dofile("wlancfg.lua") dofile("timecore.lua") dofile("wordclock.lua") dofile("displayword.lua") timezoneoffset=1 ledPin=4 -- Color is defined as GREEN, RED, BLUE color=string.char(0,0,250) connect_counter=0 -- Wait to be connect to the WiFi access point. tmr.alarm(0, 500, 1, function() connect_counter=connect_counter+1 if wifi.sta.status() ~= 5 then print("Connecting to AP...") if (connect_counter % 2 == 0) then ws2812.write(ledPin, string.char(255,0,0):rep(114)) else ws2812.write(ledPin, string.char(0,0,0):rep(114)) end else tmr.stop(0) print('IP: ',wifi.sta.getip()) --ptbtime1.ptb.de sntp.sync('ptbtime1.ptb.de', function(sec,usec,server) print('sync', sec, usec, server) end, function() print('failed!') end ) end -- when no wifi available, open an accesspoint and ask the user if (connect_counter == 300) then -- 300 is 30 sec in 100ms cycle tmr.stop(0) wifi.setmode(wifi.SOFTAP) wifi.ap.config({ssid='clock',pwd='clock'}) print("Waiting in access point >clock< for Clients") print("Please visit 192.168.4.1") dofile("webserver.lua") end end) tmr.alarm(1, 15000, 1 ,function() sec, usec = rtctime.get() time = getTime(sec, timezoneoffset) print("Local time : " .. time.year .. "-" .. time.month .. "-" .. time.day .. " " .. time.hour .. ":" .. time.minute .. ":" .. time.second) words = display_timestat(time.hour, time.minute) ledBuf = generateLEDs(words, color) -- Write the buffer to the LEDs ws2812.write(ledPin, ledBuf) -- Used for debugging if (clockdebug ~= nil) then for key,value in pairs(words) do if (value > 0) then print(key,value) end end end end)