#include #include #include #include #include #include #include #include "bad_usb_script.h" #include #define TAG "BadUSB" #define WORKER_TAG TAG "Worker" #define FILE_BUFFER_LEN 16 #define SCRIPT_STATE_ERROR (-1) #define SCRIPT_STATE_END (-2) #define SCRIPT_STATE_NEXT_LINE (-3) #define BADUSB_ASCII_TO_KEY(script, x) \ (((uint8_t)x < 128) ? (script->layout[(uint8_t)x]) : HID_KEYBOARD_NONE) typedef enum { WorkerEvtToggle = (1 << 0), WorkerEvtEnd = (1 << 1), WorkerEvtConnect = (1 << 2), WorkerEvtDisconnect = (1 << 3), } WorkerEvtFlags; struct BadUsbScript { FuriHalUsbHidConfig hid_cfg; BadUsbState st; FuriString* file_path; uint32_t defdelay; uint16_t layout[128]; FuriThread* thread; uint8_t file_buf[FILE_BUFFER_LEN + 1]; uint8_t buf_start; uint8_t buf_len; bool file_end; FuriString* line; FuriString* line_prev; uint32_t repeat_cnt; }; typedef struct { char* name; uint16_t keycode; } DuckyKey; static const DuckyKey ducky_keys[] = { {"CTRL-ALT", KEY_MOD_LEFT_CTRL | KEY_MOD_LEFT_ALT}, {"CTRL-SHIFT", KEY_MOD_LEFT_CTRL | KEY_MOD_LEFT_SHIFT}, {"ALT-SHIFT", KEY_MOD_LEFT_ALT | KEY_MOD_LEFT_SHIFT}, {"ALT-GUI", KEY_MOD_LEFT_ALT | KEY_MOD_LEFT_GUI}, {"GUI-SHIFT", KEY_MOD_LEFT_GUI | KEY_MOD_LEFT_SHIFT}, {"CTRL", KEY_MOD_LEFT_CTRL}, {"CONTROL", KEY_MOD_LEFT_CTRL}, {"SHIFT", KEY_MOD_LEFT_SHIFT}, {"ALT", KEY_MOD_LEFT_ALT}, {"GUI", KEY_MOD_LEFT_GUI}, {"WINDOWS", KEY_MOD_LEFT_GUI}, {"DOWNARROW", HID_KEYBOARD_DOWN_ARROW}, {"DOWN", HID_KEYBOARD_DOWN_ARROW}, {"LEFTARROW", HID_KEYBOARD_LEFT_ARROW}, {"LEFT", HID_KEYBOARD_LEFT_ARROW}, {"RIGHTARROW", HID_KEYBOARD_RIGHT_ARROW}, {"RIGHT", HID_KEYBOARD_RIGHT_ARROW}, {"UPARROW", HID_KEYBOARD_UP_ARROW}, {"UP", HID_KEYBOARD_UP_ARROW}, {"ENTER", HID_KEYBOARD_RETURN}, {"BREAK", HID_KEYBOARD_PAUSE}, {"PAUSE", HID_KEYBOARD_PAUSE}, {"CAPSLOCK", HID_KEYBOARD_CAPS_LOCK}, {"DELETE", HID_KEYBOARD_DELETE}, {"BACKSPACE", HID_KEYPAD_BACKSPACE}, {"END", HID_KEYBOARD_END}, {"ESC", HID_KEYBOARD_ESCAPE}, {"ESCAPE", HID_KEYBOARD_ESCAPE}, {"HOME", HID_KEYBOARD_HOME}, {"INSERT", HID_KEYBOARD_INSERT}, {"NUMLOCK", HID_KEYPAD_NUMLOCK}, {"PAGEUP", HID_KEYBOARD_PAGE_UP}, {"PAGEDOWN", HID_KEYBOARD_PAGE_DOWN}, {"PRINTSCREEN", HID_KEYBOARD_PRINT_SCREEN}, {"SCROLLOCK", HID_KEYBOARD_SCROLL_LOCK}, {"SPACE", HID_KEYBOARD_SPACEBAR}, {"TAB", HID_KEYBOARD_TAB}, {"MENU", HID_KEYBOARD_APPLICATION}, {"APP", HID_KEYBOARD_APPLICATION}, {"F1", HID_KEYBOARD_F1}, {"F2", HID_KEYBOARD_F2}, {"F3", HID_KEYBOARD_F3}, {"F4", HID_KEYBOARD_F4}, {"F5", HID_KEYBOARD_F5}, {"F6", HID_KEYBOARD_F6}, {"F7", HID_KEYBOARD_F7}, {"F8", HID_KEYBOARD_F8}, {"F9", HID_KEYBOARD_F9}, {"F10", HID_KEYBOARD_F10}, {"F11", HID_KEYBOARD_F11}, {"F12", HID_KEYBOARD_F12}, }; static const char ducky_cmd_comment[] = {"REM"}; static const char ducky_cmd_id[] = {"ID"}; static const char ducky_cmd_delay[] = {"DELAY "}; static const char ducky_cmd_string[] = {"STRING "}; static const char ducky_cmd_defdelay_1[] = {"DEFAULT_DELAY "}; static const char ducky_cmd_defdelay_2[] = {"DEFAULTDELAY "}; static const char ducky_cmd_repeat[] = {"REPEAT "}; static const char ducky_cmd_sysrq[] = {"SYSRQ "}; static const char ducky_cmd_altchar[] = {"ALTCHAR "}; static const char ducky_cmd_altstr_1[] = {"ALTSTRING "}; static const char ducky_cmd_altstr_2[] = {"ALTCODE "}; static const char ducky_cmd_lang[] = {"DUCKY_LANG"}; static const uint8_t numpad_keys[10] = { HID_KEYPAD_0, HID_KEYPAD_1, HID_KEYPAD_2, HID_KEYPAD_3, HID_KEYPAD_4, HID_KEYPAD_5, HID_KEYPAD_6, HID_KEYPAD_7, HID_KEYPAD_8, HID_KEYPAD_9, }; static bool ducky_get_number(const char* param, uint32_t* val) { uint32_t value = 0; if(sscanf(param, "%lu", &value) == 1) { *val = value; return true; } return false; } static uint32_t ducky_get_command_len(const char* line) { uint32_t len = strlen(line); for(uint32_t i = 0; i < len; i++) { if(line[i] == ' ') return i; } return 0; } static bool ducky_is_line_end(const char chr) { return ((chr == ' ') || (chr == '\0') || (chr == '\r') || (chr == '\n')); } static void ducky_numlock_on() { if((furi_hal_hid_get_led_state() & HID_KB_LED_NUM) == 0) { furi_hal_hid_kb_press(HID_KEYBOARD_LOCK_NUM_LOCK); furi_hal_hid_kb_release(HID_KEYBOARD_LOCK_NUM_LOCK); } } static bool ducky_numpad_press(const char num) { if((num < '0') || (num > '9')) return false; uint16_t key = numpad_keys[num - '0']; furi_hal_hid_kb_press(key); furi_hal_hid_kb_release(key); return true; } static bool ducky_altchar(const char* charcode) { uint8_t i = 0; bool state = false; FURI_LOG_I(WORKER_TAG, "char %s", charcode); furi_hal_hid_kb_press(KEY_MOD_LEFT_ALT); while(!ducky_is_line_end(charcode[i])) { state = ducky_numpad_press(charcode[i]); if(state == false) break; i++; } furi_hal_hid_kb_release(KEY_MOD_LEFT_ALT); return state; } static bool ducky_altstring(const char* param) { uint32_t i = 0; bool state = false; while(param[i] != '\0') { if((param[i] < ' ') || (param[i] > '~')) { i++; continue; // Skip non-printable chars } char temp_str[4]; snprintf(temp_str, 4, "%u", param[i]); state = ducky_altchar(temp_str); if(state == false) break; i++; } return state; } static bool ducky_string(BadUsbScript* bad_usb, const char* param) { uint32_t i = 0; while(param[i] != '\0') { uint16_t keycode = BADUSB_ASCII_TO_KEY(bad_usb, param[i]); if(keycode != HID_KEYBOARD_NONE) { furi_hal_hid_kb_press(keycode); furi_hal_hid_kb_release(keycode); } i++; } return true; } static uint16_t ducky_get_keycode(BadUsbScript* bad_usb, const char* param, bool accept_chars) { for(uint8_t i = 0; i < (sizeof(ducky_keys) / sizeof(ducky_keys[0])); i++) { uint8_t key_cmd_len = strlen(ducky_keys[i].name); if((strncmp(param, ducky_keys[i].name, key_cmd_len) == 0) && (ducky_is_line_end(param[key_cmd_len]))) { return ducky_keys[i].keycode; } } if((accept_chars) && (strlen(param) > 0)) { return (BADUSB_ASCII_TO_KEY(bad_usb, param[0]) & 0xFF); } return 0; } static int32_t ducky_parse_line(BadUsbScript* bad_usb, FuriString* line) { uint32_t line_len = furi_string_size(line); const char* line_tmp = furi_string_get_cstr(line); bool state = false; for(uint32_t i = 0; i < line_len; i++) { if((line_tmp[i] != ' ') && (line_tmp[i] != '\t') && (line_tmp[i] != '\n')) { line_tmp = &line_tmp[i]; break; // Skip spaces and tabs } if(i == line_len - 1) return SCRIPT_STATE_NEXT_LINE; // Skip empty lines } FURI_LOG_D(WORKER_TAG, "line:%s", line_tmp); // General commands if(strncmp(line_tmp, ducky_cmd_comment, strlen(ducky_cmd_comment)) == 0) { // REM - comment line return (0); } else if(strncmp(line_tmp, ducky_cmd_id, strlen(ducky_cmd_id)) == 0) { // ID - executed in ducky_script_preload return (0); } else if(strncmp(line_tmp, ducky_cmd_lang, strlen(ducky_cmd_lang)) == 0) { // DUCKY_LANG - ignore command to retain compatibility with existing scripts return (0); } else if(strncmp(line_tmp, ducky_cmd_delay, strlen(ducky_cmd_delay)) == 0) { // DELAY line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; uint32_t delay_val = 0; state = ducky_get_number(line_tmp, &delay_val); if((state) && (delay_val > 0)) { return (int32_t)delay_val; } return SCRIPT_STATE_ERROR; } else if( (strncmp(line_tmp, ducky_cmd_defdelay_1, strlen(ducky_cmd_defdelay_1)) == 0) || (strncmp(line_tmp, ducky_cmd_defdelay_2, strlen(ducky_cmd_defdelay_2)) == 0)) { // DEFAULT_DELAY line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; state = ducky_get_number(line_tmp, &bad_usb->defdelay); return (state) ? (0) : SCRIPT_STATE_ERROR; } else if(strncmp(line_tmp, ducky_cmd_string, strlen(ducky_cmd_string)) == 0) { // STRING line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; state = ducky_string(bad_usb, line_tmp); return (state) ? (0) : SCRIPT_STATE_ERROR; } else if(strncmp(line_tmp, ducky_cmd_altchar, strlen(ducky_cmd_altchar)) == 0) { // ALTCHAR line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; ducky_numlock_on(); state = ducky_altchar(line_tmp); return (state) ? (0) : SCRIPT_STATE_ERROR; } else if( (strncmp(line_tmp, ducky_cmd_altstr_1, strlen(ducky_cmd_altstr_1)) == 0) || (strncmp(line_tmp, ducky_cmd_altstr_2, strlen(ducky_cmd_altstr_2)) == 0)) { // ALTSTRING line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; ducky_numlock_on(); state = ducky_altstring(line_tmp); return (state) ? (0) : SCRIPT_STATE_ERROR; } else if(strncmp(line_tmp, ducky_cmd_repeat, strlen(ducky_cmd_repeat)) == 0) { // REPEAT line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; state = ducky_get_number(line_tmp, &bad_usb->repeat_cnt); return (state) ? (0) : SCRIPT_STATE_ERROR; } else if(strncmp(line_tmp, ducky_cmd_sysrq, strlen(ducky_cmd_sysrq)) == 0) { // SYSRQ line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; uint16_t key = ducky_get_keycode(bad_usb, line_tmp, true); furi_hal_hid_kb_press(KEY_MOD_LEFT_ALT | HID_KEYBOARD_PRINT_SCREEN); furi_hal_hid_kb_press(key); furi_hal_hid_kb_release_all(); return (0); } else { // Special keys + modifiers uint16_t key = ducky_get_keycode(bad_usb, line_tmp, false); if(key == HID_KEYBOARD_NONE) return SCRIPT_STATE_ERROR; if((key & 0xFF00) != 0) { // It's a modifier key line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1]; key |= ducky_get_keycode(bad_usb, line_tmp, true); } furi_hal_hid_kb_press(key); furi_hal_hid_kb_release(key); return (0); } return SCRIPT_STATE_ERROR; } static bool ducky_set_usb_id(BadUsbScript* bad_usb, const char* line) { if(sscanf(line, "%lX:%lX", &bad_usb->hid_cfg.vid, &bad_usb->hid_cfg.pid) == 2) { bad_usb->hid_cfg.manuf[0] = '\0'; bad_usb->hid_cfg.product[0] = '\0'; uint8_t id_len = ducky_get_command_len(line); if(!ducky_is_line_end(line[id_len + 1])) { sscanf( &line[id_len + 1], "%31[^\r\n:]:%31[^\r\n]", bad_usb->hid_cfg.manuf, bad_usb->hid_cfg.product); } FURI_LOG_D( WORKER_TAG, "set id: %04lX:%04lX mfr:%s product:%s", bad_usb->hid_cfg.vid, bad_usb->hid_cfg.pid, bad_usb->hid_cfg.manuf, bad_usb->hid_cfg.product); return true; } return false; } static bool ducky_script_preload(BadUsbScript* bad_usb, File* script_file) { uint8_t ret = 0; uint32_t line_len = 0; furi_string_reset(bad_usb->line); do { ret = storage_file_read(script_file, bad_usb->file_buf, FILE_BUFFER_LEN); for(uint16_t i = 0; i < ret; i++) { if(bad_usb->file_buf[i] == '\n' && line_len > 0) { bad_usb->st.line_nb++; line_len = 0; } else { if(bad_usb->st.line_nb == 0) { // Save first line furi_string_push_back(bad_usb->line, bad_usb->file_buf[i]); } line_len++; } } if(storage_file_eof(script_file)) { if(line_len > 0) { bad_usb->st.line_nb++; break; } } } while(ret > 0); const char* line_tmp = furi_string_get_cstr(bad_usb->line); bool id_set = false; // Looking for ID command at first line if(strncmp(line_tmp, ducky_cmd_id, strlen(ducky_cmd_id)) == 0) { id_set = ducky_set_usb_id(bad_usb, &line_tmp[strlen(ducky_cmd_id) + 1]); } if(id_set) { furi_check(furi_hal_usb_set_config(&usb_hid, &bad_usb->hid_cfg)); } else { furi_check(furi_hal_usb_set_config(&usb_hid, NULL)); } storage_file_seek(script_file, 0, true); furi_string_reset(bad_usb->line); return true; } static int32_t ducky_script_execute_next(BadUsbScript* bad_usb, File* script_file) { int32_t delay_val = 0; if(bad_usb->repeat_cnt > 0) { bad_usb->repeat_cnt--; delay_val = ducky_parse_line(bad_usb, bad_usb->line_prev); if(delay_val == SCRIPT_STATE_NEXT_LINE) { // Empty line return 0; } else if(delay_val < 0) { // Script error bad_usb->st.error_line = bad_usb->st.line_cur - 1; FURI_LOG_E(WORKER_TAG, "Unknown command at line %u", bad_usb->st.line_cur - 1); return SCRIPT_STATE_ERROR; } else { return (delay_val + bad_usb->defdelay); } } furi_string_set(bad_usb->line_prev, bad_usb->line); furi_string_reset(bad_usb->line); while(1) { if(bad_usb->buf_len == 0) { bad_usb->buf_len = storage_file_read(script_file, bad_usb->file_buf, FILE_BUFFER_LEN); if(storage_file_eof(script_file)) { if((bad_usb->buf_len < FILE_BUFFER_LEN) && (bad_usb->file_end == false)) { bad_usb->file_buf[bad_usb->buf_len] = '\n'; bad_usb->buf_len++; bad_usb->file_end = true; } } bad_usb->buf_start = 0; if(bad_usb->buf_len == 0) return SCRIPT_STATE_END; } for(uint8_t i = bad_usb->buf_start; i < (bad_usb->buf_start + bad_usb->buf_len); i++) { if(bad_usb->file_buf[i] == '\n' && furi_string_size(bad_usb->line) > 0) { bad_usb->st.line_cur++; bad_usb->buf_len = bad_usb->buf_len + bad_usb->buf_start - (i + 1); bad_usb->buf_start = i + 1; delay_val = ducky_parse_line(bad_usb, bad_usb->line); if(delay_val < 0) { bad_usb->st.error_line = bad_usb->st.line_cur; FURI_LOG_E(WORKER_TAG, "Unknown command at line %u", bad_usb->st.line_cur); return SCRIPT_STATE_ERROR; } else { return (delay_val + bad_usb->defdelay); } } else { furi_string_push_back(bad_usb->line, bad_usb->file_buf[i]); } } bad_usb->buf_len = 0; if(bad_usb->file_end) return SCRIPT_STATE_END; } return 0; } static void bad_usb_hid_state_callback(bool state, void* context) { furi_assert(context); BadUsbScript* bad_usb = context; if(state == true) furi_thread_flags_set(furi_thread_get_id(bad_usb->thread), WorkerEvtConnect); else furi_thread_flags_set(furi_thread_get_id(bad_usb->thread), WorkerEvtDisconnect); } static int32_t bad_usb_worker(void* context) { BadUsbScript* bad_usb = context; BadUsbWorkerState worker_state = BadUsbStateInit; int32_t delay_val = 0; FuriHalUsbInterface* usb_mode_prev = furi_hal_usb_get_config(); FURI_LOG_I(WORKER_TAG, "Init"); File* script_file = storage_file_alloc(furi_record_open(RECORD_STORAGE)); bad_usb->line = furi_string_alloc(); bad_usb->line_prev = furi_string_alloc(); furi_hal_hid_set_state_callback(bad_usb_hid_state_callback, bad_usb); while(1) { if(worker_state == BadUsbStateInit) { // State: initialization if(storage_file_open( script_file, furi_string_get_cstr(bad_usb->file_path), FSAM_READ, FSOM_OPEN_EXISTING)) { if((ducky_script_preload(bad_usb, script_file)) && (bad_usb->st.line_nb > 0)) { if(furi_hal_hid_is_connected()) { worker_state = BadUsbStateIdle; // Ready to run } else { worker_state = BadUsbStateNotConnected; // USB not connected } } else { worker_state = BadUsbStateScriptError; // Script preload error } } else { FURI_LOG_E(WORKER_TAG, "File open error"); worker_state = BadUsbStateFileError; // File open error } bad_usb->st.state = worker_state; } else if(worker_state == BadUsbStateNotConnected) { // State: USB not connected uint32_t flags = furi_thread_flags_wait( WorkerEvtEnd | WorkerEvtConnect, FuriFlagWaitAny, FuriWaitForever); furi_check((flags & FuriFlagError) == 0); if(flags & WorkerEvtEnd) { break; } else if(flags & WorkerEvtConnect) { worker_state = BadUsbStateIdle; // Ready to run } bad_usb->st.state = worker_state; } else if(worker_state == BadUsbStateIdle) { // State: ready to start uint32_t flags = furi_thread_flags_wait( WorkerEvtEnd | WorkerEvtToggle | WorkerEvtDisconnect, FuriFlagWaitAny, FuriWaitForever); furi_check((flags & FuriFlagError) == 0); if(flags & WorkerEvtEnd) { break; } else if(flags & WorkerEvtToggle) { // Start executing script DOLPHIN_DEED(DolphinDeedBadUsbPlayScript); delay_val = 0; bad_usb->buf_len = 0; bad_usb->st.line_cur = 0; bad_usb->defdelay = 0; bad_usb->repeat_cnt = 0; bad_usb->file_end = false; storage_file_seek(script_file, 0, true); worker_state = BadUsbStateRunning; } else if(flags & WorkerEvtDisconnect) { worker_state = BadUsbStateNotConnected; // USB disconnected } bad_usb->st.state = worker_state; } else if(worker_state == BadUsbStateRunning) { // State: running uint16_t delay_cur = (delay_val > 1000) ? (1000) : (delay_val); uint32_t flags = furi_thread_flags_wait( WorkerEvtEnd | WorkerEvtToggle | WorkerEvtDisconnect, FuriFlagWaitAny, delay_cur); delay_val -= delay_cur; if(!(flags & FuriFlagError)) { if(flags & WorkerEvtEnd) { break; } else if(flags & WorkerEvtToggle) { worker_state = BadUsbStateIdle; // Stop executing script furi_hal_hid_kb_release_all(); } else if(flags & WorkerEvtDisconnect) { worker_state = BadUsbStateNotConnected; // USB disconnected furi_hal_hid_kb_release_all(); } bad_usb->st.state = worker_state; continue; } else if((flags == FuriFlagErrorTimeout) || (flags == FuriFlagErrorResource)) { if(delay_val > 0) { bad_usb->st.delay_remain--; continue; } bad_usb->st.state = BadUsbStateRunning; delay_val = ducky_script_execute_next(bad_usb, script_file); if(delay_val == SCRIPT_STATE_ERROR) { // Script error delay_val = 0; worker_state = BadUsbStateScriptError; bad_usb->st.state = worker_state; } else if(delay_val == SCRIPT_STATE_END) { // End of script delay_val = 0; worker_state = BadUsbStateIdle; bad_usb->st.state = BadUsbStateDone; furi_hal_hid_kb_release_all(); continue; } else if(delay_val > 1000) { bad_usb->st.state = BadUsbStateDelay; // Show long delays bad_usb->st.delay_remain = delay_val / 1000; } } else { furi_check((flags & FuriFlagError) == 0); } } else if( (worker_state == BadUsbStateFileError) || (worker_state == BadUsbStateScriptError)) { // State: error uint32_t flags = furi_thread_flags_wait( WorkerEvtEnd, FuriFlagWaitAny, FuriWaitForever); // Waiting for exit command furi_check((flags & FuriFlagError) == 0); if(flags & WorkerEvtEnd) { break; } } } furi_hal_hid_set_state_callback(NULL, NULL); furi_hal_usb_set_config(usb_mode_prev, NULL); storage_file_close(script_file); storage_file_free(script_file); furi_string_free(bad_usb->line); furi_string_free(bad_usb->line_prev); FURI_LOG_I(WORKER_TAG, "End"); return 0; } static void bad_usb_script_set_default_keyboard_layout(BadUsbScript* bad_usb) { furi_assert(bad_usb); memset(bad_usb->layout, HID_KEYBOARD_NONE, sizeof(bad_usb->layout)); memcpy(bad_usb->layout, hid_asciimap, MIN(sizeof(hid_asciimap), sizeof(bad_usb->layout))); } BadUsbScript* bad_usb_script_open(FuriString* file_path) { furi_assert(file_path); BadUsbScript* bad_usb = malloc(sizeof(BadUsbScript)); bad_usb->file_path = furi_string_alloc(); furi_string_set(bad_usb->file_path, file_path); bad_usb_script_set_default_keyboard_layout(bad_usb); bad_usb->st.state = BadUsbStateInit; bad_usb->thread = furi_thread_alloc(); furi_thread_set_name(bad_usb->thread, "BadUsbWorker"); furi_thread_set_stack_size(bad_usb->thread, 2048); furi_thread_set_context(bad_usb->thread, bad_usb); furi_thread_set_callback(bad_usb->thread, bad_usb_worker); furi_thread_start(bad_usb->thread); return bad_usb; } void bad_usb_script_close(BadUsbScript* bad_usb) { furi_assert(bad_usb); furi_thread_flags_set(furi_thread_get_id(bad_usb->thread), WorkerEvtEnd); furi_thread_join(bad_usb->thread); furi_thread_free(bad_usb->thread); furi_string_free(bad_usb->file_path); free(bad_usb); } void bad_usb_script_set_keyboard_layout(BadUsbScript* bad_usb, FuriString* layout_path) { furi_assert(bad_usb); if((bad_usb->st.state == BadUsbStateRunning) || (bad_usb->st.state == BadUsbStateDelay)) { // do not update keyboard layout while a script is running return; } File* layout_file = storage_file_alloc(furi_record_open(RECORD_STORAGE)); if(!furi_string_empty(layout_path)) { if(storage_file_open( layout_file, furi_string_get_cstr(layout_path), FSAM_READ, FSOM_OPEN_EXISTING)) { uint16_t layout[128]; if(storage_file_read(layout_file, layout, sizeof(layout)) == sizeof(layout)) { memcpy(bad_usb->layout, layout, sizeof(layout)); } } storage_file_close(layout_file); } else { bad_usb_script_set_default_keyboard_layout(bad_usb); } storage_file_free(layout_file); } void bad_usb_script_toggle(BadUsbScript* bad_usb) { furi_assert(bad_usb); furi_thread_flags_set(furi_thread_get_id(bad_usb->thread), WorkerEvtToggle); } BadUsbState* bad_usb_script_get_state(BadUsbScript* bad_usb) { furi_assert(bad_usb); return &(bad_usb->st); }