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/usr/share/pyshared/jarabe/desktop/keydialog.py is in python-jarabe-0.96 0.96.1-2.1git1.

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# Copyright (C) 2006-2007 Red Hat, Inc.
# Copyright (C) 2009 One Laptop per Child
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA

import hashlib
from gettext import gettext as _

import gtk
import dbus

from jarabe.model import network


IW_AUTH_ALG_OPEN_SYSTEM = 'open'
IW_AUTH_ALG_SHARED_KEY = 'shared'

WEP_PASSPHRASE = 1
WEP_HEX = 2
WEP_ASCII = 3


def string_is_hex(key):
    is_hex = True
    for c in key:
        if not 'a' <= c.lower() <= 'f' and not '0' <= c <= '9':
            is_hex = False
    return is_hex


def string_is_ascii(string):
    try:
        string.encode('ascii')
        return True
    except UnicodeEncodeError:
        return False


def string_to_hex(passphrase):
    key = ''
    for c in passphrase:
        key += '%02x' % ord(c)
    return key


def hash_passphrase(passphrase):
    # passphrase must have a length of 64
    if len(passphrase) > 64:
        passphrase = passphrase[:64]
    elif len(passphrase) < 64:
        while len(passphrase) < 64:
            passphrase += passphrase[:64 - len(passphrase)]
    passphrase = hashlib.md5(passphrase).digest()
    return string_to_hex(passphrase)[:26]


class CanceledKeyRequestError(dbus.DBusException):
    def __init__(self):
        dbus.DBusException.__init__(self)
        self._dbus_error_name = network.NM_SETTINGS_IFACE + '.CanceledError'


class KeyDialog(gtk.Dialog):
    def __init__(self, ssid, flags, wpa_flags, rsn_flags, dev_caps, response):
        gtk.Dialog.__init__(self, flags=gtk.DIALOG_MODAL)
        self.set_title('Wireless Key Required')

        self._response = response
        self._entry = None
        self._ssid = ssid
        self._flags = flags
        self._wpa_flags = wpa_flags
        self._rsn_flags = rsn_flags
        self._dev_caps = dev_caps

        self.set_has_separator(False)

        display_name = network.ssid_to_display_name(ssid)
        label = gtk.Label(_("A wireless encryption key is required for\n"
                            " the wireless network '%s'.") % (display_name, ))
        self.vbox.pack_start(label)

        self.add_buttons(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL,
                         gtk.STOCK_OK, gtk.RESPONSE_OK)
        self.set_default_response(gtk.RESPONSE_OK)
        self.set_has_separator(True)

    def add_key_entry(self):
        self._entry = gtk.Entry()
        self._entry.connect('changed', self._update_response_sensitivity)
        self._entry.connect('activate', self._entry_activate_cb)
        self.vbox.pack_start(self._entry)
        self.vbox.set_spacing(6)
        self.vbox.show_all()

        self._update_response_sensitivity()
        self._entry.grab_focus()

    def _entry_activate_cb(self, entry):
        self.response(gtk.RESPONSE_OK)

    def create_security(self):
        raise NotImplementedError

    def get_response_object(self):
        return self._response


class WEPKeyDialog(KeyDialog):
    def __init__(self, ssid, flags, wpa_flags, rsn_flags, dev_caps, response):
        KeyDialog.__init__(self, ssid, flags, wpa_flags, rsn_flags,
                           dev_caps, response)

        # WEP key type
        self.key_store = gtk.ListStore(str, int)
        self.key_store.append(['Passphrase (128-bit)', WEP_PASSPHRASE])
        self.key_store.append(['Hex (40/128-bit)', WEP_HEX])
        self.key_store.append(['ASCII (40/128-bit)', WEP_ASCII])

        self.key_combo = gtk.ComboBox(self.key_store)
        cell = gtk.CellRendererText()
        self.key_combo.pack_start(cell, True)
        self.key_combo.add_attribute(cell, 'text', 0)
        self.key_combo.set_active(0)
        self.key_combo.connect('changed', self._key_combo_changed_cb)

        hbox = gtk.HBox()
        hbox.pack_start(gtk.Label(_('Key Type:')))
        hbox.pack_start(self.key_combo)
        hbox.show_all()
        self.vbox.pack_start(hbox)

        # Key entry field
        self.add_key_entry()

        # WEP authentication mode
        self.auth_store = gtk.ListStore(str, str)
        self.auth_store.append(['Open System', IW_AUTH_ALG_OPEN_SYSTEM])
        self.auth_store.append(['Shared Key', IW_AUTH_ALG_SHARED_KEY])

        self.auth_combo = gtk.ComboBox(self.auth_store)
        cell = gtk.CellRendererText()
        self.auth_combo.pack_start(cell, True)
        self.auth_combo.add_attribute(cell, 'text', 0)
        self.auth_combo.set_active(0)

        hbox = gtk.HBox()
        hbox.pack_start(gtk.Label(_('Authentication Type:')))
        hbox.pack_start(self.auth_combo)
        hbox.show_all()

        self.vbox.pack_start(hbox)

    def _key_combo_changed_cb(self, widget):
        self._update_response_sensitivity()

    def _get_security(self):
        key = self._entry.get_text()

        it = self.key_combo.get_active_iter()
        (key_type, ) = self.key_store.get(it, 1)

        if key_type == WEP_PASSPHRASE:
            key = hash_passphrase(key)
        elif key_type == WEP_ASCII:
            key = string_to_hex(key)

        it = self.auth_combo.get_active_iter()
        (auth_alg, ) = self.auth_store.get(it, 1)

        return (key, auth_alg)

    def print_security(self):
        (key, auth_alg) = self._get_security()
        print 'Key: %s' % key
        print 'Auth: %d' % auth_alg

    def create_security(self):
        (key, auth_alg) = self._get_security()
        wsec = {'wep-key0': key, 'auth-alg': auth_alg}
        return {'802-11-wireless-security': wsec}

    def _update_response_sensitivity(self, ignored=None):
        key = self._entry.get_text()
        it = self.key_combo.get_active_iter()
        (key_type, ) = self.key_store.get(it, 1)

        valid = False
        if key_type == WEP_PASSPHRASE:
            # As the md5 passphrase can be of any length and has no indicator,
            # we cannot check for the validity of the input.
            if len(key) > 0:
                valid = True
        elif key_type == WEP_ASCII:
            if len(key) == 5 or len(key) == 13:
                valid = string_is_ascii(key)
        elif key_type == WEP_HEX:
            if len(key) == 10 or len(key) == 26:
                valid = string_is_hex(key)

        self.set_response_sensitive(gtk.RESPONSE_OK, valid)


class WPAKeyDialog(KeyDialog):
    def __init__(self, ssid, flags, wpa_flags, rsn_flags, dev_caps, response):
        KeyDialog.__init__(self, ssid, flags, wpa_flags, rsn_flags,
                           dev_caps, response)
        self.add_key_entry()

        self.store = gtk.ListStore(str)
        self.store.append([_('WPA & WPA2 Personal')])

        self.combo = gtk.ComboBox(self.store)
        cell = gtk.CellRendererText()
        self.combo.pack_start(cell, True)
        self.combo.add_attribute(cell, 'text', 0)
        self.combo.set_active(0)

        self.hbox = gtk.HBox()
        self.hbox.pack_start(gtk.Label(_('Wireless Security:')))
        self.hbox.pack_start(self.combo)
        self.hbox.show_all()

        self.vbox.pack_start(self.hbox)

    def _get_security(self):
        ssid = self._ssid
        key = self._entry.get_text()
        is_hex = string_is_hex(key)

        real_key = None
        if len(key) == 64 and is_hex:
            # Hex key
            real_key = key
        elif len(key) >= 8 and len(key) <= 63:
            # passphrase
            from subprocess import Popen, PIPE
            p = Popen(['wpa_passphrase', ssid, key], stdout=PIPE)
            for line in p.stdout:
                if line.strip().startswith('psk='):
                    real_key = line.strip()[4:]
            if p.wait() != 0:
                raise RuntimeError('Error hashing passphrase')
            if real_key and len(real_key) != 64:
                real_key = None

        if not real_key:
            raise RuntimeError('Invalid key')

        return real_key

    def print_security(self):
        key = self._get_security()
        print 'Key: %s' % key

    def create_security(self):
        wsec = {'psk': self._get_security()}
        return {'802-11-wireless-security': wsec}

    def _update_response_sensitivity(self, ignored=None):
        key = self._entry.get_text()
        is_hex = string_is_hex(key)

        valid = False
        if len(key) == 64 and is_hex:
            # hex key
            valid = True
        elif len(key) >= 8 and len(key) <= 63:
            # passphrase
            valid = True
        self.set_response_sensitive(gtk.RESPONSE_OK, valid)
        return False


def create(ssid, flags, wpa_flags, rsn_flags, dev_caps, response):
    if wpa_flags == network.NM_802_11_AP_SEC_NONE and \
            rsn_flags == network.NM_802_11_AP_SEC_NONE:
        key_dialog = WEPKeyDialog(ssid, flags, wpa_flags, rsn_flags,
                                  dev_caps, response)
    else:
        key_dialog = WPAKeyDialog(ssid, flags, wpa_flags, rsn_flags,
                                  dev_caps, response)

    key_dialog.connect('response', _key_dialog_response_cb)
    key_dialog.show_all()


def _key_dialog_response_cb(key_dialog, response_id):
    response = key_dialog.get_response_object()
    secrets = None
    if response_id == gtk.RESPONSE_OK:
        secrets = key_dialog.create_security()

    if response_id in [gtk.RESPONSE_CANCEL, gtk.RESPONSE_NONE,
                       gtk.RESPONSE_DELETE_EVENT]:
        # key dialog dialog was canceled; send the error back to NM
        response.set_error(CanceledKeyRequestError())
    elif response_id == gtk.RESPONSE_OK:
        if not secrets:
            raise RuntimeError('Invalid security arguments.')
        response.set_secrets(secrets)
    else:
        raise RuntimeError('Unhandled key dialog response %d' % response_id)

    key_dialog.destroy()