arduino-esp32-custom-lwip-p.../cores/esp32/Tone.cpp

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2023-02-25 16:13:53 +01:00
#include <Arduino.h>
#include "esp32-hal-ledc.h"
#include "freertos/task.h"
#include "freertos/queue.h"
#include "freertos/semphr.h"
static TaskHandle_t _tone_task = NULL;
static QueueHandle_t _tone_queue = NULL;
static uint8_t _channel = 0;
typedef enum{
TONE_START,
TONE_END,
TONE_SET_CHANNEL
} tone_cmd_t;
typedef struct{
tone_cmd_t tone_cmd;
uint8_t pin;
unsigned int frequency;
unsigned long duration;
uint8_t channel;
} tone_msg_t;
static void tone_task(void*){
tone_msg_t tone_msg;
while(1){
xQueueReceive(_tone_queue, &tone_msg, portMAX_DELAY);
switch(tone_msg.tone_cmd){
case TONE_START:
log_d("Task received from queue TONE_START: _pin=%d, frequency=%u Hz, duration=%lu ms", tone_msg.pin, tone_msg.frequency, tone_msg.duration);
log_d("Setup LED controll on channel %d", _channel);
ledcAttachPin(tone_msg.pin, _channel);
ledcWriteTone(_channel, tone_msg.frequency);
if(tone_msg.duration){
delay(tone_msg.duration);
ledcDetachPin(tone_msg.pin);
ledcWriteTone(_channel, 0);
}
break;
case TONE_END:
log_d("Task received from queue TONE_END: pin=%d", tone_msg.pin);
ledcDetachPin(tone_msg.pin);
ledcWriteTone(_channel, 0);
break;
case TONE_SET_CHANNEL:
log_d("Task received from queue TONE_SET_CHANNEL: channel=%d", tone_msg.channel);
_channel = tone_msg.channel;
break;
default: ; // do nothing
} // switch
} // infinite loop
}
static int tone_init(){
if(_tone_queue == NULL){
log_v("Creating tone queue");
_tone_queue = xQueueCreate(128, sizeof(tone_msg_t));
if(_tone_queue == NULL){
log_e("Could not create tone queue");
return 0; // ERR
}
log_v("Tone queue created");
}
if(_tone_task == NULL){
log_v("Creating tone task");
xTaskCreate(
tone_task, // Function to implement the task
"toneTask", // Name of the task
3500, // Stack size in words
NULL, // Task input parameter
1, // Priority of the task
&_tone_task // Task handle.
);
if(_tone_task == NULL){
log_e("Could not create tone task");
return 0; // ERR
}
log_v("Tone task created");
}
return 1; // OK
}
void setToneChannel(uint8_t channel){
log_d("channel=%d", channel);
if(tone_init()){
tone_msg_t tone_msg = {
.tone_cmd = TONE_SET_CHANNEL,
.pin = 0, // Ignored
.frequency = 0, // Ignored
.duration = 0, // Ignored
.channel = channel
};
xQueueSend(_tone_queue, &tone_msg, portMAX_DELAY);
}
}
void noTone(uint8_t _pin){
log_d("noTone was called");
if(tone_init()){
tone_msg_t tone_msg = {
.tone_cmd = TONE_END,
.pin = _pin,
.frequency = 0, // Ignored
.duration = 0, // Ignored
.channel = 0 // Ignored
};
xQueueSend(_tone_queue, &tone_msg, portMAX_DELAY);
}
}
// parameters:
// _pin - pin number which will output the signal
// frequency - PWM frequency in Hz
// duration - time in ms - how long will the signal be outputted.
// If not provided, or 0 you must manually call noTone to end output
void tone(uint8_t _pin, unsigned int frequency, unsigned long duration){
log_d("_pin=%d, frequency=%u Hz, duration=%lu ms", _pin, frequency, duration);
if(tone_init()){
tone_msg_t tone_msg = {
.tone_cmd = TONE_START,
.pin = _pin,
.frequency = frequency,
.duration = duration,
.channel = 0 // Ignored
};
xQueueSend(_tone_queue, &tone_msg, portMAX_DELAY);
}
}