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rtc_clk.c
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rtc_clk.c
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/*
* SPDX-FileCopyrightText: 2022-2023 Espressif Systems (Shanghai) CO LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <stdbool.h>
#include <stdint.h>
#include <stddef.h>
#include <assert.h>
#include <stdlib.h>
#include "sdkconfig.h"
#include "esp32c6/rom/rtc.h"
#include "soc/rtc.h"
#include "esp_private/rtc_clk.h"
#include "esp_hw_log.h"
#include "esp_rom_sys.h"
#include "hal/clk_tree_ll.h"
#include "hal/regi2c_ctrl_ll.h"
#include "soc/io_mux_reg.h"
#include "soc/lp_aon_reg.h"
#include "esp_private/sleep_event.h"
#ifdef BOOTLOADER_BUILD
#include "hal/modem_lpcon_ll.h"
#else
#include "esp_private/esp_modem_clock.h"
#endif
static const char *TAG = "rtc_clk";
// Current PLL frequency, in 480MHz. Zero if PLL is not enabled.
static int s_cur_pll_freq;
static uint32_t s_bbpll_digi_consumers_ref_count = 0; // Currently, it only tracks whether the 48MHz PHY clock is in-use by USB Serial/JTAG
void rtc_clk_bbpll_add_consumer(void)
{
s_bbpll_digi_consumers_ref_count += 1;
}
void rtc_clk_bbpll_remove_consumer(void)
{
s_bbpll_digi_consumers_ref_count -= 1;
}
void rtc_clk_32k_enable(bool enable)
{
if (enable) {
clk_ll_xtal32k_enable(CLK_LL_XTAL32K_ENABLE_MODE_CRYSTAL);
} else {
clk_ll_xtal32k_disable();
}
}
void rtc_clk_32k_enable_external(void)
{
// EXT_OSC_SLOW_GPIO_NUM == GPIO_NUM_0
PIN_INPUT_ENABLE(IO_MUX_GPIO0_REG);
REG_SET_BIT(LP_AON_GPIO_HOLD0_REG, BIT(EXT_OSC_SLOW_GPIO_NUM));
clk_ll_xtal32k_enable(CLK_LL_XTAL32K_ENABLE_MODE_EXTERNAL);
}
void rtc_clk_32k_bootstrap(uint32_t cycle)
{
/* No special bootstrapping needed for ESP32-C6, 'cycle' argument is to keep the signature
* same as for the ESP32. Just enable the XTAL here.
*/
(void)cycle;
rtc_clk_32k_enable(true);
}
bool rtc_clk_32k_enabled(void)
{
return clk_ll_xtal32k_is_enabled();
}
void rtc_clk_rc32k_enable(bool enable)
{
if (enable) {
clk_ll_rc32k_enable();
esp_rom_delay_us(SOC_DELAY_RC32K_ENABLE);
} else {
clk_ll_rc32k_disable();
}
}
void rtc_clk_8m_enable(bool clk_8m_en)
{
if (clk_8m_en) {
clk_ll_rc_fast_enable();
esp_rom_delay_us(SOC_DELAY_RC_FAST_ENABLE);
} else {
clk_ll_rc_fast_disable();
}
}
bool rtc_clk_8m_enabled(void)
{
return clk_ll_rc_fast_is_enabled();
}
void rtc_clk_slow_src_set(soc_rtc_slow_clk_src_t clk_src)
{
clk_ll_rtc_slow_set_src(clk_src);
esp_rom_delay_us(SOC_DELAY_RTC_SLOW_CLK_SWITCH);
}
soc_rtc_slow_clk_src_t rtc_clk_slow_src_get(void)
{
return clk_ll_rtc_slow_get_src();
}
uint32_t rtc_clk_slow_freq_get_hz(void)
{
switch (rtc_clk_slow_src_get()) {
case SOC_RTC_SLOW_CLK_SRC_RC_SLOW: return SOC_CLK_RC_SLOW_FREQ_APPROX;
case SOC_RTC_SLOW_CLK_SRC_XTAL32K: return SOC_CLK_XTAL32K_FREQ_APPROX;
case SOC_RTC_SLOW_CLK_SRC_RC32K: return SOC_CLK_RC32K_FREQ_APPROX;
case SOC_RTC_SLOW_CLK_SRC_OSC_SLOW: return SOC_CLK_OSC_SLOW_FREQ_APPROX;
default: return 0;
}
}
void rtc_clk_fast_src_set(soc_rtc_fast_clk_src_t clk_src)
{
clk_ll_rtc_fast_set_src(clk_src);
esp_rom_delay_us(SOC_DELAY_RTC_FAST_CLK_SWITCH);
}
soc_rtc_fast_clk_src_t rtc_clk_fast_src_get(void)
{
return clk_ll_rtc_fast_get_src();
}
static void rtc_clk_bbpll_disable(void)
{
clk_ll_bbpll_disable();
s_cur_pll_freq = 0;
}
static void rtc_clk_bbpll_enable(void)
{
clk_ll_bbpll_enable();
}
static void rtc_clk_enable_i2c_ana_master_clock(bool enable)
{
#ifdef BOOTLOADER_BUILD
modem_lpcon_ll_enable_i2c_master_clock(&MODEM_LPCON, enable);
#else
if (enable) {
modem_clock_module_enable(PERIPH_ANA_I2C_MASTER_MODULE);
} else {
modem_clock_module_disable(PERIPH_ANA_I2C_MASTER_MODULE);
}
#endif
}
static void rtc_clk_bbpll_configure(rtc_xtal_freq_t xtal_freq, int pll_freq)
{
/* Digital part */
clk_ll_bbpll_set_freq_mhz(pll_freq);
/* Analog part */
rtc_clk_enable_i2c_ana_master_clock(true);
/* BBPLL CALIBRATION START */
regi2c_ctrl_ll_bbpll_calibration_start();
clk_ll_bbpll_set_config(pll_freq, xtal_freq);
/* WAIT CALIBRATION DONE */
while(!regi2c_ctrl_ll_bbpll_calibration_is_done());
/* BBPLL CALIBRATION STOP */
regi2c_ctrl_ll_bbpll_calibration_stop();
rtc_clk_enable_i2c_ana_master_clock(false);
s_cur_pll_freq = pll_freq;
}
/**
* Switch to use XTAL as the CPU clock source.
* Must satisfy: cpu_freq = XTAL_FREQ / div.
* Does not disable the PLL.
*/
static void rtc_clk_cpu_freq_to_xtal(int cpu_freq, int div)
{
clk_ll_ahb_set_ls_divider(div);
clk_ll_cpu_set_ls_divider(div);
clk_ll_cpu_set_src(SOC_CPU_CLK_SRC_XTAL);
esp_rom_set_cpu_ticks_per_us(cpu_freq);
}
static void rtc_clk_cpu_freq_to_8m(void)
{
clk_ll_ahb_set_ls_divider(1);
clk_ll_cpu_set_ls_divider(1);
clk_ll_cpu_set_src(SOC_CPU_CLK_SRC_RC_FAST);
esp_rom_set_cpu_ticks_per_us(20);
}
/**
* Switch to one of PLL-based frequencies. Current frequency can be XTAL or PLL.
* PLL must already be enabled.
* @param cpu_freq new CPU frequency
*/
static void rtc_clk_cpu_freq_to_pll_mhz(int cpu_freq_mhz)
{
clk_ll_cpu_set_hs_divider(CLK_LL_PLL_480M_FREQ_MHZ / cpu_freq_mhz);
clk_ll_cpu_set_src(SOC_CPU_CLK_SRC_PLL);
esp_rom_set_cpu_ticks_per_us(cpu_freq_mhz);
}
bool rtc_clk_cpu_freq_mhz_to_config(uint32_t freq_mhz, rtc_cpu_freq_config_t *out_config)
{
uint32_t source_freq_mhz;
soc_cpu_clk_src_t source;
uint32_t divider; // divider = freq of SOC_ROOT_CLK / freq of CPU_CLK
uint32_t real_freq_mhz;
uint32_t xtal_freq = (uint32_t)rtc_clk_xtal_freq_get();
if (freq_mhz <= xtal_freq && freq_mhz != 0) {
divider = xtal_freq / freq_mhz;
real_freq_mhz = (xtal_freq + divider / 2) / divider; /* round */
if (real_freq_mhz != freq_mhz) {
// no suitable divider
return false;
}
source_freq_mhz = xtal_freq;
source = SOC_CPU_CLK_SRC_XTAL;
} else if (freq_mhz == 80) {
real_freq_mhz = freq_mhz;
source = SOC_CPU_CLK_SRC_PLL;
source_freq_mhz = CLK_LL_PLL_480M_FREQ_MHZ;
divider = 6;
} else if (freq_mhz == 120) {
real_freq_mhz = freq_mhz;
source = SOC_CPU_CLK_SRC_PLL;
source_freq_mhz = CLK_LL_PLL_480M_FREQ_MHZ;
divider = 4;
} else if (freq_mhz == 160) {
real_freq_mhz = freq_mhz;
source = SOC_CPU_CLK_SRC_PLL;
source_freq_mhz = CLK_LL_PLL_480M_FREQ_MHZ;
divider = 3;
} else {
// unsupported frequency
return false;
}
*out_config = (rtc_cpu_freq_config_t) {
.source = source,
.div = divider,
.source_freq_mhz = source_freq_mhz,
.freq_mhz = real_freq_mhz
};
return true;
}
__attribute__((weak)) void rtc_clk_set_cpu_switch_to_bbpll(int event_id)
{
}
void rtc_clk_cpu_freq_set_config(const rtc_cpu_freq_config_t *config)
{
soc_cpu_clk_src_t old_cpu_clk_src = clk_ll_cpu_get_src();
if (config->source == SOC_CPU_CLK_SRC_XTAL) {
rtc_clk_cpu_freq_to_xtal(config->freq_mhz, config->div);
if ((old_cpu_clk_src == SOC_CPU_CLK_SRC_PLL) && !s_bbpll_digi_consumers_ref_count) {
// We don't turn off the bbpll if some consumers depend on bbpll
rtc_clk_bbpll_disable();
}
} else if (config->source == SOC_CPU_CLK_SRC_PLL) {
if (old_cpu_clk_src != SOC_CPU_CLK_SRC_PLL) {
rtc_clk_set_cpu_switch_to_bbpll(SLEEP_EVENT_HW_BBPLL_EN_START);
rtc_clk_bbpll_enable();
rtc_clk_bbpll_configure(rtc_clk_xtal_freq_get(), config->source_freq_mhz);
}
rtc_clk_cpu_freq_to_pll_mhz(config->freq_mhz);
rtc_clk_set_cpu_switch_to_bbpll(SLEEP_EVENT_HW_BBPLL_EN_STOP);
} else if (config->source == SOC_CPU_CLK_SRC_RC_FAST) {
rtc_clk_cpu_freq_to_8m();
if ((old_cpu_clk_src == SOC_CPU_CLK_SRC_PLL) && !s_bbpll_digi_consumers_ref_count) {
// We don't turn off the bbpll if some consumers depend on bbpll
rtc_clk_bbpll_disable();
}
}
}
void rtc_clk_cpu_freq_get_config(rtc_cpu_freq_config_t *out_config)
{
soc_cpu_clk_src_t source = clk_ll_cpu_get_src();
uint32_t source_freq_mhz;
uint32_t div; // div = freq of SOC_ROOT_CLK / freq of CPU_CLK
uint32_t freq_mhz;
switch (source) {
case SOC_CPU_CLK_SRC_XTAL: {
div = clk_ll_cpu_get_ls_divider();
source_freq_mhz = (uint32_t)rtc_clk_xtal_freq_get();
freq_mhz = source_freq_mhz / div;
break;
}
case SOC_CPU_CLK_SRC_PLL: {
div = clk_ll_cpu_get_hs_divider();
source_freq_mhz = clk_ll_bbpll_get_freq_mhz();
freq_mhz = source_freq_mhz / div;
break;
}
case SOC_CPU_CLK_SRC_RC_FAST:
div = clk_ll_cpu_get_ls_divider();
source_freq_mhz = 20;
freq_mhz = source_freq_mhz / div;
break;
default:
ESP_HW_LOGE(TAG, "unsupported frequency configuration");
abort();
}
*out_config = (rtc_cpu_freq_config_t) {
.source = source,
.source_freq_mhz = source_freq_mhz,
.div = div,
.freq_mhz = freq_mhz
};
}
void rtc_clk_cpu_freq_set_config_fast(const rtc_cpu_freq_config_t *config)
{
if (config->source == SOC_CPU_CLK_SRC_XTAL) {
rtc_clk_cpu_freq_to_xtal(config->freq_mhz, config->div);
} else if (config->source == SOC_CPU_CLK_SRC_PLL &&
s_cur_pll_freq == config->source_freq_mhz) {
rtc_clk_cpu_freq_to_pll_mhz(config->freq_mhz);
} else if (config->source == SOC_CPU_CLK_SRC_RC_FAST) {
rtc_clk_cpu_freq_to_8m();
} else {
/* fallback */
rtc_clk_cpu_freq_set_config(config);
}
}
void rtc_clk_cpu_freq_set_xtal(void)
{
rtc_clk_cpu_set_to_default_config();
// We don't turn off the bbpll if some consumers depend on bbpll
if (!s_bbpll_digi_consumers_ref_count) {
rtc_clk_bbpll_disable();
}
}
void rtc_clk_cpu_set_to_default_config(void)
{
int freq_mhz = (int)rtc_clk_xtal_freq_get();
rtc_clk_cpu_freq_to_xtal(freq_mhz, 1);
}
void rtc_clk_cpu_freq_to_pll_and_pll_lock_release(int cpu_freq_mhz)
{
rtc_clk_cpu_freq_to_pll_mhz(cpu_freq_mhz);
clk_ll_cpu_clk_src_lock_release();
}
rtc_xtal_freq_t rtc_clk_xtal_freq_get(void)
{
uint32_t xtal_freq_mhz = clk_ll_xtal_load_freq_mhz();
if (xtal_freq_mhz == 0) {
ESP_HW_LOGW(TAG, "invalid RTC_XTAL_FREQ_REG value, assume 40MHz");
return RTC_XTAL_FREQ_40M;
}
return (rtc_xtal_freq_t)xtal_freq_mhz;
}
void rtc_clk_xtal_freq_update(rtc_xtal_freq_t xtal_freq)
{
clk_ll_xtal_store_freq_mhz(xtal_freq);
}
static uint32_t rtc_clk_ahb_freq_get(void)
{
soc_cpu_clk_src_t source = clk_ll_cpu_get_src();
uint32_t soc_root_freq_mhz;
uint32_t divider;
switch (source) {
case SOC_CPU_CLK_SRC_XTAL:
soc_root_freq_mhz = rtc_clk_xtal_freq_get();
divider = clk_ll_ahb_get_ls_divider();
break;
case SOC_CPU_CLK_SRC_PLL:
soc_root_freq_mhz = clk_ll_bbpll_get_freq_mhz();
divider = clk_ll_ahb_get_hs_divider();
break;
case SOC_CPU_CLK_SRC_RC_FAST:
soc_root_freq_mhz = 20;
divider = clk_ll_ahb_get_ls_divider();
break;
default:
// Unknown SOC_ROOT clock source
soc_root_freq_mhz = 0;
divider = 1;
ESP_HW_LOGE(TAG, "Invalid SOC_ROOT_CLK");
break;
}
return soc_root_freq_mhz / divider;
}
uint32_t rtc_clk_apb_freq_get(void)
{
return rtc_clk_ahb_freq_get() / clk_ll_apb_get_divider() * MHZ;
}
void rtc_dig_clk8m_enable(void)
{
clk_ll_rc_fast_digi_enable();
esp_rom_delay_us(SOC_DELAY_RC_FAST_DIGI_SWITCH);
}
void rtc_dig_clk8m_disable(void)
{
clk_ll_rc_fast_digi_disable();
esp_rom_delay_us(SOC_DELAY_RC_FAST_DIGI_SWITCH);
}
bool rtc_dig_8m_enabled(void)
{
return clk_ll_rc_fast_digi_is_enabled();
}
/* Name used in libphy.a:phy_chip_v7.o
* TODO: update the library to use rtc_clk_xtal_freq_get
*/
rtc_xtal_freq_t rtc_get_xtal(void) __attribute__((alias("rtc_clk_xtal_freq_get")));