/* xdrv_09_timers.ino - timer support for Sonoff-Tasmota Copyright (C) 2018 Theo Arends 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, either version 3 of the License, or (at your option) any later version. 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 . */ #ifdef USE_TIMERS /*********************************************************************************************\ * Timers * * Arm a timer using one or all of the following JSON values: * {"Arm":1,"Mode":0,"Time":"09:23","Window":0,"Days":"--TW--S","Repeat":1,"Output":1,"Action":1} * * Arm 0 = Off, 1 = On * Mode 0 = Schedule, 1 = Sunrise, 2 = Sunset * Time hours:minutes * Window minutes (0..15) * Days 7 day character mask starting with Sunday (SMTWTFS). 0 or - = Off, any other value = On * Repeat 0 = Execute once, 1 = Execute again * Output 1..16 * Action 0 = Off, 1 = On, 2 = Toggle, 3 = Blink or Rule if USE_RULES enabled * \*********************************************************************************************/ enum TimerCommands { CMND_TIMER, CMND_TIMERS #ifdef USE_SUNRISE , CMND_LATITUDE, CMND_LONGITUDE #endif }; const char kTimerCommands[] PROGMEM = D_CMND_TIMER "|" D_CMND_TIMERS #ifdef USE_SUNRISE "|" D_CMND_LATITUDE "|" D_CMND_LONGITUDE #endif ; uint16_t timer_last_minute = 60; int8_t timer_window[MAX_TIMERS] = { 0 }; #ifdef USE_SUNRISE /*********************************************************************************************\ * Sunrise and sunset (+13k code) * * https://forum.arduino.cc/index.php?topic=218280.0 * Source: C-Programm von http://lexikon.astronomie.info/zeitgleichung/neu.html * Rewrite for Arduino by 'jurs' for German Arduino forum \*********************************************************************************************/ const double pi2 = TWO_PI; const double pi = PI; const double RAD = DEG_TO_RAD; double JulianischesDatum() { // Gregorianischer Kalender int Gregor; int Jahr = RtcTime.year; int Monat = RtcTime.month; int Tag = RtcTime.day_of_month; if (Monat <= 2) { Monat += 12; Jahr -= 1; } Gregor = (Jahr / 400) - (Jahr / 100) + (Jahr / 4); // Gregorianischer Kalender return 2400000.5 + 365.0*Jahr - 679004.0 + Gregor + (int)(30.6001 * (Monat +1)) + Tag + 0.5; } double InPi(double x) { int n = (int)(x / pi2); x = x - n*pi2; if (x < 0) x += pi2; return x; } double eps(double T) { // Neigung der Erdachse return RAD * (23.43929111 + (-46.8150*T - 0.00059*T*T + 0.001813*T*T*T)/3600.0); } double BerechneZeitgleichung(double *DK,double T) { double RA_Mittel = 18.71506921 + 2400.0513369*T +(2.5862e-5 - 1.72e-9*T)*T*T; double M = InPi(pi2 * (0.993133 + 99.997361*T)); double L = InPi(pi2 * (0.7859453 + M/pi2 + (6893.0*sin(M)+72.0*sin(2.0*M)+6191.2*T) / 1296.0e3)); double e = eps(T); double RA = atan(tan(L)*cos(e)); if (RA < 0.0) RA += pi; if (L > pi) RA += pi; RA = 24.0*RA/pi2; *DK = asin(sin(e)*sin(L)); // Damit 0<=RA_Mittel<24 RA_Mittel = 24.0 * InPi(pi2*RA_Mittel/24.0)/pi2; double dRA = RA_Mittel - RA; if (dRA < -12.0) dRA += 24.0; if (dRA > 12.0) dRA -= 24.0; dRA = dRA * 1.0027379; return dRA; } void DuskTillDawn(uint8_t *hour_up,uint8_t *minute_up, uint8_t *hour_down, uint8_t *minute_down) { double JD2000 = 2451545.0; double JD = JulianischesDatum(); double T = (JD - JD2000) / 36525.0; double DK; /* h (D) = -0.8333 normaler SA & SU-Gang h (D) = -6.0 civile Dämmerung h (D) = -12.0 nautische Dämmerung h (D) = -18.0 astronomische Dämmerung */ // double h = -50/60.0*RAD; double h = SUNRISE_DAWN_ANGLE *RAD; double B = (((double)Settings.latitude)/1000000) * RAD; // geographische Breite double GeographischeLaenge = ((double)Settings.longitude)/1000000; // double Zeitzone = 0; //Weltzeit // double Zeitzone = 1; //Winterzeit // double Zeitzone = 2.0; //Sommerzeit double Zeitzone = ((double)time_timezone) / 10; double Zeitgleichung = BerechneZeitgleichung(&DK, T); double Minuten = Zeitgleichung * 60.0; double Zeitdifferenz = 12.0*acos((sin(h) - sin(B)*sin(DK)) / (cos(B)*cos(DK)))/pi; double AufgangOrtszeit = 12.0 - Zeitdifferenz - Zeitgleichung; double UntergangOrtszeit = 12.0 + Zeitdifferenz - Zeitgleichung; double AufgangWeltzeit = AufgangOrtszeit - GeographischeLaenge / 15.0; double UntergangWeltzeit = UntergangOrtszeit - GeographischeLaenge / 15.0; double Aufgang = AufgangWeltzeit + Zeitzone; // In Stunden if (Aufgang < 0.0) { Aufgang += 24.0; } else { if (Aufgang >= 24.0) Aufgang -= 24.0; } double Untergang = UntergangWeltzeit + Zeitzone; if (Untergang < 0.0) { Untergang += 24.0; } else { if (Untergang >= 24.0) Untergang -= 24.0; } int AufgangMinuten = (int)(60.0*(Aufgang - (int)Aufgang)+0.5); int AufgangStunden = (int)Aufgang; if (AufgangMinuten >= 60.0) { AufgangMinuten -= 60.0; AufgangStunden++; } else { if (AufgangMinuten < 0.0) { AufgangMinuten += 60.0; AufgangStunden--; if (AufgangStunden < 0.0) AufgangStunden += 24.0; } } int UntergangMinuten = (int)(60.0*(Untergang - (int)Untergang)+0.5); int UntergangStunden = (int)Untergang; if (UntergangMinuten >= 60.0) { UntergangMinuten -= 60.0; UntergangStunden++; } else { if (UntergangMinuten<0) { UntergangMinuten += 60.0; UntergangStunden--; if (UntergangStunden < 0.0) UntergangStunden += 24.0; } } *hour_up = AufgangStunden; *minute_up = AufgangMinuten; *hour_down = UntergangStunden; *minute_down = UntergangMinuten; } void ApplyTimerOffsets(Timer *duskdawn) { uint8_t hour[2]; uint8_t minute[2]; Timer stored = (Timer)*duskdawn; // replace hours, minutes by sunrise DuskTillDawn(&hour[0], &minute[0], &hour[1], &minute[1]); uint8_t mode = (duskdawn->mode -1) &1; duskdawn->time = (hour[mode] *60) + minute[mode]; // apply offsets, check for over- and underflows uint16_t timeBuffer; if ((uint16_t)stored.time > 720) { // negative offset, time after 12:00 timeBuffer = (uint16_t)stored.time - 720; // check for underflow if (timeBuffer > (uint16_t)duskdawn->time) { timeBuffer = 1440 - (timeBuffer - (uint16_t)duskdawn->time); duskdawn->days = duskdawn->days >> 1; duskdawn->days |= (stored.days << 6); } else { timeBuffer = (uint16_t)duskdawn->time - timeBuffer; } } else { // positive offset timeBuffer = (uint16_t)duskdawn->time + (uint16_t)stored.time; // check for overflow if (timeBuffer > 1440) { timeBuffer -= 1440; duskdawn->days = duskdawn->days << 1; duskdawn->days |= (stored.days >> 6); } } duskdawn->time = timeBuffer; } String GetSun(byte dawn) { char stime[6]; uint8_t hour[2]; uint8_t minute[2]; DuskTillDawn(&hour[0], &minute[0], &hour[1], &minute[1]); dawn &= 1; snprintf_P(stime, sizeof(stime), PSTR("%02d:%02d"), hour[dawn], minute[dawn]); return String(stime); } uint16_t GetSunMinutes(byte dawn) { uint8_t hour[2]; uint8_t minute[2]; DuskTillDawn(&hour[0], &minute[0], &hour[1], &minute[1]); dawn &= 1; return (hour[dawn] *60) + minute[dawn]; } #endif // USE_SUNRISE /*******************************************************************************************/ void TimerSetRandomWindow(byte index) { timer_window[index] = 0; if (Settings.timer[index].window) { timer_window[index] = (random(0, (Settings.timer[index].window << 1) +1)) - Settings.timer[index].window; // -15 .. 15 } } void TimerSetRandomWindows() { for (byte i = 0; i < MAX_TIMERS; i++) { TimerSetRandomWindow(i); } } void TimerEverySecond() { if (RtcTime.valid) { if (!RtcTime.hour && !RtcTime.minute && !RtcTime.second) { TimerSetRandomWindows(); } // Midnight if (Settings.flag3.timers_enable && (uptime > 60) && (RtcTime.minute != timer_last_minute)) { // Execute from one minute after restart every minute only once timer_last_minute = RtcTime.minute; int16_t time = (RtcTime.hour *60) + RtcTime.minute; uint8_t days = 1 << (RtcTime.day_of_week -1); for (byte i = 0; i < MAX_TIMERS; i++) { // if (Settings.timer[i].device >= devices_present) Settings.timer[i].data = 0; // Reset timer due to change in devices present Timer xtimer = Settings.timer[i]; uint16_t set_time = xtimer.time; #ifdef USE_SUNRISE if ((1 == xtimer.mode) || (2 == xtimer.mode)) { // Sunrise or Sunset ApplyTimerOffsets(&xtimer); set_time = xtimer.time; } #endif if (xtimer.arm) { set_time += timer_window[i]; // Add random time offset if (set_time < 0) { set_time = 0; } // Stay today; if (set_time > 1439) { set_time = 1439; } if (time == set_time) { if (xtimer.days & days) { Settings.timer[i].arm = xtimer.repeat; #ifdef USE_RULES if (3 == xtimer.power) { // Blink becomes Rule disregarding device and allowing use of Backlog commands snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("{\"Clock\":{\"Timer\":%d}}"), i +1); XdrvRulesProcess(); } else #endif // USE_RULES if (devices_present) { ExecuteCommandPower(xtimer.device +1, xtimer.power, SRC_TIMER); } } } } } } } } void PrepShowTimer(uint8_t index) { char days[8] = { 0 }; char sign[2] = { 0 }; char soutput[80]; Timer xtimer = Settings.timer[index -1]; for (byte i = 0; i < 7; i++) { uint8_t mask = 1 << i; snprintf(days, sizeof(days), "%s%d", days, ((xtimer.days & mask) > 0)); } soutput[0] = '\0'; if (devices_present) { snprintf_P(soutput, sizeof(soutput), PSTR(",\"" D_JSON_TIMER_OUTPUT "\":%d"), xtimer.device +1); } #ifdef USE_SUNRISE int16_t hour = xtimer.time / 60; if ((1 == xtimer.mode) || (2 == xtimer.mode)) { // Sunrise or Sunset if (hour > 11) { hour -= 12; sign[0] = '-'; } } snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s\"" D_CMND_TIMER "%d\":{\"" D_JSON_TIMER_ARM "\":%d,\"" D_JSON_TIMER_MODE "\":%d,\"" D_JSON_TIMER_TIME "\":\"%s%02d:%02d\",\"" D_JSON_TIMER_WINDOW "\":%d,\"" D_JSON_TIMER_DAYS "\":\"%s\",\"" D_JSON_TIMER_REPEAT "\":%d%s,\"" D_JSON_TIMER_ACTION "\":%d}"), mqtt_data, index, xtimer.arm, xtimer.mode, sign, hour, xtimer.time % 60, xtimer.window, days, xtimer.repeat, soutput, xtimer.power); #else snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s\"" D_CMND_TIMER "%d\":{\"" D_JSON_TIMER_ARM "\":%d,\"" D_JSON_TIMER_TIME "\":\"%02d:%02d\",\"" D_JSON_TIMER_WINDOW "\":%d,\"" D_JSON_TIMER_DAYS "\":\"%s\",\"" D_JSON_TIMER_REPEAT "\":%d%s,\"" D_JSON_TIMER_ACTION "\":%d}"), mqtt_data, index, xtimer.arm, xtimer.time / 60, xtimer.time % 60, xtimer.window, days, xtimer.repeat, soutput, xtimer.power); #endif // USE_SUNRISE } /*********************************************************************************************\ * Commands \*********************************************************************************************/ boolean TimerCommand() { char command[CMDSZ]; char dataBufUc[XdrvMailbox.data_len]; boolean serviced = true; uint8_t index = XdrvMailbox.index; UpperCase(dataBufUc, XdrvMailbox.data); int command_code = GetCommandCode(command, sizeof(command), XdrvMailbox.topic, kTimerCommands); if (-1 == command_code) { serviced = false; // Unknown command } else if ((CMND_TIMER == command_code) && (index > 0) && (index <= MAX_TIMERS)) { uint8_t error = 0; if (XdrvMailbox.data_len) { if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= MAX_TIMERS)) { if (XdrvMailbox.payload == 0) { Settings.timer[index -1].data = 0; // Clear timer } else { Settings.timer[index -1].data = Settings.timer[XdrvMailbox.payload -1].data; // Copy timer } } else { #ifndef USE_RULES if (devices_present) { #endif StaticJsonBuffer<256> jsonBuffer; JsonObject& root = jsonBuffer.parseObject(dataBufUc); if (!root.success()) { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("{\"" D_CMND_TIMER "%d\":\"" D_JSON_INVALID_JSON "\"}"), index); // JSON decode failed error = 1; } else { char parm_uc[10]; index--; if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_ARM))].success()) { Settings.timer[index].arm = (root[parm_uc] != 0); } #ifdef USE_SUNRISE if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_MODE))].success()) { Settings.timer[index].mode = (uint8_t)root[parm_uc] & 0x03; } #endif if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_TIME))].success()) { uint16_t itime = 0; int8_t value = 0; uint8_t sign = 0; char time_str[10]; snprintf(time_str, sizeof(time_str), root[parm_uc]); const char *substr = strtok(time_str, ":"); if (substr != NULL) { if (strchr(substr, '-')) { sign = 1; substr++; } value = atoi(substr); if (sign) { value += 12; } // Allow entering timer offset from -11:59 to -00:01 converted to 12:01 to 23:59 if (value > 23) { value = 23; } itime = value * 60; substr = strtok(NULL, ":"); if (substr != NULL) { value = atoi(substr); if (value < 0) { value = 0; } if (value > 59) { value = 59; } itime += value; } } Settings.timer[index].time = itime; } if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_WINDOW))].success()) { Settings.timer[index].window = (uint8_t)root[parm_uc] & 0x0F; TimerSetRandomWindow(index); } if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_DAYS))].success()) { // SMTWTFS = 1234567 = 0011001 = 00TW00S = --TW--S Settings.timer[index].days = 0; const char *tday = root[parm_uc]; uint8_t i = 0; char ch = *tday++; while ((ch != '\0') && (i < 7)) { if (ch == '-') { ch = '0'; } uint8_t mask = 1 << i++; Settings.timer[index].days |= (ch == '0') ? 0 : mask; ch = *tday++; } } if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_REPEAT))].success()) { Settings.timer[index].repeat = (root[parm_uc] != 0); } if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_OUTPUT))].success()) { uint8_t device = ((uint8_t)root[parm_uc] -1) & 0x0F; Settings.timer[index].device = (device < devices_present) ? device : 0; } if (root[UpperCase_P(parm_uc, PSTR(D_JSON_TIMER_ACTION))].success()) { uint8_t action = (uint8_t)root[parm_uc] & 0x03; Settings.timer[index].power = (devices_present) ? action : 3; // If no devices than only allow rules } index++; } #ifndef USE_RULES } else { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("{\"" D_CMND_TIMER "%d\":\"" D_JSON_TIMER_NO_DEVICE "\"}"), index); // No outputs defined so nothing to control error = 1; } #endif } } if (!error) { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("{")); PrepShowTimer(index); snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s}"), mqtt_data); } } else if (CMND_TIMERS == command_code) { if (XdrvMailbox.data_len) { if ((XdrvMailbox.payload >= 0) && (XdrvMailbox.payload <= 1)) { Settings.flag3.timers_enable = XdrvMailbox.payload; } if (XdrvMailbox.payload == 2) { Settings.flag3.timers_enable = !Settings.flag3.timers_enable; } } snprintf_P(mqtt_data, sizeof(mqtt_data), S_JSON_COMMAND_SVALUE, command, GetStateText(Settings.flag3.timers_enable)); MqttPublishPrefixTopic_P(RESULT_OR_STAT, command); byte jsflg = 0; byte lines = 1; for (byte i = 0; i < MAX_TIMERS; i++) { if (!jsflg) { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("{\"" D_CMND_TIMERS "%d\":{"), lines++); } else { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s,"), mqtt_data); } jsflg++; PrepShowTimer(i +1); if (jsflg > 3) { snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s}}"), mqtt_data); MqttPublishPrefixTopic_P(RESULT_OR_STAT, PSTR(D_CMND_TIMERS)); jsflg = 0; } } mqtt_data[0] = '\0'; } #ifdef USE_SUNRISE else if (CMND_LONGITUDE == command_code) { if (XdrvMailbox.data_len) { Settings.longitude = (int)(CharToDouble(XdrvMailbox.data) *1000000); } char lbuff[32]; dtostrfd(((double)Settings.longitude) /1000000, 6, lbuff); snprintf_P(mqtt_data, sizeof(mqtt_data), S_JSON_COMMAND_SVALUE, command, lbuff); } else if (CMND_LATITUDE == command_code) { if (XdrvMailbox.data_len) { Settings.latitude = (int)(CharToDouble(XdrvMailbox.data) *1000000); } char lbuff[32]; dtostrfd(((double)Settings.latitude) /1000000, 6, lbuff); snprintf_P(mqtt_data, sizeof(mqtt_data), S_JSON_COMMAND_SVALUE, command, lbuff); } #endif else serviced = false; // Unknown command return serviced; } /*********************************************************************************************\ * Presentation \*********************************************************************************************/ #ifdef USE_WEBSERVER #ifdef USE_TIMERS_WEB const char HTTP_TIMER_SCRIPT[] PROGMEM = "var pt=[],ct=99;" "function qs(s){" // Alias to save code space "return document.querySelector(s);" "}" "function ce(i,q){" // Create select option "var o=document.createElement('option');" "o.textContent=i;" "q.appendChild(o);" "}" #ifdef USE_SUNRISE "function gt(){" // Set hours and minutes according to mode "var m,p,q;" "m=qs('input[name=\"rd\"]:checked').value;" // Get mode "p=pt[ct]&0x7FF;" // Get time "if(m==0){" // Time is set "so(0);" // Hide offset span and allow Hour 00..23 "q=Math.floor(p/60);if(q<10){q='0'+q;}qs('#ho').value=q;" // Set hours "q=p%60;if(q<10){q='0'+q;}qs('#mi').value=q;" // Set minutes "}" "if((m==1)||(m==2)){" // Sunrise or sunset is set "so(1);" // Show offset span and allow Hour 00..11 "q=Math.floor(p/60);" // Parse hours "if(q>=12){q-=12;qs('#dr').selectedIndex=1;}" // Negative offset "else{qs('#dr').selectedIndex=0;}" "if(q<10){q='0'+q;}qs('#ho').value=q;" // Set offset hours "q=p%60;if(q<10){q='0'+q;}qs('#mi').value=q;" // Set offset minutes "}" "}" "function so(b){" // Hide or show offset items "o=qs('#ho');" "e=o.childElementCount;" "if(b==1){" "qs('#dr').disabled='';" "if(e>12){for(i=12;i<=23;i++){o.removeChild(o.lastElementChild);}}" // Create offset hours select options "}else{" "qs('#dr').disabled='disabled';" "if(e<23){for(i=12;i<=23;i++){ce(i,o);}}" // Create hours select options "}" "}" #endif "function st(){" // Save parameters to hidden area "var i,l,m,n,p,s;" "m=0;s=0;" "n=1<<31;if(eb('a0').checked){s|=n;}" // Get arm "n=1<<15;if(eb('r0').checked){s|=n;}" // Get repeat "for(i=0;i<7;i++){n=1<<(16+i);if(eb('w'+i).checked){s|=n;}}" // Get weekdays #ifdef USE_SUNRISE "m=qs('input[name=\"rd\"]:checked').value;" // Check mode "s|=(qs('input[name=\"rd\"]:checked').value<<29);" // Get mode #endif "if(}1>0){" "i=qs('#d1').selectedIndex;if(i>=0){s|=(i<<23);}" // Get output "s|=(qs('#p1').selectedIndex<<27);" // Get action "}else{" "s|=3<<27;" // Get action (rule) "}" "l=((qs('#ho').selectedIndex*60)+qs('#mi').selectedIndex)&0x7FF;" "if(m==0){s|=l;}" // Get time #ifdef USE_SUNRISE "if((m==1)||(m==2)){" "if(qs('#dr').selectedIndex>0){l+=720;}" // If negative offset, add 12h to given offset time "s|=l&0x7FF;" // Save offset instead of time "}" #endif "s|=((qs('#mw').selectedIndex)&0x0F)<<11;" // Get window minutes "pt[ct]=s;" "eb('t0').value=pt.join();" // Save parameters from array to hidden area "}" "function ot(t,e){" // Select tab and update elements "var i,n,o,p,q,s;" "if(ct<99){st();}" // Save changes "ct=t;" "o=document.getElementsByClassName('tl');" // Restore style to all tabs/buttons "for(i=0;i>29)&3;eb('b'+p).checked=1;" // Set mode "gt();" // Set hours and minutes according to mode #else "p=s&0x7FF;" // Get time "q=Math.floor(p/60);if(q<10){q='0'+q;}qs('#ho').value=q;" // Set hours "q=p%60;if(q<10){q='0'+q;}qs('#mi').value=q;" // Set minutes #endif "q=(s>>11)&0xF;if(q<10){q='0'+q;}qs('#mw').value=q;" // Set window minutes "for(i=0;i<7;i++){p=(s>>(16+i))&1;eb('w'+i).checked=p;}" // Set weekdays "if(}1>0){" "p=(s>>23)&0xF;qs('#d1').value=p+1;" // Set output "p=(s>>27)&3;qs('#p1').selectedIndex=p;" // Set action "}" "p=(s>>15)&1;eb('r0').checked=p;" // Set repeat "p=(s>>31)&1;eb('a0').checked=p;" // Set arm "}" "function it(){" // Initialize elements and select first tab "var b,i,o,s;" "pt=eb('t0').value.split(',').map(Number);" // Get parameters from hidden area to array "s='';for(i=0;i<" STR(MAX_TIMERS) ";i++){b='';if(0==i){b=\" id='dP'\";}s+=\"\"}" "eb('bt').innerHTML=s;" // Create tabs "if(}1>0){" // Create Output and Action drop down boxes "eb('oa').innerHTML=\"" D_TIMER_OUTPUT " " D_TIMER_ACTION " \";" "o=qs('#p1');ce('" D_OFF "',o);ce('" D_ON "',o);ce('" D_TOGGLE "',o);" // Create offset direction select options #ifdef USE_RULES "ce('" D_RULE "',o);" #else "ce('" D_BLINK "',o);" #endif "}else{" "eb('oa').innerHTML=\"" D_TIMER_ACTION " " D_RULE "\";" // No outputs but rule is allowed "}" #ifdef USE_SUNRISE "o=qs('#dr');ce('+',o);ce('-',o);" // Create offset direction select options #endif "o=qs('#ho');for(i=0;i<=23;i++){ce((i<10)?('0'+i):i,o);}" // Create hours select options "o=qs('#mi');for(i=0;i<=59;i++){ce((i<10)?('0'+i):i,o);}" // Create minutes select options "o=qs('#mw');for(i=0;i<=15;i++){ce((i<10)?('0'+i):i,o);}" // Create window minutes select options "o=qs('#d1');for(i=0;i<}1;i++){ce(i+1,o);}" // Create outputs "var a='" D_DAY3LIST "';" "s='';for(i=0;i<7;i++){s+=\"\"+a.substring(i*3,(i*3)+3)+\"\"}" "eb('ds').innerHTML=s;" // Create weekdays "eb('dP').click();" // Get the element with id='dP' and click on it "}"; const char HTTP_TIMER_STYLE[] PROGMEM = ".tl{float:left;border-radius:0;border:1px solid #fff;padding:1px;width:6.25%;}" #ifdef USE_SUNRISE "input[type='radio']{width:13px;height:24px;margin-top:-1px;margin-right:8px;vertical-align:middle;}" #endif ""; const char HTTP_FORM_TIMER[] PROGMEM = "
 " D_TIMER_PARAMETERS " 
" "" "
" D_TIMER_ENABLE "


" "



" "

" "
" "" D_TIMER_ARM " " "" D_TIMER_REPEAT "" "

" "
" #ifdef USE_SUNRISE "
" "" D_TIMER_TIME "
" "" D_SUNRISE " (}8)
" "" D_SUNSET " (}9)
" "
" "" " " #else "" D_TIMER_TIME " " #endif // USE_SUNRISE "" " " D_HOUR_MINUTE_SEPARATOR " " "" " +/- " "" "

" "
"; const char HTTP_FORM_TIMER2[] PROGMEM = "type='submit' onclick='st();this.form.submit();'"; const char S_CONFIGURE_TIMER[] PROGMEM = D_CONFIGURE_TIMER; void HandleTimerConfiguration() { if (HttpUser()) { return; } if (!WebAuthenticate()) { return WebServer->requestAuthentication(); } AddLog_P(LOG_LEVEL_DEBUG, S_LOG_HTTP, S_CONFIGURE_TIMER); String page = FPSTR(HTTP_HEAD); page.replace(F("{v}"), FPSTR(S_CONFIGURE_TIMER)); page += FPSTR(HTTP_TIMER_SCRIPT); page += FPSTR(HTTP_HEAD_STYLE); page.replace(F(""), FPSTR(HTTP_TIMER_STYLE)); page += FPSTR(HTTP_FORM_TIMER); page.replace(F("{e0"), (Settings.flag3.timers_enable) ? F(" checked") : F("")); for (byte i = 0; i < MAX_TIMERS; i++) { if (i > 0) { page += F(","); } page += String(Settings.timer[i].data); } page += FPSTR(HTTP_FORM_TIMER1); page.replace(F("}1"), String(devices_present)); #ifdef USE_SUNRISE page.replace(F("}8"), GetSun(0)); // Add Sunrise page.replace(F("}9"), GetSun(1)); // Add Sunset page.replace(F("299"), String(100 + (strlen(D_SUNSET) *12))); // Fix string length to keep radios centered #endif // USE_SUNRISE page += FPSTR(HTTP_FORM_END); page.replace(F("type='submit'"), FPSTR(HTTP_FORM_TIMER2)); page += F(""); // Init elements and select first tab/button page += FPSTR(HTTP_BTN_CONF); ShowPage(page); } void TimerSaveSettings() { char tmp[MAX_TIMERS *12]; // Need space for MAX_TIMERS x 10 digit numbers separated by a comma Timer timer; Settings.flag3.timers_enable = WebServer->hasArg("e0"); WebGetArg("t0", tmp, sizeof(tmp)); char *p = tmp; snprintf_P(log_data, sizeof(log_data), PSTR(D_LOG_MQTT D_CMND_TIMERS " %d"), Settings.flag3.timers_enable); for (byte i = 0; i < MAX_TIMERS; i++) { timer.data = strtol(p, &p, 10); p++; // Skip comma if (timer.time < 1440) { bool flag = (timer.window != Settings.timer[i].window); Settings.timer[i].data = timer.data; if (flag) TimerSetRandomWindow(i); } snprintf_P(log_data, sizeof(log_data), PSTR("%s,0x%08X"), log_data, Settings.timer[i].data); } AddLog(LOG_LEVEL_DEBUG); } #endif // USE_TIMERS_WEB #endif // USE_WEBSERVER /*********************************************************************************************\ * Interface \*********************************************************************************************/ #define XDRV_09 boolean Xdrv09(byte function) { boolean result = false; switch (function) { case FUNC_PRE_INIT: TimerSetRandomWindows(); break; case FUNC_EVERY_SECOND: TimerEverySecond(); break; case FUNC_COMMAND: result = TimerCommand(); break; } return result; } #endif // USE_TIMERS