Fix ESP32 i2s stream, add PWM to extended pins (#14592)
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21e1148d98
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e139c1d9d9
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@ -23,6 +23,7 @@
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#ifdef ARDUINO_ARCH_ESP32
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#ifdef ARDUINO_ARCH_ESP32
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#include "HAL.h"
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#include "HAL.h"
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#include "HAL_timers_ESP32.h"
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#include <rom/rtc.h>
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#include <rom/rtc.h>
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#include <driver/adc.h>
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#include <driver/adc.h>
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#include <esp_adc_cal.h>
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#include <esp_adc_cal.h>
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@ -67,6 +68,9 @@ uint16_t HAL_adc_result;
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// ------------------------
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// ------------------------
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esp_adc_cal_characteristics_t characteristics;
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esp_adc_cal_characteristics_t characteristics;
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volatile int numPWMUsed = 0,
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pwmPins[MAX_PWM_PINS],
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pwmValues[MAX_PWM_PINS];
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// ------------------------
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// ------------------------
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// Public functions
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// Public functions
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@ -168,25 +172,64 @@ void HAL_adc_init() {
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void HAL_adc_start_conversion(uint8_t adc_pin) {
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void HAL_adc_start_conversion(uint8_t adc_pin) {
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uint32_t mv;
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uint32_t mv;
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esp_adc_cal_get_voltage((adc_channel_t)get_channel(adc_pin), &characteristics, &mv);
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esp_adc_cal_get_voltage((adc_channel_t)get_channel(adc_pin), &characteristics, &mv);
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HAL_adc_result = mv * 1023.0 / 3300.0;
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HAL_adc_result = mv * 1023.0 / 3300.0;
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}
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}
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void analogWrite(pin_t pin, int value) {
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void analogWrite(pin_t pin, int value) {
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// Use ledc hardware for internal pins
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if (!PWM_PIN(pin)) return;
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if (pin < 34) {
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static int cnt_channel = 1, pin_to_channel[40] = { 0 };
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static int cnt_channel = 1,
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pin_to_channel[40] = {};
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if (pin_to_channel[pin] == 0) {
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if (pin_to_channel[pin] == 0) {
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ledcAttachPin(pin, cnt_channel);
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ledcAttachPin(pin, cnt_channel);
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ledcSetup(cnt_channel, 490, 8);
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ledcSetup(cnt_channel, 490, 8);
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ledcWrite(cnt_channel, value);
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ledcWrite(cnt_channel, value);
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pin_to_channel[pin] = cnt_channel++;
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pin_to_channel[pin] = cnt_channel++;
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}
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}
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ledcWrite(pin_to_channel[pin], value);
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ledcWrite(pin_to_channel[pin], value);
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return;
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}
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int idx = -1;
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// Search Pin
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for (int i = 0; i < numPWMUsed; ++i)
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if (pwmPins[i] == pin) { idx = i; break; }
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// not found ?
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if (idx < 0) {
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// No slots remaining
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if (numPWMUsed >= MAX_PWM_PINS) return;
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// Take new slot for pin
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idx = numPWMUsed;
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pwmPins[idx] = pin;
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// Start timer on first use
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if (idx == 0) HAL_timer_start(PWM_TIMER_NUM, PWM_TIMER_FREQUENCY);
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++numPWMUsed;
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}
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// Use 7bit internal value - add 1 to have 100% high at 255
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pwmValues[idx] = (value + 1) / 2;
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}
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// Handle PWM timer interrupt
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HAL_PWM_TIMER_ISR() {
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HAL_timer_isr_prologue(PWM_TIMER_NUM);
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static uint8_t count = 0;
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for (int i = 0; i < numPWMUsed; ++i) {
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if (count == 0) // Start of interval
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WRITE(pwmPins[i], pwmValues[i] ? HIGH : LOW);
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else if (pwmValues[i] == count) // End of duration
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WRITE(pwmPins[i], LOW);
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}
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// 128 for 7 Bit resolution
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count = (count + 1) & 0x7F;
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HAL_timer_isr_epilogue(PWM_TIMER_NUM);
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}
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}
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#endif // ARDUINO_ARCH_ESP32
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#endif // ARDUINO_ARCH_ESP32
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@ -47,7 +47,7 @@ static timg_dev_t *TG[2] = {&TIMERG0, &TIMERG1};
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const tTimerConfig TimerConfig [NUM_HARDWARE_TIMERS] = {
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const tTimerConfig TimerConfig [NUM_HARDWARE_TIMERS] = {
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{ TIMER_GROUP_0, TIMER_0, STEPPER_TIMER_PRESCALE, stepTC_Handler }, // 0 - Stepper
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{ TIMER_GROUP_0, TIMER_0, STEPPER_TIMER_PRESCALE, stepTC_Handler }, // 0 - Stepper
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{ TIMER_GROUP_0, TIMER_1, TEMP_TIMER_PRESCALE, tempTC_Handler }, // 1 - Temperature
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{ TIMER_GROUP_0, TIMER_1, TEMP_TIMER_PRESCALE, tempTC_Handler }, // 1 - Temperature
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{ TIMER_GROUP_1, TIMER_0, 1, nullptr }, // 2
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{ TIMER_GROUP_1, TIMER_0, PWM_TIMER_PRESCALE, pwmTC_Handler }, // 2 - PWM
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{ TIMER_GROUP_1, TIMER_1, 1, nullptr }, // 3
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{ TIMER_GROUP_1, TIMER_1, 1, nullptr }, // 3
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};
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};
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@ -55,28 +55,28 @@ const tTimerConfig TimerConfig [NUM_HARDWARE_TIMERS] = {
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// Public functions
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// Public functions
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// ------------------------
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// ------------------------
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void IRAM_ATTR timer_group0_isr(void *para) {
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void IRAM_ATTR timer_isr(void *para) {
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const int timer_idx = (int)para;
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const tTimerConfig& timer = TimerConfig[(int)para];
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// Retrieve the interrupt status and the counter value
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// Retrieve the interrupt status and the counter value
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// from the timer that reported the interrupt
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// from the timer that reported the interrupt
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uint32_t intr_status = TIMERG0.int_st_timers.val;
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uint32_t intr_status = TG[timer.group]->int_st_timers.val;
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TIMERG0.hw_timer[timer_idx].update = 1;
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TG[timer.group]->hw_timer[timer.idx].update = 1;
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// Clear the interrupt
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// Clear the interrupt
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if (intr_status & BIT(timer_idx)) {
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if (intr_status & BIT(timer.idx)) {
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switch (timer_idx) {
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switch (timer.idx) {
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case TIMER_0: TIMERG0.int_clr_timers.t0 = 1; break;
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case TIMER_0: TG[timer.group]->int_clr_timers.t0 = 1; break;
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case TIMER_1: TIMERG0.int_clr_timers.t1 = 1; break;
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case TIMER_1: TG[timer.group]->int_clr_timers.t1 = 1; break;
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case TIMER_MAX: break;
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}
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}
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}
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}
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const tTimerConfig timer = TimerConfig[timer_idx];
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timer.fn();
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timer.fn();
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// After the alarm has been triggered
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// After the alarm has been triggered
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// Enable it again so it gets triggered the next time
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// Enable it again so it gets triggered the next time
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TIMERG0.hw_timer[timer_idx].config.alarm_en = TIMER_ALARM_EN;
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TG[timer.group]->hw_timer[timer.idx].config.alarm_en = TIMER_ALARM_EN;
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}
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}
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/**
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/**
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@ -106,8 +106,7 @@ void HAL_timer_start(const uint8_t timer_num, uint32_t frequency) {
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timer_enable_intr(timer.group, timer.idx);
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timer_enable_intr(timer.group, timer.idx);
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// TODO need to deal with timer_group1_isr
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timer_isr_register(timer.group, timer.idx, timer_isr, (void*)timer_num, 0, nullptr);
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timer_isr_register(timer.group, timer.idx, timer_group0_isr, (void*)timer.idx, 0, nullptr);
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timer_start(timer.group, timer.idx);
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timer_start(timer.group, timer.idx);
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}
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}
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@ -40,6 +40,7 @@ typedef uint64_t hal_timer_t;
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#define STEP_TIMER_NUM 0 // index of timer to use for stepper
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#define STEP_TIMER_NUM 0 // index of timer to use for stepper
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#define TEMP_TIMER_NUM 1 // index of timer to use for temperature
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#define TEMP_TIMER_NUM 1 // index of timer to use for temperature
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#define PWM_TIMER_NUM 2 // index of timer to use for PWM outputs
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#define PULSE_TIMER_NUM STEP_TIMER_NUM
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#define PULSE_TIMER_NUM STEP_TIMER_NUM
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#define HAL_TIMER_RATE APB_CLK_FREQ // frequency of timer peripherals
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#define HAL_TIMER_RATE APB_CLK_FREQ // frequency of timer peripherals
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@ -59,6 +60,14 @@ typedef uint64_t hal_timer_t;
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#define TEMP_TIMER_PRESCALE 1000 // prescaler for setting Temp timer, 72Khz
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#define TEMP_TIMER_PRESCALE 1000 // prescaler for setting Temp timer, 72Khz
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#define TEMP_TIMER_FREQUENCY 1000 // temperature interrupt frequency
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#define TEMP_TIMER_FREQUENCY 1000 // temperature interrupt frequency
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#define PWM_TIMER_PRESCALE 10
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#if ENABLED(FAST_PWM_FAN)
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#define PWM_TIMER_FREQUENCY FAST_PWM_FAN_FREQUENCY
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#else
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#define PWM_TIMER_FREQUENCY (50*128) // 50Hz and 7bit resolution
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#endif
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#define MAX_PWM_PINS 32 // Number of PWM pin-slots
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#define PULSE_TIMER_RATE STEPPER_TIMER_RATE // frequency of pulse timer
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#define PULSE_TIMER_RATE STEPPER_TIMER_RATE // frequency of pulse timer
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#define PULSE_TIMER_PRESCALE STEPPER_TIMER_PRESCALE
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#define PULSE_TIMER_PRESCALE STEPPER_TIMER_PRESCALE
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#define PULSE_TIMER_TICKS_PER_US STEPPER_TIMER_TICKS_PER_US
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#define PULSE_TIMER_TICKS_PER_US STEPPER_TIMER_TICKS_PER_US
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@ -72,10 +81,11 @@ typedef uint64_t hal_timer_t;
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#define HAL_TEMP_TIMER_ISR() extern "C" void tempTC_Handler(void)
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#define HAL_TEMP_TIMER_ISR() extern "C" void tempTC_Handler(void)
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#define HAL_STEP_TIMER_ISR() extern "C" void stepTC_Handler(void)
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#define HAL_STEP_TIMER_ISR() extern "C" void stepTC_Handler(void)
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#define HAL_PWM_TIMER_ISR() extern "C" void pwmTC_Handler(void)
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extern "C" void tempTC_Handler(void);
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extern "C" void tempTC_Handler(void);
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extern "C" void stepTC_Handler(void);
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extern "C" void stepTC_Handler(void);
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extern "C" void pwmTC_Handler(void);
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// ------------------------
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// ------------------------
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// Types
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// Types
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@ -66,7 +66,7 @@
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#define extDigitalWrite(IO,V) digitalWrite(IO,V)
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#define extDigitalWrite(IO,V) digitalWrite(IO,V)
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// PWM outputs
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// PWM outputs
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#define PWM_PIN(P) (P < 34) // NOTE Pins >= 34 are input only on ESP32, so they can't be used for output.
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#define PWM_PIN(P) (P < 34 || P > 127) // NOTE Pins >= 34 are input only on ESP32, so they can't be used for output.
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// Toggle pin value
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// Toggle pin value
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#define TOGGLE(IO) WRITE(IO, !READ(IO))
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#define TOGGLE(IO) WRITE(IO, !READ(IO))
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@ -56,7 +56,7 @@ static i2s_dev_t* I2S[I2S_NUM_MAX] = {&I2S0, &I2S1};
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static i2s_dma_t dma;
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static i2s_dma_t dma;
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// output value
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// output value
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uint32_t i2s_port_data;
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uint32_t i2s_port_data = 0;
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#define I2S_ENTER_CRITICAL() portENTER_CRITICAL(&i2s_spinlock[i2s_num])
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#define I2S_ENTER_CRITICAL() portENTER_CRITICAL(&i2s_spinlock[i2s_num])
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#define I2S_EXIT_CRITICAL() portEXIT_CRITICAL(&i2s_spinlock[i2s_num])
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#define I2S_EXIT_CRITICAL() portEXIT_CRITICAL(&i2s_spinlock[i2s_num])
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@ -140,13 +140,13 @@ static void IRAM_ATTR i2s_intr_handler_default(void *arg) {
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}
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}
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void stepperTask(void* parameter) {
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void stepperTask(void* parameter) {
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uint32_t i, remaining = 0;
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uint32_t remaining = 0;
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while (1) {
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while (1) {
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xQueueReceive(dma.queue, &dma.current, portMAX_DELAY);
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xQueueReceive(dma.queue, &dma.current, portMAX_DELAY);
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dma.rw_pos = 0;
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dma.rw_pos = 0;
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for (i = 0; i < DMA_SAMPLE_COUNT; i++) {
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while (dma.rw_pos < DMA_SAMPLE_COUNT) {
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// Fill with the port data post pulse_phase until the next step
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// Fill with the port data post pulse_phase until the next step
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if (remaining) {
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if (remaining) {
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i2s_push_sample();
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i2s_push_sample();
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@ -254,7 +254,13 @@ int i2s_init() {
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I2S0.fifo_conf.dscr_en = 0;
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I2S0.fifo_conf.dscr_en = 0;
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I2S0.conf_chan.tx_chan_mod = 0;
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I2S0.conf_chan.tx_chan_mod = (
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#if ENABLED(I2S_STEPPER_SPLIT_STREAM)
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4
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#else
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0
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#endif
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);
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I2S0.fifo_conf.tx_fifo_mod = 0;
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I2S0.fifo_conf.tx_fifo_mod = 0;
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I2S0.conf.tx_mono = 0;
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I2S0.conf.tx_mono = 0;
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@ -314,10 +320,19 @@ int i2s_init() {
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}
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}
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void i2s_write(uint8_t pin, uint8_t val) {
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void i2s_write(uint8_t pin, uint8_t val) {
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#if ENABLED(I2S_STEPPER_SPLIT_STREAM)
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if (pin >= 16) {
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SET_BIT_TO(I2S0.conf_single_data, pin, val);
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return;
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}
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#endif
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SET_BIT_TO(i2s_port_data, pin, val);
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SET_BIT_TO(i2s_port_data, pin, val);
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}
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}
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uint8_t i2s_state(uint8_t pin) {
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uint8_t i2s_state(uint8_t pin) {
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#if ENABLED(I2S_STEPPER_SPLIT_STREAM)
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if (pin >= 16) return TEST(I2S0.conf_single_data, pin);
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#endif
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return TEST(i2s_port_data, pin);
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return TEST(i2s_port_data, pin);
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}
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}
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