#!/usr/bin/env lua local json = require "luci.jsonc" local fs = require "nixio.fs" local function readfile(path) local s = fs.readfile(path) return s and (s:gsub("^%s+", ""):gsub("%s+$", "")) end local methods = { getInitList = { args = { name = "name" }, call = function(args) local sys = require "luci.sys" local _, name, scripts = nil, nil, {} for _, name in ipairs(args.name and { args.name } or sys.init.names()) do local index = sys.init.index(name) if index then scripts[name] = { index = index, enabled = sys.init.enabled(name) } else return { error = "No such init script" } end end return scripts end }, setInitAction = { args = { name = "name", action = "action" }, call = function(args) local sys = require "luci.sys" if type(sys.init[args.action]) ~= "function" then return { error = "Invalid action" } end return { result = sys.init[args.action](args.name) } end }, getLocaltime = { call = function(args) return { result = os.time() } end }, setLocaltime = { args = { localtime = 0 }, call = function(args) local sys = require "luci.sys" local date = os.date("*t", args.localtime) if date then sys.call("date -s '%04d-%02d-%02d %02d:%02d:%02d' >/dev/null" %{ date.year, date.month, date.day, date.hour, date.min, date.sec }) sys.call("/etc/init.d/sysfixtime restart >/dev/null") end return { result = args.localtime } end }, getTimezones = { call = function(args) local util = require "luci.util" local zones = require "luci.sys.zoneinfo" local tz = readfile("/etc/TZ") local res = util.ubus("uci", "get", { config = "system", section = "@system[0]", option = "zonename" }) local result = {} local _, zone for _, zone in ipairs(zones.TZ) do result[zone[1]] = { tzstring = zone[2], active = (res and res.value == zone[1]) and true or nil } end return result end }, getLEDs = { call = function() local iter = fs.dir("/sys/class/leds") local result = { } if iter then local led for led in iter do local m, s result[led] = { triggers = {} } s = readfile("/sys/class/leds/"..led.."/trigger") for s in (s or ""):gmatch("%S+") do m = s:match("^%[(.+)%]$") result[led].triggers[#result[led].triggers+1] = m or s result[led].active_trigger = m or result[led].active_trigger end s = readfile("/sys/class/leds/"..led.."/brightness") if s then result[led].brightness = tonumber(s) end s = readfile("/sys/class/leds/"..led.."/max_brightness") if s then result[led].max_brightness = tonumber(s) end end end return result end }, getUSBDevices = { call = function() local fs = require "nixio.fs" local iter = fs.glob("/sys/bus/usb/devices/[0-9]*/manufacturer") local result = { } if iter then result.devices = {} local p for p in iter do local id = p:match("/([^/]+)/manufacturer$") result.devices[#result.devices+1] = { id = id, vid = readfile("/sys/bus/usb/devices/"..id.."/idVendor"), pid = readfile("/sys/bus/usb/devices/"..id.."/idProduct"), vendor = readfile("/sys/bus/usb/devices/"..id.."/manufacturer"), product = readfile("/sys/bus/usb/devices/"..id.."/product"), speed = tonumber((readfile("/sys/bus/usb/devices/"..id.."/product"))) } end end iter = fs.glob("/sys/bus/usb/devices/*/*-port[0-9]*") if iter then result.ports = {} local p for p in iter do local port = p:match("([^/]+)$") local link = fs.readlink(p.."/device") result.ports[#result.ports+1] = { port = port, device = link and fs.basename(link) } end end return result end }, getDUIDHints = { call = function() local fp = io.open('/var/hosts/odhcpd') local result = { } if fp then for line in fp:lines() do local dev, duid, name = string.match(line, '# (%S+)%s+(%S+)%s+%d+%s+(%S+)') if dev and duid and name then result[duid] = { name = (name ~= "-") and name or nil, device = dev } end end fp:close() end return result end }, getConntrackHelpers = { call = function() local ok, fd = pcall(io.open, "/usr/share/fw3/helpers.conf", "r") local rv = {} if ok then local entry while true do local line = fd:read("*l") if not line then break end if line:match("^%s*config%s") then if entry then rv[#rv+1] = entry end entry = {} else local opt, val = line:match("^%s*option%s+(%S+)%s+(%S.*)$") if opt and val then opt = opt:gsub("^'(.+)'$", "%1"):gsub('^"(.+)"$', "%1") val = val:gsub("^'(.+)'$", "%1"):gsub('^"(.+)"$', "%1") entry[opt] = val end end end if entry then rv[#rv+1] = entry end fd:close() end return { result = rv } end }, getFeatures = { call = function() local fs = require "nixio.fs" local rv = {} local ok, fd rv.firewall = fs.access("/sbin/fw3") rv.opkg = fs.access("/bin/opkg") rv.offloading = fs.access("/sys/module/xt_FLOWOFFLOAD/refcnt") rv.br2684ctl = fs.access("/usr/sbin/br2684ctl") rv.swconfig = fs.access("/sbin/swconfig") rv.odhcpd = fs.access("/usr/sbin/odhcpd") rv.zram = fs.access("/sys/class/zram-control") rv.sysntpd = fs.readlink("/usr/sbin/ntpd") and true rv.ipv6 = fs.access("/proc/net/ipv6_route") rv.dropbear = fs.access("/usr/sbin/dropbear") local wifi_features = { "eap", "11n", "11ac", "11r", "11w", "acs", "sae", "owe", "suiteb192" } if fs.access("/usr/sbin/hostapd") then rv.hostapd = { cli = fs.access("/usr/sbin/hostapd_cli") } local _, feature for _, feature in ipairs(wifi_features) do rv.hostapd[feature] = (os.execute(string.format("/usr/sbin/hostapd -v%s >/dev/null 2>/dev/null", feature)) == 0) end end if fs.access("/usr/sbin/wpa_supplicant") then rv.wpasupplicant = { cli = fs.access("/usr/sbin/wpa_cli") } local _, feature for _, feature in ipairs(wifi_features) do rv.wpasupplicant[feature] = (os.execute(string.format("/usr/sbin/wpa_supplicant -v%s >/dev/null 2>/dev/null", feature)) == 0) end end ok, fd = pcall(io.popen, "dnsmasq --version 2>/dev/null") if ok then rv.dnsmasq = {} while true do local line = fd:read("*l") if not line then break end local opts = line:match("^Compile time options: (.+)$") if opts then local opt for opt in opts:gmatch("%S+") do local no = opt:match("^no%-(%S+)$") rv.dnsmasq[string.lower(no or opt)] = not no end break end end fd:close() end ok, fd = pcall(io.popen, "ipset --help 2>/dev/null") if ok then rv.ipset = {} local sets = false while true do local line = fd:read("*l") if not line then break elseif line:match("^Supported set types:") then sets = true elseif sets then local set, ver = line:match("^%s+(%S+)%s+(%d+)") if set and not rv.ipset[set] then rv.ipset[set] = tonumber(ver) end end end fd:close() end return rv end }, getSwconfigFeatures = { args = { switch = "switch0" }, call = function(args) local util = require "luci.util" -- Parse some common switch properties from swconfig help output. local swc, err = io.popen("swconfig dev %s help 2>/dev/null" % util.shellquote(args.switch)) if swc then local is_port_attr = false local is_vlan_attr = false local rv = {} while true do local line = swc:read("*l") if not line then break end if line:match("^%s+%-%-vlan") then is_vlan_attr = true elseif line:match("^%s+%-%-port") then is_vlan_attr = false is_port_attr = true elseif line:match("cpu @") then rv.switch_title = line:match("^switch%d: %w+%((.-)%)") rv.num_vlans = tonumber(line:match("vlans: (%d+)")) or 16 rv.min_vid = 1 elseif line:match(": pvid") or line:match(": tag") or line:match(": vid") then if is_vlan_attr then rv.vid_option = line:match(": (%w+)") end elseif line:match(": enable_vlan4k") then rv.vlan4k_option = "enable_vlan4k" elseif line:match(": enable_vlan") then rv.vlan_option = "enable_vlan" elseif line:match(": enable_learning") then rv.learning_option = "enable_learning" elseif line:match(": enable_mirror_rx") then rv.mirror_option = "enable_mirror_rx" elseif line:match(": max_length") then rv.jumbo_option = "max_length" end end swc:close() if not next(rv) then return { error = "No such switch" } end return rv else return { error = err } end end }, getSwconfigPortState = { args = { switch = "switch0" }, call = function(args) local util = require "luci.util" local swc, err = io.popen("swconfig dev %s show 2>/dev/null" % util.shellquote(args.switch)) if swc then local ports = { } while true do local line = swc:read("*l") if not line then break end local port, up = line:match("port:(%d+) link:(%w+)") if port then local speed = line:match(" speed:(%d+)") local duplex = line:match(" (%w+)-duplex") local txflow = line:match(" (txflow)") local rxflow = line:match(" (rxflow)") local auto = line:match(" (auto)") ports[#ports+1] = { port = tonumber(port) or 0, speed = tonumber(speed) or 0, link = (up == "up"), duplex = (duplex == "full"), rxflow = (not not rxflow), txflow = (not not txflow), auto = (not not auto) } end end swc:close() if not next(ports) then return { error = "No such switch" } end return { result = ports } else return { error = err } end end }, setPassword = { args = { username = "root", password = "password" }, call = function(args) local util = require "luci.util" return { result = (os.execute("(echo %s; sleep 1; echo %s) | passwd %s >/dev/null 2>&1" %{ luci.util.shellquote(args.password), luci.util.shellquote(args.password), luci.util.shellquote(args.username) }) == 0) } end }, getBlockDevices = { call = function() local fs = require "nixio.fs" local block = io.popen("/sbin/block info", "r") if block then local rv = {} while true do local ln = block:read("*l") if not ln then break end local dev = ln:match("^/dev/(.-):") if dev then local s = tonumber((fs.readfile("/sys/class/block/" .. dev .."/size"))) local e = { dev = "/dev/" .. dev, size = s and s * 512 } local key, val = { } for key, val in ln:gmatch([[(%w+)="(.-)"]]) do e[key:lower()] = val end rv[dev] = e end end block:close() return rv else return { error = "Unable to execute block utility" } end end }, setBlockDetect = { call = function() return { result = (os.execute("/sbin/block detect > /etc/config/fstab") == 0) } end }, getMountPoints = { call = function() local fs = require "nixio.fs" local fd, err = io.open("/proc/mounts", "r") if fd then local rv = {} while true do local ln = fd:read("*l") if not ln then break end local device, mount, fstype, options, freq, pass = ln:match("^(%S*) (%S*) (%S*) (%S*) (%d+) (%d+)$") if device and mount then device = device:gsub("\\(%d+)", function(n) return string.char(tonumber(n, 8)) end) mount = mount:gsub("\\(%d+)", function(n) return string.char(tonumber(n, 8)) end) local stat = fs.statvfs(mount) if stat and stat.blocks > 0 then rv[#rv+1] = { device = device, mount = mount, size = stat.bsize * stat.blocks, avail = stat.bsize * stat.bavail, free = stat.bsize * stat.bfree } end end end fd:close() return { result = rv } else return { error = err } end end }, getRealtimeStats = { args = { mode = "interface", device = "eth0" }, call = function(args) local util = require "luci.util" local flags if args.mode == "interface" then flags = "-i %s" % util.shellquote(args.device) elseif args.mode == "wireless" then flags = "-r %s" % util.shellquote(args.device) elseif args.mode == "conntrack" then flags = "-c" elseif args.mode == "load" then flags = "-l" else return { error = "Invalid mode" } end local fd, err = io.popen("luci-bwc %s" % flags, "r") if fd then local parse = json.new() local done parse:parse("[") while true do local ln = fd:read("*l") if not ln then break end done, err = parse:parse((ln:gsub("%d+", "%1.0"))) if done then err = "Unexpected JSON data" end if err then break end end fd:close() done, err = parse:parse("]") if err then return { error = err } elseif not done then return { error = "Incomplete JSON data" } else return { result = parse:get() } end else return { error = err } end end }, getConntrackList = { call = function() local sys = require "luci.sys" return { result = sys.net.conntrack() } end }, getProcessList = { call = function() local sys = require "luci.sys" local res = {} for _, v in pairs(sys.process.list()) do res[#res + 1] = v end return { result = res } end } } local function parseInput() local parse = json.new() local done, err while true do local chunk = io.read(4096) if not chunk then break elseif not done and not err then done, err = parse:parse(chunk) end end if not done then print(json.stringify({ error = err or "Incomplete input" })) os.exit(1) end return parse:get() end local function validateArgs(func, uargs) local method = methods[func] if not method then print(json.stringify({ error = "Method not found" })) os.exit(1) end if type(uargs) ~= "table" then print(json.stringify({ error = "Invalid arguments" })) os.exit(1) end uargs.ubus_rpc_session = nil local k, v local margs = method.args or {} for k, v in pairs(uargs) do if margs[k] == nil or (v ~= nil and type(v) ~= type(margs[k])) then print(json.stringify({ error = "Invalid arguments" })) os.exit(1) end end return method end if arg[1] == "list" then local _, method, rv = nil, nil, {} for _, method in pairs(methods) do rv[_] = method.args or {} end print((json.stringify(rv):gsub(":%[%]", ":{}"))) elseif arg[1] == "call" then local args = parseInput() local method = validateArgs(arg[2], args) local result, code = method.call(args) print((json.stringify(result):gsub("^%[%]$", "{}"))) os.exit(code or 0) end