#include "WebServer.h" #define LED_PIN 13 int8_t blinking = 0; int8_t frequency = 10; uint8_t pattern = 2; uint16_t elapse = 100; uint16_t elapse_delta = 200; uint32_t next_ts = 0; #define MAX_LOGS 5 uint32_t log_ts[MAX_LOGS]; uint8_t log_msg[MAX_LOGS]; uint8_t log_ptr = 0; void ledInit() { pinMode(LED_PIN, OUTPUT); digitalWrite(LED_PIN, false); } void ledLoop() { if( blinking ) { if( next_ts <= millis() ) { digitalWrite(LED_PIN, !digitalRead(LED_PIN)); next_ts += elapse; elapse = elapse_delta - elapse; } } } void ledAddLog(uint8_t msg) { if( log_ptr >= MAX_LOGS ) log_ptr = MAX_LOGS - 1; for(int8_t i=log_ptr-1; i >= 0; i--) { log_ts[i+1] = log_ts[i]; log_msg[i+1] = log_msg[i]; } log_msg[0] = msg; log_ts[0] = millis(); log_ptr++; } void ledHistoryToLog(char * buf) { buf[0] = 0; strcat(buf, "["); for(uint8_t i=0; i < log_ptr; i++) { if( i != 0 ) strcat(buf, ","); char bf[20]; sprintf(bf, "\"%lds: ", log_ts[i] / 1000); strcat(buf, bf); uint8_t msg = log_msg[i]; if( msg == 0xE1 ) { strcat_P(buf, PSTR("set pattern to 25%-75%")); } else if( msg == 0xE2 ) { strcat_P(buf, PSTR("set pattern to 50%-50%")); } else if( msg == 0xE3 ) { strcat_P(buf, PSTR("set pattern to 75%-25%")); } else if( msg == 0xF0 ) { strcat_P(buf, PSTR("set led on")); } else if( msg == 0xF1 ) { strcat_P(buf, PSTR("set led blinking")); } else if( msg == 0xF2 ) { strcat_P(buf, PSTR("set led off")); } else { strcat_P(buf, PSTR("set frequency to ")); sprintf(bf, "%d Hz", msg); strcat(buf, bf); } strcat(buf, "\""); } strcat(buf, "]"); } void ledHtmlCallback(WebServerCommand command, char * data, int dataLen) { switch(command) { case BUTTON_PRESS: if( strcmp_P(data, PSTR("btn_on") ) == 0 ) { if( blinking || digitalRead(LED_PIN) == false ) ledAddLog(0xF0); blinking = 0; digitalWrite(LED_PIN, true); } else if( strcmp_P(data, PSTR("btn_off") ) == 0 ) { if( blinking || digitalRead(LED_PIN) == true ) ledAddLog(0xF2); blinking = 0; digitalWrite(LED_PIN, false); } else if( strcmp_P(data, PSTR("btn_blink") ) == 0 ) { if( !blinking ) ledAddLog(0xF1); blinking = 1; next_ts = millis() + elapse; } break; case SET_FIELD: if( strcmp_P(data, PSTR("frequency") ) == 0 ) { int8_t oldf = frequency; frequency = webServer.getArgInt(); digitalWrite(LED_PIN, false); elapse_delta = 2000 / frequency; elapse = pattern * elapse_delta / 4; if( oldf != frequency ) ledAddLog(frequency); } else if( strcmp_P(data, PSTR("pattern") ) == 0 ) { int8_t oldp = pattern; char * arg = webServer.getArgString(); if( strcmp_P(arg, PSTR("25_75")) == 0 ) pattern = 1; else if( strcmp_P(arg, PSTR("50_50")) == 0 ) pattern = 2; else if( strcmp_P(arg, PSTR("75_25")) == 0 ) pattern = 3; digitalWrite(LED_PIN, false); elapse = pattern * elapse_delta / 4; if( oldp != pattern ) ledAddLog(0xE0 + pattern); } break; case LOAD: webServer.setArgNum(4); webServer.setArgInt("frequency", frequency); switch(pattern) { case 1: webServer.setArgStringP("pattern", PSTR("25_75")); break; case 2: webServer.setArgStringP("pattern", PSTR("50_50")); break; case 3: webServer.setArgStringP("pattern", PSTR("75_25")); break; } case REFRESH: { if( command == REFRESH ) webServer.setArgNum(2); if( blinking ) webServer.setArgStringP("text", PSTR("LED is blinking")); else webServer.setArgStringP("text", digitalRead(LED_PIN) ? PSTR("LED is turned on") : PSTR("LED is turned off")); char buf[255]; ledHistoryToLog(buf); webServer.setArgJson("led_history", buf); } break; default: break; } }