/*
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*
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* ZoneMinder Hardware Project
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*
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*
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*
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* A sensor on an Arduino UNO communicating
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* via ethernet to ZMTrigger daemon for ZoneMinder
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* CCTV GNU/Linux software.
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*
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*
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*/
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/*
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* What it does:
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* Works with accompanying shield to act as motion sensor
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* for Zoneminder via ZMTrigger. Shield is optional if you
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* want to bother with a perf board and components instead.
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*
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* Components:
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* ENC28J60
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* Motion Sensor (Either PIR, or microwave HFS-DC06H)
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* Microphone for Loud Noise alarms
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* LM35 Temperature Sensor
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* RGB Status LED
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* Speaker
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*
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* Power from External 12V supply, not USB!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
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*
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*/
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/*
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*
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*
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*
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* Directions:
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* Use Arduino Uno
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* See https://git.steakelectronics.com/adminguy/ZMHW_Project_InfraredDiodeSensor
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*
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* Connect ENC28J60 using these instructions:
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* https://github.com/ntruchsess/arduino_uip
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* http://web.archive.org/save/https://create.arduino.cc/projecthub/Sourcery/how-to-connect-the-enc28j60-to-an-arduino-efd0dd
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* CS for ENC and UIP library is 10 by default on UNO. Not 8, like that link says.
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*
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*
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*
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*
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*
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*/
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#include <UIPEthernet.h>
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//#include <EEPROM.h>
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//Edit the below values
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#define DEBUGMODE 0 // 1 == on. 0 == off.
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#define MIC 0 // 1 == on. 0 == off.
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#define SICK 0 // set to 1 if using sick sensor (on analog pin)
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// sick sensor is a transistor activated photoelectric
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// sensor. More details below.
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#define NORMALMODECT 1 // For a digital High motion sensor.
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/***************Ethernet ENC28J60***************/
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//Mac must be unique for each sensor
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byte mac[] = { 0xD3, 0x5D, 0xBE, 0xEF, 0xEE, 0x50 };
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//Static IP of Arduino
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byte ip[] = { 192, 168, 78, 50 };
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//IP of ZM Server
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byte server[] = { 192, 168, 78, 123 };
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//ZM server IP to put in requests.
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String host="192.168.78.123";
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char* monnum = "12"; //monitor number
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char* LOCATIONOFSENSOR = "Bay 4 - Tool Room";
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#define ZMTRIGGERPORT 6802
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#define LISTENPORT 80 // (port 80 is default for HTTP)
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/***************Pins***************/
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//Digital
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#define MODECTPIN 2
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#define SPEAKERPIN 6
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#define LEDPIN 9
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//Analog
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#define TEMPPIN A0
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#define SICKPIN A1
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#define MICROPHONEPIN A2
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/***************Variables************/
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uint8_t AlarmActive = 0;
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char* ZMTriggerMessage = "1234567890123456789012345"; //Initialize this with dummy data
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uint8_t TEMPERATUREVALUE = 0;
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uint8_t TEMPERATUREVALUE2 = 0;
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uint8_t SOUNDVALUE = 0;
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uint16_t MODECTVALUE = 0;
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/*
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ZMTrigger Command to Send
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B<id>|B<action>|B<score>|B<cause>|B<text>|B<showtext>
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which in this code is:
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monnum | onoff + timealarm | score | source
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e.g.
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2|on+5|100|ZoneAVR||
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This will send a command to ZMTrigger.pl to turn monitor #2 ON (alarm state) for five seconds, with a score of 100
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and the source of ZoneAVR. The text field, and show text are not setup here.
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*/
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char* onoff = "on"; //command to send to zmtrigger.
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char* timealarm = "10"; //time to set monitor to alarm
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char* score = "77"; //score to assign
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char* source = "ZMHW"; //source. Add details as needed (e.g. Hallway sensor)
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//Do not need to edit below
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// Initialize the Ethernet server library
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EthernetClient client;
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EthernetServer server2 = EthernetServer(LISTENPORT);
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/*
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void chime(int freq){
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tone(SPEAKERPIN, freq, 50);
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delay(50);
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}
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void chimefast(int freq, int fast){
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tone(SPEAKERPIN, freq, fast);
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delay(fast);
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}*/
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//timer/interrupt
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uint16_t timer1;
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uint16_t timer1_counter;
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uint8_t debouncetime;
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uint8_t first_interrupt = 0;
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//timer for debounce
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ISR(TIMER1_OVF_vect){
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timer1++;
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if (first_interrupt == 1 ){
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debouncetime++;
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}
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if (debouncetime > 2) {
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first_interrupt = 0;
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debouncetime = 0;
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AlarmActive = 0;
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}
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}
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void setup()
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{
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Serial.begin(9600);
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Serial.println(F("ZMHW Project"));
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Serial.println(F("Motion Sensor"));
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//if sick
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pinMode(SICKPIN, INPUT);
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//if mic
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pinMode(MICROPHONEPIN, INPUT);
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//if speaker
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pinMode(SPEAKERPIN, OUTPUT);
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pinMode(MODECTPIN, INPUT);
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pinMode(TEMPPIN, INPUT);
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//Be careful. This sets Areg to 1.1v!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
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analogReference(INTERNAL);
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Ethernet.begin(mac, ip);
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server2.begin();
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Serial.print(F("server is at "));
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Serial.println(Ethernet.localIP());
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//timer 1, setup
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//Crystal of Uno is == Mega (16MHz)
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//this timer is all bodged up, but doesn't matter, as we only
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//need two or three counts between alarms. Not going to fix atm.
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//and it works.
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//Clear existing registers
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TCCR1A = 0;
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TCCR1B = 0;
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// Set timer1_counter to the correct value for our interrupt interval
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//timer1_counter = 10000; // 62500 for one second if using 256 prescaler. can't be over 16 bit value (timer1 is 16bit limited)
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//timer1_counter = 10;
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//TCNT1 = timer1_counter; // TCNT1 is what we are overflowing on
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TCCR1B |= (1 << CS12); // 256 prescaler (divide 16mhz/256 = 62500)
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TCCR1B |= 00000101; // https://web.archive.org/web/20170707164930/http://www.avrbeginners.net:80/architecture/timers/timers.html
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// search tccr1b
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TIMSK1 |= (1 << TOIE1); // enable timer overflow interrupt (if goes over timer, interrupt flagged)
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//end timer1
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sei(); //timer needs interrupts, enable (set) interrupts
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//tone(SPEAKERPIN, 1000, 200);
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//delay(100);
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//tone(SPEAKERPIN, 2000, 200);
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//delay(100);
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//tone(SPEAKERPIN, 2200, 200);
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//delay(100);
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}
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void loop()
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{
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//delay(50);
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/*****************ANALOG SECTION******************/
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//The SICK infrared laser requires a transistor to output
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//high or low, but we will cheat and instead, put it through
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//a serial diode, and then use the ADC instead of a digital pin
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//saves a few seconds to put a diode on the end instead of transistor
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//when soldering by hand. Works equally as well. Requires ADC pin.
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/*
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if (SICK){
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MotionSensorRead = analogRead(SICKPIN);
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Serial.print("Motion Sensor Value: ");
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Serial.println(String(MotionSensorRead));
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//Serial.println(String(timer1));
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delay(30);
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}
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*/
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//todo: only serial.print temp every 10 or so reads
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TEMPERATUREVALUE = analogRead(TEMPPIN);
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Serial.print(F("Temperature Value: "));
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// See resources. uses 1.1 aref, converts to celcius, then to Fareinheit.
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TEMPERATUREVALUE2 = (TEMPERATUREVALUE / 9.31)* 2 + 30;
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Serial.println(String(TEMPERATUREVALUE2));
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delay(30);
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/*
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if (MIC){
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SOUNDVALUE = analogRead(MICROPHONEPIN);
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Serial.print("Sound Value: ");
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Serial.println(String(SOUNDVALUE));
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delay(30);
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}
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*/
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if (NORMALMODECT){
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delay(10);
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MODECTVALUE = digitalRead(MODECTPIN);
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delay(10);
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Serial.print(F("Motion Detector Value (normal): "));
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//Serial.println(String(MODECTVALUE));
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Serial.println(MODECTVALUE);
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delay(30);
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}
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if(DEBUGMODE){
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delay(10);
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}
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/****************MOTION SENSING****************/
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//SICK
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//Motion sensing for Sick Photoelectric sensor only
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//upon boot, values are around 400 sometimes, so only alert at higher
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if(SICK){
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if (MODECTVALUE > 500 && AlarmActive == 0){
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Serial.println(F("Motion Detected on Sick"));
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//firstpacketsend = 0;
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cli();
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//some of this may be redundant, need to check
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AlarmActive = 1;
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first_interrupt = 1;
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debouncetime = 0;
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sei();
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//Want the chime to be only noticeable if you know what to listen
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//for. Make it a high freq. sound that is easy to miss.
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//Resistors to speaker should be high
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//chime(13000);
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Serial.println("Connecting...");
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if (client.connect(server, ZMTRIGGERPORT)) {
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//chime(13000);
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//beware that the buffer in snprintf is big enough to hold everything
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snprintf(ZMTriggerMessage, 56, "%s|%s+%s|%s|%s||", monnum, onoff, timealarm, score, source);
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Serial.print(F("the TCP Packet being sent:"));
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//Serial.println(String(ZMTriggerMessage));
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client.println(String(ZMTriggerMessage)); //required
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Serial.println(F("TCP packet sent to ZMTrigger"));
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client.stop();
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}
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else {
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//NOTE: If you are not connected to the network
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//the device will currently freeze up, and not timeout.
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//Need to implement a watchdog.
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//If you ARE connected to the network, and server is not available
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//then it will timeout.
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Serial.println(F("Connection to ZM Server failed"));
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/*chime(50);
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delay(100);
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chime(50);
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delay(100);
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chime(50);
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delay(100);
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*/
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}
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}
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}//end sick
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//Digital High Motion Sensor
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if(NORMALMODECT){
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if (MODECTVALUE==HIGH && AlarmActive == 0){
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Serial.println(F("Motion Detected on Normal Sensor"));
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//firstpacketsend = 0;
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cli();
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//some of this may be redundant, need to check
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AlarmActive = 1;
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first_interrupt = 1;
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debouncetime = 0;
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sei();
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//Want the chime to be only noticeable if you know what to listen
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//for. Make it a high freq. sound that is easy to miss.
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//Resistors to speaker should be high
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//chime(13000);
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delay(10);
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Serial.println(F("Connecting..."));
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if (client.connect(server, ZMTRIGGERPORT)) {
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//chime(13000);
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//delay(10);
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//beware that the buffer in snprintf is big enough to hold everything
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snprintf(ZMTriggerMessage, 56, "%s|%s+%s|%s|%s||", monnum, onoff, timealarm, score, source);
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Serial.print(F("the TCP Packet being sent:"));
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Serial.println(String(ZMTriggerMessage));
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client.println(String(ZMTriggerMessage)); //required
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Serial.println(F("TCP packet sent to ZMTrigger"));
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client.stop();
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}
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else {
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//NOTE: If you are not connected to the network
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//the device will currently freeze up, and not timeout.
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//Need to implement a watchdog.
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//If you ARE connected to the network, and server is not available
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//then it will timeout.
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Serial.println(F("Connection to ZM Server failed"));
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/* chime(40);
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delay(100);
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chime(60);
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delay(100);
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chime(60);
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delay(100);
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*/
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}
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}
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MODECTVALUE=LOW;
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}//end normal Motion Sensor
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//disconnect
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if (!client.connected()) {
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client.stop();
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}
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/********************SERVER STATUS PAGE*********************/
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/*
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* With this, you can logon to the Sensor from your LAN to find
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* out just what device this IP address is, in case you happen to
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* forget. We can also pull the temperature from this page, and
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* populate it to the camera feed, via ZMTrigger, from a server
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* side wget.
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*/
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//Serve Status Page
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// listen for incoming clients
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EthernetClient client = server2.available();
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if (client) {
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Serial.println(F("web visitor"));
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// an http request ends with a blank line
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boolean currentLineIsBlank = true;
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while (client.connected()) {
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if (client.available()) {
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char c = client.read();
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Serial.write(c);
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// if you've gotten to the end of the line (received a newline
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// character) and the line is blank, the http request has ended,
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// so you can send a reply
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if (c == '\n' && currentLineIsBlank) {
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// send a standard http response header
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client.println("HTTP/1.1 200 OK");
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client.println("Content-Type: text/html");
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//client.println("Connection: close"); // the connection will be closed after completion of the response
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//client.println("Refresh: 5"); // refresh the page automatically every 5 sec
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client.println();
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client.println("<!DOCTYPE HTML>");
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client.println("<html><pre>");
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client.println("<b>Steak Electronics</b>");
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client.println("\"Steak it easy... That is, don't overcook steak\"");
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client.println("");
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//client.println("<b>IP Address:</b>");
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//client.println(Ethernet.localIP());
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client.print("Sensor Location:");
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client.println(LOCATIONOFSENSOR);
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client.print("Type::");
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client.println("HFS-DC06H");
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client.print("Monitor: ");
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client.println(monnum);
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client.print("Temp:");
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client.println(TEMPERATUREVALUE2);
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client.println("</pre></html>");
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break;
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}
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if (c == '\n') {
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// you're starting a new line
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currentLineIsBlank = true;
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} else if (c != '\r') {
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// you've gotten a character on the current line
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currentLineIsBlank = false;
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}
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}
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}
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// give the web browser time to receive the data
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delay(1);
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// close the connection:
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client.stop();
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Serial.println(F("client disconnected"));
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}
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//write to eeprom if connection failed, and try again upon reboot
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//EEPROM.write(EEPROM_RETRY, switch_pressed);
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} //end main loop
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