Use Nerves.WpaSupplicant now
This package enables Elixir applications to interact with the local WPA supplicant. The WPA supplicant handles various Wi-Fi operations like scanning for wireless networks, connecting, authenticating, and collecting wireless adapter statistics.
The wpa_supplicant
daemon runs as root and requires processes that attach to
its control interface to be root. This project contains a C port process whose
sole purpose is to interact with the wpa_supplicant
daemon, but it needs
sufficient permission to do so. The Makefile
contains logic to mark the port
process setuid root so that this works, but you may want to change this
depending on your setup.
Building wpa_supplicant.ex
is similar to other Elixir projects. The Makefile
will invoke mix
to compile both the Elixir and C source code. The only extra
step is to ensure that the permissions are right on the wpa_ex
binary. The
way this is accomplished is by setting wpa_ex
setuid root. By default, when
you run make
, you'll be asked your password to change permissions.
$ make
If you want to disable the setuid root step in the Makefile, just set the SUDO
environment variable to true
to make it a nop:
$ SUDO=true make
If you need to use a different askpass program, you can set that as well:
$ SUDO_ASKPASS=/usr/bin/ssh-askpass make
The wpa_supplicant
daemon must be running already on your system and the control
interface must be exposed. If you have any doubt, try running wpa_cli
. If that
doesn't work, the Elixir WpaSupplicant
won't work.
If you're on a system where you can start the wpa_supplicant
manually, here's
an example command line:
$ /sbin/wpa_supplicant -iwlan0 -C/var/run/wpa_supplicant -B
Once you're happy that the wpa_supplicant
is running, start iex
by running:
$ iex -S mix
Start a WpaSupplicant
process:
iex> {:ok, pid} = WpaSupplicant.start_link("/var/run/wpa_supplicant/wlan0")
{:ok, #PID<0.82.0>}
You can sanity check that Elixir has properly attached to the wpa_supplicant
daemon by pinging the daemon:
iex> WpaSupplicant.request(pid, :PING)
:PONG
To scan for access points, call WpaSupplicant.scan/1
. This can take a few
seconds:
iex> WpaSupplicant.scan(pid)
[%{age: 42, beacon_int: 100, bssid: "00:1f:90:db:45:54", capabilities: 1073,
flags: "[WEP][ESS]", freq: 2462, id: 8,
ie: "00053153555434010882848b0c1296182403010b07",
level: -83, noise: 0, qual: 0, ssid: "1SUT4", tsf: 580579066269},
%{age: 109, beacon_int: 100, bssid: "00:18:39:7a:23:e8", capabilities: 1041,
flags: "[WEP][ESS]", freq: 2412, id: 5,
ie: "00076c696e6b737973010882848b962430486c0301",
level: -86, noise: 0, qual: 0, ssid: "linksys", tsf: 464957892243},
%{age: 42, beacon_int: 100, bssid: "1c:7e:e5:32:d1:f8", capabilities: 1041,
flags: "[WPA2-PSK-CCMP][ESS]", freq: 2412, id: 0,
ie: "000768756e6c657468010882848b960c1218240301",
level: -43, noise: 0, qual: 0, ssid: "dlink", tsf: 580587711245}]
To attach to an access point, you need to configure a network entry in the
wpa_supplicant
. The wpa_supplicant
can have multiple network entries
configured. The following removes all network entries so that only one is
configured.
iex> WpaSupplicant.set_network(pid, ssid: "MyNetworkSsid", key_mgmt: :WPA_PSK, psk: "secret")
:ok
If the access point is around, the wpa_supplicant
will eventually connect to
the network.
iex> WpaSupplicant.status(pid)
%{address: "84:3a:4b:11:95:23", bssid: "1c:7e:e5:32:de:32",
group_cipher: "TKIP", id: 0, key_mgmt: "WPA2-PSK", mode: "station",
pairwise_cipher: "CCMP", ssid: "MyNetworkSsid", wpa_state: "COMPLETED"}
Polling the wpa_supplicant
for status isn't that great, so it's possible to
register a GenEvent
with WpaSupplicant
. If you don't supply one in the call
to start_link
, one is automatically created and available via WpaSupplicant.event_manager/1
. The
following example shows how to view events at the prompt:
iex> defmodule Forwarder do
...> use GenEvent
...> def handle_event(event, parent) do
...> send parent, event
...> {:ok, parent}
...> end
...> end
iex> WpaSupplicant.event_manager(pid) |> GenEvent.add_handler(Forwarder, self())
iex> flush
{:wpa_supplicant, #PID<0.85.0>, :"CTRL-EVENT-SCAN-STARTED"}
{:wpa_supplicant, #PID<0.85.0>, :"CTRL-EVENT-SCAN-RESULTS"}
It is expected that the helper functions for interacting with the wpa_supplicant
will not cover every situation. The WpaSupplicant.request/2
function allows
you to send arbitrary commands. Requests are atoms that are named the same as
described in the wpa_supplicant
documentation (see Useful links). If a request
takes a parameter, pass it as a tuple where the first element is the command.
Parameters may be strings or numbers and will be properly formatted for the
control interface. The response is also parsed and turned into atoms, numbers,
strings, lists, or maps depending on the command. The string parsing is taken
care of by this library. Here are some examples:
iex> WpaSupplicant.request(pid, :INTERFACES)
["wlan0"]
iex> WpaSupplicant.request(pid, {:GET_NETWORK, 0, :key_mgmt})
"WPA-PSK"
- wpa_supplicant homepage
- wpa_supplicant control interface
- wpa_supplicant information on the archlinux wiki
The majority of this package is licensed under the Apache 2.0 license. The code
that directly interfaces with the wpa_supplicant
is copied from the
wpa_supplicant
package and has the following copyright and license:
/*
* wpa_supplicant/hostapd control interface library
* Copyright (c) 2004-2007, Jouni Malinen <[email protected]>
*
* This software may be distributed under the terms of the BSD license.
* See README for more details.
*/