headersize_in_bytes / 4U) - (hcryp->CrypHeaderCount)) >= 4U)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++;
}else if (((headersize_in_bytes / 4U) - (hcryp->CrypHeaderCount)) >= 4U) { ... }
else
{
for (loopcounter = 0U; loopcounter < ((headersize_in_bytes / 4U) % 4U); loopcounter++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
hcryp->CrypHeaderCount++ ;
}for (loopcounter = 0U; loopcounter < ((headersize_in_bytes / 4U) % 4U); loopcounter++) { ... }
if ((headersize_in_bytes % 4U) == 0U)
{
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
hcryp->CrypHeaderCount++;
}while (loopcounter < 4U) { ... }
}if ((headersize_in_bytes % 4U) == 0U) { ... }
else
{
tmp = *(uint32_t *)(hcryp->Init.Header + hcryp->CrypHeaderCount);
tmp &= mask[(hcryp->Init.DataType * 2U) + (headersize_in_bytes % 4U)];
hcryp->Instance->DINR = tmp;
loopcounter++;
hcryp->CrypHeaderCount++;
while (loopcounter < 4U)
{
hcryp->Instance->DINR = 0x0U;
loopcounter++;
hcryp->CrypHeaderCount++;
}while (loopcounter < 4U) { ... }
}else { ... }
}else { ... }
/* ... */#endif
}{ ... }
/* ... */
static void CRYP_Workaround(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t lastwordsize;
uint32_t npblb;
#if defined(CRYP)
uint32_t iv1temp;
uint32_t temp[4] = {0};
uint32_t temp2[4] = {0};/* ... */
#endif
uint32_t intermediate_data[4] = {0};
uint32_t index;
npblb = ((((uint32_t)(hcryp->Size) / 16U) + 1U) * 16U) - (uint32_t)(hcryp->Size);
if ((npblb % 4U) == 0U)
{
lastwordsize = (16U - npblb) / 4U;
}if ((npblb % 4U) == 0U) { ... }
else
{
lastwordsize = ((16U - npblb) / 4U) + 1U;
}else { ... }
#if defined(CRYP)
if (hcryp->Init.Algorithm == CRYP_AES_GCM)
{
if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_ENCRYPT)
{
/* ... */
__HAL_CRYP_DISABLE(hcryp);
hcryp->Instance->IV1RR = ((hcryp->Instance->CSGCMCCM7R) - 1U);
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_AES_CTR);
__HAL_CRYP_ENABLE(hcryp);
}if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_ENCRYPT) { ... }
for (index = 0; index < lastwordsize; index ++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (index = 0; index < lastwordsize; index ++) { ... }
while (index < 4U)
{
hcryp->Instance->DIN = 0U;
index++;
}while (index < 4U) { ... }
if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK) { ... }
if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U)
{
for (index = 0U; index < 4U; index++)
{
intermediate_data[index] = hcryp->Instance->DOUT;
*(uint32_t *)(hcryp->pCrypOutBuffPtr + (hcryp->CrypOutCount)) = intermediate_data[index];
hcryp->CrypOutCount++;
}for (index = 0U; index < 4U; index++) { ... }
}if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) { ... }
if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_ENCRYPT)
{
/* ... */
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_AES_GCM);
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_GCM_CCMPH, CRYP_PHASE_FINAL);
if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_32B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFFFF00U;
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFF0000U;
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= 0xFF000000U;
}if ((npblb % 4U) == 3U) { ... }
}if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_32B) { ... }
else if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_8B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFFFFFF00U);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFFFF0000U);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFF000000U);
}if ((npblb % 4U) == 3U) { ... }
}else if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_8B) { ... }
else if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_16B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFFFFFF00U), 16);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFFFF0000U), 16);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFF000000U), 16);
}if ((npblb % 4U) == 3U) { ... }
}else if ((hcryp->Instance->CR & CRYP_CR_DATATYPE) == CRYP_DATATYPE_16B) { ... }
else
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFFFFFF00U);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFFFF0000U);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFF000000U);
}if ((npblb % 4U) == 3U) { ... }
}else { ... }
for (index = 0U; index < lastwordsize; index ++)
{
hcryp->Instance->DIN = intermediate_data[index];
}for (index = 0U; index < lastwordsize; index ++) { ... }
while (index < 4U)
{
hcryp->Instance->DIN = 0x0U;
index++;
}while (index < 4U) { ... }
if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK) { ... }
if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U)
{
for (index = 0U; index < 4U; index++)
{
intermediate_data[index] = hcryp->Instance->DOUT;
}for (index = 0U; index < 4U; index++) { ... }
}if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) { ... }
}if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_ENCRYPT) { ... }
}if (hcryp->Init.Algorithm == CRYP_AES_GCM) { ... }
else
{
/* ... */
if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_DECRYPT)
{
iv1temp = hcryp->Instance->CSGCMCCM7R;
__HAL_CRYP_DISABLE(hcryp);
temp[0] = hcryp->Instance->CSGCMCCM0R;
temp[1] = hcryp->Instance->CSGCMCCM1R;
temp[2] = hcryp->Instance->CSGCMCCM2R;
temp[3] = hcryp->Instance->CSGCMCCM3R;
hcryp->Instance->IV1RR = iv1temp;
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_AES_CTR);
__HAL_CRYP_ENABLE(hcryp);
}if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_DECRYPT) { ... }
for (index = 0; index < lastwordsize; index ++)
{
hcryp->Instance->DIN = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (index = 0; index < lastwordsize; index ++) { ... }
while (index < 4U)
{
hcryp->Instance->DIN = 0U;
index++;
}while (index < 4U) { ... }
if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnOFNEFlag(hcryp, Timeout) != HAL_OK) { ... }
if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U)
{
for (index = 0U; index < 4U; index++)
{
intermediate_data[index] = hcryp->Instance->DOUT;
*(uint32_t *)(hcryp->pCrypOutBuffPtr + (hcryp->CrypOutCount)) = intermediate_data[index];
hcryp->CrypOutCount++;
}for (index = 0U; index < 4U; index++) { ... }
}if ((hcryp->Instance->SR & CRYP_FLAG_OFNE) != 0x0U) { ... }
if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_DECRYPT)
{
temp2[0] = hcryp->Instance->CSGCMCCM0R;
temp2[1] = hcryp->Instance->CSGCMCCM1R;
temp2[2] = hcryp->Instance->CSGCMCCM2R;
temp2[3] = hcryp->Instance->CSGCMCCM3R;
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_ALGOMODE, CRYP_AES_CCM);
MODIFY_REG(hcryp->Instance->CR, CRYP_CR_GCM_CCMPH, CRYP_PHASE_HEADER);
for (index = lastwordsize; index < 4U; index ++)
{
intermediate_data[index] = 0U;
}for (index = lastwordsize; index < 4U; index ++) { ... }
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFFFF00U;
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFF0000U;
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= 0xFF000000U;
}if ((npblb % 4U) == 3U) { ... }
for (index = 0U; index < 4U ; index ++)
{
intermediate_data[index] ^= temp[index];
intermediate_data[index] ^= temp2[index];
}for (index = 0U; index < 4U ; index ++) { ... }
for (index = 0U; index < 4U; index ++)
{
hcryp->Instance->DIN = intermediate_data[index] ;
}for (index = 0U; index < 4U; index ++) { ... }
if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnBUSYFlag(hcryp, Timeout) != HAL_OK) { ... }
}if ((hcryp->Instance->CR & CRYP_CR_ALGODIR) == CRYP_OPERATINGMODE_DECRYPT) { ... }
}else { ... }
__HAL_UNLOCK(hcryp);
/* ... */
#else
/* ... */
if ((hcryp->Instance->CR & AES_CR_MODE) == CRYP_OPERATINGMODE_ENCRYPT)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_CHMOD, CRYP_AES_CTR);
}if ((hcryp->Instance->CR & AES_CR_MODE) == CRYP_OPERATINGMODE_ENCRYPT) { ... }
for (index = 0U; index < lastwordsize; index ++)
{
hcryp->Instance->DINR = *(uint32_t *)(hcryp->pCrypInBuffPtr + hcryp->CrypInCount);
hcryp->CrypInCount++;
}for (index = 0U; index < lastwordsize; index ++) { ... }
while (index < 4U)
{
hcryp->Instance->DINR = 0U;
index++;
}while (index < 4U) { ... }
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
for (index = 0U; index < 4U; index++)
{
intermediate_data[index] = hcryp->Instance->DOUTR;
*(uint32_t *)(hcryp->pCrypOutBuffPtr + (hcryp->CrypOutCount)) = intermediate_data[index];
hcryp->CrypOutCount++;
}for (index = 0U; index < 4U; index++) { ... }
if ((hcryp->Instance->CR & AES_CR_MODE) == CRYP_OPERATINGMODE_ENCRYPT)
{
MODIFY_REG(hcryp->Instance->CR, AES_CR_CHMOD, CRYP_AES_GCM_GMAC);
MODIFY_REG(hcryp->Instance->CR, AES_CR_GCMPH, CRYP_PHASE_FINAL);
if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_32B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFFFF00U;
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= 0xFFFF0000U;
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= 0xFF000000U;
}if ((npblb % 4U) == 3U) { ... }
}if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_32B) { ... }
else if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_8B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFFFFFF00U);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFFFF0000U);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __REV(0xFF000000U);
}if ((npblb % 4U) == 3U) { ... }
}else if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_8B) { ... }
else if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_16B)
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFFFFFF00U), 16);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFFFF0000U), 16);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __ROR((0xFF000000U), 16);
}if ((npblb % 4U) == 3U) { ... }
}else if ((hcryp->Instance->CR & AES_CR_DATATYPE) == CRYP_DATATYPE_16B) { ... }
else
{
if ((npblb % 4U) == 1U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFFFFFF00U);
}if ((npblb % 4U) == 1U) { ... }
if ((npblb % 4U) == 2U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFFFF0000U);
}if ((npblb % 4U) == 2U) { ... }
if ((npblb % 4U) == 3U)
{
intermediate_data[lastwordsize - 1U] &= __RBIT(0xFF000000U);
}if ((npblb % 4U) == 3U) { ... }
}else { ... }
for (index = 0U; index < lastwordsize; index ++)
{
hcryp->Instance->DINR = intermediate_data[index];
}for (index = 0U; index < lastwordsize; index ++) { ... }
while (index < 4U)
{
hcryp->Instance->DINR = 0U;
index++;
}while (index < 4U) { ... }
if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK)
{
__HAL_CRYP_DISABLE(hcryp);
hcryp->ErrorCode |= HAL_CRYP_ERROR_TIMEOUT;
hcryp->State = HAL_CRYP_STATE_READY;
__HAL_UNLOCK(hcryp);
#if (USE_HAL_CRYP_REGISTER_CALLBACKS == 1U)
hcryp->ErrorCallback(hcryp);/* ... */
#else
HAL_CRYP_ErrorCallback(hcryp);/* ... */
#endif
}if (CRYP_WaitOnCCFlag(hcryp, Timeout) != HAL_OK) { ... }
__HAL_CRYP_CLEAR_FLAG(hcryp, CRYP_CCF_CLEAR);
for (index = 0U; index < 4U; index++)
{
intermediate_data[index] = hcryp->Instance->DOUTR;
}for (index = 0U; index < 4U; index++) { ... }
}if ((hcryp->Instance->CR & AES_CR_MODE) == CRYP_OPERATINGMODE_ENCRYPT) { ... }/* ... */
#endif
}{ ... }
#endif/* ... */
#if defined (CRYP)
#if defined (CRYP_CR_ALGOMODE_AES_GCM)
/* ... */
static HAL_StatusTypeDef CRYP_WaitOnIFEMFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
tickstart = HAL_GetTick();
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_IFEM))
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_IFEM)) { ... }
return HAL_OK;
}{ ... }
#endif/* ... */
/* ... */
static HAL_StatusTypeDef CRYP_WaitOnBUSYFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
tickstart = HAL_GetTick();
while (HAL_IS_BIT_SET(hcryp->Instance->SR, CRYP_FLAG_BUSY))
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while (HAL_IS_BIT_SET(hcryp->Instance->SR, CRYP_FLAG_BUSY)) { ... }
return HAL_OK;
}{ ... }
/* ... */
static HAL_StatusTypeDef CRYP_WaitOnOFNEFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
tickstart = HAL_GetTick();
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_OFNE))
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while (HAL_IS_BIT_CLR(hcryp->Instance->SR, CRYP_FLAG_OFNE)) { ... }
return HAL_OK;
}{ ... }
/* ... */#else
/* ... */
static HAL_StatusTypeDef CRYP_WaitOnCCFlag(CRYP_HandleTypeDef *hcryp, uint32_t Timeout)
{
uint32_t tickstart;
tickstart = HAL_GetTick();
while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF))
{
if (Timeout != HAL_MAX_DELAY)
{
if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U))
{
return HAL_ERROR;
}if (((HAL_GetTick() - tickstart) > Timeout) || (Timeout == 0U)) { ... }
}if (Timeout != HAL_MAX_DELAY) { ... }
}while (HAL_IS_BIT_CLR(hcryp->Instance->SR, AES_SR_CCF)) { ... }
return HAL_OK;
}CRYP_WaitOnCCFlag (CRYP_HandleTypeDef *hcryp, uint32_t Timeout) { ... }
/* ... */
#endif
/* ... */
/* ... */
/* ... */
/* ... */
#endif
/* ... */
/* ... */#endif
/* ... */