/* * The Clear BSD License * Copyright (c) 2015, Freescale Semiconductor, Inc. * All rights reserved. * * * Redistribution and use in source and binary forms, with or without modification, * are permitted (subject to the limitations in the disclaimer below) provided * that the following conditions are met: * * o Redistributions of source code must retain the above copyright notice, this list * of conditions and the following disclaimer. * * o 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. * * o Neither the name of Freescale Semiconductor, Inc. nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY'S PATENT RIGHTS ARE GRANTED BY THIS LICENSE. * 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. */ #ifndef _CAU_API_H_ #define _CAU_API_H_ /******************************************************************************* * Definitions ******************************************************************************/ /*! * @addtogroup mmcau MMCAU Peripheral Driver * @{ */ #define cau_aes_set_key mmcau_aes_set_key #define cau_aes_encrypt mmcau_aes_encrypt #define cau_aes_decrypt mmcau_aes_decrypt #define cau_des_chk_parity mmcau_des_chk_parity #define cau_des_encrypt mmcau_des_encrypt #define cau_des_decrypt mmcau_des_decrypt #define cau_md5_initialize_output mmcau_md5_initialize_output #define cau_md5_hash_n mmcau_md5_hash_n #define cau_md5_update mmcau_md5_update #define cau_md5_hash mmcau_md5_hash #define cau_sha1_initialize_output mmcau_sha1_initialize_output #define cau_sha1_hash_n mmcau_sha1_hash_n #define cau_sha1_update mmcau_sha1_update #define cau_sha1_hash mmcau_sha1_hash #define cau_sha256_initialize_output mmcau_sha256_initialize_output #define cau_sha256_hash_n mmcau_sha256_hash_n #define cau_sha256_update mmcau_sha256_update #define cau_sha256_hash mmcau_sha256_hash /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @brief AES: Performs an AES key expansion * * This function performs an AES key expansion * * @param key Pointer to input key (128, 192, 256 bits in length). * @param key_size Key size in bits (128, 192, 256) * @param[out] key_sch Pointer to key schedule output (44, 52, 60 longwords) * @note All pointers must have word (4 bytes) alignment * @note Table below shows the requirements for the cau_aes_set_key() function when using AES128, AES192 or AES256. * | [in] Key Size (bits) | [out] Key Schedule Size (32 bit data values) | * | :---------------------: | :--------------------------------------------: | * | 128 | 44 | * | 192 | 52 | * | 256 | 60 | */ void cau_aes_set_key(const unsigned char *key, const int key_size, unsigned char *key_sch); /*! * @brief AES: Encrypts a single 16 byte block * * This function encrypts a single 16-byte block for AES128, AES192 and AES256 * * @param in Pointer to 16-byte block of input plaintext * @param key_sch Pointer to key schedule (44, 52, 60 longwords) * @param nr Number of AES rounds (10, 12, 14 = f(key_schedule)) * @param[out] out Pointer to 16-byte block of output ciphertext * @note All pointers must have word (4 bytes) alignment * @note Input and output blocks may overlap.@n * Table below shows the requirements for the cau_aes_encrypt()/cau_aes_decrypt() * function when using AES128, AES192 or AES256. * | Block Cipher | [in] Key Schedule Size (longwords) | [in] Number of AES rounds | * | :----------: | :--------------------------------: | :-----------------------: | * | AES128 | 44 | 10 | * | AES192 | 52 | 12 | * | AES256 | 60 | 14 | */ void cau_aes_encrypt(const unsigned char *in, const unsigned char *key_sch, const int nr, unsigned char *out); /*! * @brief AES: Decrypts a single 16-byte block * * This function decrypts a single 16-byte block for AES128, AES192 and AES256 * * @param in Pointer to 16-byte block of input ciphertext * @param key_sch Pointer to key schedule (44, 52, 60 longwords) * @param nr Number of AES rounds (10, 12, 14 = f(key_schedule)) * @param[out] out Pointer to 16-byte block of output plaintext * @note All pointers must have word (4 bytes) alignment * @note Input and output blocks may overlap.@n * Table below shows the requirements for the cau_aes_encrypt()/cau_aes_decrypt() * function when using AES128, AES192 or AES256. * | Block Cipher | [in] Key Schedule Size (longwords) | [in] Number of AES rounds | * | :----------: | :--------------------------------: | :-----------------------: | * | AES128 | 44 | 10 | * | AES192 | 52 | 12 | * | AES256 | 60 | 14 | */ void cau_aes_decrypt(const unsigned char *in, const unsigned char *key_sch, const int nr, unsigned char *out); /*! * @brief DES: Checks key parity * * This function checks the parity of a DES key * * @param key 64-bit DES key with parity bits. Must have word (4 bytes) alignment. * @return 0 no error * @return -1 parity error */ int cau_des_chk_parity(const unsigned char *key); /*! * @brief DES: Encrypts a single 8-byte block * * This function encrypts a single 8-byte block with DES algorithm. * * @param in Pointer to 8-byte block of input plaintext * @param key Pointer to 64-bit DES key with parity bits * @param[out] out Pointer to 8-byte block of output ciphertext * @note All pointers must have word (4 bytes) alignment * @note Input and output blocks may overlap. */ void cau_des_encrypt(const unsigned char *in, const unsigned char *key, unsigned char *out); /*! * @brief DES: Decrypts a single 8-byte block * * This function decrypts a single 8-byte block with DES algorithm. * * @param in Pointer to 8-byte block of input ciphertext * @param key Pointer to 64-bit DES key with parity bits * @param[out] out Pointer to 8-byte block of output plaintext * @note All pointers must have word (4 bytes) alignment * @note Input and output blocks may overlap. */ void cau_des_decrypt(const unsigned char *in, const unsigned char *key, unsigned char *out); /*! * @brief MD5: Initializes the MD5 state variables * * This function initializes the MD5 state variables. * The output can be used as input to cau_md5_hash() and cau_md5_hash_n(). * * @param[out] md5_state Pointer to 128-bit block of md5 state variables: a,b,c,d * @note All pointers must have word (4 bytes) alignment */ void cau_md5_initialize_output(const unsigned char *md5_state); /*! * @brief MD5: Updates MD5 state variables with n message blocks * * This function updates MD5 state variables for one or more input message blocks * * @param msg_data Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[in,out] md5_state Pointer to 128-bit block of MD5 state variables: a,b,c,d * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_md5_initialize_output() function must be called when starting a new hash. * Useful when handling non-contiguous input message blocks. */ void cau_md5_hash_n(const unsigned char *msg_data, const int num_blks, unsigned char *md5_state); /*! * @brief MD5: Updates MD5 state variables * * This function updates MD5 state variables for one or more input message blocks. * It starts a new hash as it internally calls cau_md5_initialize_output() first. * * @param msg_data Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[out] md5_state Pointer to 128-bit block of MD5 state variables: a,b,c,d * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_md5_initialize_output() function is not required to be called * as it is called internally to start a new hash. * All input message blocks must be contiguous. */ void cau_md5_update(const unsigned char *msg_data, const int num_blks, unsigned char *md5_state); /*! * @brief MD5: Updates MD5 state variables with one message block * * This function updates MD5 state variables for one input message block * * @param msg_data Pointer to start of 512-bits of input message data * @param[in,out] md5_state Pointer to 128-bit block of MD5 state variables: a,b,c,d * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_md5_initialize_output() function must be called when starting a new hash. */ void cau_md5_hash(const unsigned char *msg_data, unsigned char *md5_state); /*! * @brief SHA1: Initializes the SHA1 state variables * * This function initializes the SHA1 state variables. * The output can be used as input to cau_sha1_hash() and cau_sha1_hash_n(). * * @param[out] sha1_state Pointer to 160-bit block of SHA1 state variables: a,b,c,d,e * @note All pointers must have word (4 bytes) alignment */ void cau_sha1_initialize_output(const unsigned int *sha1_state); /*! * @brief SHA1: Updates SHA1 state variables with n message blocks * * This function updates SHA1 state variables for one or more input message blocks * * @param msg_data Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[in,out] sha1_state Pointer to 160-bit block of SHA1 state variables: a,b,c,d,e * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha1_initialize_output() function must be called when starting a new hash. * Useful when handling non-contiguous input message blocks. */ void cau_sha1_hash_n(const unsigned char *msg_data, const int num_blks, unsigned int *sha1_state); /*! * @brief SHA1: Updates SHA1 state variables * * This function updates SHA1 state variables for one or more input message blocks. * It starts a new hash as it internally calls cau_sha1_initialize_output() first. * * @param msg_data Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[out] sha1_state Pointer to 160-bit block of SHA1 state variables: a,b,c,d,e * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha1_initialize_output() function is not required to be called * as it is called internally to start a new hash. * All input message blocks must be contiguous. */ void cau_sha1_update(const unsigned char *msg_data, const int num_blks, unsigned int *sha1_state); /*! * @brief SHA1: Updates SHA1 state variables with one message block * * This function updates SHA1 state variables for one input message block * * @param msg_data Pointer to start of 512-bits of input message data * @param[in,out] sha1_state Pointer to 160-bit block of SHA1 state variables: a,b,c,d,e * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha1_initialize_output() function must be called when starting a new hash. */ void cau_sha1_hash(const unsigned char *msg_data, unsigned int *sha1_state); /*! * @brief SHA256: Initializes the SHA256 state variables * * This function initializes the SHA256 state variables. * The output can be used as input to cau_sha256_hash() and cau_sha256_hash_n(). * * @param[out] output Pointer to 256-bit block of SHA2 state variables a,b,c,d,e,f,g,h * @note All pointers must have word (4 bytes) alignment * @return 0 No error. CAU hardware support for SHA256 is present. * @return -1 Error. CAU hardware support for SHA256 is not present. */ int cau_sha256_initialize_output(const unsigned int *output); /*! * @brief SHA256: Updates SHA256 state variables with n message blocks * * This function updates SHA256 state variables for one or more input message blocks * * @param input Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[in,out] output Pointer to 256-bit block of SHA2 state variables: a,b,c,d,e,f,g,h * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha256_initialize_output() function must be called when starting a new hash. * Useful when handling non-contiguous input message blocks. */ void cau_sha256_hash_n(const unsigned char *input, const int num_blks, unsigned int *output); /*! * @brief SHA256: Updates SHA256 state variables * * This function updates SHA256 state variables for one or more input message blocks. * It starts a new hash as it internally calls cau_sha256_initialize_output() first. * * @param input Pointer to start of input message data * @param num_blks Number of 512-bit blocks to process * @param[out] output Pointer to 256-bit block of SHA2 state variables: a,b,c,d,e,f,g,h * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha256_initialize_output() function is not required to be called * as it is called internally to start a new hash. * All input message blocks must be contiguous. */ void cau_sha256_update(const unsigned char *input, const int num_blks, unsigned int *output); /*! * @brief SHA256: Updates SHA256 state variables with one message block * * This function updates SHA256 state variables for one input message block * * @param input Pointer to start of 512-bits of input message data * @param[in,out] output Pointer to 256-bit block of SHA2 state variables: a,b,c,d,e,f,g,h * @note All pointers must have word (4 bytes) alignment * @note Input message and digest output blocks must not overlap. * The cau_sha256_initialize_output() function must be called when starting a new hash. */ void cau_sha256_hash(const unsigned char *input, unsigned int *output); #if defined(__cplusplus) } #endif /*! @}*/ #endif /* _CAU_API_H_ */