#include "app-template.h" extern "C" { #include #include #include #include #include #include } #include "fatfs/ff.h" #include "stm32_adafruit_sd.h" // event enumeration type typedef uint8_t event_t; // app state class class AppSdNFCState { public: // state data const char* name; // state initializer AppSdNFCState() { name = "sd nfc test"; } }; // app events class class AppSdNFCEvent { public: // events enum static const event_t EventTypeTick = 0; static const event_t EventTypeKey = 1; // payload union { InputEvent input; } value; // event type event_t type; }; // our app derived from base AppTemplate class // with template variables class AppSdNFC : public AppTemplate { public: GpioPin* red_led_record; GpioPin* green_led_record; void run(); void render(Canvas* canvas); void set_error(const char* text); void set_text(const char* text); void light_red(); void light_green(); void blink_red(); void blink_green(); }; FATFS sd_fat_fs; char sd_path[6] = ""; // start app void AppSdNFC::run() { // create pin GpioPin red_led = led_gpio[0]; GpioPin green_led = led_gpio[1]; // TODO open record red_led_record = &red_led; green_led_record = &green_led; // configure pin gpio_init(red_led_record, GpioModeOutputOpenDrain); gpio_init(green_led_record, GpioModeOutputOpenDrain); app_ready(); uint8_t rfal_result = rfalNfcInitialize(); if(rfal_result) { set_text("rfal init fail"); blink_red(); } uint8_t bsp_result = BSP_SD_Init(); if(bsp_result) { set_error("sd init fail"); } FRESULT result; result = f_mount(&sd_fat_fs, sd_path, 1); if(result) { set_error("sd mount fail"); } light_green(); set_text("all good"); AppSdNFCEvent event; while(1) { if(get_event(&event, 1000)) { if(event.type == AppSdNFCEvent::EventTypeKey) { // press events if(event.value.input.type == InputTypeShort && event.value.input.key == InputKeyBack) { exit(); } } } // signal to force gui update update_gui(); }; } // render app void AppSdNFC::render(Canvas* canvas) { canvas_set_color(canvas, ColorBlack); canvas_set_font(canvas, FontPrimary); canvas_draw_str(canvas, 2, 12, state.name); } void AppSdNFC::set_error(const char* text) { light_red(); set_text(text); update_gui(); while(1) ; } void AppSdNFC::set_text(const char* text) { acquire_state(); state.name = text; release_state(); } void AppSdNFC::light_red() { gpio_write(red_led_record, false); } void AppSdNFC::light_green() { gpio_write(green_led_record, false); } void AppSdNFC::blink_red() { gpio_write(red_led_record, false); delay(500); gpio_write(red_led_record, true); delay(500); } void AppSdNFC::blink_green() { gpio_write(green_led_record, false); delay(500); gpio_write(green_led_record, true); delay(500); } // app enter function extern "C" int32_t sdnfc(void* p) { AppSdNFC* app = new AppSdNFC(); app->run(); return 0; }