ref: a10d303e7c2d5f961c6b7ad5421cef5daf307fea
dir: /demos/stm32f429_disco/stm/stm32f4_spl/src/stm32f4xx_cryp_des.c/
/** ****************************************************************************** * @file stm32f4xx_cryp_des.c * @author MCD Application Team * @version V1.3.0 * @date 08-November-2013 * @brief This file provides high level functions to encrypt and decrypt an * input message using DES in ECB/CBC modes. * It uses the stm32f4xx_cryp.c/.h drivers to access the STM32F4xx CRYP * peripheral. * @verbatim =================================================================== ##### How to use this driver ##### =================================================================== [..] (#) Enable The CRYP controller clock using RCC_AHB2PeriphClockCmd(RCC_AHB2Periph_CRYP, ENABLE); function. (#) Encrypt and decrypt using DES in ECB Mode using CRYP_DES_ECB() function. (#) Encrypt and decrypt using DES in CBC Mode using CRYP_DES_CBC() function. @endverbatim * ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT 2013 STMicroelectronics</center></h2> * * Licensed under MCD-ST Liberty SW License Agreement V2, (the "License"); * You may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.st.com/software_license_agreement_liberty_v2 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm32f4xx_cryp.h" /** @addtogroup STM32F4xx_StdPeriph_Driver * @{ */ /** @defgroup CRYP * @brief CRYP driver modules * @{ */ /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ #define DESBUSY_TIMEOUT ((uint32_t) 0x00010000) /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ /* Private functions ---------------------------------------------------------*/ /** @defgroup CRYP_Private_Functions * @{ */ /** @defgroup CRYP_Group8 High Level DES functions * @brief High Level DES functions * @verbatim =============================================================================== ##### High Level DES functions ##### =============================================================================== @endverbatim * @{ */ /** * @brief Encrypt and decrypt using DES in ECB Mode * @param Mode: encryption or decryption Mode. * This parameter can be one of the following values: * @arg MODE_ENCRYPT: Encryption * @arg MODE_DECRYPT: Decryption * @param Key: Key used for DES algorithm. * @param Ilength: length of the Input buffer, must be a multiple of 8. * @param Input: pointer to the Input buffer. * @param Output: pointer to the returned buffer. * @retval An ErrorStatus enumeration value: * - SUCCESS: Operation done * - ERROR: Operation failed */ ErrorStatus CRYP_DES_ECB(uint8_t Mode, uint8_t Key[8], uint8_t *Input, uint32_t Ilength, uint8_t *Output) { CRYP_InitTypeDef DES_CRYP_InitStructure; CRYP_KeyInitTypeDef DES_CRYP_KeyInitStructure; __IO uint32_t counter = 0; uint32_t busystatus = 0; ErrorStatus status = SUCCESS; uint32_t keyaddr = (uint32_t)Key; uint32_t inputaddr = (uint32_t)Input; uint32_t outputaddr = (uint32_t)Output; uint32_t i = 0; /* Crypto structures initialisation*/ CRYP_KeyStructInit(&DES_CRYP_KeyInitStructure); /* Crypto Init for Encryption process */ if( Mode == MODE_ENCRYPT ) /* DES encryption */ { DES_CRYP_InitStructure.CRYP_AlgoDir = CRYP_AlgoDir_Encrypt; } else/* if( Mode == MODE_DECRYPT )*/ /* DES decryption */ { DES_CRYP_InitStructure.CRYP_AlgoDir = CRYP_AlgoDir_Decrypt; } DES_CRYP_InitStructure.CRYP_AlgoMode = CRYP_AlgoMode_DES_ECB; DES_CRYP_InitStructure.CRYP_DataType = CRYP_DataType_8b; CRYP_Init(&DES_CRYP_InitStructure); /* Key Initialisation */ DES_CRYP_KeyInitStructure.CRYP_Key1Left = __REV(*(uint32_t*)(keyaddr)); keyaddr+=4; DES_CRYP_KeyInitStructure.CRYP_Key1Right= __REV(*(uint32_t*)(keyaddr)); CRYP_KeyInit(& DES_CRYP_KeyInitStructure); /* Flush IN/OUT FIFO */ CRYP_FIFOFlush(); /* Enable Crypto processor */ CRYP_Cmd(ENABLE); if(CRYP_GetCmdStatus() == DISABLE) { /* The CRYP peripheral clock is not enabled or the device doesn't embedd the CRYP peripheral (please check the device sales type. */ return(ERROR); } for(i=0; ((i<Ilength) && (status != ERROR)); i+=8) { /* Write the Input block in the Input FIFO */ CRYP_DataIn(*(uint32_t*)(inputaddr)); inputaddr+=4; CRYP_DataIn(*(uint32_t*)(inputaddr)); inputaddr+=4; /* Wait until the complete message has been processed */ counter = 0; do { busystatus = CRYP_GetFlagStatus(CRYP_FLAG_BUSY); counter++; }while ((counter != DESBUSY_TIMEOUT) && (busystatus != RESET)); if (busystatus != RESET) { status = ERROR; } else { /* Read the Output block from the Output FIFO */ *(uint32_t*)(outputaddr) = CRYP_DataOut(); outputaddr+=4; *(uint32_t*)(outputaddr) = CRYP_DataOut(); outputaddr+=4; } } /* Disable Crypto */ CRYP_Cmd(DISABLE); return status; } /** * @brief Encrypt and decrypt using DES in CBC Mode * @param Mode: encryption or decryption Mode. * This parameter can be one of the following values: * @arg MODE_ENCRYPT: Encryption * @arg MODE_DECRYPT: Decryption * @param Key: Key used for DES algorithm. * @param InitVectors: Initialisation Vectors used for DES algorithm. * @param Ilength: length of the Input buffer, must be a multiple of 8. * @param Input: pointer to the Input buffer. * @param Output: pointer to the returned buffer. * @retval An ErrorStatus enumeration value: * - SUCCESS: Operation done * - ERROR: Operation failed */ ErrorStatus CRYP_DES_CBC(uint8_t Mode, uint8_t Key[8], uint8_t InitVectors[8], uint8_t *Input, uint32_t Ilength, uint8_t *Output) { CRYP_InitTypeDef DES_CRYP_InitStructure; CRYP_KeyInitTypeDef DES_CRYP_KeyInitStructure; CRYP_IVInitTypeDef DES_CRYP_IVInitStructure; __IO uint32_t counter = 0; uint32_t busystatus = 0; ErrorStatus status = SUCCESS; uint32_t keyaddr = (uint32_t)Key; uint32_t inputaddr = (uint32_t)Input; uint32_t outputaddr = (uint32_t)Output; uint32_t ivaddr = (uint32_t)InitVectors; uint32_t i = 0; /* Crypto structures initialisation*/ CRYP_KeyStructInit(&DES_CRYP_KeyInitStructure); /* Crypto Init for Encryption process */ if(Mode == MODE_ENCRYPT) /* DES encryption */ { DES_CRYP_InitStructure.CRYP_AlgoDir = CRYP_AlgoDir_Encrypt; } else /*if(Mode == MODE_DECRYPT)*/ /* DES decryption */ { DES_CRYP_InitStructure.CRYP_AlgoDir = CRYP_AlgoDir_Decrypt; } DES_CRYP_InitStructure.CRYP_AlgoMode = CRYP_AlgoMode_DES_CBC; DES_CRYP_InitStructure.CRYP_DataType = CRYP_DataType_8b; CRYP_Init(&DES_CRYP_InitStructure); /* Key Initialisation */ DES_CRYP_KeyInitStructure.CRYP_Key1Left = __REV(*(uint32_t*)(keyaddr)); keyaddr+=4; DES_CRYP_KeyInitStructure.CRYP_Key1Right= __REV(*(uint32_t*)(keyaddr)); CRYP_KeyInit(& DES_CRYP_KeyInitStructure); /* Initialization Vectors */ DES_CRYP_IVInitStructure.CRYP_IV0Left = __REV(*(uint32_t*)(ivaddr)); ivaddr+=4; DES_CRYP_IVInitStructure.CRYP_IV0Right= __REV(*(uint32_t*)(ivaddr)); CRYP_IVInit(&DES_CRYP_IVInitStructure); /* Flush IN/OUT FIFO */ CRYP_FIFOFlush(); /* Enable Crypto processor */ CRYP_Cmd(ENABLE); if(CRYP_GetCmdStatus() == DISABLE) { /* The CRYP peripheral clock is not enabled or the device doesn't embedd the CRYP peripheral (please check the device sales type. */ return(ERROR); } for(i=0; ((i<Ilength) && (status != ERROR)); i+=8) { /* Write the Input block in the Input FIFO */ CRYP_DataIn(*(uint32_t*)(inputaddr)); inputaddr+=4; CRYP_DataIn(*(uint32_t*)(inputaddr)); inputaddr+=4; /* Wait until the complete message has been processed */ counter = 0; do { busystatus = CRYP_GetFlagStatus(CRYP_FLAG_BUSY); counter++; }while ((counter != DESBUSY_TIMEOUT) && (busystatus != RESET)); if (busystatus != RESET) { status = ERROR; } else { /* Read the Output block from the Output FIFO */ *(uint32_t*)(outputaddr) = CRYP_DataOut(); outputaddr+=4; *(uint32_t*)(outputaddr) = CRYP_DataOut(); outputaddr+=4; } } /* Disable Crypto */ CRYP_Cmd(DISABLE); return status; } /** * @} */ /** * @} */ /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/