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author | Trygve Laugstøl <trygvis@inamo.no> | 2018-08-23 17:08:59 +0200 |
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committer | Trygve Laugstøl <trygvis@inamo.no> | 2018-08-23 17:12:21 +0200 |
commit | 3061ecca3d0fdfb87dabbf5f63c9e06c2a30f53a (patch) | |
tree | ab49cc16ed0b853452c5c2ed2d3042416d628986 /thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h | |
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Diffstat (limited to 'thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h')
-rw-r--r-- | thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h | 371 |
1 files changed, 371 insertions, 0 deletions
diff --git a/thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h b/thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h new file mode 100644 index 0000000..74c13cf --- /dev/null +++ b/thirdparty/nRF5_SDK_15.0.0_a53641a/external/nrf_cc310/include/crys_common.h @@ -0,0 +1,371 @@ +/************************************************************************************** +* Copyright (c) 2016-2017, ARM Limited or its affiliates. All rights reserved * +* * +* This file and the related binary are licensed under the following license: * +* * +* ARM Object Code and Header Files License, v1.0 Redistribution. * +* * +* Redistribution and use of object code, header files, and documentation, without * +* modification, are permitted provided that the following conditions are met: * +* * +* 1) Redistributions must reproduce the above copyright notice and the * +* following disclaimer in the documentation and/or other materials * +* provided with the distribution. * +* * +* 2) Unless to the extent explicitly permitted by law, no reverse * +* engineering, decompilation, or disassembly of is permitted. * +* * +* 3) Redistribution and use is permitted solely for the purpose of * +* developing or executing applications that are targeted for use * +* on an ARM-based product. * +* * +* DISCLAIMER. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * +* CONTRIBUTORS "AS IS." ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT * +* NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, NON-INFRINGEMENT, * +* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * +* COPYRIGHT HOLDERS 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 CRYS_COMMON_H +#define CRYS_COMMON_H + +#include "crys_common_error.h" + + +#ifdef __cplusplus +extern "C" +{ +#endif + + +/************************ Defines ******************************/ + +#define CRYS_AES_SECRET_KEY_SIZE_IN_WORDS 4 + +/* the ROT13 definition - relevant only on SW low level engines compiled in the ROT mode */ +#define CRYS_COMMON_ROT_13_OFFSET 13 + + + +/************************ Enums ********************************/ + +/************************ Typedefs ****************************/ + +/************************ Structs *****************************/ + +/************************ Public Variables *********************/ + +/************************ Public Functions *********************/ + + + +/*********************************************************************** + ** + * @brief This function executes a reverse bytes copying from one buffer to another buffer. + * + * Overlapping of buffers is not allowed, excluding the case, when destination and source + * buffers are the same. + * Example of a 5 byte buffer: + * + * dst_ptr[4] = src_ptr[0] + * dst_ptr[3] = src_ptr[1] + * dst_ptr[2] = src_ptr[2] + * dst_ptr[1] = src_ptr[3] + * dst_ptr[0] = src_ptr[4] + * + * @param[in] dst_ptr - The pointer to destination buffer. + * @param[in] src_ptr - The pointer to source buffer. + * @param[in] size - The size in bytes. + * + */ + CRYSError_t CRYS_COMMON_ReverseMemcpy( uint8_t *dst_ptr , uint8_t *src_ptr , uint32_t size ); + + +/*********************************************************************** + ** + * @brief This function converts aligned words array to bytes array/ + * + * 1. Assumed, that input buffer is aligned to 4-bytes word and + * bytes order is set according to machine endianness. + * 2. Output buffer receives data as bytes stream from LSB to MSB. + * For increasing performance on small buffers, the output data is given + * by rounded down pointer and alignment. + * 3. This implementation is given for both Big and Little endian machines. + * + * + * @param[in] in32_ptr - The pointer to aligned input buffer. + * @param[in] out32_ptr - The 32-bits pointer to output buffer (rounded down to 4 bytes) . + * @param[in] outAlignBits - The actual output data alignment; + * @param[in] sizeWords - The size in words (sizeWords >= 1). + * + * return - no return value. + */ + void CRYS_COMMON_AlignedWordsArrayToBytes( uint32_t *in32_ptr , uint32_t *out32_ptr , + uint32_t outAlignBits, uint32_t sizeWords ); + +/***********************************************************************/ + /** + * @brief This function converts in place words byffer to bytes buffer with + * reversed endianity of output array. + * + * The function can convert: + * - big endian bytes array to words array with little endian order + * of words and backward. + * + * Note: + * 1. Endianness of each word in words buffer should be set allways + * according to processor used. + * 2. Implementation is given for both big and little endianness of + * processor. + * + * @param[in] buf_ptr - The 32-bits pointer to input/output buffer. + * @param[in] sizeWords - The size in words (sizeWords > 0). + * + * @return - no return value. + */ +void CRYS_COMMON_InPlaceConvertBytesWordsAndArrayEndianness( + uint32_t *buf_ptr, + uint32_t sizeWords); + + +/***********************************************************************/ + /** + * @brief This function converts big endianness bytes array to aligned words + * array with words order according to little endian / + * + * 1. Assumed, that input bytes order is set according + * to big endianness: MS Byte is most left, i.e. order is from + * Msb to Lsb. + * 2. Output words array should set according to + * little endianness words order: LSWord is most left, i.e. order + * is from Lsw to Msw. Order bytes in each word - according to + * 3. Implementation is given for both big and little + * endianness of processor. + * + * @param[out] out32_ptr - The 32-bits pointer to output buffer. + * @param[in] sizeOutBuffBytes - The size in bytes of output buffer, must be + * aligned to 4 bytes and not less than sizeInBytes. + * @param[in] in8_ptr - The pointer to input buffer. + * @param[in] sizeInBytes - The size in bytes of input data(sizeBytes >= 1). + * + * @return CRYSError_t - On success CRYS_OK is returned, on failure a + * value MODULE_* as defined in . + */ +CRYSError_t CRYS_COMMON_ConvertMsbLsbBytesToLswMswWords( + uint32_t *out32_ptr, + uint32_t sizeOutBuffBytes, + const uint8_t *in8_ptr, + uint32_t sizeInBytes); + + +/***********************************************************************/ + /** + * @brief This function converts LE 32bit-words array to BE bytes array. + * + * Note: The function allows output full size of the data and also output + * without leading zeros, if the user gives appropriate exact output + * size < input size. + * + * Assuming: + * 1. Output bytes order is according to big endianness: + * MS Byte is most left, i.e. order is from Msb to Lsb. + * 2. Input array words order is set according to + * little endianness words order: LSWord is most left, i.e. order + * is from Lsw to Msw. Bytes order in each word - according to + * processor endianness. + * 3. Owerlapping of buffers is not allowed, besides in + * place operation and size aligned to full words. + * 4. Implementation is given for both big and little + * endianness of processor. + * + * @param[in] out8_ptr - The bytes pointer to the output buffer. + * @param[in] sizeOutBuffBytes - The size of the data in bytes to output; must + * be not less, than sizeInBytes. + * @param[out] in32_ptr - The pointer to the input buffer. + * @param[in] sizeInpBytes - The size of the input data in bytes. The size must + * be > 0 and aligned to 4 bytes. + * + * @return CRYSError_t - On success CRYS_OK is returned, on failure a + * value MODULE_* as defined in . + */ +CRYSError_t CRYS_COMMON_ConvertLswMswWordsToMsbLsbBytes( + uint8_t *out8_ptr, + uint32_t sizeOutBytes, + uint32_t *in32_ptr, + uint32_t sizeInpBytes); + + +/***********************************************************************/ +/** + * @brief VOS_GetGlobalData get the global random key hidden inside the function + * the global data implemented for now are random key buffer and AES secret key buffer + * + * When no_rtos is declared then we allow a global data. The random key/AES secret key are hidden as static inside the function + * + * + * @param[in] Globalid select the buffer + * @param[in] GlobalDataSizeWords - the global data buffer size needed in words - this value must be a predetermined value + * @param[out] GlobalData_ptr - Pointer to the global buffer returned. The buffer must be at least GlobalDataSizeWords size + * + * @return CRYSError_t - On success CRYS_OK is returned, on failure an Error as defined in VOS_error + */ +CRYSError_t CRYS_COMMON_GetGlobalData(uint16_t Globalid, uint32_t *GlobalData_ptr, uint16_t GlobalDataSizeWords); + + +/***********************************************************************/ +/** +* @brief CRYS_COMMON_StoreGlobalData store the global random key into the global buffer hidden inside the function +* the global data implemented for now are random key buffer and AES secret key buffer +* +* +* @param[in] Globalid - random key / AES secret key +* @param[in] GlobalDataSizeWords - the global data buffer size needed in words - this value must be a predetermined value +* @param[in] GlobalData_ptr - Pointer to the global buffer to be saved. The buffer must be at least GlobalDataSizeWords size +* +* Return Value: +*/ +CRYSError_t CRYS_COMMON_StoreGlobalData(uint16_t Globalid, uint32_t *GlobalData_ptr, uint16_t GlobalDataSizeWords); + + +/***********************************************************************/ +/** + * @brief The CRYS_COMMON_CutAndSaveEndOfLliData() function saves the data from end of source + * memory, pointed by LLI table, to destination memory, and decreases the LLI table accordingly. + * + * The function executes the following major steps: + * + * 1. Starts copy bytes from last byte of last chunk of source LLI table into + * last byte of destination memory. + * 2. Continues copy bytes in reverse order while not completes copying of all amount of data. + * 3. If last chunk of source or destination data is not enough, the function crosses + * to next chunk of LLI table. + * 4. Decreases the Data size of last updated LLI entry and sets the LAST bit. + * 5. Exits with the OK code. + * + * + * @param[in] SrcLliTab_ptr - The pointer to the LLI table, containing pointers and sizes of + * chunks of source data. The table need to be aligned and placed + * in SEP SRAM. + * @param[in] SrcLliTabSize_ptr - The pointer to buffer, containing th size of the LLI table in words. + * @param[in] Dest_ptr - The destination address for copying the data. + * @param[in] DataSize - The count of bytes to copy. + * + * @return CRYSError_t - On success CRYS_OK is returned, + * - CRYS_COMMON_ERROR_IN_SAVING_LLI_DATA_ERROR + * + * NOTE: 1. Because the function is intended for internal using, it is presumed that all input parameters + * are valid. + * 2. Assumed, that copied source not may to take more than two last chunks of source memory. + */ + CRYSError_t CRYS_COMMON_CutAndSaveEndOfLliData( + uint32_t *SrcLliTab_ptr, + uint32_t *SrcLliTabSize_ptr, + uint8_t *Dst_ptr, + uint32_t DataSize); + +/***********************************************************************/ +/** + * @brief The CRYS_COMMON_CutAndSaveBeginOfLliData() function saves the data from beginning of source + * memory, pointed by LLI table, to destination memory, and decreases the LLI table accordingly. + * + * The function executes the following major steps: + * + * 1. Starts copy bytes from first byte of first chunk of source LLI table into + * destination memory. + * 2. If first chunk of source is not enough, the function crosses + * to next chunk of LLI table. + * 3. Updates LLI table pointer and size according to copied amount of data. + * 5. Exits with the OK code. + * + * @param[in/out] SrcLliTab_ptr_ptr - The pointer to pointer to the LLI table, containing pointers and + * sizes of the chunks of source data. The table need to be aligned and + * placed in SRAM. + * @param[in/out] SrcLliTabSize_ptr - The pointer to buffer, containing th size of the LLI table in words. + * @param[in] Dest_ptr - The destination address for copying the data. + * @param[in] DataSize - The count of bytes to copy. + * + * @return - no return value. + * + * NOTE: 1. Because the function is intended for internal using, it is presumed that all input parameters + * are valid. + * 2. Assumed, that copied source not may to take more than two first chunks of source memory. + */ + void CRYS_COMMON_CutAndSaveBeginOfLliData( + uint32_t **SrcLliTab_ptr_ptr, + uint32_t *SrcLliTabSize_ptr, + uint8_t *Dst_ptr, + uint32_t DataSize); + +/***********************************************************************/ + /** + * @brief This function converts 32-bit words array with little endian + * order of words to bytes array with little endian (LE) order of bytes. + * + * Assuming: no buffers overlapping, in/out pointers and sizes not equall to NULL, + the buffer size must be not less, than input data size. + * + * @param[out] out8Le - The bytes pointer to output buffer. + * @param[in] in32Le - The pointer to input 32-bit words buffer. + * @param[in] sizeInWords - The size in words of input data (sizeWords >= 0). + * + * @return CRYSError_t - On success CRYS_OK is returned, on failure a + * value MODULE_* as defined in . + */ +void CRYS_COMMON_ConvertLswMswWordsToLsbMsbBytes( + uint8_t *out8Le, + const uint32_t *in32Le, + size_t sizeInWords); + + +/***********************************************************************/ +/** + * @brief This function converts bytes array with little endian (LE) order of + * bytes to 32-bit words array with little endian order of words and bytes. + * + * Assuming: No owerlapping of buffers; in/out pointers and sizes are not equall to NULL. + * If is in-place conversion, then the size must be multiple of 4 bytes. + * @param[out] out32Le - The 32-bits pointer to output buffer. The buffer size must be + * not less, than input data size. + * @param[in] in8Le - The pointer to input buffer. + * @param[in] sizeInBytes - The size in bytes of input data(sizeBytes > 0). + * + * @return CRYSError_t - On success CRYS_OK is returned, on failure a + * value MODULE_* as defined in . + */ +void CRYS_COMMON_ConvertLsbMsbBytesToLswMswWords( + uint32_t *out32Le, + const uint8_t *in8Le, + size_t sizeInBytes); + + +/** + * The function compares value of byte vector to null. + * + * @author reuvenl (6/20/2016) + * + * @param vect - a pointer to bytes vector. + * @param sizeBytes - size of the vector. + * + * @return uint32_t - if vector's value iz zero, then returns 1, else - 0; + */ +uint32_t CRYS_COMMON_CheckIsVectorZero(uint8_t *vect, uint32_t sizeBytes); + + + + +#ifdef __cplusplus +} +#endif + +#endif + + |