public VideoTrack(PullSourceStream stream) throws ResourceUnavailableException { super(); this.stream = stream; // set format // read first frame to determine format final Buffer buffer = new Buffer(); readFrame(buffer); if (buffer.isDiscard() || buffer.isEOM()) throw new ResourceUnavailableException("Unable to read first frame"); // TODO: catch runtime exception too? // parse jpeg final java.awt.Image image; try { image = ImageIO.read( new ByteArrayInputStream( (byte[]) buffer.getData(), buffer.getOffset(), buffer.getLength())); } catch (IOException e) { logger.log(Level.WARNING, "" + e, e); throw new ResourceUnavailableException("Error reading image: " + e); } if (image == null) { logger.log(Level.WARNING, "Failed to read image (ImageIO.read returned null)."); throw new ResourceUnavailableException(); } if (frameContentType.equals("image/jpeg")) format = new JPEGFormat( new Dimension(image.getWidth(null), image.getHeight(null)), Format.NOT_SPECIFIED, Format.byteArray, -1.f, Format.NOT_SPECIFIED, Format.NOT_SPECIFIED); else if (frameContentType.equals("image/gif")) format = new GIFFormat( new Dimension(image.getWidth(null), image.getHeight(null)), Format.NOT_SPECIFIED, Format.byteArray, -1.f); else if (frameContentType.equals("image/png")) format = new PNGFormat( new Dimension(image.getWidth(null), image.getHeight(null)), Format.NOT_SPECIFIED, Format.byteArray, -1.f); else throw new ResourceUnavailableException( "Unsupported frame content type: " + frameContentType); // TODO: this discards first image. save and return first time // readFrame is called. }
@Override public void readFrame(Buffer buffer) { // example data: // --ssBoundary8345 // Content-Type: image/jpeg // Content-Length: 114587 try { String line; // eat leading blank lines while (true) { line = readLine(MAX_LINE_LENGTH); if (line == null) { buffer.setEOM(true); buffer.setLength(0); return; } if (!line.trim().equals("")) break; // end of header } if (boundary == null) { boundary = line.trim(); // TODO: we should be able to get // this from the content type, but // the content type has this // stripped out. So we'll just take // the first nonblank line to be the // boundary. // System.out.println("boundary: " + boundary); } else { if (!line.trim().equals(boundary)) { // throw new IOException("Expected boundary: " + // toPrintable(line)); // TODO: why do we seem to get these when playing back // mmr files recorded using FmjTranscode? logger.warning("Expected boundary (frame " + framesRead + "): " + toPrintable(line)); // handle streams that are truncated in the middle of a // frame: final int eatResult = eatUntil(boundary); // TODO: no // need to // store the // data logger.info( "Ignored bytes (eom after=" + (eatResult < 0) + "): " + (eatResult < 0 ? (-1 * eatResult - 1) : eatResult)); if (eatResult < 0) { buffer.setEOM(true); buffer.setLength(0); return; } // now read boundary line = readLine(MAX_LINE_LENGTH); if (!line.trim().equals(boundary)) { throw new RuntimeException("No boundary found after eatUntil(boundary)"); // should // never // happen } } } final Properties properties = new Properties(); while (true) { line = readLine(MAX_LINE_LENGTH); if (line == null) { buffer.setEOM(true); buffer.setLength(0); return; } if (line.trim().equals("")) break; // end of header if (!parseProperty(line, properties)) throw new IOException("Expected property: " + toPrintable(line)); } final String contentType = properties.getProperty("Content-Type".toUpperCase()); if (contentType == null) { logger.warning("Header properties: " + properties); throw new IOException("Expected Content-Type in header"); } // check supported content types: if (!isSupportedFrameContentType(contentType)) { throw new IOException("Unsupported Content-Type: " + contentType); } if (frameContentType == null) { frameContentType = contentType; } else { if (!contentType.equals(frameContentType)) throw new IOException( "Content type changed during stream from " + frameContentType + " to " + contentType); } // TODO: check that size doesn't change throughout final byte[] data; final String contentLenStr = properties.getProperty("Content-Length".toUpperCase()); if (contentLenStr != null) { // if we know the content length, use it final int contentLen; try { contentLen = Integer.parseInt(contentLenStr); } catch (NumberFormatException e) { throw new IOException("Invalid content length: " + contentLenStr); } // now, read the content-length bytes data = readFully(contentLen); // TODO: don't realloc each // time } else { // if we don't know the content length, just read until we // find the boundary. // Some IP cameras don't specify it, like // http://webcam-1.duesseldorf.it-on.net/cgi-bin/nph-update.cgi data = readUntil(boundary); } // ext final String timestampStr = properties.getProperty(TIMESTAMP_KEY.toUpperCase()); if (timestampStr != null) { try { final long timestamp = Long.parseLong(timestampStr); buffer.setTimeStamp(timestamp); } catch (NumberFormatException e) { logger.log(Level.WARNING, "" + e, e); } } if (data == null) { buffer.setEOM(true); buffer.setLength(0); return; } buffer.setData(data); buffer.setOffset(0); buffer.setLength(data.length); ++framesRead; } catch (IOException e) { throw new RuntimeException(e); } }
@Override public int process(Buffer input, Buffer output) { if (!checkInputBuffer(input)) { return BUFFER_PROCESSED_FAILED; } if (isEOM(input)) { propagateEOM(output); // TODO: what about data? can there be any? return BUFFER_PROCESSED_OK; } try { // TODO: this is very inefficient - it allocates a new byte array // (or more) every time final ByteArrayInputStream is = new ByteArrayInputStream((byte[]) input.getData(), input.getOffset(), input.getLength()); final BufferedImage image = ImageIO.read(is); is.close(); final Buffer b = ImageToBuffer.createBuffer(image, ((VideoFormat) outputFormat).getFrameRate()); output.setData(b.getData()); output.setOffset(b.getOffset()); output.setLength(b.getLength()); output.setFormat(b.getFormat()); // TODO: this is a bit hacky, this // format will be more specific // than the actual set output // format, because now we know what // ImageIO gave us for a // BufferedImage as far as pixel // masks, etc. return BUFFER_PROCESSED_OK; } catch (IOException e) { output.setDiscard(true); output.setLength(0); return BUFFER_PROCESSED_FAILED; } }