class RemindTask_send_update extends TimerTask { Runtime rxrunti = Runtime.getRuntime(); public void run() { // ************************************************************************************ krypton_update_token update = new krypton_update_token(tokenx_buffer); // krypton_net_client.send_unconfirmed_update(tokenx_buffer); krypton_database_load load = new krypton_database_load(); } // runx*************************************************************************************************** } // remindtask
class RemindTask_restart extends TimerTask { Runtime rxrunti = Runtime.getRuntime(); public void run() { // ************************************************************************************** try { restartApplication(); } catch (Exception e) { e.printStackTrace(); } } // runx*************************************************************************************************** } // remindtask
protected BufferedImage makeImage() { BufferedImage image = new BufferedImage(IMAGE_SIZE, IMAGE_SIZE, BufferedImage.TYPE_4BYTE_ABGR); Graphics2D g = image.createGraphics(); g.setPaint(Color.WHITE); g.fill3DRect(0, 0, IMAGE_SIZE, IMAGE_SIZE, false); g.setPaint(Color.RED); g.setFont(Font.decode("ARIAL-BOLD-50")); g.drawString(Long.toString(++this.counter) + " frames", 10, IMAGE_SIZE / 4); g.drawString( Long.toString((System.currentTimeMillis() - start) / 1000) + " sec", 10, IMAGE_SIZE / 2); g.drawString( "Heap:" + Long.toString(Runtime.getRuntime().totalMemory()), 10, 3 * IMAGE_SIZE / 4); g.dispose(); return image; }
class RemindTask_server extends TimerTask { Runtime rxrunti = Runtime.getRuntime(); public void run() { // ************************************************************************************ String jsonText2 = new String(""); JSONObject obj_out = new JSONObject(); ServerSocket welcomeSocket; while (true) { try { // ********************************************************* welcomeSocket = new ServerSocket(network.api_port, 0, InetAddress.getByName("localhost")); Socket connectionSocket = welcomeSocket.accept(); BufferedReader inFromClient = new BufferedReader(new InputStreamReader(connectionSocket.getInputStream())); DataOutputStream outToClient = new DataOutputStream(connectionSocket.getOutputStream()); clientSentence = inFromClient.readLine(); JSONParser parser = new JSONParser(); try { // ********************************************************* statex = "0"; responsex = "e00"; jsonText = ""; if (!clientSentence.contains("")) { throw new EmptyStackException(); } Object obj = parser.parse(clientSentence); jsonObject = (JSONObject) obj; String request = (String) jsonObject.get("request"); String item_id = new String(""); String item_array = new String(""); String old_key = new String(""); String node = new String(""); try { item_id = (String) jsonObject.get("item_id").toString(); } catch (Exception e) { System.out.println("extra info no item_id..."); } try { item_array = (String) jsonObject.get("item_array").toString(); } catch (Exception e) { System.out.println("extra info no item_array..."); } try { old_key = (String) jsonObject.get("key").toString(); } catch (Exception e) { System.out.println("extra info no key..."); } try { node = (String) jsonObject.get("node").toString(); } catch (Exception e) { System.out.println("extra info no node..."); } while (network.database_in_use == 1 && !request.equals("status")) { System.out.println("Database in use..."); try { Thread.sleep(1000); } catch (InterruptedException e) { } } // ************************************************************** if (request.equals("status")) { statex = "1"; responsex = get_status(); } // *************************** else if (request.equals("get_version")) { statex = "1"; responsex = network.versionx; } // else if (request.equals("get_tor_active")) { statex = "1"; responsex = Integer.toString(network.tor_active); } // else if (request.equals("get_last_block")) { statex = "1"; responsex = network.last_block_id; } // else if (request.equals("get_last_block_timestamp")) { statex = "1"; responsex = network.last_block_timestamp; } // else if (request.equals("get_last_block_hash")) { statex = "1"; responsex = network.last_block_idx; } // else if (request.equals("get_difficulty")) { statex = "1"; responsex = Long.toString(network.difficultyx); } // else if (request.equals("get_last_mining_id")) { statex = "1"; responsex = network.last_block_mining_idx; } // else if (request.equals("get_prev_mining_id")) { statex = "1"; responsex = network.prev_block_mining_idx; } // else if (request.equals("get_last_unconfirmed_id")) { statex = "1"; responsex = get_item_ids(); } // else if (request.equals("get_my_token_total")) { statex = "1"; responsex = Integer.toString(network.database_listings_owner); } // else if (request.equals("get_my_id_list")) { statex = "1"; responsex = get_item_ids(); } // else if (request.equals("get_my_ids_limit")) { statex = "1"; responsex = get_item_ids(); } // else if (request.equals("get_token")) { statex = "1"; responsex = get_item_array(item_id); } // else if (request.equals("get_settings")) { statex = "1"; responsex = get_settings_array(); } // else if (request.equals("get_mining_info")) { statex = "1"; responsex = get_item_array(item_id); } // else if (request.equals("get_new_keys")) { statex = "1"; responsex = build_keysx(); } // else if (request.equals("delete_node")) { statex = "1"; responsex = delete_node(node); } // else if (request.equals("delete_all_nodes")) { statex = "1"; responsex = delete_all_nodes(); } // else if (request.equals("set_new_node")) { statex = "1"; responsex = set_new_node(node); } // else if (request.equals("set_old_key")) { statex = "1"; responsex = set_old_key(old_key); } // else if (request.equals("set_new_block")) { statex = "1"; responsex = set_new_block(item_array); } // else if (request.equals("set_edit_block")) { statex = "1"; update_state = "set_edit_block"; responsex = update_token(item_array); } // else if (request.equals("set_transfer_block")) { statex = "1"; update_state = "set_transfer_block"; responsex = update_token(item_array); } // else if (request.equals("system_restart")) { statex = "1"; responsex = "restarting"; toolkit = Toolkit.getDefaultToolkit(); xtimerx = new Timer(); xtimerx.schedule(new RemindTask_restart(), 0); } // else if (request.equals("system_exit")) { statex = "1"; System.exit(0); } // else { statex = "0"; responsex = "e01 UnknownRequestException"; } } // try catch (ParseException e) { e.printStackTrace(); statex = "0"; responsex = "e02 ParseException"; } catch (Exception e) { e.printStackTrace(); statex = "0"; responsex = "e03 Exception"; } JSONObject obj = new JSONObject(); obj.put("response", statex); try { obj.put("message", responsex); } catch (Exception e) { e.printStackTrace(); } StringWriter outs = new StringWriter(); obj.writeJSONString(outs); jsonText = outs.toString(); System.out.println("SEND RESPONSE " + responsex); outToClient.writeBytes(jsonText + '\n'); welcomeSocket.close(); } catch (Exception e) { e.printStackTrace(); System.out.println("Server ERROR x3"); } } // **********while } // runx*************************************************************************************************** } // remindtask
public synchronized RenderedImage runDCRaw(dcrawMode mode, boolean secondaryPixels) throws IOException, UnknownImageTypeException, BadImageFileException { if (!m_decodable || (mode == dcrawMode.full && m_rawColors != 3)) throw new UnknownImageTypeException("Unsuported Camera"); RenderedImage result = null; File of = null; try { if (mode == dcrawMode.preview) { if (m_thumbWidth >= 1024 && m_thumbHeight >= 768) { mode = dcrawMode.thumb; } } long t1 = System.currentTimeMillis(); of = File.createTempFile("LZRAWTMP", ".ppm"); boolean four_colors = false; final String makeModel = m_make + ' ' + m_model; for (String s : four_color_cameras) if (s.equalsIgnoreCase(makeModel)) { four_colors = true; break; } if (secondaryPixels) runDCRawInfo(true); String cmd[]; switch (mode) { case full: if (four_colors) cmd = new String[] { DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-f", "-H", "1", "-t", "0", "-o", "0", "-4", m_fileName }; else if (m_filters == -1 || (m_make != null && m_make.equalsIgnoreCase("SIGMA"))) cmd = new String[] { DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-H", "1", "-t", "0", "-o", "0", "-4", m_fileName }; else if (secondaryPixels) cmd = new String[] { DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-j", "-H", "1", "-t", "0", "-s", "1", "-d", "-4", m_fileName }; else cmd = new String[] { DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-j", "-H", "1", "-t", "0", "-d", "-4", m_fileName }; break; case preview: cmd = new String[] { DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-t", "0", "-o", "1", "-w", "-h", m_fileName }; break; case thumb: cmd = new String[] {DCRAW_PATH, "-F", of.getAbsolutePath(), "-v", "-e", m_fileName}; break; default: throw new IllegalArgumentException("Unknown mode " + mode); } String ofName = null; synchronized (DCRaw.class) { Process p = null; InputStream dcrawStdErr; InputStream dcrawStdOut; if (ForkDaemon.INSTANCE != null) { ForkDaemon.INSTANCE.invoke(cmd); dcrawStdErr = ForkDaemon.INSTANCE.getStdErr(); dcrawStdOut = ForkDaemon.INSTANCE.getStdOut(); } else { p = Runtime.getRuntime().exec(cmd); dcrawStdErr = new BufferedInputStream(p.getErrorStream()); dcrawStdOut = p.getInputStream(); } String line, args; // output expected on stderr while ((line = readln(dcrawStdErr)) != null) { // System.out.println(line); if ((args = match(line, DCRAW_OUTPUT)) != null) ofName = args.substring(0, args.indexOf(" ...")); } // Flush stdout just in case... while ((line = readln(dcrawStdOut)) != null) ; // System.out.println(line); if (p != null) { dcrawStdErr.close(); try { p.waitFor(); } catch (InterruptedException e) { e.printStackTrace(); } m_error = p.exitValue(); p.destroy(); } else m_error = 0; } System.out.println("dcraw value: " + m_error); if (m_error > 0) { of.delete(); throw new BadImageFileException(of); } if (!ofName.equals(of.getPath())) { of.delete(); of = new File(ofName); } if (of.getName().endsWith(".jpg") || of.getName().endsWith(".tiff")) { if (of.getName().endsWith(".jpg")) { try { LCJPEGReader jpegReader = new LCJPEGReader(of.getPath()); result = jpegReader.getImage(); } catch (Exception e) { e.printStackTrace(); } } else { try { LCTIFFReader tiffReader = new LCTIFFReader(of.getPath()); result = tiffReader.getImage(null); } catch (Exception e) { e.printStackTrace(); } } long t2 = System.currentTimeMillis(); int totalData = result.getWidth() * result.getHeight() * result.getColorModel().getNumColorComponents() * (result.getColorModel().getTransferType() == DataBuffer.TYPE_BYTE ? 1 : 2); System.out.println("Read " + totalData + " bytes in " + (t2 - t1) + "ms"); } else { ImageData imageData; try { imageData = readPPM(of); } catch (Exception e) { e.printStackTrace(); throw new BadImageFileException(of, e); } // do not change the initial image geometry // m_width = Math.min(m_width, imageData.width); // m_height = Math.min(m_height, imageData.height); long t2 = System.currentTimeMillis(); int totalData = imageData.width * imageData.height * imageData.bands * (imageData.dataType == DataBuffer.TYPE_BYTE ? 1 : 2); System.out.println("Read " + totalData + " bytes in " + (t2 - t1) + "ms"); final ColorModel cm; if (mode == dcrawMode.full) { if (imageData.bands == 1) { cm = new ComponentColorModel( ColorSpace.getInstance(ColorSpace.CS_GRAY), false, false, Transparency.OPAQUE, DataBuffer.TYPE_USHORT); } else { cm = JAIContext.colorModel_linear16; } } else { if (imageData.bands == 3) cm = new ComponentColorModel( JAIContext.sRGBColorSpace, false, false, Transparency.OPAQUE, DataBuffer.TYPE_BYTE); else if (imageData.bands == 4) cm = new ComponentColorModel( JAIContext.CMYKColorSpace, false, false, Transparency.OPAQUE, imageData.dataType); else throw new UnknownImageTypeException("Weird number of bands: " + imageData.bands); } final DataBuffer buf = imageData.dataType == DataBuffer.TYPE_BYTE ? new DataBufferByte( (byte[]) imageData.data, imageData.bands * imageData.width * imageData.height) : new DataBufferUShort( (short[]) imageData.data, imageData.bands * imageData.width * imageData.height); final WritableRaster raster = Raster.createInterleavedRaster( buf, imageData.width, imageData.height, imageData.bands * imageData.width, imageData.bands, imageData.bands == 3 ? new int[] {0, 1, 2} : new int[] {0}, null); result = new BufferedImage(cm, raster, false, null); } } catch (IOException e) { if (of != null) of.delete(); throw e; } finally { if (of != null) of.delete(); } return result; }
private void runDCRawInfo(boolean secondary) throws IOException { String info[] = {DCRAW_PATH, "-v", "-i", "-t", "0", m_fileName}; String secondaryInfo[] = {DCRAW_PATH, "-v", "-i", "-s", "1", "-t", "0", m_fileName}; synchronized (DCRaw.class) { Process p = null; InputStream dcrawStdOut; InputStream dcrawStdErr; if (ForkDaemon.INSTANCE != null) { ForkDaemon.INSTANCE.invoke(secondary ? secondaryInfo : info); dcrawStdOut = ForkDaemon.INSTANCE.getStdOut(); dcrawStdErr = ForkDaemon.INSTANCE.getStdErr(); } else { p = Runtime.getRuntime().exec(secondary ? secondaryInfo : info); dcrawStdOut = p.getInputStream(); dcrawStdErr = new BufferedInputStream(p.getErrorStream()); } // output expected on stdout String line, args; while ((line = readln(dcrawStdOut)) != null) { // System.out.println(line); String search; if (secondary) { if (line.startsWith(search = CAMERA_MULTIPLIERS)) { String multipliers[] = line.substring(search.length()).split("\\s"); m_secondary_cam_mul[0] = Float.parseFloat(multipliers[0]); m_secondary_cam_mul[1] = Float.parseFloat(multipliers[1]); m_secondary_cam_mul[2] = Float.parseFloat(multipliers[2]); m_secondary_cam_mul[3] = Float.parseFloat(multipliers[3]); } } else { // if (line.startsWith(search = FILENAME)) { // String filename = line.substring(search.length()); // } else if (line.startsWith(search = TIMESTAMP)) { String timestamp = line.substring(search.length()); try { m_captureDateTime = new SimpleDateFormat().parse(timestamp).getTime(); } catch (ParseException e) { m_captureDateTime = 0; } } else if (line.startsWith(search = CAMERA)) { String camera = line.substring(search.length()); m_make = camera.substring(0, camera.indexOf(' ')); m_model = camera.substring(m_make.length() + 1); } else if (line.startsWith(search = ISO)) { String iso = line.substring(search.length()); m_iso = Integer.decode(iso); } else if (line.startsWith(search = SHUTTER)) { String shutterSpeed = line.substring(search.length() + 2); float exposureTime = 0; try { exposureTime = Float.valueOf(shutterSpeed.substring(0, shutterSpeed.indexOf(" sec"))); if (exposureTime != 0) m_shutterSpeed = 1 / exposureTime; } catch (NumberFormatException e) { } } else if (line.startsWith(search = APERTURE)) { String aperture = line.substring(search.length() + 2); try { m_aperture = Float.valueOf(aperture); } catch (NumberFormatException e) { } } else if (line.startsWith(search = FOCAL_LENGTH)) { String focalLenght = line.substring(search.length()); try { m_focalLength = Float.valueOf(focalLenght.substring(0, focalLenght.indexOf(" mm"))); } catch (NumberFormatException e) { } // } else if (line.startsWith(search = NUM_RAW_IMAGES)) { // String numRawImages = line.substring(search.length()); // } else if (line.startsWith(search = EMBEDDED_ICC_PROFILE)) { // String embeddedICCProfile = line.substring(search.length()); } else if (line.startsWith(CANNOT_DECODE)) { m_decodable = false; } else if ((args = match(line, THUMB_SIZE)) != null) { String sizes[] = args.split(" x "); m_thumbWidth = Integer.decode(sizes[0]); m_thumbHeight = Integer.decode(sizes[1]); } else if ((args = match(line, FULL_SIZE)) != null) { String sizes[] = args.split(" x "); m_fullWidth = Integer.decode(sizes[0]); m_fullHeight = Integer.decode(sizes[1]); } else if ((args = match(line, IMAGE_SIZE)) != null) { String sizes[] = args.split(" x "); m_rawWidth = Integer.decode(sizes[0]); m_rawHeight = Integer.decode(sizes[1]); } else if ((args = match(line, OUTPUT_SIZE)) != null) { String sizes[] = args.split(" x "); m_width = Integer.decode(sizes[0]); m_height = Integer.decode(sizes[1]); } else if (line.startsWith(search = RAW_COLORS)) { String rawColors = line.substring(search.length()); m_rawColors = Integer.decode(rawColors); } else if (line.startsWith(search = FILTER_PATTERN)) { String pattern = line.substring(search.length()); if (pattern.length() >= 8 && !pattern.substring(0, 4).equals(pattern.substring(4, 8))) m_filters = -1; else if (pattern.startsWith("BGGR")) m_filters = 0x16161616; else if (pattern.startsWith("GRBG")) m_filters = 0x61616161; else if (pattern.startsWith("GBRG")) m_filters = 0x49494949; else if (pattern.startsWith("RGGB")) m_filters = 0x94949494; else m_filters = -1; } else if (line.startsWith(search = DAYLIGHT_MULTIPLIERS)) { String multipliers[] = line.substring(search.length()).split("\\s"); m_pre_mul[0] = Float.parseFloat(multipliers[0]); m_pre_mul[1] = Float.parseFloat(multipliers[1]); m_pre_mul[2] = Float.parseFloat(multipliers[2]); m_pre_mul[3] = m_pre_mul[1]; } else if (line.startsWith(search = CAMERA_MULTIPLIERS)) { String multipliers[] = line.substring(search.length()).split("\\s"); m_cam_mul[0] = Float.parseFloat(multipliers[0]); m_cam_mul[1] = Float.parseFloat(multipliers[1]); m_cam_mul[2] = Float.parseFloat(multipliers[2]); m_cam_mul[3] = Float.parseFloat(multipliers[3]); } else if (line.startsWith(CAMERA_RGB_PROFILE)) { String rgb_cam[] = line.substring(CAMERA_RGB_PROFILE.length()).split("\\s"); m_rgb_cam = new float[9]; for (int i = 0; i < 9; i++) { m_rgb_cam[i] = Float.parseFloat(rgb_cam[i]); } } else if (line.startsWith(CAMERA_XYZ_PROFILE)) { String xyz_cam[] = line.substring(CAMERA_XYZ_PROFILE.length()).split("\\s"); m_xyz_cam = new float[9]; for (int i = 0; i < 9; i++) { m_xyz_cam[i] = Float.parseFloat(xyz_cam[i]); } } } } // Flush stderr just in case... while ((line = readln(dcrawStdErr)) != null) ; // System.out.println(line); if (p != null) { dcrawStdOut.close(); try { p.waitFor(); } catch (InterruptedException e) { e.printStackTrace(); } m_error = p.exitValue(); p.destroy(); } else m_error = 0; } }