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esp32 firmware for a toaster reflow oven WIP!!!!!
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reflower/main/knob.c

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#include <driver/gpio.h>
#include <freertos/FreeRTOS.h>
#include <freertos/task.h>
#include "knob.h"
#include "gui.h"
const int pushPin = 5;
const int wheelPin1 = 18;
const int wheelPin2 = 23;
#define DEBOUNCE_WHEEL_MS 6
#define DEBOUNCE_BTN_MS 20
static void handle_pushbtn(void *arg);
static void handle_wheel(void *arg);
void knob_init() {
printf("Knob init\n");
// gpio_config_t cfgWheel = {
// .pin_bit_mask = (1 << wheelPin1) /*| (1 << wheelPin2)*/,
// .mode = GPIO_MODE_INPUT,
// .pull_up_en = 1,
// .intr_type = GPIO_INTR_NEGEDGE, // neg means active
// };
// gpio_config(&cfgWheel);
gpio_config_t cfgPush = {
.pin_bit_mask = (1 << pushPin) | (1 << wheelPin1),
.mode = GPIO_MODE_INPUT,
.pull_up_en = 1,
.intr_type = GPIO_INTR_ANYEDGE, // neg means active
};
gpio_config(&cfgPush);
cfgPush.intr_type = GPIO_INTR_DISABLE;
cfgPush.pin_bit_mask = (1 << wheelPin2);
gpio_config(&cfgPush);
gpio_install_isr_service(0);
gpio_intr_enable(pushPin);
gpio_intr_enable(wheelPin1);
// gpio_intr_enable(wheelPin2);
gpio_isr_handler_add(pushPin, handle_pushbtn, (void *)0);
gpio_isr_handler_add(wheelPin1, handle_wheel, (void *)0);
//gpio_isr_handler_add(wheelPin2, handle_wheel, (void *)1);
}
#if 0
enum state {
S_11 = 0,
S_FWD_1_01 = 1,
S_FWD_2_00 = 2,
S_FWD_3_10 = 3,
S_BCK_1_10 = 4,
S_BCK_2_00 = 5,
S_BCK_3_01 = 6,
S_ILLEGAL = 7,
};
#define SW_FWD 0b10000000
#define SW_BCK 0b01000000
static enum state wheelState = S_11;
const uint8_t switch_table[28] = {
/* -- S_11 -- */
S_ILLEGAL, /* 00 ILLEGAL */
S_FWD_1_01, /* 01 ADVANCE */
S_BCK_1_10, /* 10 BACK */
S_11, /* 11 */
/* -- S_FWD_1_01 -- */
S_FWD_2_00, /* 00 ADVANCE */
S_FWD_1_01, /* 01 */
S_FWD_3_10, /* 10 ILLEGAL */
S_11, /* 11 ABORT */
/* -- S_FWD_2_00 -- */
S_FWD_2_00, /* 00 */
S_FWD_1_01, /* 01 ABORT */
S_FWD_3_10, /* 10 ADVANCE */
S_ILLEGAL, /* 11 ILLEGAL */
/* -- S_FWD_3_10 -- */
S_FWD_2_00, /* 00 ABORT */
S_FWD_1_01, /* 01 ILLEGAL */
S_FWD_3_10, /* 10 */
SW_FWD | S_11, /* 11 ADVANCE */
/* -- S_BCK_1_10 -- */
S_BCK_2_00, /* 00 ADVANCE */
S_BCK_3_01, /* 01 ILLEGAL */
S_BCK_1_10, /* 10 */
S_11, /* 11 ABORT */
/* -- S_BCK_2_00 -- */
S_BCK_2_00, /* 00 */
S_BCK_3_01, /* 01 */
S_BCK_1_10, /* 10 ABORT */
S_ILLEGAL, /* 11 */
/* -- S_BCK_3_01 -- */
S_BCK_2_00, /* 00 */
S_BCK_3_01, /* 01 */
S_BCK_1_10, /* 10 */
SW_BCK | S_11, /* 11 */
};
static uint8_t OldEnc = 0b00;
#endif
static void handle_wheel(void *arg) {
static uint32_t negedge_time = 0;
int dir = 0;
const uint32_t inputs = gpio_input_get();
const bool a = 0 != (inputs & (1 << wheelPin1)); // neg = active
const bool b = 0 != (inputs & (1 << wheelPin2));
const uint32_t time = xTaskGetTickCount();
if (!a) {
// negedge
negedge_time = time;
} else {
// posedge
if (time - negedge_time > pdMS_TO_TICKS(DEBOUNCE_WHEEL_MS)) {
if (b) {
dir = -1;
} else {
dir = 1;
}
} else {
// reset the timer
negedge_time = time;
}
}
#if 0
const uint32_t inputs = gpio_input_get();
bool a = 0 == (inputs & (1 << wheelPin1)); // neg = active
bool b = 0 == (inputs & (1 << wheelPin2));
#define ENCODER_POS1 1
#define ENCODER_POS2 2
#define ENCODER_POS3 3
#define ENCODER_POS0 0
uint8_t NewEnc = a | (b<<1);
if (NewEnc ^ OldEnc) { // Encoder value changed???
switch(NewEnc) {
case ENCODER_POS1 : // 01
if (OldEnc == ENCODER_POS0) // 00
dir--;
else
dir++;
break;
case ENCODER_POS3 : // 11
if (OldEnc == ENCODER_POS1) // 01
dir--;
else
dir++;
break;
case ENCODER_POS2 : // 10
if (OldEnc == ENCODER_POS3) // 11
dir--;
else
dir++;
break;
case ENCODER_POS0 : // 00
if (OldEnc == ENCODER_POS2) // 10
dir--;
else
dir++;
break;
};
OldEnc = NewEnc;
}; // end if encoder value changed.
#endif
#if 0
// Omron version
int which = (int)arg;
const uint32_t inputs = gpio_input_get();
bool a = 0 == (inputs & (1 << wheelPin1)); // neg = active
bool b = 0 == (inputs & (1 << wheelPin2));
if (which == 0) { // itr from A
if (a) {
if (b) {
dir = -1;
}
else {
dir = 1;
}
}
}
else { // itr from B
if (b) {
if (a) {
dir = 1;
}
else {
dir = -1;
}
}
}
#endif
#if 0
// Naive version
int which = arg;
const uint32_t inputs = gpio_input_get();
bool a = 0 == (inputs & (1 << wheelPin1)); // neg = active
bool b = 0 == (inputs & (1 << wheelPin2));
if (which == 0) { // itr from A
if (b) {
dir = -1;
} /*else {
dir = 1;
}*/
}
else { // itr from B
if (a) {
dir = 1;
} /*else {
dir = -1;
}*/
}
#endif
#if 0
// More complex version
const uint32_t inputs = gpio_input_get();
const uint8_t ab =
(((inputs >> wheelPin2) & 1) << 1) |
((inputs >> wheelPin1) & 1);
if (wheelState == S_ILLEGAL) {
if (ab != 0b11) {
return;
}
}
uint8_t next = switch_table[wheelState*4 + ab];
if (next & SW_FWD) dir = 1;
if (next & SW_BCK) dir = -1;
next &= ~(SW_FWD | SW_BCK);
wheelState = next;
#endif
if (dir != 0) {
BaseType_t higherWoken = 0;
xTaskNotifyFromISR(hGuiThread, dir == 1 ? 0b10 : 0b01, eSetBits, &higherWoken);
if (higherWoken) portYIELD_FROM_ISR();
}
}
static void handle_pushbtn(void *arg) {
static uint32_t negedge_time = 0;
const uint32_t inputs = gpio_input_get();
BaseType_t higherWoken = 0;
bool pushed = (inputs & (1 << pushPin)) == 0;
const uint32_t time = xTaskGetTickCount();
if (pushed) {
negedge_time = time;
} else {
if (time - negedge_time > pdMS_TO_TICKS(DEBOUNCE_BTN_MS)) {
xTaskNotifyFromISR(hGuiThread, pushed ? 0b1000 : 0b0100, eSetBits, &higherWoken);
if (higherWoken) portYIELD_FROM_ISR();
}
}
}