# -*- coding: utf-8 -*-
# mainwindow.py
# Copyright (C) 2013 LEAP
#
# This program 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.
#
# This program 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 this program. If not, see .
"""
Main window for the leap client
"""
import logging
import os
import platform
import tempfile
from functools import partial
import keyring
from PySide import QtCore, QtGui
from twisted.internet import threads
from leap.common.check import leap_assert
from leap.common.events import register
from leap.common.events import events_pb2 as proto
from leap.config.leapsettings import LeapSettings
from leap.config.providerconfig import ProviderConfig
from leap.crypto.srpauth import SRPAuth
from leap.gui.loggerwindow import LoggerWindow
from leap.gui.wizard import Wizard
from leap.gui.login import LoginWidget
from leap.gui.statuspanel import StatusPanelWidget
from leap.services.eip.eipbootstrapper import EIPBootstrapper
from leap.services.eip.eipconfig import EIPConfig
from leap.services.eip.providerbootstrapper import ProviderBootstrapper
# XXX: Soledad might not work out of the box in Windows, issue #2932
from leap.services.soledad.soledadbootstrapper import SoledadBootstrapper
from leap.services.mail.smtpbootstrapper import SMTPBootstrapper
from leap.platform_init import IS_WIN, IS_MAC
from leap.platform_init.initializers import init_platform
from leap.services.eip.vpnprocess import VPN
from leap.services.eip.vpnprocess import OpenVPNAlreadyRunning
from leap.services.eip.vpnprocess import AlienOpenVPNAlreadyRunning
from leap.services.eip.vpnlaunchers import VPNLauncherException
from leap.services.eip.vpnlaunchers import OpenVPNNotFoundException
from leap.services.eip.vpnlaunchers import EIPNoPkexecAvailable
from leap.services.eip.vpnlaunchers import EIPNoPolkitAuthAgentAvailable
from leap.services.eip.vpnlaunchers import EIPNoTunKextLoaded
from leap.util import __version__ as VERSION
from leap.util.keyring_helpers import has_keyring
from leap.services.mail.smtpconfig import SMTPConfig
if IS_WIN:
from leap.platform_init.locks import WindowsLock
from leap.platform_init.locks import raise_window_ack
from ui_mainwindow import Ui_MainWindow
logger = logging.getLogger(__name__)
class MainWindow(QtGui.QMainWindow):
"""
Main window for login and presenting status updates to the user
"""
# StackedWidget indexes
LOGIN_INDEX = 0
EIP_STATUS_INDEX = 1
# Keyring
KEYRING_KEY = "leap_client"
# SMTP
PORT_KEY = "port"
IP_KEY = "ip_address"
OPENVPN_SERVICE = "openvpn"
MX_SERVICE = "mx"
# Signals
new_updates = QtCore.Signal(object)
raise_window = QtCore.Signal([])
# We use this flag to detect abnormal terminations
user_stopped_eip = False
def __init__(self, quit_callback,
standalone=False, bypass_checks=False):
"""
Constructor for the client main window
:param quit_callback: Function to be called when closing
the application.
:type quit_callback: callable
:param standalone: Set to true if the app should use configs
inside its pwd
:type standalone: bool
:param bypass_checks: Set to true if the app should bypass
first round of checks for CA
certificates at bootstrap
:type bypass_checks: bool
"""
QtGui.QMainWindow.__init__(self)
# register leap events
register(signal=proto.UPDATER_NEW_UPDATES,
callback=self._new_updates_available,
reqcbk=lambda req, resp: None) # make rpc call async
register(signal=proto.RAISE_WINDOW,
callback=self._on_raise_window_event,
reqcbk=lambda req, resp: None) # make rpc call async
self._quit_callback = quit_callback
self._updates_content = ""
self.ui = Ui_MainWindow()
self.ui.setupUi(self)
self._settings = LeapSettings(standalone)
self._login_widget = LoginWidget(
self._settings,
self.ui.stackedWidget.widget(self.LOGIN_INDEX))
self.ui.loginLayout.addWidget(self._login_widget)
self._login_widget.login.connect(self._login)
self._login_widget.show_wizard.connect(
self._launch_wizard)
self.ui.btnShowLog.clicked.connect(self._show_logger_window)
self._status_panel = StatusPanelWidget(
self.ui.stackedWidget.widget(self.EIP_STATUS_INDEX))
self.ui.statusLayout.addWidget(self._status_panel)
self.ui.stackedWidget.setCurrentIndex(self.LOGIN_INDEX)
self._status_panel.start_eip.connect(self._start_eip)
self._status_panel.stop_eip.connect(self._stop_eip)
# This is loaded only once, there's a bug when doing that more
# than once
ProviderConfig.standalone = standalone
EIPConfig.standalone = standalone
self._standalone = standalone
self._provider_config = ProviderConfig()
# Used for automatic start of EIP
self._provisional_provider_config = ProviderConfig()
self._eip_config = EIPConfig()
self._already_started_eip = False
# This is created once we have a valid provider config
self._srp_auth = None
self._logged_user = None
# This thread is always running, although it's quite
# lightweight when it's done setting up provider
# configuration and certificate.
self._provider_bootstrapper = ProviderBootstrapper(bypass_checks)
# Intermediate stages, only do something if there was an error
self._provider_bootstrapper.name_resolution.connect(
self._intermediate_stage)
self._provider_bootstrapper.https_connection.connect(
self._intermediate_stage)
self._provider_bootstrapper.download_ca_cert.connect(
self._intermediate_stage)
# Important stages, loads the provider config and checks
# certificates
self._provider_bootstrapper.download_provider_info.connect(
self._load_provider_config)
self._provider_bootstrapper.check_api_certificate.connect(
self._provider_config_loaded)
# This thread is similar to the provider bootstrapper
self._eip_bootstrapper = EIPBootstrapper()
self._eip_bootstrapper.download_config.connect(
self._eip_intermediate_stage)
self._eip_bootstrapper.download_client_certificate.connect(
self._finish_eip_bootstrap)
self._soledad_bootstrapper = SoledadBootstrapper()
self._soledad_bootstrapper.download_config.connect(
self._soledad_intermediate_stage)
self._soledad_bootstrapper.gen_key.connect(
self._soledad_bootstrapped_stage)
self._smtp_bootstrapper = SMTPBootstrapper()
self._smtp_bootstrapper.download_config.connect(
self._smtp_bootstrapped_stage)
self._vpn = VPN()
self._vpn.qtsigs.state_changed.connect(
self._status_panel.update_vpn_state)
self._vpn.qtsigs.status_changed.connect(
self._status_panel.update_vpn_status)
self._vpn.qtsigs.process_finished.connect(
self._eip_finished)
self.ui.action_sign_out.setEnabled(False)
self.ui.action_sign_out.triggered.connect(self._logout)
self.ui.action_about_leap.triggered.connect(self._about)
self.ui.action_quit.triggered.connect(self.quit)
self.ui.action_wizard.triggered.connect(self._launch_wizard)
self.ui.action_show_logs.triggered.connect(self._show_logger_window)
self.raise_window.connect(self._do_raise_mainwindow)
# Used to differentiate between real quits and close to tray
self._really_quit = False
self._systray = None
self._action_eip_provider = QtGui.QAction(
self.tr("No default provider"), self)
self._action_eip_provider.setEnabled(False)
self._action_eip_status = QtGui.QAction(
self.tr("Encrypted internet is OFF"),
self)
self._action_eip_status.setEnabled(False)
self._status_panel.set_action_eip_status(
self._action_eip_status)
self._action_eip_startstop = QtGui.QAction(
self.tr("Turn OFF"), self)
self._action_eip_startstop.triggered.connect(
self._stop_eip)
self._action_eip_startstop.setEnabled(False)
self._status_panel.set_action_eip_startstop(
self._action_eip_startstop)
self._action_visible = QtGui.QAction(self.tr("Hide Main Window"), self)
self._action_visible.triggered.connect(self._toggle_visible)
self._enabled_services = []
self._center_window()
self.ui.lblNewUpdates.setVisible(False)
self.ui.btnMore.setVisible(False)
self.ui.btnMore.clicked.connect(self._updates_details)
self.new_updates.connect(self._react_to_new_updates)
init_platform()
self._wizard = None
self._wizard_firstrun = False
self._logger_window = None
self._bypass_checks = bypass_checks
self._soledad = None
self._keymanager = None
self._login_defer = None
self._smtp_config = SMTPConfig()
if self._first_run():
self._wizard_firstrun = True
self._wizard = Wizard(standalone=standalone,
bypass_checks=bypass_checks)
# Give this window time to finish init and then show the wizard
QtCore.QTimer.singleShot(1, self._launch_wizard)
self._wizard.accepted.connect(self._finish_init)
self._wizard.rejected.connect(self._rejected_wizard)
else:
self._finish_init()
def _rejected_wizard(self):
"""
SLOT
TRIGGERS: self._wizard.rejected
Called if the wizard has been cancelled or closed before
finishing.
"""
if self._wizard_firstrun:
self._settings.set_properprovider(False)
self.quit()
else:
self._finish_init()
def _launch_wizard(self):
"""
SLOT
TRIGGERS:
self._login_widget.show_wizard
self.ui.action_wizard.triggered
Also called in first run.
Launches the wizard, creating the object itself if not already
there.
"""
if self._wizard is None:
self._wizard = Wizard(bypass_checks=self._bypass_checks)
self._wizard.accepted.connect(self._finish_init)
self._wizard.rejected.connect(self._wizard.close)
self.setVisible(False)
# Do NOT use exec_, it will use a child event loop!
# Refer to http://www.themacaque.com/?p=1067 for funny details.
self._wizard.show()
if IS_MAC:
self._wizard.raise_()
self._wizard.finished.connect(self._wizard_finished)
def _wizard_finished(self):
"""
SLOT
TRIGGERS
self._wizard.finished
Called when the wizard has finished.
"""
self.setVisible(True)
def _get_leap_logging_handler(self):
"""
Gets the leap handler from the top level logger
:return: a logging handler or None
:rtype: LeapLogHandler or None
"""
from leap.util.leap_log_handler import LeapLogHandler
leap_logger = logging.getLogger('leap')
for h in leap_logger.handlers:
if isinstance(h, LeapLogHandler):
return h
return None
def _show_logger_window(self):
"""
SLOT
TRIGGERS:
self.ui.action_show_logs.triggered
self.ui.btnShowLog.clicked
Displays the window with the history of messages logged until now
and displays the new ones on arrival.
"""
if self._logger_window is None:
leap_log_handler = self._get_leap_logging_handler()
if leap_log_handler is None:
logger.error('Leap logger handler not found')
else:
self._logger_window = LoggerWindow(handler=leap_log_handler)
self._logger_window.setVisible(
not self._logger_window.isVisible())
self.ui.btnShowLog.setChecked(self._logger_window.isVisible())
else:
self._logger_window.setVisible(not self._logger_window.isVisible())
self.ui.btnShowLog.setChecked(self._logger_window.isVisible())
self._logger_window.finished.connect(self._uncheck_logger_button)
def _uncheck_logger_button(self):
"""
SLOT
Sets the checked state of the loggerwindow button to false.
"""
self.ui.btnShowLog.setChecked(False)
def _new_updates_available(self, req):
"""
Callback for the new updates event
:param req: Request type
:type req: leap.common.events.events_pb2.SignalRequest
"""
self.new_updates.emit(req)
def _react_to_new_updates(self, req):
"""
SLOT
TRIGGER: self._new_updates_available
Displays the new updates label and sets the updates_content
"""
self.moveToThread(QtCore.QCoreApplication.instance().thread())
self.ui.lblNewUpdates.setVisible(True)
self.ui.btnMore.setVisible(True)
self._updates_content = req.content
def _updates_details(self):
"""
SLOT
TRIGGER: self.ui.btnMore.clicked
Parses and displays the updates details
"""
msg = self.tr("The LEAPClient app is ready to update, please"
" restart the application.")
# We assume that if there is nothing in the contents, then
# the LEAPClient bundle is what needs updating.
if len(self._updates_content) > 0:
files = self._updates_content.split(", ")
files_str = ""
for f in files:
final_name = f.replace("/data/", "")
final_name = final_name.replace(".thp", "")
files_str += final_name
files_str += "\n"
msg += self.tr(" The following components will be updated:\n%s") \
% (files_str,)
QtGui.QMessageBox.information(self,
self.tr("Updates available"),
msg)
def _finish_init(self):
"""
SLOT
TRIGGERS:
self._wizard.accepted
Also called at the end of the constructor if not first run,
and after _rejected_wizard if not first run.
Implements the behavior after either constructing the
mainwindow object, loading the saved user/password, or after
the wizard has been executed.
"""
# XXX: May be this can be divided into two methods?
self._login_widget.set_providers(self._configured_providers())
self._show_systray()
self.show()
if IS_MAC:
self.raise_()
if self._wizard:
possible_username = self._wizard.get_username()
possible_password = self._wizard.get_password()
# select the configured provider in the combo box
domain = self._wizard.get_domain()
self._login_widget.select_provider_by_name(domain)
self._login_widget.set_remember(self._wizard.get_remember())
self._enabled_services = list(self._wizard.get_services())
self._settings.set_enabled_services(
self._login_widget.get_selected_provider(),
self._enabled_services)
if possible_username is not None:
self._login_widget.set_user(possible_username)
if possible_password is not None:
self._login_widget.set_password(possible_password)
self._login()
self._wizard = None
self._settings.set_properprovider(True)
else:
self._try_autostart_eip()
if not self._settings.get_remember():
# nothing to do here
return
saved_user = self._settings.get_user()
try:
username, domain = saved_user.split('@')
except (ValueError, AttributeError) as e:
# if the saved_user does not contain an '@' or its None
logger.error('Username@provider malformed. %r' % (e, ))
saved_user = None
if saved_user is not None and has_keyring():
# fill the username
self._login_widget.set_user(username)
# select the configured provider in the combo box
self._login_widget.select_provider_by_name(domain)
self._login_widget.set_remember(True)
saved_password = None
try:
saved_password = keyring.get_password(self.KEYRING_KEY,
saved_user
.encode("utf8"))
except ValueError, e:
logger.debug("Incorrect Password. %r." % (e,))
if saved_password is not None:
self._login_widget.set_password(
saved_password.decode("utf8"))
self._login()
def _try_autostart_eip(self):
"""
Tries to autostart EIP
"""
default_provider = self._settings.get_defaultprovider()
if default_provider is None:
logger.info("Cannot autostart Encrypted Internet because there is "
"no default provider configured")
return
self._action_eip_provider.setText(default_provider)
self._enabled_services = self._settings.get_enabled_services(
default_provider)
if self._provisional_provider_config.load(
os.path.join("leap",
"providers",
default_provider,
"provider.json")):
self._download_eip_config()
else:
# XXX: Display a proper message to the user
logger.error("Unable to load %s config, cannot autostart." %
(default_provider,))
def _show_systray(self):
"""
Sets up the systray icon
"""
if self._systray is not None:
self._systray.setVisible(True)
return
# Placeholder actions
# They are temporary to display the tray as designed
preferences_action = QtGui.QAction(self.tr("Preferences"), self)
preferences_action.setEnabled(False)
help_action = QtGui.QAction(self.tr("Help"), self)
help_action.setEnabled(False)
systrayMenu = QtGui.QMenu(self)
systrayMenu.addAction(self._action_visible)
systrayMenu.addSeparator()
systrayMenu.addAction(self._action_eip_provider)
systrayMenu.addAction(self._action_eip_status)
systrayMenu.addAction(self._action_eip_startstop)
systrayMenu.addSeparator()
systrayMenu.addAction(preferences_action)
systrayMenu.addAction(help_action)
systrayMenu.addSeparator()
systrayMenu.addAction(self.ui.action_sign_out)
systrayMenu.addAction(self.ui.action_quit)
self._systray = QtGui.QSystemTrayIcon(self)
self._systray.setContextMenu(systrayMenu)
self._systray.setIcon(self._status_panel.ERROR_ICON_TRAY)
self._systray.setVisible(True)
self._systray.activated.connect(self._tray_activated)
self._status_panel.set_systray(self._systray)
def _tray_activated(self, reason=None):
"""
SLOT
TRIGGER: self._systray.activated
Displays the context menu from the tray icon
"""
get_action = lambda visible: (
self.tr("Show Main Window"),
self.tr("Hide Main Window"))[int(visible)]
# set labels
visible = self.isVisible()
self._action_visible.setText(get_action(visible))
context_menu = self._systray.contextMenu()
if not IS_MAC:
# for some reason, context_menu.show()
# is failing in a way beyond my understanding.
# (not working the first time it's clicked).
# this works however.
context_menu.exec_(self._systray.geometry().center())
def _toggle_visible(self):
"""
SLOT
TRIGGER: self._action_visible.triggered
Toggles the window visibility
"""
self.setVisible(not self.isVisible())
def _center_window(self):
"""
Centers the mainwindow based on the desktop geometry
"""
geometry = self._settings.get_geometry()
state = self._settings.get_windowstate()
if geometry is None:
app = QtGui.QApplication.instance()
width = app.desktop().width()
height = app.desktop().height()
window_width = self.size().width()
window_height = self.size().height()
x = (width / 2.0) - (window_width / 2.0)
y = (height / 2.0) - (window_height / 2.0)
self.move(x, y)
else:
self.restoreGeometry(geometry)
if state is not None:
self.restoreState(state)
def _about(self):
"""
SLOT
TRIGGERS: self.ui.action_about_leap.triggered
Display the About LEAP dialog
"""
QtGui.QMessageBox.about(
self, self.tr("About LEAP - %s") % (VERSION,),
self.tr("version: %s
"
"LEAP is a non-profit dedicated to giving "
"all internet users access to secure "
"communication. Our focus is on adapting "
"encryption technology to make it easy to use "
"and widely available. "
"More about LEAP"
"") % (VERSION,))
def changeEvent(self, e):
"""
Reimplements the changeEvent method to minimize to tray
"""
if QtGui.QSystemTrayIcon.isSystemTrayAvailable() and \
e.type() == QtCore.QEvent.WindowStateChange and \
self.isMinimized():
self._toggle_visible()
e.accept()
return
QtGui.QMainWindow.changeEvent(self, e)
def closeEvent(self, e):
"""
Reimplementation of closeEvent to close to tray
"""
if QtGui.QSystemTrayIcon.isSystemTrayAvailable() and \
not self._really_quit:
self._toggle_visible()
e.ignore()
return
self._settings.set_geometry(self.saveGeometry())
self._settings.set_windowstate(self.saveState())
QtGui.QMainWindow.closeEvent(self, e)
def _configured_providers(self):
"""
Returns the available providers based on the file structure
:rtype: list
"""
# TODO: check which providers have a valid certificate among
# other things, not just the directories
providers = []
try:
providers = os.listdir(
os.path.join(self._provider_config.get_path_prefix(),
"leap",
"providers"))
except Exception as e:
logger.debug("Error listing providers, assume there are none. %r"
% (e,))
return providers
def _first_run(self):
"""
Returns True if there are no configured providers. False otherwise
:rtype: bool
"""
has_provider_on_disk = len(self._configured_providers()) != 0
is_proper_provider = self._settings.get_properprovider()
return not (has_provider_on_disk and is_proper_provider)
def _download_provider_config(self):
"""
Starts the bootstrapping sequence. It will download the
provider configuration if it's not present, otherwise will
emit the corresponding signals inmediately
"""
provider = self._login_widget.get_selected_provider()
self._provider_bootstrapper.run_provider_select_checks(
provider,
download_if_needed=True)
def _load_provider_config(self, data):
"""
SLOT
TRIGGER: self._provider_bootstrapper.download_provider_info
Once the provider config has been downloaded, this loads the
self._provider_config instance with it and starts the second
part of the bootstrapping sequence
:param data: result from the last stage of the
run_provider_select_checks
:type data: dict
"""
if data[self._provider_bootstrapper.PASSED_KEY]:
provider = self._login_widget.get_selected_provider()
# If there's no loaded provider or
# we want to connect to other provider...
if (not self._provider_config.loaded() or
self._provider_config.get_domain() != provider):
self._provider_config.load(
os.path.join("leap", "providers",
provider, "provider.json"))
if self._provider_config.loaded():
self._provider_bootstrapper.run_provider_setup_checks(
self._provider_config,
download_if_needed=True)
else:
self._login_widget.set_status(
self.tr("Could not load provider configuration."))
self._login_widget.set_enabled(True)
else:
self._login_widget.set_status(
data[self._provider_bootstrapper.ERROR_KEY])
self._login_widget.set_enabled(True)
def _login(self):
"""
SLOT
TRIGGERS:
self._login_widget.login
Starts the login sequence. Which involves bootstrapping the
selected provider if the selection is valid (not empty), then
start the SRP authentication, and as the last step
bootstrapping the EIP service
"""
leap_assert(self._provider_config, "We need a provider config")
username = self._login_widget.get_user()
password = self._login_widget.get_password()
provider = self._login_widget.get_selected_provider()
self._enabled_services = self._settings.get_enabled_services(
self._login_widget.get_selected_provider())
if len(provider) == 0:
self._login_widget.set_status(
self.tr("Please select a valid provider"))
return
if len(username) == 0:
self._login_widget.set_status(
self.tr("Please provide a valid username"))
return
if len(password) == 0:
self._login_widget.set_status(
self.tr("Please provide a valid Password"))
return
self._login_widget.set_status(self.tr("Logging in..."), error=False)
self._login_widget.set_enabled(False)
if self._login_widget.get_remember() and has_keyring():
# in the keyring and in the settings
# we store the value 'usename@provider'
username_domain = (username + '@' + provider).encode("utf8")
try:
keyring.set_password(self.KEYRING_KEY,
username_domain,
password.encode("utf8"))
# Only save the username if it was saved correctly in
# the keyring
self._settings.set_user(username_domain)
except Exception as e:
logger.error("Problem saving data to keyring. %r"
% (e,))
self._download_provider_config()
def _provider_config_loaded(self, data):
"""
SLOT
TRIGGER: self._provider_bootstrapper.check_api_certificate
Once the provider configuration is loaded, this starts the SRP
authentication
"""
leap_assert(self._provider_config, "We need a provider config!")
if data[self._provider_bootstrapper.PASSED_KEY]:
username = self._login_widget.get_user().encode("utf8")
password = self._login_widget.get_password().encode("utf8")
if self._srp_auth is None:
self._srp_auth = SRPAuth(self._provider_config)
self._srp_auth.authentication_finished.connect(
self._authentication_finished)
self._srp_auth.logout_finished.connect(
self._done_logging_out)
# TODO: Add errback!
self._login_defer = self._srp_auth.authenticate(username, password)
else:
self._login_widget.set_status(
data[self._provider_bootstrapper.ERROR_KEY])
self._login_widget.set_enabled(True)
def _authentication_finished(self, ok, message):
"""
SLOT
TRIGGER: self._srp_auth.authentication_finished
Once the user is properly authenticated, try starting the EIP
service
"""
self._login_widget.set_status(message, error=not ok)
if ok:
self._logged_user = self._login_widget.get_user()
self.ui.action_sign_out.setEnabled(True)
# We leave a bit of room for the user to see the
# "Succeeded" message and then we switch to the EIP status
# panel
QtCore.QTimer.singleShot(1000, self._switch_to_status)
self._login_defer = None
else:
self._login_widget.set_enabled(True)
def _switch_to_status(self):
"""
Changes the stackedWidget index to the EIP status one and
triggers the eip bootstrapping
"""
if not self._already_started_eip:
self._status_panel.set_provider(
"%s@%s" % (self._login_widget.get_user(),
self._get_best_provider_config().get_domain()))
self.ui.stackedWidget.setCurrentIndex(self.EIP_STATUS_INDEX)
# XXX disabling soledad for now
self._soledad_bootstrapper.run_soledad_setup_checks(
self._provider_config,
self._login_widget.get_user(),
self._login_widget.get_password(),
download_if_needed=True)
self._download_eip_config()
def _soledad_intermediate_stage(self, data):
"""
SLOT
TRIGGERS:
self._soledad_bootstrapper.download_config
If there was a problem, displays it, otherwise it does nothing.
This is used for intermediate bootstrapping stages, in case
they fail.
"""
passed = data[self._soledad_bootstrapper.PASSED_KEY]
if not passed:
# TODO: display in the GUI
logger.error("Soledad failed to start: %s" %
(data[self._soledad_bootstrapper.ERROR_KEY],))
def _soledad_bootstrapped_stage(self, data):
"""
SLOT
TRIGGERS:
self._soledad_bootstrapper.gen_key
If there was a problem, displays it, otherwise it does nothing.
This is used for intermediate bootstrapping stages, in case
they fail.
:param data: result from the bootstrapping stage for Soledad
:type data: dict
"""
passed = data[self._soledad_bootstrapper.PASSED_KEY]
if not passed:
logger.error(data[self._soledad_bootstrapper.ERROR_KEY])
else:
logger.debug("Done bootstrapping Soledad")
self._soledad = self._soledad_bootstrapper.soledad
self._keymanager = self._soledad_bootstrapper.keymanager
if self._provider_config.provides_mx() and \
self._enabled_services.count(self.MX_SERVICE) > 0:
self._smtp_bootstrapper.run_smtp_setup_checks(
self._provider_config,
self._smtp_config,
True)
else:
if self._enabled_services.count(self.MX_SERVICE) > 0:
pass # TODO: show MX status
#self._status_panel.set_eip_status(
# self.tr("%s does not support MX") %
# (self._provider_config.get_domain(),),
# error=True)
else:
pass # TODO: show MX status
#self._status_panel.set_eip_status(
# self.tr("MX is disabled"))
def _smtp_bootstrapped_stage(self, data):
"""
SLOT
TRIGGERS:
self._smtp_bootstrapper.download_config
If there was a problem, displays it, otherwise it does nothing.
This is used for intermediate bootstrapping stages, in case
they fail.
:param data: result from the bootstrapping stage for Soledad
:type data: dict
"""
passed = data[self._smtp_bootstrapper.PASSED_KEY]
if not passed:
logger.error(data[self._smtp_bootstrapper.ERROR_KEY])
else:
logger.debug("Done bootstrapping SMTP")
hosts = self._smtp_config.get_hosts()
# TODO: handle more than one host and define how to choose
if len(hosts) > 0:
hostname = hosts.keys()[0]
logger.debug("Using hostname %s for SMTP" % (hostname,))
host = hosts[hostname][self.IP_KEY].encode("utf-8")
port = hosts[hostname][self.PORT_KEY]
# TODO: pick local smtp port in a better way
# TODO: Make the encrypted_only configurable
from leap.mail.smtp import setup_smtp_relay
setup_smtp_relay(port=1234,
keymanager=self._keymanager,
smtp_host=host,
smtp_port=port,
smtp_username=".",
smtp_password=".",
encrypted_only=False)
def _get_socket_host(self):
"""
Returns the socket and port to be used for VPN
:rtype: tuple (str, str) (host, port)
"""
# TODO: make this properly multiplatform
if platform.system() == "Windows":
host = "localhost"
port = "9876"
else:
host = os.path.join(tempfile.mkdtemp(prefix="leap-tmp"),
'openvpn.socket')
port = "unix"
return host, port
def _start_eip(self):
"""
SLOT
TRIGGERS:
self._status_panel.start_eip
self._action_eip_startstop.triggered
or called from _finish_eip_bootstrap
Starts EIP
"""
self._status_panel.eip_pre_up()
self.user_stopped_eip = False
provider_config = self._get_best_provider_config()
try:
host, port = self._get_socket_host()
self._vpn.start(eipconfig=self._eip_config,
providerconfig=provider_config,
socket_host=host,
socket_port=port)
self._settings.set_defaultprovider(
provider_config.get_domain())
provider = provider_config.get_domain()
if self._logged_user is not None:
provider = "%s@%s" % (self._logged_user, provider)
self._status_panel.set_provider(provider)
self._action_eip_provider.setText(provider_config.get_domain())
self._status_panel.eip_started()
self._action_eip_startstop.setText(self.tr("Turn OFF"))
self._action_eip_startstop.disconnect(self)
self._action_eip_startstop.triggered.connect(
self._stop_eip)
except EIPNoPolkitAuthAgentAvailable:
self._status_panel.set_global_status(
# XXX this should change to polkit-kde where
# applicable.
self.tr("We could not find any "
"authentication "
"agent in your system.
"
"Make sure you have "
"polkit-gnome-authentication-"
"agent-1 "
"running and try again."),
error=True)
self._set_eipstatus_off()
except EIPNoTunKextLoaded:
self._status_panel.set_global_status(
self.tr("Encrypted Internet cannot be started because "
"the tuntap extension is not installed properly "
"in your system."))
self._set_eipstatus_off()
except EIPNoPkexecAvailable:
self._status_panel.set_global_status(
self.tr("We could not find pkexec "
"in your system."),
error=True)
self._set_eipstatus_off()
except OpenVPNNotFoundException:
self._status_panel.set_global_status(
self.tr("We could not find openvpn binary."),
error=True)
self._set_eipstatus_off()
except OpenVPNAlreadyRunning as e:
self._status_panel.set_global_status(
self.tr("Another openvpn instance is already running, and "
"could not be stopped."),
error=True)
self._set_eipstatus_off()
except AlienOpenVPNAlreadyRunning as e:
self._status_panel.set_global_status(
self.tr("Another openvpn instance is already running, and "
"could not be stopped because it was not launched by "
"LEAP. Please stop it and try again."),
error=True)
self._set_eipstatus_off()
except VPNLauncherException as e:
# XXX We should implement again translatable exceptions so
# we can pass a translatable string to the panel (usermessage attr)
self._status_panel.set_global_status("%s" % (e,), error=True)
self._set_eipstatus_off()
else:
self._already_started_eip = True
def _set_eipstatus_off(self):
"""
Sets eip status to off
"""
self._status_panel.set_eip_status(self.tr("OFF"), error=True)
self._status_panel.set_eip_status_icon("error")
self._status_panel.set_startstop_enabled(True)
self._status_panel.eip_stopped()
self._set_action_eipstart_off()
def _set_action_eipstart_off(self):
"""
Sets eip startstop action to OFF status.
"""
self._action_eip_startstop.setText(self.tr("Turn ON"))
self._action_eip_startstop.disconnect(self)
self._action_eip_startstop.triggered.connect(
self._start_eip)
def _stop_eip(self, abnormal=False):
"""
SLOT
TRIGGERS:
self._status_panel.stop_eip
self._action_eip_startstop.triggered
or called from _eip_finished
Stops vpn process and makes gui adjustments to reflect
the change of state.
:param abnormal: whether this was an abnormal termination.
:type abnormal: bool
"""
if abnormal:
logger.warning("Abnormal EIP termination.")
self.user_stopped_eip = True
self._vpn.terminate()
self._set_eipstatus_off()
self._already_started_eip = False
self._settings.set_defaultprovider(None)
if self._logged_user:
self._status_panel.set_provider(
"%s@%s" % (self._logged_user,
self._get_best_provider_config().get_domain()))
def _get_best_provider_config(self):
"""
Returns the best ProviderConfig to use at a moment. We may
have to use self._provider_config or
self._provisional_provider_config depending on the start
status.
:rtype: ProviderConfig
"""
leap_assert(self._provider_config is not None or
self._provisional_provider_config is not None,
"We need a provider config")
provider_config = None
if self._provider_config.loaded():
provider_config = self._provider_config
elif self._provisional_provider_config.loaded():
provider_config = self._provisional_provider_config
else:
leap_assert(False, "We could not find any usable ProviderConfig.")
return provider_config
def _download_eip_config(self):
"""
Starts the EIP bootstrapping sequence
"""
leap_assert(self._eip_bootstrapper, "We need an eip bootstrapper!")
provider_config = self._get_best_provider_config()
if provider_config.provides_eip() and \
self._enabled_services.count(self.OPENVPN_SERVICE) > 0 and \
not self._already_started_eip:
self._status_panel.set_eip_status(
self.tr("Starting..."))
self._eip_bootstrapper.run_eip_setup_checks(
provider_config,
download_if_needed=True)
self._already_started_eip = True
elif not self._already_started_eip:
if self._enabled_services.count(self.OPENVPN_SERVICE) > 0:
self._status_panel.set_eip_status(
self.tr("Not supported"),
error=True)
else:
self._status_panel.set_eip_status(self.tr("Disabled"))
self._status_panel.set_startstop_enabled(False)
def _finish_eip_bootstrap(self, data):
"""
SLOT
TRIGGER: self._eip_bootstrapper.download_client_certificate
Starts the VPN thread if the eip configuration is properly
loaded
"""
leap_assert(self._eip_config, "We need an eip config!")
provider_config = self._get_best_provider_config()
domain = provider_config.get_domain()
if data[self._eip_bootstrapper.PASSED_KEY] and \
(self._eip_config.loaded() or
self._eip_config.load(os.path.join("leap",
"providers",
domain,
"eip-service.json"))):
self._start_eip()
else:
if data[self._eip_bootstrapper.PASSED_KEY]:
self._status_panel.set_eip_status(
self.tr("Could not load Encrypted Internet "
"Configuration."),
error=True)
else:
self._status_panel.set_eip_status(
data[self._eip_bootstrapper.ERROR_KEY],
error=True)
self._already_started_eip = False
def _logout(self):
"""
SLOT
TRIGGER: self.ui.action_sign_out.triggered
Starts the logout sequence
"""
# XXX: If other defers are doing authenticated stuff, this
# might conflict with those. CHECK!
threads.deferToThread(self._srp_auth.logout)
def _done_logging_out(self, ok, message):
"""
SLOT
TRIGGER: self._srp_auth.logout_finished
Switches the stackedWidget back to the login stage after
logging out
"""
self._logged_user = None
self.ui.action_sign_out.setEnabled(False)
self.ui.stackedWidget.setCurrentIndex(self.LOGIN_INDEX)
self._login_widget.set_password("")
self._login_widget.set_enabled(True)
self._login_widget.set_status("")
def _intermediate_stage(self, data):
"""
SLOT
TRIGGERS:
self._provider_bootstrapper.name_resolution
self._provider_bootstrapper.https_connection
self._provider_bootstrapper.download_ca_cert
self._eip_bootstrapper.download_config
If there was a problem, displays it, otherwise it does nothing.
This is used for intermediate bootstrapping stages, in case
they fail.
"""
passed = data[self._provider_bootstrapper.PASSED_KEY]
if not passed:
self._login_widget.set_enabled(True)
self._login_widget.set_status(
data[self._provider_bootstrapper.ERROR_KEY])
def _eip_intermediate_stage(self, data):
"""
SLOT
TRIGGERS:
self._eip_bootstrapper.download_config
If there was a problem, displays it, otherwise it does nothing.
This is used for intermediate bootstrapping stages, in case
they fail.
"""
passed = data[self._provider_bootstrapper.PASSED_KEY]
if not passed:
self._login_widget.set_status(
data[self._provider_bootstrapper.ERROR_KEY])
self._already_started_eip = False
def _eip_finished(self, exitCode):
"""
SLOT
TRIGGERS:
self._vpn.process_finished
Triggered when the EIP/VPN process finishes to set the UI
accordingly.
"""
logger.info("VPN process finished with exitCode %s..."
% (exitCode,))
# Ideally we would have the right exit code here,
# but the use of different wrappers (pkexec, cocoasudo) swallows
# the openvpn exit code so we get zero exit in some cases where we
# shouldn't. As a workaround we just use a flag to indicate
# a purposeful switch off, and mark everything else as unexpected.
# In the near future we should trigger a native notification from here,
# since the user really really wants to know she is unprotected asap.
# And the right thing to do will be to fail-close.
# TODO we should have a way of parsing the latest lines in the vpn
# log buffer so we can have a more precise idea of which type
# of error did we have (server side, local problem, etc)
abnormal = True
# XXX check if these exitCodes are pkexec/cocoasudo specific
if exitCode in (126, 127):
self._status_panel.set_global_status(
self.tr("Encrypted Internet could not be launched "
"because you did not authenticate properly."),
error=True)
self._vpn.killit()
elif exitCode != 0 or not self.user_stopped_eip:
self._status_panel.set_global_status(
self.tr("Encrypted Internet finished in an "
"unexpected manner!"), error=True)
else:
abnormal = False
if exitCode == 0 and IS_MAC:
# XXX remove this warning after I fix cocoasudo.
logger.warning("The above exit code MIGHT BE WRONG.")
self._stop_eip(abnormal)
def _on_raise_window_event(self, req):
"""
Callback for the raise window event
"""
if IS_WIN:
raise_window_ack()
self.raise_window.emit()
def _do_raise_mainwindow(self):
"""
SLOT
TRIGGERS:
self._on_raise_window_event
Triggered when we receive a RAISE_WINDOW event.
"""
TOPFLAG = QtCore.Qt.WindowStaysOnTopHint
self.setWindowFlags(self.windowFlags() | TOPFLAG)
self.show()
self.setWindowFlags(self.windowFlags() & ~TOPFLAG)
self.show()
if IS_MAC:
self.raise_()
def _cleanup_pidfiles(self):
"""
Removes lockfiles on a clean shutdown.
Triggered after aboutToQuit signal.
"""
if IS_WIN:
WindowsLock.release_all_locks()
def _cleanup_and_quit(self):
"""
Call all the cleanup actions in a serialized way.
Should be called from the quit function.
"""
logger.debug('About to quit, doing cleanup...')
if self._srp_auth is not None:
if self._srp_auth.get_session_id() is not None or \
self._srp_auth.get_token() is not None:
self._srp_auth.logout()
logger.debug('Cleaning pidfiles')
self._cleanup_pidfiles()
logger.debug('Terminating vpn')
self._vpn.terminate(shutdown=True)
def quit(self):
"""
Cleanup and tidely close the main window before quitting.
"""
self._cleanup_and_quit()
self._really_quit = True
if self._wizard:
self._wizard.close()
if self._logger_window:
self._logger_window.close()
if self._login_defer:
self._login_defer.cancel()
self.close()
if self._quit_callback:
self._quit_callback()
logger.debug('Bye.')
if __name__ == "__main__":
import signal
def sigint_handler(*args, **kwargs):
logger.debug('SIGINT catched. shutting down...')
mainwindow = args[0]
mainwindow.quit()
import sys
logger = logging.getLogger(name='leap')
logger.setLevel(logging.DEBUG)
console = logging.StreamHandler()
console.setLevel(logging.DEBUG)
formatter = logging.Formatter(
'%(asctime)s '
'- %(name)s - %(levelname)s - %(message)s')
console.setFormatter(formatter)
logger.addHandler(console)
app = QtGui.QApplication(sys.argv)
mainwindow = MainWindow()
mainwindow.show()
timer = QtCore.QTimer()
timer.start(500)
timer.timeout.connect(lambda: None)
sigint = partial(sigint_handler, mainwindow)
signal.signal(signal.SIGINT, sigint)
sys.exit(app.exec_())