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--[[
LuCI - Wireless model
Copyright 2009 Jo-Philipp Wich <xm@subsignal.org>
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
]]--
local pairs, i18n, uci, math = pairs, luci.i18n, luci.model.uci, math
local iwi = require "iwinfo"
local utl = require "luci.util"
local uct = require "luci.model.uci.bind"
module "luci.model.wireless"
local ub = uct.bind("wireless")
local st, ifs
function init(cursor)
cursor:unload("wireless")
cursor:load("wireless")
ub:init(cursor)
st = uci.cursor_state()
ifs = { }
local count = 0
ub.uci:foreach("wireless", "wifi-iface",
function(s)
count = count + 1
local id = "%s.network%d" %{ s.device, count }
ifs[id] = {
id = id,
sid = s['.name'],
count = count
}
local dev = st:get("wireless", s['.name'], "ifname")
or st:get("wireless", s['.name'], "device")
local wtype = dev and iwi.type(dev)
if dev and wtype then
ifs[id].winfo = iwi[wtype]
ifs[id].wdev = dev
end
end)
end
function get_device(self, dev)
return device(dev)
end
function get_devices(self)
local devs = { }
ub.uci:foreach("wireless", "wifi-device",
function(s) devs[#devs+1] = device(s['.name']) end)
return devs
end
function get_network(self, id)
if ifs[id] then
return network(ifs[id].sid)
else
local n
for n, _ in pairs(ifs) do
if ifs[n].sid == id then
return network(id)
end
end
end
end
function shortname(self, iface)
if iface.wdev and iface.winfo then
return "%s %q" %{
i18n.translate("a_s_if_iwmode_" .. iface:active_mode(), iface.winfo.mode(iface.wdev)),
iface:active_ssid() or "(hidden)"
}
else
return iface:name()
end
end
function get_i18n(self, iface)
if iface.wdev and iface.winfo then
return "%s: %s %q (%s)" %{
i18n.translate("a_s_if_wifinet", "Wireless Network"),
i18n.translate("a_s_if_iwmode_" .. iface:active_mode(), iface.winfo.mode(iface.wdev)),
iface:active_ssid() or "(hidden)", iface.wdev
}
else
return "%s: %q" %{ i18n.translate("a_s_if_wifinet", "Wireless Network"), iface:name() }
end
end
function del_network(self, id)
if ifs[id] then
ub.uci:delete("wireless", ifs[id].sid)
ifs[id] = nil
else
local n
for n, _ in pairs(ifs) do
if ifs[n].sid == id then
ub.uci:delete("wireless", id)
ifs[n] = nil
end
end
end
end
function find_interfaces(self, iflist, brlist)
local iface
for iface, _ in pairs(ifs) do
iflist[iface] = ifs[iface]
end
end
function ignore_interface(self, iface)
if ifs and ifs[iface] then
return false
else
return iwi.type(iface) and true or false
end
end
function add_interface(self, net, iface)
if ifs and ifs[iface] and ifs[iface].sid then
ub.uci:set("wireless", ifs[iface].sid, "network", net:name())
ifs[iface].network = net:name()
return true
end
return false
end
function del_interface(self, net, iface)
if ifs and ifs[iface] and ifs[iface].sid then
ub.uci:delete("wireless", ifs[iface].sid, "network")
--return true
end
return false
end
device = ub:section("wifi-device")
device:property("type")
device:property("channel")
device:property_bool("disabled")
function device.name(self)
return self.sid
end
function device.is_up(self)
local rv = false
if not self:disabled() then
st:foreach("wireless", "wifi-iface",
function(s)
if s.device == self:name() and s.up == "1" then
rv = true
return false
end
end)
end
return rv
end
function device.get_networks(self)
local nets = { }
ub.uci:foreach("wireless", "wifi-iface",
function(s)
if s.device == self:name() then
nets[#nets+1] = network(s['.name'])
end
end)
return nets
end
network = ub:section("wifi-iface")
network:property("mode")
network:property("ssid")
network:property("bssid")
network:property("network")
function network._init(self, sid)
local count = 0
ub.uci:foreach("wireless", "wifi-iface",
function(s)
count = count + 1
return s['.name'] ~= sid
end)
local dev = st:get("wireless", sid, "ifname")
or st:get("wireless", sid, "device")
if dev then
self.id = "%s.network%d" %{ dev, count }
local wtype = iwi.type(dev)
if dev and wtype then
self.winfo = iwi[wtype]
self.wdev = dev
end
end
end
function network.name(self)
return self.id
end
function network.ifname(self)
return self.wdev
end
function network.get_device(self)
if self.device then
return device(self.device)
end
end
function network.is_up(self)
return (st:get("wireless", self.sid, "up") == "1")
end
function network.active_mode(self)
local m = self.winfo and self.winfo.mode(self.wdev)
if m == "Master" or m == "Auto" then
m = "ap"
elseif m == "Ad-Hoc" then
m = "adhoc"
elseif m == "Client" then
m = "sta"
elseif m then
m = m:lower()
else
m = self:mode()
end
return m or "ap"
end
function network.active_mode_i18n(self)
return i18n.translate("a_s_if_iwmode_" .. self:active_mode())
end
function network.active_ssid(self)
return self.winfo and self.winfo.ssid(self.wdev) or
self:ssid()
end
function network.active_bssid(self)
return self.winfo and self.winfo.bssid(self.wdev) or
self:bssid() or "00:00:00:00:00:00"
end
function network.active_encryption(self)
return self.winfo and self.winfo.enctype(self.wdev) or "-"
end
function network.assoclist(self)
return self.winfo and self.winfo.assoclist(self.wdev) or { }
end
function network.frequency(self)
local freq = self.winfo and self.winfo.frequency(self.wdev)
return freq and freq > 0 and "%.03f" % (freq / 1000)
end
function network.bitrate(self)
local rate = self.winfo and self.winfo.bitrate(self.wdev)
return rate and rate > 0 and (rate / 1000)
end
function network.channel(self)
return self.winfo and self.winfo.channel(self.wdev)
end
function network.signal(self)
return self.winfo and self.winfo.signal(self.wdev) or 0
end
function network.noise(self)
return self.winfo and self.winfo.noise(self.wdev) or 0
end
function network.signal_level(self, s, n)
if self:active_bssid() ~= "00:00:00:00:00:00" then
local signal = s or self:signal()
local noise = n or self:noise()
if signal < 0 and noise < 0 then
local snr = -1 * (noise - signal)
return math.floor(snr / 5)
else
return 0
end
else
return -1
end
end
function network.signal_percent(self)
local qc = self.winfo and
self.winfo.quality(self.wdev) or 0
local qm = self.winfo and
self.winfo.quality_max(self.wdev) or 0
if qc > 0 and qm > 0 then
return math.floor((100 / qm) * qc)
else
return 0
end
end
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