2021-08-05 11:35:07 -04:00
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/*
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* SPDX-FileCopyrightText: 2016-2021 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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2019-05-09 23:34:06 -04:00
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#include <stdint.h>
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#include <stddef.h>
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#include <string.h>
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#include <sys/param.h>
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#include "esp_attr.h"
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2022-07-21 07:24:42 -04:00
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#include "esp_cpu.h"
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2019-05-09 23:34:06 -04:00
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#include "soc/wdev_reg.h"
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2021-11-06 05:23:21 -04:00
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#include "esp_private/esp_clk.h"
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2021-01-29 00:42:17 -05:00
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2023-06-02 02:19:01 -04:00
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#if SOC_LP_TIMER_SUPPORTED
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2023-02-10 01:13:20 -05:00
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#include "hal/lp_timer_hal.h"
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#endif
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2021-10-25 07:13:42 -04:00
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#if defined CONFIG_IDF_TARGET_ESP32S3
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2023-05-30 00:15:48 -04:00
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#define APB_CYCLE_WAIT_NUM (1778) /* If APB clock is 80 MHz, the maximum sampling frequency is around 45 KHz*/
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2021-10-25 07:13:42 -04:00
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/* 45 KHz reading frequency is the maximum we have tested so far on S3 */
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2023-02-10 01:13:20 -05:00
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#elif defined CONFIG_IDF_TARGET_ESP32C6
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2023-05-30 00:15:48 -04:00
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#define APB_CYCLE_WAIT_NUM (160 * 16) /* On ESP32C6, we only read one byte at a time, then XOR the value with
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* an asynchronous timer (see code below).
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* The current value translates to a sampling frequency of around 62.5 KHz
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* for reading 8 bit samples, which is the rate at which the RNG was tested,
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2023-02-10 01:13:20 -05:00
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* plus additional overhead for the calculation, making it slower. */
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#elif defined CONFIG_IDF_TARGET_ESP32H2
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2023-05-30 00:15:48 -04:00
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#define APB_CYCLE_WAIT_NUM (96 * 16) /* Same reasoning as for ESP32C6, but the CPU frequency on ESP32H2 is
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* 96MHz instead of 160 MHz */
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#else
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#define APB_CYCLE_WAIT_NUM (16)
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#endif
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2019-05-09 23:34:06 -04:00
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uint32_t IRAM_ATTR esp_random(void)
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{
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/* The PRNG which implements WDEV_RANDOM register gets 2 bits
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* of extra entropy from a hardware randomness source every APB clock cycle
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* (provided WiFi or BT are enabled). To make sure entropy is not drained
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* faster than it is added, this function needs to wait for at least 16 APB
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* clock cycles after reading previous word. This implementation may actually
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* wait a bit longer due to extra time spent in arithmetic and branch statements.
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*
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* As a (probably unncessary) precaution to avoid returning the
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* RNG state as-is, the result is XORed with additional
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* WDEV_RND_REG reads while waiting.
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*/
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/* This code does not run in a critical section, so CPU frequency switch may
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* happens while this code runs (this will not happen in the current
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* implementation, but possible in the future). However if that happens,
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* the number of cycles spent on frequency switching will certainly be more
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* than the number of cycles we need to wait here.
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*/
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uint32_t cpu_to_apb_freq_ratio = esp_clk_cpu_freq() / esp_clk_apb_freq();
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static uint32_t last_ccount = 0;
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uint32_t ccount;
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uint32_t result = 0;
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#if SOC_LP_TIMER_SUPPORTED
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for (size_t i = 0; i < sizeof(result); i++) {
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do {
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ccount = esp_cpu_get_cycle_count();
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result ^= REG_READ(WDEV_RND_REG);
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} while (ccount - last_ccount < cpu_to_apb_freq_ratio * APB_CYCLE_WAIT_NUM);
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uint32_t current_rtc_timer_counter = (lp_timer_hal_get_cycle_count() & 0xFF);
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result ^= ((result ^ current_rtc_timer_counter) & 0xFF) << (i * 8);
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}
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#else
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do {
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ccount = esp_cpu_get_cycle_count();
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result ^= REG_READ(WDEV_RND_REG);
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} while (ccount - last_ccount < cpu_to_apb_freq_ratio * APB_CYCLE_WAIT_NUM);
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#endif
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last_ccount = ccount;
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return result ^ REG_READ(WDEV_RND_REG);
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}
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void esp_fill_random(void *buf, size_t len)
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{
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assert(buf != NULL);
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uint8_t *buf_bytes = (uint8_t *)buf;
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while (len > 0) {
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uint32_t word = esp_random();
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uint32_t to_copy = MIN(sizeof(word), len);
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memcpy(buf_bytes, &word, to_copy);
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buf_bytes += to_copy;
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len -= to_copy;
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}
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}
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