/* * This class is one end of a test pair of programs * SimpleSnuV1.class is the other end. * To run the test requires two com ports * and a null modem cable. * Start SimpleSnuV1 and then run SimpleRead * on the other machine/com port. * This code is supplied for demonstration purposes only. * You are free to use it as you please. */ import java.io.*; import java.util.*; import javax.comm.*; public class SimpleRead implements Runnable, SerialPortEventListener { static CommPortIdentifier portId; static Enumeration portList; SerialPort serialPort = null; InputStream inputStream; OutputStream outputStream; Thread readThread; String aS = ""; int numBytes = 0; String num = "021891383"; String rst = "atz"; String dial ="atd"; String outData = ""; String outDataBuff = ""; boolean running = true; boolean process = true; boolean waitForInput = true; boolean fatalErr = false; String errMessage = ""; public static void main(String[] args) { if (args.length < 1) { System.out.print("SimpleRead.class /dev/ttyxx\n"); System.exit(-1); } portList = CommPortIdentifier.getPortIdentifiers(); while (portList.hasMoreElements()) { portId = (CommPortIdentifier) portList.nextElement(); if (portId.getPortType() == CommPortIdentifier.PORT_SERIAL) { // if (portId.getName().equals("COM1")) { if (portId.getName().equals(args[0])) { SimpleRead reader = new SimpleRead(); } } } } public SimpleRead() { try { serialPort = (SerialPort) portId.open("SimpleReadApp", 2000); } catch (PortInUseException e) {} try { inputStream = serialPort.getInputStream(); outputStream = serialPort.getOutputStream(); } catch (IOException e) {} try { serialPort.addEventListener(this); } catch (TooManyListenersException e) {} serialPort.notifyOnDataAvailable(true); try { serialPort.setSerialPortParams(19200, SerialPort.DATABITS_8, SerialPort.STOPBITS_1, SerialPort.PARITY_NONE); } catch (UnsupportedCommOperationException e) {} readThread = new Thread(this); readThread.start(); } public void run() { int resetCount = 0; while (running) { if (fatalErr) { System.out.print("Fatal Error...\n"); System.exit(1); } if (!process) { try { Thread.sleep(500); } catch (InterruptedException e) {} continue; } if (num.equals("Nil")) { try { Thread.sleep(500); } catch (InterruptedException e) {} continue; } if (reset()) { if (dial()) { num = "Nil"; System.out.print("Yahoooo OK...\n"); //Here goes a class to handle any coms it gets passed the stuff it needs... // SNHdlcMessage myMess = new SNHdlcMessage(); // String rply = myMess.processInput("loc1", "text", inputStream, outputStream); // System.out.print(rply + "\n"); process = false; running = false; System.out.print("Normal Exit...\n"); System.exit(1); } else { System.out.print("Dial Error...\n"); process = false; running = false; System.exit(1); } } else { System.out.print("Reset Error...\n"); resetCount ++; if (resetCount > 2 ) { System.out.print("Reset To Many Times Error ...\n"); System.exit(1); } } try { Thread.sleep(100); } catch (InterruptedException e) {} } } public void closePort(SerialPort serialPort) { if (serialPort != null) { serialPort.notifyOnDataAvailable(false); serialPort.removeEventListener(); if (inputStream != null) { try { inputStream.close(); inputStream = null; } catch (IOException e) {} } if (outputStream != null) { try { outputStream.close(); outputStream = null; } catch (IOException e) {} } serialPort.close(); serialPort = null; } } public boolean reset() { try { outputStream.write(new String("atz").getBytes()); outputStream.write((byte)0x0D); System.out.print("--> atz\n"); } catch (IOException e) { System.out.print("Reset Output IO Exception"); return false; } int waitingCount = 0; waitForInput = true; while (waitForInput) { try { Thread.sleep(100); } catch (InterruptedException e) {} waitingCount ++; //2 seconds for it to reset if (waitingCount > 20) { return false; } } int numBytesTotal = 0; byte[] readBuffer = new byte[20]; String sReadBuff = ""; boolean dLoop = true; while (dLoop) { try { while (inputStream.available() > 0) { numBytes = inputStream.read(readBuffer); numBytesTotal += numBytes; String tmpR = new String(readBuffer); sReadBuff += tmpR.substring(0, numBytes); } if (sReadBuff.indexOf("NO CARRIER") != -1) { dLoop = false; } else if (sReadBuff.indexOf("BUSY") != -1) { dLoop = false; } else if (sReadBuff.indexOf("NO DIALTONE") != -1) { dLoop = false; } else if (sReadBuff.indexOf("OK") != -1) { dLoop = false; System.out.print("<-- " + new String(sReadBuff)); return true; } else if (sReadBuff.indexOf("CONNECT") != -1) { dLoop = false; } } catch (IOException e) { System.out.print("Reset Input IO Exception"); return false; } } System.out.print("<-- " + new String(sReadBuff)); return false; } public boolean dial() { try { outputStream.write(new String("atd").getBytes()); outputStream.write(num.getBytes()); outputStream.write((byte)0x0D); System.out.print("--> atdxxxxx\n"); } catch (IOException e) { System.out.print("Dial Output IO Exception"); return false; } int waitingCount = 0; waitForInput = true; while (waitForInput) { try { Thread.sleep(100); } catch (InterruptedException e) {} waitingCount ++; if (waitingCount > 1000) { return false; } } int numBytesTotal = 0; byte[] readBuffer = new byte[20]; String sReadBuff = ""; boolean dLoop = true; while (dLoop) { try { while (inputStream.available() > 0) { numBytes = inputStream.read(readBuffer); numBytesTotal += numBytes; String tmpR = new String(readBuffer); sReadBuff += tmpR.substring(0, numBytes); } if (sReadBuff.indexOf("NO CARRIER") != -1) { dLoop = false; } else if (sReadBuff.indexOf("BUSY") != -1) { dLoop = false; } else if (sReadBuff.indexOf("NO DIALTONE") != -1) { dLoop = false; } else if (sReadBuff.indexOf("OK") != -1) { dLoop = false; } else if (sReadBuff.indexOf("CONNECT") != -1) { System.out.print("<-- " + new String(sReadBuff)); dLoop = false; return true; } } catch (IOException e) { System.out.print("Dial Input IO Exception"); return false; } } System.out.print("<-- " + new String(sReadBuff)); return false; } public void serialEvent(SerialPortEvent event) { switch(event.getEventType()) { case SerialPortEvent.BI: System.out.print("BI\n"); case SerialPortEvent.OE: System.out.print("OE\n"); case SerialPortEvent.FE: System.out.print("FE\n"); case SerialPortEvent.PE: System.out.print("PE\n"); case SerialPortEvent.CD: System.out.print("CD\n"); case SerialPortEvent.CTS: System.out.print("CTS\n"); case SerialPortEvent.DSR: System.out.print("DSR\n"); case SerialPortEvent.RI: System.out.print("RI\n"); case SerialPortEvent.OUTPUT_BUFFER_EMPTY: System.out.print("Out Buff Empty\n"); break; case SerialPortEvent.DATA_AVAILABLE: waitForInput = false; // System.out.print("Data Available\n"); break; } } }