it should detect your card and create a sample configuration file. By default '\texttt{option network lan}' is
commented. This prevents unsecured sharing of the network over the wireless interface.
+Each wireless driver has its own configuration script in \texttt{/lib/wifi/driver\_name.sh} which handles
+driver specific options and configurations. This script is also calling driver specific binaries like wlc for
+Broadcom, or hostapd and wpa\_supplicant for atheros.
+
+The reason for using such architecture, is that it abstracts the driver configuration
+
\paragraph{Generic Broadcom wireless config:}
\begin{Verbatim}
config wifi-device "wifi0"
option type "atheros"
option channel "5"
- option mode "11g"
+ option agmode "11g"
config wifi-iface
option device "wifi0"
option encryption "none"
\end{Verbatim}
-\paragraph{Generic multi-radio Atheros wireless conifg:}
+\paragraph{Generic multi-radio Atheros wireless config:}
\begin{Verbatim}
config wifi-device wifi0
option channel 1-14
option maxassoc 1-128 (broadcom only)
option distance 1-n
- option mode 11b, 11g, 11a, 11bg (atheros only)
+ option agmode 11b, 11g, 11a, 11bg (atheros only)
config wifi-iface
option network the interface you want wifi to bridge with
\item 1x \texttt{adhoc}
\end{itemize}
\end{itemize}
+
+\paragraph{Adding a new driver configuration}
+
+Since we currently only support two different wireless drivers : Broadcom and Atheros,
+you might be interested in adding support for another driver like Ralink RT2x00,
+Texas Instruments ACX100/111.
+
+The driver specific script should be placed in \texttt{/lib/wifi/<driver>.sh} and has to
+include several functions providing :
+
+\begin{itemize}
+ \item detection of the driver presence
+ \item enabling/disabling the wifi interface(s)
+ \item configuration reading and setting
+ \item third-party programs calling (nas, supplicant)
+\end{itemize}
+
+Each driver script should append the driver to a global DRIVERS variable :
+
+\begin{Verbatim}
+append DRIVERS "driver name"
+\end{Verbatim}
+
+\subparagraph{\texttt{scan\_<driver>}}
+
+This function will parse the \texttt{/etc/config/wireless} and make sure there
+are no configuration incompatibilities, like enabling hidden SSIDS with ad-hoc mode
+for instance. This can be more complex if your driver supports a lof of configuration
+options. It does not change the state of the interface.
+
+Example:
+\begin{Verbatim}
+scan_dummy() {
+ local device="$1"
+
+ config_get vifs "$device" vifs
+ for vif in $vifs; do
+ # check config consistency for wifi-iface sections
+ done
+ # check mode combination
+}
+\end{Verbatim}
+
+\subparagraph{\texttt{enable\_<driver>}}
+
+This function will bring up the wifi device and optionally create application specific
+configuration files, e.g. for the WPA authenticator or supplicant.
+
+Example:
+\begin{Verbatim}
+enable_dummy() {
+ local device="$1"
+
+ config_get vifs "$device" vifs
+ for vif in $vifs; do
+ # bring up virtual interface belonging to
+ # the wifi-device "$device"
+ done
+}
+\end{Verbatim}
+
+\subparagraph{\texttt{disable\_<driver>}}
+
+This function will bring down the wifi device and all its virtual interfaces (if supported).
+
+Example:
+\begin{Verbatim}
+disable_dummy() {
+ local device="$1"
+
+ # bring down virtual interfaces belonging to
+ # "$device" regardless of whether they are
+ # configured or not. Don't rely on the vifs
+ # variable at this point
+}
+\end{Verbatim}
+
+\subparagraph{\texttt{detect\_<driver>}}
+
+This function looks for interfaces that are usable with the driver. Template config sections
+for new devices should be written to stdout. Must check for already existing config sections
+belonging to the interfaces before creating new templates.
+
+Example:
+\begin{Verbatim}
+detect_dummy() {
+ [ wifi-device = "$(config_get dummydev type)" ] && return 0
+ cat <<EOF
+config wifi-device dummydev
+ option type dummy
+ # REMOVE THIS LINE TO ENABLE WIFI:
+ option disabled 1
+
+config wifi-iface
+ option device dummydev
+ option mode ap
+ option ssid OpenWrt
+EOF
+}
+\end{Verbatim}