def _stop(self):
"""
Restore the screen.
"""
self.clear()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
self.signal_restore()
fd = self._term_input_file.fileno()
if os.isatty(fd):
termios.tcsetattr(fd, termios.TCSADRAIN,
self._old_termios_settings)
self._mouse_tracking(False)
move_cursor = ""
if self._alternate_buffer:
move_cursor = escape.RESTORE_NORMAL_BUFFER
elif self.maxrow is not None:
move_cursor = escape.set_cursor_position(
0, self.maxrow)
self.write(
self._attrspec_to_escape(AttrSpec('',''))
+ escape.SI
+ move_cursor
+ escape.SHOW_CURSOR)
if self._old_signal_keys:
self.tty_signal_keys(*(self._old_signal_keys + (fd,)))
super(Screen, self)._stop()
def _encode_gpm_event( self ):
self.gpm_event_pending = False
s = self.gpm_mev.stdout.readline().decode('ascii')
l = s.split(",")
if len(l) != 6:
# unexpected output, stop tracking
self._stop_gpm_tracking()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
return []
ev, x, y, ign, b, m = s.split(",")
ev = int( ev.split("x")[-1], 16)
x = int( x.split(" ")[-1] )
y = int( y.lstrip().split(" ")[0] )
b = int( b.split(" ")[-1] )
m = int( m.split("x")[-1].rstrip(), 16 )
# convert to xterm-like escape sequence
last = next = self.last_bstate
l = []
mod = 0
if m & 1: mod |= 4 # shift
if m & 10: mod |= 8 # alt
if m & 4: mod |= 16 # ctrl
def append_button( b ):
b |= mod
l.extend([ 27, ord('['), ord('M'), b+32, x+32, y+32 ])
if ev == 20: # press
if b & 4 and last & 1 == 0:
append_button( 0 )
next |= 1
if b & 2 and last & 2 == 0:
append_button( 1 )
next |= 2
if b & 1 and last & 4 == 0:
append_button( 2 )
next |= 4
elif ev == 146: # drag
if b & 4:
append_button( 0 + escape.MOUSE_DRAG_FLAG )
elif b & 2:
append_button( 1 + escape.MOUSE_DRAG_FLAG )
elif b & 1:
append_button( 2 + escape.MOUSE_DRAG_FLAG )
else: # release
if b & 4 and last & 1:
append_button( 0 + escape.MOUSE_RELEASE_FLAG )
next &= ~ 1
if b & 2 and last & 2:
append_button( 1 + escape.MOUSE_RELEASE_FLAG )
next &= ~ 2
if b & 1 and last & 4:
append_button( 2 + escape.MOUSE_RELEASE_FLAG )
next &= ~ 4
self.last_bstate = next
return l
def start(self, alternate_buffer=True):
"""
Initialize the screen and input mode.
alternate_buffer -- use alternate screen buffer
"""
assert not self._started
if alternate_buffer:
self._term_output_file.write(escape.SWITCH_TO_ALTERNATE_BUFFER)
self._rows_used = None
else:
self._rows_used = 0
fd = self._term_input_file.fileno()
if os.isatty(fd):
self._old_termios_settings = termios.tcgetattr(fd)
tty.setcbreak(fd)
self.signal_init()
self._alternate_buffer = alternate_buffer
self._input_iter = self._run_input_iter()
self._next_timeout = self.max_wait
if not self._signal_keys_set:
self._old_signal_keys = self.tty_signal_keys(fileno=fd)
super(Screen, self).start()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
# restore mouse tracking to previous state
self._mouse_tracking(self._mouse_tracking_enabled)
def _encode_gpm_event(self):
self.gpm_event_pending = False
s = self.gpm_mev.stdout.readline()
l = s.split(",")
if len(l) != 6:
# unexpected output, stop tracking
self._stop_gpm_tracking()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
return []
ev, x, y, ign, b, m = s.split(",")
ev = int(ev.split("x")[-1], 16)
x = int(x.split(" ")[-1])
y = int(y.lstrip().split(" ")[0])
b = int(b.split(" ")[-1])
m = int(m.split("x")[-1].rstrip(), 16)
# convert to xterm-like escape sequence
last = next = self.last_bstate
l = []
mod = 0
if m & 1: mod |= 4 # shift
if m & 10: mod |= 8 # alt
if m & 4: mod |= 16 # ctrl
def append_button(b):
b |= mod
l.extend([27, ord('['), ord('M'), b + 32, x + 32, y + 32])
if ev == 20: # press
if b & 4 and last & 1 == 0:
append_button(0)
next |= 1
if b & 2 and last & 2 == 0:
append_button(1)
next |= 2
if b & 1 and last & 4 == 0:
append_button(2)
next |= 4
elif ev == 146: # drag
if b & 4:
append_button(0 + escape.MOUSE_DRAG_FLAG)
elif b & 2:
append_button(1 + escape.MOUSE_DRAG_FLAG)
elif b & 1:
append_button(2 + escape.MOUSE_DRAG_FLAG)
else: # release
if b & 4 and last & 1:
append_button(0 + escape.MOUSE_RELEASE_FLAG)
next &= ~1
if b & 2 and last & 2:
append_button(1 + escape.MOUSE_RELEASE_FLAG)
next &= ~2
if b & 1 and last & 4:
append_button(2 + escape.MOUSE_RELEASE_FLAG)
next &= ~4
self.last_bstate = next
return l
def start(self, alternate_buffer=True):
"""
Initialize the screen and input mode.
alternate_buffer -- use alternate screen buffer
"""
assert not self._started
if alternate_buffer:
self._term_output_file.write(escape.SWITCH_TO_ALTERNATE_BUFFER)
self._rows_used = None
else:
self._rows_used = 0
fd = self._term_input_file.fileno()
if os.isatty(fd):
self._old_termios_settings = termios.tcgetattr(fd)
tty.setcbreak(fd)
self.signal_init()
self._alternate_buffer = alternate_buffer
self._input_iter = self._run_input_iter()
self._next_timeout = self.max_wait
if not self._signal_keys_set:
self._old_signal_keys = self.tty_signal_keys(fileno=fd)
super(Screen, self).start()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
# restore mouse tracking to previous state
self._mouse_tracking(self._mouse_tracking_enabled)
def stop(self):
"""
Restore the screen.
"""
self.clear()
if not self._started:
return
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
self.signal_restore()
fd = self._term_input_file.fileno()
if os.isatty(fd):
termios.tcsetattr(fd, termios.TCSADRAIN,
self._old_termios_settings)
self._mouse_tracking(False)
move_cursor = ""
if self._alternate_buffer:
move_cursor = escape.RESTORE_NORMAL_BUFFER
elif self.maxrow is not None:
move_cursor = escape.set_cursor_position(0, self.maxrow)
self._term_output_file.write(
self._attrspec_to_escape(AttrSpec('', '')) + escape.SI +
move_cursor + escape.SHOW_CURSOR)
self._input_iter = self._fake_input_iter()
if self._old_signal_keys:
self.tty_signal_keys(*(self._old_signal_keys + (fd, )))
super(Screen, self).stop()
def set_position_collapsed(self, pos, is_collapsed):
if self._initially_collapsed(pos) == is_collapsed:
if pos in self._divergent_positions:
self._divergent_positions.remove(pos)
signals.emit_signal(self, "modified")
else:
if pos not in self._divergent_positions:
self._divergent_positions.append(pos)
signals.emit_signal(self, "modified")
def set_position_collapsed(self, pos, is_collapsed):
if self._initially_collapsed(pos) == is_collapsed:
if pos in self._divergent_positions:
self._divergent_positions.remove(pos)
signals.emit_signal(self, "modified")
else:
if pos not in self._divergent_positions:
self._divergent_positions.append(pos)
signals.emit_signal(self, "modified")
def _start(self, alternate_buffer=True):
"""
Initialize the screen and input mode.
alternate_buffer -- use alternate screen buffer
"""
if alternate_buffer:
self.write(escape.SWITCH_TO_ALTERNATE_BUFFER)
self._rows_used = None
else:
self._rows_used = 0
fd = self._input_fileno()
if fd is not None and os.isatty(fd) and not IS_WINDOWS:
self._old_termios_settings = termios.tcgetattr(fd)
tty.setcbreak(fd)
if IS_WINDOWS:
hOut = win32.GetStdHandle(win32.STD_OUTPUT_HANDLE)
hIn = win32.GetStdHandle(win32.STD_INPUT_HANDLE)
self._dwOriginalOutMode = win32.DWORD()
self._dwOriginalInMode = win32.DWORD()
win32.GetConsoleMode(hOut, byref(self._dwOriginalOutMode))
win32.GetConsoleMode(hIn, byref(self._dwOriginalInMode))
# TODO: Restore on exit
dwOutMode = win32.DWORD(self._dwOriginalOutMode.value
| win32.ENABLE_VIRTUAL_TERMINAL_PROCESSING
| win32.DISABLE_NEWLINE_AUTO_RETURN)
dwInMode = win32.DWORD(self._dwOriginalInMode.value
| win32.ENABLE_WINDOW_INPUT
| win32.ENABLE_VIRTUAL_TERMINAL_INPUT)
ok = win32.SetConsoleMode(hOut, dwOutMode)
if not ok:
raise RuntimeError(
"Error enabling virtual terminal processing, "
"mitmproxy's console interface requires Windows 10 Build 10586 or above."
)
ok = win32.SetConsoleMode(hIn, dwInMode)
assert ok
else:
self.signal_init()
self._alternate_buffer = alternate_buffer
self._next_timeout = self.max_wait
if not self._signal_keys_set and not IS_WINDOWS:
self._old_signal_keys = self.tty_signal_keys(fileno=fd)
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
# restore mouse tracking to previous state
self._mouse_tracking(self._mouse_tracking_enabled)
return super(Screen, self)._start()
def _reset_palette(self, palette: Dict[str, Tuple]):
# Reset the palette for activity. We use a bit of urwid implementation
# details here, because of lack of public way to do this.
self._mainloop.screen._palette = palette.copy()
for name, entry in palette.items():
(basic, mono, high_88, high_true) = entry
signals.emit_signal(
self._mainloop.screen,
urwid.UPDATE_PALETTE_ENTRY,
name,
basic,
mono,
high_88,
high_true,
)
self._mainloop.screen.clear()
def _stop(self):
"""
Restore the screen.
"""
self.clear()
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
if not IS_WINDOWS:
self.signal_restore()
fd = self._input_fileno()
if fd is not None and os.isatty(fd) and not IS_WINDOWS:
termios.tcsetattr(fd, termios.TCSADRAIN, self._old_termios_settings)
self._mouse_tracking(False)
move_cursor = ""
if self._alternate_buffer:
move_cursor = escape.RESTORE_NORMAL_BUFFER
elif self.maxrow is not None:
move_cursor = escape.set_cursor_position(
0, self.maxrow)
self.write(
self._attrspec_to_escape(AttrSpec('',''))
+ escape.SI
+ move_cursor
+ escape.SHOW_CURSOR)
self.flush()
if self._old_signal_keys:
self.tty_signal_keys(*(self._old_signal_keys + (fd,)))
if IS_WINDOWS:
hOut = win32.GetStdHandle(win32.STD_OUTPUT_HANDLE)
hIn = win32.GetStdHandle(win32.STD_INPUT_HANDLE)
ok = win32.SetConsoleMode(hOut, self._dwOriginalOutMode)
assert ok
ok = win32.SetConsoleMode(hIn, self._dwOriginalInMode)
assert ok
super(Screen, self)._stop()
def __init__(self, df, col_widths):
self._size = None
self._focused_col = None
self._walker = DataFrameWalker(df=df, col_widths=col_widths)
signals.connect_signal(
self._walker,
'modified',
lambda: signals.emit_signal(self, 'focused_row_changed', self.
focus_position),
)
super().__init__(self._walker)
def stop(self):
"""
Restore the screen.
"""
self.clear()
if not self._started:
return
signals.emit_signal(self, INPUT_DESCRIPTORS_CHANGED)
self.signal_restore()
fd = self._term_input_file.fileno()
if os.isatty(fd):
termios.tcsetattr(fd, termios.TCSADRAIN,
self._old_termios_settings)
move_cursor = ""
if self.gpm_mev:
self._stop_gpm_tracking()
if self._alternate_buffer:
move_cursor = escape.RESTORE_NORMAL_BUFFER
elif self.maxrow is not None:
move_cursor = escape.set_cursor_position(
0, self.maxrow)
self._term_output_file.write(self._attrspec_to_escape(AttrSpec('',''))
+ escape.SI
+ escape.MOUSE_TRACKING_OFF
+ escape.SHOW_CURSOR
+ move_cursor + "\n" + escape.SHOW_CURSOR )
self._input_iter = self._fake_input_iter()
if self._old_signal_keys:
self.tty_signal_keys(*(self._old_signal_keys + (fd,)))
super(Screen, self).stop()
def set_collapsed_all(self, is_collapsed):
self._initially_collapsed = lambda x: is_collapsed
self._divergent_positions = []
newfocus = self._walker.first_ancestor(self._focus)
self.set_focus(newfocus)
signals.emit_signal(self, "modified")
def register_palette_entry(self, name, foreground, background,
mono=None, foreground_high=None, background_high=None):
"""Register a single palette entry.
name -- new entry/attribute name
foreground -- a string containing a comma-separated foreground
color and settings
Color values:
'default' (use the terminal's default foreground),
'black', 'dark red', 'dark green', 'brown', 'dark blue',
'dark magenta', 'dark cyan', 'light gray', 'dark gray',
'light red', 'light green', 'yellow', 'light blue',
'light magenta', 'light cyan', 'white'
Settings:
'bold', 'underline', 'blink', 'standout'
Some terminals use 'bold' for bright colors. Most terminals
ignore the 'blink' setting. If the color is not given then
'default' will be assumed.
background -- a string containing the background color
Background color values:
'default' (use the terminal's default background),
'black', 'dark red', 'dark green', 'brown', 'dark blue',
'dark magenta', 'dark cyan', 'light gray'
mono -- a comma-separated string containing monochrome terminal
settings (see "Settings" above.)
None = no terminal settings (same as 'default')
foreground_high -- a string containing a comma-separated
foreground color and settings, standard foreground
colors (see "Color values" above) or high-colors may
be used
High-color example values:
'#009' (0% red, 0% green, 60% red, like HTML colors)
'#fcc' (100% red, 80% green, 80% blue)
'g40' (40% gray, decimal), 'g#cc' (80% gray, hex),
'#000', 'g0', 'g#00' (black),
'#fff', 'g100', 'g#ff' (white)
'h8' (color number 8), 'h255' (color number 255)
None = use foreground parameter value
background_high -- a string containing the background color,
standard background colors (see "Background colors" above)
or high-colors (see "High-color example values" above)
may be used
None = use background parameter value
"""
basic = AttrSpec(foreground, background, 16)
if type(mono) == tuple:
# old style of specifying mono attributes was to put them
# in a tuple. convert to comma-separated string
mono = ",".join(mono)
if mono is None:
mono = DEFAULT
mono = AttrSpec(mono, DEFAULT, 1)
if foreground_high is None:
foreground_high = foreground
if background_high is None:
background_high = background
high_256 = AttrSpec(foreground_high, background_high, 256)
# 'hX' where X > 15 are different in 88/256 color, use
# basic colors for 88-color mode if high colors are specified
# in this way (also avoids crash when X > 87)
def large_h(desc):
if not desc.startswith('h'):
return False
if ',' in desc:
desc = desc.split(',',1)[0]
num = int(desc[1:], 10)
return num > 15
if large_h(foreground_high) or large_h(background_high):
high_88 = basic
else:
high_88 = AttrSpec(foreground_high, background_high, 88)
signals.emit_signal(self, UPDATE_PALETTE_ENTRY,
name, basic, mono, high_88, high_256)
self._palette[name] = (basic, mono, high_88, high_256)
def set_focused_col(self, focused_col):
if focused_col != self._focused_col:
self._focused_col = focused_col
self.body.set_focused_col(focused_col=focused_col)
signals.emit_signal(self, 'focused_col_changed', focused_col)
def _modified(self):
signals.emit_signal(self, "modified")
def _emit(self, event, state):
signals.emit_signal(self, event, Event(type=event, target=self, data={'state': state}))
def _emit(self, name, *args):
"""
Convenience function to emit signals with self as first
argument.
"""
signals.emit_signal(self, name, self, *args)
def register_palette_entry(self,
name,
foreground,
background,
mono=None,
foreground_high=None,
background_high=None):
"""Register a single palette entry.
name -- new entry/attribute name
foreground -- a string containing a comma-separated foreground
color and settings
Color values:
'default' (use the terminal's default foreground),
'black', 'dark red', 'dark green', 'brown', 'dark blue',
'dark magenta', 'dark cyan', 'light gray', 'dark gray',
'light red', 'light green', 'yellow', 'light blue',
'light magenta', 'light cyan', 'white'
Settings:
'bold', 'underline', 'blink', 'standout', 'strikethrough'
Some terminals use 'bold' for bright colors. Most terminals
ignore the 'blink' setting. If the color is not given then
'default' will be assumed.
background -- a string containing the background color
Background color values:
'default' (use the terminal's default background),
'black', 'dark red', 'dark green', 'brown', 'dark blue',
'dark magenta', 'dark cyan', 'light gray'
mono -- a comma-separated string containing monochrome terminal
settings (see "Settings" above.)
None = no terminal settings (same as 'default')
foreground_high -- a string containing a comma-separated
foreground color and settings, standard foreground
colors (see "Color values" above) or high-colors may
be used
High-color example values:
'#009' (0% red, 0% green, 60% red, like HTML colors)
'#fcc' (100% red, 80% green, 80% blue)
'g40' (40% gray, decimal), 'g#cc' (80% gray, hex),
'#000', 'g0', 'g#00' (black),
'#fff', 'g100', 'g#ff' (white)
'h8' (color number 8), 'h255' (color number 255)
None = use foreground parameter value
background_high -- a string containing the background color,
standard background colors (see "Background colors" above)
or high-colors (see "High-color example values" above)
may be used
None = use background parameter value
"""
basic = AttrSpec(foreground, background, 16)
if type(mono) == tuple:
# old style of specifying mono attributes was to put them
# in a tuple. convert to comma-separated string
mono = ",".join(mono)
if mono is None:
mono = DEFAULT
mono = AttrSpec(mono, DEFAULT, 1)
if foreground_high is None:
foreground_high = foreground
if background_high is None:
background_high = background
high_88 = AttrSpec(foreground_high, background_high, 88)
high_256 = AttrSpec(foreground_high, background_high, 256)
# 'hX' where X > 15 are different in 88/256 color, use
# basic colors for 88-color mode if high colors are specified
# in this way (also avoids crash when X > 87)
def large_h(desc):
if not desc.startswith('h'):
return False
if ',' in desc:
desc = desc.split(',', 1)[0]
num = int(desc[1:], 10)
return num > 15
if large_h(foreground_high) or large_h(background_high):
high_88 = basic
else:
high_88 = AttrSpec(foreground_high, background_high, 88)
signals.emit_signal(self, UPDATE_PALETTE_ENTRY, name, basic, mono,
high_88, high_256)
self._palette[name] = (basic, mono, high_88, high_256)
def _modified(self):
signals.emit_signal(self, "modified")
def _emit(self, event, state):
signals.emit_signal(self, event, Event(type=event, target=self, data={"state": state}))
def refresh(self):
self._walker.clear_cache()
signals.emit_signal(self._walker, "modified")
def _emit(self, name, *args):
"""
Convenience function to emit signals with self as first
argument.
"""
signals.emit_signal(self, name, self, *args)
def set_collapsed_all(self, is_collapsed):
self._initially_collapsed = lambda x: is_collapsed
self._divergent_positions = []
newfocus = self._walker.first_ancestor(self._focus)
self.set_focus(newfocus)
signals.emit_signal(self, "modified")
def refresh(self):
self._walker.clear_cache()
signals.emit_signal(self._walker, "modified")
