Mercurial > 510Connectbot
view app/src/main/java/org/tn5250j/framework/tn5250/DataStreamProducer.java @ 471:4f686f5a8b0f
Added tag stable-1.9.3-8 for changeset 2cc170e3fc9b
| author | Carl Byington <carl@five-ten-sg.com> |
|---|---|
| date | Fri, 04 Oct 2019 17:13:10 -0700 |
| parents | 5ce5235adde6 |
| children |
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package org.tn5250j.framework.tn5250; import org.tn5250j.encoding.ICodePage; import java.io.BufferedInputStream; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.net.SocketException; import java.util.concurrent.BlockingQueue; import static org.tn5250j.framework.tn5250.Stream5250.OPCODE_OFFSET; import java.util.Timer; import java.util.TimerTask; import android.util.Log; public class DataStreamProducer implements Runnable { private static final int MINIMAL_PARTIAL_STREAM_LEN = 2; private static final String TAG = "DataStreamProducer"; private tnvt vt; private BufferedInputStream bin; private ByteArrayOutputStream baosin; private byte[] saveStream; private final BlockingQueue<Object> dsq; private byte[] dataStream; private DataStreamDumper dataStreamDumper = new DataStreamDumper(); public DataStreamProducer(tnvt vt, BufferedInputStream bin, BlockingQueue<Object> queue, byte[] init) { this.bin = bin; this.vt = vt; baosin = new ByteArrayOutputStream(); dsq = queue; dataStream = init; } public final void run() { boolean done = false; Thread me = Thread.currentThread(); // load the first response screen loadStream(dataStream, 0); while (!done) { try { byte[] abyte0 = readIncoming(); // WVL - LDC : 17/05/2004 : Device name negotiations send TIMING MARK // Restructured to the readIncoming() method to return null // on TIMING MARK. Don't process in that case (abyte0 == null)! if (abyte0 != null) { // WVL - LDC : 16/07/2003 : TR.000345 // When the socket has been closed, the reading returns // no bytes (an empty byte arrray). // But the loadStream fails on this, so we check it here! if (abyte0.length > 0) { loadStream(abyte0, 0); } // WVL - LDC : 16/07/2003 : TR.000345 // Returning no bytes means the input buffer has // reached end-of-stream, so we do a disconnect! else { done = true; vt.disconnect(); } } } catch (SocketException se) { Log.w(TAG, " DataStreamProducer thread interrupted and stopping " + se.getMessage()); done = true; } catch (IOException ioe) { Log.w(TAG, ioe.getMessage()); if (me.isInterrupted()) done = true; } catch (Exception ex) { Log.w(TAG, ex.getMessage()); if (me.isInterrupted()) done = true; } } } private void loadStream(byte streamBuffer[], int offset) { int partialLen = (streamBuffer[offset] & 0xff) << 8 | streamBuffer[offset + 1] & 0xff; int bufferLen = streamBuffer.length; Log.d(TAG, "loadStream() offset=" + offset + " partialLen=" + partialLen + " bufferLen=" + bufferLen); if (saveStream != null) { Log.d(TAG, "partial stream found"); bufferLen = saveStream.length + streamBuffer.length; byte[] inter = new byte[bufferLen]; System.arraycopy(saveStream, 0, inter, 0, saveStream.length); System.arraycopy(streamBuffer, 0, inter, saveStream.length, streamBuffer.length); streamBuffer = new byte[bufferLen]; System.arraycopy(inter, 0, streamBuffer, 0, bufferLen); saveStream = null; } if (partialLen > bufferLen) { saveStream = new byte[streamBuffer.length]; Log.d(TAG, "partial stream saved"); System.arraycopy(streamBuffer, 0, saveStream, 0, streamBuffer.length); } else { int buf_len = partialLen + 2; byte[] buf = new byte[buf_len]; if (isBufferShifted(partialLen, bufferLen) && isOpcodeShifted(streamBuffer, offset)) { Log.d(TAG, "Invalid stream buffer detected. Ignoring the inserted byte."); System.arraycopy(streamBuffer, offset, buf, 0, MINIMAL_PARTIAL_STREAM_LEN); System.arraycopy(streamBuffer, offset + MINIMAL_PARTIAL_STREAM_LEN + 1, buf, MINIMAL_PARTIAL_STREAM_LEN, partialLen); } else { System.arraycopy(streamBuffer, offset, buf, 0, buf_len); } try { dsq.put(buf); if (streamBuffer.length > buf.length + offset + MINIMAL_PARTIAL_STREAM_LEN) loadStream(streamBuffer, offset + buf_len); } catch (InterruptedException ex) { Log.w(TAG, "load stream error.", ex); } } } private boolean isOpcodeShifted(byte[] streamBuffer, int offset) { byte code = streamBuffer[offset + 1 + OPCODE_OFFSET]; return (0 <= code && code <= 12); } private boolean isBufferShifted(int partialLen, int bufferLen) { return partialLen + MINIMAL_PARTIAL_STREAM_LEN + 1 == bufferLen; } public final byte[] readIncoming() throws IOException { boolean done = false; boolean negotiate = false; baosin.reset(); int j = -1; Timer timer = new Timer("data.stream", true); TimerTask task = null; while (!done) { if (bin.available() == 0) { task = new TimerTask() { public void run() { try { dsq.put(new Integer(0)); // trigger buffer.testChanged() } catch (Exception ex) { Log.w(TAG, "readIncoming error " + ex.getMessage()); } } }; timer.schedule(task, 10); // 10 ms delay } int i = bin.read(); if (task != null) { task.cancel(); task = null; } // WVL - LDC : 16/07/2003 : TR.000345 // The inStream return -1 when end-of-stream is reached. This // happens e.g. when the connection is closed from the AS/400. // So we stop in this case! // ==> an empty byte array is returned from this method. if (i == -1) { // nothing read! done = true; vt.disconnect(); continue; } // We use the values instead of the static values IAC and EOR // because they are defined as bytes. // // The > if(i != 255 || j != 255) < is a hack for the double FF FF's // that are being returned. I do not know why this is like this and // can not find any documentation for it. It is also being returned // on my Client Access tcp dump as well so they are handling it. // // my5250 // 0000: 00 50 DA 44 C8 45 42 00 00 00 00 24 08 00 45 00 .P.D.EB....$..E. // 0010: 04 2A BC F9 00 00 40 06 D0 27 C1 A8 33 04 C1 A8 .*....@..'..3... // 0020: 33 58 00 17 04 18 6F A2 83 CB 00 1E D1 BA 50 18 3X....o.......P. // 0030: 20 00 8A 9A 00 00 03 FF FF 12 A0 00 00 04 00 00 ............... // --------------------------- || || ------------------------------------- // 0040: 03 04 40 04 11 00 20 01 07 00 00 00 18 00 00 10 ..@... ......... if (j == 255 && i == 255) { j = -1; continue; } baosin.write(i); // check for end of record EOR and IAC - FFEF if (j == 255 && i == 239) done = true; // This is to check for the TELNET TIMING MARK OPTION // rfc860 explains this in more detail. When we receive it // we will negotiate with the server by sending a WONT'T TIMING-MARK // This will let the server know that we processed the information // and are just waiting for the user to enter some data so keep the // socket alive. This is more or less a AYT (ARE YOU THERE) or not. if (i == 253 && j == 255) { done = true; negotiate = true; } j = i; } // after the initial negotiation we might get other options such as // timing marks ?????????????? do we ???????????? look at telnet spec // yes we do. rfc860 explains about timing marks. // WVL - LDC : 17/05/2004 : Device name negotiations send TIMING MARK // to existing device! // Handled incorrectly: we cannot continue processing the TIMING MARK DO // after we have handled it in the vt.negotiate() // We should not return the bytes; // ==> restructured to return null after negotiation! // Impacts the run method! Added the null check. byte[] rBytes = baosin.toByteArray(); dataStreamDumper.dump(rBytes); if (negotiate) { if (bin.available() == 0) { task = new TimerTask() { public void run() { try { dsq.put(new Integer(0)); // trigger buffer.testChanged() } catch (Exception ex) { Log.w(TAG, "readIncoming error " + ex.getMessage()); } } }; timer.schedule(task, 10); // 10 ms delay } // get the negotiation option baosin.write(bin.read()); if (task != null) { task.cancel(); task = null; } vt.negotiate(rBytes); return null; } return rBytes; } protected void toggleDebug(ICodePage codePage) { dataStreamDumper.toggleDebug(codePage); } }