mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-23 19:23:09 +00:00
8f9b2513ff
* SYSTEM: tickless mode with deep sleep. * Move FreeRTOS ticks to lptim2 * API: move all sumbodules init routines to one place. Timebase: working lptim2 at tick source. * API Timebase: lp-timer routines, timer access safe zones prediction and synchronization. FreeRTOS: adjust configuration for tickless mode. * NFC: support for tickless mode. * API Timebase: improve tick error handling in IRQ. Apploader: use insomnia mode to run applications. * BLE: prevent sleep while core2 starting * HAL: nap while in insomnia mode * init records work * try to implement record delete * tests and flapp * flapp subsystem * new core functions to get app stat, simplify core code * fix thread termination * add strdup to core * fix tests * Refactoring: remove all unusued parts, update API usage, aggreagate API sources and headers, new record storage * Refactoring: update furi record api usage, cleanup code * Fix broken merge for freertos apps * Core, Target: fix compilation warnings * Drop firmware target local * HAL Timebase, Power, Clock: semaphore guarded access to clock and power modes, better sleep mode. * SD-Filesystem: wait for all deps to arrive before adding widget. Core, BLE: disable debug dump to serial. * delete old app example-ipc * delete old app fatfs list * fix strobe app, add input header * delete old display driver * comment old app qr-code * fix sd-card test, add forced widget update * remove unused new core test * increase heap to 128k * comment and assert old core tests * fix syntax Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
58 lines
No EOL
1.7 KiB
C
58 lines
No EOL
1.7 KiB
C
#include <furi.h>
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#include <input.h>
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static void event_cb(const void* value, void* ctx) {
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const InputEvent* event = value;
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uint32_t* delay_time = acquire_mutex(ctx, 0);
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if(delay_time == NULL) return;
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if(event->input == InputUp && *delay_time < 1000) {
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*delay_time += 5;
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}
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if(event->input == InputDown && *delay_time > 10) {
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*delay_time -= 5;
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}
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release_mutex(ctx, delay_time);
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}
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void application_strobe(void* p) {
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// WAT
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osDelay(100);
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// create pins
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GpioPin red = {.pin = LED_RED_Pin, .port = LED_RED_GPIO_Port};
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GpioPin green = {.pin = LED_GREEN_Pin, .port = LED_GREEN_GPIO_Port};
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GpioPin blue = {.pin = LED_BLUE_Pin, .port = LED_BLUE_GPIO_Port};
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GpioPin* red_record = &red;
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GpioPin* green_record = &green;
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GpioPin* blue_record = &blue;
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// configure pins
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gpio_init(red_record, GpioModeOutputOpenDrain);
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gpio_init(green_record, GpioModeOutputOpenDrain);
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gpio_init(blue_record, GpioModeOutputOpenDrain);
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uint32_t delay_time_holder = 100;
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ValueMutex delay_mutex;
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init_mutex(&delay_mutex, &delay_time_holder, sizeof(delay_time_holder));
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PubSub* event_record = furi_record_open("input_events");
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subscribe_pubsub(event_record, event_cb, &delay_mutex);
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while(1) {
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uint32_t delay_time = 100;
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read_mutex_block(&delay_mutex, &delay_time, sizeof(delay_time));
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gpio_write(red_record, false);
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gpio_write(green_record, false);
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gpio_write(blue_record, false);
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osDelay(delay_time / 10);
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gpio_write(red_record, true);
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gpio_write(green_record, true);
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gpio_write(blue_record, true);
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osDelay(delay_time);
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}
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} |