# statusicon.py -- GUI status icon source
# This file is part of Redshift.
# Redshift is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
# Redshift is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with Redshift. If not, see .
# Copyright (c) 2013 Jon Lund Steffensen
'''GUI status icon for Redshift.
The run method will try to start an appindicator for Redshift. If the
appindicator module isn't present it will fall back to a GTK status icon.
'''
import sys, os
import signal, fcntl
import re
import gettext
from gi.repository import Gdk, Gtk, GLib
try:
from gi.repository import AppIndicator3 as appindicator
except ImportError:
appindicator = None
from . import defs
from . import utils
_ = gettext.gettext
def sigterm_handler(signal, frame):
sys.exit()
class RedshiftStatusIcon(object):
def __init__(self, args=[]):
# Initialize state variables
self._status = False
self._temperature = 0
self._period = 'Unknown'
self._location = (0.0, 0.0)
# Install TERM signal handler
signal.signal(signal.SIGTERM, sigterm_handler)
# Start redshift with arguments
args.insert(0, os.path.join(defs.BINDIR, 'redshift'))
if '-v' not in args:
args.append('-v')
self.start_child_process(args)
if appindicator:
# Create indicator
self.indicator = appindicator.Indicator.new('redshift',
'redshift-status-on',
appindicator.IndicatorCategory.APPLICATION_STATUS)
self.indicator.set_status(appindicator.IndicatorStatus.ACTIVE)
else:
# Create status icon
self.status_icon = Gtk.StatusIcon()
self.status_icon.set_from_icon_name('redshift-status-on')
self.status_icon.set_tooltip_text('Redshift')
# Create popup menu
self.status_menu = Gtk.Menu()
# Add toggle action
self.toggle_item = Gtk.CheckMenuItem.new_with_label(_('Enabled'))
self.toggle_item.connect('activate', self.toggle_item_cb)
self.status_menu.append(self.toggle_item)
# Add suspend menu
suspend_menu_item = Gtk.MenuItem.new_with_label(_('Suspend for'))
suspend_menu = Gtk.Menu()
for minutes, label in [(30, _('30 minutes')),
(60, _('1 hour')),
(120, _('2 hours'))]:
suspend_item = Gtk.MenuItem.new_with_label(label)
suspend_item.connect('activate', self.suspend_cb, minutes)
suspend_menu.append(suspend_item)
suspend_menu_item.set_submenu(suspend_menu)
self.status_menu.append(suspend_menu_item)
# Add autostart option
autostart_item = Gtk.CheckMenuItem.new_with_label(_('Autostart'))
try:
autostart_item.set_active(utils.get_autostart())
except IOError as strerror:
print(strerror)
autostart_item.set_property('sensitive', False)
else:
autostart_item.connect('toggled', self.autostart_cb)
finally:
self.status_menu.append(autostart_item)
# Add info action
info_item = Gtk.MenuItem.new_with_label(_('Info'))
info_item.connect('activate', self.show_info_cb)
self.status_menu.append(info_item)
# Add quit action
quit_item = Gtk.ImageMenuItem.new_with_label(_('Quit'))
quit_item.connect('activate', self.destroy_cb)
self.status_menu.append(quit_item)
# Create info dialog
self.info_dialog = Gtk.Dialog()
self.info_dialog.set_title(_('Info'))
self.info_dialog.add_button(_('Close'), Gtk.ButtonsType.CLOSE)
self.info_dialog.set_resizable(False)
self.info_dialog.set_property('border-width', 6)
self.status_label = Gtk.Label()
self.status_label.set_alignment(0.0, 0.5)
self.status_label.set_padding(6, 6);
self.info_dialog.get_content_area().pack_start(self.status_label, True, True, 0)
self.status_label.show()
self.location_label = Gtk.Label()
self.location_label.set_alignment(0.0, 0.5)
self.location_label.set_padding(6, 6);
self.info_dialog.get_content_area().pack_start(self.location_label, True, True, 0)
self.location_label.show()
self.temperature_label = Gtk.Label()
self.temperature_label.set_alignment(0.0, 0.5)
self.temperature_label.set_padding(6, 6);
self.info_dialog.get_content_area().pack_start(self.temperature_label, True, True, 0)
self.temperature_label.show()
self.period_label = Gtk.Label()
self.period_label.set_alignment(0.0, 0.5)
self.period_label.set_padding(6, 6);
self.info_dialog.get_content_area().pack_start(self.period_label, True, True, 0)
self.period_label.show()
self.info_dialog.connect('response', self.response_info_cb)
if appindicator:
self.status_menu.show_all()
# Set the menu
self.indicator.set_menu(self.status_menu)
else:
# Connect signals for status icon and show
self.status_icon.connect('activate', self.toggle_cb)
self.status_icon.connect('popup-menu', self.popup_menu_cb)
self.status_icon.set_visible(True)
# Initialize suspend timer
self.suspend_timer = None
# Handle child input
class InputBuffer(object):
lines = []
buf = ''
self.input_buffer = InputBuffer()
self.error_buffer = InputBuffer()
# Set non blocking
fcntl.fcntl(self.process[2], fcntl.F_SETFL,
fcntl.fcntl(self.process[2], fcntl.F_GETFL) | os.O_NONBLOCK)
# Add watch on child process
GLib.child_watch_add(GLib.PRIORITY_DEFAULT, self.process[0], self.child_cb)
GLib.io_add_watch(self.process[2], GLib.PRIORITY_DEFAULT, GLib.IO_IN,
self.child_data_cb, (True, self.input_buffer))
GLib.io_add_watch(self.process[3], GLib.PRIORITY_DEFAULT, GLib.IO_IN,
self.child_data_cb, (False, self.error_buffer))
# Notify desktop that startup is complete
Gdk.notify_startup_complete()
def start_child_process(self, args):
# Start child process with C locale so we can parse the output
env = os.environ.copy()
env['LANG'] = env['LANGUAGE'] = env['LC_ALL'] = env['LC_MESSAGES'] = 'C'
self.process = GLib.spawn_async(args, envp=['{}={}'.format(k,v) for k, v in env.items()],
flags=GLib.SPAWN_DO_NOT_REAP_CHILD,
standard_output=True, standard_error=True)
def remove_suspend_timer(self):
if self.suspend_timer is not None:
GLib.source_remove(self.suspend_timer)
self.suspend_timer = None
def suspend_cb(self, item, minutes):
if self.is_enabled():
self.child_toggle_status()
# If "suspend" is clicked while redshift is disabled, we reenable
# it after the last selected timespan is over.
self.remove_suspend_timer()
# If redshift was already disabled we reenable it nonetheless.
self.suspend_timer = GLib.timeout_add_seconds(minutes * 60, self.reenable_cb)
def reenable_cb(self):
if not self.is_enabled():
self.child_toggle_status()
def popup_menu_cb(self, widget, button, time, data=None):
self.status_menu.show_all()
self.status_menu.popup(None, None, Gtk.StatusIcon.position_menu,
self.status_icon, button, time)
def toggle_cb(self, widget, data=None):
self.remove_suspend_timer()
self.child_toggle_status()
def toggle_item_cb(self, widget, data=None):
# Only toggle if a change from current state was requested
if self.is_enabled() != widget.get_active():
self.remove_suspend_timer()
self.child_toggle_status()
# Info dialog callbacks
def show_info_cb(self, widget, data=None):
self.info_dialog.show()
def response_info_cb(self, widget, data=None):
self.info_dialog.hide()
def update_status_icon(self):
# Update status icon
if appindicator:
if self.is_enabled():
self.indicator.set_icon('redshift-status-on')
else:
self.indicator.set_icon('redshift-status-off')
else:
if self.is_enabled():
self.status_icon.set_from_icon_name('redshift-status-on')
else:
self.status_icon.set_from_icon_name('redshift-status-off')
# Status update functions. Called when child process indicates a
# change in state.
def change_status(self, status):
self._status = status
self.update_status_icon()
self.toggle_item.set_active(self.is_enabled())
self.status_label.set_markup('{}: {}'.format(_('Status'),
_('Enabled') if status else _('Disabled')))
def change_temperature(self, temperature):
self._temperature = temperature
self.temperature_label.set_markup('{}: {}K'.format(_('Color temperature'), temperature))
def change_period(self, period):
self._period = period
self.period_label.set_markup('{}: {}'.format(_('Period'), period))
def change_location(self, location):
self._location = location
self.location_label.set_markup('{}: {}, {}'.format(_('Location'), *location))
def is_enabled(self):
return self._status
def autostart_cb(self, widget, data=None):
utils.set_autostart(widget.get_active())
def destroy_cb(self, widget, data=None):
if not appindicator:
self.status_icon.set_visible(False)
Gtk.main_quit()
return False
def child_toggle_status(self):
os.kill(self.process[0], signal.SIGUSR1)
def child_cb(self, pid, cond, data=None):
sys.exit(-1)
def child_key_change_cb(self, key, value):
if key == 'Status':
self.change_status(value != 'Disabled')
elif key == 'Color temperature':
self.change_temperature(int(value.rstrip('K'), 10))
elif key == 'Period':
self.change_period(value)
elif key == 'Location':
self.change_location(tuple(float(x) for x in value.split(', ')))
def child_stdout_line_cb(self, line):
if line:
m = re.match(r'([\w ]+): (.+)', line)
if m:
key = m.group(1)
value = m.group(2)
self.child_key_change_cb(key, value)
def child_data_cb(self, f, cond, data):
stdout, ib = data
ib.buf += os.read(f, 256).decode('utf-8')
# Split input at line break
while True:
first, sep, last = ib.buf.partition('\n')
if sep == '':
break
ib.buf = last
ib.lines.append(first)
if stdout:
self.child_stdout_line_cb(first)
return True
def termwait(self):
os.kill(self.process[0], signal.SIGINT)
os.waitpid(self.process[0], 0)
def run():
utils.setproctitle('redshift-gtk')
# Internationalisation
gettext.bindtextdomain('redshift', defs.LOCALEDIR)
gettext.textdomain('redshift')
# Create status icon
s = RedshiftStatusIcon(sys.argv[1:])
try:
# Run main loop
Gtk.main()
except KeyboardInterrupt:
# Ignore user interruption
pass
finally:
# Always terminate redshift
s.termwait()