9ad860758c
* `ledcWriteTone()` added a `apbcallback()` evertime the tone value was non zero. * `addApbChangeCallback()` did not detect duplicate callbacks. * changed the apbcallback list to a double link to support roll forward, roll back execution. This made the sequences of clock change callback start with the newest registered -> to oldest on the `before` then oldest -> newest after the clock change. This made the UART debug log output have minimal gibberish during the clock change. * change how the UART callback handled the MUTEX because if any `apbchangeCallback()` executed a `log_x()` a deadlock would occur. This fixes #3555
231 lines
7.8 KiB
C
231 lines
7.8 KiB
C
// Copyright 2015-2016 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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// 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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#include "sdkconfig.h"
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#include "freertos/FreeRTOS.h"
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#include "freertos/semphr.h"
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#include "freertos/task.h"
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#include "freertos/xtensa_timer.h"
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#include "esp_attr.h"
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#include "esp_log.h"
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#include "soc/rtc.h"
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#include "soc/rtc_cntl_reg.h"
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#include "rom/rtc.h"
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#include "soc/apb_ctrl_reg.h"
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#include "soc/efuse_reg.h"
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#include "esp32-hal.h"
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#include "esp32-hal-cpu.h"
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typedef struct apb_change_cb_s {
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struct apb_change_cb_s * prev;
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struct apb_change_cb_s * next;
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void * arg;
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apb_change_cb_t cb;
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} apb_change_t;
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const uint32_t MHZ = 1000000;
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static apb_change_t * apb_change_callbacks = NULL;
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static xSemaphoreHandle apb_change_lock = NULL;
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static void initApbChangeCallback(){
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static volatile bool initialized = false;
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if(!initialized){
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initialized = true;
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apb_change_lock = xSemaphoreCreateMutex();
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if(!apb_change_lock){
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initialized = false;
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}
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}
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}
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static void triggerApbChangeCallback(apb_change_ev_t ev_type, uint32_t old_apb, uint32_t new_apb){
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initApbChangeCallback();
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xSemaphoreTake(apb_change_lock, portMAX_DELAY);
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apb_change_t * r = apb_change_callbacks;
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if( r != NULL ){
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if(ev_type == APB_BEFORE_CHANGE )
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while(r != NULL){
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r->cb(r->arg, ev_type, old_apb, new_apb);
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r=r->next;
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}
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else { // run backwards through chain
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while(r->next != NULL) r = r->next; // find first added
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while( r != NULL){
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r->cb(r->arg, ev_type, old_apb, new_apb);
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r=r->prev;
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}
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}
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}
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xSemaphoreGive(apb_change_lock);
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}
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bool addApbChangeCallback(void * arg, apb_change_cb_t cb){
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initApbChangeCallback();
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apb_change_t * c = (apb_change_t*)malloc(sizeof(apb_change_t));
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if(!c){
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log_e("Callback Object Malloc Failed");
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return false;
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}
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c->next = NULL;
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c->prev = NULL;
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c->arg = arg;
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c->cb = cb;
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xSemaphoreTake(apb_change_lock, portMAX_DELAY);
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if(apb_change_callbacks == NULL){
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apb_change_callbacks = c;
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} else {
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apb_change_t * r = apb_change_callbacks;
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// look for duplicate callbacks
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while( (r != NULL ) && !((r->cb == cb) && ( r->arg == arg))) r = r->next;
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if (r) {
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log_e("duplicate func=%08X arg=%08X",c->cb,c->arg);
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free(c);
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xSemaphoreGive(apb_change_lock);
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return false;
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}
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else {
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c->next = apb_change_callbacks;
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apb_change_callbacks-> prev = c;
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apb_change_callbacks = c;
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}
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}
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xSemaphoreGive(apb_change_lock);
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return true;
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}
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bool removeApbChangeCallback(void * arg, apb_change_cb_t cb){
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initApbChangeCallback();
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xSemaphoreTake(apb_change_lock, portMAX_DELAY);
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apb_change_t * r = apb_change_callbacks;
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// look for matching callback
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while( (r != NULL ) && !((r->cb == cb) && ( r->arg == arg))) r = r->next;
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if ( r == NULL ) {
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log_e("not found func=%08X arg=%08X",cb,arg);
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xSemaphoreGive(apb_change_lock);
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return false;
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}
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else {
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// patch links
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if(r->prev) r->prev->next = r->next;
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else { // this is first link
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apb_change_callbacks = r->next;
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}
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if(r->next) r->next->prev = r->prev;
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free(r);
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}
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xSemaphoreGive(apb_change_lock);
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return true;
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}
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static uint32_t calculateApb(rtc_cpu_freq_config_t * conf){
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if(conf->freq_mhz >= 80){
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return 80 * MHZ;
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}
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return (conf->source_freq_mhz * MHZ) / conf->div;
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}
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void esp_timer_impl_update_apb_freq(uint32_t apb_ticks_per_us); //private in IDF
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bool setCpuFrequencyMhz(uint32_t cpu_freq_mhz){
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rtc_cpu_freq_config_t conf, cconf;
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uint32_t capb, apb;
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//Get XTAL Frequency and calculate min CPU MHz
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rtc_xtal_freq_t xtal = rtc_clk_xtal_freq_get();
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if(xtal > RTC_XTAL_FREQ_AUTO){
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if(xtal < RTC_XTAL_FREQ_40M) {
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if(cpu_freq_mhz <= xtal && cpu_freq_mhz != xtal && cpu_freq_mhz != (xtal/2)){
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log_e("Bad frequency: %u MHz! Options are: 240, 160, 80, %u and %u MHz", cpu_freq_mhz, xtal, xtal/2);
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return false;
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}
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} else if(cpu_freq_mhz <= xtal && cpu_freq_mhz != xtal && cpu_freq_mhz != (xtal/2) && cpu_freq_mhz != (xtal/4)){
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log_e("Bad frequency: %u MHz! Options are: 240, 160, 80, %u, %u and %u MHz", cpu_freq_mhz, xtal, xtal/2, xtal/4);
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return false;
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}
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}
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if(cpu_freq_mhz > xtal && cpu_freq_mhz != 240 && cpu_freq_mhz != 160 && cpu_freq_mhz != 80){
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if(xtal >= RTC_XTAL_FREQ_40M){
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log_e("Bad frequency: %u MHz! Options are: 240, 160, 80, %u, %u and %u MHz", cpu_freq_mhz, xtal, xtal/2, xtal/4);
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} else {
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log_e("Bad frequency: %u MHz! Options are: 240, 160, 80, %u and %u MHz", cpu_freq_mhz, xtal, xtal/2);
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}
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return false;
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}
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//check if cpu supports the frequency
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if(cpu_freq_mhz == 240){
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//Check if ESP32 is rated for a CPU frequency of 160MHz only
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if (REG_GET_BIT(EFUSE_BLK0_RDATA3_REG, EFUSE_RD_CHIP_CPU_FREQ_RATED) &&
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REG_GET_BIT(EFUSE_BLK0_RDATA3_REG, EFUSE_RD_CHIP_CPU_FREQ_LOW)) {
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log_e("Can not switch to 240 MHz! Chip CPU frequency rated for 160MHz.");
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cpu_freq_mhz = 160;
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}
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}
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//Get current CPU clock configuration
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rtc_clk_cpu_freq_get_config(&cconf);
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//return if frequency has not changed
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if(cconf.freq_mhz == cpu_freq_mhz){
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return true;
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}
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//Get configuration for the new CPU frequency
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if(!rtc_clk_cpu_freq_mhz_to_config(cpu_freq_mhz, &conf)){
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log_e("CPU clock could not be set to %u MHz", cpu_freq_mhz);
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return false;
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}
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//Current APB
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capb = calculateApb(&cconf);
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//New APB
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apb = calculateApb(&conf);
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log_d("%s: %u / %u = %u Mhz, APB: %u Hz", (conf.source == RTC_CPU_FREQ_SRC_PLL)?"PLL":((conf.source == RTC_CPU_FREQ_SRC_APLL)?"APLL":((conf.source == RTC_CPU_FREQ_SRC_XTAL)?"XTAL":"8M")), conf.source_freq_mhz, conf.div, conf.freq_mhz, apb);
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//Call peripheral functions before the APB change
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if(apb_change_callbacks){
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triggerApbChangeCallback(APB_BEFORE_CHANGE, capb, apb);
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}
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//Make the frequency change
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rtc_clk_cpu_freq_set_config_fast(&conf);
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if(capb != apb){
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//Update REF_TICK (uncomment if REF_TICK is different than 1MHz)
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//if(conf.freq_mhz < 80){
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// ESP_REG(APB_CTRL_XTAL_TICK_CONF_REG) = conf.freq_mhz / (REF_CLK_FREQ / MHZ) - 1;
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// }
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//Update APB Freq REG
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rtc_clk_apb_freq_update(apb);
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//Update esp_timer divisor
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esp_timer_impl_update_apb_freq(apb / MHZ);
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}
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//Update FreeRTOS Tick Divisor
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uint32_t fcpu = (conf.freq_mhz >= 80)?(conf.freq_mhz * MHZ):(apb);
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_xt_tick_divisor = fcpu / XT_TICK_PER_SEC;
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//Call peripheral functions after the APB change
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if(apb_change_callbacks){
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triggerApbChangeCallback(APB_AFTER_CHANGE, capb, apb);
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}
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return true;
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}
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uint32_t getCpuFrequencyMhz(){
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rtc_cpu_freq_config_t conf;
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rtc_clk_cpu_freq_get_config(&conf);
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return conf.freq_mhz;
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}
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uint32_t getXtalFrequencyMhz(){
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return rtc_clk_xtal_freq_get();
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}
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uint32_t getApbFrequency(){
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rtc_cpu_freq_config_t conf;
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rtc_clk_cpu_freq_get_config(&conf);
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return calculateApb(&conf);
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}
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