/* * Acquires time from NTP server */ TimeChangeRule UTCr = {Last, Sun, Mar, 1, 0}; // UTC Timezone tzUTC(UTCr, UTCr); TimeChangeRule BST = {Last, Sun, Mar, 1, 60}; // British Summer Time TimeChangeRule GMT = {Last, Sun, Oct, 2, 0}; // Standard Time Timezone tzUK(BST, GMT); TimeChangeRule CEST = {Last, Sun, Mar, 2, 120}; //Central European Summer Time TimeChangeRule CET = {Last, Sun, Oct, 3, 60}; //Central European Standard Time Timezone tzEUCentral(CEST, CET); TimeChangeRule EEST = {Last, Sun, Mar, 3, 180}; //Central European Summer Time TimeChangeRule EET = {Last, Sun, Oct, 4, 120}; //Central European Standard Time Timezone tzEUEastern(EEST, EET); TimeChangeRule EDT = {Second, Sun, Mar, 2, -240 }; //Daylight time = UTC - 4 hours TimeChangeRule EST = {First, Sun, Nov, 2, -300 }; //Standard time = UTC - 5 hours Timezone tzUSEastern(EDT, EST); TimeChangeRule CDT = {Second, Sun, Mar, 2, -300 }; //Daylight time = UTC - 5 hours TimeChangeRule CST = {First, Sun, Nov, 2, -360 }; //Standard time = UTC - 6 hours Timezone tzUSCentral(CDT, CST); TimeChangeRule MDT = {Second, Sun, Mar, 2, -360 }; //Daylight time = UTC - 6 hours TimeChangeRule MST = {First, Sun, Nov, 2, -420 }; //Standard time = UTC - 7 hours Timezone tzUSMountain(MDT, MST); Timezone tzUSArizona(MST, MST); //Mountain without DST TimeChangeRule PDT = {Second, Sun, Mar, 2, -420 }; //Daylight time = UTC - 7 hours TimeChangeRule PST = {First, Sun, Nov, 2, -480 }; //Standard time = UTC - 8 hours Timezone tzUSPacific(PDT, PST); TimeChangeRule ChST = {Last, Sun, Mar, 1, 480}; // China Standard Time = UTC + 8 hours Timezone tzChina(ChST, ChST); TimeChangeRule JST = {Last, Sun, Mar, 1, 540}; // Japan Standard Time = UTC + 9 hours Timezone tzJapan(JST, JST); TimeChangeRule AEDT = {Second, Sun, Oct, 2, 660 }; //Daylight time = UTC + 11 hours TimeChangeRule AEST = {First, Sun, Apr, 3, 600 }; //Standard time = UTC + 10 hours Timezone tzAUEastern(AEDT, AEST); TimeChangeRule NZDT = {Second, Sun, Sep, 2, 780 }; //Daylight time = UTC + 13 hours TimeChangeRule NZST = {First, Sun, Apr, 3, 720 }; //Standard time = UTC + 12 hours Timezone tzNZ(NZDT, NZST); TimeChangeRule NKST = {Last, Sun, Mar, 1, 510}; //Pyongyang Time = UTC + 8.5 hours Timezone tzNK(NKST, NKST); Timezone* timezones[] = {&tzUTC, &tzUK, &tzEUCentral, &tzEUEastern, &tzUSEastern, &tzUSCentral, &tzUSMountain, &tzUSArizona, &tzUSPacific, &tzChina, &tzJapan, &tzAUEastern, &tzNZ, &tzNK}; void handleNetworkTime() { if (ntpEnabled && ntpConnected && millis() - ntpLastSyncTime > 50000000L && WLED_CONNECTED) { if (millis() - ntpPacketSentTime > 10000) { sendNTPPacket(); ntpPacketSentTime = millis(); } if (checkNTPResponse()) { ntpLastSyncTime = millis(); } } } void sendNTPPacket() { WiFi.hostByName(ntpServerName, ntpServerIP); DEBUG_PRINTLN("send NTP"); byte pbuf[NTP_PACKET_SIZE]; memset(pbuf, 0, NTP_PACKET_SIZE); pbuf[0] = 0b11100011; // LI, Version, Mode pbuf[1] = 0; // Stratum, or type of clock pbuf[2] = 6; // Polling Interval pbuf[3] = 0xEC; // Peer Clock Precision // 8 bytes of zero for Root Delay & Root Dispersion pbuf[12] = 49; pbuf[13] = 0x4E; pbuf[14] = 49; pbuf[15] = 52; ntpUdp.beginPacket(ntpServerIP, 123); //NTP requests are to port 123 ntpUdp.write(pbuf, NTP_PACKET_SIZE); ntpUdp.endPacket(); } bool checkNTPResponse() { int cb = ntpUdp.parsePacket(); if (cb) { DEBUG_PRINT("NTP recv, l="); DEBUG_PRINTLN(cb); byte pbuf[NTP_PACKET_SIZE]; ntpUdp.read(pbuf, NTP_PACKET_SIZE); // read the packet into the buffer unsigned long highWord = word(pbuf[40], pbuf[41]); unsigned long lowWord = word(pbuf[42], pbuf[43]); if (highWord == 0 && lowWord == 0) return false; unsigned long secsSince1900 = highWord << 16 | lowWord; DEBUG_PRINT("Unix time = "); unsigned long epoch = secsSince1900 - 2208988799UL; //subtract 70 years -1sec (on avg. more precision) setTime(epoch); DEBUG_PRINTLN(epoch); if (countdownTime - now() > 0) countdownOverTriggered = false; return true; } return false; } void updateLocalTime() { unsigned long tmc = now()+ utcOffsetSecs; local = timezones[currentTimezone]->toLocal(tmc); } void getTimeString(char* out) { updateLocalTime(); byte hr = hour(local); if (useAMPM) { if (hr > 11) hr -= 12; if (hr == 0) hr = 12; } sprintf(out,"%i-%i-%i, %i:%s%i:%s%i",year(local), month(local), day(local), hr,(minute(local)<10)?"0":"",minute(local), (second(local)<10)?"0":"",second(local)); if (useAMPM) { strcat(out,(hour(local) > 11)? " PM":" AM"); } } void setCountdown() { countdownTime = timezones[currentTimezone]->toUTC(getUnixTime(countdownHour, countdownMin, countdownSec, countdownDay, countdownMonth, countdownYear)); if (countdownTime - now() > 0) countdownOverTriggered = false; } //returns true if countdown just over bool checkCountdown() { long diff = countdownTime - now(); local = abs(diff); if (diff <0 && !countdownOverTriggered) { if (macroCountdown != 0) applyMacro(macroCountdown); countdownOverTriggered = true; return true; } return false; } byte weekdayMondayFirst() { byte wd = weekday(local) -1; if (wd == 0) wd = 7; return wd; } void checkTimers() { if (lastTimerMinute != minute(local)) //only check once a new minute begins { lastTimerMinute = minute(local); for (uint8_t i = 0; i < 8; i++) { if (timerMacro[i] != 0 && (timerHours[i] == hour(local) || timerHours[i] == 24) //if hour is set to 24, activate every hour && timerMinutes[i] == minute(local) && (timerWeekday[i] & 0x01) //timer is enabled && timerWeekday[i] >> weekdayMondayFirst() & 0x01) //timer should activate at current day of week { applyMacro(timerMacro[i]); } } } }