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read-only mirror of https://gitlab.freedesktop.org/NetworkManager/NetworkManager
a5919b696c
Process netlink messages in device subclasses rather than in NetworkManager.c. Also add support for recognizing Wireless Events. * configure.in - Find GLIB_GENMARSHAL * src/Makefile.am - Since we're marshalling custom types for wireless event signals, we get to create our own marshallers using GLIB_GENMARSHAL * src/NetworkManager.c - (nm_monitor_wired_link_state): renamed to nm_monitor_setup - (nm_monitor_setup): renamed from nm_monitor_wired_link_state, and cut down somewhat. We no longer process signals here. - (nm_data_new): create the netlink monitor here, and remove a useless call to nm_policy_schedule_device_change_check() - (nm_data_free): get rid of the netlink monitor here - (nm_device_link_activated, nm_device_link_deactivated): removed - (main): don't create the netlink monitor here, let nm_data_new do that. Call nm_policy_schedule_device_change_check() right before we jump to the mainloop to figure out which device to use first * src/NetworkManagerSystem.[ch] - (nm_system_get_rtnl_index_from_iface, nm_system_get_iface_from_rtnl_index): convert back and forth from interface names to interface indexes * src/nm-device-802-11-wireless.c - (real_init): connect to wireless-event signals from the netlink monitor object - (nm_device_802_11_wireless_event): new function, schedule handler for wireless event signals from the netlink monitor object. We want the handler to run in the device's context - (wireless_event_helper): handle wireless-event signals from netlink - (nm_device_802_11_wireless_dispose): disconnect wireless-event signal handler * src/nm-device-802-11-wireless.h - remove unused prototype for nm_device_802_11_wireless_new * src/nm-device-802-3-ethernet.c - (real_init): new function; set up signal handlers for link events - (nm_device_802_3_ethernet_link_activated): new function, schedule handler for netlink link activated events on device's main loop - (link_activated_helper): when we get a link activated event, set the device's link to be active - (nm_device_802_3_ethernet_link_deactivated): new function; schedule handler for netlink link deactivated events on device's main loop - (link_deactivated_helper): when we get a link deactivated event, set the device's link to be inactive - (nm_device_802_3_ethernet_dispose): disconnect signal handler on dispose * src/nm-device-802-3-ethernet.h - remove unused prototype for nm_device_802_3_ethernet_new * src/nm-device.[ch] - (nm_get_device_by_iface_locked): variant of nm_get_device_by_iface but locks the device list - (nm_device_set_active_link): a little bit of cleanup and de-indenting * src/nm-netlink-monitor.[ch] - (nm_netlink_monitor_class_install_signals): New signal "wireless-event" - (nm_netlink_monitor_new): keep reference to NMData so we can get at the device list - (nm_netlink_monitor_event_handler): expand for wireless events too * src/nm-marshal-main.c - Include generated nm-marshal.c and nm-marshal.h * src/nm-marshal.list - List of custom marshal functions git-svn-id: http://svn-archive.gnome.org/svn/NetworkManager/trunk@1555 4912f4e0-d625-0410-9fb7-b9a5a253dbdc |
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| dispatcher-daemon | ||
| docs | ||
| examples/python | ||
| gnome | ||
| include | ||
| initscript | ||
| libnm-util | ||
| man | ||
| po | ||
| src | ||
| test | ||
| utils | ||
| vpn-daemons | ||
| .cvsignore | ||
| AUTHORS | ||
| autogen.sh | ||
| ChangeLog | ||
| configure.in | ||
| CONTRIBUTING | ||
| Makefile.am | ||
| NetworkManager.pc.in | ||
| NEWS | ||
| nm-applet.desktop | ||
| README | ||
| TODO | ||
THEORY OF OPERATION: NetworkManager attempts to keep an active network connection available at all times. The point of NetworkManager is to make networking configuration and setup as painless and automatic as possible. If using DHCP, NetworkManager is _intended_ to replace default routes, obtain IP addresses from a DHCP server, and change nameservers whenever it sees fit. In effect, the goal of NetworkManager is to make networking Just Work. If you have special needs, we'd like to hear about them, but understand that NetworkManager is not intended to serve the needs of all users. From a list of all adapters currently installed on the system, NetworkManager will first try a wired and then a wireless adapter. Wireless adapters that support wireless scanning are preferred over ones that cannot. NetworkManager does not try to keep a connection up as long as possible, meaning that plugging into a wired network will switch the connection to the wired network away from the wireless one. For wireless networking support, NetworkManager keeps two lists of wireless networks: a Trusted list, and a Preferred list. The Trusted list contains networks the user specifically adds to it, while the preferred list contains networks the user forces NetworkManager to connect to. For example, while the company's wireless network and WEP/WPA key would be preloaded into the Trusted Networks list, if the user wished to use the wireless network in a Starbucks, the user would explicitly tell NetworkManager to associate with that network. NetworkManager does not try to use _any_ available network in the area (a possible security risk), but will associate with any Trusted Network first, and Preferred Networks later. Preferred Networks are ones the user has explicitly made NetworkManager associate with at some previous time. So if the user walks into a Starbucks and explicitly asks NetworkManager to associate with that Starbucks network, NetworkManager will remember the Starbucks network information from that point on. Upon returning to that Starbucks, NetworkManager will attempt to associate _automatically_ with the Starbucks network since it is now in the Preferred Networks list. The point of this is to ensure that only the user can determine which wireless networks to associate with, and that the user is aware which networks are security risks and which are not. STRUCTURE: NetworkManager runs as a root-user system level daemon, since it must manipulate hardware directly. It communicates over DBUS with a desktop-level per-user process, nm-applet. Since Trusted and Preferred Networks are user-specific, there must be some mechanism of getting this information per-user. NetworkManager cannot store that information as it is user-specific, and therefore communicates over DBUS to the user daemon which provides those lists. NetworkManager also provides an API over DBUS for any DBUS-aware application to determine the current state of the network, including available wireless networks the computer is aware of and specific details about those networks. This API also provides the means for forcing NetworkManager to associate with a specific wireless network. Use of DBUS allows separation of NetworkManager, which requires no user-interface, and the parts of the user interface which might be desktop environment specific. The nm-applet provides a DBUS service called NetworkManagerInfo, which should provide to NetworkManager the Trusted and Preferred Networks lists upon request. It also should be able to display a dialog to retrieve a WEP/WPA key or passphrase from the user when NetworkManager requests it. The GNOME version of NetworkManagerInfo, for example, stores Trusted and Preferred Networks in GConf and WEP/WPA keys in gnome-keyring, and proxies that information to NetworkManager upon request.