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CommandStation-EX/DCCTimerESP.cpp

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/*
* © 2020-2022 Harald Barth
*
* This file is part of CommandStation-EX
*
* This is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* It is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with CommandStation. If not, see <https://www.gnu.org/licenses/>.
*/
// ATTENTION: this file only compiles on an ESP8266 and ESP32
// On ESP32 we do not even use the functions but they are here for completeness sake
// Please refer to DCCTimer.h for general comments about how this class works
// This is to avoid repetition and duplication.
#ifdef ARDUINO_ARCH_ESP8266
#include "DCCTimer.h"
INTERRUPT_CALLBACK interruptHandler=0;
void DCCTimer::begin(INTERRUPT_CALLBACK callback) {
interruptHandler=callback;
timer1_disable();
// There seem to be differnt ways to attach interrupt handler
// ETS_FRC_TIMER1_INTR_ATTACH(NULL, NULL);
// ETS_FRC_TIMER1_NMI_INTR_ATTACH(interruptHandler);
// Let us choose the one from the API
timer1_attachInterrupt(interruptHandler);
// not exactly sure of order:
timer1_enable(TIM_DIV1, TIM_EDGE, TIM_LOOP);
timer1_write(CLOCK_CYCLES);
}
// We do not support to use PWM to make the Waveform on ESP
bool IRAM_ATTR DCCTimer::isPWMPin(byte pin) {
return false;
}
void IRAM_ATTR DCCTimer::setPWM(byte pin, bool high) {
}
void IRAM_ATTR DCCTimer::clearPWM() {
}
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// Fake this as it should not be used
void DCCTimer::getSimulatedMacAddress(byte mac[6]) {
mac[0] = 0xFE;
mac[1] = 0xBE;
mac[2] = 0xEF;
mac[3] = 0xC0;
mac[4] = 0xFF;
mac[5] = 0xEE;
}
volatile int DCCTimer::minimum_free_memory=__INT_MAX__;
// Return low memory value...
int DCCTimer::getMinimumFreeMemory() {
noInterrupts(); // Disable interrupts to get volatile value
int retval = minimum_free_memory;
interrupts();
return retval;
}
int DCCTimer::freeMemory() {
return ESP.getFreeHeap();
}
#endif
////////////////////////////////////////////////////////////////////////
#ifdef ARDUINO_ARCH_ESP32
#include <driver/adc.h>
#include <soc/sens_reg.h>
#include <soc/sens_struct.h>
#undef ADC_INPUT_MAX_VALUE
#define ADC_INPUT_MAX_VALUE 4095 // 12 bit ADC
#define pinToADC1Channel(X) (adc1_channel_t)(((X) > 35) ? (X)-36 : (X)-28)
int IRAM_ATTR local_adc1_get_raw(int channel) {
uint16_t adc_value;
SENS.sar_meas_start1.sar1_en_pad = (1 << channel); // only one channel is selected
while (SENS.sar_slave_addr1.meas_status != 0);
SENS.sar_meas_start1.meas1_start_sar = 0;
SENS.sar_meas_start1.meas1_start_sar = 1;
while (SENS.sar_meas_start1.meas1_done_sar == 0);
adc_value = SENS.sar_meas_start1.meas1_data_sar;
return adc_value;
}
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#include "DCCTimer.h"
INTERRUPT_CALLBACK interruptHandler=0;
// https://www.visualmicro.com/page/Timer-Interrupts-Explained.aspx
portMUX_TYPE timerMux = portMUX_INITIALIZER_UNLOCKED;
void DCCTimer::begin(INTERRUPT_CALLBACK callback) {
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// This should not be called on ESP32 so disable it
return;
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interruptHandler = callback;
hw_timer_t *timer = NULL;
timer = timerBegin(0, 2, true); // prescaler can be 2 to 65536 so choose 2
timerAttachInterrupt(timer, interruptHandler, true);
timerAlarmWrite(timer, CLOCK_CYCLES / 6, true); // divide by prescaler*3 (Clockbase is 80Mhz and not F_CPU 240Mhz)
timerAlarmEnable(timer);
}
// We do not support to use PWM to make the Waveform on ESP
bool IRAM_ATTR DCCTimer::isPWMPin(byte pin) {
return false;
}
void IRAM_ATTR DCCTimer::setPWM(byte pin, bool high) {
}
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void IRAM_ATTR DCCTimer::clearPWM() {
}
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// Fake this as it should not be used
void DCCTimer::getSimulatedMacAddress(byte mac[6]) {
mac[0] = 0xFE;
mac[1] = 0xBE;
mac[2] = 0xEF;
mac[3] = 0xC0;
mac[4] = 0xFF;
mac[5] = 0xEE;
}
volatile int DCCTimer::minimum_free_memory=__INT_MAX__;
// Return low memory value...
int DCCTimer::getMinimumFreeMemory() {
noInterrupts(); // Disable interrupts to get volatile value
int retval = minimum_free_memory;
interrupts();
return retval;
}
int DCCTimer::freeMemory() {
return ESP.getFreeHeap();
}
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void DCCTimer::reset() {
ESP.restart();
}
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#include "esp32-hal.h"
#include "soc/soc_caps.h"
#ifdef SOC_LEDC_SUPPORT_HS_MODE
#define LEDC_CHANNELS (SOC_LEDC_CHANNEL_NUM<<1)
#else
#define LEDC_CHANNELS (SOC_LEDC_CHANNEL_NUM)
#endif
static int8_t pin_to_channel[SOC_GPIO_PIN_COUNT] = { 0 };
static int cnt_channel = LEDC_CHANNELS;
void DCCTimer::DCCEXanalogWriteFrequency(uint8_t pin, uint32_t frequency) {
if (pin < SOC_GPIO_PIN_COUNT) {
if (pin_to_channel[pin] != 0) {
ledcSetup(pin_to_channel[pin], frequency, 8);
}
}
}
void DCCTimer::DCCEXanalogWrite(uint8_t pin, int value) {
if (pin < SOC_GPIO_PIN_COUNT) {
if (pin_to_channel[pin] == 0) {
if (!cnt_channel) {
log_e("No more PWM channels available! All %u already used", LEDC_CHANNELS);
return;
}
pin_to_channel[pin] = --cnt_channel;
ledcAttachPin(pin, cnt_channel);
ledcSetup(cnt_channel, 1000, 8);
} else {
ledcAttachPin(pin, pin_to_channel[pin]);
}
ledcWrite(pin_to_channel[pin], value);
}
}
int ADCee::init(uint8_t pin) {
pinMode(pin, ANALOG);
adc1_config_width(ADC_WIDTH_BIT_12);
adc1_config_channel_atten(pinToADC1Channel(pin),ADC_ATTEN_DB_11);
return adc1_get_raw(pinToADC1Channel(pin));
}
int16_t ADCee::ADCmax() {
return 4095;
}
/*
* Read function ADCee::read(pin) to get value instead of analogRead(pin)
*/
int ADCee::read(uint8_t pin, bool fromISR) {
return local_adc1_get_raw(pinToADC1Channel(pin));
}
/*
* Scan function that is called from interrupt
*/
void ADCee::scan() {
}
void ADCee::begin() {
}
#endif //ESP32
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