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- /*
- * a crude button press/long-press/shift management based on GPIO
- *
- * (c) Philippe G. 2019, philippe_44@outlook.com
- *
- * This software is released under the MIT License.
- * https://opensource.org/licenses/MIT
- *
- */
-
- #include <stdio.h>
- #include <stdlib.h>
- #include <unistd.h>
- #include <string.h>
- #include "freertos/FreeRTOS.h"
- #include "freertos/task.h"
- #include "freertos/timers.h"
- #include "freertos/queue.h"
- #include "esp_system.h"
- #include "esp_log.h"
- #include "esp_task.h"
- #include "driver/gpio.h"
- #include "driver/rmt.h"
- #include "gpio_exp.h"
- #include "buttons.h"
- #include "services.h"
- #include "rotary_encoder.h"
- #include "globdefs.h"
- static const char * TAG = "buttons";
- static EXT_RAM_ATTR int n_buttons;
- static EXT_RAM_ATTR uint32_t buttons_idle_since;
- #define BUTTON_STACK_SIZE 4096
- #define MAX_BUTTONS 32
- #define DEBOUNCE 50
- #define BUTTON_QUEUE_LEN 10
- static EXT_RAM_ATTR struct button_s {
- void *client;
- int gpio;
- int debounce;
- button_handler handler;
- struct button_s *self, *shifter;
- int shifter_gpio; // this one is just for post-creation
- int long_press;
- bool long_timer, shifted, shifting;
- int type, level;
- TimerHandle_t timer;
- } buttons[MAX_BUTTONS];
- // can't use EXT_RAM_ATTR for initialized structure
- static struct {
- int gpio, level;
- struct button_s *button;
- } polled_gpio[] = { {36, -1, NULL}, {39, -1, NULL}, {-1, -1, NULL} };
- static TimerHandle_t polled_timer;
- static EXT_RAM_ATTR struct {
- QueueHandle_t queue;
- void *client;
- rotary_encoder_info_t info;
- int A, B, SW;
- rotary_handler handler;
- } rotary;
- static EXT_RAM_ATTR struct {
- RingbufHandle_t rb;
- infrared_handler handler;
- } infrared;
- static EXT_RAM_ATTR QueueHandle_t button_queue;
- static EXT_RAM_ATTR QueueSetHandle_t common_queue_set;
- static void buttons_task(void* arg);
- static void buttons_handler(struct button_s *button, int level);
- /****************************************************************************************
- * Start task needed by button,s rotaty and infrared
- */
- static void common_task_init(void) {
- static DRAM_ATTR StaticTask_t xTaskBuffer __attribute__ ((aligned (4)));
- static EXT_RAM_ATTR StackType_t xStack[BUTTON_STACK_SIZE] __attribute__ ((aligned (4)));
-
- if (!common_queue_set) {
- common_queue_set = xQueueCreateSet(BUTTON_QUEUE_LEN + 1);
- xTaskCreateStatic( (TaskFunction_t) buttons_task, "buttons", BUTTON_STACK_SIZE, NULL, ESP_TASK_PRIO_MIN + 2, xStack, &xTaskBuffer);
- }
- }
- /****************************************************************************************
- * GPIO low-level ISR handler
- */
- static void IRAM_ATTR gpio_isr_handler(void* arg)
- {
- struct button_s *button = (struct button_s*) arg;
- BaseType_t woken = pdFALSE;
- if (xTimerGetPeriod(button->timer) > pdMS_TO_TICKS(button->debounce)) {
- if (button->gpio < GPIO_NUM_MAX) xTimerChangePeriodFromISR(button->timer, pdMS_TO_TICKS(button->debounce), &woken);
- else xTimerChangePeriod(button->timer, pdMS_TO_TICKS(button->debounce), pdMS_TO_TICKS(10));
- } else {
- if (button->gpio < GPIO_NUM_MAX) xTimerResetFromISR(button->timer, &woken);
- else xTimerReset(button->timer, portMAX_DELAY);
- }
- if (woken) portYIELD_FROM_ISR();
- ESP_EARLY_LOGD(TAG, "INT gpio %u level %u", button->gpio, button->level);
- }
- /****************************************************************************************
- * Buttons debounce/longpress timer
- */
- static void buttons_timer_handler( TimerHandle_t xTimer ) {
- struct button_s *button = (struct button_s*) pvTimerGetTimerID (xTimer);
- // if this is an expanded GPIO, must give cache a chance
- buttons_handler(button, gpio_exp_get_level(button->gpio, (button->debounce * 3) / 2, NULL));
- }
- /****************************************************************************************
- * Buttons polling timer
- */
- static void buttons_polling( TimerHandle_t xTimer ) {
- for (int i = 0; polled_gpio[i].gpio != -1; i++) {
- if (!polled_gpio[i].button) continue;
-
- int level = gpio_get_level(polled_gpio[i].gpio);
-
- if (level != polled_gpio[i].level) {
- polled_gpio[i].level = level;
- buttons_handler(polled_gpio[i].button, level);
- }
- }
- }
- /****************************************************************************************
- * Buttons timer handler for press/longpress
- */
- static void buttons_handler(struct button_s *button, int level) {
- button->level = level;
- if (button->shifter && button->shifter->type == button->shifter->level) button->shifter->shifting = true;
- if (button->long_press && !button->long_timer && button->level == button->type) {
- // detect a long press, so hold event generation
- ESP_LOGD(TAG, "setting long timer gpio:%u level:%u", button->gpio, button->level);
- xTimerChangePeriod(button->timer, button->long_press / portTICK_RATE_MS, 0);
- button->long_timer = true;
- } else {
- // send a button pressed/released event (content is copied in queue)
- ESP_LOGD(TAG, "sending event for gpio:%u level:%u", button->gpio, button->level);
- // queue will have a copy of button's context
- xQueueSend(button_queue, button, 0);
- button->long_timer = false;
- }
- }
- /****************************************************************************************
- * Get inactivity callback
- */
- static uint32_t buttons_idle_callback(void) {
- return pdTICKS_TO_MS(xTaskGetTickCount()) - buttons_idle_since;
- }
- /****************************************************************************************
- * Tasks that calls the appropriate functions when buttons are pressed
- */
- static void buttons_task(void* arg) {
- ESP_LOGI(TAG, "starting button tasks");
-
- buttons_idle_since = pdTICKS_TO_MS(xTaskGetTickCount());
- services_sleep_setsleeper(buttons_idle_callback);
-
- while (1) {
- QueueSetMemberHandle_t xActivatedMember;
- bool active = true;
- // wait on button, rotary and infrared queues
- if ((xActivatedMember = xQueueSelectFromSet( common_queue_set, portMAX_DELAY )) == NULL) continue;
-
- if (xActivatedMember == button_queue) {
- struct button_s button;
- button_event_e event;
- button_press_e press;
-
- // received a button event
- xQueueReceive(button_queue, &button, 0);
- event = (button.level == button.type) ? BUTTON_PRESSED : BUTTON_RELEASED;
- ESP_LOGD(TAG, "received event:%u from gpio:%u level:%u (timer %u shifting %u)", event, button.gpio, button.level, button.long_timer, button.shifting);
- // find if shifting is activated
- if (button.shifter && button.shifter->type == button.shifter->level) press = BUTTON_SHIFTED;
- else press = BUTTON_NORMAL;
-
- /*
- long_timer will be set either because we truly have a long press
- or we have a release before the long press timer elapsed, so two
- events shall be sent
- */
- if (button.long_timer) {
- if (event == BUTTON_RELEASED) {
- // early release of a long-press button, send press/release
- if (!button.shifting) {
- button.handler(button.client, BUTTON_PRESSED, press, false);
- button.handler(button.client, BUTTON_RELEASED, press, false);
- }
- // button is a copy, so need to go to real context
- button.self->shifting = false;
- } else if (!button.shifting) {
- // normal long press and not shifting so don't discard
- button.handler(button.client, BUTTON_PRESSED, press, true);
- }
- } else {
- // normal press/release of a button or release of a long-press button
- if (!button.shifting) button.handler(button.client, event, press, button.long_press);
- // button is a copy, so need to go to real context
- button.self->shifting = false;
- }
- } else if (xActivatedMember == rotary.queue) {
- rotary_encoder_event_t event = { 0 };
-
- // received a rotary event
- xQueueReceive(rotary.queue, &event, 0);
- ESP_LOGD(TAG, "Event: position %d, direction %s", event.state.position,
- event.state.direction ? (event.state.direction == ROTARY_ENCODER_DIRECTION_CLOCKWISE ? "CW" : "CCW") : "NOT_SET");
-
- rotary.handler(rotary.client, event.state.direction == ROTARY_ENCODER_DIRECTION_CLOCKWISE ?
- ROTARY_RIGHT : ROTARY_LEFT, false);
- } else {
- // this is IR
- active = infrared_receive(infrared.rb, infrared.handler);
- }
-
- // mark the last activity
- if (active) buttons_idle_since = pdTICKS_TO_MS(xTaskGetTickCount());
- }
- }
-
- /****************************************************************************************
- * dummy button handler
- */
- void dummy_handler(void *id, button_event_e event, button_press_e press) {
- ESP_LOGW(TAG, "should not be here");
- }
- /****************************************************************************************
- * Create buttons
- */
- void button_create(void *client, int gpio, int type, bool pull, int debounce, button_handler handler, int long_press, int shifter_gpio) {
- if (n_buttons >= MAX_BUTTONS) return;
- ESP_LOGI(TAG, "Creating button using GPIO %u, type %u, pull-up/down %u, long press %u shifter %d", gpio, type, pull, long_press, shifter_gpio);
- if (!n_buttons) {
- button_queue = xQueueCreate(BUTTON_QUEUE_LEN, sizeof(struct button_s));
- common_task_init();
- xQueueAddToSet( button_queue, common_queue_set );
- }
-
- // just in case this structure is allocated in a future release
- memset(buttons + n_buttons, 0, sizeof(struct button_s));
- // set mandatory parameters
- buttons[n_buttons].client = client;
- buttons[n_buttons].gpio = gpio;
- buttons[n_buttons].debounce = debounce ? debounce: DEBOUNCE;
- buttons[n_buttons].handler = handler;
- buttons[n_buttons].long_press = long_press;
- buttons[n_buttons].shifter_gpio = shifter_gpio;
- buttons[n_buttons].type = type;
- buttons[n_buttons].timer = xTimerCreate("buttonTimer", buttons[n_buttons].debounce / portTICK_RATE_MS, pdFALSE, (void *) &buttons[n_buttons], buttons_timer_handler);
- buttons[n_buttons].self = buttons + n_buttons;
- for (int i = 0; i < n_buttons; i++) {
- // first try to find our shifter
- if (buttons[i].gpio == shifter_gpio) {
- buttons[n_buttons].shifter = buttons + i;
- // a shifter must have a long-press handler
- if (!buttons[i].long_press) buttons[i].long_press = -1;
- }
- // then try to see if we are a non-assigned shifter
- if (buttons[i].shifter_gpio == gpio) {
- buttons[i].shifter = buttons + n_buttons;
- ESP_LOGI(TAG, "post-assigned shifter gpio %u", buttons[i].gpio);
- }
- }
- gpio_pad_select_gpio_x(gpio);
- gpio_set_direction_x(gpio, GPIO_MODE_INPUT);
- // do we need pullup or pulldown
- if (pull) {
- if (GPIO_IS_VALID_OUTPUT_GPIO(gpio) || gpio >= GPIO_NUM_MAX) {
- if (type == BUTTON_LOW) gpio_set_pull_mode_x(gpio, GPIO_PULLUP_ONLY);
- else gpio_set_pull_mode_x(gpio, GPIO_PULLDOWN_ONLY);
- } else {
- ESP_LOGW(TAG, "cannot set pull up/down for gpio %u", gpio);
- }
- }
-
- // and initialize level ...
- buttons[n_buttons].level = gpio_get_level_x(gpio);
-
- // nasty ESP32 bug: fire-up constantly INT on GPIO 36/39 if ADC1, AMP, Hall used which WiFi does when PS is activated
- for (int i = 0; polled_gpio[i].gpio != -1; i++) if (polled_gpio[i].gpio == gpio) {
- if (!polled_timer) {
- polled_timer = xTimerCreate("buttonsPolling", 100 / portTICK_RATE_MS, pdTRUE, polled_gpio, buttons_polling);
- xTimerStart(polled_timer, portMAX_DELAY);
- }
-
- polled_gpio[i].button = buttons + n_buttons;
- polled_gpio[i].level = gpio_get_level(gpio);
- ESP_LOGW(TAG, "creating polled gpio %u, level %u", gpio, polled_gpio[i].level);
-
- gpio = -1;
- break;
- }
-
- // only create ISR if this is not a polled gpio
- if (gpio != -1) {
- // we need any edge detection
- gpio_set_intr_type_x(gpio, GPIO_INTR_ANYEDGE);
- gpio_isr_handler_add_x(gpio, gpio_isr_handler, buttons + n_buttons);
- gpio_intr_enable_x(gpio);
- }
- n_buttons++;
- }
- /****************************************************************************************
- * Get stored id
- */
- void *button_get_client(int gpio) {
- for (int i = 0; i < n_buttons; i++) {
- if (buttons[i].gpio == gpio) return buttons[i].client;
- }
- return NULL;
- }
- /****************************************************************************************
- * Get stored id
- */
- bool button_is_pressed(int gpio, void *client) {
- for (int i = 0; i < n_buttons; i++) {
- if (gpio != -1 && buttons[i].gpio == gpio) return buttons[i].level == buttons[i].type;
- else if (client && buttons[i].client == client) return buttons[i].level == buttons[i].type;
- }
- return false;
- }
- /****************************************************************************************
- * Update buttons
- */
- void *button_remap(void *client, int gpio, button_handler handler, int long_press, int shifter_gpio) {
- int i;
- struct button_s *button = NULL;
- void *prev_client;
-
- ESP_LOGI(TAG, "remapping GPIO %u, long press %u shifter %u", gpio, long_press, shifter_gpio);
- // find button
- for (i = 0; i < n_buttons; i++) {
- if (buttons[i].gpio == gpio) {
- button = buttons + i;
- break;
- }
- }
-
- // don't know what we are doing here
- if (!button) return NULL;
-
- prev_client = button->client;
- button->client = client;
- button->handler = handler;
- button->long_press = long_press;
- button->shifter_gpio = shifter_gpio;
- // find our shifter (if any)
- for (i = 0; shifter_gpio != -1 && i < n_buttons; i++) {
- if (buttons[i].gpio == shifter_gpio) {
- button->shifter = buttons + i;
- // a shifter must have a long-press handler
- if (!buttons[i].long_press) buttons[i].long_press = -1;
- break;
- }
- }
-
- return prev_client;
- }
- /****************************************************************************************
- * Rotary encoder handler
- */
- static void rotary_button_handler(void *id, button_event_e event, button_press_e mode, bool long_press) {
- ESP_LOGI(TAG, "Rotary push-button %d", event);
- rotary.handler(id, event == BUTTON_PRESSED ? ROTARY_PRESSED : ROTARY_RELEASED, long_press);
- }
- /****************************************************************************************
- * Create rotary encoder
- */
- bool create_rotary(void *id, int A, int B, int SW, int long_press, rotary_handler handler) {
- // nasty ESP32 bug: fire-up constantly INT on GPIO 36/39 if ADC1, AMP, Hall used which WiFi does when PS is activated
- if (A == -1 || B == -1 || A == 36 || A == 39 || B == 36 || B == 39) {
- ESP_LOGI(TAG, "Cannot create rotary %d %d", A, B);
- return false;
- }
- rotary.A = A;
- rotary.B = B;
- rotary.SW = SW;
- rotary.client = id;
- rotary.handler = handler;
-
- // Initialise the rotary encoder device with the GPIOs for A and B signals
- rotary_encoder_init(&rotary.info, A, B);
-
- // Create a queue for events from the rotary encoder driver.
- rotary.queue = rotary_encoder_create_queue();
- rotary_encoder_set_queue(&rotary.info, rotary.queue);
-
- common_task_init();
- xQueueAddToSet( rotary.queue, common_queue_set );
- // create companion button if rotary has a switch
- if (SW != -1) button_create(id, SW, BUTTON_LOW, true, 0, rotary_button_handler, long_press, -1);
-
- ESP_LOGI(TAG, "Created rotary encoder A:%d B:%d, SW:%d", A, B, SW);
-
- return true;
- }
- /****************************************************************************************
- * Create Infrared
- */
- bool create_infrared(int gpio, infrared_handler handler, infrared_mode_t mode) {
- // initialize IR infrastructure
- infrared_init(&infrared.rb, gpio, mode);
- infrared.handler = handler;
-
- // join the queue set
- common_task_init();
- xRingbufferAddToQueueSetRead(infrared.rb, common_queue_set);
-
- ESP_LOGI(TAG, "Created infrared receiver using GPIO %u", gpio);
-
- return (infrared.rb != NULL);
- }
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