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[#1989] updated parser and added stringln, hold and release (#2448)

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* updated parser and added stringln, hold and release
* removed unused code as requested from PR
* BadUsb: tiny change to trigger rebuild

Co-authored-by: p4p1 <p4p1@vivaldi.net>
Co-authored-by: あく <alleteam@gmail.com>
This commit is contained in:
Leo Smith 2023-03-09 18:42:34 +01:00 committed by GitHub
parent 780da7d4d5
commit 5b05aeea82
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
4 changed files with 512 additions and 225 deletions
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287
applications/main/bad_usb/bad_usb_script.c
View File

@ -6,11 +6,11 @@
#include <furi_hal_usb_hid.h>
#include <storage/storage.h>
#include "bad_usb_script.h"
#include "mnemonic.h"
#include <dolphin/dolphin.h>
#define TAG "BadUSB"
#define WORKER_TAG TAG "Worker"
#define FILE_BUFFER_LEN 16
#define SCRIPT_STATE_ERROR (-1)
#define SCRIPT_STATE_END (-2)
@ -26,24 +26,6 @@ typedef enum {
WorkerEvtDisconnect = (1 << 3),
} WorkerEvtFlags;
struct BadUsbScript {
FuriHalUsbHidConfig hid_cfg;
BadUsbState st;
FuriString* file_path;
uint32_t defdelay;
uint16_t layout[128];
uint32_t stringdelay;
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;
@ -112,40 +94,21 @@ 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_stringln[] = {"STRINGLN "};
static const char ducky_cmd_defdelay_1[] = {"DEFAULT_DELAY "};
static const char ducky_cmd_defdelay_2[] = {"DEFAULTDELAY "};
static const char ducky_cmd_stringdelay_1[] = {"STRINGDELAY "};
static const char ducky_cmd_stringdelay_2[] = {"STRING_DELAY "};
static const char ducky_cmd_repeat[] = {"REPEAT "};
static const char ducky_cmd_sysrq[] = {"SYSRQ "};
static const char ducky_cmd_hold[] = {"HOLD "};
static const char ducky_cmd_release[] = {"RELEASE "};
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 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 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;
@ -153,84 +116,11 @@ static uint32_t ducky_get_command_len(const char* line) {
return 0;
}
static bool ducky_is_line_end(const char chr) {
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);
if(bad_usb->stringdelay > 0) {
furi_delay_ms(bad_usb->stringdelay);
}
}
i++;
}
bad_usb->stringdelay = 0;
return true;
}
static uint16_t ducky_get_keycode(BadUsbScript* bad_usb, const char* param, bool accept_chars) {
uint16_t ducky_get_keycode(BadUsbScript* bad_usb, const char* param, bool accept_chars) {
for(size_t i = 0; i < (sizeof(ducky_keys) / sizeof(ducky_keys[0])); i++) {
size_t key_cmd_len = strlen(ducky_keys[i].name);
if((strncmp(param, ducky_keys[i].name, key_cmd_len) == 0) &&
@ -248,119 +138,68 @@ static int32_t
ducky_parse_line(BadUsbScript* bad_usb, FuriString* line, char* error, size_t error_len) {
uint32_t line_len = furi_string_size(line);
const char* line_tmp = furi_string_get_cstr(line);
bool state = false;
const char* ducky_cmd_table[] = {
ducky_cmd_comment,
ducky_cmd_id,
ducky_cmd_delay,
ducky_cmd_string,
ducky_cmd_defdelay_1,
ducky_cmd_defdelay_2,
ducky_cmd_stringdelay_1,
ducky_cmd_stringdelay_2,
ducky_cmd_repeat,
ducky_cmd_sysrq,
ducky_cmd_altchar,
ducky_cmd_altstr_1,
ducky_cmd_altstr_2,
ducky_cmd_stringln,
ducky_cmd_hold,
ducky_cmd_release,
NULL};
int32_t (*fnc_ptr[])(BadUsbScript*, FuriString*, const char*, char*, size_t) = {
&ducky_fnc_noop,
&ducky_fnc_noop,
&ducky_fnc_delay,
&ducky_fnc_string,
&ducky_fnc_defdelay,
&ducky_fnc_defdelay,
&ducky_fnc_strdelay,
&ducky_fnc_strdelay,
&ducky_fnc_repeat,
&ducky_fnc_sysrq,
&ducky_fnc_altchar,
&ducky_fnc_altstring,
&ducky_fnc_altstring,
&ducky_fnc_stringln,
&ducky_fnc_hold,
&ducky_fnc_release,
NULL};
if(line_len == 0) {
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_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;
}
if(error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
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);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
} else if(
(strncmp(line_tmp, ducky_cmd_stringdelay_1, strlen(ducky_cmd_stringdelay_1)) == 0) ||
(strncmp(line_tmp, ducky_cmd_stringdelay_2, strlen(ducky_cmd_stringdelay_2)) == 0)) {
//STRINGDELAY, finally it's here
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_get_number(line_tmp, &bad_usb->stringdelay);
if((state) && (bad_usb->stringdelay > 0)) {
return state;
}
if(error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return 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);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid string %s", 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);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid altchar %s", 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);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid altstring %s", 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);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
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) {
if(error != NULL) {
snprintf(error, error_len, "No keycode defined for %s", line_tmp);
}
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);
// Ducky Lang Functions
for(size_t i = 0; ducky_cmd_table[i]; i++) {
if(strncmp(line_tmp, ducky_cmd_table[i], strlen(ducky_cmd_table[i])) == 0)
return ((fnc_ptr[i])(bad_usb, line, line_tmp, error, error_len));
}
// Special keys + modifiers
uint16_t key = ducky_get_keycode(bad_usb, line_tmp, false);
if(key == HID_KEYBOARD_NONE) {
if(error != NULL) {
snprintf(error, error_len, "No keycode defined for %s", line_tmp);
}
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);
}
static bool ducky_set_usb_id(BadUsbScript* bad_usb, const char* line) {

27
applications/main/bad_usb/bad_usb_script.h
View File

@ -5,8 +5,9 @@ extern "C" {
#endif
#include <furi.h>
#include <furi_hal.h>
typedef struct BadUsbScript BadUsbScript;
#define FILE_BUFFER_LEN 16
typedef enum {
BadUsbStateInit,
@ -29,6 +30,24 @@ typedef struct {
char error[64];
} BadUsbState;
typedef struct BadUsbScript {
FuriHalUsbHidConfig hid_cfg;
BadUsbState st;
FuriString* file_path;
uint32_t defdelay;
uint16_t layout[128];
uint32_t stringdelay;
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;
} BadUsbScript;
BadUsbScript* bad_usb_script_open(FuriString* file_path);
void bad_usb_script_close(BadUsbScript* bad_usb);
@ -43,6 +62,12 @@ void bad_usb_script_toggle(BadUsbScript* bad_usb);
BadUsbState* bad_usb_script_get_state(BadUsbScript* bad_usb);
uint16_t ducky_get_keycode(BadUsbScript* bad_usb, const char* param, bool accept_chars);
uint32_t ducky_get_command_len(const char* line);
bool ducky_is_line_end(const char chr);
#ifdef __cplusplus
}
#endif

327
applications/main/bad_usb/mnemonic.c Normal file
View File

@ -0,0 +1,327 @@
#include <furi_hal.h>
#include <furi_hal_usb_hid.h>
#include "mnemonic.h"
#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)
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 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);
if(bad_usb->stringdelay > 0) {
furi_delay_ms(bad_usb->stringdelay);
}
}
i++;
}
bad_usb->stringdelay = 0;
return true;
}
int32_t ducky_fnc_noop(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
(void)bad_usb;
(void)line;
(void)line_tmp;
(void)error;
(void)error_len;
return (0);
}
int32_t ducky_fnc_delay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)bad_usb;
(void)line;
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;
}
if(error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_defdelay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_get_number(line_tmp, &bad_usb->defdelay);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_strdelay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_get_number(line_tmp, &bad_usb->stringdelay);
if((state) && (bad_usb->stringdelay > 0)) {
return state;
}
if(error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_string(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_string(bad_usb, line_tmp);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid string %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_repeat(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_get_number(line_tmp, &bad_usb->repeat_cnt);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid number %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_sysrq(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
(void)error;
(void)error_len;
(void)line;
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);
}
int32_t ducky_fnc_altchar(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)bad_usb;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
ducky_numlock_on();
state = ducky_altchar(line_tmp);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid altchar %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_altstring(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)bad_usb;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
ducky_numlock_on();
state = ducky_altstring(line_tmp);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid altstring %s", line_tmp);
}
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_stringln(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
bool state = false;
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
state = ducky_string(bad_usb, line_tmp);
if(!state && error != NULL) {
snprintf(error, error_len, "Invalid string %s", line_tmp);
}
furi_hal_hid_kb_press(HID_KEYBOARD_RETURN);
furi_hal_hid_kb_release(HID_KEYBOARD_RETURN);
return (state) ? (0) : SCRIPT_STATE_ERROR;
}
int32_t ducky_fnc_hold(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
uint16_t key = ducky_get_keycode(bad_usb, line_tmp, true);
if(key == HID_KEYBOARD_NONE) {
if(error != NULL) {
snprintf(error, error_len, "No keycode defined for %s", line_tmp);
}
return SCRIPT_STATE_ERROR;
}
furi_hal_hid_kb_press(key);
return (0);
}
int32_t ducky_fnc_release(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len) {
(void)line;
line_tmp = &line_tmp[ducky_get_command_len(line_tmp) + 1];
uint16_t key = ducky_get_keycode(bad_usb, line_tmp, true);
if(key == HID_KEYBOARD_NONE) {
if(error != NULL) {
snprintf(error, error_len, "No keycode defined for %s", line_tmp);
}
return SCRIPT_STATE_ERROR;
}
furi_hal_hid_kb_release(key);
return (0);
}

96
applications/main/bad_usb/mnemonic.h Normal file
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@ -0,0 +1,96 @@
#pragma once
#ifdef __cplusplus
extern "C" {
#endif
#include "bad_usb_script.h"
// A no opperation function
int32_t ducky_fnc_noop(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// DELAY
int32_t ducky_fnc_delay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// DEFAULTDELAY
int32_t ducky_fnc_defdelay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// STRINGDELAY
int32_t ducky_fnc_strdelay(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// STRING
int32_t ducky_fnc_string(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// STRINGLN
int32_t ducky_fnc_stringln(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// REPEAT
int32_t ducky_fnc_repeat(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// SYSRQ
int32_t ducky_fnc_sysrq(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// ALTCHAR
int32_t ducky_fnc_altchar(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// ALTSTRING
int32_t ducky_fnc_altstring(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// HOLD
int32_t ducky_fnc_hold(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
// RELEASE
int32_t ducky_fnc_release(
BadUsbScript* bad_usb,
FuriString* line,
const char* line_tmp,
char* error,
size_t error_len);
#ifdef __cplusplus
}
#endif