From b9f9ef0fe9e36cf6e5de59700154b16f2dae15cd Mon Sep 17 00:00:00 2001 From: Justin Gallardo Date: Mon, 04 Dec 2006 19:12:24 +0000 Subject: Changed all tabs to 4 spaces for python style --- (limited to 'services/nm') diff --git a/services/nm/bubble.py b/services/nm/bubble.py index 24e68ab..bb44cd0 100644 --- a/services/nm/bubble.py +++ b/services/nm/bubble.py @@ -22,111 +22,111 @@ import gtk import hippo class Bubble(hippo.CanvasBox, hippo.CanvasItem): - __gtype_name__ = 'NetworkBubble' - - __gproperties__ = { - 'fill-color': (object, None, None, - gobject.PARAM_READWRITE), - 'stroke-color': (object, None, None, - gobject.PARAM_READWRITE), - 'progress-color': (object, None, None, - gobject.PARAM_READWRITE), - 'percent' : (object, None, None, - gobject.PARAM_READWRITE), - } - - def __init__(self, **kwargs): - self._stroke_color = 0xFFFFFFFF - self._fill_color = 0xFFFFFFFF - self._progress_color = 0x000000FF - self._percent = 0 - self._radius = 8 - - hippo.CanvasBox.__init__(self, **kwargs) - - def do_set_property(self, pspec, value): - if pspec.name == 'fill-color': - self._fill_color = value - self.emit_paint_needed(0, 0, -1, -1) - elif pspec.name == 'stroke-color': - self._stroke_color = value - self.emit_paint_needed(0, 0, -1, -1) - elif pspec.name == 'progress-color': - self._progress_color = value - self.emit_paint_needed(0, 0, -1, -1) - elif pspec.name == 'percent': - self._percent = value - self.emit_paint_needed(0, 0, -1, -1) - - def do_get_property(self, pspec): - if pspec.name == 'fill-color': - return self._fill_color - elif pspec.name == 'stroke-color': - return self._stroke_color - elif pspec.name == 'progress-color': - return self._progress_color - elif pspec.name == 'percent': - return self._percent - - def _int_to_rgb(self, int_color): - red = (int_color >> 24) & 0x000000FF - green = (int_color >> 16) & 0x000000FF - blue = (int_color >> 8) & 0x000000FF - alpha = int_color & 0x000000FF - return (red / 255.0, green / 255.0, blue / 255.0) - - def do_paint_below_children(self, cr, damaged_box): - [width, height] = self.get_allocation() - - line_width = 3.0 - x = line_width - y = line_width - width -= line_width * 2 - height -= line_width * 2 - - cr.move_to(x + self._radius, y); - cr.arc(x + width - self._radius, y + self._radius, - self._radius, math.pi * 1.5, math.pi * 2); - cr.arc(x + width - self._radius, x + height - self._radius, - self._radius, 0, math.pi * 0.5); - cr.arc(x + self._radius, y + height - self._radius, - self._radius, math.pi * 0.5, math.pi); - cr.arc(x + self._radius, y + self._radius, self._radius, - math.pi, math.pi * 1.5); - - color = self._int_to_rgb(self._fill_color) - cr.set_source_rgb(*color) - cr.fill_preserve(); - - color = self._int_to_rgb(self._stroke_color) - cr.set_source_rgb(*color) - cr.set_line_width(line_width) - cr.stroke(); - - if self._percent > 0: - self._paint_progress_bar(cr, x, y, width, height, line_width) - - def _paint_progress_bar(self, cr, x, y, width, height, line_width): - prog_x = x + line_width - prog_y = y + line_width - prog_width = (width - (line_width * 2)) * (self._percent / 100.0) - prog_height = (height - (line_width * 2)) - - x = prog_x - y = prog_y - width = prog_width - height = prog_height - - cr.move_to(x + self._radius, y); - cr.arc(x + width - self._radius, y + self._radius, - self._radius, math.pi * 1.5, math.pi * 2); - cr.arc(x + width - self._radius, x + height - self._radius, - self._radius, 0, math.pi * 0.5); - cr.arc(x + self._radius, y + height - self._radius, - self._radius, math.pi * 0.5, math.pi); - cr.arc(x + self._radius, y + self._radius, self._radius, - math.pi, math.pi * 1.5); - - color = self._int_to_rgb(self._progress_color) - cr.set_source_rgb(*color) - cr.fill_preserve(); + __gtype_name__ = 'NetworkBubble' + + __gproperties__ = { + 'fill-color': (object, None, None, + gobject.PARAM_READWRITE), + 'stroke-color': (object, None, None, + gobject.PARAM_READWRITE), + 'progress-color': (object, None, None, + gobject.PARAM_READWRITE), + 'percent' : (object, None, None, + gobject.PARAM_READWRITE), + } + + def __init__(self, **kwargs): + self._stroke_color = 0xFFFFFFFF + self._fill_color = 0xFFFFFFFF + self._progress_color = 0x000000FF + self._percent = 0 + self._radius = 8 + + hippo.CanvasBox.__init__(self, **kwargs) + + def do_set_property(self, pspec, value): + if pspec.name == 'fill-color': + self._fill_color = value + self.emit_paint_needed(0, 0, -1, -1) + elif pspec.name == 'stroke-color': + self._stroke_color = value + self.emit_paint_needed(0, 0, -1, -1) + elif pspec.name == 'progress-color': + self._progress_color = value + self.emit_paint_needed(0, 0, -1, -1) + elif pspec.name == 'percent': + self._percent = value + self.emit_paint_needed(0, 0, -1, -1) + + def do_get_property(self, pspec): + if pspec.name == 'fill-color': + return self._fill_color + elif pspec.name == 'stroke-color': + return self._stroke_color + elif pspec.name == 'progress-color': + return self._progress_color + elif pspec.name == 'percent': + return self._percent + + def _int_to_rgb(self, int_color): + red = (int_color >> 24) & 0x000000FF + green = (int_color >> 16) & 0x000000FF + blue = (int_color >> 8) & 0x000000FF + alpha = int_color & 0x000000FF + return (red / 255.0, green / 255.0, blue / 255.0) + + def do_paint_below_children(self, cr, damaged_box): + [width, height] = self.get_allocation() + + line_width = 3.0 + x = line_width + y = line_width + width -= line_width * 2 + height -= line_width * 2 + + cr.move_to(x + self._radius, y); + cr.arc(x + width - self._radius, y + self._radius, + self._radius, math.pi * 1.5, math.pi * 2); + cr.arc(x + width - self._radius, x + height - self._radius, + self._radius, 0, math.pi * 0.5); + cr.arc(x + self._radius, y + height - self._radius, + self._radius, math.pi * 0.5, math.pi); + cr.arc(x + self._radius, y + self._radius, self._radius, + math.pi, math.pi * 1.5); + + color = self._int_to_rgb(self._fill_color) + cr.set_source_rgb(*color) + cr.fill_preserve(); + + color = self._int_to_rgb(self._stroke_color) + cr.set_source_rgb(*color) + cr.set_line_width(line_width) + cr.stroke(); + + if self._percent > 0: + self._paint_progress_bar(cr, x, y, width, height, line_width) + + def _paint_progress_bar(self, cr, x, y, width, height, line_width): + prog_x = x + line_width + prog_y = y + line_width + prog_width = (width - (line_width * 2)) * (self._percent / 100.0) + prog_height = (height - (line_width * 2)) + + x = prog_x + y = prog_y + width = prog_width + height = prog_height + + cr.move_to(x + self._radius, y); + cr.arc(x + width - self._radius, y + self._radius, + self._radius, math.pi * 1.5, math.pi * 2); + cr.arc(x + width - self._radius, x + height - self._radius, + self._radius, 0, math.pi * 0.5); + cr.arc(x + self._radius, y + height - self._radius, + self._radius, math.pi * 0.5, math.pi); + cr.arc(x + self._radius, y + self._radius, self._radius, + math.pi, math.pi * 1.5); + + color = self._int_to_rgb(self._progress_color) + cr.set_source_rgb(*color) + cr.fill_preserve(); diff --git a/services/nm/nmclient.py b/services/nm/nmclient.py index 9d96a2a..055b4ba 100644 --- a/services/nm/nmclient.py +++ b/services/nm/nmclient.py @@ -40,15 +40,15 @@ IW_AUTH_ALG_SHARED_KEY = 0x00000002 NM_DEVICE_STAGE_STRINGS=("Unknown", - "Prepare", - "Config", - "Need Users Key", - "IP Config", - "IP Config Get", - "IP Config Commit", - "Activated", - "Failed", - "Cancled" + "Prepare", + "Config", + "Need Users Key", + "IP Config", + "IP Config Get", + "IP Config Commit", + "Activated", + "Failed", + "Cancled" ) NM_SERVICE = 'org.freedesktop.NetworkManager' @@ -70,278 +70,278 @@ sys_bus = dbus.SystemBus() class Network(gobject.GObject): - __gsignals__ = { - 'init-failed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])) - } - - def __init__(self, op): - gobject.GObject.__init__(self) - self._op = op - self._ssid = None - self._mode = None - self._strength = 0 - self._valid = False - - obj = sys_bus.get_object(NM_SERVICE, self._op) - net = dbus.Interface(obj, NM_IFACE_DEVICES) - net.getProperties(reply_handler=self._update_reply_cb, - error_handler=self._update_error_cb) - - def _update_reply_cb(self, *props): - self._ssid = props[1] - self._strength = props[3] - self._mode = props[6] - self._valid = True - logging.debug("Net(%s): ssid '%s', mode %d, strength %d" % (self._op, - self._ssid, self._mode, self._strength)) - - def _update_error_cb(self, err): - logging.debug("Net(%s): failed to update. (%s)" % (self._op, err)) - self._valid = False - self.emit('init-failed') - - def get_ssid(self): - return self._ssid - - def get_op(self): - return self._op - - def get_strength(self): - return self._strength - - def set_strength(self, strength): - self._strength = strength - - def is_valid(self): - return self._valid - - def add_to_menu(self, menu, callback, dev): - strength = self._strength - if strength > 100: - strength = 100 - elif strength < 0: - strength = 0 - item = NetworkMenuItem(text=self._ssid, percent=strength) - item.connect('button-press-event', callback, (dev, self)) - menu.add_item(item) + __gsignals__ = { + 'init-failed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])) + } + + def __init__(self, op): + gobject.GObject.__init__(self) + self._op = op + self._ssid = None + self._mode = None + self._strength = 0 + self._valid = False + + obj = sys_bus.get_object(NM_SERVICE, self._op) + net = dbus.Interface(obj, NM_IFACE_DEVICES) + net.getProperties(reply_handler=self._update_reply_cb, + error_handler=self._update_error_cb) + + def _update_reply_cb(self, *props): + self._ssid = props[1] + self._strength = props[3] + self._mode = props[6] + self._valid = True + logging.debug("Net(%s): ssid '%s', mode %d, strength %d" % (self._op, + self._ssid, self._mode, self._strength)) + + def _update_error_cb(self, err): + logging.debug("Net(%s): failed to update. (%s)" % (self._op, err)) + self._valid = False + self.emit('init-failed') + + def get_ssid(self): + return self._ssid + + def get_op(self): + return self._op + + def get_strength(self): + return self._strength + + def set_strength(self, strength): + self._strength = strength + + def is_valid(self): + return self._valid + + def add_to_menu(self, menu, callback, dev): + strength = self._strength + if strength > 100: + strength = 100 + elif strength < 0: + strength = 0 + item = NetworkMenuItem(text=self._ssid, percent=strength) + item.connect('button-press-event', callback, (dev, self)) + menu.add_item(item) class Device(gobject.GObject): - __gsignals__ = { - 'init-failed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])), - 'activated': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])), - 'strength-changed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, - ([gobject.TYPE_PYOBJECT])) - } - - def __init__(self, op): - gobject.GObject.__init__(self) - self._op = op - self._iface = None - self._type = DEVICE_TYPE_UNKNOWN - self._udi = None - self._active = False - self._strength = 0 - self._link = False - self._valid = False - self._networks = {} - self._active_net = None - self._caps = 0 - - obj = sys_bus.get_object(NM_SERVICE, self._op) - dev = dbus.Interface(obj, NM_IFACE_DEVICES) - dev.getProperties(reply_handler=self._update_reply_cb, - error_handler=self._update_error_cb) - - def _update_reply_cb(self, *props): - self._iface = props[1] - self._type = props[2] - self._udi = props[3] - self._active = props[4] - if self._active: - self.emit('activated') - self._link = props[15] - self._caps = props[17] - - if self._type == DEVICE_TYPE_802_11_WIRELESS: - old_strength = self._strength - self._strength = props[14] - if self._strength != old_strength: - self.emit('strength-changed', self._strength) - self._update_networks(props[20], props[19]) - - self._valid = True - - def _update_networks(self, net_ops, active_op): - for op in net_ops: - net = Network(op) - self._networks[op] = net - net.connect('init-failed', self._net_init_failed) - if op == active_op: - self._active_net = op - - def _update_error_cb(self, err): - logging.debug("Device(%s): failed to update. (%s)" % (self._op, err)) - self._valid = False - self.emit('init-failed') - - def _net_init_failed(self, net): - net_op = net.get_op() - if not self._networks.has_key(net_op): - return - if net_op == self._active_net: - self._active_net = None - del self._networks[net_op] - - def _add_to_menu_wired(self, menu, callback): - item = NetworkMenuItem(_("Wired Network"), stylesheet="nm.Bubble.Wired", - hi_stylesheet="nm.Bubble.Wired.Hi", - act_stylesheet="nm.Bubble.Wired.Activated") - item.connect('button-press-event', callback, (self, None)) - menu.add_item(item) - - def _add_to_menu_wireless(self, menu, callback, active_only): - act_net = None - if self._active_net and self._networks.has_key(self._active_net): - act_net = self._networks[self._active_net] - - # Only add the active network if active_only == True - if active_only: - if act_net: - act_net.add_to_menu(menu, callback, self) - return - - # Otherwise, add all networks _except_ the active one - for net in self._networks.values(): - if not net.is_valid(): - continue - if act_net == net: - continue - net.add_to_menu(menu, callback, self) - - def add_to_menu(self, menu, callback, active_only=False): - if self._type == DEVICE_TYPE_802_3_ETHERNET: - self._add_to_menu_wired(menu, callback) - elif self._type == DEVICE_TYPE_802_11_WIRELESS: - self._add_to_menu_wireless(menu, callback, active_only) - - def get_op(self): - return self._op - - def get_network(self, op): - if self._networks.has_key(op): - return self._networks[op] - return None - - def get_network_ops(self): - return self._networks.keys() - - def get_strength(self): - return self._strength - - def set_strength(self, strength): - if strength == self._strength: - return False - - if strength >= 0 and strength <= 100: - self._strength = strength - else: - self._strength = 0 - - self.emit('strength-changed', self._strength) - - def network_appeared(self, network): - if self._networks.has_key(network): - return - net = Network(network) - self._networks[network] = net - net.connect('init-failed', self._net_init_failed) - - def network_disappeared(self, network): - if not self._networks.has_key(network): - return - if network == self._active_net: - self._active_net = None - del self._networks[network] - - def get_active(self): - return self._active - - def set_active(self, active, ssid=None): - self._active = active - if self._type == DEVICE_TYPE_802_11_WIRELESS: - if not ssid: - self._active_net = None - else: - for (op, net) in self._networks.items(): - if net.get_ssid() == ssid: - self._active_net = op - - def get_type(self): - return self._type - - def is_valid(self): - return self._valid - - def set_carrier(self, on): - self._link = on - - def get_capabilities(self): - return self._caps + __gsignals__ = { + 'init-failed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])), + 'activated': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, ([])), + 'strength-changed': (gobject.SIGNAL_RUN_FIRST, gobject.TYPE_NONE, + ([gobject.TYPE_PYOBJECT])) + } + + def __init__(self, op): + gobject.GObject.__init__(self) + self._op = op + self._iface = None + self._type = DEVICE_TYPE_UNKNOWN + self._udi = None + self._active = False + self._strength = 0 + self._link = False + self._valid = False + self._networks = {} + self._active_net = None + self._caps = 0 + + obj = sys_bus.get_object(NM_SERVICE, self._op) + dev = dbus.Interface(obj, NM_IFACE_DEVICES) + dev.getProperties(reply_handler=self._update_reply_cb, + error_handler=self._update_error_cb) + + def _update_reply_cb(self, *props): + self._iface = props[1] + self._type = props[2] + self._udi = props[3] + self._active = props[4] + if self._active: + self.emit('activated') + self._link = props[15] + self._caps = props[17] + + if self._type == DEVICE_TYPE_802_11_WIRELESS: + old_strength = self._strength + self._strength = props[14] + if self._strength != old_strength: + self.emit('strength-changed', self._strength) + self._update_networks(props[20], props[19]) + + self._valid = True + + def _update_networks(self, net_ops, active_op): + for op in net_ops: + net = Network(op) + self._networks[op] = net + net.connect('init-failed', self._net_init_failed) + if op == active_op: + self._active_net = op + + def _update_error_cb(self, err): + logging.debug("Device(%s): failed to update. (%s)" % (self._op, err)) + self._valid = False + self.emit('init-failed') + + def _net_init_failed(self, net): + net_op = net.get_op() + if not self._networks.has_key(net_op): + return + if net_op == self._active_net: + self._active_net = None + del self._networks[net_op] + + def _add_to_menu_wired(self, menu, callback): + item = NetworkMenuItem(_("Wired Network"), stylesheet="nm.Bubble.Wired", + hi_stylesheet="nm.Bubble.Wired.Hi", + act_stylesheet="nm.Bubble.Wired.Activated") + item.connect('button-press-event', callback, (self, None)) + menu.add_item(item) + + def _add_to_menu_wireless(self, menu, callback, active_only): + act_net = None + if self._active_net and self._networks.has_key(self._active_net): + act_net = self._networks[self._active_net] + + # Only add the active network if active_only == True + if active_only: + if act_net: + act_net.add_to_menu(menu, callback, self) + return + + # Otherwise, add all networks _except_ the active one + for net in self._networks.values(): + if not net.is_valid(): + continue + if act_net == net: + continue + net.add_to_menu(menu, callback, self) + + def add_to_menu(self, menu, callback, active_only=False): + if self._type == DEVICE_TYPE_802_3_ETHERNET: + self._add_to_menu_wired(menu, callback) + elif self._type == DEVICE_TYPE_802_11_WIRELESS: + self._add_to_menu_wireless(menu, callback, active_only) + + def get_op(self): + return self._op + + def get_network(self, op): + if self._networks.has_key(op): + return self._networks[op] + return None + + def get_network_ops(self): + return self._networks.keys() + + def get_strength(self): + return self._strength + + def set_strength(self, strength): + if strength == self._strength: + return False + + if strength >= 0 and strength <= 100: + self._strength = strength + else: + self._strength = 0 + + self.emit('strength-changed', self._strength) + + def network_appeared(self, network): + if self._networks.has_key(network): + return + net = Network(network) + self._networks[network] = net + net.connect('init-failed', self._net_init_failed) + + def network_disappeared(self, network): + if not self._networks.has_key(network): + return + if network == self._active_net: + self._active_net = None + del self._networks[network] + + def get_active(self): + return self._active + + def set_active(self, active, ssid=None): + self._active = active + if self._type == DEVICE_TYPE_802_11_WIRELESS: + if not ssid: + self._active_net = None + else: + for (op, net) in self._networks.items(): + if net.get_ssid() == ssid: + self._active_net = op + + def get_type(self): + return self._type + + def is_valid(self): + return self._valid + + def set_carrier(self, on): + self._link = on + + def get_capabilities(self): + return self._caps nm_bubble_wireless = { - 'fill-color' : 0x646464FF, - 'stroke-color' : 0x646464FF, - 'progress-color': 0x333333FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0x646464FF, + 'stroke-color' : 0x646464FF, + 'progress-color': 0x333333FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_bubble_wireless_hi = { - 'fill-color' : 0x979797FF, - 'stroke-color' : 0x979797FF, - 'progress-color': 0x666666FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0x979797FF, + 'stroke-color' : 0x979797FF, + 'progress-color': 0x666666FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_bubble_wireless_activated = { - 'fill-color' : 0xA7A7A7FF, - 'stroke-color' : 0xA7A7A7FF, - 'progress-color': 0x777777FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0xA7A7A7FF, + 'stroke-color' : 0xA7A7A7FF, + 'progress-color': 0x777777FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_bubble_wired = { - 'fill-color' : 0x000000FF, - 'stroke-color' : 0x000000FF, - 'progress-color': 0x000000FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0x000000FF, + 'stroke-color' : 0x000000FF, + 'progress-color': 0x000000FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_bubble_wired_hi = { - 'fill-color' : 0x333333FF, - 'stroke-color' : 0x333333FF, - 'progress-color': 0x000000FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0x333333FF, + 'stroke-color' : 0x333333FF, + 'progress-color': 0x000000FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_bubble_wired_activated = { - 'fill-color' : 0x444444FF, - 'stroke-color' : 0x444444FF, - 'progress-color': 0x000000FF, - 'spacing' : style.space_unit, - 'padding' : style.space_unit * 1.5 + 'fill-color' : 0x444444FF, + 'stroke-color' : 0x444444FF, + 'progress-color': 0x000000FF, + 'spacing' : style.space_unit, + 'padding' : style.space_unit * 1.5 } nm_menu_item_title = { - 'xalign': hippo.ALIGNMENT_START, - 'padding-left': 5, - 'color' : 0xFFFFFFFF, - 'font' : style.get_font_description('Bold', 1.2) + 'xalign': hippo.ALIGNMENT_START, + 'padding-left': 5, + 'color' : 0xFFFFFFFF, + 'font' : style.get_font_description('Bold', 1.2) } @@ -354,63 +354,63 @@ style.register_stylesheet("nm.Bubble.Wired.Activated", nm_bubble_wired_activated style.register_stylesheet("nm.MenuItem.Title", nm_menu_item_title) class NetworkMenuItem(Bubble): - def __init__(self, text, percent=0, stylesheet="nm.Bubble.Wireless", - hi_stylesheet="nm.Bubble.Wireless.Hi", - act_stylesheet="nm.Bubble.Wireless.Activated"): - Bubble.__init__(self, percent=percent) - self._hover = False - self._default_stylesheet = stylesheet - self._hi_stylesheet = hi_stylesheet - self._act_stylesheet = act_stylesheet - style.apply_stylesheet(self, stylesheet) - - text_item = hippo.CanvasText(text=text) - style.apply_stylesheet(text_item, 'nm.MenuItem.Title') - self.append(text_item) - - self.connect('motion-notify-event', self._motion_notify_event_cb) - # Disable active hilight for now... - #self.connect('button-press-event', self._button_press_event_cb) - - def _motion_notify_event_cb(self, widget, event): - if event.detail == hippo.MOTION_DETAIL_ENTER: - if not self._hover: - self._hover = True - style.apply_stylesheet(self, self._hi_stylesheet) - elif event.detail == hippo.MOTION_DETAIL_LEAVE: - if self._hover: - self._hover = False - style.apply_stylesheet(self, self._default_stylesheet) - return True - - def _button_press_event_cb(self, widget, event): - style.apply_stylesheet(self, self._act_stylesheet) - return False + def __init__(self, text, percent=0, stylesheet="nm.Bubble.Wireless", + hi_stylesheet="nm.Bubble.Wireless.Hi", + act_stylesheet="nm.Bubble.Wireless.Activated"): + Bubble.__init__(self, percent=percent) + self._hover = False + self._default_stylesheet = stylesheet + self._hi_stylesheet = hi_stylesheet + self._act_stylesheet = act_stylesheet + style.apply_stylesheet(self, stylesheet) + + text_item = hippo.CanvasText(text=text) + style.apply_stylesheet(text_item, 'nm.MenuItem.Title') + self.append(text_item) + + self.connect('motion-notify-event', self._motion_notify_event_cb) + # Disable active hilight for now... + #self.connect('button-press-event', self._button_press_event_cb) + + def _motion_notify_event_cb(self, widget, event): + if event.detail == hippo.MOTION_DETAIL_ENTER: + if not self._hover: + self._hover = True + style.apply_stylesheet(self, self._hi_stylesheet) + elif event.detail == hippo.MOTION_DETAIL_LEAVE: + if self._hover: + self._hover = False + style.apply_stylesheet(self, self._default_stylesheet) + return True + + def _button_press_event_cb(self, widget, event): + style.apply_stylesheet(self, self._act_stylesheet) + return False class NetworkMenu(gtk.Window): - __gsignals__ = { - 'action': (gobject.SIGNAL_RUN_FIRST, - gobject.TYPE_NONE, ([int])), - } + __gsignals__ = { + 'action': (gobject.SIGNAL_RUN_FIRST, + gobject.TYPE_NONE, ([int])), + } - def __init__(self): - gtk.Window.__init__(self, gtk.WINDOW_POPUP) + def __init__(self): + gtk.Window.__init__(self, gtk.WINDOW_POPUP) - canvas = hippo.Canvas() - self.add(canvas) - canvas.show() + canvas = hippo.Canvas() + self.add(canvas) + canvas.show() - self._root = hippo.CanvasBox() - style.apply_stylesheet(self._root, 'menu') - canvas.set_root(self._root) + self._root = hippo.CanvasBox() + style.apply_stylesheet(self._root, 'menu') + canvas.set_root(self._root) - def add_separator(self): - separator = hippo.CanvasBox() - style.apply_stylesheet(separator, 'menu.Separator') - self._root.append(separator) + def add_separator(self): + separator = hippo.CanvasBox() + style.apply_stylesheet(separator, 'menu.Separator') + self._root.append(separator) - def add_item(self, item): - self._root.append(item) + def add_item(self, item): + self._root.append(item) @@ -429,488 +429,488 @@ ICON_WIRELESS_61_80 = "stock-net-wireless-61-80" ICON_WIRELESS_81_100 = "stock-net-wireless-81-100" class NMClientApp: - def __init__(self): - self.nminfo = None - self._nm_present = False - self._nm_state = NM_STATE_UNKNOWN - self._update_timer = 0 - self._active_device = None - self._devices = {} - self._key_dialog = None - - self._icon_theme = gtk.icon_theme_get_default() - self._icons = {} - self._cur_icon = None - try: - self._icons = self._load_icons() - except RuntimeError: - logging.debug("Couldn't find required icon resources, will exit.") - os._exit(1) - self._setup_trayicon() - - self._menu = None - self._hover_menu = False - self._timeline = Timeline(self) - self._timeline.add_tag('popup', 6, 6) - self._timeline.add_tag('before_popdown', 7, 7) - self._timeline.add_tag('popdown', 8, 8) - - try: - self.nminfo = nminfo.NMInfo(self) - except RuntimeError: - pass - self._setup_dbus() - if self._nm_present: - self._get_nm_state() - self._get_initial_devices() - - def _get_one_icon_pixbuf(self, name): - info = self._icon_theme.lookup_icon(name, 75, 0) - if not info or not info.get_filename(): - raise RuntimeError - return gtk.gdk.pixbuf_new_from_file(info.get_filename()) - - def _load_icons(self): - icons = {} - icons[ICON_WIRED] = self._get_one_icon_pixbuf(ICON_WIRED) - icons[ICON_WIRELESS_00] = self._get_one_icon_pixbuf(ICON_WIRELESS_00) - icons[ICON_WIRELESS_01_20] = self._get_one_icon_pixbuf(ICON_WIRELESS_01_20) - icons[ICON_WIRELESS_21_40] = self._get_one_icon_pixbuf(ICON_WIRELESS_21_40) - icons[ICON_WIRELESS_41_60] = self._get_one_icon_pixbuf(ICON_WIRELESS_41_60) - icons[ICON_WIRELESS_61_80] = self._get_one_icon_pixbuf(ICON_WIRELESS_61_80) - icons[ICON_WIRELESS_81_100] = self._get_one_icon_pixbuf(ICON_WIRELESS_81_100) - return icons - - def _get_nm_state(self): - # Grab NM's state - self._nm_obj.state(reply_handler=self._get_state_reply_cb, \ - error_handler=self._get_state_error_cb) - - def _get_state_reply_cb(self, state): - if self._nm_state != state: - self._schedule_icon_update(immediate=True) - self._nm_state = state - - def _get_state_error_cb(self, err): - logging.debug("Failed to get NetworkManager state! %s" % err) - - def _get_icon(self): - act_dev = None - if self._active_device and self._devices.has_key(self._active_device): - act_dev = self._devices[self._active_device] - - pixbuf = None - if not self._nm_present \ - or not act_dev \ - or self._nm_state == NM_STATE_UNKNOWN \ - or self._nm_state == NM_STATE_ASLEEP \ - or self._nm_state == NM_STATE_DISCONNECTED: - pixbuf = self._icons[ICON_WIRELESS_00] - elif act_dev.get_type() == DEVICE_TYPE_802_3_ETHERNET: - pixbuf = self._icons[ICON_WIRED] - elif act_dev.get_type() == DEVICE_TYPE_802_11_WIRELESS: - strength = act_dev.get_strength() - if strength <= 0: - pixbuf = self._icons[ICON_WIRELESS_00] - elif strength >= 1 and strength <= 20: - pixbuf = self._icons[ICON_WIRELESS_01_20] - elif strength >= 21 and strength <= 40: - pixbuf = self._icons[ICON_WIRELESS_21_40] - elif strength >= 41 and strength <= 60: - pixbuf = self._icons[ICON_WIRELESS_41_60] - elif strength >= 61 and strength <= 80: - pixbuf = self._icons[ICON_WIRELESS_61_80] - elif strength >= 81 and strength: - pixbuf = self._icons[ICON_WIRELESS_81_100] - - if not pixbuf: - pixbuf = self._icons[ICON_WIRELESS_00] - return pixbuf - - def _setup_trayicon(self): - pixbuf = self._get_icon() - self._trayicon = gtk.status_icon_new_from_pixbuf(pixbuf) - self._trayicon.connect("popup_menu", self._status_icon_clicked) - self._trayicon.connect("activate", self._status_icon_clicked) - self._schedule_icon_update() - - def _status_icon_clicked(self, button=0, time=None): - self._timeline.play(None, 'popup') - - def _get_menu_position(self, menu, item): - (screen, rect, orientation) = item.get_geometry() - [item_x, item_y, item_w, item_h] = rect - [menu_w, menu_h] = menu.size_request() - - x = item_x + item_w - menu_w - y = item_y + item_h - - x = min(x, screen.get_width() - menu_w) - x = max(0, x) - - y = min(y, screen.get_height() - menu_h) - y = max(0, y) - - return (x, y) - - def do_popup(self, current, n_frames): - if self._menu: - return - - self._menu = self._create_menu() - self._menu.connect('enter-notify-event', - self._menu_enter_notify_event_cb) - self._menu.connect('leave-notify-event', - self._menu_leave_notify_event_cb) - (x, y) = self._get_menu_position(self._menu, self._trayicon) - self._menu.move(x, y) - self._menu.show_all() - - def do_popdown(self, current, frame): - if self._menu: - self._menu.destroy() - self._menu = None - - def _popdown(self): - self._timeline.play('popdown', 'popdown') - - def _menu_enter_notify_event_cb(self, widget, event): - self._hover_menu = True - self._timeline.play('popup', 'popup') - - def _menu_leave_notify_event_cb(self, widget, event): - self._hover_menu = False - self._popdown() - - def _create_menu(self): - menu = NetworkMenu() - - # Active device goes above the separator - act_dev = None - if self._active_device and self._devices.has_key(self._active_device): - act_dev = self._devices[self._active_device] - - if act_dev: - act_dev.add_to_menu(menu, self._menu_item_clicked_cb, active_only=True) - menu.add_separator() - - # Wired devices first, if they don't support carrier detect - for dev in self._devices.values(): - if not dev.is_valid(): - continue - if dev.get_type() != DEVICE_TYPE_802_3_ETHERNET: - continue - if dev.get_capabilities() & NM_DEVICE_CAP_CARRIER_DETECT: - continue - if dev == act_dev: - continue - dev.add_to_menu(menu, self._menu_item_clicked_cb) - - # Wireless devices second - for dev in self._devices.values(): - if not dev.is_valid(): - continue - if dev.get_type() != DEVICE_TYPE_802_11_WIRELESS: - continue - dev.add_to_menu(menu, self._menu_item_clicked_cb) - - return menu - - def _update_icon(self): - pixbuf = self._get_icon() - if self._cur_icon != pixbuf: - self._trayicon.set_from_pixbuf(pixbuf) - self._cur_icon = pixbuf - - blink = False - if self._nm_state == NM_STATE_CONNECTING: - blink = True - self._trayicon.set_blinking(blink) - - self._update_timer = 0 - return False - - def _schedule_icon_update(self, immediate=False): - if immediate and self._update_timer: - gobject.source_remove(self._update_timer) - self._update_timer = 0 - - if self._update_timer != 0: - # There is already an update scheduled - return - - if immediate: - self._update_timer = gobject.idle_add(self._update_icon) - else: - self._update_timer = gobject.timeout_add(2000, self._update_icon) - - def _get_initial_devices_reply_cb(self, ops): - for op in ops: - self._add_device(op) - - def _dev_init_failed_cb(self, dev): - # Device failed to initialize, likely due to dbus errors or something - op = dev.get_op() - self._remove_device(op) - - def _get_initial_devices_error_cb(self, err): - logging.debug("Error updating devices (%s)" % err) - - def _get_initial_devices(self): - self._nm_obj.getDevices(reply_handler=self._get_initial_devices_reply_cb, \ - error_handler=self._get_initial_devices_error_cb) - - def _add_device(self, dev_op): - if self._devices.has_key(dev_op): - return - dev = Device(dev_op) - self._devices[dev_op] = dev - dev.connect('init-failed', self._dev_init_failed_cb) - dev.connect('activated', self._dev_activated_cb) - dev.connect('strength-changed', self._dev_strength_changed_cb) - - def _remove_device(self, dev_op): - if not self._devices.has_key(dev_op): - return - if self._active_device == dev_op: - self._active_device = None - dev = self._devices[dev_op] - dev.disconnect('activated') - dev.disconnect('init-failed') - dev.disconnect('strength-changed') - del self._devices[dev_op] - self._schedule_icon_update(immediate=True) - - def _dev_activated_cb(self, dev): - op = dev.get_op() - if not self._devices.has_key(op): - return - if not dev.get_active(): - return - self._active_device = op - self._schedule_icon_update(immediate=True) - - def _dev_strength_changed_cb(self, dev, strength): - op = dev.get_op() - if not self._devices.has_key(op): - return - if not dev.get_active(): - return - self._schedule_icon_update() - - def get_device(self, dev_op): - if not self._devices.has_key(dev_op): - return None - return self._devices[dev_op] - - def _setup_dbus(self): - self._sig_handlers = { - 'StateChange': self.state_change_sig_handler, - 'DeviceAdded': self.device_added_sig_handler, - 'DeviceRemoved': self.device_removed_sig_handler, - 'DeviceActivationStage': self.device_activation_stage_sig_handler, - 'DeviceActivating': self.device_activating_sig_handler, - 'DeviceNowActive': self.device_now_active_sig_handler, - 'DeviceNoLongerActive': self.device_no_longer_active_sig_handler, - 'DeviceCarrierOn': self.device_carrier_on_sig_handler, - 'DeviceCarrierOff': self.device_carrier_off_sig_handler, - 'DeviceStrengthChanged': self.wireless_device_strength_changed_sig_handler, - 'WirelessNetworkAppeared': self.wireless_network_appeared_sig_handler, - 'WirelessNetworkDisappeared': self.wireless_network_disappeared_sig_handler, - 'WirelessNetworkStrengthChanged': self.wireless_network_strength_changed_sig_handler - } - - self._nm_proxy = sys_bus.get_object(NM_SERVICE, NM_PATH) - self._nm_obj = dbus.Interface(self._nm_proxy, NM_IFACE) - - sys_bus.add_signal_receiver(self.name_owner_changed_sig_handler, - signal_name="NameOwnerChanged", - dbus_interface="org.freedesktop.DBus") - - sys_bus.add_signal_receiver(self.catchall_signal_handler, - dbus_interface=NM_IFACE) - - sys_bus.add_signal_receiver(self.catchall_signal_handler, - dbus_interface=NM_IFACE + 'Devices') - - for (signal, handler) in self._sig_handlers.items(): - sys_bus.add_signal_receiver(handler, signal_name=signal, dbus_interface=NM_IFACE) - - # Find out whether or not NM is running - try: - bus_object = sys_bus.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') - name = bus_object.GetNameOwner("org.freedesktop.NetworkManagerInfo", \ - dbus_interface='org.freedesktop.DBus') - if name: - self._nm_present = True - except dbus.DBusException: - pass - - @dbus.decorators.explicitly_pass_message - def catchall_signal_handler(self, *args, **keywords): - dbus_message = keywords['dbus_message'] - mem = dbus_message.get_member() - iface = dbus_message.get_interface() - - if iface == NM_IFACE and mem in self._sig_handlers.keys(): - return - - logging.debug('Caught signal %s.%s' % (dbus_message.get_interface(), mem)) - for arg in args: - logging.debug(' ' + str(arg)) - - def _menu_item_clicked_cb(self, widget, event, dev_data): - (device, network) = dev_data - net_op = "" - if network: - net_op = network.get_op() - try: - # NM 0.6.4 and earlier have a bug which returns an - # InvalidArguments error if no security information is passed - # for wireless networks - self._nm_obj.setActiveDevice(device.get_op(), network.get_ssid()) - except dbus.DBusException, e: - if str(e).find("invalid arguments"): - pass - else: - raise dbus.DBusException(e) - - self._popdown() - - def get_key_for_network(self, net, async_cb, async_err_cb): - # Throw up a dialog asking for the key here, and set - # the authentication algorithm to the given one, if any - # - # Key needs to be limited to _either_ 10 or 26 digits long, - # and contain _only_ _hex_ digits, 0-9 or a-f - # - # Auth algorithm should be a dropdown of: [Open System, Shared Key], - # mapping to the values [IW_AUTH_ALG_OPEN_SYSTEM, IW_AUTH_ALG_SHARED_KEY] - # above - - self._key_dialog = WEPKeyDialog(net, async_cb, async_err_cb) - self._key_dialog.connect("response", self._key_dialog_response_cb) - self._key_dialog.connect("destroy", self._key_dialog_destroy_cb) - self._key_dialog.show_all() - - def _key_dialog_destroy_cb(self, widget, foo=None): - if widget != self._key_dialog: - return - self._key_dialog_response_cb(widget, gtk.RESPONSE_CANCEL) - - def _key_dialog_response_cb(self, widget, response_id): - if widget != self._key_dialog: - return - key = self._key_dialog.get_key() - wep_auth_alg = self._key_dialog.get_auth_alg() - net = self._key_dialog.get_network() - (async_cb, async_err_cb) = self._key_dialog.get_callbacks() - - # Clear self._key_dialog before we call destroy(), otherwise - # the destroy will trigger and we'll get called again by - # self._key_dialog_destroy_cb - self._key_dialog = None - widget.destroy() - - if response_id == gtk.RESPONSE_OK: - self.nminfo.get_key_for_network_cb( - net, key, wep_auth_alg, async_cb, async_err_cb, canceled=False) - else: - self.nminfo.get_key_for_network_cb( - net, None, None, async_cb, async_err_cb, canceled=True) - - def cancel_get_key_for_network(self): - # Close the wireless key dialog and just have it return - # with the 'canceled' argument set to true - if not self._key_dialog: - return - self._key_dialog_destroy_cb(self._key_dialog) - - def device_activation_stage_sig_handler(self, device, stage): - logging.debug('Device Activation Stage "%s" for device %s' % (NM_DEVICE_STAGE_STRINGS[stage], device)) - - def state_change_sig_handler(self, state): - self._nm_state = state - self._schedule_icon_update(immediate=True) - - def device_activating_sig_handler(self, device): - self._active_device = device - - def device_now_active_sig_handler(self, device, ssid=None): - if not self._devices.has_key(device): - return - self._active_device = device - self._devices[device].set_active(True, ssid) - self._schedule_icon_update(immediate=True) - - def device_no_longer_active_sig_handler(self, device): - if not self._devices.has_key(device): - return - if self._active_device == device: - self._active_device = None - self._devices[device].set_active(False) - self._schedule_icon_update(immediate=True) - - def name_owner_changed_sig_handler(self, name, old, new): - if name != NM_SERVICE: - return - if (old and len(old)) and (not new and not len(new)): - # NM went away - self._nm_present = False - self._schedule_icon_update(immediate=True) - for op in self._devices.keys(): - del self._devices[op] - self._devices = {} - self._active_device = None - self._nm_state = NM_STATE_UNKNOWN - elif (not old and not len(old)) and (new and len(new)): - # NM started up - self._nm_present = True - self._get_nm_state() - self._get_initial_devices() - - def device_added_sig_handler(self, device): - self._add_device(device) - - def device_removed_sig_handler(self, device): - self._remove_device(device) - - def wireless_network_appeared_sig_handler(self, device, network): - if not self._devices.has_key(device): - return - self._devices[device].network_appeared(network) - - def wireless_network_disappeared_sig_handler(self, device, network): - if not self._devices.has_key(device): - return - self._devices[device].network_disappeared(network) - - def wireless_device_strength_changed_sig_handler(self, device, strength): - if not self._devices.has_key(device): - return - self._devices[device].set_strength(strength) - - def wireless_network_strength_changed_sig_handler(self, device, network, strength): - if not self._devices.has_key(device): - return - net = self._devices[device].get_network(network) - if net: - net.set_strength(strength) - - def device_carrier_on_sig_handler(self, device): - if not self._devices.has_key(device): - return - self._devices[device].set_carrier(True) - - def device_carrier_off_sig_handler(self, device): - if not self._devices.has_key(device): - return - self._devices[device].set_carrier(False) - - def run(self): - loop = gobject.MainLoop() - try: - loop.run() - except KeyboardInterrupt: - pass + def __init__(self): + self.nminfo = None + self._nm_present = False + self._nm_state = NM_STATE_UNKNOWN + self._update_timer = 0 + self._active_device = None + self._devices = {} + self._key_dialog = None + + self._icon_theme = gtk.icon_theme_get_default() + self._icons = {} + self._cur_icon = None + try: + self._icons = self._load_icons() + except RuntimeError: + logging.debug("Couldn't find required icon resources, will exit.") + os._exit(1) + self._setup_trayicon() + + self._menu = None + self._hover_menu = False + self._timeline = Timeline(self) + self._timeline.add_tag('popup', 6, 6) + self._timeline.add_tag('before_popdown', 7, 7) + self._timeline.add_tag('popdown', 8, 8) + + try: + self.nminfo = nminfo.NMInfo(self) + except RuntimeError: + pass + self._setup_dbus() + if self._nm_present: + self._get_nm_state() + self._get_initial_devices() + + def _get_one_icon_pixbuf(self, name): + info = self._icon_theme.lookup_icon(name, 75, 0) + if not info or not info.get_filename(): + raise RuntimeError + return gtk.gdk.pixbuf_new_from_file(info.get_filename()) + + def _load_icons(self): + icons = {} + icons[ICON_WIRED] = self._get_one_icon_pixbuf(ICON_WIRED) + icons[ICON_WIRELESS_00] = self._get_one_icon_pixbuf(ICON_WIRELESS_00) + icons[ICON_WIRELESS_01_20] = self._get_one_icon_pixbuf(ICON_WIRELESS_01_20) + icons[ICON_WIRELESS_21_40] = self._get_one_icon_pixbuf(ICON_WIRELESS_21_40) + icons[ICON_WIRELESS_41_60] = self._get_one_icon_pixbuf(ICON_WIRELESS_41_60) + icons[ICON_WIRELESS_61_80] = self._get_one_icon_pixbuf(ICON_WIRELESS_61_80) + icons[ICON_WIRELESS_81_100] = self._get_one_icon_pixbuf(ICON_WIRELESS_81_100) + return icons + + def _get_nm_state(self): + # Grab NM's state + self._nm_obj.state(reply_handler=self._get_state_reply_cb, \ + error_handler=self._get_state_error_cb) + + def _get_state_reply_cb(self, state): + if self._nm_state != state: + self._schedule_icon_update(immediate=True) + self._nm_state = state + + def _get_state_error_cb(self, err): + logging.debug("Failed to get NetworkManager state! %s" % err) + + def _get_icon(self): + act_dev = None + if self._active_device and self._devices.has_key(self._active_device): + act_dev = self._devices[self._active_device] + + pixbuf = None + if not self._nm_present \ + or not act_dev \ + or self._nm_state == NM_STATE_UNKNOWN \ + or self._nm_state == NM_STATE_ASLEEP \ + or self._nm_state == NM_STATE_DISCONNECTED: + pixbuf = self._icons[ICON_WIRELESS_00] + elif act_dev.get_type() == DEVICE_TYPE_802_3_ETHERNET: + pixbuf = self._icons[ICON_WIRED] + elif act_dev.get_type() == DEVICE_TYPE_802_11_WIRELESS: + strength = act_dev.get_strength() + if strength <= 0: + pixbuf = self._icons[ICON_WIRELESS_00] + elif strength >= 1 and strength <= 20: + pixbuf = self._icons[ICON_WIRELESS_01_20] + elif strength >= 21 and strength <= 40: + pixbuf = self._icons[ICON_WIRELESS_21_40] + elif strength >= 41 and strength <= 60: + pixbuf = self._icons[ICON_WIRELESS_41_60] + elif strength >= 61 and strength <= 80: + pixbuf = self._icons[ICON_WIRELESS_61_80] + elif strength >= 81 and strength: + pixbuf = self._icons[ICON_WIRELESS_81_100] + + if not pixbuf: + pixbuf = self._icons[ICON_WIRELESS_00] + return pixbuf + + def _setup_trayicon(self): + pixbuf = self._get_icon() + self._trayicon = gtk.status_icon_new_from_pixbuf(pixbuf) + self._trayicon.connect("popup_menu", self._status_icon_clicked) + self._trayicon.connect("activate", self._status_icon_clicked) + self._schedule_icon_update() + + def _status_icon_clicked(self, button=0, time=None): + self._timeline.play(None, 'popup') + + def _get_menu_position(self, menu, item): + (screen, rect, orientation) = item.get_geometry() + [item_x, item_y, item_w, item_h] = rect + [menu_w, menu_h] = menu.size_request() + + x = item_x + item_w - menu_w + y = item_y + item_h + + x = min(x, screen.get_width() - menu_w) + x = max(0, x) + + y = min(y, screen.get_height() - menu_h) + y = max(0, y) + + return (x, y) + + def do_popup(self, current, n_frames): + if self._menu: + return + + self._menu = self._create_menu() + self._menu.connect('enter-notify-event', + self._menu_enter_notify_event_cb) + self._menu.connect('leave-notify-event', + self._menu_leave_notify_event_cb) + (x, y) = self._get_menu_position(self._menu, self._trayicon) + self._menu.move(x, y) + self._menu.show_all() + + def do_popdown(self, current, frame): + if self._menu: + self._menu.destroy() + self._menu = None + + def _popdown(self): + self._timeline.play('popdown', 'popdown') + + def _menu_enter_notify_event_cb(self, widget, event): + self._hover_menu = True + self._timeline.play('popup', 'popup') + + def _menu_leave_notify_event_cb(self, widget, event): + self._hover_menu = False + self._popdown() + + def _create_menu(self): + menu = NetworkMenu() + + # Active device goes above the separator + act_dev = None + if self._active_device and self._devices.has_key(self._active_device): + act_dev = self._devices[self._active_device] + + if act_dev: + act_dev.add_to_menu(menu, self._menu_item_clicked_cb, active_only=True) + menu.add_separator() + + # Wired devices first, if they don't support carrier detect + for dev in self._devices.values(): + if not dev.is_valid(): + continue + if dev.get_type() != DEVICE_TYPE_802_3_ETHERNET: + continue + if dev.get_capabilities() & NM_DEVICE_CAP_CARRIER_DETECT: + continue + if dev == act_dev: + continue + dev.add_to_menu(menu, self._menu_item_clicked_cb) + + # Wireless devices second + for dev in self._devices.values(): + if not dev.is_valid(): + continue + if dev.get_type() != DEVICE_TYPE_802_11_WIRELESS: + continue + dev.add_to_menu(menu, self._menu_item_clicked_cb) + + return menu + + def _update_icon(self): + pixbuf = self._get_icon() + if self._cur_icon != pixbuf: + self._trayicon.set_from_pixbuf(pixbuf) + self._cur_icon = pixbuf + + blink = False + if self._nm_state == NM_STATE_CONNECTING: + blink = True + self._trayicon.set_blinking(blink) + + self._update_timer = 0 + return False + + def _schedule_icon_update(self, immediate=False): + if immediate and self._update_timer: + gobject.source_remove(self._update_timer) + self._update_timer = 0 + + if self._update_timer != 0: + # There is already an update scheduled + return + + if immediate: + self._update_timer = gobject.idle_add(self._update_icon) + else: + self._update_timer = gobject.timeout_add(2000, self._update_icon) + + def _get_initial_devices_reply_cb(self, ops): + for op in ops: + self._add_device(op) + + def _dev_init_failed_cb(self, dev): + # Device failed to initialize, likely due to dbus errors or something + op = dev.get_op() + self._remove_device(op) + + def _get_initial_devices_error_cb(self, err): + logging.debug("Error updating devices (%s)" % err) + + def _get_initial_devices(self): + self._nm_obj.getDevices(reply_handler=self._get_initial_devices_reply_cb, \ + error_handler=self._get_initial_devices_error_cb) + + def _add_device(self, dev_op): + if self._devices.has_key(dev_op): + return + dev = Device(dev_op) + self._devices[dev_op] = dev + dev.connect('init-failed', self._dev_init_failed_cb) + dev.connect('activated', self._dev_activated_cb) + dev.connect('strength-changed', self._dev_strength_changed_cb) + + def _remove_device(self, dev_op): + if not self._devices.has_key(dev_op): + return + if self._active_device == dev_op: + self._active_device = None + dev = self._devices[dev_op] + dev.disconnect('activated') + dev.disconnect('init-failed') + dev.disconnect('strength-changed') + del self._devices[dev_op] + self._schedule_icon_update(immediate=True) + + def _dev_activated_cb(self, dev): + op = dev.get_op() + if not self._devices.has_key(op): + return + if not dev.get_active(): + return + self._active_device = op + self._schedule_icon_update(immediate=True) + + def _dev_strength_changed_cb(self, dev, strength): + op = dev.get_op() + if not self._devices.has_key(op): + return + if not dev.get_active(): + return + self._schedule_icon_update() + + def get_device(self, dev_op): + if not self._devices.has_key(dev_op): + return None + return self._devices[dev_op] + + def _setup_dbus(self): + self._sig_handlers = { + 'StateChange': self.state_change_sig_handler, + 'DeviceAdded': self.device_added_sig_handler, + 'DeviceRemoved': self.device_removed_sig_handler, + 'DeviceActivationStage': self.device_activation_stage_sig_handler, + 'DeviceActivating': self.device_activating_sig_handler, + 'DeviceNowActive': self.device_now_active_sig_handler, + 'DeviceNoLongerActive': self.device_no_longer_active_sig_handler, + 'DeviceCarrierOn': self.device_carrier_on_sig_handler, + 'DeviceCarrierOff': self.device_carrier_off_sig_handler, + 'DeviceStrengthChanged': self.wireless_device_strength_changed_sig_handler, + 'WirelessNetworkAppeared': self.wireless_network_appeared_sig_handler, + 'WirelessNetworkDisappeared': self.wireless_network_disappeared_sig_handler, + 'WirelessNetworkStrengthChanged': self.wireless_network_strength_changed_sig_handler + } + + self._nm_proxy = sys_bus.get_object(NM_SERVICE, NM_PATH) + self._nm_obj = dbus.Interface(self._nm_proxy, NM_IFACE) + + sys_bus.add_signal_receiver(self.name_owner_changed_sig_handler, + signal_name="NameOwnerChanged", + dbus_interface="org.freedesktop.DBus") + + sys_bus.add_signal_receiver(self.catchall_signal_handler, + dbus_interface=NM_IFACE) + + sys_bus.add_signal_receiver(self.catchall_signal_handler, + dbus_interface=NM_IFACE + 'Devices') + + for (signal, handler) in self._sig_handlers.items(): + sys_bus.add_signal_receiver(handler, signal_name=signal, dbus_interface=NM_IFACE) + + # Find out whether or not NM is running + try: + bus_object = sys_bus.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') + name = bus_object.GetNameOwner("org.freedesktop.NetworkManagerInfo", \ + dbus_interface='org.freedesktop.DBus') + if name: + self._nm_present = True + except dbus.DBusException: + pass + + @dbus.decorators.explicitly_pass_message + def catchall_signal_handler(self, *args, **keywords): + dbus_message = keywords['dbus_message'] + mem = dbus_message.get_member() + iface = dbus_message.get_interface() + + if iface == NM_IFACE and mem in self._sig_handlers.keys(): + return + + logging.debug('Caught signal %s.%s' % (dbus_message.get_interface(), mem)) + for arg in args: + logging.debug(' ' + str(arg)) + + def _menu_item_clicked_cb(self, widget, event, dev_data): + (device, network) = dev_data + net_op = "" + if network: + net_op = network.get_op() + try: + # NM 0.6.4 and earlier have a bug which returns an + # InvalidArguments error if no security information is passed + # for wireless networks + self._nm_obj.setActiveDevice(device.get_op(), network.get_ssid()) + except dbus.DBusException, e: + if str(e).find("invalid arguments"): + pass + else: + raise dbus.DBusException(e) + + self._popdown() + + def get_key_for_network(self, net, async_cb, async_err_cb): + # Throw up a dialog asking for the key here, and set + # the authentication algorithm to the given one, if any + # + # Key needs to be limited to _either_ 10 or 26 digits long, + # and contain _only_ _hex_ digits, 0-9 or a-f + # + # Auth algorithm should be a dropdown of: [Open System, Shared Key], + # mapping to the values [IW_AUTH_ALG_OPEN_SYSTEM, IW_AUTH_ALG_SHARED_KEY] + # above + + self._key_dialog = WEPKeyDialog(net, async_cb, async_err_cb) + self._key_dialog.connect("response", self._key_dialog_response_cb) + self._key_dialog.connect("destroy", self._key_dialog_destroy_cb) + self._key_dialog.show_all() + + def _key_dialog_destroy_cb(self, widget, foo=None): + if widget != self._key_dialog: + return + self._key_dialog_response_cb(widget, gtk.RESPONSE_CANCEL) + + def _key_dialog_response_cb(self, widget, response_id): + if widget != self._key_dialog: + return + key = self._key_dialog.get_key() + wep_auth_alg = self._key_dialog.get_auth_alg() + net = self._key_dialog.get_network() + (async_cb, async_err_cb) = self._key_dialog.get_callbacks() + + # Clear self._key_dialog before we call destroy(), otherwise + # the destroy will trigger and we'll get called again by + # self._key_dialog_destroy_cb + self._key_dialog = None + widget.destroy() + + if response_id == gtk.RESPONSE_OK: + self.nminfo.get_key_for_network_cb( + net, key, wep_auth_alg, async_cb, async_err_cb, canceled=False) + else: + self.nminfo.get_key_for_network_cb( + net, None, None, async_cb, async_err_cb, canceled=True) + + def cancel_get_key_for_network(self): + # Close the wireless key dialog and just have it return + # with the 'canceled' argument set to true + if not self._key_dialog: + return + self._key_dialog_destroy_cb(self._key_dialog) + + def device_activation_stage_sig_handler(self, device, stage): + logging.debug('Device Activation Stage "%s" for device %s' % (NM_DEVICE_STAGE_STRINGS[stage], device)) + + def state_change_sig_handler(self, state): + self._nm_state = state + self._schedule_icon_update(immediate=True) + + def device_activating_sig_handler(self, device): + self._active_device = device + + def device_now_active_sig_handler(self, device, ssid=None): + if not self._devices.has_key(device): + return + self._active_device = device + self._devices[device].set_active(True, ssid) + self._schedule_icon_update(immediate=True) + + def device_no_longer_active_sig_handler(self, device): + if not self._devices.has_key(device): + return + if self._active_device == device: + self._active_device = None + self._devices[device].set_active(False) + self._schedule_icon_update(immediate=True) + + def name_owner_changed_sig_handler(self, name, old, new): + if name != NM_SERVICE: + return + if (old and len(old)) and (not new and not len(new)): + # NM went away + self._nm_present = False + self._schedule_icon_update(immediate=True) + for op in self._devices.keys(): + del self._devices[op] + self._devices = {} + self._active_device = None + self._nm_state = NM_STATE_UNKNOWN + elif (not old and not len(old)) and (new and len(new)): + # NM started up + self._nm_present = True + self._get_nm_state() + self._get_initial_devices() + + def device_added_sig_handler(self, device): + self._add_device(device) + + def device_removed_sig_handler(self, device): + self._remove_device(device) + + def wireless_network_appeared_sig_handler(self, device, network): + if not self._devices.has_key(device): + return + self._devices[device].network_appeared(network) + + def wireless_network_disappeared_sig_handler(self, device, network): + if not self._devices.has_key(device): + return + self._devices[device].network_disappeared(network) + + def wireless_device_strength_changed_sig_handler(self, device, strength): + if not self._devices.has_key(device): + return + self._devices[device].set_strength(strength) + + def wireless_network_strength_changed_sig_handler(self, device, network, strength): + if not self._devices.has_key(device): + return + net = self._devices[device].get_network(network) + if net: + net.set_strength(strength) + + def device_carrier_on_sig_handler(self, device): + if not self._devices.has_key(device): + return + self._devices[device].set_carrier(True) + + def device_carrier_off_sig_handler(self, device): + if not self._devices.has_key(device): + return + self._devices[device].set_carrier(False) + + def run(self): + loop = gobject.MainLoop() + try: + loop.run() + except KeyboardInterrupt: + pass diff --git a/services/nm/nminfo.py b/services/nm/nminfo.py index a86ec1a..f512a8b 100644 --- a/services/nm/nminfo.py +++ b/services/nm/nminfo.py @@ -26,65 +26,65 @@ import logging import nmclient try: - from sugar import env + from sugar import env except ImportError: - pass + pass NM_INFO_IFACE='org.freedesktop.NetworkManagerInfo' NM_INFO_PATH='/org/freedesktop/NetworkManagerInfo' class NoNetworks(dbus.DBusException): - def __init__(self): - dbus.DBusException.__init__(self) - self._dbus_error_name = NM_INFO_IFACE + '.NoNetworks' + def __init__(self): + dbus.DBusException.__init__(self) + self._dbus_error_name = NM_INFO_IFACE + '.NoNetworks' class CanceledKeyRequestError(dbus.DBusException): - def __init__(self): - dbus.DBusException.__init__(self) - self._dbus_error_name = NM_INFO_IFACE + '.CanceledError' + def __init__(self): + dbus.DBusException.__init__(self) + self._dbus_error_name = NM_INFO_IFACE + '.CanceledError' class NetworkInvalidError(Exception): - pass + pass class NMConfig(ConfigParser.ConfigParser): - def get_bool(self, section, name): - opt = self.get(section, name) - if type(opt) == type(""): - if opt.lower() == 'yes' or opt.lower() == 'true': - return True - elif opt.lower() == 'no' or opt.lower() == 'false': - return False - raise ValueError("Invalid format for %s/%s. Should be one of [yes, no, true, false]." % (section, name)) - - def get_list(self, section, name): - opt = self.get(section, name) - if type(opt) == type(""): - if not len(opt): - return [] - try: - return opt.split() - except Exception: - pass - raise ValueError("Invalid format for %s/%s. Should be a space-separate list." % (section, name)) - - def get_int(self, section, name): - opt = self.get(section, name) - try: - return int(opt) - except Exception: - pass - raise ValueError("Invalid format for %s/%s. Should be a valid integer." % (section, name)) - - def get_float(self, section, name): - opt = self.get(section, name) - try: - return float(opt) - except Exception: - pass - raise ValueError("Invalid format for %s/%s. Should be a valid float." % (section, name)) + def get_bool(self, section, name): + opt = self.get(section, name) + if type(opt) == type(""): + if opt.lower() == 'yes' or opt.lower() == 'true': + return True + elif opt.lower() == 'no' or opt.lower() == 'false': + return False + raise ValueError("Invalid format for %s/%s. Should be one of [yes, no, true, false]." % (section, name)) + + def get_list(self, section, name): + opt = self.get(section, name) + if type(opt) == type(""): + if not len(opt): + return [] + try: + return opt.split() + except Exception: + pass + raise ValueError("Invalid format for %s/%s. Should be a space-separate list." % (section, name)) + + def get_int(self, section, name): + opt = self.get(section, name) + try: + return int(opt) + except Exception: + pass + raise ValueError("Invalid format for %s/%s. Should be a valid integer." % (section, name)) + + def get_float(self, section, name): + opt = self.get(section, name) + try: + return float(opt) + except Exception: + pass + raise ValueError("Invalid format for %s/%s. Should be a valid float." % (section, name)) IW_AUTH_CIPHER_NONE = 0x00000001 @@ -102,366 +102,366 @@ NETWORK_TYPE_INVALID = 2 class Security(object): - def __init__(self, we_cipher): - self._we_cipher = we_cipher - - def read_from_config(self, cfg, name): - pass - - def read_from_args(self, args): - pass - - def new_from_config(cfg, name): - security = None - try: - we_cipher = cfg.get_int(name, "we_cipher") - if we_cipher == IW_AUTH_CIPHER_NONE: - security = Security(we_cipher) - elif we_cipher == IW_AUTH_CIPHER_WEP40 or we_cipher == IW_AUTH_CIPHER_WEP104: - security = WEPSecurity(we_cipher) - else: - # FIXME: find a way to make WPA config option matrix not - # make you want to throw up - raise ValueError("Unsupported security combo") - security.read_from_config(cfg, name) - except (ConfigParser.NoOptionError, ValueError), e: - return None - return security - new_from_config = staticmethod(new_from_config) - - def new_from_args(we_cipher, args): - security = None - try: - if we_cipher == IW_AUTH_CIPHER_NONE: - security = Security(we_cipher) - elif we_cipher == IW_AUTH_CIPHER_WEP40 or we_cipher == IW_AUTH_CIPHER_WEP104: - security = WEPSecurity(we_cipher) - else: - # FIXME: find a way to make WPA config option matrix not - # make you want to throw up - raise ValueError("Unsupported security combo") - security.read_from_args(args) - except ValueError, e: - logging.debug("Error reading security information: %s" % e) - del security - return None - return security - new_from_args = staticmethod(new_from_args) - - def get_properties(self): - return [dbus.Int32(self._we_cipher)] - - def write_to_config(self, section, config): - config.set(section, "we_cipher", self._we_cipher) + def __init__(self, we_cipher): + self._we_cipher = we_cipher + + def read_from_config(self, cfg, name): + pass + + def read_from_args(self, args): + pass + + def new_from_config(cfg, name): + security = None + try: + we_cipher = cfg.get_int(name, "we_cipher") + if we_cipher == IW_AUTH_CIPHER_NONE: + security = Security(we_cipher) + elif we_cipher == IW_AUTH_CIPHER_WEP40 or we_cipher == IW_AUTH_CIPHER_WEP104: + security = WEPSecurity(we_cipher) + else: + # FIXME: find a way to make WPA config option matrix not + # make you want to throw up + raise ValueError("Unsupported security combo") + security.read_from_config(cfg, name) + except (ConfigParser.NoOptionError, ValueError), e: + return None + return security + new_from_config = staticmethod(new_from_config) + + def new_from_args(we_cipher, args): + security = None + try: + if we_cipher == IW_AUTH_CIPHER_NONE: + security = Security(we_cipher) + elif we_cipher == IW_AUTH_CIPHER_WEP40 or we_cipher == IW_AUTH_CIPHER_WEP104: + security = WEPSecurity(we_cipher) + else: + # FIXME: find a way to make WPA config option matrix not + # make you want to throw up + raise ValueError("Unsupported security combo") + security.read_from_args(args) + except ValueError, e: + logging.debug("Error reading security information: %s" % e) + del security + return None + return security + new_from_args = staticmethod(new_from_args) + + def get_properties(self): + return [dbus.Int32(self._we_cipher)] + + def write_to_config(self, section, config): + config.set(section, "we_cipher", self._we_cipher) class WEPSecurity(Security): - def read_from_args(self, args): - if len(args) != 2: - raise ValueError("not enough arguments") - key = args[0] - auth_alg = args[1] - if isinstance(key, unicode): - key = key.encode() - if not isinstance(key, str): - raise ValueError("wrong argument type for key") - if not isinstance(auth_alg, int): - raise ValueError("wrong argument type for auth_alg") - self._key = key - self._auth_alg = auth_alg - - def read_from_config(self, cfg, name): - # Key should be a hex encoded string - self._key = cfg.get(name, "key") - if self._we_cipher == IW_AUTH_CIPHER_WEP40 and len(self._key) != 10: - raise ValueError("Key length not right for 40-bit WEP") - if self._we_cipher == IW_AUTH_CIPHER_WEP104 and len(self._key) != 26: - raise ValueError("Key length not right for 104-bit WEP") - - try: - a = binascii.a2b_hex(self._key) - except TypeError: - raise ValueError("Key was not a hexadecimal string.") - - self._auth_alg = cfg.get_int(name, "auth_alg") - if self._auth_alg != IW_AUTH_ALG_OPEN_SYSTEM and self._auth_alg != IW_AUTH_ALG_SHARED_KEY: - raise ValueError("Invalid authentication algorithm %d" % self._auth_alg) - - def get_properties(self): - args = Security.get_properties(self) - args.append(dbus.String(self._key)) - args.append(dbus.Int32(self._auth_alg)) - return args - - def write_to_config(self, section, config): - Security.write_to_config(self, section, config) - config.set(section, "key", self._key) - config.set(section, "auth_alg", self._auth_alg) + def read_from_args(self, args): + if len(args) != 2: + raise ValueError("not enough arguments") + key = args[0] + auth_alg = args[1] + if isinstance(key, unicode): + key = key.encode() + if not isinstance(key, str): + raise ValueError("wrong argument type for key") + if not isinstance(auth_alg, int): + raise ValueError("wrong argument type for auth_alg") + self._key = key + self._auth_alg = auth_alg + + def read_from_config(self, cfg, name): + # Key should be a hex encoded string + self._key = cfg.get(name, "key") + if self._we_cipher == IW_AUTH_CIPHER_WEP40 and len(self._key) != 10: + raise ValueError("Key length not right for 40-bit WEP") + if self._we_cipher == IW_AUTH_CIPHER_WEP104 and len(self._key) != 26: + raise ValueError("Key length not right for 104-bit WEP") + + try: + a = binascii.a2b_hex(self._key) + except TypeError: + raise ValueError("Key was not a hexadecimal string.") + + self._auth_alg = cfg.get_int(name, "auth_alg") + if self._auth_alg != IW_AUTH_ALG_OPEN_SYSTEM and self._auth_alg != IW_AUTH_ALG_SHARED_KEY: + raise ValueError("Invalid authentication algorithm %d" % self._auth_alg) + + def get_properties(self): + args = Security.get_properties(self) + args.append(dbus.String(self._key)) + args.append(dbus.Int32(self._auth_alg)) + return args + + def write_to_config(self, section, config): + Security.write_to_config(self, section, config) + config.set(section, "key", self._key) + config.set(section, "auth_alg", self._auth_alg) class Network: - def __init__(self, ssid): - self.ssid = ssid - self.timestamp = int(time.time()) - self.bssids = [] - self.we_cipher = 0 - self._security = None - - def get_properties(self): - bssid_list = dbus.Array([], signature="s") - for item in self.bssids: - bssid_list.append(dbus.String(item)) - args = [dbus.String(self.ssid), dbus.Int32(self.timestamp), dbus.Boolean(True), bssid_list] - args += self._security.get_properties() - return tuple(args) - - def get_security(self): - return self._security.get_properties() - - def set_security(self, security): - self._security = security - - def read_from_args(self, auto, bssid, we_cipher, args): - if auto == False: - self.timestamp = int(time.time()) - if not bssid in self.bssids: - self.bssids.append(bssid) - - self._security = Security.new_from_args(we_cipher, args) - if not self._security: - raise NetworkInvalidError("Invalid security information") - - def read_from_config(self, config): - try: - self.timestamp = config.get_int(self.ssid, "timestamp") - except (ConfigParser.NoOptionError, ValueError), e: - raise NetworkInvalidError(e) - - self._security = Security.new_from_config(config, self.ssid) - if not self._security: - raise NetworkInvalidError(e) - - # The following don't need to be present - try: - self.bssids = config.get_list(self.ssid, "bssids") - except (ConfigParser.NoOptionError, ValueError), e: - pass - - def write_to_config(self, config): - try: - config.add_section(self.ssid) - config.set(self.ssid, "timestamp", self.timestamp) - if len(self.bssids) > 0: - opt = " " - opt.join(self.bssids) - config.set(self.ssid, "bssids", opt) - self._security.write_to_config(self.ssid, config) - except Exception, e: - logging.debug("Error writing '%s': %s" % (self.ssid, e)) + def __init__(self, ssid): + self.ssid = ssid + self.timestamp = int(time.time()) + self.bssids = [] + self.we_cipher = 0 + self._security = None + + def get_properties(self): + bssid_list = dbus.Array([], signature="s") + for item in self.bssids: + bssid_list.append(dbus.String(item)) + args = [dbus.String(self.ssid), dbus.Int32(self.timestamp), dbus.Boolean(True), bssid_list] + args += self._security.get_properties() + return tuple(args) + + def get_security(self): + return self._security.get_properties() + + def set_security(self, security): + self._security = security + + def read_from_args(self, auto, bssid, we_cipher, args): + if auto == False: + self.timestamp = int(time.time()) + if not bssid in self.bssids: + self.bssids.append(bssid) + + self._security = Security.new_from_args(we_cipher, args) + if not self._security: + raise NetworkInvalidError("Invalid security information") + + def read_from_config(self, config): + try: + self.timestamp = config.get_int(self.ssid, "timestamp") + except (ConfigParser.NoOptionError, ValueError), e: + raise NetworkInvalidError(e) + + self._security = Security.new_from_config(config, self.ssid) + if not self._security: + raise NetworkInvalidError(e) + + # The following don't need to be present + try: + self.bssids = config.get_list(self.ssid, "bssids") + except (ConfigParser.NoOptionError, ValueError), e: + pass + + def write_to_config(self, config): + try: + config.add_section(self.ssid) + config.set(self.ssid, "timestamp", self.timestamp) + if len(self.bssids) > 0: + opt = " " + opt.join(self.bssids) + config.set(self.ssid, "bssids", opt) + self._security.write_to_config(self.ssid, config) + except Exception, e: + logging.debug("Error writing '%s': %s" % (self.ssid, e)) class NotFoundError(dbus.DBusException): - pass + pass class UnsupportedError(dbus.DBusException): - pass + pass class NMInfoDBusServiceHelper(dbus.service.Object): - def __init__(self, parent): - self._parent = parent - bus = dbus.SystemBus() - - # If NMI is already around, don't grab the NMI service - bus_object = bus.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') - name = None - try: - name = bus_object.GetNameOwner("org.freedesktop.NetworkManagerInfo", \ - dbus_interface='org.freedesktop.DBus') - except dbus.DBusException: - pass - if name: - logging.debug("NMI service already owned by %s, won't claim it." % name) - raise RuntimeError - - bus_name = dbus.service.BusName(NM_INFO_IFACE, bus=bus) - dbus.service.Object.__init__(self, bus_name, NM_INFO_PATH) - - @dbus.service.method(NM_INFO_IFACE, in_signature='i', out_signature='as') - def getNetworks(self, net_type): - ssids = self._parent.get_networks(net_type) - if len(ssids) > 0: - return dbus.Array(ssids) - - raise NoNetworks() - - @dbus.service.method(NM_INFO_IFACE, in_signature='si', async_callbacks=('async_cb', 'async_err_cb')) - def getNetworkProperties(self, ssid, net_type, async_cb, async_err_cb): - self._parent.get_network_properties(ssid, net_type, async_cb, async_err_cb) - - @dbus.service.method(NM_INFO_IFACE) - def updateNetworkInfo(self, ssid, bauto, bssid, cipher, *args): - self._parent.update_network_info(ssid, bauto, bssid, cipher, args) - - @dbus.service.method(NM_INFO_IFACE, async_callbacks=('async_cb', 'async_err_cb')) - def getKeyForNetwork(self, dev_path, net_path, ssid, attempt, new_key, async_cb, async_err_cb): - self._parent.get_key_for_network(dev_path, net_path, ssid, - attempt, new_key, async_cb, async_err_cb) - - @dbus.service.method(NM_INFO_IFACE) - def cancelGetKeyForNetwork(self): - self._parent.cancel_get_key_for_network() + def __init__(self, parent): + self._parent = parent + bus = dbus.SystemBus() + + # If NMI is already around, don't grab the NMI service + bus_object = bus.get_object('org.freedesktop.DBus', '/org/freedesktop/DBus') + name = None + try: + name = bus_object.GetNameOwner("org.freedesktop.NetworkManagerInfo", \ + dbus_interface='org.freedesktop.DBus') + except dbus.DBusException: + pass + if name: + logging.debug("NMI service already owned by %s, won't claim it." % name) + raise RuntimeError + + bus_name = dbus.service.BusName(NM_INFO_IFACE, bus=bus) + dbus.service.Object.__init__(self, bus_name, NM_INFO_PATH) + + @dbus.service.method(NM_INFO_IFACE, in_signature='i', out_signature='as') + def getNetworks(self, net_type): + ssids = self._parent.get_networks(net_type) + if len(ssids) > 0: + return dbus.Array(ssids) + + raise NoNetworks() + + @dbus.service.method(NM_INFO_IFACE, in_signature='si', async_callbacks=('async_cb', 'async_err_cb')) + def getNetworkProperties(self, ssid, net_type, async_cb, async_err_cb): + self._parent.get_network_properties(ssid, net_type, async_cb, async_err_cb) + + @dbus.service.method(NM_INFO_IFACE) + def updateNetworkInfo(self, ssid, bauto, bssid, cipher, *args): + self._parent.update_network_info(ssid, bauto, bssid, cipher, args) + + @dbus.service.method(NM_INFO_IFACE, async_callbacks=('async_cb', 'async_err_cb')) + def getKeyForNetwork(self, dev_path, net_path, ssid, attempt, new_key, async_cb, async_err_cb): + self._parent.get_key_for_network(dev_path, net_path, ssid, + attempt, new_key, async_cb, async_err_cb) + + @dbus.service.method(NM_INFO_IFACE) + def cancelGetKeyForNetwork(self): + self._parent.cancel_get_key_for_network() class NMInfo(object): - def __init__(self, client): - try: - profile_path = env.get_profile_path() - except NameError: - home = os.path.expanduser("~") - profile_path = os.path.join(home, ".sugar", "default") - self._cfg_file = os.path.join(profile_path, "nm", "networks.cfg") - self._nmclient = client - self._allowed_networks = self._read_config() - self._dbus_helper = NMInfoDBusServiceHelper(self) - - def save_config(self): - self._write_config(self._allowed_networks) - - def _read_config(self): - if not os.path.exists(os.path.dirname(self._cfg_file)): - os.makedirs(os.path.dirname(self._cfg_file), 0755) - if not os.path.exists(self._cfg_file): - self._write_config({}) - return {} - - config = NMConfig() - config.read(self._cfg_file) - networks = {} - for name in config.sections(): - if not isinstance(name, unicode): - name = unicode(name) - net = Network(name) - try: - net.read_from_config(config) - networks[name] = net - except NetworkInvalidError, e: - logging.debug("Error: invalid stored network config: %s" % e) - del net - del config - return networks - - def _write_config(self, networks): - fp = open(self._cfg_file, 'w') - config = NMConfig() - for net in networks.values(): - net.write_to_config(config) - config.write(fp) - fp.close() - del config - - def get_networks(self, net_type): - if net_type != NETWORK_TYPE_ALLOWED: - raise ValueError("Bad network type") - nets = [] - for net in self._allowed_networks.values(): - nets.append(net.ssid) - logging.debug("Returning networks: %s" % nets) - return nets - - def get_network_properties(self, ssid, net_type, async_cb, async_err_cb): - if not isinstance(ssid, unicode): - async_err_cb(ValueError("Invalid arguments; ssid must be unicode.")) - if net_type != NETWORK_TYPE_ALLOWED: - async_err_cb(ValueError("Bad network type")) - if not self._allowed_networks.has_key(ssid): - async_err_cb(NotFoundError("Network '%s' not found." % ssid)) - network = self._allowed_networks[ssid] - props = network.get_properties() - - # DBus workaround: the normal method return handler wraps - # the returned arguments in a tuple and then converts that to a - # struct, but NetworkManager expects a plain list of arguments. - # It turns out that the async callback method return code _doesn't_ - # wrap the returned arguments in a tuple, so as a workaround use - # the async callback stuff here even though we're not doing it - # asynchronously. - async_cb(*props) - - def update_network_info(self, ssid, auto, bssid, we_cipher, args): - if not isinstance(ssid, unicode): - raise ValueError("Invalid arguments; ssid must be unicode.") - if self._allowed_networks.has_key(ssid): - del self._allowed_networks[ssid] - net = Network(ssid) - try: - net.read_from_args(auto, bssid, we_cipher, args) - logging.debug("Updated network information for '%s'." % ssid) - self._allowed_networks[ssid] = net - self.save_config() - except NetworkInvalidError, e: - logging.debug("Error updating network information: %s" % e) - del net - - def get_key_for_network(self, dev_op, net_op, ssid, attempt, new_key, async_cb, async_err_cb): - if not isinstance(ssid, unicode): - raise ValueError("Invalid arguments; ssid must be unicode.") - if self._allowed_networks.has_key(ssid) and not new_key: - # We've got the info already - net = self._allowed_networks[ssid] - async_cb(tuple(net.get_security())) - return - - # Otherwise, ask the user for it - net = None - dev = self._nmclient.get_device(dev_op) - if not dev: - async_err_cb(NotFoundError("Device was unknown.")) - return - - if dev.get_type() == nmclient.DEVICE_TYPE_802_3_ETHERNET: - # We don't support wired 802.1x yet... - async_err_cb(UnsupportedError("Device type is unsupported by NMI.")) - return - - net = dev.get_network(net_op) - if not net: - async_err_cb(NotFoundError("Network was unknown.")) - return - - self._nmclient.get_key_for_network(net, async_cb, async_err_cb) - - def get_key_for_network_cb(self, net, key, auth_alg, async_cb, async_err_cb, canceled=False): - """ - Called by the NMClient when the Wireless Network Key dialog - is closed. - """ - if canceled: - e = CanceledKeyRequestError("Request was canceled.") - # key dialog dialog was canceled; send the error back to NM - async_err_cb(e) - return - - if not key or not auth_alg: - # no key returned, *** BUG ***; the key dialog - # should always return either a key + auth_alg, or a - #cancel error - raise RuntimeError("No key or auth alg given! Bug!") - - we_cipher = None - if len(key) == 26: - we_cipher = IW_AUTH_CIPHER_WEP104 - elif len(key) == 10: - we_cipher = IW_AUTH_CIPHER_WEP40 - else: - raise RuntimeError("Invalid key length!") - - # Stuff the returned key and auth algorithm into a security object - # and return it to NetworkManager - sec = Security.new_from_args(we_cipher, (key, auth_alg)) - if not sec: - raise RuntimeError("Invalid security arguments.") - props = sec.get_properties() - a = tuple(props) - async_cb(*a) - - def cancel_get_key_for_network(self): - # Tell the NMClient to close the key request dialog - self._nmclient.cancel_get_key_for_network() + def __init__(self, client): + try: + profile_path = env.get_profile_path() + except NameError: + home = os.path.expanduser("~") + profile_path = os.path.join(home, ".sugar", "default") + self._cfg_file = os.path.join(profile_path, "nm", "networks.cfg") + self._nmclient = client + self._allowed_networks = self._read_config() + self._dbus_helper = NMInfoDBusServiceHelper(self) + + def save_config(self): + self._write_config(self._allowed_networks) + + def _read_config(self): + if not os.path.exists(os.path.dirname(self._cfg_file)): + os.makedirs(os.path.dirname(self._cfg_file), 0755) + if not os.path.exists(self._cfg_file): + self._write_config({}) + return {} + + config = NMConfig() + config.read(self._cfg_file) + networks = {} + for name in config.sections(): + if not isinstance(name, unicode): + name = unicode(name) + net = Network(name) + try: + net.read_from_config(config) + networks[name] = net + except NetworkInvalidError, e: + logging.debug("Error: invalid stored network config: %s" % e) + del net + del config + return networks + + def _write_config(self, networks): + fp = open(self._cfg_file, 'w') + config = NMConfig() + for net in networks.values(): + net.write_to_config(config) + config.write(fp) + fp.close() + del config + + def get_networks(self, net_type): + if net_type != NETWORK_TYPE_ALLOWED: + raise ValueError("Bad network type") + nets = [] + for net in self._allowed_networks.values(): + nets.append(net.ssid) + logging.debug("Returning networks: %s" % nets) + return nets + + def get_network_properties(self, ssid, net_type, async_cb, async_err_cb): + if not isinstance(ssid, unicode): + async_err_cb(ValueError("Invalid arguments; ssid must be unicode.")) + if net_type != NETWORK_TYPE_ALLOWED: + async_err_cb(ValueError("Bad network type")) + if not self._allowed_networks.has_key(ssid): + async_err_cb(NotFoundError("Network '%s' not found." % ssid)) + network = self._allowed_networks[ssid] + props = network.get_properties() + + # DBus workaround: the normal method return handler wraps + # the returned arguments in a tuple and then converts that to a + # struct, but NetworkManager expects a plain list of arguments. + # It turns out that the async callback method return code _doesn't_ + # wrap the returned arguments in a tuple, so as a workaround use + # the async callback stuff here even though we're not doing it + # asynchronously. + async_cb(*props) + + def update_network_info(self, ssid, auto, bssid, we_cipher, args): + if not isinstance(ssid, unicode): + raise ValueError("Invalid arguments; ssid must be unicode.") + if self._allowed_networks.has_key(ssid): + del self._allowed_networks[ssid] + net = Network(ssid) + try: + net.read_from_args(auto, bssid, we_cipher, args) + logging.debug("Updated network information for '%s'." % ssid) + self._allowed_networks[ssid] = net + self.save_config() + except NetworkInvalidError, e: + logging.debug("Error updating network information: %s" % e) + del net + + def get_key_for_network(self, dev_op, net_op, ssid, attempt, new_key, async_cb, async_err_cb): + if not isinstance(ssid, unicode): + raise ValueError("Invalid arguments; ssid must be unicode.") + if self._allowed_networks.has_key(ssid) and not new_key: + # We've got the info already + net = self._allowed_networks[ssid] + async_cb(tuple(net.get_security())) + return + + # Otherwise, ask the user for it + net = None + dev = self._nmclient.get_device(dev_op) + if not dev: + async_err_cb(NotFoundError("Device was unknown.")) + return + + if dev.get_type() == nmclient.DEVICE_TYPE_802_3_ETHERNET: + # We don't support wired 802.1x yet... + async_err_cb(UnsupportedError("Device type is unsupported by NMI.")) + return + + net = dev.get_network(net_op) + if not net: + async_err_cb(NotFoundError("Network was unknown.")) + return + + self._nmclient.get_key_for_network(net, async_cb, async_err_cb) + + def get_key_for_network_cb(self, net, key, auth_alg, async_cb, async_err_cb, canceled=False): + """ + Called by the NMClient when the Wireless Network Key dialog + is closed. + """ + if canceled: + e = CanceledKeyRequestError("Request was canceled.") + # key dialog dialog was canceled; send the error back to NM + async_err_cb(e) + return + + if not key or not auth_alg: + # no key returned, *** BUG ***; the key dialog + # should always return either a key + auth_alg, or a + #cancel error + raise RuntimeError("No key or auth alg given! Bug!") + + we_cipher = None + if len(key) == 26: + we_cipher = IW_AUTH_CIPHER_WEP104 + elif len(key) == 10: + we_cipher = IW_AUTH_CIPHER_WEP40 + else: + raise RuntimeError("Invalid key length!") + + # Stuff the returned key and auth algorithm into a security object + # and return it to NetworkManager + sec = Security.new_from_args(we_cipher, (key, auth_alg)) + if not sec: + raise RuntimeError("Invalid security arguments.") + props = sec.get_properties() + a = tuple(props) + async_cb(*a) + + def cancel_get_key_for_network(self): + # Tell the NMClient to close the key request dialog + self._nmclient.cancel_get_key_for_network() diff --git a/services/nm/wepkeydialog.py b/services/nm/wepkeydialog.py index 40c8a0b..fc35ee1 100644 --- a/services/nm/wepkeydialog.py +++ b/services/nm/wepkeydialog.py @@ -22,60 +22,60 @@ IW_AUTH_ALG_OPEN_SYSTEM = 0x00000001 IW_AUTH_ALG_SHARED_KEY = 0x00000002 class WEPKeyDialog(gtk.Dialog): - def __init__(self, net, async_cb, async_err_cb): - gtk.Dialog.__init__(self) - self.set_title("Wireless Key Required") + def __init__(self, net, async_cb, async_err_cb): + gtk.Dialog.__init__(self) + self.set_title("Wireless Key Required") - self._net = net - self._async_cb = async_cb - self._async_err_cb = async_err_cb + self._net = net + self._async_cb = async_cb + self._async_err_cb = async_err_cb - self.set_has_separator(False) + self.set_has_separator(False) - label = gtk.Label("A wireless encryption key is required for\n" \ - " the wireless network '%s'." % net.get_ssid()) - self.vbox.pack_start(label) + label = gtk.Label("A wireless encryption key is required for\n" \ + " the wireless network '%s'." % net.get_ssid()) + self.vbox.pack_start(label) - self._entry = gtk.Entry() - self._entry.props.visibility = False - self._entry.connect('changed', self._entry_changed_cb) - self.vbox.pack_start(self._entry) - self.vbox.show_all() + self._entry = gtk.Entry() + self._entry.props.visibility = False + self._entry.connect('changed', self._entry_changed_cb) + self.vbox.pack_start(self._entry) + self.vbox.show_all() - self.add_buttons(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, - gtk.STOCK_OK, gtk.RESPONSE_OK) + self.add_buttons(gtk.STOCK_CANCEL, gtk.RESPONSE_CANCEL, + gtk.STOCK_OK, gtk.RESPONSE_OK) - self.set_default_response(gtk.RESPONSE_OK) - self._update_response_sensitivity() + self.set_default_response(gtk.RESPONSE_OK) + self._update_response_sensitivity() - def get_key(self): - return self._entry.get_text() + def get_key(self): + return self._entry.get_text() - def get_auth_alg(self): - return IW_AUTH_ALG_OPEN_SYSTEM + def get_auth_alg(self): + return IW_AUTH_ALG_OPEN_SYSTEM - def get_network(self): - return self._net + def get_network(self): + return self._net - def get_callbacks(self): - return (self._async_cb, self._async_err_cb) + def get_callbacks(self): + return (self._async_cb, self._async_err_cb) - def _entry_changed_cb(self, entry): - self._update_response_sensitivity() + def _entry_changed_cb(self, entry): + self._update_response_sensitivity() - def _update_response_sensitivity(self): - key = self.get_key() + def _update_response_sensitivity(self): + key = self.get_key() - is_hex = True - for c in key: - if not 'a' <= c <= 'f' and not '0' <= c <= '9': - is_hex = False + is_hex = True + for c in key: + if not 'a' <= c <= 'f' and not '0' <= c <= '9': + is_hex = False - valid_len = (len(key) == 10 or len(key) == 26) - self.set_response_sensitive(gtk.RESPONSE_OK, is_hex and valid_len) + valid_len = (len(key) == 10 or len(key) == 26) + self.set_response_sensitive(gtk.RESPONSE_OK, is_hex and valid_len) if __name__ == "__main__": - dialog = WEPKeyDialog() - dialog.run() + dialog = WEPKeyDialog() + dialog.run() - print dialog.get_key() + print dialog.get_key() -- cgit v0.9.1