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Diffstat (limited to '')
| -rw-r--r-- | bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_trng.c | 1935 |
1 files changed, 0 insertions, 1935 deletions
diff --git a/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_trng.c b/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_trng.c deleted file mode 100644 index 4f4773d9c0..0000000000 --- a/bsps/arm/imxrt/nxp/devices/MIMXRT1052/drivers/fsl_trng.c +++ /dev/null @@ -1,1935 +0,0 @@ -/* - * Copyright (c) 2015, Freescale Semiconductor, Inc. - * Copyright 2016-2017, 2020 NXP - * All rights reserved. - * - * SPDX-License-Identifier: BSD-3-Clause - */ -#include "fsl_trng.h" - -#if defined(FSL_FEATURE_SOC_TRNG_COUNT) && FSL_FEATURE_SOC_TRNG_COUNT - -/******************************************************************************* - * Definitions - *******************************************************************************/ - -/* Component ID definition, used by tools. */ -#ifndef FSL_COMPONENT_ID -#define FSL_COMPONENT_ID "platform.drivers.trng" -#endif - -/* Default values for user configuration structure.*/ -#if (defined(KW40Z4_SERIES) || defined(KW41Z4_SERIES) || defined(KW31Z4_SERIES) || defined(KW21Z4_SERIES) || \ - defined(MCIMX7U5_M4_SERIES) || defined(KW36Z4_SERIES) || defined(KW37A4_SERIES) || defined(KW37Z4_SERIES) || \ - defined(KW38A4_SERIES) || defined(KW38Z4_SERIES) || defined(KW39A4_SERIES) || defined(KW35Z4_SERIES)) -#define TRNG_USER_CONFIG_DEFAULT_OSC_DIV kTRNG_RingOscDiv8 -#elif (defined(KV56F24_SERIES) || defined(KV58F24_SERIES) || defined(KL28Z7_SERIES) || defined(KL81Z7_SERIES) || \ - defined(KL82Z7_SERIES) || defined(K32L2A41A_SERIES)) -#define TRNG_USER_CONFIG_DEFAULT_OSC_DIV kTRNG_RingOscDiv4 -#elif defined(K81F25615_SERIES) -#define TRNG_USER_CONFIG_DEFAULT_OSC_DIV kTRNG_RingOscDiv2 -#else -/* Default value for the TRNG user configuration structure can be optionally - defined by device specific preprocessor macros. */ -#if defined(FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_OSC_DIV) && \ - (FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_OSC_DIV > 0) -#define TRNG_USER_CONFIG_DEFAULT_OSC_DIV (FSL_FEATURE_TRNG_USER_CONFIG_DEFAULT_OSC_DIV_VALUE) -#else -#define TRNG_USER_CONFIG_DEFAULT_OSC_DIV kTRNG_RingOscDiv0 -#endif -#endif - -#define TRNG_USER_CONFIG_DEFAULT_LOCK 0 -#define TRNG_USER_CONFIG_DEFAULT_ENTROPY_DELAY 3200 -#define TRNG_USER_CONFIG_DEFAULT_SAMPLE_SIZE 2500 -#define TRNG_USER_CONFIG_DEFAULT_SPARSE_BIT_LIMIT 63 -#define TRNG_USER_CONFIG_DEFAULT_RETRY_COUNT 1 -#define TRNG_USER_CONFIG_DEFAULT_RUN_MAX_LIMIT 34 - -#define TRNG_USER_CONFIG_DEFAULT_MONOBIT_MAXIMUM 1384 -#define TRNG_USER_CONFIG_DEFAULT_MONOBIT_MINIMUM (TRNG_USER_CONFIG_DEFAULT_MONOBIT_MAXIMUM - 268) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT1_MAXIMUM 405 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT1_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT1_MAXIMUM - 178) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT2_MAXIMUM 220 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT2_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT2_MAXIMUM - 122) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT3_MAXIMUM 125 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT3_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT3_MAXIMUM - 88) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT4_MAXIMUM 75 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT4_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT4_MAXIMUM - 64) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT5_MAXIMUM 47 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT5_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT5_MAXIMUM - 46) -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT6PLUS_MAXIMUM 47 -#define TRNG_USER_CONFIG_DEFAULT_RUNBIT6PLUS_MINIMUM (TRNG_USER_CONFIG_DEFAULT_RUNBIT6PLUS_MAXIMUM - 46) -#define TRNG_USER_CONFIG_DEFAULT_POKER_MAXIMUM 26912 -#define TRNG_USER_CONFIG_DEFAULT_POKER_MINIMUM (TRNG_USER_CONFIG_DEFAULT_POKER_MAXIMUM - 2467) - -#if defined(FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM) && \ - (FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM > 0) -#define TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM (FSL_FEATURE_TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM_VALUE) -#else -#define TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM 25600 -#endif - -#if defined(FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM) && \ - (FSL_FEATURE_TRNG_FORCE_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM > 0) -#define TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM (FSL_FEATURE_TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM_VALUE) -#else -#define TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM 1600 -#endif - -/*! @brief TRNG work mode */ -typedef enum _trng_work_mode -{ - kTRNG_WorkModeRun = 0U, /*!< Run Mode. */ - kTRNG_WorkModeProgram = 1U /*!< Program Mode. */ -} trng_work_mode_t; - -/*! @brief TRNG statistical check type*/ -typedef enum _trng_statistical_check -{ - kTRNG_StatisticalCheckMonobit = - 1U, /*!< Statistical check of number of ones/zero detected during entropy generation. */ - kTRNG_StatisticalCheckRunBit1, /*!< Statistical check of number of runs of length 1 detected during entropy - generation. */ - kTRNG_StatisticalCheckRunBit2, /*!< Statistical check of number of runs of length 2 detected during entropy - generation. */ - kTRNG_StatisticalCheckRunBit3, /*!< Statistical check of number of runs of length 3 detected during entropy - generation. */ - kTRNG_StatisticalCheckRunBit4, /*!< Statistical check of number of runs of length 4 detected during entropy - generation. */ - kTRNG_StatisticalCheckRunBit5, /*!< Statistical check of number of runs of length 5 detected during entropy - generation. */ - kTRNG_StatisticalCheckRunBit6Plus, /*!< Statistical check of number of runs of length 6 or more detected during - entropy generation. */ - kTRNG_StatisticalCheckPoker, /*!< Statistical check of "Poker Test". */ - kTRNG_StatisticalCheckFrequencyCount /*!< Statistical check of entropy sample frequency count. */ -} trng_statistical_check_t; - -/******************************************************************************* - * TRNG_SCMISC - RNG Statistical Check Miscellaneous Register - ******************************************************************************/ -/*! - * @name Register TRNG_SCMISC, field RTY_CT[19:16] (RW) - * - * RETRY COUNT. If a statistical check fails during the TRNG Entropy Generation, - * the RTY_CT value indicates the number of times a retry should occur before - * generating an error. This field is writable only if MCTL[PRGM] bit is 1. This - * field will read zeroes if MCTL[PRGM] = 0. This field is cleared to 1h by writing - * the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCMISC_RTY_CT field. */ -#define TRNG_RD_SCMISC_RTY_CT(base) ((TRNG_SCMISC_REG(base) & TRNG_SCMISC_RTY_CT_MASK) >> TRNG_SCMISC_RTY_CT_SHIFT) - -/*! @brief Set the RTY_CT field to a new value. */ -#define TRNG_WR_SCMISC_RTY_CT(base, value) (TRNG_RMW_SCMISC(base, TRNG_SCMISC_RTY_CT_MASK, TRNG_SCMISC_RTY_CT(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCML - RNG Statistical Check Monobit Limit Register - ******************************************************************************/ -/*! - * @brief TRNG_SCML - RNG Statistical Check Monobit Limit Register (RW) - * - * Reset value: 0x010C0568U - * - * The RNG Statistical Check Monobit Limit Register defines the allowable - * maximum and minimum number of ones/zero detected during entropy generation. To pass - * the test, the number of ones/zeroes generated must be less than the programmed - * maximum value, and the number of ones/zeroes generated must be greater than - * (maximum - range). If this test fails, the Retry Counter in SCMISC will be - * decremented, and a retry will occur if the Retry Count has not reached zero. If - * the Retry Count has reached zero, an error will be generated. Note that this - * offset (0xBASE_0620) is used as SCML only if MCTL[PRGM] is 1. If MCTL[PRGM] is 0, - * this offset is used as SCMC readback register. - */ -/*! - * @name Constants and macros for entire TRNG_SCML register - */ -/*@{*/ -#define TRNG_SCML_REG(base) ((base)->SCML) -#define TRNG_RD_SCML(base) (TRNG_SCML_REG(base)) -#define TRNG_WR_SCML(base, value) (TRNG_SCML_REG(base) = (value)) -#define TRNG_RMW_SCML(base, mask, value) (TRNG_WR_SCML(base, (TRNG_RD_SCML(base) & ~(mask)) | (value))) -/*@}*/ -/*! - * @name Register TRNG_SCML, field MONO_MAX[15:0] (RW) - * - * Monobit Maximum Limit. Defines the maximum allowable count taken during - * entropy generation. The number of ones/zeroes detected during entropy generation - * must be less than MONO_MAX, else a retry or error will occur. This register is - * cleared to 00056Bh (decimal 1387) by writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCML_MONO_MAX field. */ -#define TRNG_RD_SCML_MONO_MAX(base) ((TRNG_SCML_REG(base) & TRNG_SCML_MONO_MAX_MASK) >> TRNG_SCML_MONO_MAX_SHIFT) - -/*! @brief Set the MONO_MAX field to a new value. */ -#define TRNG_WR_SCML_MONO_MAX(base, value) (TRNG_RMW_SCML(base, TRNG_SCML_MONO_MAX_MASK, TRNG_SCML_MONO_MAX(value))) -/*@}*/ -/*! - * @name Register TRNG_SCML, field MONO_RNG[31:16] (RW) - * - * Monobit Range. The number of ones/zeroes detected during entropy generation - * must be greater than MONO_MAX - MONO_RNG, else a retry or error will occur. - * This register is cleared to 000112h (decimal 274) by writing the MCTL[RST_DEF] - * bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCML_MONO_RNG field. */ -#define TRNG_RD_SCML_MONO_RNG(base) ((TRNG_SCML_REG(base) & TRNG_SCML_MONO_RNG_MASK) >> TRNG_SCML_MONO_RNG_SHIFT) - -/*! @brief Set the MONO_RNG field to a new value. */ -#define TRNG_WR_SCML_MONO_RNG(base, value) (TRNG_RMW_SCML(base, TRNG_SCML_MONO_RNG_MASK, TRNG_SCML_MONO_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR1L - RNG Statistical Check Run Length 1 Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR1L - RNG Statistical Check Run Length 1 Limit Register (RW) - * - * Reset value: 0x00B20195U - * - * The RNG Statistical Check Run Length 1 Limit Register defines the allowable - * maximum and minimum number of runs of length 1 detected during entropy - * generation. To pass the test, the number of runs of length 1 (for samples of both 0 - * and 1) must be less than the programmed maximum value, and the number of runs of - * length 1 must be greater than (maximum - range). If this test fails, the - * Retry Counter in SCMISC will be decremented, and a retry will occur if the Retry - * Count has not reached zero. If the Retry Count has reached zero, an error will - * be generated. Note that this address (0xBASE_0624) is used as SCR1L only if - * MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this address is used as SCR1C readback - * register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR1L register - */ -/*@{*/ -#define TRNG_SCR1L_REG(base) ((base)->SCR1L) -#define TRNG_RD_SCR1L(base) (TRNG_SCR1L_REG(base)) -#define TRNG_WR_SCR1L(base, value) (TRNG_SCR1L_REG(base) = (value)) -#define TRNG_RMW_SCR1L(base, mask, value) (TRNG_WR_SCR1L(base, (TRNG_RD_SCR1L(base) & ~(mask)) | (value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR1L, field RUN1_MAX[14:0] (RW) - * - * Run Length 1 Maximum Limit. Defines the maximum allowable runs of length 1 - * (for both 0 and 1) detected during entropy generation. The number of runs of - * length 1 detected during entropy generation must be less than RUN1_MAX, else a - * retry or error will occur. This register is cleared to 01E5h (decimal 485) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR1L_RUN1_MAX field. */ -#define TRNG_RD_SCR1L_RUN1_MAX(base) ((TRNG_SCR1L_REG(base) & TRNG_SCR1L_RUN1_MAX_MASK) >> TRNG_SCR1L_RUN1_MAX_SHIFT) - -/*! @brief Set the RUN1_MAX field to a new value. */ -#define TRNG_WR_SCR1L_RUN1_MAX(base, value) (TRNG_RMW_SCR1L(base, TRNG_SCR1L_RUN1_MAX_MASK, TRNG_SCR1L_RUN1_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR1L, field RUN1_RNG[30:16] (RW) - * - * Run Length 1 Range. The number of runs of length 1 (for both 0 and 1) - * detected during entropy generation must be greater than RUN1_MAX - RUN1_RNG, else a - * retry or error will occur. This register is cleared to 0102h (decimal 258) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR1L_RUN1_RNG field. */ -#define TRNG_RD_SCR1L_RUN1_RNG(base) ((TRNG_SCR1L_REG(base) & TRNG_SCR1L_RUN1_RNG_MASK) >> TRNG_SCR1L_RUN1_RNG_SHIFT) - -/*! @brief Set the RUN1_RNG field to a new value. */ -#define TRNG_WR_SCR1L_RUN1_RNG(base, value) (TRNG_RMW_SCR1L(base, TRNG_SCR1L_RUN1_RNG_MASK, TRNG_SCR1L_RUN1_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR2L - RNG Statistical Check Run Length 2 Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR2L - RNG Statistical Check Run Length 2 Limit Register (RW) - * - * Reset value: 0x007A00DCU - * - * The RNG Statistical Check Run Length 2 Limit Register defines the allowable - * maximum and minimum number of runs of length 2 detected during entropy - * generation. To pass the test, the number of runs of length 2 (for samples of both 0 - * and 1) must be less than the programmed maximum value, and the number of runs of - * length 2 must be greater than (maximum - range). If this test fails, the - * Retry Counter in SCMISC will be decremented, and a retry will occur if the Retry - * Count has not reached zero. If the Retry Count has reached zero, an error will - * be generated. Note that this address (0xBASE_0628) is used as SCR2L only if - * MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this address is used as SCR2C readback - * register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR2L register - */ -/*@{*/ -#define TRNG_SCR2L_REG(base) ((base)->SCR2L) -#define TRNG_RD_SCR2L(base) (TRNG_SCR2L_REG(base)) -#define TRNG_WR_SCR2L(base, value) (TRNG_SCR2L_REG(base) = (value)) -#define TRNG_RMW_SCR2L(base, mask, value) (TRNG_WR_SCR2L(base, (TRNG_RD_SCR2L(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCR2L bitfields - */ - -/*! - * @name Register TRNG_SCR2L, field RUN2_MAX[13:0] (RW) - * - * Run Length 2 Maximum Limit. Defines the maximum allowable runs of length 2 - * (for both 0 and 1) detected during entropy generation. The number of runs of - * length 2 detected during entropy generation must be less than RUN2_MAX, else a - * retry or error will occur. This register is cleared to 00DCh (decimal 220) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR2L_RUN2_MAX field. */ -#define TRNG_RD_SCR2L_RUN2_MAX(base) ((TRNG_SCR2L_REG(base) & TRNG_SCR2L_RUN2_MAX_MASK) >> TRNG_SCR2L_RUN2_MAX_SHIFT) - -/*! @brief Set the RUN2_MAX field to a new value. */ -#define TRNG_WR_SCR2L_RUN2_MAX(base, value) (TRNG_RMW_SCR2L(base, TRNG_SCR2L_RUN2_MAX_MASK, TRNG_SCR2L_RUN2_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR2L, field RUN2_RNG[29:16] (RW) - * - * Run Length 2 Range. The number of runs of length 2 (for both 0 and 1) - * detected during entropy generation must be greater than RUN2_MAX - RUN2_RNG, else a - * retry or error will occur. This register is cleared to 007Ah (decimal 122) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR2L_RUN2_RNG field. */ -#define TRNG_RD_SCR2L_RUN2_RNG(base) ((TRNG_SCR2L_REG(base) & TRNG_SCR2L_RUN2_RNG_MASK) >> TRNG_SCR2L_RUN2_RNG_SHIFT) - -/*! @brief Set the RUN2_RNG field to a new value. */ -#define TRNG_WR_SCR2L_RUN2_RNG(base, value) (TRNG_RMW_SCR2L(base, TRNG_SCR2L_RUN2_RNG_MASK, TRNG_SCR2L_RUN2_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR3L - RNG Statistical Check Run Length 3 Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR3L - RNG Statistical Check Run Length 3 Limit Register (RW) - * - * Reset value: 0x0058007DU - * - * The RNG Statistical Check Run Length 3 Limit Register defines the allowable - * maximum and minimum number of runs of length 3 detected during entropy - * generation. To pass the test, the number of runs of length 3 (for samples of both 0 - * and 1) must be less than the programmed maximum value, and the number of runs of - * length 3 must be greater than (maximum - range). If this test fails, the - * Retry Counter in SCMISC will be decremented, and a retry will occur if the Retry - * Count has not reached zero. If the Retry Count has reached zero, an error will - * be generated. Note that this address (0xBASE_062C) is used as SCR3L only if - * MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this address is used as SCR3C readback - * register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR3L register - */ -/*@{*/ -#define TRNG_SCR3L_REG(base) ((base)->SCR3L) -#define TRNG_RD_SCR3L(base) (TRNG_SCR3L_REG(base)) -#define TRNG_WR_SCR3L(base, value) (TRNG_SCR3L_REG(base) = (value)) -#define TRNG_RMW_SCR3L(base, mask, value) (TRNG_WR_SCR3L(base, (TRNG_RD_SCR3L(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCR3L bitfields - */ - -/*! - * @name Register TRNG_SCR3L, field RUN3_MAX[12:0] (RW) - * - * Run Length 3 Maximum Limit. Defines the maximum allowable runs of length 3 - * (for both 0 and 1) detected during entropy generation. The number of runs of - * length 3 detected during entropy generation must be less than RUN3_MAX, else a - * retry or error will occur. This register is cleared to 007Dh (decimal 125) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR3L_RUN3_MAX field. */ -#define TRNG_RD_SCR3L_RUN3_MAX(base) ((TRNG_SCR3L_REG(base) & TRNG_SCR3L_RUN3_MAX_MASK) >> TRNG_SCR3L_RUN3_MAX_SHIFT) - -/*! @brief Set the RUN3_MAX field to a new value. */ -#define TRNG_WR_SCR3L_RUN3_MAX(base, value) (TRNG_RMW_SCR3L(base, TRNG_SCR3L_RUN3_MAX_MASK, TRNG_SCR3L_RUN3_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR3L, field RUN3_RNG[28:16] (RW) - * - * Run Length 3 Range. The number of runs of length 3 (for both 0 and 1) - * detected during entropy generation must be greater than RUN3_MAX - RUN3_RNG, else a - * retry or error will occur. This register is cleared to 0058h (decimal 88) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR3L_RUN3_RNG field. */ -#define TRNG_RD_SCR3L_RUN3_RNG(base) ((TRNG_SCR3L_REG(base) & TRNG_SCR3L_RUN3_RNG_MASK) >> TRNG_SCR3L_RUN3_RNG_SHIFT) - -/*! @brief Set the RUN3_RNG field to a new value. */ -#define TRNG_WR_SCR3L_RUN3_RNG(base, value) (TRNG_RMW_SCR3L(base, TRNG_SCR3L_RUN3_RNG_MASK, TRNG_SCR3L_RUN3_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR4L - RNG Statistical Check Run Length 4 Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR4L - RNG Statistical Check Run Length 4 Limit Register (RW) - * - * Reset value: 0x0040004BU - * - * The RNG Statistical Check Run Length 4 Limit Register defines the allowable - * maximum and minimum number of runs of length 4 detected during entropy - * generation. To pass the test, the number of runs of length 4 (for samples of both 0 - * and 1) must be less than the programmed maximum value, and the number of runs of - * length 4 must be greater than (maximum - range). If this test fails, the - * Retry Counter in SCMISC will be decremented, and a retry will occur if the Retry - * Count has not reached zero. If the Retry Count has reached zero, an error will - * be generated. Note that this address (0xBASE_0630) is used as SCR4L only if - * MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this address is used as SCR4C readback - * register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR4L register - */ -/*@{*/ -#define TRNG_SCR4L_REG(base) ((base)->SCR4L) -#define TRNG_RD_SCR4L(base) (TRNG_SCR4L_REG(base)) -#define TRNG_WR_SCR4L(base, value) (TRNG_SCR4L_REG(base) = (value)) -#define TRNG_RMW_SCR4L(base, mask, value) (TRNG_WR_SCR4L(base, (TRNG_RD_SCR4L(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCR4L bitfields - */ - -/*! - * @name Register TRNG_SCR4L, field RUN4_MAX[11:0] (RW) - * - * Run Length 4 Maximum Limit. Defines the maximum allowable runs of length 4 - * (for both 0 and 1) detected during entropy generation. The number of runs of - * length 4 detected during entropy generation must be less than RUN4_MAX, else a - * retry or error will occur. This register is cleared to 004Bh (decimal 75) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR4L_RUN4_MAX field. */ -#define TRNG_RD_SCR4L_RUN4_MAX(base) ((TRNG_SCR4L_REG(base) & TRNG_SCR4L_RUN4_MAX_MASK) >> TRNG_SCR4L_RUN4_MAX_SHIFT) - -/*! @brief Set the RUN4_MAX field to a new value. */ -#define TRNG_WR_SCR4L_RUN4_MAX(base, value) (TRNG_RMW_SCR4L(base, TRNG_SCR4L_RUN4_MAX_MASK, TRNG_SCR4L_RUN4_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR4L, field RUN4_RNG[27:16] (RW) - * - * Run Length 4 Range. The number of runs of length 4 (for both 0 and 1) - * detected during entropy generation must be greater than RUN4_MAX - RUN4_RNG, else a - * retry or error will occur. This register is cleared to 0040h (decimal 64) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR4L_RUN4_RNG field. */ -#define TRNG_RD_SCR4L_RUN4_RNG(base) ((TRNG_SCR4L_REG(base) & TRNG_SCR4L_RUN4_RNG_MASK) >> TRNG_SCR4L_RUN4_RNG_SHIFT) - -/*! @brief Set the RUN4_RNG field to a new value. */ -#define TRNG_WR_SCR4L_RUN4_RNG(base, value) (TRNG_RMW_SCR4L(base, TRNG_SCR4L_RUN4_RNG_MASK, TRNG_SCR4L_RUN4_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR5L - RNG Statistical Check Run Length 5 Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR5L - RNG Statistical Check Run Length 5 Limit Register (RW) - * - * Reset value: 0x002E002FU - * - * The RNG Statistical Check Run Length 5 Limit Register defines the allowable - * maximum and minimum number of runs of length 5 detected during entropy - * generation. To pass the test, the number of runs of length 5 (for samples of both 0 - * and 1) must be less than the programmed maximum value, and the number of runs of - * length 5 must be greater than (maximum - range). If this test fails, the - * Retry Counter in SCMISC will be decremented, and a retry will occur if the Retry - * Count has not reached zero. If the Retry Count has reached zero, an error will - * be generated. Note that this address (0xBASE_0634) is used as SCR5L only if - * MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this address is used as SCR5C readback - * register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR5L register - */ -/*@{*/ -#define TRNG_SCR5L_REG(base) ((base)->SCR5L) -#define TRNG_RD_SCR5L(base) (TRNG_SCR5L_REG(base)) -#define TRNG_WR_SCR5L(base, value) (TRNG_SCR5L_REG(base) = (value)) -#define TRNG_RMW_SCR5L(base, mask, value) (TRNG_WR_SCR5L(base, (TRNG_RD_SCR5L(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCR5L bitfields - */ - -/*! - * @name Register TRNG_SCR5L, field RUN5_MAX[10:0] (RW) - * - * Run Length 5 Maximum Limit. Defines the maximum allowable runs of length 5 - * (for both 0 and 1) detected during entropy generation. The number of runs of - * length 5 detected during entropy generation must be less than RUN5_MAX, else a - * retry or error will occur. This register is cleared to 002Fh (decimal 47) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR5L_RUN5_MAX field. */ -#define TRNG_RD_SCR5L_RUN5_MAX(base) ((TRNG_SCR5L_REG(base) & TRNG_SCR5L_RUN5_MAX_MASK) >> TRNG_SCR5L_RUN5_MAX_SHIFT) - -/*! @brief Set the RUN5_MAX field to a new value. */ -#define TRNG_WR_SCR5L_RUN5_MAX(base, value) (TRNG_RMW_SCR5L(base, TRNG_SCR5L_RUN5_MAX_MASK, TRNG_SCR5L_RUN5_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR5L, field RUN5_RNG[26:16] (RW) - * - * Run Length 5 Range. The number of runs of length 5 (for both 0 and 1) - * detected during entropy generation must be greater than RUN5_MAX - RUN5_RNG, else a - * retry or error will occur. This register is cleared to 002Eh (decimal 46) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR5L_RUN5_RNG field. */ -#define TRNG_RD_SCR5L_RUN5_RNG(base) ((TRNG_SCR5L_REG(base) & TRNG_SCR5L_RUN5_RNG_MASK) >> TRNG_SCR5L_RUN5_RNG_SHIFT) - -/*! @brief Set the RUN5_RNG field to a new value. */ -#define TRNG_WR_SCR5L_RUN5_RNG(base, value) (TRNG_RMW_SCR5L(base, TRNG_SCR5L_RUN5_RNG_MASK, TRNG_SCR5L_RUN5_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCR6PL - RNG Statistical Check Run Length 6+ Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCR6PL - RNG Statistical Check Run Length 6+ Limit Register (RW) - * - * Reset value: 0x002E002FU - * - * The RNG Statistical Check Run Length 6+ Limit Register defines the allowable - * maximum and minimum number of runs of length 6 or more detected during entropy - * generation. To pass the test, the number of runs of length 6 or more (for - * samples of both 0 and 1) must be less than the programmed maximum value, and the - * number of runs of length 6 or more must be greater than (maximum - range). If - * this test fails, the Retry Counter in SCMISC will be decremented, and a retry - * will occur if the Retry Count has not reached zero. If the Retry Count has - * reached zero, an error will be generated. Note that this offset (0xBASE_0638) is - * used as SCR6PL only if MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this offset is - * used as SCR6PC readback register. - */ -/*! - * @name Constants and macros for entire TRNG_SCR6PL register - */ -/*@{*/ -#define TRNG_SCR6PL_REG(base) ((base)->SCR6PL) -#define TRNG_RD_SCR6PL(base) (TRNG_SCR6PL_REG(base)) -#define TRNG_WR_SCR6PL(base, value) (TRNG_SCR6PL_REG(base) = (value)) -#define TRNG_RMW_SCR6PL(base, mask, value) (TRNG_WR_SCR6PL(base, (TRNG_RD_SCR6PL(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCR6PL bitfields - */ - -/*! - * @name Register TRNG_SCR6PL, field RUN6P_MAX[10:0] (RW) - * - * Run Length 6+ Maximum Limit. Defines the maximum allowable runs of length 6 - * or more (for both 0 and 1) detected during entropy generation. The number of - * runs of length 6 or more detected during entropy generation must be less than - * RUN6P_MAX, else a retry or error will occur. This register is cleared to 002Fh - * (decimal 47) by writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR6PL_RUN6P_MAX field. */ -#define TRNG_RD_SCR6PL_RUN6P_MAX(base) \ - ((TRNG_SCR6PL_REG(base) & TRNG_SCR6PL_RUN6P_MAX_MASK) >> TRNG_SCR6PL_RUN6P_MAX_SHIFT) - -/*! @brief Set the RUN6P_MAX field to a new value. */ -#define TRNG_WR_SCR6PL_RUN6P_MAX(base, value) \ - (TRNG_RMW_SCR6PL(base, TRNG_SCR6PL_RUN6P_MAX_MASK, TRNG_SCR6PL_RUN6P_MAX(value))) -/*@}*/ - -/*! - * @name Register TRNG_SCR6PL, field RUN6P_RNG[26:16] (RW) - * - * Run Length 6+ Range. The number of runs of length 6 or more (for both 0 and - * 1) detected during entropy generation must be greater than RUN6P_MAX - - * RUN6P_RNG, else a retry or error will occur. This register is cleared to 002Eh - * (decimal 46) by writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCR6PL_RUN6P_RNG field. */ -#define TRNG_RD_SCR6PL_RUN6P_RNG(base) \ - ((TRNG_SCR6PL_REG(base) & TRNG_SCR6PL_RUN6P_RNG_MASK) >> TRNG_SCR6PL_RUN6P_RNG_SHIFT) - -/*! @brief Set the RUN6P_RNG field to a new value. */ -#define TRNG_WR_SCR6PL_RUN6P_RNG(base, value) \ - (TRNG_RMW_SCR6PL(base, TRNG_SCR6PL_RUN6P_RNG_MASK, TRNG_SCR6PL_RUN6P_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_PKRMAX - RNG Poker Maximum Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_PKRMAX - RNG Poker Maximum Limit Register (RW) - * - * Reset value: 0x00006920U - * - * The RNG Poker Maximum Limit Register defines Maximum Limit allowable during - * the TRNG Statistical Check Poker Test. Note that this offset (0xBASE_060C) is - * used as PKRMAX only if MCTL[PRGM] is 1. If MCTL[PRGM] is 0, this offset is used - * as the PKRSQ readback register. - */ -/*! - * @name Constants and macros for entire TRNG_PKRMAX register - */ -/*@{*/ -#define TRNG_PKRMAX_REG(base) ((base)->PKRMAX) -#define TRNG_RD_PKRMAX(base) (TRNG_PKRMAX_REG(base)) -#define TRNG_WR_PKRMAX(base, value) (TRNG_PKRMAX_REG(base) = (value)) -#define TRNG_RMW_PKRMAX(base, mask, value) (TRNG_WR_PKRMAX(base, (TRNG_RD_PKRMAX(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_PKRMAX bitfields - */ - -/*! - * @name Register TRNG_PKRMAX, field PKR_MAX[23:0] (RW) - * - * Poker Maximum Limit. During the TRNG Statistical Checks, a "Poker Test" is - * run which requires a maximum and minimum limit. The maximum allowable result is - * programmed in the PKRMAX[PKR_MAX] register. This field is writable only if - * MCTL[PRGM] bit is 1. This register is cleared to 006920h (decimal 26912) by - * writing the MCTL[RST_DEF] bit to 1. Note that the PKRMAX and PKRRNG registers - * combined are used to define the minimum allowable Poker result, which is PKR_MAX - - * PKR_RNG + 1. Note that if MCTL[PRGM] bit is 0, this register address is used - * to read the Poker Test Square Calculation result in register PKRSQ, as defined - * in the following section. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_PKRMAX_PKR_MAX field. */ -#define TRNG_RD_PKRMAX_PKR_MAX(base) ((TRNG_PKRMAX_REG(base) & TRNG_PKRMAX_PKR_MAX_MASK) >> TRNG_PKRMAX_PKR_MAX_SHIFT) - -/*! @brief Set the PKR_MAX field to a new value. */ -#define TRNG_WR_PKRMAX_PKR_MAX(base, value) \ - (TRNG_RMW_PKRMAX(base, TRNG_PKRMAX_PKR_MAX_MASK, TRNG_PKRMAX_PKR_MAX(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_PKRRNG - RNG Poker Range Register - ******************************************************************************/ - -/*! - * @brief TRNG_PKRRNG - RNG Poker Range Register (RW) - * - * Reset value: 0x000009A3U - * - * The RNG Poker Range Register defines the difference between the TRNG Poker - * Maximum Limit and the minimum limit. These limits are used during the TRNG - * Statistical Check Poker Test. - */ -/*! - * @name Constants and macros for entire TRNG_PKRRNG register - */ -/*@{*/ -#define TRNG_PKRRNG_REG(base) ((base)->PKRRNG) -#define TRNG_RD_PKRRNG(base) (TRNG_PKRRNG_REG(base)) -#define TRNG_WR_PKRRNG(base, value) (TRNG_PKRRNG_REG(base) = (value)) -#define TRNG_RMW_PKRRNG(base, mask, value) (TRNG_WR_PKRRNG(base, (TRNG_RD_PKRRNG(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_PKRRNG bitfields - */ - -/*! - * @name Register TRNG_PKRRNG, field PKR_RNG[15:0] (RW) - * - * Poker Range. During the TRNG Statistical Checks, a "Poker Test" is run which - * requires a maximum and minimum limit. The maximum is programmed in the - * RTPKRMAX[PKR_MAX] register, and the minimum is derived by subtracting the PKR_RNG - * value from the programmed maximum value. This field is writable only if - * MCTL[PRGM] bit is 1. This field will read zeroes if MCTL[PRGM] = 0. This field is - * cleared to 09A3h (decimal 2467) by writing the MCTL[RST_DEF] bit to 1. Note that - * the minimum allowable Poker result is PKR_MAX - PKR_RNG + 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_PKRRNG_PKR_RNG field. */ -#define TRNG_RD_PKRRNG_PKR_RNG(base) ((TRNG_PKRRNG_REG(base) & TRNG_PKRRNG_PKR_RNG_MASK) >> TRNG_PKRRNG_PKR_RNG_SHIFT) - -/*! @brief Set the PKR_RNG field to a new value. */ -#define TRNG_WR_PKRRNG_PKR_RNG(base, value) \ - (TRNG_RMW_PKRRNG(base, TRNG_PKRRNG_PKR_RNG_MASK, TRNG_PKRRNG_PKR_RNG(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_FRQMAX - RNG Frequency Count Maximum Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_FRQMAX - RNG Frequency Count Maximum Limit Register (RW) - * - * Reset value: 0x00006400U - * - * The RNG Frequency Count Maximum Limit Register defines the maximum allowable - * count taken by the Entropy sample counter during each Entropy sample. During - * any sample period, if the count is greater than this programmed maximum, a - * Frequency Count Fail is flagged in MCTL[FCT_FAIL] and an error is generated. Note - * that this address (061C) is used as FRQMAX only if MCTL[PRGM] is 1. If - * MCTL[PRGM] is 0, this address is used as FRQCNT readback register. - */ -/*! - * @name Constants and macros for entire TRNG_FRQMAX register - */ -/*@{*/ -#define TRNG_FRQMAX_REG(base) ((base)->FRQMAX) -#define TRNG_RD_FRQMAX(base) (TRNG_FRQMAX_REG(base)) -#define TRNG_WR_FRQMAX(base, value) (TRNG_FRQMAX_REG(base) = (value)) -#define TRNG_RMW_FRQMAX(base, mask, value) (TRNG_WR_FRQMAX(base, (TRNG_RD_FRQMAX(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_FRQMAX bitfields - */ - -/*! - * @name Register TRNG_FRQMAX, field FRQ_MAX[21:0] (RW) - * - * Frequency Counter Maximum Limit. Defines the maximum allowable count taken - * during each entropy sample. This field is writable only if MCTL[PRGM] bit is 1. - * This register is cleared to 000640h by writing the MCTL[RST_DEF] bit to 1. - * Note that if MCTL[PRGM] bit is 0, this register address is used to read the - * Frequency Count result in register FRQCNT, as defined in the following section. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_FRQMAX_FRQ_MAX field. */ -#define TRNG_RD_FRQMAX_FRQ_MAX(base) ((TRNG_FRQMAX_REG(base) & TRNG_FRQMAX_FRQ_MAX_MASK) >> TRNG_FRQMAX_FRQ_MAX_SHIFT) - -/*! @brief Set the FRQ_MAX field to a new value. */ -#define TRNG_WR_FRQMAX_FRQ_MAX(base, value) \ - (TRNG_RMW_FRQMAX(base, TRNG_FRQMAX_FRQ_MAX_MASK, TRNG_FRQMAX_FRQ_MAX(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_FRQMIN - RNG Frequency Count Minimum Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_FRQMIN - RNG Frequency Count Minimum Limit Register (RW) - * - * Reset value: 0x00000640U - * - * The RNG Frequency Count Minimum Limit Register defines the minimum allowable - * count taken by the Entropy sample counter during each Entropy sample. During - * any sample period, if the count is less than this programmed minimum, a - * Frequency Count Fail is flagged in MCTL[FCT_FAIL] and an error is generated. - */ -/*! - * @name Constants and macros for entire TRNG_FRQMIN register - */ -/*@{*/ -#define TRNG_FRQMIN_REG(base) ((base)->FRQMIN) -#define TRNG_RD_FRQMIN(base) (TRNG_FRQMIN_REG(base)) -#define TRNG_WR_FRQMIN(base, value) (TRNG_FRQMIN_REG(base) = (value)) -#define TRNG_RMW_FRQMIN(base, mask, value) (TRNG_WR_FRQMIN(base, (TRNG_RD_FRQMIN(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_FRQMIN bitfields - */ - -/*! - * @name Register TRNG_FRQMIN, field FRQ_MIN[21:0] (RW) - * - * Frequency Count Minimum Limit. Defines the minimum allowable count taken - * during each entropy sample. This field is writable only if MCTL[PRGM] bit is 1. - * This field will read zeroes if MCTL[PRGM] = 0. This field is cleared to 0000h64 - * by writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_FRQMIN_FRQ_MIN field. */ -#define TRNG_RD_FRQMIN_FRQ_MIN(base) ((TRNG_FRQMIN_REG(base) & TRNG_FRQMIN_FRQ_MIN_MASK) >> TRNG_FRQMIN_FRQ_MIN_SHIFT) - -/*! @brief Set the FRQ_MIN field to a new value. */ -#define TRNG_WR_FRQMIN_FRQ_MIN(base, value) \ - (TRNG_RMW_FRQMIN(base, TRNG_FRQMIN_FRQ_MIN_MASK, TRNG_FRQMIN_FRQ_MIN(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_MCTL - RNG Miscellaneous Control Register - ******************************************************************************/ - -/*! - * @brief TRNG_MCTL - RNG Miscellaneous Control Register (RW) - * - * Reset value: 0x00012001U - * - * This register is intended to be used for programming, configuring and testing - * the RNG. It is the main register to read/write, in order to enable Entropy - * generation, to stop entropy generation and to block access to entropy registers. - * This is done via the special TRNG_ACC and PRGM bits below. The RNG - * Miscellaneous Control Register is a read/write register used to control the RNG's True - * Random Number Generator (TRNG) access, operation and test. Note that in many - * cases two RNG registers share the same address, and a particular register at the - * shared address is selected based upon the value in the PRGM field of the MCTL - * register. - */ -/*! - * @name Constants and macros for entire TRNG_MCTL register - */ -/*@{*/ -#define TRNG_MCTL_REG(base) ((base)->MCTL) -#define TRNG_RD_MCTL(base) (TRNG_MCTL_REG(base)) -#define TRNG_WR_MCTL(base, value) (TRNG_MCTL_REG(base) = (value)) -#define TRNG_RMW_MCTL(base, mask, value) (TRNG_WR_MCTL(base, (TRNG_RD_MCTL(base) & ~(mask)) | (value))) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field FOR_SCLK[7] (RW) - * - * Force System Clock. If set, the system clock is used to operate the TRNG, - * instead of the ring oscillator. This is for test use only, and indeterminate - * results may occur. This bit is writable only if PRGM bit is 1, or PRGM bit is - * being written to 1 simultaneously to writing this bit. This bit is cleared by - * writing the RST_DEF bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_FOR_SCLK field. */ -#define TRNG_RD_MCTL_FOR_SCLK(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_FOR_SCLK_MASK) >> TRNG_MCTL_FOR_SCLK_SHIFT) - -/*! @brief Set the FOR_SCLK field to a new value. */ -#define TRNG_WR_MCTL_FOR_SCLK(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_FOR_SCLK_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_FOR_SCLK(value))) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field OSC_DIV[3:2] (RW) - * - * Oscillator Divide. Determines the amount of dividing done to the ring - * oscillator before it is used by the TRNG.This field is writable only if PRGM bit is - * 1, or PRGM bit is being written to 1 simultaneously to writing this field. This - * field is cleared to 00 by writing the RST_DEF bit to 1. - * - * Values: - * - 0b00 - use ring oscillator with no divide - * - 0b01 - use ring oscillator divided-by-2 - * - 0b10 - use ring oscillator divided-by-4 - * - 0b11 - use ring oscillator divided-by-8 - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_OSC_DIV field. */ -#define TRNG_RD_MCTL_OSC_DIV(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_OSC_DIV_MASK) >> TRNG_MCTL_OSC_DIV_SHIFT) - -/*! @brief Set the OSC_DIV field to a new value. */ -#define TRNG_WR_MCTL_OSC_DIV(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_OSC_DIV_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_OSC_DIV(value))) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field SAMP_MODE[1:0] (RW) - * - * Sample Mode. Determines the method of sampling the ring oscillator while - * generating the Entropy value:This field is writable only if PRGM bit is 1, or PRGM - * bit is being written to 1 simultaneously with writing this field. This field - * is cleared to 01 by writing the RST_DEF bit to 1. - * - * Values: - * - 0b00 - use Von Neumann data into both Entropy shifter and Statistical - * Checker - * - 0b01 - use raw data into both Entropy shifter and Statistical Checker - * - 0b10 - use Von Neumann data into Entropy shifter. Use raw data into - * Statistical Checker - * - 0b11 - reserved. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_SAMP_MODE field. */ -#define TRNG_RD_MCTL_SAMP_MODE(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_SAMP_MODE_MASK) >> TRNG_MCTL_SAMP_MODE_SHIFT) - -/*! @brief Set the SAMP_MODE field to a new value. */ -#define TRNG_WR_MCTL_SAMP_MODE(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_SAMP_MODE_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_SAMP_MODE(value))) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field PRGM[16] (RW) - * - * Programming Mode Select. When this bit is 1, the TRNG is in Program Mode, - * otherwise it is in Run Mode. No Entropy value will be generated while the TRNG is - * in Program Mode. Note that different RNG registers are accessible at the same - * address depending on whether PRGM is set to 1 or 0. This is noted in the RNG - * register descriptions. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_PRGM field. */ -#define TRNG_RD_MCTL_PRGM(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_PRGM_MASK) >> TRNG_MCTL_PRGM_SHIFT) - -/*! @brief Set the PRGM field to a new value. */ -#define TRNG_WR_MCTL_PRGM(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_PRGM_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_PRGM(value))) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field RST_DEF[6] (WO) - * - * Reset Defaults. Writing a 1 to this bit clears various TRNG registers, and - * bits within registers, to their default state. This bit is writable only if PRGM - * bit is 1, or PRGM bit is being written to 1 simultaneously to writing this - * bit. Reading this bit always produces a 0. - */ -/*@{*/ -/*! @brief Set the RST_DEF field to a new value. */ -#define TRNG_WR_MCTL_RST_DEF(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_RST_DEF_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_RST_DEF(value))) -/*@}*/ - -#if !(defined(FSL_FEATURE_TRNG_HAS_NO_TRNG_ACC) && (FSL_FEATURE_TRNG_HAS_NO_TRNG_ACC > 0)) -/*! - * @name Register TRNG_MCTL, field TRNG_ACC[5] (RW) - * - * TRNG Access Mode. If this bit is set to 1, the TRNG will generate an Entropy - * value that can be read via the ENT0-ENT15 registers. The Entropy value may be - * read once the ENT VAL bit is asserted. Also see ENTa register descriptions - * (For a = 0 to 15). - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_TRNG_ACC field. */ -#define TRNG_RD_MCTL_TRNG_ACC(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_TRNG_ACC_MASK) >> TRNG_MCTL_TRNG_ACC_SHIFT) - -/*! @brief Set the TRNG_ACC field to a new value. */ -#define TRNG_WR_MCTL_TRNG_ACC(base, value) \ - (TRNG_RMW_MCTL(base, (TRNG_MCTL_TRNG_ACC_MASK | TRNG_MCTL_ERR_MASK), TRNG_MCTL_TRNG_ACC(value))) -/*@}*/ -#endif - -/*! - * @name Register TRNG_MCTL, field TSTOP_OK[13] (RO) - * - * TRNG_OK_TO_STOP. Software should check that this bit is a 1 before - * transitioning RNG to low power mode (RNG clock stopped). RNG turns on the TRNG - * free-running ring oscillator whenever new entropy is being generated and turns off the - * ring oscillator when entropy generation is complete. If the RNG clock is - * stopped while the TRNG ring oscillator is running, the oscillator will continue - * running even though the RNG clock is stopped. TSTOP_OK is asserted when the TRNG - * ring oscillator is not running. and therefore it is ok to stop the RNG clock. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_TSTOP_OK field. */ -#define TRNG_RD_MCTL_TSTOP_OK(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_TSTOP_OK_MASK) >> TRNG_MCTL_TSTOP_OK_SHIFT) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field ENT_VAL[10] (RO) - * - * Read only: Entropy Valid. Will assert only if TRNG ACC bit is set, and then - * after an entropy value is generated. Will be cleared when ENT15 is read. (ENT0 - * through ENT14 should be read before reading ENT15). - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_ENT_VAL field. */ -#define TRNG_RD_MCTL_ENT_VAL(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_ENT_VAL_MASK) >> TRNG_MCTL_ENT_VAL_SHIFT) -/*@}*/ - -/*! - * @name Register TRNG_MCTL, field ERR[12] (W1C) - * - * Read: Error status. 1 = error detected. 0 = no error.Write: Write 1 to clear - * errors. Writing 0 has no effect. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_MCTL_ERR field. */ -#define TRNG_RD_MCTL_ERR(base) ((TRNG_MCTL_REG(base) & TRNG_MCTL_ERR_MASK) >> TRNG_MCTL_ERR_SHIFT) - -/*! @brief Set the ERR field to a new value. */ -#define TRNG_WR_MCTL_ERR(base, value) (TRNG_RMW_MCTL(base, TRNG_MCTL_ERR_MASK, TRNG_MCTL_ERR(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SDCTL - RNG Seed Control Register - ******************************************************************************/ - -/*! - * @brief TRNG_SDCTL - RNG Seed Control Register (RW) - * - * Reset value: 0x0C8009C4U - * - * The RNG Seed Control Register contains two fields. One field defines the - * length (in system clocks) of each Entropy sample (ENT_DLY), and the other field - * indicates the number of samples that will taken during each TRNG Entropy - * generation (SAMP_SIZE). - */ -/*! - * @name Constants and macros for entire TRNG_SDCTL register - */ -/*@{*/ -#define TRNG_SDCTL_REG(base) ((base)->SDCTL) -#define TRNG_RD_SDCTL(base) (TRNG_SDCTL_REG(base)) -#define TRNG_WR_SDCTL(base, value) (TRNG_SDCTL_REG(base) = (value)) -#define TRNG_RMW_SDCTL(base, mask, value) (TRNG_WR_SDCTL(base, (TRNG_RD_SDCTL(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SDCTL bitfields - */ - -/*! - * @name Register TRNG_SDCTL, field SAMP_SIZE[15:0] (RW) - * - * Sample Size. Defines the total number of Entropy samples that will be taken - * during Entropy generation. This field is writable only if MCTL[PRGM] bit is 1. - * This field will read zeroes if MCTL[PRGM] = 0. This field is cleared to 09C4h - * (decimal 2500) by writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SDCTL_SAMP_SIZE field. */ -#define TRNG_RD_SDCTL_SAMP_SIZE(base) ((TRNG_SDCTL_REG(base) & TRNG_SDCTL_SAMP_SIZE_MASK) >> TRNG_SDCTL_SAMP_SIZE_SHIFT) - -/*! @brief Set the SAMP_SIZE field to a new value. */ -#define TRNG_WR_SDCTL_SAMP_SIZE(base, value) \ - (TRNG_RMW_SDCTL(base, TRNG_SDCTL_SAMP_SIZE_MASK, TRNG_SDCTL_SAMP_SIZE(value))) -/*@}*/ - -/*! - * @name Register TRNG_SDCTL, field ENT_DLY[31:16] (RW) - * - * Entropy Delay. Defines the length (in system clocks) of each Entropy sample - * taken. This field is writable only if MCTL[PRGM] bit is 1. This field will read - * zeroes if MCTL[PRGM] = 0. This field is cleared to 0C80h (decimal 3200) by - * writing the MCTL[RST_DEF] bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SDCTL_ENT_DLY field. */ -#define TRNG_RD_SDCTL_ENT_DLY(base) ((TRNG_SDCTL_REG(base) & TRNG_SDCTL_ENT_DLY_MASK) >> TRNG_SDCTL_ENT_DLY_SHIFT) - -/*! @brief Set the ENT_DLY field to a new value. */ -#define TRNG_WR_SDCTL_ENT_DLY(base, value) (TRNG_RMW_SDCTL(base, TRNG_SDCTL_ENT_DLY_MASK, TRNG_SDCTL_ENT_DLY(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SBLIM - RNG Sparse Bit Limit Register - ******************************************************************************/ - -/*! - * @brief TRNG_SBLIM - RNG Sparse Bit Limit Register (RW) - * - * Reset value: 0x0000003FU - * - * The RNG Sparse Bit Limit Register is used when Von Neumann sampling is - * selected during Entropy Generation. It defines the maximum number of consecutive Von - * Neumann samples which may be discarded before an error is generated. Note - * that this address (0xBASE_0614) is used as SBLIM only if MCTL[PRGM] is 1. If - * MCTL[PRGM] is 0, this address is used as TOTSAM readback register. - */ -/*! - * @name Constants and macros for entire TRNG_SBLIM register - */ -/*@{*/ -#define TRNG_SBLIM_REG(base) ((base)->SBLIM) -#define TRNG_RD_SBLIM(base) (TRNG_SBLIM_REG(base)) -#define TRNG_WR_SBLIM(base, value) (TRNG_SBLIM_REG(base) = (value)) -#define TRNG_RMW_SBLIM(base, mask, value) (TRNG_WR_SBLIM(base, (TRNG_RD_SBLIM(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SBLIM bitfields - */ - -/*! - * @name Register TRNG_SBLIM, field SB_LIM[9:0] (RW) - * - * Sparse Bit Limit. During Von Neumann sampling (if enabled by MCTL[SAMP_MODE], - * samples are discarded if two consecutive raw samples are both 0 or both 1. If - * this discarding occurs for a long period of time, it indicates that there is - * insufficient Entropy. The Sparse Bit Limit defines the maximum number of - * consecutive samples that may be discarded before an error is generated. This field - * is writable only if MCTL[PRGM] bit is 1. This register is cleared to 03hF by - * writing the MCTL[RST_DEF] bit to 1. Note that if MCTL[PRGM] bit is 0, this - * register address is used to read the Total Samples count in register TOTSAM, as - * defined in the following section. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SBLIM_SB_LIM field. */ -#define TRNG_RD_SBLIM_SB_LIM(base) ((TRNG_SBLIM_REG(base) & TRNG_SBLIM_SB_LIM_MASK) >> TRNG_SBLIM_SB_LIM_SHIFT) - -/*! @brief Set the SB_LIM field to a new value. */ -#define TRNG_WR_SBLIM_SB_LIM(base, value) (TRNG_RMW_SBLIM(base, TRNG_SBLIM_SB_LIM_MASK, TRNG_SBLIM_SB_LIM(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_SCMISC - RNG Statistical Check Miscellaneous Register - ******************************************************************************/ - -/*! - * @brief TRNG_SCMISC - RNG Statistical Check Miscellaneous Register (RW) - * - * Reset value: 0x0001001FU - * - * The RNG Statistical Check Miscellaneous Register contains the Long Run - * Maximum Limit value and the Retry Count value. This register is accessible only when - * the MCTL[PRGM] bit is 1, otherwise this register will read zeroes, and cannot - * be written. - */ -/*! - * @name Constants and macros for entire TRNG_SCMISC register - */ -/*@{*/ -#define TRNG_SCMISC_REG(base) ((base)->SCMISC) -#define TRNG_RD_SCMISC(base) (TRNG_SCMISC_REG(base)) -#define TRNG_WR_SCMISC(base, value) (TRNG_SCMISC_REG(base) = (value)) -#define TRNG_RMW_SCMISC(base, mask, value) (TRNG_WR_SCMISC(base, (TRNG_RD_SCMISC(base) & ~(mask)) | (value))) -/*@}*/ - -/* - * Constants & macros for individual TRNG_SCMISC bitfields - */ - -/*! - * @name Register TRNG_SCMISC, field LRUN_MAX[7:0] (RW) - * - * LONG RUN MAX LIMIT. This value is the largest allowable number of consecutive - * samples of all 1, or all 0, that is allowed during the Entropy generation. - * This field is writable only if MCTL[PRGM] bit is 1. This field will read zeroes - * if MCTL[PRGM] = 0. This field is cleared to 22h by writing the MCTL[RST_DEF] - * bit to 1. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SCMISC_LRUN_MAX field. */ -#define TRNG_RD_SCMISC_LRUN_MAX(base) \ - ((TRNG_SCMISC_REG(base) & TRNG_SCMISC_LRUN_MAX_MASK) >> TRNG_SCMISC_LRUN_MAX_SHIFT) - -/*! @brief Set the LRUN_MAX field to a new value. */ -#define TRNG_WR_SCMISC_LRUN_MAX(base, value) \ - (TRNG_RMW_SCMISC(base, TRNG_SCMISC_LRUN_MAX_MASK, TRNG_SCMISC_LRUN_MAX(value))) -/*@}*/ - -/******************************************************************************* - * TRNG_ENT - RNG TRNG Entropy Read Register - ******************************************************************************/ - -/*! - * @brief TRNG_ENT - RNG TRNG Entropy Read Register (RO) - * - * Reset value: 0x00000000U - * - * The RNG TRNG can be programmed to generate an entropy value that is readable - * via the SkyBlue bus. To do this, set the MCTL[TRNG_ACC] bit to 1. Once the - * entropy value has been generated, the MCTL[ENT_VAL] bit will be set to 1. At this - * point, ENT0 through ENT15 may be read to retrieve the 512-bit entropy value. - * Note that once ENT15 is read, the entropy value will be cleared and a new - * value will begin generation, so it is important that ENT15 be read last. These - * registers are readable only when MCTL[PRGM] = 0 (Run Mode), MCTL[TRNG_ACC] = 1 - * (TRNG access mode) and MCTL[ENT_VAL] = 1, otherwise zeroes will be read. - */ -/*! - * @name Constants and macros for entire TRNG_ENT register - */ -/*@{*/ -#define TRNG_ENT_REG(base, index) ((base)->ENT[index]) -#define TRNG_RD_ENT(base, index) (TRNG_ENT_REG(base, index)) -/*@}*/ - -/******************************************************************************* - * TRNG_SEC_CFG - RNG Security Configuration Register - ******************************************************************************/ - -/*! - * @brief TRNG_SEC_CFG - RNG Security Configuration Register (RW) - * - * Reset value: 0x00000000U - * - * The RNG Security Configuration Register is a read/write register used to - * control the test mode, programmability and state modes of the RNG. Many bits are - * place holders for this version. More configurability will be added here. Clears - * on asynchronous reset. For SA-TRNG releases before 2014/July/01, offsets 0xA0 - * to 0xAC used to be 0xB0 to 0xBC respectively. So, update newer tests that use - * these registers, if hard coded. - */ -/*! - * @name Constants and macros for entire TRNG_SEC_CFG register - */ -/*@{*/ -#define TRNG_SEC_CFG_REG(base) ((base)->SEC_CFG) -#define TRNG_RD_SEC_CFG(base) (TRNG_SEC_CFG_REG(base)) -#define TRNG_WR_SEC_CFG(base, value) (TRNG_SEC_CFG_REG(base) = (value)) -#define TRNG_RMW_SEC_CFG(base, mask, value) (TRNG_WR_SEC_CFG(base, (TRNG_RD_SEC_CFG(base) & ~(mask)) | (value))) -/*@}*/ - -/*! - * @name Register TRNG_SEC_CFG, field NO_PRGM[1] (RW) - * - * If set the TRNG registers cannot be programmed. That is, regardless of the - * TRNG access mode in the SA-TRNG Miscellaneous Control Register. - * - * Values: - * - 0b0 - Programability of registers controlled only by the RNG Miscellaneous - * Control Register's access mode bit. - * - 0b1 - Overides RNG Miscellaneous Control Register access mode and prevents - * TRNG register programming. - */ -/*@{*/ -/*! @brief Read current value of the TRNG_SEC_CFG_NO_PRGM field. */ -#define TRNG_RD_SEC_CFG_NO_PRGM(base) \ - ((TRNG_SEC_CFG_REG(base) & TRNG_SEC_CFG_NO_PRGM_MASK) >> TRNG_SEC_CFG_NO_PRGM_SHIFT) - -/*! @brief Set the NO_PRGM field to a new value. */ -#define TRNG_WR_SEC_CFG_NO_PRGM(base, value) \ - (TRNG_RMW_SEC_CFG(base, TRNG_SEC_CFG_NO_PRGM_MASK, TRNG_SEC_CFG_NO_PRGM(value))) -/*@}*/ - -/*! @brief Array to map TRNG instance number to base pointer. */ -static TRNG_Type *const s_trngBases[] = TRNG_BASE_PTRS; - -#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) -/*! @brief Clock array name */ -static const clock_ip_name_t s_trngClock[] = TRNG_CLOCKS; -#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ - -/******************************************************************************* - * Prototypes - *******************************************************************************/ -static status_t trng_ApplyUserConfig(TRNG_Type *base, const trng_config_t *userConfig); -static status_t trng_SetRetryCount(TRNG_Type *base, uint8_t retry_count); -static status_t trng_SetMonobitLimit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit1Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit2Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit3Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit4Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit5Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetRunBit6Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetPokerMaxLimit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum); -static status_t trng_SetFrequencyCountMaxLimit(TRNG_Type *base, uint32_t limit_minimum, uint32_t limit_maximum); -static status_t trng_SetStatisticalCheckLimit(TRNG_Type *base, - trng_statistical_check_t statistical_check, - const trng_statistical_check_limit_t *limit); -static uint32_t trng_ReadEntropy(TRNG_Type *base, uint32_t index); -static uint32_t trng_GetInstance(TRNG_Type *base); - -/******************************************************************************* - * Code - ******************************************************************************/ - -static uint32_t trng_GetInstance(TRNG_Type *base) -{ - uint32_t instance; - - /* Find the instance index from base address mappings. */ - for (instance = 0; instance < ARRAY_SIZE(s_trngBases); instance++) - { - if (s_trngBases[instance] == base) - { - break; - } - } - - assert(instance < ARRAY_SIZE(s_trngBases)); - - return instance; -} - -/*FUNCTION********************************************************************* - * - * Function Name : TRNG_InitUserConfigDefault - * Description : Initializes user configuration structure to default settings. - * - *END*************************************************************************/ -/*! - * brief Initializes the user configuration structure to default values. - * - * This function initializes the configuration structure to default values. The default - * values are as follows. - * code - * userConfig->lock = 0; - * userConfig->clockMode = kTRNG_ClockModeRingOscillator; - * userConfig->ringOscDiv = kTRNG_RingOscDiv0; Or to other kTRNG_RingOscDiv[2|8] depending on the platform. - * userConfig->sampleMode = kTRNG_SampleModeRaw; - * userConfig->entropyDelay = 3200; - * userConfig->sampleSize = 2500; - * userConfig->sparseBitLimit = TRNG_USER_CONFIG_DEFAULT_SPARSE_BIT_LIMIT; - * userConfig->retryCount = 63; - * userConfig->longRunMaxLimit = 34; - * userConfig->monobitLimit.maximum = 1384; - * userConfig->monobitLimit.minimum = 1116; - * userConfig->runBit1Limit.maximum = 405; - * userConfig->runBit1Limit.minimum = 227; - * userConfig->runBit2Limit.maximum = 220; - * userConfig->runBit2Limit.minimum = 98; - * userConfig->runBit3Limit.maximum = 125; - * userConfig->runBit3Limit.minimum = 37; - * userConfig->runBit4Limit.maximum = 75; - * userConfig->runBit4Limit.minimum = 11; - * userConfig->runBit5Limit.maximum = 47; - * userConfig->runBit5Limit.minimum = 1; - * userConfig->runBit6PlusLimit.maximum = 47; - * userConfig->runBit6PlusLimit.minimum = 1; - * userConfig->pokerLimit.maximum = 26912; - * userConfig->pokerLimit.minimum = 24445; - * userConfig->frequencyCountLimit.maximum = 25600; - * userConfig->frequencyCountLimit.minimum = 1600; - * endcode - * - * param userConfig User configuration structure. - * return If successful, returns the kStatus_TRNG_Success. Otherwise, it returns an error. - */ -status_t TRNG_GetDefaultConfig(trng_config_t *userConfig) -{ - status_t result; - - if (userConfig != NULL) - { - /* Initializes the configuration structure to default values. */ - - /* Lock programmability of TRNG registers. */ - userConfig->lock = (bool)TRNG_USER_CONFIG_DEFAULT_LOCK; - /* Clock settings */ - userConfig->clockMode = kTRNG_ClockModeRingOscillator; - userConfig->ringOscDiv = TRNG_USER_CONFIG_DEFAULT_OSC_DIV; - userConfig->sampleMode = kTRNG_SampleModeRaw; - /* Seed control*/ - userConfig->entropyDelay = TRNG_USER_CONFIG_DEFAULT_ENTROPY_DELAY; - userConfig->sampleSize = TRNG_USER_CONFIG_DEFAULT_SAMPLE_SIZE; - userConfig->sparseBitLimit = TRNG_USER_CONFIG_DEFAULT_SPARSE_BIT_LIMIT; - - /* Statistical Check Parameters.*/ - userConfig->retryCount = TRNG_USER_CONFIG_DEFAULT_RETRY_COUNT; - userConfig->longRunMaxLimit = TRNG_USER_CONFIG_DEFAULT_RUN_MAX_LIMIT; - - userConfig->monobitLimit.maximum = TRNG_USER_CONFIG_DEFAULT_MONOBIT_MAXIMUM; - userConfig->monobitLimit.minimum = TRNG_USER_CONFIG_DEFAULT_MONOBIT_MINIMUM; - userConfig->runBit1Limit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT1_MAXIMUM; - userConfig->runBit1Limit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT1_MINIMUM; - userConfig->runBit2Limit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT2_MAXIMUM; - userConfig->runBit2Limit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT2_MINIMUM; - userConfig->runBit3Limit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT3_MAXIMUM; - userConfig->runBit3Limit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT3_MINIMUM; - userConfig->runBit4Limit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT4_MAXIMUM; - userConfig->runBit4Limit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT4_MINIMUM; - userConfig->runBit5Limit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT5_MAXIMUM; - userConfig->runBit5Limit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT5_MINIMUM; - userConfig->runBit6PlusLimit.maximum = TRNG_USER_CONFIG_DEFAULT_RUNBIT6PLUS_MAXIMUM; - userConfig->runBit6PlusLimit.minimum = TRNG_USER_CONFIG_DEFAULT_RUNBIT6PLUS_MINIMUM; - /* Limits for statistical check of "Poker Test". */ - userConfig->pokerLimit.maximum = TRNG_USER_CONFIG_DEFAULT_POKER_MAXIMUM; - userConfig->pokerLimit.minimum = TRNG_USER_CONFIG_DEFAULT_POKER_MINIMUM; - /* Limits for statistical check of entropy sample frequency count. */ - userConfig->frequencyCountLimit.maximum = TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MAXIMUM; - userConfig->frequencyCountLimit.minimum = TRNG_USER_CONFIG_DEFAULT_FREQUENCY_MINIMUM; - - result = kStatus_Success; - } - else - { - result = kStatus_InvalidArgument; - } - - return result; -} - -/*! - * @brief Sets the TRNG retry count. - * - * This function sets the retry counter which defines the number of times a - * statistical check may fails during the TRNG Entropy Generation before - * generating an error. - */ -static status_t trng_SetRetryCount(TRNG_Type *base, uint8_t retry_count) -{ - status_t status; - - if ((retry_count >= 1u) && (retry_count <= 15u)) - { - /* Set retry count.*/ - TRNG_WR_SCMISC_RTY_CT(base, retry_count); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Check Monobit Limit Register . - * - * This function set register TRNG_SCML - Statistical Check Monobit Limit Register - */ -static status_t trng_SetMonobitLimit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0xffffu) && (limit_maximum <= 0xffffu)) - - { - /* Set TRNG_SCML register */ - TRNG_WR_SCML_MONO_MAX(base, limit_maximum); - TRNG_WR_SCML_MONO_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 1 Limit Register . - * - * This function set register TRNG_SCR1L - Statistical Check Run Length 1 Limit Register - */ -static status_t trng_SetRunBit1Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0x7fffu) && (limit_maximum <= 0x7fffu)) - { - /* Set TRNG_SCR1L register */ - TRNG_WR_SCR1L_RUN1_MAX(base, limit_maximum); - TRNG_WR_SCR1L_RUN1_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 2 Limit Register . - * - * This function set register TRNG_SCR2L - Statistical Check Run Length 2 Limit Register - */ -static status_t trng_SetRunBit2Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0x3fffu) && (limit_maximum <= 0x3fffu)) - { - /* Set TRNG_SCR2L register */ - TRNG_WR_SCR2L_RUN2_MAX(base, limit_maximum); - TRNG_WR_SCR2L_RUN2_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 3 Limit Register . - * - * This function set register TRNG_SCR3L - Statistical Check Run Length 3 Limit Register - */ -static status_t trng_SetRunBit3Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0x1fffu) && (limit_maximum <= 0x1fffu)) - { - /* Set TRNG_SCR3L register */ - TRNG_WR_SCR3L_RUN3_MAX(base, limit_maximum); - TRNG_WR_SCR3L_RUN3_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 4 Limit Register . - * This function set register TRNG_SCR4L - Statistical Check Run Length 4 Limit Register - */ -static status_t trng_SetRunBit4Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0xfffu) && (limit_maximum <= 0xfffu)) - { - /* Set TRNG_SCR4L register */ - TRNG_WR_SCR4L_RUN4_MAX(base, limit_maximum); - TRNG_WR_SCR4L_RUN4_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 5 Limit Register . - * This function set register TRNG_SCR5L - Statistical Check Run Length 5 Limit Register - */ -static status_t trng_SetRunBit5Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0x7ffu) && (limit_maximum <= 0x7ffu)) - { - /* Set TRNG_SCR5L register */ - TRNG_WR_SCR5L_RUN5_MAX(base, limit_maximum); - TRNG_WR_SCR5L_RUN5_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Statistical Check Run Length 6 Limit Register . - * This function set register TRNG_SCR6L - Statistical Check Run Length 6 Limit Register - */ -static status_t trng_SetRunBit6Limit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0x7ffu) && (limit_maximum <= 0x7ffu)) - { - /* Set TRNG_SCR6L register */ - TRNG_WR_SCR6PL_RUN6P_MAX(base, limit_maximum); - TRNG_WR_SCR6PL_RUN6P_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Poker Maximum Limit Register. - * This function set register TRNG_PKRMAX - Poker Maximum Limit Register - */ -static status_t trng_SetPokerMaxLimit(TRNG_Type *base, uint32_t range, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((range <= 0xffffu) && (limit_maximum <= 0xffffffu)) - { - /* Set TRNG_PKRMAX register */ - TRNG_WR_PKRMAX_PKR_MAX(base, limit_maximum); - TRNG_WR_PKRRNG_PKR_RNG(base, range); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical Frequency Count Maximum Limit Register. - * This function set register TRNG_FRQMAX - Frequency Count Maximum Limit Register - */ -static status_t trng_SetFrequencyCountMaxLimit(TRNG_Type *base, uint32_t limit_minimum, uint32_t limit_maximum) -{ - status_t status; - - /* Check input parameters*/ - if ((limit_minimum <= 0x3fffffu) && (limit_maximum <= 0x3fffffu)) - { - /* Set FRQMAX register */ - TRNG_WR_FRQMAX_FRQ_MAX(base, limit_maximum); - TRNG_WR_FRQMIN_FRQ_MIN(base, limit_minimum); - status = kStatus_Success; - } - else - { - status = kStatus_InvalidArgument; - } - return status; -} - -/*! - * @brief Sets statistical check limits. - * - * This function is used to set minimum and maximum limits of statistical checks. - * - */ -static status_t trng_SetStatisticalCheckLimit(TRNG_Type *base, - trng_statistical_check_t statistical_check, - const trng_statistical_check_limit_t *limit) -{ - uint32_t range; - status_t status = kStatus_Success; - - if ((NULL != limit) && (limit->maximum > limit->minimum)) - { - range = limit->maximum - limit->minimum; /* Registers use range instead of minimum value.*/ - - if (statistical_check == kTRNG_StatisticalCheckMonobit) /* Allowable maximum and minimum number of ones/zero - detected during entropy generation. */ - { - status = trng_SetMonobitLimit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit1) /* Allowable maximum and minimum number of runs of - length 1 detected during entropy generation. */ - { - status = trng_SetRunBit1Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit2) /* Allowable maximum and minimum number of runs of - length 2 detected during entropy generation. */ - { - status = trng_SetRunBit2Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit3) /* Allowable maximum and minimum number of runs of - length 3 detected during entropy generation. */ - { - status = trng_SetRunBit3Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit4) /* Allowable maximum and minimum number of runs of - length 4 detected during entropy generation. */ - { - status = trng_SetRunBit4Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit5) /* Allowable maximum and minimum number of runs of - length 5 detected during entropy generation. */ - { - status = trng_SetRunBit5Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckRunBit6Plus) /* Allowable maximum and minimum number of - length 6 or more detected during entropy - generation */ - { - status = trng_SetRunBit6Limit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckPoker) /* Allowable maximum and minimum limit of "Poker - Test" detected during entropy generation . */ - { - status = trng_SetPokerMaxLimit(base, range, limit->maximum); - } - else if (statistical_check == kTRNG_StatisticalCheckFrequencyCount) /* Allowable maximum and minimum limit of - entropy sample frquency count during - entropy generation . */ - { - status = trng_SetFrequencyCountMaxLimit(base, limit->minimum, limit->maximum); - } - else - { - status = kStatus_InvalidArgument; - } - } - - return status; -} - -/*FUNCTION********************************************************************* - * - * Function Name : trng_ApplyUserConfig - * Description : Apply user configuration settings to TRNG module. - * - *END*************************************************************************/ -static status_t trng_ApplyUserConfig(TRNG_Type *base, const trng_config_t *userConfig) -{ - status_t status; - - /* Set retry count */ - status = trng_SetRetryCount(base, userConfig->retryCount); - - /* Set statistical check limit */ - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckMonobit, &userConfig->monobitLimit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit1, &userConfig->runBit1Limit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit2, &userConfig->runBit2Limit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit3, &userConfig->runBit3Limit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit4, &userConfig->runBit4Limit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit5, &userConfig->runBit5Limit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckRunBit6Plus, &userConfig->runBit6PlusLimit); - } - - if (kStatus_Success == status) - { - status = trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckPoker, &userConfig->pokerLimit); - } - - if (kStatus_Success == status) - { - status = - trng_SetStatisticalCheckLimit(base, kTRNG_StatisticalCheckFrequencyCount, &userConfig->frequencyCountLimit); - } - - if (kStatus_Success == status) - { - /* Set clock mode used to operate TRNG */ - TRNG_WR_MCTL_FOR_SCLK(base, userConfig->clockMode); - /* Set ring oscillator divider used by TRNG */ - TRNG_WR_MCTL_OSC_DIV(base, userConfig->ringOscDiv); - /* Set sample mode of the TRNG ring oscillator. */ - TRNG_WR_MCTL_SAMP_MODE(base, userConfig->sampleMode); - /* Set length of each Entropy sample taken */ - TRNG_WR_SDCTL_ENT_DLY(base, userConfig->entropyDelay); - /* Set number of entropy samples that will be taken during Entropy generation */ - TRNG_WR_SDCTL_SAMP_SIZE(base, userConfig->sampleSize); - /* Set Sparse Bit Limit */ - TRNG_WR_SBLIM_SB_LIM(base, userConfig->sparseBitLimit); - TRNG_WR_SCMISC_LRUN_MAX(base, userConfig->longRunMaxLimit); - } - - return status; -} - -/*! - * @brief Gets a entry data from the TRNG. - * - * This function gets an entropy data from TRNG. - * Entropy data is spread over TRNG_ENT_COUNT registers. - * Read register number is defined by index parameter. - */ -static uint32_t trng_ReadEntropy(TRNG_Type *base, uint32_t index) -{ - uint32_t data; - - index = index % TRNG_ENT_COUNT; /* This way we can use incremental index without limit control from application.*/ - - data = TRNG_RD_ENT(base, index); - - if (index == (TRNG_ENT_COUNT - 1u)) - { - /* Dummy read. Defect workaround. - * TRNG could not clear ENT_VAL flag automatically, application - * had to do a dummy reading operation for anyone TRNG register - * to clear it firstly, then to read the RTENT0 to RTENT15 again */ - index = TRNG_RD_ENT(base, 0); - } - - return data; -} - -/*! - * brief Initializes the TRNG. - * - * This function initializes the TRNG. - * When called, the TRNG entropy generation starts immediately. - * - * param base TRNG base address - * param userConfig Pointer to the initialization configuration structure. - * return If successful, returns the kStatus_TRNG_Success. Otherwise, it returns an error. - */ -status_t TRNG_Init(TRNG_Type *base, const trng_config_t *userConfig) -{ - status_t result; - - /* Check input parameters.*/ - if ((base != NULL) && (userConfig != NULL)) - { -#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) - /* Enable the clock gate. */ - CLOCK_EnableClock(s_trngClock[trng_GetInstance(base)]); -#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ - - /* Reset the registers of TRNG module to reset state. */ - /* Must be in program mode.*/ - TRNG_WR_MCTL_PRGM(base, kTRNG_WorkModeProgram); - /* Reset Defaults.*/ - TRNG_WR_MCTL_RST_DEF(base, 1); - - /* Set configuration.*/ - if ((result = trng_ApplyUserConfig(base, userConfig)) == kStatus_Success) - { - /* Start entropy generation.*/ - /* Set to Run mode.*/ - TRNG_WR_MCTL_PRGM(base, kTRNG_WorkModeRun); -#if !(defined(FSL_FEATURE_TRNG_HAS_NO_TRNG_ACC) && (FSL_FEATURE_TRNG_HAS_NO_TRNG_ACC > 0)) - /* Enable TRNG Access Mode. To generate an Entropy - * value that can be read via the true0-true15 registers.*/ - TRNG_WR_MCTL_TRNG_ACC(base, 1); -#endif /* !FSL_FEATURE_TRNG_HAS_NO_TRNG_ACC */ - - (void)trng_ReadEntropy(base, (TRNG_ENT_COUNT - 1u)); - - if (true == userConfig->lock) /* Disable programmability of TRNG registers. */ - { - TRNG_WR_SEC_CFG_NO_PRGM(base, 1); - } - - result = kStatus_Success; - } - } - else - { - result = kStatus_InvalidArgument; - } - - return result; -} - -/*! - * brief Shuts down the TRNG. - * - * This function shuts down the TRNG. - * - * param base TRNG base address. - */ -void TRNG_Deinit(TRNG_Type *base) -{ - /* Check input parameters.*/ - if (NULL != base) - { - /* Move to program mode. Stop entropy generation.*/ - TRNG_WR_MCTL_PRGM(base, kTRNG_WorkModeProgram); - - /* Check before clock stop. - TRNG turns on the TRNG free-running ring oscillator whenever new entropy - is being generated and turns off the ring oscillator when entropy generation - is complete. If the TRNG clock is stopped while the TRNG ring oscillator - is running, the oscillator continues running though the RNG clock. - is stopped. */ - while (TRNG_RD_MCTL_TSTOP_OK(base) == 0u) - { - } - -#if !(defined(FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) && FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL) - /* Disable Clock*/ - CLOCK_DisableClock(s_trngClock[trng_GetInstance(base)]); -#endif /* FSL_SDK_DISABLE_DRIVER_CLOCK_CONTROL */ - } -} - -/*! - * brief Gets random data. - * - * This function gets random data from the TRNG. - * - * param base TRNG base address. - * param data Pointer address used to store random data. - * param dataSize Size of the buffer pointed by the data parameter. - * return random data - */ -status_t TRNG_GetRandomData(TRNG_Type *base, void *data, size_t dataSize) -{ - status_t result = kStatus_Success; - uint32_t random_32; - uint8_t *random_p; - uint32_t random_size; - uint8_t *data_p = (uint8_t *)data; - uint32_t i; - uint32_t tmpValidFlag; - uint32_t tmpErrorFlag; - - int index = 0; - - /* Check input parameters.*/ - if ((NULL != base) && (NULL != data) && (0U != dataSize)) - { - do - { - /* Wait for Valid or Error flag*/ - tmpValidFlag = TRNG_RD_MCTL_ENT_VAL(base); - tmpErrorFlag = TRNG_RD_MCTL_ERR(base); - while ((tmpValidFlag == 0u) && (tmpErrorFlag == 0u)) - { - tmpValidFlag = TRNG_RD_MCTL_ENT_VAL(base); - tmpErrorFlag = TRNG_RD_MCTL_ERR(base); - } - - /* Check HW error.*/ - if (0U != TRNG_RD_MCTL_ERR(base)) - { - result = kStatus_Fail; /* TRNG module error occurred */ - /* Clear error.*/ - TRNG_WR_MCTL_ERR(base, 1); - break; /* No sense stay here.*/ - } - - /* Read Entropy.*/ - random_32 = trng_ReadEntropy(base, (uint32_t)index++); - - random_p = (uint8_t *)&random_32; - - if (dataSize < sizeof(random_32)) - { - random_size = dataSize; - } - else - { - random_size = sizeof(random_32); - } - - for (i = 0U; i < random_size; i++) - { - *data_p++ = *random_p++; - } - - dataSize -= random_size; - } while (dataSize > 0u); - - /* Start a new entropy generation. - It is done by reading of the last entropy register.*/ - if (((unsigned)index % TRNG_ENT_COUNT) != (TRNG_ENT_COUNT - 1u)) - { - (void)trng_ReadEntropy(base, (TRNG_ENT_COUNT - 1u)); - } - } - else - { - result = kStatus_InvalidArgument; - } - - return result; -} - -#endif /* FSL_FEATURE_SOC_TRNG_COUNT */ |