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https://github.com/espressif/esp-idf.git
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11c1da5276
Removes deprecated ways of setting/getting CPU freq, light sleep freqs. Deprecated since ESP-IDF V3.2
652 lines
25 KiB
C
652 lines
25 KiB
C
// Copyright 2015-2017 Espressif Systems (Shanghai) PTE LTD
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#pragma once
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#include <stdbool.h>
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#include <stddef.h>
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#include <stdint.h>
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#include "soc/soc.h"
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#include "soc/rtc_periph.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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/**
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* @file rtc.h
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* @brief Low-level RTC power, clock, and sleep functions.
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*
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* Functions in this file facilitate configuration of ESP32's RTC_CNTL peripheral.
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* RTC_CNTL peripheral handles many functions:
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* - enables/disables clocks and power to various parts of the chip; this is
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* done using direct register access (forcing power up or power down) or by
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* allowing state machines to control power and clocks automatically
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* - handles sleep and wakeup functions
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* - maintains a 48-bit counter which can be used for timekeeping
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*
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* These functions are not thread safe, and should not be viewed as high level
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* APIs. For example, while this file provides a function which can switch
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* CPU frequency, this function is on its own is not sufficient to implement
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* frequency switching in ESP-IDF context: some coordination with RTOS,
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* peripheral drivers, and WiFi/BT stacks is also required.
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*
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* These functions will normally not be used in applications directly.
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* ESP-IDF provides, or will provide, drivers and other facilities to use
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* RTC subsystem functionality.
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*
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* The functions are loosely split into the following groups:
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* - rtc_clk: clock switching, calibration
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* - rtc_time: reading RTC counter, conversion between counter values and time
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* - rtc_sleep: entry into sleep modes
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* - rtc_init: initialization
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*/
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/**
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* @brief Possible main XTAL frequency values.
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*
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* Enum values should be equal to frequency in MHz.
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*/
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typedef enum {
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RTC_XTAL_FREQ_AUTO = 0, //!< Automatic XTAL frequency detection
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RTC_XTAL_FREQ_40M = 40, //!< 40 MHz XTAL
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RTC_XTAL_FREQ_26M = 26, //!< 26 MHz XTAL
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RTC_XTAL_FREQ_24M = 24, //!< 24 MHz XTAL
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} rtc_xtal_freq_t;
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/**
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* @brief CPU frequency values
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*/
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typedef enum {
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RTC_CPU_FREQ_XTAL = 0, //!< Main XTAL frequency
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RTC_CPU_FREQ_80M = 1, //!< 80 MHz
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RTC_CPU_FREQ_160M = 2, //!< 160 MHz
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RTC_CPU_FREQ_240M = 3, //!< 240 MHz
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RTC_CPU_FREQ_2M = 4, //!< 2 MHz
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} rtc_cpu_freq_t;
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/**
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* @brief CPU clock source
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*/
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typedef enum {
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RTC_CPU_FREQ_SRC_XTAL, //!< XTAL
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RTC_CPU_FREQ_SRC_PLL, //!< PLL (480M or 320M)
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RTC_CPU_FREQ_SRC_8M, //!< Internal 8M RTC oscillator
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RTC_CPU_FREQ_SRC_APLL //!< APLL
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} rtc_cpu_freq_src_t;
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/**
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* @brief CPU clock configuration structure
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*/
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typedef struct rtc_cpu_freq_config_s {
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rtc_cpu_freq_src_t source; //!< The clock from which CPU clock is derived
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uint32_t source_freq_mhz; //!< Source clock frequency
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uint32_t div; //!< Divider, freq_mhz = source_freq_mhz / div
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uint32_t freq_mhz; //!< CPU clock frequency
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} rtc_cpu_freq_config_t;
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/**
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* @brief RTC SLOW_CLK frequency values
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*/
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typedef enum {
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RTC_SLOW_FREQ_RTC = 0, //!< Internal 150 kHz RC oscillator
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RTC_SLOW_FREQ_32K_XTAL = 1, //!< External 32 kHz XTAL
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RTC_SLOW_FREQ_8MD256 = 2, //!< Internal 8 MHz RC oscillator, divided by 256
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} rtc_slow_freq_t;
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/**
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* @brief RTC FAST_CLK frequency values
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*/
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typedef enum {
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RTC_FAST_FREQ_XTALD4 = 0, //!< Main XTAL, divided by 4
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RTC_FAST_FREQ_8M = 1, //!< Internal 8 MHz RC oscillator
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} rtc_fast_freq_t;
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/* With the default value of CK8M_DFREQ, 8M clock frequency is 8.5 MHz +/- 7% */
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#define RTC_FAST_CLK_FREQ_APPROX 8500000
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/**
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* @brief Clock source to be calibrated using rtc_clk_cal function
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*/
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typedef enum {
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RTC_CAL_RTC_MUX = 0, //!< Currently selected RTC SLOW_CLK
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RTC_CAL_8MD256 = 1, //!< Internal 8 MHz RC oscillator, divided by 256
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RTC_CAL_32K_XTAL = 2 //!< External 32 kHz XTAL
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} rtc_cal_sel_t;
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/**
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* Initialization parameters for rtc_clk_init
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*/
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typedef struct rtc_clk_config_s {
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rtc_xtal_freq_t xtal_freq : 8; //!< Main XTAL frequency
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rtc_cpu_freq_t cpu_freq_mhz : 10; //!< CPU frequency to set, in MHz
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rtc_fast_freq_t fast_freq : 1; //!< RTC_FAST_CLK frequency to set
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rtc_slow_freq_t slow_freq : 2; //!< RTC_SLOW_CLK frequency to set
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uint32_t clk_8m_div : 3; //!< RTC 8M clock divider (division is by clk_8m_div+1, i.e. 0 means 8MHz frequency)
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uint32_t slow_clk_dcap : 8; //!< RTC 150k clock adjustment parameter (higher value leads to lower frequency)
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uint32_t clk_8m_dfreq : 8; //!< RTC 8m clock adjustment parameter (higher value leads to higher frequency)
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} rtc_clk_config_t;
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/**
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* Default initializer for rtc_clk_config_t
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*/
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#define RTC_CLK_CONFIG_DEFAULT() { \
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.xtal_freq = RTC_XTAL_FREQ_AUTO, \
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.cpu_freq_mhz = 80, \
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.fast_freq = RTC_FAST_FREQ_8M, \
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.slow_freq = RTC_SLOW_FREQ_RTC, \
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.clk_8m_div = 0, \
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.slow_clk_dcap = RTC_CNTL_SCK_DCAP_DEFAULT, \
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.clk_8m_dfreq = RTC_CNTL_CK8M_DFREQ_DEFAULT, \
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}
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/**
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* Initialize clocks and set CPU frequency
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*
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* If cfg.xtal_freq is set to RTC_XTAL_FREQ_AUTO, this function will attempt
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* to auto detect XTAL frequency. Auto detection is performed by comparing
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* XTAL frequency with the frequency of internal 8MHz oscillator. Note that at
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* high temperatures the frequency of the internal 8MHz oscillator may drift
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* enough for auto detection to be unreliable.
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* Auto detection code will attempt to distinguish between 26MHz and 40MHz
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* crystals. 24 MHz crystals are not supported by auto detection code.
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* If XTAL frequency can not be auto detected, this 26MHz frequency will be used.
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*
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* @param cfg clock configuration as rtc_clk_config_t
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*/
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void rtc_clk_init(rtc_clk_config_t cfg);
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/**
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* @brief Get main XTAL frequency
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*
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* This is the value stored in RTC register RTC_XTAL_FREQ_REG by the bootloader. As passed to
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* rtc_clk_init function, or if the value was RTC_XTAL_FREQ_AUTO, the detected
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* XTAL frequency.
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*
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* @return XTAL frequency, one of rtc_xtal_freq_t
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*/
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rtc_xtal_freq_t rtc_clk_xtal_freq_get(void);
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/**
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* @brief Update XTAL frequency
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*
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* Updates the XTAL value stored in RTC_XTAL_FREQ_REG. Usually this value is ignored
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* after startup.
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*
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* @param xtal_freq New frequency value
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*/
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void rtc_clk_xtal_freq_update(rtc_xtal_freq_t xtal_freq);
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/**
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* @brief Enable or disable 32 kHz XTAL oscillator
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* @param en true to enable, false to disable
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*/
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void rtc_clk_32k_enable(bool en);
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/**
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* @brief Configure 32 kHz XTAL oscillator to accept external clock signal
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*/
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void rtc_clk_32k_enable_external(void);
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/**
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* @brief Get the state of 32k XTAL oscillator
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* @return true if 32k XTAL oscillator has been enabled
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*/
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bool rtc_clk_32k_enabled(void);
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/**
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* @brief Enable 32k oscillator, configuring it for fast startup time.
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* Note: to achieve higher frequency stability, rtc_clk_32k_enable function
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* must be called one the 32k XTAL oscillator has started up. This function
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* will initially disable the 32k XTAL oscillator, so it should not be called
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* when the system is using 32k XTAL as RTC_SLOW_CLK.
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*
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* @param cycle Number of 32kHz cycles to bootstrap external crystal.
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* If 0, no square wave will be used to bootstrap crystal oscillation.
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*/
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void rtc_clk_32k_bootstrap(uint32_t cycle);
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/**
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* @brief Enable or disable 8 MHz internal oscillator
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*
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* Output from 8 MHz internal oscillator is passed into a configurable
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* divider, which by default divides the input clock frequency by 256.
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* Output of the divider may be used as RTC_SLOW_CLK source.
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* Output of the divider is referred to in register descriptions and code as
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* 8md256 or simply d256. Divider values other than 256 may be configured, but
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* this facility is not currently needed, so is not exposed in the code.
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*
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* When 8MHz/256 divided output is not needed, the divider should be disabled
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* to reduce power consumption.
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*
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* @param clk_8m_en true to enable 8MHz generator
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* @param d256_en true to enable /256 divider
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*/
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void rtc_clk_8m_enable(bool clk_8m_en, bool d256_en);
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/**
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* @brief Get the state of 8 MHz internal oscillator
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* @return true if the oscillator is enabled
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*/
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bool rtc_clk_8m_enabled(void);
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/**
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* @brief Get the state of /256 divider which is applied to 8MHz clock
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* @return true if the divided output is enabled
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*/
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bool rtc_clk_8md256_enabled(void);
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/**
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* @brief Enable or disable APLL
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*
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* Output frequency is given by the formula:
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* apll_freq = xtal_freq * (4 + sdm2 + sdm1/256 + sdm0/65536)/((o_div + 2) * 2)
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*
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* The dividend in this expression should be in the range of 240 - 600 MHz.
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*
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* In rev. 0 of ESP32, sdm0 and sdm1 are unused and always set to 0.
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*
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* @param enable true to enable, false to disable
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* @param sdm0 frequency adjustment parameter, 0..255
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* @param sdm1 frequency adjustment parameter, 0..255
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* @param sdm2 frequency adjustment parameter, 0..63
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* @param o_div frequency divider, 0..31
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*/
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void rtc_clk_apll_enable(bool enable, uint32_t sdm0, uint32_t sdm1,
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uint32_t sdm2, uint32_t o_div);
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/**
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* @brief Select source for RTC_SLOW_CLK
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* @param slow_freq clock source (one of rtc_slow_freq_t values)
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*/
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void rtc_clk_slow_freq_set(rtc_slow_freq_t slow_freq);
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/**
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* @brief Get the RTC_SLOW_CLK source
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* @return currently selected clock source (one of rtc_slow_freq_t values)
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*/
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rtc_slow_freq_t rtc_clk_slow_freq_get(void);
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/**
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* @brief Get the approximate frequency of RTC_SLOW_CLK, in Hz
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*
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* - if RTC_SLOW_FREQ_RTC is selected, returns ~150000
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* - if RTC_SLOW_FREQ_32K_XTAL is selected, returns 32768
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* - if RTC_SLOW_FREQ_8MD256 is selected, returns ~33000
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*
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* rtc_clk_cal function can be used to get more precise value by comparing
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* RTC_SLOW_CLK frequency to the frequency of main XTAL.
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*
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* @return RTC_SLOW_CLK frequency, in Hz
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*/
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uint32_t rtc_clk_slow_freq_get_hz(void);
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/**
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* @brief Select source for RTC_FAST_CLK
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* @param fast_freq clock source (one of rtc_fast_freq_t values)
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*/
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void rtc_clk_fast_freq_set(rtc_fast_freq_t fast_freq);
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/**
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* @brief Get the RTC_FAST_CLK source
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* @return currently selected clock source (one of rtc_fast_freq_t values)
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*/
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rtc_fast_freq_t rtc_clk_fast_freq_get(void);
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/**
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* @brief Get CPU frequency config corresponding to a rtc_cpu_freq_t value
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* @param cpu_freq CPU frequency enumeration value
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* @param[out] out_config Output, CPU frequency configuration structure
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*/
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void rtc_clk_cpu_freq_to_config(rtc_cpu_freq_t cpu_freq, rtc_cpu_freq_config_t* out_config);
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/**
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* @brief Get CPU frequency config for a given frequency
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* @param freq_mhz Frequency in MHz
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* @param[out] out_config Output, CPU frequency configuration structure
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* @return true if frequency can be obtained, false otherwise
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*/
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bool rtc_clk_cpu_freq_mhz_to_config(uint32_t freq_mhz, rtc_cpu_freq_config_t* out_config);
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/**
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* @brief Switch CPU frequency
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*
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* This function sets CPU frequency according to the given configuration
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* structure. It enables PLLs, if necessary.
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*
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* @note This function in not intended to be called by applications in FreeRTOS
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* environment. This is because it does not adjust various timers based on the
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* new CPU frequency.
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*
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* @param config CPU frequency configuration structure
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*/
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void rtc_clk_cpu_freq_set_config(const rtc_cpu_freq_config_t* config);
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/**
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* @brief Switch CPU frequency (optimized for speed)
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*
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* This function is a faster equivalent of rtc_clk_cpu_freq_set_config.
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* It works faster because it does not disable PLLs when switching from PLL to
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* XTAL and does not enabled them when switching back. If PLL is not already
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* enabled when this function is called to switch from XTAL to PLL frequency,
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* or the PLL which is enabled is the wrong one, this function will fall back
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* to calling rtc_clk_cpu_freq_set_config.
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*
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* Unlike rtc_clk_cpu_freq_set_config, this function relies on static data,
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* so it is less safe to use it e.g. from a panic handler (when memory might
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* be corrupted).
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*
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* @note This function in not intended to be called by applications in FreeRTOS
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* environment. This is because it does not adjust various timers based on the
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* new CPU frequency.
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*
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* @param config CPU frequency configuration structure
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*/
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void rtc_clk_cpu_freq_set_config_fast(const rtc_cpu_freq_config_t* config);
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/**
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* @brief Get the currently used CPU frequency configuration
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* @param[out] out_config Output, CPU frequency configuration structure
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*/
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void rtc_clk_cpu_freq_get_config(rtc_cpu_freq_config_t* out_config);
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/**
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* @brief Switch CPU clock source to XTAL
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*
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* Short form for filling in rtc_cpu_freq_config_t structure and calling
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* rtc_clk_cpu_freq_set_config when a switch to XTAL is needed.
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* Assumes that XTAL frequency has been determined — don't call in startup code.
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*/
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void rtc_clk_cpu_freq_set_xtal(void);
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/**
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* @brief Store new APB frequency value into RTC_APB_FREQ_REG
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*
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* This function doesn't change any hardware clocks.
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*
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* Functions which perform frequency switching and change APB frequency call
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* this function to update the value of APB frequency stored in RTC_APB_FREQ_REG
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* (one of RTC general purpose retention registers). This should not normally
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* be called from application code.
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*
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* @param apb_freq new APB frequency, in Hz
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*/
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void rtc_clk_apb_freq_update(uint32_t apb_freq);
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/**
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* @brief Get the current stored APB frequency.
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* @return The APB frequency value as last set via rtc_clk_apb_freq_update(), in Hz.
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*/
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uint32_t rtc_clk_apb_freq_get(void);
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#define RTC_CLK_CAL_FRACT 19 //!< Number of fractional bits in values returned by rtc_clk_cal
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/**
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* @brief Measure RTC slow clock's period, based on main XTAL frequency
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*
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* This function will time out and return 0 if the time for the given number
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* of cycles to be counted exceeds the expected time twice. This may happen if
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* 32k XTAL is being calibrated, but the oscillator has not started up (due to
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* incorrect loading capacitance, board design issue, or lack of 32 XTAL on board).
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*
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* @param cal_clk clock to be measured
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* @param slow_clk_cycles number of slow clock cycles to average
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* @return average slow clock period in microseconds, Q13.19 fixed point format,
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* or 0 if calibration has timed out
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*/
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uint32_t rtc_clk_cal(rtc_cal_sel_t cal_clk, uint32_t slow_clk_cycles);
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/**
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* @brief Measure ratio between XTAL frequency and RTC slow clock frequency
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* @param cal_clk slow clock to be measured
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* @param slow_clk_cycles number of slow clock cycles to average
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* @return average ratio between XTAL frequency and slow clock frequency,
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* Q13.19 fixed point format, or 0 if calibration has timed out.
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*/
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uint32_t rtc_clk_cal_ratio(rtc_cal_sel_t cal_clk, uint32_t slow_clk_cycles);
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/**
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* @brief Convert time interval from microseconds to RTC_SLOW_CLK cycles
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* @param time_in_us Time interval in microseconds
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* @param slow_clk_period Period of slow clock in microseconds, Q13.19
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* fixed point format (as returned by rtc_slowck_cali).
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* @return number of slow clock cycles
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*/
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uint64_t rtc_time_us_to_slowclk(uint64_t time_in_us, uint32_t period);
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/**
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* @brief Convert time interval from RTC_SLOW_CLK to microseconds
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* @param time_in_us Time interval in RTC_SLOW_CLK cycles
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* @param slow_clk_period Period of slow clock in microseconds, Q13.19
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* fixed point format (as returned by rtc_slowck_cali).
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* @return time interval in microseconds
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*/
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uint64_t rtc_time_slowclk_to_us(uint64_t rtc_cycles, uint32_t period);
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/**
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* @brief Get current value of RTC counter
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*
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* RTC has a 48-bit counter which is incremented by 2 every 2 RTC_SLOW_CLK
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* cycles. Counter value is not writable by software. The value is not adjusted
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* when switching to a different RTC_SLOW_CLK source.
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*
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* Note: this function may take up to 1 RTC_SLOW_CLK cycle to execute
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*
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* @return current value of RTC counter
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*/
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uint64_t rtc_time_get(void);
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/**
|
||
* @brief Busy loop until next RTC_SLOW_CLK cycle
|
||
*
|
||
* This function returns not earlier than the next RTC_SLOW_CLK clock cycle.
|
||
* In some cases (e.g. when RTC_SLOW_CLK cycle is very close), it may return
|
||
* one RTC_SLOW_CLK cycle later.
|
||
*/
|
||
void rtc_clk_wait_for_slow_cycle(void);
|
||
|
||
/**
|
||
* @brief sleep configuration for rtc_sleep_init function
|
||
*/
|
||
typedef struct rtc_sleep_config_s {
|
||
uint32_t lslp_mem_inf_fpu : 1; //!< force normal voltage in sleep mode (digital domain memory)
|
||
uint32_t rtc_mem_inf_fpu : 1; //!< force normal voltage in sleep mode (RTC memory)
|
||
uint32_t rtc_mem_inf_follow_cpu : 1;//!< keep low voltage in sleep mode (even if ULP/touch is used)
|
||
uint32_t rtc_fastmem_pd_en : 1; //!< power down RTC fast memory
|
||
uint32_t rtc_slowmem_pd_en : 1; //!< power down RTC slow memory
|
||
uint32_t rtc_peri_pd_en : 1; //!< power down RTC peripherals
|
||
uint32_t wifi_pd_en : 1; //!< power down WiFi
|
||
uint32_t rom_mem_pd_en : 1; //!< power down main RAM and ROM
|
||
uint32_t deep_slp : 1; //!< power down digital domain
|
||
uint32_t wdt_flashboot_mod_en : 1; //!< enable WDT flashboot mode
|
||
uint32_t dig_dbias_wak : 3; //!< set bias for digital domain, in active mode
|
||
uint32_t dig_dbias_slp : 3; //!< set bias for digital domain, in sleep mode
|
||
uint32_t rtc_dbias_wak : 3; //!< set bias for RTC domain, in active mode
|
||
uint32_t rtc_dbias_slp : 3; //!< set bias for RTC domain, in sleep mode
|
||
uint32_t lslp_meminf_pd : 1; //!< remove all peripheral force power up flags
|
||
uint32_t vddsdio_pd_en : 1; //!< power down VDDSDIO regulator
|
||
uint32_t xtal_fpu : 1; //!< keep main XTAL powered up in sleep
|
||
} rtc_sleep_config_t;
|
||
|
||
/**
|
||
* Default initializer for rtc_sleep_config_t
|
||
*
|
||
* This initializer sets all fields to "reasonable" values (e.g. suggested for
|
||
* production use) based on a combination of RTC_SLEEP_PD_x flags.
|
||
*
|
||
* @param RTC_SLEEP_PD_x flags combined using bitwise OR
|
||
*/
|
||
#define RTC_SLEEP_CONFIG_DEFAULT(sleep_flags) { \
|
||
.lslp_mem_inf_fpu = 0, \
|
||
.rtc_mem_inf_fpu = 0, \
|
||
.rtc_mem_inf_follow_cpu = ((sleep_flags) & RTC_SLEEP_PD_RTC_MEM_FOLLOW_CPU) ? 1 : 0, \
|
||
.rtc_fastmem_pd_en = ((sleep_flags) & RTC_SLEEP_PD_RTC_FAST_MEM) ? 1 : 0, \
|
||
.rtc_slowmem_pd_en = ((sleep_flags) & RTC_SLEEP_PD_RTC_SLOW_MEM) ? 1 : 0, \
|
||
.rtc_peri_pd_en = ((sleep_flags) & RTC_SLEEP_PD_RTC_PERIPH) ? 1 : 0, \
|
||
.wifi_pd_en = 0, \
|
||
.rom_mem_pd_en = 0, \
|
||
.deep_slp = ((sleep_flags) & RTC_SLEEP_PD_DIG) ? 1 : 0, \
|
||
.wdt_flashboot_mod_en = 0, \
|
||
.dig_dbias_wak = RTC_CNTL_DBIAS_1V10, \
|
||
.dig_dbias_slp = RTC_CNTL_DBIAS_0V90, \
|
||
.rtc_dbias_wak = RTC_CNTL_DBIAS_1V10, \
|
||
.rtc_dbias_slp = RTC_CNTL_DBIAS_0V90, \
|
||
.lslp_meminf_pd = 1, \
|
||
.vddsdio_pd_en = ((sleep_flags) & RTC_SLEEP_PD_VDDSDIO) ? 1 : 0, \
|
||
.xtal_fpu = ((sleep_flags) & RTC_SLEEP_PD_XTAL) ? 0 : 1 \
|
||
};
|
||
|
||
#define RTC_SLEEP_PD_DIG BIT(0) //!< Deep sleep (power down digital domain)
|
||
#define RTC_SLEEP_PD_RTC_PERIPH BIT(1) //!< Power down RTC peripherals
|
||
#define RTC_SLEEP_PD_RTC_SLOW_MEM BIT(2) //!< Power down RTC SLOW memory
|
||
#define RTC_SLEEP_PD_RTC_FAST_MEM BIT(3) //!< Power down RTC FAST memory
|
||
#define RTC_SLEEP_PD_RTC_MEM_FOLLOW_CPU BIT(4) //!< RTC FAST and SLOW memories are automatically powered up and down along with the CPU
|
||
#define RTC_SLEEP_PD_VDDSDIO BIT(5) //!< Power down VDDSDIO regulator
|
||
#define RTC_SLEEP_PD_XTAL BIT(6) //!< Power down main XTAL
|
||
|
||
/**
|
||
* @brief Prepare the chip to enter sleep mode
|
||
*
|
||
* This function configures various power control state machines to handle
|
||
* entry into light sleep or deep sleep mode, switches APB and CPU clock source
|
||
* (usually to XTAL), and sets bias voltages for digital and RTC power domains.
|
||
*
|
||
* This function does not actually enter sleep mode; this is done using
|
||
* rtc_sleep_start function. Software may do some other actions between
|
||
* rtc_sleep_init and rtc_sleep_start, such as set wakeup timer and configure
|
||
* wakeup sources.
|
||
* @param cfg sleep mode configuration
|
||
*/
|
||
void rtc_sleep_init(rtc_sleep_config_t cfg);
|
||
|
||
|
||
/**
|
||
* @brief Set target value of RTC counter for RTC_TIMER_TRIG_EN wakeup source
|
||
* @param t value of RTC counter at which wakeup from sleep will happen;
|
||
* only the lower 48 bits are used
|
||
*/
|
||
void rtc_sleep_set_wakeup_time(uint64_t t);
|
||
|
||
|
||
#define RTC_EXT0_TRIG_EN BIT(0) //!< EXT0 GPIO wakeup
|
||
#define RTC_EXT1_TRIG_EN BIT(1) //!< EXT1 GPIO wakeup
|
||
#define RTC_GPIO_TRIG_EN BIT(2) //!< GPIO wakeup (light sleep only)
|
||
#define RTC_TIMER_TRIG_EN BIT(3) //!< Timer wakeup
|
||
#define RTC_SDIO_TRIG_EN BIT(4) //!< SDIO wakeup (light sleep only)
|
||
#define RTC_MAC_TRIG_EN BIT(5) //!< MAC wakeup (light sleep only)
|
||
#define RTC_UART0_TRIG_EN BIT(6) //!< UART0 wakeup (light sleep only)
|
||
#define RTC_UART1_TRIG_EN BIT(7) //!< UART1 wakeup (light sleep only)
|
||
#define RTC_TOUCH_TRIG_EN BIT(8) //!< Touch wakeup
|
||
#define RTC_ULP_TRIG_EN BIT(9) //!< ULP wakeup
|
||
#define RTC_BT_TRIG_EN BIT(10) //!< BT wakeup (light sleep only)
|
||
|
||
/**
|
||
* @brief Enter deep or light sleep mode
|
||
*
|
||
* This function enters the sleep mode previously configured using rtc_sleep_init
|
||
* function. Before entering sleep, software should configure wake up sources
|
||
* appropriately (set up GPIO wakeup registers, timer wakeup registers,
|
||
* and so on).
|
||
*
|
||
* If deep sleep mode was configured using rtc_sleep_init, and sleep is not
|
||
* rejected by hardware (based on reject_opt flags), this function never returns.
|
||
* When the chip wakes up from deep sleep, CPU is reset and execution starts
|
||
* from ROM bootloader.
|
||
*
|
||
* If light sleep mode was configured using rtc_sleep_init, this function
|
||
* returns on wakeup, or if sleep is rejected by hardware.
|
||
*
|
||
* @param wakeup_opt bit mask wake up reasons to enable (RTC_xxx_TRIG_EN flags
|
||
* combined with OR)
|
||
* @param reject_opt bit mask of sleep reject reasons:
|
||
* - RTC_CNTL_GPIO_REJECT_EN
|
||
* - RTC_CNTL_SDIO_REJECT_EN
|
||
* These flags are used to prevent entering sleep when e.g.
|
||
* an external host is communicating via SDIO slave
|
||
* @return non-zero if sleep was rejected by hardware
|
||
*/
|
||
uint32_t rtc_sleep_start(uint32_t wakeup_opt, uint32_t reject_opt);
|
||
|
||
/**
|
||
* RTC power and clock control initialization settings
|
||
*/
|
||
typedef struct rtc_config_s {
|
||
uint32_t ck8m_wait : 8; //!< Number of rtc_fast_clk cycles to wait for 8M clock to be ready
|
||
uint32_t xtal_wait : 8; //!< Number of rtc_fast_clk cycles to wait for XTAL clock to be ready
|
||
uint32_t pll_wait : 8; //!< Number of rtc_fast_clk cycles to wait for PLL to be ready
|
||
uint32_t clkctl_init : 1; //!< Perform clock control related initialization
|
||
uint32_t pwrctl_init : 1; //!< Perform power control related initialization
|
||
uint32_t rtc_dboost_fpd : 1; //!< Force power down RTC_DBOOST
|
||
} rtc_config_t;
|
||
|
||
/**
|
||
* Default initializer of rtc_config_t.
|
||
*
|
||
* This initializer sets all fields to "reasonable" values (e.g. suggested for
|
||
* production use).
|
||
*/
|
||
#define RTC_CONFIG_DEFAULT() {\
|
||
.ck8m_wait = RTC_CNTL_CK8M_WAIT_DEFAULT, \
|
||
.xtal_wait = RTC_CNTL_XTL_BUF_WAIT_DEFAULT, \
|
||
.pll_wait = RTC_CNTL_PLL_BUF_WAIT_DEFAULT, \
|
||
.clkctl_init = 1, \
|
||
.pwrctl_init = 1, \
|
||
.rtc_dboost_fpd = 1 \
|
||
}
|
||
|
||
/**
|
||
* Initialize RTC clock and power control related functions
|
||
* @param cfg configuration options as rtc_config_t
|
||
*/
|
||
void rtc_init(rtc_config_t cfg);
|
||
|
||
#define RTC_VDDSDIO_TIEH_1_8V 0 //!< TIEH field value for 1.8V VDDSDIO
|
||
#define RTC_VDDSDIO_TIEH_3_3V 1 //!< TIEH field value for 3.3V VDDSDIO
|
||
|
||
/**
|
||
* Structure describing vddsdio configuration
|
||
*/
|
||
typedef struct rtc_vddsdio_config_s {
|
||
uint32_t force : 1; //!< If 1, use configuration from RTC registers; if 0, use EFUSE/bootstrapping pins.
|
||
uint32_t enable : 1; //!< Enable VDDSDIO regulator
|
||
uint32_t tieh : 1; //!< Select VDDSDIO voltage. One of RTC_VDDSDIO_TIEH_1_8V, RTC_VDDSDIO_TIEH_3_3V
|
||
uint32_t drefh : 2; //!< Tuning parameter for VDDSDIO regulator
|
||
uint32_t drefm : 2; //!< Tuning parameter for VDDSDIO regulator
|
||
uint32_t drefl : 2; //!< Tuning parameter for VDDSDIO regulator
|
||
} rtc_vddsdio_config_t;
|
||
|
||
/**
|
||
* Get current VDDSDIO configuration
|
||
* If VDDSDIO configuration is overridden by RTC, get values from RTC
|
||
* Otherwise, if VDDSDIO is configured by EFUSE, get values from EFUSE
|
||
* Otherwise, use default values and the level of MTDI bootstrapping pin.
|
||
* @return currently used VDDSDIO configuration
|
||
*/
|
||
rtc_vddsdio_config_t rtc_vddsdio_get_config(void);
|
||
|
||
/**
|
||
* Set new VDDSDIO configuration using RTC registers.
|
||
* If config.force == 1, this overrides configuration done using bootstrapping
|
||
* pins and EFUSE.
|
||
*
|
||
* @param config new VDDSDIO configuration
|
||
*/
|
||
void rtc_vddsdio_set_config(rtc_vddsdio_config_t config);
|
||
|
||
#ifdef __cplusplus
|
||
}
|
||
#endif
|
||
|