Toki 1st experiment

tools/WLED_ESP32_4MB_1MB_FS.csv

@@ -0,0 +1,6 @@
+# Name,   Type, SubType, Offset,  Size, Flags
+nvs,      data, nvs,     0x9000,  0x5000,
+otadata,  data, ota,     0xe000,  0x2000,
+app0,     app,  ota_0,   0x10000, 0x17B000,
+app1,     app,  ota_1,   0x18B000,0x17B000,
+spiffs,   data, spiffs,  0x306000,0x0FA000,

usermods/EleksTube_IPS/usermod_elekstube_ips.h

@@ -41,18 +41,14 @@ class ElekstubeIPSUsermod : public Usermod {
       tfts.begin();
       tfts.fillScreen(TFT_BLACK);
       tfts.setTextColor(TFT_WHITE, TFT_BLACK);
-      tfts.setCursor(0, 0, 2);
+      tfts.setCursor(0, 100, 2);
       tfts.println("<STARTUP>");
     }
 
     void loop() {
-      if (lastTime == 0) {
-        tfts.fillScreen(TFT_BLACK);
-        updateClockDisplay(TFTs::force);
-      }
-      if (millis() - lastTime > 100) {
+      if (toki.isTick()) {
+        updateLocalTime();
         updateClockDisplay();
-        lastTime = millis();
       }
     }
 

wled00/ntp.cpp

@@ -183,20 +183,30 @@ bool checkNTPResponse()
 {
   int cb = ntpUdp.parsePacket();
   if (cb) {
+    uint32_t ntpPacketReceivedTime = millis();
     DEBUG_PRINT(F("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;
+    Toki::Time arrived  = toki.fromNTP(pbuf + 32);
+    Toki::Time departed = toki.fromNTP(pbuf + 40);
+    //basic half roundtrip estimation
+    uint32_t offset = (ntpPacketReceivedTime - ntpPacketSentTime - toki.msDifference(arrived, departed)) >> 1;
+    offset += millis() - ntpPacketReceivedTime +1;
+    toki.adjust(departed, offset);
+    toki.setTime(departed);
+    Serial.print("Roundtrip: ");
+    Serial.println(ntpPacketReceivedTime - ntpPacketSentTime);
+    Serial.print("Offset: ");
+    Serial.println(offset);
+    Serial.print("Time: ");
+    toki.printTime(toki.getTime());
  
     DEBUG_PRINT(F("Unix time = "));
-    unsigned long epoch = secsSince1900 - 2208988799UL; //subtract 70 years -1sec (on avg. more precision)
-    setTime(epoch);
+    uint32_t epoch = toki.second();
+    if (epoch == 0) return false;
+    setTime(epoch); //legacy
     DEBUG_PRINTLN(epoch);
     if (countdownTime - now() > 0) countdownOverTriggered = false;
     // if time changed re-calculate sunrise/sunset
@@ -210,7 +220,7 @@ bool checkNTPResponse()
 void updateLocalTime()
 {
   if (currentTimezone != tzCurrent) updateTimezone();
-  unsigned long tmc = now()+ utcOffsetSecs;
+  unsigned long tmc = toki.second()+ utcOffsetSecs;
   localTime = tz->toLocal(tmc);
 }
 

wled00/overlay.cpp

@@ -21,13 +21,16 @@ void initCronixie()
 
 void handleOverlays()
 {
-  if (millis() - overlayRefreshedTime > overlayRefreshMs)
+  if (toki.isTick())
   {
     initCronixie();
     updateLocalTime();
     checkTimers();
     checkCountdown();
-    if (overlayCurrent == 3) _overlayCronixie();//Diamex cronixie clock kit
+    if (overlayCurrent == 3) {
+      _overlayCronixie();//Diamex cronixie clock kit
+      strip.trigger();
+    }
     overlayRefreshedTime = millis();
   }
 }

wled00/src/dependencies/time/Time.cpp

@@ -37,7 +37,6 @@
 
 static tmElements_t tm;          // a cache of time elements
 static time_t cacheTime;   // the time the cache was updated
-static uint32_t syncInterval = 300;  // time sync will be attempted after this many seconds
 
 void refreshCache(time_t t) {
   if (t != cacheTime) {
@@ -234,18 +233,9 @@ time_t makeTime(tmElements_t &tm){
 /*=====================================================*/	
 /* Low level system time functions  */
 
-static uint32_t sysTime = 0;
+static uint32_t sysTime = 0; //seconds
+static uint16_t sysMillis = 0;
 static uint32_t prevMillis = 0;
-static uint32_t nextSyncTime = 0;
-static timeStatus_t Status = timeNotSet;
-
-getExternalTime getTimePtr;  // pointer to external sync function
-//setExternalTime setTimePtr; // not used in this version
-
-#ifdef TIME_DRIFT_INFO   // define this to get drift data
-time_t sysUnsyncedTime = 0; // the time sysTime unadjusted by sync  
-#endif
-
 
 time_t now() {
 	// calculate number of seconds passed since last call to now()
@@ -253,33 +243,18 @@ time_t now() {
 		// millis() and prevMillis are both unsigned ints thus the subtraction will always be the absolute value of the difference
     sysTime++;
     prevMillis += 1000;	
-#ifdef TIME_DRIFT_INFO
-    sysUnsyncedTime++; // this can be compared to the synced time to measure long term drift     
-#endif
-  }
-  if (nextSyncTime <= sysTime) {
-    if (getTimePtr != 0) {
-      time_t t = getTimePtr();
-      if (t != 0) {
-        setTime(t);
-      } else {
-        nextSyncTime = sysTime + syncInterval;
-        Status = (Status == timeNotSet) ?  timeNotSet : timeNeedsSync;
-      }
-    }
   }
+
   return (time_t)sysTime;
 }
 
-void setTime(time_t t) { 
-#ifdef TIME_DRIFT_INFO
- if(sysUnsyncedTime == 0) 
-   sysUnsyncedTime = t;   // store the time of the first call to set a valid Time   
-#endif
+uint16_t millisecond() { // the millisecond (0-999) now
+  return (sysMillis - millis()) % 1000;
+}
 
+void setTime(time_t t, uint16_t ms) { 
   sysTime = (uint32_t)t;
-  nextSyncTime = (uint32_t)t + syncInterval;
-  Status = timeSet;
+  sysMillis = ms;
   prevMillis = millis();  // restart counting from now (thanks to Korman for this fix)
 }
 
@@ -299,27 +274,10 @@ time_t getUnixTime(int hr,int min,int sec,int dy, int mnth, int yr){
   return makeTime(tm);
 }
 
-void setTime(int hr,int min,int sec,int dy, int mnth, int yr){
- setTime(getUnixTime(hr,min,sec,dy,mnth,yr));
+void setTime(int hr,int min,int sec,int dy, int mnth, int yr, uint16_t ms){
+ setTime(getUnixTime(hr,min,sec,dy,mnth,yr), ms);
 }
 
 void adjustTime(long adjustment) {
   sysTime += adjustment;
 }
-
-// indicates if time has been set and recently synchronized
-timeStatus_t timeStatus() {
-  now(); // required to actually update the status
-  return Status;
-}
-
-void setSyncProvider( getExternalTime getTimeFunction){
-  getTimePtr = getTimeFunction;  
-  nextSyncTime = sysTime;
-  now(); // this will sync the clock
-}
-
-void setSyncInterval(time_t interval){ // set the number of seconds between re-sync
-  syncInterval = (uint32_t)interval;
-  nextSyncTime = sysTime + syncInterval;
-}

wled00/src/dependencies/time/TimeLib.h

@@ -31,8 +31,6 @@ typedef unsigned long time_t;
 // but at least this hack lets us define C++ functions as intended.  Hopefully
 // nothing too terrible will result from overriding the C library header?!
 extern "C++" {
-typedef enum {timeNotSet, timeNeedsSync, timeSet
-}  timeStatus_t ;
 
 typedef enum {
     dowInvalid, dowSunday, dowMonday, dowTuesday, dowWednesday, dowThursday, dowFriday, dowSaturday
@@ -116,10 +114,11 @@ int     month();           // the month now  (Jan is month 1)
 int     month(time_t t);   // the month for the given time
 int     year();            // the full four digit year: (2009, 2010 etc) 
 int     year(time_t t);    // the year for the given time
+uint16_t millisecond();    // the millisecond now
 
 time_t now();              // return the current time as seconds since Jan 1 1970 
-void    setTime(time_t t);
-void    setTime(int hr,int min,int sec,int day, int month, int yr);
+void    setTime(time_t t, uint16_t ms = 0);
+void    setTime(int hr,int min,int sec,int day, int month, int yr, uint16_t ms = 0);
 time_t	getUnixTime(int hr,int min,int sec,int day, int month, int yr); //added by Aircoookie to get epoch time
 void    adjustTime(long adjustment);
 
@@ -130,12 +129,7 @@ char* dayStr(uint8_t day);
 char* monthShortStr(uint8_t month);
 char* dayShortStr(uint8_t day);
 
-/* time sync functions	*/
-timeStatus_t timeStatus(); // indicates if time has been set and recently synchronized
-void    setSyncProvider( getExternalTime getTimeFunction); // identify the external time provider
-void    setSyncInterval(time_t interval); // set the number of seconds between re-sync
-
-/* low level functions to convert to and from system time                     */
+/* low level functions to convert to and from system time */
 void breakTime(time_t time, tmElements_t &tm);  // break time_t into elements
 time_t makeTime(tmElements_t &tm);  // convert time elements into time_t
 

wled00/src/dependencies/toki/Toki.h

@@ -0,0 +1,128 @@
+/*
+  Toki.h - Minimal millisecond accurate timekeeping.
+
+  LICENSE
+  The MIT License (MIT)
+  Copyright (c) 2021 Christian Schwinne
+  Permission is hereby granted, free of charge, to any person obtaining a copy
+  of this software and associated documentation files (the "Software"), to deal
+  in the Software without restriction, including without limitation the rights
+  to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+  copies of the Software, and to permit persons to whom the Software is
+  furnished to do so, subject to the following conditions:
+  The above copyright notice and this permission notice shall be included in
+  all copies or substantial portions of the Software.
+  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+  IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+  FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+  AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+  LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+  OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
+  THE SOFTWARE.
+*/
+
+#include <Arduino.h> 
+
+#define YEARS_70 2208988800UL
+
+//3:13 24.05.2012 ==>  2021-4-29, 06:41:37.
+
+class Toki {
+  typedef enum {
+    inactive, marked, active
+  } TickT;
+
+  public: 
+  typedef struct {
+    uint32_t sec;
+    uint16_t ms;
+  } Time;
+
+  private:
+    uint32_t fullSecondMillis = 0;
+    uint32_t unix = 0;
+    TickT tick = TickT::inactive;
+
+  public:
+    void setTime(Time t) {
+      fullSecondMillis = millis() - t.ms;
+      unix = t.sec;
+    }
+
+    void setTime(uint32_t sec, uint16_t ms) {
+      Time t = {sec, ms};
+      setTime(t);
+    }
+
+    Time fromNTP(byte *timestamp) { //ntp timestamp is 8 bytes, 4 bytes second and 4 bytes sub-second fraction
+      unsigned long highWord = word(timestamp[0], timestamp[1]);
+      unsigned long lowWord = word(timestamp[2], timestamp[3]);
+    
+      unsigned long unix = highWord << 16 | lowWord;
+      if (!unix) return {0,0};
+      unix -= YEARS_70; //NTP begins 1900, Unix 1970
+
+      unsigned long frac = word(timestamp[5], timestamp[6]); //65536ths of a second
+      frac = (frac*1000) >> 16; //convert to ms
+      return {unix, (uint16_t)frac};
+    }
+
+    uint16_t millisecond() {
+      uint32_t ms = millis() - fullSecondMillis;
+      while (ms > 999) {
+        ms -= 1000;
+        fullSecondMillis += 1000;
+        unix++;
+        if (tick == TickT::inactive) tick = TickT::marked; //marked, will be active on next loop
+      }
+      return ms;
+    }
+
+    uint32_t second() {
+      millisecond();
+      return unix;
+    }
+
+    uint32_t msDifference(Time &t0, Time &t1) {
+      bool t1BiggerSec = (t1.sec > t0.sec);
+      uint32_t secDiff = (t1BiggerSec) ? t1.sec - t0.sec : t0.sec - t1.sec;
+      uint32_t t0ms = t0.ms, t1ms = t1.ms;
+      if (t1BiggerSec) t1ms += secDiff;
+      else t0ms += secDiff;
+      uint32_t msDiff = (t1ms > t0ms) ? t1ms - t0ms : t0ms - t1ms;
+      return msDiff;
+    }
+
+    void adjust(Time&t, int32_t offset) {
+      int32_t secs = offset /1000;
+      int32_t ms = offset - secs*1000;
+      t.sec += offset /1000;
+      int32_t nms = t.ms + ms;
+      if (nms > 1000) {nms -= 1000; t.sec++;}
+      if (nms < 0) {nms += 1000; t.sec--;}
+      t.ms += nms;
+    }
+
+    Time getTime() {
+      Time t;
+      t.ms = millisecond();
+      t.sec = unix;
+      return t;
+    }
+
+    void setTick() {
+      if (tick == TickT::marked) tick = TickT::active;
+    }
+
+    void resetTick() {
+      tick = TickT::inactive;
+    }
+
+    bool isTick() {
+      return (tick == TickT::active);
+    }
+
+    void printTime(const Time& t) {
+      Serial.printf_P(PSTR("%u,%03u\n"),t.sec,t.ms);
+    }
+};

wled00/wled.cpp

@@ -177,6 +177,8 @@ void WiFiEvent(WiFiEvent_t event)
 
 void WLED::loop()
 {
+  toki.millisecond();
+  toki.setTick();
   handleIR();        // 2nd call to function needed for ESP32 to return valid results -- should be good for ESP8266, too
   handleConnection();
   handleSerial();
@@ -287,6 +289,7 @@ void WLED::loop()
   }
   loops++;
 #endif        // WLED_DEBUG
+  toki.resetTick();
 }
 
 void WLED::setup()

wled00/wled.h

@@ -90,6 +90,7 @@
 #include <SPIFFSEditor.h>
 #include "src/dependencies/time/TimeLib.h"
 #include "src/dependencies/timezone/Timezone.h"
+#include "src/dependencies/toki/Toki.h"
 
 #ifndef WLED_DISABLE_ALEXA
   #define ESPALEXA_ASYNC
@@ -516,6 +517,7 @@ WLED_GLOBAL float longitude _INIT(0.0);
 WLED_GLOBAL float latitude _INIT(0.0);
 WLED_GLOBAL time_t sunrise _INIT(0);
 WLED_GLOBAL time_t sunset _INIT(0);
+WLED_GLOBAL Toki toki _INIT(Toki());
 
 // Temp buffer
 WLED_GLOBAL char* obuf;