aredn/files/www/cgi-bin/scan

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#!/usr/bin/lua
--[[
Part of AREDN -- Used for creating Amateur Radio Emergency Data Networks
Copyright (C) 2021 Tim Wilkinson
Original Perl Copyright (C) 2015 Conrad Lara
See Contributors file for additional contributors
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation version 3 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Additional Terms:
Additional use restrictions exist on the AREDN(TM) trademark and logo.
See AREDNLicense.txt for more info.
Attributions to the AREDN Project must be retained in the source code.
If importing this code into a new or existing project attribution
to the AREDN project must be added to the source code.
You must not misrepresent the origin of the material contained within.
Modified versions must be modified to attribute to the original source
and be marked in reasonable ways as differentiate it from the original
version
--]]
require("aredn.http")
require("aredn.hardware")
local html = require("aredn.html")
local aredn_info = require("aredn.info")
local node = aredn_info.get_nvram("node")
if not node then
node = "NOCALL"
end
local wifiiface = aredn.hardware.get_iface_name("wifi")
local phy = iwinfo.nl80211.phyname(wifiiface)
local rfband = aredn.hardware.get_rfband()
if not nixio.fs.stat("/tmp/web") then
nixio.fs.mkdir("/tmp/web")
end
-- scan start
local scanned = {}
os.execute("echo 'chanscan' > /sys/kernel/debug/ieee80211/" .. phy .. "/ath9k/spectral_scan_ctl")
local f = io.popen("iw dev " .. wifiiface .. " scan passive")
if f then
local scan
for line in f:lines()
do
local m = line:match("^BSS ([%da-fA-F:]+)")
if m then
scan = {
mac = m,
mode = "AP",
ssid = "",
signal = 0,
freq = 0,
key = ""
}
scanned[#scanned + 1] = scan
if line:match("joined") then
scan.mode = "My Ad-Hoc Network"
end
end
m = line:match("freq: (%d+)")
if m then
scan.freq = tonumber(m)
end
m = line:match("SSID: (.+)")
if m then
scan.ssid = m
end
m = line:match("signal: ([%d-]+)")
if m then
scan.signal = tonumber(m)
end
m = line:match("Group cipher: (.+)")
if m then
scan.key = m
end
if line:match("capability: IBSS") and scan.mode == "AP" then
scan.mode = "Foreign Ad-Hoc Network"
end
end
f:close()
end
local samples = io.open("/sys/kernel/debug/ieee80211/" .. phy .. "/ath9k/spectral_scan0", "rb"):read("*a")
os.execute("echo 'disable' > /sys/kernel/debug/ieee80211/" .. phy .. "/ath9k/spectral_scan_ctl")
local f = io.popen("iw dev " .. wifiiface .. " station dump")
if f then
local scan
local myssid = aredn_info.getSSID()
local myfreq = tonumber(aredn_info.getFreq())
for line in f:lines()
do
local m = line:match("^Station ([%da-fA-F:]+) %(on " .. wifiiface .. "%)")
if m then
scan = {
mac = m,
mode = "Connected Ad-Hoc Station",
ssid = myssid,
signal = 0,
freq = myfreq,
key = ""
}
scanned[#scanned + 1] = scan
end
m = line:match("signal avg:%s+([%d-]+)")
if m then
scan.signal = tonumber(m)
end
end
f:close()
end
-- scan end
if os.getenv("REQUEST_METHOD") == "POST" then
require('luci.http')
require('luci.sys')
local request = luci.http.Request(luci.sys.getenv(),
function()
local v = io.read(1024)
if not v then
io.close()
end
return v
end
)
if request:formvalue("auto") then
io.open("/tmp/web/autoscan", "w"):close()
end
if request:formvalue("stop") then
os.remove("/tmp/web/autoscan")
end
end
-- generate page
http_header()
html.header(node .. " WiFi scan", false)
local autoscan = nixio.fs.stat("/tmp/web/autoscan");
if autoscan then
html.print("<meta http-equiv='refresh' content='5;url=/cgi-bin/scan'>")
end
html.print([[
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<script src="/js/sorttable-min.js"></script>
<style>
table.sortable thead {
background-color:#eee;
color:#666666;
font-weight: bold;
cursor: default;
}
</style>
</head>
<body><form method=post action=/cgi-bin/scan enctype='multipart/form-data'>
<center>
]])
html.alert_banner()
html.print("<h1>" .. node .. " WiFi scan</h1><hr>")
if autoscan then
html.print("<input type=submit name=stop value=Stop title='Abort continuous scan'>")
else
html.print("<input type=submit name=refresh value=Refresh title='Refresh this page'>")
html.print("&nbsp;&nbsp;&nbsp;")
html.print("<input type=submit name=auto value=Auto title='Begin continuous scan'>")
end
html.print("&nbsp;&nbsp;&nbsp;")
html.print("<button type=button onClick='window.location=\"status\"' title='Return to status page'>Quit</button><br><br>")
-- display scan
html.print("<table class=sortable border=1 cellpadding=5>")
html.print("<tr><th>Sig</th><th>Chan</th><th>Enc</th><th>SSID</th><th>Hostname</th><th>MAC/BSSID</th><th>802.11 Mode</th></tr>")
-- load arp cache
local arpcache = {}
arptable(function(a)
arpcache[a["HW address"]] = a["IP address"]
end)
local scanlist = {}
for _, v in ipairs(scanned)
do
if v.signal ~= 0 then
scanlist[#scanlist + 1] = v
end
end
table.sort(scanlist, function(a, b) return a.signal > b.signal end)
for _, scan in ipairs(scanlist)
do
-- freq to chan
local chan = scan.freq
if chan < 256 then
elseif chan == 2484 then
chan = 14
elseif chan == 2407 then
chan = 0
elseif chan < 2484 then
chan = (chan - 2407) / 5
elseif chan < 5000 then
elseif chan < 5380 then
chan = (chan - 5000) / 5
elseif chan < 5500 then
chan = chan - 2000
elseif chan < 6000 then
chan = (chan - 5000) / 5
end
-- ip lookup then host lookup
local ip = arpcache[scan.mac]
if ip then
hostname = ip
local f = io.popen("nslookup " .. ip)
if f then
for line in f:lines()
do
local m = line:match("name = (.*)%.local%.mesh")
if m then
hostname = m
break
end
end
f:close()
end
else
hostname = "N/A"
end
if scan.ssid:match("^AREDN-") then
html.print("<tr class=\"wscan-row-node\">")
else
html.print("<tr>")
end
html.print("<td>" .. scan.signal .. "</td><td>" .. chan .. "</td><td>" .. scan.key .. "</td><td>" .. scan.ssid .. "</td><td align=center>" .. hostname .. "</td><td>" .. scan.mac:upper() .. "</td><td>" .. scan.mode .. "</td>")
html.print("</tr>")
end
html.print("</table><br></center>")
-- Spectral information
local cwidth = 800;
local cheight = 400;
html.print([[
<center style="font-family: Arial">
<div style="padding:8px">Spectral View</div>
<div style="position:relative;display:inline-block"><div style="position:absolute;left:-34px;top:-200px;transform:rotate(-90deg)">Signal</div></div>
<canvas id="spectral" width="]] .. cwidth .. [[" height="]] .. cheight .. [[" style="border:1px solid grey;background-color:white"></canvas>
<div style="padding:4px">Channel</div>
</center>
<script>
const canvas = document.getElementById("spectral");
const ctx = canvas.getContext("2d");
]]);
function u8tos8(b)
return b >= 128 and b - 256 or b
end
local nf = iwinfo.nl80211.noise(wifiiface) or -95
local start_freq
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local end_freq
if rfband == "900" then
start_freq = 902
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end_freq = 925
html.print("const freq2chan = (f) => (f - 887) / 5;");
elseif rfband == "2400" then
start_freq = 2377
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end_freq = 2477
html.print("const freq2chan = (f) => (f - 2407) / 5;");
elseif rfband == "3400" then
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-- transverted
start_freq = 5370
end_freq = 5505
html.print("const freq2chan = (f) => (f - 5000) / 5;");
else
start_freq = 5650
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end_freq = 5925
html.print("const freq2chan = (f) => (f - 5000) / 5;");
end
local bw
for line in io.lines("/etc/config.mesh/_setup")
do
bw = line:match("^wifi_chanbw%s=%s(%d+)")
if bw then
break
end
end
bw = tonumber(bw) or 10
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local xscale = cwidth / (end_freq - start_freq)
local min_sig = nf
local max_sig = -60
local i = 1
html.write("const p = [")
while i < #samples
do
local t = samples:byte(i)
local l = samples:byte(i + 1) * 256 + samples:byte(i + 2)
if t == 1 then
local max_exp = samples:byte(i + 3)
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local freq = samples:byte(i + 4) * 256 + samples:byte(i + 5)
if freq >= start_freq and freq <= end_freq then
local rssi = u8tos8(samples:byte(i + 6))
local noise = u8tos8(samples:byte(i + 7))
local datasqsum = 0
local dlen = l - 18
local v = {}
for dptr = 0, dlen - 1
do
local data = nixio.bit.lshift(samples:byte(dptr + i + 20), max_exp)
if data == 0 then
data = 1
end
datasqsum = datasqsum + data * data
v[dptr] = data
end
datasqsum = math.log10(datasqsum) * 10
for dptr = 0, dlen - 1
do
local data = v[dptr]
local sig = noise + rssi + 20 * math.log10(data) - datasqsum
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local fr = freq + bw * (dptr / dlen - 0.5) - start_freq
if sig >= -125 then
if sig < min_sig then
min_sig = sig
end
if sig > max_sig then
max_sig = sig
end
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html.write(math.floor(fr * xscale) .. "," .. math.floor(-sig * 4) .. ",")
end
end
end
end
i = i + 3 + l
end
html.print("-1,-1];");
html.print("const yscale = " .. (-cheight / (max_sig - min_sig) / 4) .. ";")
html.print("const ytran = " .. (-max_sig * 4) .. ";")
html.print([[
const img = ctx.createImageData(]] .. cwidth .. [[,]] .. cheight ..[[);
const d = img.data;
for (let i = 0; i < p.length; i += 2) {
const sig = p[i+1];
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const idx = 4 * (p[i] + ]] .. cwidth .. [[ * Math.floor(yscale * (ytran - sig)));
if (sig < ]] .. (-4 * nf) .. [[) {
d[idx] = 0;
d[idx+1] = 0;
d[idx+2] = 255;
d[idx+4] = 0;
d[idx+5] = 0;
d[idx+6] = 255;
}
else {
d[idx] = 128;
d[idx+1] = 128;
d[idx+2] = 128;
d[idx+4] = 128;
d[idx+5] = 128;
d[idx+6] = 128;
}
d[idx+3] = 255;
d[idx+7] = 255;
}
ctx.putImageData(img, 0, 0);
ctx.strokeStyle = "lightgrey";
ctx.fillStyle = "black";
ctx.font = "12px Arial";
ctx.textAlign = "center";
ctx.beginPath()
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for (let f = ]] .. start_freq .. [[; f < ]] .. end_freq .. [[; f += 10) {
const x = Math.floor((f - ]] .. start_freq .. [[) * ]] .. xscale .. [[);
ctx.moveTo(x, 0);
ctx.lineTo(x, ]] .. (cheight - 20) .. [[);
ctx.fillText("" + freq2chan(f), x, ]] .. cheight - 4 .. [[);
}
ctx.stroke();
ctx.textAlign = "left";
ctx.strokeStyle = "lightblue";
ctx.beginPath();
for (let signal = -30; signal >= -120; signal -= 10) {
const y = Math.floor(yscale * (ytran + signal * 4));
ctx.moveTo(30, y);
ctx.lineTo(]] .. cwidth .. [[, y);
ctx.fillText("" + signal, 2, y);
}
ctx.stroke();
ctx.strokeStyle = "blue";
ctx.beginPath();
const y = Math.floor(yscale * (]] .. (nf * 4) .. [[ + ytran));
ctx.moveTo(30, y);
ctx.lineTo(]] .. cwidth .. [[, y);
ctx.fillText("NF", 4, y);
ctx.stroke();
</script></form>
]])
html.footer()
html.print("</body></html>")