Updated to work with Arduino 1.0

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Will Bradley 2013-03-22 14:44:42 -07:00
parent 674097f170
commit 09df00b05f

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nagiosdisplay.ino Normal file
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//**************************************************************//
// Name : DaisyShift - Daisy Chain Shift Register display
// using Arduino Ethernet
// Author : Will Bradley
// Date : 18 Feb, 2012
// Version : 1.0
// Notes : Outputs HTTP data to 74HC595 shift registers
// Based on ShiftOut and WebClient examples from Arduino
// URL : http://zyphon.com/daisyshift
//****************************************************************
#include <SPI.h>
#include <Ethernet.h>
// Variables you should change based on preferences
int updateFrequency = 10; // in seconds
int numrows = 2; // number of shift registers in the daisy chain
char* queryURL = "/nag.php?minimal=1"; // path on the webserver
// Enter a MAC address and IP address info for your Arduino below.
// These values will change based on your network.
byte mac[] = { 0xDE, 0xAD, 0xBE, 0xEF, 0xAC, 0xB3 };
byte ip[] = { 192,168,1,222 };
byte subnet[] = { 255,255,255,0 };
byte gateway[] = { 192,168,1,1 };
// Enter the IP address of the web server to query.
byte server[] = { 192,168,1,24 };
//Pin connected to ST_CP of 74HC595
int latchPin = 6;
//Pin connected to SH_CP of 74HC595
int clockPin = 5;
////Pin connected to DS of 74HC595
int dataPin = 7;
// Runtime variables -- no need to change
long updateTime = 0; // just a counter
String httpresponse = ""; // for storing server responses
// Initialize the Ethernet client library
EthernetClient client;
void setup() {
//set pins to output so you can control the shift register
pinMode(latchPin, OUTPUT);
pinMode(clockPin, OUTPUT);
pinMode(dataPin, OUTPUT);
// start the Ethernet connection:
Ethernet.begin(mac, ip, gateway, subnet);
// start the serial library:
Serial.begin(9600);
// give the Ethernet shield a second to initialize:
delay(1000);
// flash LEDs to indicate initialization
displayData(0);
displayData(0);
delay(100);
displayData(255);
displayData(255);
delay(100);
displayData(0);
displayData(0);
delay(100);
displayData(255);
displayData(255);
delay(100);
displayData(0);
displayData(0);
}
void displayData(int numberToDisplay) {
// take the latchPin low so
// the LEDs don't change while you're sending in bits:
digitalWrite(latchPin, LOW);
// shift out the bits:
shiftOut(dataPin, clockPin, MSBFIRST, numberToDisplay);
//take the latch pin high so the LEDs will light up:
digitalWrite(latchPin, HIGH);
// pause before next value:
delay(1);
}
// Function that prints data from the server
void printData(char* data, int len) {
Serial.print("Printing ");
Serial.print(data);
Serial.print(" with a length of ");
Serial.println(len);
String matrix;
digitalWrite(latchPin, LOW); // start writing to LEDs
// Print the data returned by the server
// Note that the data is not null-terminated, may be broken up into smaller packets, and
// includes the HTTP header.
for(int i=0;i<len;i++) {
if(data[i] == '^')
{
for(int rows=0;rows<numrows;rows++){
int rowData = 0;
for(int cols=0;cols<8;cols++){
i++;
char thisData = 1; // 1 is 'off'
if(i<len) { // make sure we're still within the bounds of the data
thisData = data[i];
Serial.print(thisData);
}
if(thisData == '0') {
// a 0 in Nagios means the LED should be on
// the absolute value of cols-7 is used so binary 10000000 shows up as 128 instead of 1 (left light on, not right)
rowData += (1<<abs(cols));
Serial.print((1<<abs(cols)));
Serial.print("+");
}
if(thisData == '1') {
// any other value means the LED should be off
Serial.print("0");
Serial.print("+");
}
if(thisData == '2') {
// any other value means the LED should be off
Serial.print("0");
Serial.print("+");
}
matrix += thisData;
}
shiftOut(dataPin, clockPin, MSBFIRST, rowData); // write to LEDs
Serial.print("=");
Serial.println(rowData);
}
Serial.println('*');
Serial.println(matrix);
}
}
digitalWrite(latchPin, HIGH); // stop writing to LEDs
}
void loop() {
// Check if it's time to get an update
if (millis() >= updateTime) {
Serial.println("connecting...");
// if you get a connection, report back via serial:
if (client.connect(server, 80)) {
Serial.println("connected");
// Make a HTTP request:
client.print("GET ");
client.print(queryURL);
client.println(" HTTP/1.0");
client.println();
}
else {
// kf you didn't get a connection to the server:
Serial.println("connection failed");
}
// Get an update every 30 seconds
updateTime += 1000 * updateFrequency;
}
while (client.available()) {
Serial.print(".");
char c = client.read();i
}
}
if(!client.available() && httpresponse.length()>0) {
Serial.println("Parse!");
int a = httpresponse.indexOf('^');
int b = httpresponse.indexOf('$');
String data = httpresponse.substring(a,b);
Serial.println(data);
char charData[50];
data.toCharArray(charData, sizeof(charData));
Serial.println(charData);
printData(charData, strlen(charData));
httpresponse = "";
}
// if the server's disconnected, stop the client:
if (!client.connected()) {
client.stop();
}
} // end of loop