/** * @file xmc_prng.h * @date 2015-06-20 * * @cond ********************************************************************************************************************* * XMClib v2.1.16 - XMC Peripheral Driver Library * * Copyright (c) 2015-2017, Infineon Technologies AG * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification,are permitted provided that the * following conditions are met: * * Redistributions of source code must retain the above copyright notice, this list of conditions and the following * disclaimer. * * 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. * * Neither the name of the copyright holders 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. * * To improve the quality of the software, users are encouraged to share modifications, enhancements or bug fixes with * Infineon Technologies AG dave@infineon.com). ********************************************************************************************************************* * * Change History * -------------- * * 2015-02-20: * - Initial
* - Documentation updates
* * 2015-06-20: * - Removed version macros and declaration of GetDriverVersion API
* * @endcond */ #ifndef XMC_PRNG_H #define XMC_PRNG_H /********************************************************************************************************************* * HEADER FILES *********************************************************************************************************************/ #include "xmc_common.h" #if defined (PRNG) /** * @addtogroup XMClib XMC Peripheral Library * @{ */ /** * @addtogroup PRNG * @brief Pseudo Random Number Generator (PRNG) driver for XMC1000 microcontroller family * * The pseudo random bit generator (PRNG) provides random data with fast generation times. * PRNG has to be initialized by the user software before use. The initialization consists * of two basic phases: key-loading and warm-up. * * The PRNG low level driver provides functions to configure and initialize the PRNG hardware * peripheral. * @{ */ /********************************************************************************************************************* * MACROS *********************************************************************************************************************/ /** * Byte mask value for random data block size */ #define XMC_PRNG_RDBS_BYTE_READ_MASK (0x00FFU) /********************************************************************************************************************* * ENUMS *********************************************************************************************************************/ /** * PRNG key load operation modes */ typedef enum XMC_PRNG_KEY_LOAD_OP_MODE { XMC_PRNG_STRM_MODE = 0U, /**< Streaming mode (default) */ XMC_PRNG_KLD_MODE = 1U /**< Loading mode */ } XMC_PRNG_KEY_LOAD_OP_MODE_t; /** * PRNG data block size */ typedef enum XMC_PRNG_DATA_BLOCK_SIZE { XMC_PRNG_RDBS_RESET = 0U, /**< Reset state (no random data block size defined) */ XMC_PRNG_RDBS_BYTE = 1U, /**< BYTE (8-bit) */ XMC_PRNG_RDBS_WORD = 2U /**< WORD (16-bit) */ } XMC_PRNG_DATA_BLOCK_SIZE_t; /** * PRNG driver initialization status */ typedef enum XMC_PRNG_INIT_STATUS { XMC_PRNG_NOT_INITIALIZED = 0U, /**< Reset state or Non-initialized state (Same as XMC_PRNG_RDBS_RESET) */ XMC_PRNG_INITIALIZED = 1U /**< Initialized state */ } XMC_PRNG_INIT_STATUS_t; /********************************************************************************************************************* * DATA STRUCTURES *********************************************************************************************************************/ /** * Key words and data block size configuration values of PRNG
* * The structure presents a convenient way to set/obtain the key word and data block configuration * values of PRNG. * The XMC_PRNG_Init() can be used to populate the structure with the key word and data block * configuration values of the PRNG module. */ typedef struct XMC_PRNG_INIT { uint16_t key_words[5]; /**< Keywords */ XMC_PRNG_DATA_BLOCK_SIZE_t block_size; /**< Block size */ } XMC_PRNG_INIT_t; /********************************************************************************************************************* * API PROTOTYPES *********************************************************************************************************************/ #ifdef __cplusplus extern "C" { #endif /** * @param prng Pointer to a constant instance of ::XMC_PRNG_INIT_t, pointing to * the initialization configuration. * @return XMC_PRNG_INIT_STATUS_t XMC_PRNG_INITIALIZED if initialized, * XMC_PRNG_NOT_INITIALIZED otherwise. * * \parDescription:
* Initialize the PRNG peripheral with the configured key words and block size
* * \par * The function configures block size for key loading mode, enables key loading mode, * loads key words (80 bits) and wait till RDV is set, enables the streaming mode and * waits for warmup phase. This function programmes the CTRL and WORD registers. */ XMC_PRNG_INIT_STATUS_t XMC_PRNG_Init(const XMC_PRNG_INIT_t *prng); /** * @param block_size Block size of type ::XMC_PRNG_DATA_BLOCK_SIZE_t for read access * @return None * * \parDescription:
* Programming Random Block Size
* * \par * The function sets the random data block size as byte or word by programming CTRL.RDBS bitfield. * block_size = 0 for Reset state, block_size = 1 for 'byte' and block_size = 2 for 'word'. */ __STATIC_INLINE void XMC_PRNG_SetRandomDataBlockSize(XMC_PRNG_DATA_BLOCK_SIZE_t block_size) { PRNG->CTRL = (uint16_t)((PRNG->CTRL & (uint32_t)~PRNG_CTRL_RDBS_Msk) | ((uint32_t)block_size << (uint32_t)PRNG_CTRL_RDBS_Pos)); } /** * @return None * * \parDescription:
* Checks the validity (CHK.RDV bit) of the generated random data
* * \par * The function checks the validity (CHK.RDV bit) of the generated random data. * In key loading mode, this value indicates if the next partial key word can be written * to PRNG_WORD or not. */ __STATIC_INLINE uint16_t XMC_PRNG_CheckValidStatus(void) { return (PRNG->CHK & PRNG_CHK_RDV_Msk); } /** * @return None * * \parDescription:
* Enables the PRNG key loading mode
* * \par * The function initializes the key loading by setting the bit CTRL.KLD. In this mode, Register WORD * acts as always as a 16 bit destination register. After the complete key has been loaded, the CTRL.KLD * must be set to '0' to prepare the following warmup phase. * * \parRelated APIs:
* XMC_PRNG_EnableStreamingMode() */ __STATIC_INLINE void XMC_PRNG_EnableKeyLoadingMode(void) { PRNG->CTRL |= (uint16_t)PRNG_CTRL_KLD_Msk; } /** * @return None * * \parDescription:
* Enables the Streaming mode
* * \par * The function enables the streaming mode and disables the PRNG key loading mode by resetting the * CTRL.KLD bit. * * \parRelated APIs:
* XMC_PRNG_EnableKeyLoadingMode() */ __STATIC_INLINE void XMC_PRNG_EnableStreamingMode(void) { PRNG->CTRL &= (uint16_t)~PRNG_CTRL_KLD_Msk; } /** * @param key Key word to load into PRNG WORD register * @return None * * \parDescription:
* Loads a partial key word to the PRNG WORD register
* * \par * The function loads partial key word to WORD registr. These partial * words are sequentially written and loading a key word will take 16 clock * cycles. The CHK.RDV bit is set to '0' while loading is in progress. '1' indicates * that the next partial key word can be written to WORD register. */ __STATIC_INLINE void XMC_PRNG_LoadKeyWords(uint16_t key) { PRNG->WORD = key; } /** * @param None * @return uint16_t Generated random number * * \parDescription:
* Gets the generated random number
* * \par * The function gives the generated random number by returning the content of WORD * register. Before reading the WORD register to get the generated random number it is * required to check the bit CHK.RDV is set which indicates that the next random data block * can be read from WORD register. After a word has been read the bit CHK.RDV is reset * by the hardware and generation of new random bits starts. * * \parRelated APIs:
* XMC_PRNG_CheckValidStatus() */ __STATIC_INLINE uint16_t XMC_PRNG_GetPseudoRandomNumber(void) { return PRNG->WORD; } #ifdef __cplusplus } #endif /** * @} */ /** * @} */ #endif /* #if defined (PRNG) */ #endif /* XMC_PRNG_H */