diff options
author | Paul Selkirk <paul@psgd.org> | 2015-10-26 15:18:58 -0400 |
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committer | Paul Selkirk <paul@psgd.org> | 2015-10-26 15:18:58 -0400 |
commit | 26f12903dab2fafeaaefb02349763618ce96d070 (patch) | |
tree | b37cceea7014770ea2ae039928e57b6f02c0aaa2 /Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c |
Based on user/ft/stm32-dev-bridge, without the project-specific build
directories (and duplicated code).
Diffstat (limited to 'Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c')
-rw-r--r-- | Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c | 1862 |
1 files changed, 1862 insertions, 0 deletions
diff --git a/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c b/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c new file mode 100644 index 0000000..fa1ca7b --- /dev/null +++ b/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_hal_hash.c @@ -0,0 +1,1862 @@ +/** + ****************************************************************************** + * @file stm32f4xx_hal_hash.c + * @author MCD Application Team + * @version V1.3.2 + * @date 26-June-2015 + * @brief HASH HAL module driver. + * This file provides firmware functions to manage the following + * functionalities of the HASH peripheral: + * + Initialization and de-initialization functions + * + HASH/HMAC Processing functions by algorithm using polling mode + * + HASH/HMAC functions by algorithm using interrupt mode + * + HASH/HMAC functions by algorithm using DMA mode + * + Peripheral State functions + * + @verbatim + ============================================================================== + ##### How to use this driver ##### + ============================================================================== + [..] + The HASH HAL driver can be used as follows: + (#)Initialize the HASH low level resources by implementing the HAL_HASH_MspInit(): + (##) Enable the HASH interface clock using __HAL_RCC_HASH_CLK_ENABLE() + (##) In case of using processing APIs based on interrupts (e.g. HAL_HMAC_SHA1_Start_IT()) + (+++) Configure the HASH interrupt priority using HAL_NVIC_SetPriority() + (+++) Enable the HASH IRQ handler using HAL_NVIC_EnableIRQ() + (+++) In HASH IRQ handler, call HAL_HASH_IRQHandler() + (##) In case of using DMA to control data transfer (e.g. HAL_HMAC_SHA1_Start_DMA()) + (+++) Enable the DMAx interface clock using __DMAx_CLK_ENABLE() + (+++) Configure and enable one DMA stream one for managing data transfer from + memory to peripheral (input stream). Managing data transfer from + peripheral to memory can be performed only using CPU + (+++) Associate the initialized DMA handle to the HASH DMA handle + using __HAL_LINKDMA() + (+++) Configure the priority and enable the NVIC for the transfer complete + interrupt on the DMA Stream using HAL_NVIC_SetPriority() and HAL_NVIC_EnableIRQ() + (#)Initialize the HASH HAL using HAL_HASH_Init(). This function configures mainly: + (##) The data type: 1-bit, 8-bit, 16-bit and 32-bit. + (##) For HMAC, the encryption key. + (##) For HMAC, the key size used for encryption. + (#)Three processing functions are available: + (##) Polling mode: processing APIs are blocking functions + i.e. they process the data and wait till the digest computation is finished + e.g. HAL_HASH_SHA1_Start() + (##) Interrupt mode: encryption and decryption APIs are not blocking functions + i.e. they process the data under interrupt + e.g. HAL_HASH_SHA1_Start_IT() + (##) DMA mode: processing APIs are not blocking functions and the CPU is + not used for data transfer i.e. the data transfer is ensured by DMA + e.g. HAL_HASH_SHA1_Start_DMA() + (#)When the processing function is called at first time after HAL_HASH_Init() + the HASH peripheral is initialized and processes the buffer in input. + After that, the digest computation is started. + When processing multi-buffer use the accumulate function to write the + data in the peripheral without starting the digest computation. In last + buffer use the start function to input the last buffer ans start the digest + computation. + (##) e.g. HAL_HASH_SHA1_Accumulate() : write 1st data buffer in the peripheral without starting the digest computation + (##) write (n-1)th data buffer in the peripheral without starting the digest computation + (##) HAL_HASH_SHA1_Start() : write (n)th data buffer in the peripheral and start the digest computation + (#)In HMAC mode, there is no Accumulate API. Only Start API is available. + (#)In case of using DMA, call the DMA start processing e.g. HAL_HASH_SHA1_Start_DMA(). + After that, call the finish function in order to get the digest value + e.g. HAL_HASH_SHA1_Finish() + (#)Call HAL_HASH_DeInit() to deinitialize the HASH peripheral. + + @endverbatim + ****************************************************************************** + * @attention + * + * <h2><center>© COPYRIGHT(c) 2015 STMicroelectronics</center></h2> + * + * Redistribution and use in source and binary forms, with or without modification, + * are permitted provided that the following conditions are met: + * 1. Redistributions of source code must retain the above copyright notice, + * this list of conditions and the following disclaimer. + * 2. Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following disclaimer in the documentation + * and/or other materials provided with the distribution. + * 3. Neither the name of STMicroelectronics nor the names of its contributors + * may be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" + * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE + * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE + * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE + * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL + * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR + * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER + * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, + * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + * + ****************************************************************************** + */ + +/* Includes ------------------------------------------------------------------*/ +#include "stm32f4xx_hal.h" + +/** @addtogroup STM32F4xx_HAL_Driver + * @{ + */ + +/** @defgroup HASH HASH + * @brief HASH HAL module driver. + * @{ + */ + +#ifdef HAL_HASH_MODULE_ENABLED + +#if defined(STM32F415xx) || defined(STM32F417xx) || defined(STM32F437xx) || defined(STM32F439xx) + +/* Private typedef -----------------------------------------------------------*/ +/* Private define ------------------------------------------------------------*/ +/* Private macro -------------------------------------------------------------*/ +/* Private variables ---------------------------------------------------------*/ +/* Private function prototypes -----------------------------------------------*/ +/** @defgroup HASH_Private_Functions HASH Private Functions + * @{ + */ +static void HASH_DMAXferCplt(DMA_HandleTypeDef *hdma); +static void HASH_DMAError(DMA_HandleTypeDef *hdma); +static void HASH_GetDigest(uint8_t *pMsgDigest, uint8_t Size); +static void HASH_WriteData(uint8_t *pInBuffer, uint32_t Size); +/** + * @} + */ + +/* Private functions ---------------------------------------------------------*/ +/** @addtogroup HASH_Private_Functions + * @{ + */ + +/** + * @brief DMA HASH Input Data complete callback. + * @param hdma: DMA handle + * @retval None + */ +static void HASH_DMAXferCplt(DMA_HandleTypeDef *hdma) +{ + HASH_HandleTypeDef* hhash = ( HASH_HandleTypeDef* )((DMA_HandleTypeDef* )hdma)->Parent; + uint32_t inputaddr = 0; + uint32_t buffersize = 0; + + if((HASH->CR & HASH_CR_MODE) != HASH_CR_MODE) + { + /* Disable the DMA transfer */ + HASH->CR &= (uint32_t)(~HASH_CR_DMAE); + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Call Input data transfer complete callback */ + HAL_HASH_InCpltCallback(hhash); + } + else + { + /* Increment Interrupt counter */ + hhash->HashInCount++; + /* Disable the DMA transfer before starting the next transfer */ + HASH->CR &= (uint32_t)(~HASH_CR_DMAE); + + if(hhash->HashInCount <= 2) + { + /* In case HashInCount = 1, set the DMA to transfer data to HASH DIN register */ + if(hhash->HashInCount == 1) + { + inputaddr = (uint32_t)hhash->pHashInBuffPtr; + buffersize = hhash->HashBuffSize; + } + /* In case HashInCount = 2, set the DMA to transfer key to HASH DIN register */ + else if(hhash->HashInCount == 2) + { + inputaddr = (uint32_t)hhash->Init.pKey; + buffersize = hhash->Init.KeySize; + } + /* Configure the number of valid bits in last word of the message */ + MODIFY_REG(HASH->STR, HASH_STR_NBLW, 8 * (buffersize % 4)); + + /* Set the HASH DMA transfer complete */ + hhash->hdmain->XferCpltCallback = HASH_DMAXferCplt; + + /* Enable the DMA In DMA Stream */ + HAL_DMA_Start_IT(hhash->hdmain, inputaddr, (uint32_t)&HASH->DIN, (buffersize%4 ? (buffersize+3)/4:buffersize/4)); + + /* Enable DMA requests */ + HASH->CR |= (HASH_CR_DMAE); + } + else + { + /* Disable the DMA transfer */ + HASH->CR &= (uint32_t)(~HASH_CR_DMAE); + + /* Reset the InCount */ + hhash->HashInCount = 0; + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Call Input data transfer complete callback */ + HAL_HASH_InCpltCallback(hhash); + } + } +} + +/** + * @brief DMA HASH communication error callback. + * @param hdma: DMA handle + * @retval None + */ +static void HASH_DMAError(DMA_HandleTypeDef *hdma) +{ + HASH_HandleTypeDef* hhash = ( HASH_HandleTypeDef* )((DMA_HandleTypeDef* )hdma)->Parent; + hhash->State= HAL_HASH_STATE_READY; + HAL_HASH_ErrorCallback(hhash); +} + +/** + * @brief Writes the input buffer in data register. + * @param pInBuffer: Pointer to input buffer + * @param Size: The size of input buffer + * @retval None + */ +static void HASH_WriteData(uint8_t *pInBuffer, uint32_t Size) +{ + uint32_t buffercounter; + uint32_t inputaddr = (uint32_t) pInBuffer; + + for(buffercounter = 0; buffercounter < Size; buffercounter+=4) + { + HASH->DIN = *(uint32_t*)inputaddr; + inputaddr+=4; + } +} + +/** + * @brief Provides the message digest result. + * @param pMsgDigest: Pointer to the message digest + * @param Size: The size of the message digest in bytes + * @retval None + */ +static void HASH_GetDigest(uint8_t *pMsgDigest, uint8_t Size) +{ + uint32_t msgdigest = (uint32_t)pMsgDigest; + + switch(Size) + { + case 16: + /* Read the message digest */ + *(uint32_t*)(msgdigest) = __REV(HASH->HR[0]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[1]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[2]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[3]); + break; + case 20: + /* Read the message digest */ + *(uint32_t*)(msgdigest) = __REV(HASH->HR[0]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[1]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[2]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[3]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[4]); + break; + case 28: + /* Read the message digest */ + *(uint32_t*)(msgdigest) = __REV(HASH->HR[0]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[1]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[2]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[3]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[4]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH_DIGEST->HR[5]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH_DIGEST->HR[6]); + break; + case 32: + /* Read the message digest */ + *(uint32_t*)(msgdigest) = __REV(HASH->HR[0]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[1]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[2]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[3]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH->HR[4]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH_DIGEST->HR[5]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH_DIGEST->HR[6]); + msgdigest+=4; + *(uint32_t*)(msgdigest) = __REV(HASH_DIGEST->HR[7]); + break; + default: + break; + } +} + +/** + * @} + */ + +/* Exported functions --------------------------------------------------------*/ +/** @addtogroup HASH_Exported_Functions + * @{ + */ + + +/** @addtogroup HASH_Exported_Functions_Group1 Initialization and de-initialization functions + * @brief Initialization and Configuration functions. + * +@verbatim + =============================================================================== + ##### Initialization and de-initialization functions ##### + =============================================================================== + [..] This section provides functions allowing to: + (+) Initialize the HASH according to the specified parameters + in the HASH_InitTypeDef and creates the associated handle. + (+) DeInitialize the HASH peripheral. + (+) Initialize the HASH MSP. + (+) DeInitialize HASH MSP. + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH according to the specified parameters in the + HASH_HandleTypeDef and creates the associated handle. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_Init(HASH_HandleTypeDef *hhash) +{ + /* Check the hash handle allocation */ + if(hhash == NULL) + { + return HAL_ERROR; + } + + /* Check the parameters */ + assert_param(IS_HASH_DATATYPE(hhash->Init.DataType)); + + if(hhash->State == HAL_HASH_STATE_RESET) + { + /* Allocate lock resource and initialize it */ + hhash->Lock = HAL_UNLOCKED; + /* Init the low level hardware */ + HAL_HASH_MspInit(hhash); + } + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Reset HashInCount, HashBuffSize and HashITCounter */ + hhash->HashInCount = 0; + hhash->HashBuffSize = 0; + hhash->HashITCounter = 0; + + /* Set the data type */ + HASH->CR |= (uint32_t) (hhash->Init.DataType); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Set the default HASH phase */ + hhash->Phase = HAL_HASH_PHASE_READY; + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief DeInitializes the HASH peripheral. + * @note This API must be called before starting a new processing. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_DeInit(HASH_HandleTypeDef *hhash) +{ + /* Check the HASH handle allocation */ + if(hhash == NULL) + { + return HAL_ERROR; + } + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Set the default HASH phase */ + hhash->Phase = HAL_HASH_PHASE_READY; + + /* Reset HashInCount, HashBuffSize and HashITCounter */ + hhash->HashInCount = 0; + hhash->HashBuffSize = 0; + hhash->HashITCounter = 0; + + /* DeInit the low level hardware */ + HAL_HASH_MspDeInit(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_RESET; + + /* Release Lock */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH MSP. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ +__weak void HAL_HASH_MspInit(HASH_HandleTypeDef *hhash) +{ + /* NOTE: This function Should not be modified, when the callback is needed, + the HAL_HASH_MspInit could be implemented in the user file + */ +} + +/** + * @brief DeInitializes HASH MSP. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ +__weak void HAL_HASH_MspDeInit(HASH_HandleTypeDef *hhash) +{ + /* NOTE: This function Should not be modified, when the callback is needed, + the HAL_HASH_MspDeInit could be implemented in the user file + */ +} + +/** + * @brief Input data transfer complete callback. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ + __weak void HAL_HASH_InCpltCallback(HASH_HandleTypeDef *hhash) +{ + /* NOTE: This function Should not be modified, when the callback is needed, + the HAL_HASH_InCpltCallback could be implemented in the user file + */ +} + +/** + * @brief Data transfer Error callback. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ + __weak void HAL_HASH_ErrorCallback(HASH_HandleTypeDef *hhash) +{ + /* NOTE: This function Should not be modified, when the callback is needed, + the HAL_HASH_ErrorCallback could be implemented in the user file + */ +} + +/** + * @brief Digest computation complete callback. It is used only with interrupt. + * @note This callback is not relevant with DMA. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ + __weak void HAL_HASH_DgstCpltCallback(HASH_HandleTypeDef *hhash) +{ + /* NOTE: This function Should not be modified, when the callback is needed, + the HAL_HASH_DgstCpltCallback could be implemented in the user file + */ +} + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group2 HASH processing functions using polling mode + * @brief processing functions using polling mode + * +@verbatim + =============================================================================== + ##### HASH processing using polling mode functions##### + =============================================================================== + [..] This section provides functions allowing to calculate in polling mode + the hash value using one of the following algorithms: + (+) MD5 + (+) SHA1 + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH peripheral in MD5 mode then processes pInBuffer. + The digest is available in pOutBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is multiple of 64 bytes, appending the input buffer is possible. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware + * and appending the input buffer is no more possible. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 16 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_MD5_Start(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the MD5 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_MD5 | HASH_CR_INIT; + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 16); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in MD5 mode then writes the pInBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is multiple of 64 bytes, appending the input buffer is possible. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware + * and appending the input buffer is no more possible. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_MD5_Accumulate(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the MD5 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_MD5 | HASH_CR_INIT; + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in SHA1 mode then processes pInBuffer. + The digest is available in pOutBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 20 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_SHA1_Start(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the SHA1 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_SHA1 | HASH_CR_INIT; + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 20); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in SHA1 mode then processes pInBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @note Input buffer size in bytes must be a multiple of 4 otherwise the digest computation is corrupted. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_SHA1_Accumulate(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + + /* Check the parameters */ + assert_param(IS_HASH_SHA1_BUFFER_SIZE(Size)); + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the SHA1 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_SHA1 | HASH_CR_INIT; + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group3 HASH processing functions using interrupt mode + * @brief processing functions using interrupt mode. + * +@verbatim + =============================================================================== + ##### HASH processing using interrupt mode functions ##### + =============================================================================== + [..] This section provides functions allowing to calculate in interrupt mode + the hash value using one of the following algorithms: + (+) MD5 + (+) SHA1 + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH peripheral in MD5 mode then processes pInBuffer. + * The digest is available in pOutBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 16 bytes. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_MD5_Start_IT(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer) +{ + uint32_t inputaddr; + uint32_t outputaddr; + uint32_t buffercounter; + uint32_t inputcounter; + + /* Process Locked */ + __HAL_LOCK(hhash); + + if(hhash->State == HAL_HASH_STATE_READY) + { + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + hhash->HashInCount = Size; + hhash->pHashInBuffPtr = pInBuffer; + hhash->pHashOutBuffPtr = pOutBuffer; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the SHA1 mode */ + HASH->CR |= HASH_ALGOSELECTION_MD5; + /* Reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_CR_INIT; + } + /* Reset interrupt counter */ + hhash->HashITCounter = 0; + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Enable Interrupts */ + HASH->IMR = (HASH_IT_DINI | HASH_IT_DCI); + + /* Return function status */ + return HAL_OK; + } + if(__HAL_HASH_GET_FLAG(HASH_FLAG_DCIS)) + { + outputaddr = (uint32_t)hhash->pHashOutBuffPtr; + /* Read the Output block from the Output FIFO */ + *(uint32_t*)(outputaddr) = __REV(HASH->HR[0]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[1]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[2]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[3]); + + if(hhash->HashInCount == 0) + { + /* Disable Interrupts */ + HASH->IMR = 0; + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + /* Call digest computation complete callback */ + HAL_HASH_DgstCpltCallback(hhash); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; + } + } + if(__HAL_HASH_GET_FLAG(HASH_FLAG_DINIS)) + { + if(hhash->HashInCount >= 68) + { + inputaddr = (uint32_t)hhash->pHashInBuffPtr; + /* Write the Input block in the Data IN register */ + for(buffercounter = 0; buffercounter < 64; buffercounter+=4) + { + HASH->DIN = *(uint32_t*)inputaddr; + inputaddr+=4; + } + if(hhash->HashITCounter == 0) + { + HASH->DIN = *(uint32_t*)inputaddr; + + if(hhash->HashInCount >= 68) + { + /* Decrement buffer counter */ + hhash->HashInCount -= 68; + hhash->pHashInBuffPtr+= 68; + } + else + { + hhash->HashInCount = 0; + hhash->pHashInBuffPtr+= hhash->HashInCount; + } + /* Set Interrupt counter */ + hhash->HashITCounter = 1; + } + else + { + /* Decrement buffer counter */ + hhash->HashInCount -= 64; + hhash->pHashInBuffPtr+= 64; + } + } + else + { + /* Get the buffer address */ + inputaddr = (uint32_t)hhash->pHashInBuffPtr; + /* Get the buffer counter */ + inputcounter = hhash->HashInCount; + /* Disable Interrupts */ + HASH->IMR &= ~(HASH_IT_DINI); + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(inputcounter); + + if((inputcounter > 4) && (inputcounter%4)) + { + inputcounter = (inputcounter+4-inputcounter%4); + } + else if ((inputcounter < 4) && (inputcounter != 0)) + { + inputcounter = 4; + } + /* Write the Input block in the Data IN register */ + for(buffercounter = 0; buffercounter < inputcounter/4; buffercounter++) + { + HASH->DIN = *(uint32_t*)inputaddr; + inputaddr+=4; + } + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + /* Reset buffer counter */ + hhash->HashInCount = 0; + + /* Call Input data transfer complete callback */ + HAL_HASH_InCpltCallback(hhash); + } + } + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in SHA1 mode then processes pInBuffer. + * The digest is available in pOutBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 20 bytes. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_SHA1_Start_IT(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer) +{ + uint32_t inputaddr; + uint32_t outputaddr; + uint32_t buffercounter; + uint32_t inputcounter; + + /* Process Locked */ + __HAL_LOCK(hhash); + + if(hhash->State == HAL_HASH_STATE_READY) + { + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + hhash->HashInCount = Size; + hhash->pHashInBuffPtr = pInBuffer; + hhash->pHashOutBuffPtr = pOutBuffer; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the SHA1 mode */ + HASH->CR |= HASH_ALGOSELECTION_SHA1; + /* Reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_CR_INIT; + } + + /* Reset interrupt counter */ + hhash->HashITCounter = 0; + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Enable Interrupts */ + HASH->IMR = (HASH_IT_DINI | HASH_IT_DCI); + + /* Return function status */ + return HAL_OK; + } + if(__HAL_HASH_GET_FLAG(HASH_FLAG_DCIS)) + { + outputaddr = (uint32_t)hhash->pHashOutBuffPtr; + /* Read the Output block from the Output FIFO */ + *(uint32_t*)(outputaddr) = __REV(HASH->HR[0]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[1]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[2]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[3]); + outputaddr+=4; + *(uint32_t*)(outputaddr) = __REV(HASH->HR[4]); + if(hhash->HashInCount == 0) + { + /* Disable Interrupts */ + HASH->IMR = 0; + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + /* Call digest computation complete callback */ + HAL_HASH_DgstCpltCallback(hhash); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; + } + } + if(__HAL_HASH_GET_FLAG(HASH_FLAG_DINIS)) + { + if(hhash->HashInCount >= 68) + { + inputaddr = (uint32_t)hhash->pHashInBuffPtr; + /* Write the Input block in the Data IN register */ + for(buffercounter = 0; buffercounter < 64; buffercounter+=4) + { + HASH->DIN = *(uint32_t*)inputaddr; + inputaddr+=4; + } + if(hhash->HashITCounter == 0) + { + HASH->DIN = *(uint32_t*)inputaddr; + if(hhash->HashInCount >= 68) + { + /* Decrement buffer counter */ + hhash->HashInCount -= 68; + hhash->pHashInBuffPtr+= 68; + } + else + { + hhash->HashInCount = 0; + hhash->pHashInBuffPtr+= hhash->HashInCount; + } + /* Set Interrupt counter */ + hhash->HashITCounter = 1; + } + else + { + /* Decrement buffer counter */ + hhash->HashInCount -= 64; + hhash->pHashInBuffPtr+= 64; + } + } + else + { + /* Get the buffer address */ + inputaddr = (uint32_t)hhash->pHashInBuffPtr; + /* Get the buffer counter */ + inputcounter = hhash->HashInCount; + /* Disable Interrupts */ + HASH->IMR &= ~(HASH_IT_DINI); + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(inputcounter); + + if((inputcounter > 4) && (inputcounter%4)) + { + inputcounter = (inputcounter+4-inputcounter%4); + } + else if ((inputcounter < 4) && (inputcounter != 0)) + { + inputcounter = 4; + } + /* Write the Input block in the Data IN register */ + for(buffercounter = 0; buffercounter < inputcounter/4; buffercounter++) + { + HASH->DIN = *(uint32_t*)inputaddr; + inputaddr+=4; + } + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + /* Reset buffer counter */ + hhash->HashInCount = 0; + + /* Call Input data transfer complete callback */ + HAL_HASH_InCpltCallback(hhash); + } + } + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief This function handles HASH interrupt request. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval None + */ +void HAL_HASH_IRQHandler(HASH_HandleTypeDef *hhash) +{ + switch(HASH->CR & HASH_CR_ALGO) + { + case HASH_ALGOSELECTION_MD5: + HAL_HASH_MD5_Start_IT(hhash, NULL, 0, NULL); + break; + + case HASH_ALGOSELECTION_SHA1: + HAL_HASH_SHA1_Start_IT(hhash, NULL, 0, NULL); + break; + + default: + break; + } +} + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group4 HASH processing functions using DMA mode + * @brief processing functions using DMA mode. + * +@verbatim + =============================================================================== + ##### HASH processing using DMA mode functions ##### + =============================================================================== + [..] This section provides functions allowing to calculate in DMA mode + the hash value using one of the following algorithms: + (+) MD5 + (+) SHA1 + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH peripheral in MD5 mode then enables DMA to + control data transfer. Use HAL_HASH_MD5_Finish() to get the digest. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_MD5_Start_DMA(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + uint32_t inputaddr = (uint32_t)pInBuffer; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the MD5 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_MD5 | HASH_CR_INIT; + } + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Set the HASH DMA transfer complete callback */ + hhash->hdmain->XferCpltCallback = HASH_DMAXferCplt; + /* Set the DMA error callback */ + hhash->hdmain->XferErrorCallback = HASH_DMAError; + + /* Enable the DMA In DMA Stream */ + HAL_DMA_Start_IT(hhash->hdmain, inputaddr, (uint32_t)&HASH->DIN, (Size%4 ? (Size+3)/4:Size/4)); + + /* Enable DMA requests */ + HASH->CR |= (HASH_CR_DMAE); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Returns the computed digest in MD5 mode + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pOutBuffer: Pointer to the computed digest. Its size must be 16 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_MD5_Finish(HASH_HandleTypeDef *hhash, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_CLR(HASH->SR, HASH_FLAG_DCIS)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 16); + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in SHA1 mode then enables DMA to + control data transfer. Use HAL_HASH_SHA1_Finish() to get the digest. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_SHA1_Start_DMA(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + uint32_t inputaddr = (uint32_t)pInBuffer; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Select the SHA1 mode and reset the HASH processor core, so that the HASH will be ready to compute + the message digest of a new message */ + HASH->CR |= HASH_ALGOSELECTION_SHA1; + HASH->CR |= HASH_CR_INIT; + } + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Set the HASH DMA transfer complete callback */ + hhash->hdmain->XferCpltCallback = HASH_DMAXferCplt; + /* Set the DMA error callback */ + hhash->hdmain->XferErrorCallback = HASH_DMAError; + + /* Enable the DMA In DMA Stream */ + HAL_DMA_Start_IT(hhash->hdmain, inputaddr, (uint32_t)&HASH->DIN, (Size%4 ? (Size+3)/4:Size/4)); + + /* Enable DMA requests */ + HASH->CR |= (HASH_CR_DMAE); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Returns the computed digest in SHA1 mode. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pOutBuffer: Pointer to the computed digest. Its size must be 20 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HASH_SHA1_Finish(HASH_HandleTypeDef *hhash, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Get tick */ + tickstart = HAL_GetTick(); + while(HAL_IS_BIT_CLR(HASH->SR, HASH_FLAG_DCIS)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 20); + + /* Change HASH peripheral state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process UnLock */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group5 HASH-MAC (HMAC) processing functions using polling mode + * @brief HMAC processing functions using polling mode . + * +@verbatim + =============================================================================== + ##### HMAC processing using polling mode functions ##### + =============================================================================== + [..] This section provides functions allowing to calculate in polling mode + the HMAC value using one of the following algorithms: + (+) MD5 + (+) SHA1 + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH peripheral in HMAC MD5 mode + * then processes pInBuffer. The digest is available in pOutBuffer + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 20 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HMAC_MD5_Start(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Check if key size is greater than 64 bytes */ + if(hhash->Init.KeySize > 64) + { + /* Select the HMAC MD5 mode */ + HASH->CR |= (HASH_ALGOSELECTION_MD5 | HASH_ALGOMODE_HMAC | HASH_HMAC_KEYTYPE_LONGKEY | HASH_CR_INIT); + } + else + { + /* Select the HMAC MD5 mode */ + HASH->CR |= (HASH_ALGOSELECTION_MD5 | HASH_ALGOMODE_HMAC | HASH_CR_INIT); + } + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /************************** STEP 1 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Write input buffer in data register */ + HASH_WriteData(hhash->Init.pKey, hhash->Init.KeySize); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + /************************** STEP 2 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((HAL_GetTick() - tickstart ) > Timeout) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + /************************** STEP 3 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Write input buffer in data register */ + HASH_WriteData(hhash->Init.pKey, hhash->Init.KeySize); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((HAL_GetTick() - tickstart ) > Timeout) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 16); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in HMAC SHA1 mode + * then processes pInBuffer. The digest is available in pOutBuffer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @param pOutBuffer: Pointer to the computed digest. Its size must be 20 bytes. + * @param Timeout: Timeout value + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HMAC_SHA1_Start(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size, uint8_t* pOutBuffer, uint32_t Timeout) +{ + uint32_t tickstart = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Check if key size is greater than 64 bytes */ + if(hhash->Init.KeySize > 64) + { + /* Select the HMAC SHA1 mode */ + HASH->CR |= (HASH_ALGOSELECTION_SHA1 | HASH_ALGOMODE_HMAC | HASH_HMAC_KEYTYPE_LONGKEY | HASH_CR_INIT); + } + else + { + /* Select the HMAC SHA1 mode */ + HASH->CR |= (HASH_ALGOSELECTION_SHA1 | HASH_ALGOMODE_HMAC | HASH_CR_INIT); + } + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /************************** STEP 1 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Write input buffer in data register */ + HASH_WriteData(hhash->Init.pKey, hhash->Init.KeySize); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout)) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + /************************** STEP 2 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(Size); + + /* Write input buffer in data register */ + HASH_WriteData(pInBuffer, Size); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((HAL_GetTick() - tickstart ) > Timeout) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + /************************** STEP 3 ******************************************/ + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Write input buffer in data register */ + HASH_WriteData(hhash->Init.pKey, hhash->Init.KeySize); + + /* Start the digest calculation */ + __HAL_HASH_START_DIGEST(); + + /* Get tick */ + tickstart = HAL_GetTick(); + + while(HAL_IS_BIT_SET(HASH->SR, HASH_FLAG_BUSY)) + { + /* Check for the Timeout */ + if(Timeout != HAL_MAX_DELAY) + { + if((HAL_GetTick() - tickstart ) > Timeout) + { + /* Change state */ + hhash->State = HAL_HASH_STATE_TIMEOUT; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + return HAL_TIMEOUT; + } + } + } + /* Read the message digest */ + HASH_GetDigest(pOutBuffer, 20); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_READY; + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group6 HASH-MAC (HMAC) processing functions using DMA mode + * @brief HMAC processing functions using DMA mode . + * +@verbatim + =============================================================================== + ##### HMAC processing using DMA mode functions ##### + =============================================================================== + [..] This section provides functions allowing to calculate in DMA mode + the HMAC value using one of the following algorithms: + (+) MD5 + (+) SHA1 + +@endverbatim + * @{ + */ + +/** + * @brief Initializes the HASH peripheral in HMAC MD5 mode + * then enables DMA to control data transfer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HMAC_MD5_Start_DMA(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + uint32_t inputaddr = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Save buffer pointer and size in handle */ + hhash->pHashInBuffPtr = pInBuffer; + hhash->HashBuffSize = Size; + hhash->HashInCount = 0; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Check if key size is greater than 64 bytes */ + if(hhash->Init.KeySize > 64) + { + /* Select the HMAC MD5 mode */ + HASH->CR |= (HASH_ALGOSELECTION_MD5 | HASH_ALGOMODE_HMAC | HASH_HMAC_KEYTYPE_LONGKEY | HASH_CR_INIT); + } + else + { + /* Select the HMAC MD5 mode */ + HASH->CR |= (HASH_ALGOSELECTION_MD5 | HASH_ALGOMODE_HMAC | HASH_CR_INIT); + } + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Get the key address */ + inputaddr = (uint32_t)(hhash->Init.pKey); + + /* Set the HASH DMA transfer complete callback */ + hhash->hdmain->XferCpltCallback = HASH_DMAXferCplt; + /* Set the DMA error callback */ + hhash->hdmain->XferErrorCallback = HASH_DMAError; + + /* Enable the DMA In DMA Stream */ + HAL_DMA_Start_IT(hhash->hdmain, inputaddr, (uint32_t)&HASH->DIN, (hhash->Init.KeySize%4 ? (hhash->Init.KeySize+3)/4:hhash->Init.KeySize/4)); + /* Enable DMA requests */ + HASH->CR |= (HASH_CR_DMAE); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @brief Initializes the HASH peripheral in HMAC SHA1 mode + * then enables DMA to control data transfer. + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @param pInBuffer: Pointer to the input buffer (buffer to be hashed). + * @param Size: Length of the input buffer in bytes. + * If the Size is not multiple of 64 bytes, the padding is managed by hardware. + * @retval HAL status + */ +HAL_StatusTypeDef HAL_HMAC_SHA1_Start_DMA(HASH_HandleTypeDef *hhash, uint8_t *pInBuffer, uint32_t Size) +{ + uint32_t inputaddr = 0; + + /* Process Locked */ + __HAL_LOCK(hhash); + + /* Change the HASH state */ + hhash->State = HAL_HASH_STATE_BUSY; + + /* Save buffer pointer and size in handle */ + hhash->pHashInBuffPtr = pInBuffer; + hhash->HashBuffSize = Size; + hhash->HashInCount = 0; + + /* Check if initialization phase has already been performed */ + if(hhash->Phase == HAL_HASH_PHASE_READY) + { + /* Check if key size is greater than 64 bytes */ + if(hhash->Init.KeySize > 64) + { + /* Select the HMAC SHA1 mode */ + HASH->CR |= (HASH_ALGOSELECTION_SHA1 | HASH_ALGOMODE_HMAC | HASH_HMAC_KEYTYPE_LONGKEY | HASH_CR_INIT); + } + else + { + /* Select the HMAC SHA1 mode */ + HASH->CR |= (HASH_ALGOSELECTION_SHA1 | HASH_ALGOMODE_HMAC | HASH_CR_INIT); + } + } + + /* Set the phase */ + hhash->Phase = HAL_HASH_PHASE_PROCESS; + + /* Configure the number of valid bits in last word of the message */ + __HAL_HASH_SET_NBVALIDBITS(hhash->Init.KeySize); + + /* Get the key address */ + inputaddr = (uint32_t)(hhash->Init.pKey); + + /* Set the HASH DMA transfer complete callback */ + hhash->hdmain->XferCpltCallback = HASH_DMAXferCplt; + /* Set the DMA error callback */ + hhash->hdmain->XferErrorCallback = HASH_DMAError; + + /* Enable the DMA In DMA Stream */ + HAL_DMA_Start_IT(hhash->hdmain, inputaddr, (uint32_t)&HASH->DIN, (hhash->Init.KeySize%4 ? (hhash->Init.KeySize+3)/4:hhash->Init.KeySize/4)); + /* Enable DMA requests */ + HASH->CR |= (HASH_CR_DMAE); + + /* Process Unlocked */ + __HAL_UNLOCK(hhash); + + /* Return function status */ + return HAL_OK; +} + +/** + * @} + */ + +/** @defgroup HASH_Exported_Functions_Group7 Peripheral State functions + * @brief Peripheral State functions. + * +@verbatim + =============================================================================== + ##### Peripheral State functions ##### + =============================================================================== + [..] + This subsection permits to get in run-time the status of the peripheral. + +@endverbatim + * @{ + */ + +/** + * @brief return the HASH state + * @param hhash: pointer to a HASH_HandleTypeDef structure that contains + * the configuration information for HASH module + * @retval HAL state + */ +HAL_HASH_STATETypeDef HAL_HASH_GetState(HASH_HandleTypeDef *hhash) +{ + return hhash->State; +} + +/** + * @} + */ + +/** + * @} + */ + +#endif /* STM32F415xx || STM32F417xx || STM32F437xx || STM32F439xx */ +#endif /* HAL_HASH_MODULE_ENABLED */ +/** + * @} + */ + +/** + * @} + */ + +/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/ |