--[[ LuCI - Lua Configuration Interface Copyright 2008 Steven Barth 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 $Id$ ]]-- local wa = require "luci.tools.webadmin" local nw = require "luci.model.network" local fs = require "nixio.fs" arg[1] = arg[1] or "" m = Map("wireless", "", translate("The Device Configuration section covers physical settings of the radio " .. "hardware such as channel, transmit power or antenna selection which is shared among all " .. "defined wireless networks (if the radio hardware is multi-SSID capable). Per network settings " .. "like encryption or operation mode are grouped in the Interface Configuration.")) m:chain("network") local ifsection function m.on_commit(map) local wnet = nw:get_wifinet(arg[1]) if ifsection and wnet then ifsection.section = wnet.sid m.title = luci.util.pcdata(wnet:get_i18n()) end end nw.init(m.uci) local wnet = nw:get_wifinet(arg[1]) local wdev = wnet and wnet:get_device() -- redirect to overview page if network does not exist anymore (e.g. after a revert) if not wnet or not wdev then luci.http.redirect(luci.dispatcher.build_url("admin/network/wireless")) return end m.title = luci.util.pcdata(wnet:get_i18n()) local iw = luci.sys.wifi.getiwinfo(arg[1]) local hw_modes = iw.hwmodelist or { } local tx_powers = iw.txpwrlist or { } local tx_power = tostring( (iw.txpower and iw.txpower > 0 and iw.txpower) or (#tx_powers > 0 and tx_powers[#tx_powers].dbm) ) s = m:section(NamedSection, wdev:name(), "wifi-device", translate("Device Configuration")) s.addremove = false s:tab("general", translate("General Setup")) s:tab("macfilter", translate("MAC-Filter")) s:tab("advanced", translate("Advanced Settings")) --[[ back = s:option(DummyValue, "_overview", translate("Overview")) back.value = "" back.titleref = luci.dispatcher.build_url("admin", "network", "wireless") ]] st = s:taboption("general", DummyValue, "__status", translate("Status")) st.template = "admin_network/wifi_status" st.ifname = arg[1] en = s:taboption("general", Flag, "disabled", translate("Enable device")) en.enabled = "0" en.disabled = "1" en.rmempty = false function en.cfgvalue(self, section) return Flag.cfgvalue(self, section) or "0" end local hwtype = wdev:get("type") local htcaps = wdev:get("ht_capab") and true or false -- NanoFoo local nsantenna = wdev:get("antenna") ch = s:taboption("general", Value, "channel", translate("Channel")) ch:value("auto", translate("auto")) for _, f in ipairs(iw and iw.freqlist or luci.sys.wifi.channels()) do if not f.restricted then ch:value(f.channel, "%i (%.3f GHz)" %{ f.channel, f.mhz / 1000 }) end end ------------------- MAC80211 Device ------------------ if hwtype == "mac80211" then tp = s:taboption("general", (tx_powers and #tx_powers > 0) and ListValue or Value, "txpower", translate("Transmit Power"), "dBm") tp.rmempty = true tp.default = tx_power for _, p in ipairs(tx_powers or {}) do tp:value(p.dbm, "%i dBm (%i mW)" %{ p.dbm, p.mw }) end mode = s:taboption("advanced", ListValue, "hwmode", translate("Mode")) mode:value("", translate("auto")) if hw_modes.b then mode:value("11b", "802.11b") end if hw_modes.g then mode:value("11g", "802.11g") end if hw_modes.a then mode:value("11a", "802.11a") end if htcaps then if hw_modes.g and hw_modes.n then mode:value("11ng", "802.11g+n") end if hw_modes.a and hw_modes.n then mode:value("11na", "802.11a+n") end htmode = s:taboption("advanced", ListValue, "htmode", translate("HT mode")) htmode:depends("hwmode", "11na") htmode:depends("hwmode", "11ng") htmode:value("HT20", "20MHz") htmode:value("HT40-", translate("40MHz 2nd channel below")) htmode:value("HT40+", translate("40MHz 2nd channel above")) --htcapab = s:taboption("advanced", DynamicList, "ht_capab", translate("HT capabilities")) --htcapab:depends("hwmode", "11na") --htcapab:depends("hwmode", "11ng") end mp = s:taboption("macfilter", ListValue, "macfilter", translate("MAC-Address Filter")) mp:value("", translate("disable")) mp:value("allow", translate("Allow listed only")) mp:value("deny", translate("Allow all except listed")) ml = s:taboption("macfilter", DynamicList, "maclist", translate("MAC-List")) ml.datatype = "macaddr" ml:depends({macfilter="allow"}) ml:depends({macfilter="deny"}) local cl = iw and iw.countrylist if cl and #cl > 0 then cc = s:taboption("advanced", ListValue, "country", translate("Country Code"), translate("Use ISO/IEC 3166 alpha2 country codes.")) cc.default = tostring(iw and iw.country or "00") for _, c in ipairs(cl) do cc:value(c.alpha2, "%s - %s" %{ c.alpha2, c.name }) end else s:taboption("advanced", Value, "country", translate("Country Code"), translate("Use ISO/IEC 3166 alpha2 country codes.")) end s:taboption("advanced", Value, "distance", translate("Distance Optimization"), translate("Distance to farthest network member in meters.")) end ------------------- Madwifi Device ------------------ if hwtype == "atheros" then tp = s:taboption("general", (#tx_powers > 0) and ListValue or Value, "txpower", translate("Transmit Power"), "dBm") tp.rmempty = true tp.default = tx_power for _, p in ipairs(tx_powers or {}) do tp:value(p.dbm, "%i dBm (%i mW)" %{ p.dbm, p.mw }) end mode = s:taboption("advanced", ListValue, "hwmode", translate("Mode")) mode:value("", translate("auto")) if hw_modes.b then mode:value("11b", "802.11b") end if hw_modes.g then mode:value("11g", "802.11g") end if hw_modes.a then mode:value("11a", "802.11a") end if hw_modes.g then mode:value("11bg", "802.11b+g") end if hw_modes.g then mode:value("11gst", "802.11g + Turbo") end if hw_modes.a then mode:value("11ast", "802.11a + Turbo") end mode:value("fh", translate("Frequency Hopping")) s:taboption("advanced", Flag, "diversity", translate("Diversity")).rmempty = false if not nsantenna then ant1 = s:taboption("advanced", ListValue, "txantenna", translate("Transmitter Antenna")) ant1.widget = "radio" ant1.orientation = "horizontal" ant1:depends("diversity", "") ant1:value("0", translate("auto")) ant1:value("1", translate("Antenna 1")) ant1:value("2", translate("Antenna 2")) ant2 = s:taboption("advanced", ListValue, "rxantenna", translate("Receiver Antenna")) ant2.widget = "radio" ant2.orientation = "horizontal" ant2:depends("diversity", "") ant2:value("0", translate("auto")) ant2:value("1", translate("Antenna 1")) ant2:value("2", translate("Antenna 2")) else -- NanoFoo local ant = s:taboption("advanced", ListValue, "antenna", translate("Transmitter Antenna")) ant:value("auto") ant:value("vertical") ant:value("horizontal") ant:value("external") end s:taboption("advanced", Value, "distance", translate("Distance Optimization"), translate("Distance to farthest network member in meters.")) s:taboption("advanced", Value, "regdomain", translate("Regulatory Domain")) s:taboption("advanced", Value, "country", translate("Country Code")) s:taboption("advanced", Flag, "outdoor", translate("Outdoor Channels")) --s:option(Flag, "nosbeacon", translate("Disable HW-Beacon timer")) end ------------------- Broadcom Device ------------------ if hwtype == "broadcom" then tp = s:taboption("general", (#tx_powers > 0) and ListValue or Value, "txpower", translate("Transmit Power"), "dBm") tp.rmempty = true tp.default = tx_power for _, p in ipairs(tx_powers or {}) do tp:value(p.dbm, "%i dBm (%i mW)" %{ p.dbm, p.mw }) end mode = s:taboption("advanced", ListValue, "hwmode", translate("Mode")) mode:value("11bg", "802.11b+g") mode:value("11b", "802.11b") mode:value("11g", "802.11g") mode:value("11gst", "802.11g + Turbo") mp = s:taboption("macfilter", ListValue, "macfilter", translate("MAC-Address Filter")) mp:value("", translate("disable")) mp:value("allow", translate("Allow listed only")) mp:value("deny", translate("Allow all except listed")) ml = s:taboption("macfilter", DynamicList, "maclist", translate("MAC-List")) ml.datatype = "macaddr" ml:depends({macfilter="allow"}) ml:depends({macfilter="deny"}) ant1 = s:taboption("advanced", ListValue, "txantenna", translate("Transmitter Antenna")) ant1.widget = "radio" ant1:depends("diversity", "") ant1:value("3", translate("auto")) ant1:value("0", translate("Antenna 1")) ant1:value("1", translate("Antenna 2")) ant2 = s:taboption("advanced", ListValue, "rxantenna", translate("Receiver Antenna")) ant2.widget = "radio" ant2:depends("diversity", "") ant2:value("3", translate("auto")) ant2:value("0", translate("Antenna 1")) ant2:value("1", translate("Antenna 2")) s:taboption("advanced", Flag, "frameburst", translate("Frame Bursting")) s:taboption("advanced", Value, "distance", translate("Distance Optimization")) --s:option(Value, "slottime", translate("Slot time")) s:taboption("advanced", Value, "country", translate("Country Code")) s:taboption("advanced", Value, "maxassoc", translate("Connection Limit")) end --------------------- HostAP Device --------------------- if hwtype == "prism2" then s:taboption("advanced", Value, "txpower", translate("Transmit Power"), "att units").rmempty = true s:taboption("advanced", Flag, "diversity", translate("Diversity")).rmempty = false s:taboption("advanced", Value, "txantenna", translate("Transmitter Antenna")) s:taboption("advanced", Value, "rxantenna", translate("Receiver Antenna")) end ----------------------- Interface ----------------------- s = m:section(NamedSection, wnet.sid, "wifi-iface", translate("Interface Configuration")) ifsection = s s.addremove = false s.anonymous = true s.defaults.device = wdev:name() s:tab("general", translate("General Setup")) s:tab("encryption", translate("Wireless Security")) s:tab("macfilter", translate("MAC-Filter")) s:tab("advanced", translate("Advanced Settings")) s:taboption("general", Value, "ssid", translate("ESSID")) mode = s:taboption("general", ListValue, "mode", translate("Mode")) mode.override_values = true mode:value("ap", translate("Access Point")) mode:value("sta", translate("Client")) mode:value("adhoc", translate("Ad-Hoc")) bssid = s:taboption("general", Value, "bssid", translate("BSSID")) network = s:taboption("general", Value, "network", translate("Network"), translate("Choose the network you want to attach to this wireless interface. " .. "Select unspecified to not attach any network or fill out the " .. "create field to define a new network.")) network.rmempty = true network.template = "cbi/network_netlist" network.widget = "radio" function network.write(self, section, value) local i = nw:get_interface(section) if i then if value == '-' then value = m:formvalue(self:cbid(section) .. ".newnet") if value and #value > 0 then local n = nw:add_network(value, {proto="none"}) if n then n:add_interface(i) end else local n = i:get_network() if n then n:del_interface(i) end end else local n = nw:get_network(value) if n then n:set("type", "bridge") n:add_interface(i) end end end end -------------------- MAC80211 Interface ---------------------- if hwtype == "mac80211" then if fs.access("/usr/sbin/iw") then mode:value("mesh", "802.11s") end mode:value("ahdemo", translate("Pseudo Ad-Hoc (ahdemo)")) mode:value("monitor", translate("Monitor")) bssid:depends({mode="adhoc"}) s:taboption("advanced", Value, "frag", translate("Fragmentation Threshold")) s:taboption("advanced", Value, "rts", translate("RTS/CTS Threshold")) mode:value("ap-wds", "%s (%s)" % {translate("Access Point"), translate("WDS")}) mode:value("sta-wds", "%s (%s)" % {translate("Client"), translate("WDS")}) function mode.write(self, section, value) if value == "ap-wds" then ListValue.write(self, section, "ap") m.uci:set("wireless", section, "wds", 1) elseif value == "sta-wds" then ListValue.write(self, section, "sta") m.uci:set("wireless", section, "wds", 1) else ListValue.write(self, section, value) m.uci:delete("wireless", section, "wds") end end function mode.cfgvalue(self, section) local mode = ListValue.cfgvalue(self, section) local wds = m.uci:get("wireless", section, "wds") == "1" if mode == "ap" and wds then return "ap-wds" elseif mode == "sta" and wds then return "sta-wds" else return mode end end hidden = s:taboption("general", Flag, "hidden", translate("Hide ESSID")) hidden:depends({mode="ap"}) hidden:depends({mode="ap-wds"}) end -------------------- Madwifi Interface ---------------------- if hwtype == "atheros" then mode:value("ahdemo", translate("Pseudo Ad-Hoc (ahdemo)")) mode:value("monitor", translate("Monitor")) mode:value("ap-wds", "%s (%s)" % {translate("Access Point"), translate("WDS")}) mode:value("sta-wds", "%s (%s)" % {translate("Client"), translate("WDS")}) mode:value("wds", translate("Static WDS")) function mode.write(self, section, value) if value == "ap-wds" then ListValue.write(self, section, "ap") m.uci:set("wireless", section, "wds", 1) elseif value == "sta-wds" then ListValue.write(self, section, "sta") m.uci:set("wireless", section, "wds", 1) else ListValue.write(self, section, value) m.uci:delete("wireless", section, "wds") end end function mode.cfgvalue(self, section) local mode = ListValue.cfgvalue(self, section) local wds = m.uci:get("wireless", section, "wds") == "1" if mode == "ap" and wds then return "ap-wds" elseif mode == "sta" and wds then return "sta-wds" else return mode end end bssid:depends({mode="adhoc"}) bssid:depends({mode="ahdemo"}) bssid:depends({mode="wds"}) wdssep = s:taboption("advanced", Flag, "wdssep", translate("Separate WDS")) wdssep:depends({mode="ap-wds"}) s:taboption("advanced", Flag, "doth", "802.11h") hidden = s:taboption("general", Flag, "hidden", translate("Hide ESSID")) hidden:depends({mode="ap"}) hidden:depends({mode="adhoc"}) hidden:depends({mode="ap-wds"}) hidden:depends({mode="sta-wds"}) isolate = s:taboption("advanced", Flag, "isolate", translate("Separate Clients"), translate("Prevents client-to-client communication")) isolate:depends({mode="ap"}) s:taboption("advanced", Flag, "bgscan", translate("Background Scan")) mp = s:taboption("macfilter", ListValue, "macpolicy", translate("MAC-Address Filter")) mp:value("", translate("disable")) mp:value("deny", translate("Allow listed only")) mp:value("allow", translate("Allow all except listed")) ml = s:taboption("macfilter", DynamicList, "maclist", translate("MAC-List")) ml.datatype = "macaddr" ml:depends({macpolicy="allow"}) ml:depends({macpolicy="deny"}) s:taboption("advanced", Value, "rate", translate("Transmission Rate")) s:taboption("advanced", Value, "mcast_rate", translate("Multicast Rate")) s:taboption("advanced", Value, "frag", translate("Fragmentation Threshold")) s:taboption("advanced", Value, "rts", translate("RTS/CTS Threshold")) s:taboption("advanced", Value, "minrate", translate("Minimum Rate")) s:taboption("advanced", Value, "maxrate", translate("Maximum Rate")) s:taboption("advanced", Flag, "compression", translate("Compression")) s:taboption("advanced", Flag, "bursting", translate("Frame Bursting")) s:taboption("advanced", Flag, "turbo", translate("Turbo Mode")) s:taboption("advanced", Flag, "ff", translate("Fast Frames")) s:taboption("advanced", Flag, "wmm", translate("WMM Mode")) s:taboption("advanced", Flag, "xr", translate("XR Support")) s:taboption("advanced", Flag, "ar", translate("AR Support")) local swm = s:taboption("advanced", Flag, "sw_merge", translate("Disable HW-Beacon timer")) swm:depends({mode="adhoc"}) local nos = s:taboption("advanced", Flag, "nosbeacon", translate("Disable HW-Beacon timer")) nos:depends({mode="sta"}) nos:depends({mode="sta-wds"}) local probereq = s:taboption("advanced", Flag, "probereq", translate("Do not send probe responses")) probereq.enabled = "0" probereq.disabled = "1" end -------------------- Broadcom Interface ---------------------- if hwtype == "broadcom" then mode:value("wds", translate("WDS")) mode:value("monitor", translate("Monitor")) hidden = s:taboption("general", Flag, "hidden", translate("Hide ESSID")) hidden:depends({mode="ap"}) hidden:depends({mode="adhoc"}) hidden:depends({mode="wds"}) isolate = s:taboption("advanced", Flag, "isolate", translate("Separate Clients"), translate("Prevents client-to-client communication")) isolate:depends({mode="ap"}) s:taboption("advanced", Flag, "doth", "802.11h") s:taboption("advanced", Flag, "wmm", translate("WMM Mode")) bssid:depends({mode="wds"}) bssid:depends({mode="adhoc"}) end ----------------------- HostAP Interface --------------------- if hwtype == "prism2" then mode:value("wds", translate("WDS")) mode:value("monitor", translate("Monitor")) hidden = s:taboption("general", Flag, "hidden", translate("Hide ESSID")) hidden:depends({mode="ap"}) hidden:depends({mode="adhoc"}) hidden:depends({mode="wds"}) bssid:depends({mode="sta"}) mp = s:taboption("macfilter", ListValue, "macpolicy", translate("MAC-Address Filter")) mp:value("", translate("disable")) mp:value("deny", translate("Allow listed only")) mp:value("allow", translate("Allow all except listed")) ml = s:taboption("macfilter", DynamicList, "maclist", translate("MAC-List")) ml:depends({macpolicy="allow"}) ml:depends({macpolicy="deny"}) s:taboption("advanced", Value, "rate", translate("Transmission Rate")) s:taboption("advanced", Value, "frag", translate("Fragmentation Threshold")) s:taboption("advanced", Value, "rts", translate("RTS/CTS Threshold")) end ------------------- WiFI-Encryption ------------------- encr = s:taboption("encryption", ListValue, "encryption", translate("Encryption")) encr.override_values = true encr.override_depends = true encr:depends({mode="ap"}) encr:depends({mode="sta"}) encr:depends({mode="adhoc"}) encr:depends({mode="ahdemo"}) encr:depends({mode="ap-wds"}) encr:depends({mode="sta-wds"}) encr:depends({mode="mesh"}) encr:value("none", "No Encryption") encr:value("wep-open", translate("WEP Open System"), {mode="ap"}, {mode="sta"}, {mode="ap-wds"}, {mode="sta-wds"}) encr:value("wep-shared", translate("WEP Shared Key"), {mode="ap"}, {mode="sta"}, {mode="ap-wds"}, {mode="sta-wds"}) if hwtype == "atheros" or hwtype == "mac80211" or hwtype == "prism2" then local supplicant = fs.access("/usr/sbin/wpa_supplicant") local hostapd = fs.access("/usr/sbin/hostapd") if hostapd and supplicant then encr:value("psk", "WPA-PSK") encr:value("psk2", "WPA2-PSK") encr:value("psk-mixed", "WPA-PSK/WPA2-PSK Mixed Mode") encr:value("wpa", "WPA-EAP", {mode="ap"}, {mode="sta"}, {mode="ap-wds"}, {mode="sta-wds"}) encr:value("wpa2", "WPA2-EAP", {mode="ap"}, {mode="sta"}) elseif hostapd and not supplicant then encr:value("psk", "WPA-PSK", {mode="ap"}, {mode="ap-wds"}, {mode="adhoc"}, {mode="ahdemo"}) encr:value("psk2", "WPA2-PSK", {mode="ap"}, {mode="ap-wds"}, {mode="adhoc"}, {mode="ahdemo"}) encr:value("psk-mixed", "WPA-PSK/WPA2-PSK Mixed Mode", {mode="ap"}, {mode="ap-wds"}, {mode="adhoc"}, {mode="ahdemo"}) encr:value("wpa", "WPA-EAP", {mode="ap"}, {mode="ap-wds"}) encr:value("wpa2", "WPA2-EAP", {mode="ap"}, {mode="ap-wds"}) encr.description = translate( "WPA-Encryption requires wpa_supplicant (for client mode) or hostapd (for AP " .. "and ad-hoc mode) to be installed." ) elseif not hostapd and supplicant then encr:value("psk", "WPA-PSK", {mode="sta"}, {mode="sta-wds"}) encr:value("psk2", "WPA2-PSK", {mode="sta"}, {mode="sta-wds"}) encr:value("psk-mixed", "WPA-PSK/WPA2-PSK Mixed Mode", {mode="sta"}, {mode="sta-wds"}) encr:value("wpa", "WPA-EAP", {mode="sta"}, {mode="sta-wds"}) encr:value("wpa2", "WPA2-EAP", {mode="sta"}, {mode="sta-wds"}) encr.description = translate( "WPA-Encryption requires wpa_supplicant (for client mode) or hostapd (for AP " .. "and ad-hoc mode) to be installed." ) else encr.description = translate( "WPA-Encryption requires wpa_supplicant (for client mode) or hostapd (for AP " .. "and ad-hoc mode) to be installed." ) end elseif hwtype == "broadcom" then encr:value("psk", "WPA-PSK") encr:value("psk2", "WPA2-PSK") encr:value("psk+psk2", "WPA-PSK/WPA2-PSK Mixed Mode") end encr:depends("mode", "ap") encr:depends("mode", "sta") encr:depends("mode", "ap-wds") encr:depends("mode", "sta-wds") encr:depends("mode", "wds") server = s:taboption("encryption", Value, "server", translate("Radius-Server")) server:depends({mode="ap", encryption="wpa"}) server:depends({mode="ap", encryption="wpa2"}) server:depends({mode="ap-wds", encryption="wpa"}) server:depends({mode="ap-wds", encryption="wpa2"}) server.rmempty = true port = s:taboption("encryption", Value, "port", translate("Radius-Port")) port:depends({mode="ap", encryption="wpa"}) port:depends({mode="ap", encryption="wpa2"}) port:depends({mode="ap-wds", encryption="wpa"}) port:depends({mode="ap-wds", encryption="wpa2"}) port.rmempty = true wpakey = s:taboption("encryption", Value, "_wpa_key", translate("Key")) wpakey:depends("encryption", "psk") wpakey:depends("encryption", "psk2") wpakey:depends("encryption", "psk+psk2") wpakey:depends("encryption", "psk-mixed") wpakey:depends({mode="ap", encryption="wpa"}) wpakey:depends({mode="ap", encryption="wpa2"}) wpakey:depends({mode="ap-wds", encryption="wpa"}) wpakey:depends({mode="ap-wds", encryption="wpa2"}) wpakey.datatype = "wpakey" wpakey.rmempty = true wpakey.password = true wpakey.cfgvalue = function(self, section, value) local key = m.uci:get("wireless", section, "key") if key == "1" or key == "2" or key == "3" or key == "4" then return nil end return key end wpakey.write = function(self, section, value) self.map.uci:set("wireless", section, "key", value) self.map.uci:delete("wireless", section, "key1") end wepslot = s:taboption("encryption", ListValue, "_wep_key", translate("Used Key Slot")) wepslot:depends("encryption", "wep-open") wepslot:depends("encryption", "wep-shared") wepslot:value("1", translatef("Key #%d", 1)) wepslot:value("2", translatef("Key #%d", 2)) wepslot:value("3", translatef("Key #%d", 3)) wepslot:value("4", translatef("Key #%d", 4)) wepslot.cfgvalue = function(self, section) local slot = tonumber(m.uci:get("wireless", section, "key")) if not slot or slot < 1 or slot > 4 then return 1 end return slot end wepslot.write = function(self, section, value) self.map.uci:set("wireless", section, "key", value) end local slot for slot=1,4 do wepkey = s:taboption("encryption", Value, "key" .. slot, translatef("Key #%d", slot)) wepkey:depends("encryption", "wep-open") wepkey:depends("encryption", "wep-shared") wepkey.datatype = "wepkey" wepkey.rmempty = true wepkey.password = true function wepkey.write(self, section, value) if value and (#value == 5 or #value == 13) then value = "s:" .. value end return Value.write(self, section, value) end end if hwtype == "atheros" or hwtype == "mac80211" or hwtype == "prism2" then nasid = s:taboption("encryption", Value, "nasid", translate("NAS ID")) nasid:depends({mode="ap", encryption="wpa"}) nasid:depends({mode="ap", encryption="wpa2"}) nasid:depends({mode="ap-wds", encryption="wpa"}) nasid:depends({mode="ap-wds", encryption="wpa2"}) nasid.rmempty = true eaptype = s:taboption("encryption", ListValue, "eap_type", translate("EAP-Method")) eaptype:value("tls", "TLS") eaptype:value("ttls", "TTLS") eaptype:value("peap", "PEAP") eaptype:depends({mode="sta", encryption="wpa"}) eaptype:depends({mode="sta", encryption="wpa2"}) cacert = s:taboption("encryption", FileUpload, "ca_cert", translate("Path to CA-Certificate")) cacert:depends({mode="sta", encryption="wpa"}) cacert:depends({mode="sta", encryption="wpa2"}) privkey = s:taboption("encryption", FileUpload, "priv_key", translate("Path to Private Key")) privkey:depends({mode="sta", eap_type="tls", encryption="wpa2"}) privkey:depends({mode="sta", eap_type="tls", encryption="wpa"}) privkeypwd = s:taboption("encryption", Value, "priv_key_pwd", translate("Password of Private Key")) privkeypwd:depends({mode="sta", eap_type="tls", encryption="wpa2"}) privkeypwd:depends({mode="sta", eap_type="tls", encryption="wpa"}) auth = s:taboption("encryption", Value, "auth", translate("Authentication")) auth:value("PAP") auth:value("CHAP") auth:value("MSCHAP") auth:value("MSCHAPV2") auth:depends({mode="sta", eap_type="peap", encryption="wpa2"}) auth:depends({mode="sta", eap_type="peap", encryption="wpa"}) auth:depends({mode="sta", eap_type="ttls", encryption="wpa2"}) auth:depends({mode="sta", eap_type="ttls", encryption="wpa"}) identity = s:taboption("encryption", Value, "identity", translate("Identity")) identity:depends({mode="sta", eap_type="peap", encryption="wpa2"}) identity:depends({mode="sta", eap_type="peap", encryption="wpa"}) identity:depends({mode="sta", eap_type="ttls", encryption="wpa2"}) identity:depends({mode="sta", eap_type="ttls", encryption="wpa"}) password = s:taboption("encryption", Value, "password", translate("Password")) password:depends({mode="sta", eap_type="peap", encryption="wpa2"}) password:depends({mode="sta", eap_type="peap", encryption="wpa"}) password:depends({mode="sta", eap_type="ttls", encryption="wpa2"}) password:depends({mode="sta", eap_type="ttls", encryption="wpa"}) end return m