public String[] getRecentDocuments() { final String[] recentDocuments; try { final NodeList nl = doc.getElementsByTagName("recentfiles"); final List fileNames = new ArrayList(); if (nl != null && nl.getLength() > 0) { final NodeList allRecentDocs = ((Element) nl.item(0)).getElementsByTagName("*"); for (int i = 0; i < allRecentDocs.getLength(); i++) { final Node item = allRecentDocs.item(i); final NamedNodeMap attrs = item.getAttributes(); fileNames.add(attrs.getNamedItem("name").getNodeValue()); } } // prune unwanted entries while (fileNames.size() > noOfRecentDocs) { fileNames.remove(0); } Collections.reverse(fileNames); recentDocuments = (String[]) fileNames.toArray(new String[noOfRecentDocs]); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " getting recent documents"); return null; } return recentDocuments; }
public PropertiesFile() { try { final String jarLoc = getClass().getProtectionDomain().getCodeSource().getLocation().toURI().getPath(); userDir = jarLoc.substring(0, jarLoc.lastIndexOf('/')); if (!userDir .isEmpty()) { // if userDir is "" we will get /.properties.xml which is not good on // Mac/Linux configFile = userDir + separator + ".properties.xml"; } else { configFile = ".properties.xml"; } if ((DecoderOptions.isRunningOnWindows) && (configFile.length() > 1)) { configFile = configFile.substring(1); configFile = configFile.replaceAll("\\\\", "/"); } } catch (final Exception e) { userDir = System.getProperty("user.dir"); configFile = userDir + separator + ".properties.xml"; LogWriter.writeLog("Exception " + e); } }
CFF(final FontFile2 currentFontFile, final boolean isCID) { glyphs = new T1Glyphs(isCID); if (isCID) { glyphs.init(65536, true); } // move to start and check exists final int startPointer = currentFontFile.selectTable(FontFile2.CFF); // read 'cff' table if (startPointer != 0) { try { final int length = currentFontFile.getTableSize(FontFile2.CFF); final byte[] data = currentFontFile.readBytes(startPointer, length); // initialise glyphs new Type1C(data, null, glyphs); hasCFFdata = true; } catch (final Exception e) { LogWriter.writeLog("Exception: " + e.getMessage()); } } }
@Override public byte[] getPdfBuffer() { byte[] pdfByteArray = null; final FastByteArrayOutputStream os; try { os = new FastByteArrayOutputStream(); // Download buffer final byte[] buffer = new byte[4096]; // Download the PDF document int read; while ((read = iis.read(buffer)) != -1) { os.write(buffer, 0, read); } // Copy output stream to byte array pdfByteArray = os.toByteArray(); } catch (final IOException e) { LogWriter.writeLog("[PDF] Exception " + e + " getting byte[] for " + fileName); } return pdfByteArray; }
/** update status if client being used also writes to log (called internally as file decoded) */ public final void updateStatus(String progress_bar, int debug_level_to_use) { current = progress_bar; // update status if in client if (showMessages == true) { SwingUtilities.invokeLater( new Runnable() { public void run() { status.setString(current); status.setValue(progress_size); } }); } if (debug_level > debug_level_to_use && LogWriter.isOutput()) LogWriter.writeLog(progress_bar); }
/** * Retrieve the URL of the actual image to use f * * @param path Preferred name and location * @return URL of file to use */ public URL getURLForImage(String path) { path = iconLocation + path; final String file = path.substring(path.lastIndexOf('/') + 1); URL url; // Check if file location provided path = path.substring(0, path.indexOf('.')) + ".gif"; File p = new File(path); url = getClass().getResource(path); // It's a file location check for gif if (p.exists()) { try { url = p.toURI().toURL(); } catch (final MalformedURLException e) { LogWriter.writeLog("Exception attempting get path for image " + e); } } if (url == null) { path = path.substring(0, path.indexOf('.')) + ".png"; p = new File(path); url = getClass().getResource(path); // It's a file location check for png if (p.exists()) { try { url = p.toURI().toURL(); } catch (final MalformedURLException e) { LogWriter.writeLog("Exception attempting get path for image " + e); } } } if (url != null) { return url; } else { // use default graphic path = "/org/jpedal/examples/viewer/res/" + file; url = getClass().getResource(path); return url; } }
/** returns current location pointer and sets to new value */ public void movePointer(final long pointer) { try { // make sure inside file if (pointer > pdf_datafile.length()) { if (LogWriter.isOutput()) { LogWriter.writeLog("Attempting to access ref outside file"); } // throw new PdfException("Exception moving file pointer - ref outside file"); } else { pdf_datafile.seek(pointer); } } catch (final Exception e) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + e + " moving pointer to " + pointer + " in file."); } } }
byte[] getBytes(final long start, final int count) { final byte[] buffer = new byte[count]; if (start >= 0) { try { pdf_datafile.seek(start); pdf_datafile.read(buffer); // get next chars } catch (final IOException e) { // tell user and log if (LogWriter.isOutput()) { LogWriter.writeLog("Exception: " + e.getMessage()); } // } } return buffer; }
/** get root dir */ public final int[] getRotatedPages() { int[] pagesToExport = null; if (printAll.isSelected()) { pagesToExport = new int[end_page]; for (int i = 0; i < end_page; i++) pagesToExport[i] = i + 1; } else if (printCurrent.isSelected()) { pagesToExport = new int[1]; pagesToExport[0] = currentPage; } else if (printPages.isSelected()) { try { PageRanges pages = new PageRanges(pagesBox.getText()); int count = 0; int i = -1; while ((i = pages.next(i)) != -1) count++; pagesToExport = new int[count]; count = 0; i = -1; while ((i = pages.next(i)) != -1) { if (i > end_page) { if (SimpleViewer.showMessages) JOptionPane.showMessageDialog( this, Messages.getMessage("PdfViewerText.Page") + ' ' + i + ' ' + Messages.getMessage("PdfViewerError.OutOfBounds") + ' ' + Messages.getMessage("PdfViewerText.PageCount") + ' ' + end_page); return null; } pagesToExport[count] = i; count++; } } catch (IllegalArgumentException e) { LogWriter.writeLog("Exception " + e + " in exporting pdfs"); if (SimpleViewer.showMessages) JOptionPane.showMessageDialog(this, Messages.getMessage("PdfViewerError.InvalidSyntax")); } } return pagesToExport; }
static byte[] getBytes(final long start, final int count, final RandomAccessBuffer pdf_datafile) { final byte[] buffer = new byte[count]; try { pdf_datafile.seek(start); pdf_datafile.read(buffer); // get next chars } catch (final IOException e) { LogWriter.writeLog("Exception: " + e.getMessage()); } return buffer; }
public Values() { String altSP = System.getProperty("org.jpedal.securityprovider"); try { if (altSP == null) { altSP = "/org/bouncycastle/"; } isEncryptOnClasspath = getClass().getResource(altSP) != null; } catch (final Exception e) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception in encryption " + e); } isEncryptOnClasspath = false; } catch (final Error e) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception in encryption " + e); } isEncryptOnClasspath = false; } }
/** * Get the cursor image as a buffered image for use in FX code * * @param type int value representing the cursor type * @return BufferedImage of the image to use for the cursor */ public BufferedImage getCursorImageForFX(final int type) { switch (type) { case GRAB_CURSOR: try { return ImageIO.read(getURLForImage("grab32.png")); } catch (final Exception e) { LogWriter.writeLog("Exception in getting image " + e); return null; } case GRABBING_CURSOR: try { return ImageIO.read(getURLForImage("grabbing32.png")); } catch (final Exception e) { LogWriter.writeLog("Exception in getting image " + e); return null; } default: return null; } }
public String getValue(final String elementName) { final NamedNodeMap attrs; try { final NodeList nl = doc.getElementsByTagName(elementName); final Element element = (Element) nl.item(0); if (element == null) { return ""; } attrs = element.getAttributes(); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " generating properties file"); return ""; } return attrs.getNamedItem("value").getNodeValue(); }
public RandomAccessMemoryMapBuffer(InputStream in) { this.pointer = -1; length = 0; FileOutputStream to = null; BufferedInputStream from = null; try { file = File.createTempFile("page", ".bin", new File(ObjectStore.temp_dir)); // file.deleteOnExit(); to = new java.io.FileOutputStream(file); from = new BufferedInputStream(in); // write byte[] buffer = new byte[65535]; int bytes_read; while ((bytes_read = from.read(buffer)) != -1) { to.write(buffer, 0, bytes_read); length = length + bytes_read; } } catch (Exception e) { e.printStackTrace(); // LogWriter.writeLog("Unable to save jpeg " + name); } // close streams try { if (to != null) to.close(); if (from != null) from.close(); } catch (Exception e) { LogWriter.writeLog("Exception " + e + " closing files"); } try { init(); } catch (Exception e) { e.printStackTrace(); } }
/** * open pdf file using a byte stream - By default files under 16384 bytes are cached to disk but * this can be altered by setting PdfFileReader.alwaysCacheInMemory to a maximimum size or -1 * (always keep in memory) */ public final void openPdfFile(final byte[] data) throws PdfException { final RandomAccessBuffer pdf_datafile; try { // use byte[] directly if small otherwise use Memory Map if (PdfFileReader.alwaysCacheInMemory == -1 || data.length < PdfFileReader.alwaysCacheInMemory) { pdf_datafile = new RandomAccessDataBuffer(data); } else { // cache as file and access via RandomAccess // pdf_datafile = new RandomAccessMemoryMapBuffer( data ); old version very slow try { final File file = File.createTempFile("page", ".bin", new File(ObjectStore.temp_dir)); tempFileName = file.getAbsolutePath(); // file.deleteOnExit(); final java.io.FileOutputStream a = new java.io.FileOutputStream(file); a.write(data); a.flush(); a.close(); pdf_datafile = new RandomAccessFileBuffer(tempFileName, "r"); } catch (final Exception e) { throw new RuntimeException( "Unable to create temporary file in " + ObjectStore.temp_dir + ' ' + e); } } objectReader.init(pdf_datafile); // eof = pdf_datafile.length(); // pdf_datafile = new RandomAccessFile( filename, "r" ); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " accessing file"); throw new PdfException("Exception " + e + " accessing file"); } }
/** close the file */ public final void closePdfFile() { try { objectReader.closeFile(); if (pdf_datafile != null) { pdf_datafile.close(); } // ensure temp file deleted if (tempFileName != null) { final File fileToDelete = new File(tempFileName); fileToDelete.delete(); tempFileName = null; } } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " closing file"); } }
public void addRecentDocument(final String file) { try { final Element recentElement = (Element) doc.getElementsByTagName("recentfiles").item(0); checkExists(file, recentElement); final Element elementToAdd = doc.createElement("file"); elementToAdd.setAttribute("name", file); recentElement.appendChild(elementToAdd); removeOldFiles(recentElement); // writeDoc(); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " adding recent document to properties file"); } }
/** * open pdf file<br> * Only files allowed (not http) so we can handle Random Access of pdf */ public final void openPdfFile(final String filename) throws PdfException { final RandomAccessBuffer pdf_datafile; try { pdf_datafile = new RandomAccessFileBuffer(filename, "r"); // pdf_datafile = new RandomAccessFCTest( new FileInputStream(filename)); objectReader.init(pdf_datafile); // this.eof = pdf_datafile.length(); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " accessing file"); throw new PdfException("Exception " + e + " accessing file"); } }
/** * open pdf file<br> * Only files allowed (not http) so we can handle Random Access of pdf */ public final void openPdfFile(final InputStream in) throws PdfException { try { // use byte[] directly if small otherwise use Memory Map pdf_datafile = new RandomAccessMemoryMapBuffer(in); objectReader.init(pdf_datafile); // this.eof = pdf_datafile.length(); // pdf_datafile = new RandomAccessFile( filename, "r" ); } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " accessing file"); throw new PdfException("Exception " + e + " accessing file"); } }
public void setValue(final String elementName, final String newValue) { try { final NodeList nl = doc.getElementsByTagName(elementName); final Element element = (Element) nl.item(0); if (element == null || newValue == null) { ShowGUIMessage.showGUIMessage( "The property " + elementName + " was either not found in the properties file or the value " + newValue + " was not set.", "Property not found."); } else { element.setAttribute("value", newValue); } } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " setting value in properties file"); } }
/** Hinted constructor */ public TTGlyph( final Glyf currentGlyf, final FontFile2 glyfTable, final Hmtx currentHmtx, final int idx, final float unitsPerEm, final TTVM vm) { super(currentGlyf, glyfTable, currentHmtx, idx, unitsPerEm, vm); /**/ if (debug) { try { System.out.println("debugging" + idx); final java.awt.image.BufferedImage img = new java.awt.image.BufferedImage(700, 700, java.awt.image.BufferedImage.TYPE_INT_ARGB); final Graphics2D gg2 = img.createGraphics(); for (int jj = 0; jj < paths.size() - 1; jj++) { if (jj == 0) { gg2.setColor(Color.red); } else { gg2.setColor(Color.blue); } gg2.fill(paths.elementAt(jj)); gg2.draw(paths.elementAt(jj).getBounds()); } // org.jpedal.gui.ShowGUIMessage.showGUIMessage("glyf "+ '/' +paths.size(),img,"glyf "+ '/' // +paths.size()+ '/' +compCount); } catch (final Exception e) { LogWriter.writeLog("Exception: " + e.getMessage()); } } // if(idx==2060) // ShowGUIMessage.showGUIMessage("done",img,"glyf done"); }
/** * test first bytes to see if new 1.5 style table with obj or contains ref * * @throws PdfException */ private boolean isCompressedStream(int pointer, final int eof) throws PdfException { final boolean debug = false; int bufSize = 50, charReached_legacy = 0, charReached_comp1 = 0, charReached_comp2 = 0; final int[] objStm = {'O', 'b', 'j', 'S', 't', 'm'}; final int[] XRef = {'X', 'R', 'e', 'f'}; int type = UNSET; // flag to show if at start of data for check boolean firstRead = true; while (true) { /** adjust buffer if less than 1024 bytes left in file */ if (pointer + bufSize > eof) { bufSize = eof - pointer; } if (bufSize < 0) { bufSize = 50; } if (pointer < 0) { pointer += bufSize; continue; } final byte[] buffer = getBytes(pointer, bufSize); // allow for fact sometimes start of data wrong if (firstRead && buffer[0] == 'r' && buffer[1] == 'e' && buffer[2] == 'f') { charReached_legacy = 1; } firstRead = false; // switch off /** look for xref or obj */ for (int i = 0; i < bufSize; i++) { final byte currentByte = buffer[i]; if (debug) { System.out.print((char) currentByte); } /** check for xref OR end - reset if not */ if (currentByte == oldPattern[charReached_legacy] && type != COMPRESSED) { charReached_legacy++; type = LEGACY; } else if ((currentByte == objStm[charReached_comp1]) && (charReached_comp1 == 0 || type == COMPRESSED)) { charReached_comp1++; type = COMPRESSED; } else if ((currentByte == XRef[charReached_comp2]) && (charReached_comp2 == 0 || type == COMPRESSED)) { charReached_comp2++; type = COMPRESSED; } else { charReached_legacy = 0; charReached_comp1 = 0; charReached_comp2 = 0; type = UNSET; } if (charReached_legacy == 3 || charReached_comp1 == 4 || charReached_comp2 == 3) { break; } } if (charReached_legacy == 3 || charReached_comp1 == 4 || charReached_comp2 == 3) { break; } // update pointer pointer += bufSize; } /** throw exception if no match or tell user which type */ if (type == UNSET) { try { closeFile(); } catch (final IOException e1) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + 1 + " closing file " + e1); } } throw new PdfException("Exception unable to find ref or obj in trailer"); } return type == COMPRESSED; }
/** read first start ref from last 1024 bytes */ private int readFirstStartRef() throws PdfException { // reset flag offset.setRefTableInvalid(false); int pointer = -1; int i = 1019; final StringBuilder startRef = new StringBuilder(10); /** move to end of file and read last 1024 bytes */ final int block = 1024; byte[] lastBytes = new byte[block]; long end; /** set endpoint, losing null chars and anything before EOF */ final int[] EndOfFileMarker = {37, 37, 69, 79}; int valReached = 3; boolean EOFFound = false; try { end = eof; /** lose nulls and other trash from end of file */ final int bufSize = 255; while (true) { final byte[] buffer = getBytes(end - bufSize, bufSize); int offset = 0; for (int ii = bufSize - 1; ii > -1; ii--) { // see if we can decrement EOF tracker or restart check if (!EOFFound) { valReached = 3; } if (buffer[ii] == EndOfFileMarker[valReached]) { valReached--; EOFFound = true; } else { EOFFound = false; } // move to next byte offset--; if (valReached < 0) { ii = -1; } } // exit if found values on loop if (valReached < 0) { end -= offset; break; } else { end -= bufSize; } // allow for no eof if (end < 0) { end = eof; break; } } // end=end+bufSize; // allow for very small file int count = (int) (end - block); if (count < 0) { count = 0; final int size = (int) eof; lastBytes = new byte[size]; i = size + 3; // force reset below } lastBytes = getBytes(count, lastBytes.length); } catch (final Exception e) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + e + " reading last 1024 bytes"); } throw new PdfException(e + " reading last 1024 bytes"); } // for(int ii=0;ii<lastBytes.length;ii++){ // System.out.print((char)lastBytes[ii]); // } // System.out.println(); // look for tref as end of startxref final int fileSize = lastBytes.length; if (i > fileSize) { i = fileSize - 5; } while (i > -1) { // first check is because startref works as well a startxref !! if (((lastBytes[i] == 116 && lastBytes[i + 1] == 120) || (lastBytes[i] == 114 && lastBytes[i + 1] == 116)) && (lastBytes[i + 2] == 114) && (lastBytes[i + 3] == 101) && (lastBytes[i + 4] == 102)) { break; } i--; } /** trap buggy files */ if (i == -1) { try { closeFile(); } catch (final IOException e1) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + e1 + " closing file"); } } throw new PdfException("No Startxref found in last 1024 bytes "); } i += 5; // allow for word length // move to start of value ignoring spaces or returns while (i < 1024 && (lastBytes[i] == 10 || lastBytes[i] == 32 || lastBytes[i] == 13)) { i++; } // move to start of value ignoring spaces or returns while ((i < 1024) && (lastBytes[i] != 10) && (lastBytes[i] != 32) && (lastBytes[i] != 13)) { startRef.append((char) lastBytes[i]); i++; } /** convert xref to string to get pointer */ if (startRef.length() > 0) { pointer = Integer.parseInt(startRef.toString()); } if (pointer == -1) { if (LogWriter.isOutput()) { LogWriter.writeLog("No Startref found in last 1024 bytes "); } try { closeFile(); } catch (final IOException e1) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + e1 + " closing file"); } } throw new PdfException("No Startref found in last 1024 bytes "); } return pointer; }
/** read reference table from file so we can locate objects in pdf file and read the trailers */ private PdfObject readLegacyReferenceTable( PdfObject rootObj, int pointer, final int eof, final PdfFileReader currentPdfFile) throws PdfException { int endTable, current = 0; // current object number byte[] Bytes; int bufSize = 1024; /** read and decode 1 or more trailers */ while (true) { try { // allow for pointer outside file Bytes = Trailer.readTrailer(bufSize, pointer, eof, pdf_datafile); } catch (final Exception e) { try { closeFile(); } catch (final IOException e1) { if (LogWriter.isOutput()) { LogWriter.writeLog("Exception " + e + " closing file " + e1); } } throw new PdfException("Exception " + e + " reading trailer"); } if (Bytes == null) // safety catch { break; } /** get trailer */ int i = 0; final int maxLen = Bytes.length; // for(int a=0;a<100;a++) // System.out.println((char)Bytes[i+a]); while (i < maxLen) { // look for trailer keyword if (Bytes[i] == 116 && Bytes[i + 1] == 114 && Bytes[i + 2] == 97 && Bytes[i + 3] == 105 && Bytes[i + 4] == 108 && Bytes[i + 5] == 101 && Bytes[i + 6] == 114) { break; } i++; } // save endtable position for later endTable = i; if (i == Bytes.length) { break; } // move to beyond << while (Bytes[i] != 60 && Bytes[i - 1] != 60) { i++; } i++; final PdfObject pdfObject = new CompressedObject("1 0 R"); Dictionary.readDictionary(pdfObject, i, Bytes, -1, true, currentPdfFile, false); // move to beyond >> int level = 0; while (true) { if (Bytes[i] == 60 && Bytes[i - 1] == 60) { level++; i++; } else if (Bytes[i] == '[') { i++; while (Bytes[i] != ']') { i++; if (i == Bytes.length) { break; } } } else if (Bytes[i] == 62 && Bytes[i - 1] == 62) { level--; i++; } if (level == 0) { break; } i++; } // handle optional XRefStm final int XRefStm = pdfObject.getInt(PdfDictionary.XRefStm); if (XRefStm != -1) { pointer = XRefStm; } else { // usual way boolean hasRef = true; /** handle spaces and comments */ while (Bytes[i] == 10 || Bytes[i] == 13) { i++; } while (Bytes[i] == '%') { while (Bytes[i] != 10) { i++; } i++; } /* fix for /Users/markee/Downloads/oneiderapartnerbrochure_web_1371798737.pdf /**/ // look for xref as end of startref while (Bytes[i] != 116 && Bytes[i + 1] != 120 && Bytes[i + 2] != 114 && Bytes[i + 3] != 101 && Bytes[i + 4] != 102) { if (Bytes[i] == 'o' && Bytes[i + 1] == 'b' && Bytes[i + 2] == 'j') { hasRef = false; break; } i++; } if (hasRef) { i += 8; // move to start of value ignoring spaces or returns while ((i < maxLen) && (Bytes[i] == 10 || Bytes[i] == 32 || Bytes[i] == 13)) { i++; } final int s = i; // allow for characters between xref and startref while (i < maxLen && Bytes[i] != 10 && Bytes[i] != 32 && Bytes[i] != 13) { i++; } /** convert xref to string to get pointer */ if (s != i) { pointer = NumberUtils.parseInt(s, i, Bytes); } } } i = 0; // allow for bum data at start while (Bytes[i] == 13 || Bytes[i] == 10 || Bytes[i] == 9) { i++; } if (pointer == -1) { if (LogWriter.isOutput()) { LogWriter.writeLog("No startRef"); } /** now read the objects for the trailers */ } else if (Bytes[i] == 120 && Bytes[i + 1] == 114 && Bytes[i + 2] == 101 && Bytes[i + 3] == 102) { // make sure starts xref i = 5; // move to start of value ignoring spaces or returns while (Bytes[i] == 10 || Bytes[i] == 32 || Bytes[i] == 13) { i++; } current = offset.readXRefs(current, Bytes, endTable, i, eof, pdf_datafile); /** * now process trailer values - only first set of table values for root, encryption and info */ if (rootObj == null) { rootObj = pdfObject.getDictionary(PdfDictionary.Root); encryptObj = pdfObject.getDictionary(PdfDictionary.Encrypt); if (encryptObj != null) { final byte[][] IDs = pdfObject.getStringArray(PdfDictionary.ID); if (IDs != null && this.ID == null) { // only the first encountered ID should be used as a fileID for decryption this.ID = IDs[0]; } } infoObject = pdfObject.getDictionary(PdfDictionary.Info); } // make sure first values used if several tables and code for prev pointer = pdfObject.getInt(PdfDictionary.Prev); // see if other trailers if (pointer != -1 && pointer < this.eof) { // reset values for loop bufSize = 1024; // track ref table so we can work out object length offset.addXref(pointer); } else // reset if fails second test above { pointer = -1; } } else { pointer = -1; // needs to be read to pick up potential /Pages value //noinspection ObjectAllocationInLoop rootObj = new PageObject(BrokenRefTable.findOffsets(pdf_datafile, offset)); currentPdfFile.readObject(rootObj); offset.setRefTableInvalid(true); } if (pointer == -1) { break; } } if (encryptObj == null && rootObj != null) { // manual check for broken file (ignore if Encrypted) int type = -1; int status = rootObj.getStatus(); byte[] data = rootObj.getUnresolvedData(); try { final ObjectDecoder objectDecoder = new ObjectDecoder(currentPdfFile); objectDecoder.checkResolved(rootObj); type = rootObj.getParameterConstant(PdfDictionary.Type); } catch (Exception e) { // we need to ignore so just catch, put back as was and log rootObj.setStatus(status); rootObj.setUnresolvedData(data, status); if (LogWriter.isOutput()) { LogWriter.writeLog("[PDF] Exception reading type on root object " + e); } } // something gone wrong so manually index if (type == PdfDictionary.Font) { // see 21153 - ref table in wrong order rootObj = null; // /will reset in code at end } } // something gone wrong so manually index if (rootObj == null) { // see 21382 offset.clear(); offset.reuse(); // needs to be read to pick up potential /Pages value //noinspection ObjectAllocationInLoop rootObj = new PageObject(BrokenRefTable.findOffsets(pdf_datafile, offset)); currentPdfFile.readObject(rootObj); offset.setRefTableInvalid(true); } return rootObj; }
/** * read reference table start to see if new 1.5 type or traditional xref * * @throws PdfException */ public final PdfObject readReferenceTable( final PdfObject linearObj, final PdfFileReader currentPdfFile, final ObjectReader objectReader) throws PdfException { int pointer = -1; final int eof = (int) this.eof; boolean islinearizedCompressed = false; if (linearObj == null) { pointer = readFirstStartRef(); } else { // find at start of Linearized final byte[] data = pdf_datafile.getPdfBuffer(); final int count = data.length; int ptr = 5; for (int i = 0; i < count; i++) { // track start of this object (needed for compressed) if (data[i] == 'e' && data[i + 1] == 'n' && data[i + 2] == 'd' && data[i + 3] == 'o' && data[i + 4] == 'b' && data[i + 5] == 'j') { ptr = i + 6; } if (data[i] == 'x' && data[i + 1] == 'r' && data[i + 2] == 'e' && data[i + 3] == 'f') { pointer = i; i = count; } else if (data[i] == 'X' && data[i + 1] == 'R' && data[i + 2] == 'e' && data[i + 3] == 'f') { islinearizedCompressed = true; pointer = ptr; while (data[pointer] == 10 || data[pointer] == 13 || data[pointer] == 32) { pointer++; } i = count; } } } offset.addXref(pointer); PdfObject rootObj = null; if (pointer >= eof || pointer == 0) { if (LogWriter.isOutput()) { LogWriter.writeLog("Pointer not if file - trying to manually find startref"); } offset.setRefTableInvalid(true); try { rootObj = new PageObject(BrokenRefTable.findOffsets(pdf_datafile, offset)); } catch (Error err) { throw new PdfException(err.getMessage() + " attempting to manually scan file for objects"); } currentPdfFile.readObject(rootObj); return rootObj; } else if (islinearizedCompressed || isCompressedStream(pointer, eof)) { return readCompressedStream(rootObj, pointer, currentPdfFile, objectReader, linearObj); } else { return readLegacyReferenceTable(rootObj, pointer, eof, currentPdfFile); } }
@Override public int setConstant( final int pdfKeyType, final int keyStart, final int keyLength, final byte[] raw) { int PDFvalue = PdfDictionary.Unknown; int id = 0, x = 0, next; try { // convert token to unique key which we can lookup for (int i2 = keyLength - 1; i2 > -1; i2--) { next = raw[keyStart + i2]; next -= 48; id += ((next) << x); x += 8; } switch (id) { case PdfDictionary.Image: PDFvalue = PdfDictionary.Image; break; case PdfDictionary.Form: PDFvalue = PdfDictionary.Form; break; // case StandardFonts.CIDTYPE0: // PDFvalue =StandardFonts.CIDTYPE0; // break; default: // if(pdfKeyType==PdfDictionary.Encoding){ // PDFvalue=PdfCIDEncodings.getConstant(id); // // if(PDFvalue==PdfDictionary.Unknown){ // // byte[] bytes=new byte[keyLength]; // // System.arraycopy(raw,keyStart,bytes,0,keyLength); // // unknownValue=new String(bytes); // } // // if(debug && PDFvalue==PdfDictionary.Unknown){ // System.out.println("Value not in PdfCIDEncodings"); // // byte[] bytes=new byte[keyLength]; // // System.arraycopy(raw,keyStart,bytes,0,keyLength); // System.out.println("Add to CIDEncodings and as String"); // System.out.println("key="+new String(bytes)+" "+id+" not // implemented in setConstant in PdfFont Object"); // // System.out.println("final public static int CMAP_"+new // String(bytes)+"="+id+";"); // // } // }else PDFvalue = super.setConstant(pdfKeyType, id); if (PDFvalue == -1 && debug) { final byte[] bytes = new byte[keyLength]; System.arraycopy(raw, keyStart, bytes, 0, keyLength); System.out.println( "key=" + new String(bytes) + ' ' + id + " not implemented in setConstant in " + this); System.out.println("final public static int " + new String(bytes) + '=' + id + ';'); } break; } } catch (final Exception e) { LogWriter.writeLog("Exception: " + e.getMessage()); } // System.out.println(pdfKeyType+"="+PDFvalue); // switch(pdfKeyType){ // case PdfDictionary.Subtype: // subtype=PDFvalue; // break; // } return PDFvalue; }
/** * Run length decode. If both data and cached stream are present it will check they are identical */ @Override public void decode( final BufferedInputStream bis, final BufferedOutputStream streamCache, final String cacheName, final Map<String, String> cachedObjects) { this.bis = bis; this.streamCache = streamCache; this.cachedObjects = cachedObjects; try { final int count; int len; int nextLen; int value2; count = bis.available(); for (int i = 0; i < count; i++) { nextLen = bis.read(); if (nextLen >= 128) { nextLen -= 256; } len = nextLen; if (len < 0) { len = 256 + len; } if (len == 128) { i = count; } else if (len > 128) { i++; len = 257 - len; value2 = bis.read(); if (value2 >= 128) { value2 -= 256; } for (int j = 0; j < len; j++) { streamCache.write(value2); } } else { i++; len++; for (int j = 0; j < len; j++) { value2 = bis.read(); if (value2 >= 128) { value2 -= 256; } streamCache.write(value2); } i = i + len - 1; } } } catch (final IOException e1) { if (LogWriter.isOutput()) { LogWriter.writeLog("IO exception in RunLength " + e1); } } }
public void loadProperties() { try { final DocumentBuilderFactory dbf = DocumentBuilderFactory.newInstance(); final DocumentBuilder db = dbf.newDocumentBuilder(); File config = null; if (configInputStream != null) { try { doc = db.parse(configInputStream); isReadOnly = true; } catch (final Exception e) { doc = db.newDocument(); LogWriter.writeLog("Exception " + e); } } else { config = new File(configFile); if (config.exists() && config.length() > 0) { try { doc = db.parse(config); } catch (final Exception e) { doc = db.newDocument(); LogWriter.writeLog("Exception " + e); } } else { doc = db.newDocument(); } } // showChildren("", doc.getChildNodes()); if (configInputStream == null && (((config != null && (config.canWrite() || (!config.exists() && !config.canWrite()))) && !getValue("readOnly").toLowerCase().equals("true")) || config.length() == 0)) { isReadOnly = false; checkAllElementsPresent(); // If properties is an old version or we are missing elements // add missing / reload properties file /*if(refactorProperties || !hasAllElements){ //Reset to start of properties file position = 0; //Delete old config file config.delete(); //config.createNewFile(); final Document oldDoc = (Document)doc.cloneNode(true); doc = db.newDocument(); isReadOnly = !(!isReadOnly && !getValue("readOnly").toLowerCase().equals("true")); checkAllElementsPresent(); /** * Move RecentFiles List Over to new properties //New Properties final NodeList newRecentFiles =doc.getElementsByTagName("recentfiles"); final Element newRecentRoot=(Element) newRecentFiles.item(0); //Old Properties final NodeList oldRecentFiles =oldDoc.getElementsByTagName("recentfiles"); final Element oldRecentRoot=(Element) oldRecentFiles.item(0); //Get children elements final NodeList children = oldRecentRoot.getChildNodes(); for(int i=0; i!=children.getLength(); i++){ if(!children.item(i).getNodeName().equals("#text")){//Ignore this element final Element e = doc.createElement("file"); e.setAttribute("name", ((Element)children.item(i)).getAttribute("name")); newRecentRoot.appendChild(e); } } for(int i=0; i!=properties.length; i++){ if(!properties[i].equals("ENDCHILDREN")){ //Ignore comments i++; final NodeList nl =doc.getElementsByTagName(properties[i]); final Element element=(Element) nl.item(0); if(element==null){ ShowGUIMessage.showGUIMessage("The property "+properties[i]+" was either not found in the properties file.", "Property not found."); }else{ final NodeList l = oldDoc.getElementsByTagName(properties[i]); final Element el = (Element)l.item(0); if(el!=null) { element.setAttribute("value", el.getAttribute("value")); } } i++; } } if(!isTest) { writeDoc(); } }*/ // Check for invalid color options (possible mistake in properties file) final String v1 = getValue("vfgColor"); final String v2 = getValue("vbgColor"); final String v3 = getValue("sbbgColor"); if (!v1.isEmpty() && !v2.isEmpty() && !v3.isEmpty()) { final int value = Integer.parseInt(v1) + Integer.parseInt(v2) + Integer.parseInt(v3); if (value == -3) { // 3 null values, replace with default values setValue("vfgColor", ""); setValue("vbgColor", "16777215"); setValue("sbbgColor", "16777215"); } } // //only write out if needed // if(!hasAllElements) // writeDoc(); } else { isReadOnly = true; } } catch (final Exception e) { LogWriter.writeLog("Exception " + e + " generating properties file"); } }
public static int setNameTreeValue( final PdfObject pdfObject, int i, final byte[] raw, final int length, final boolean ignoreRecursion, final int PDFkeyInt, final PdfFileReader objectReader) { boolean isRef = false; // move to start while (raw[i] != '[') { // can be number as well if (raw[i] == '(') { // allow for W (7) isRef = false; break; } // allow for number as in refer 9 0 R if (raw[i] >= '0' && raw[i] <= '9') { isRef = true; break; } i++; } // allow for direct or indirect byte[] data = raw; int start = i, j = i; int count = 0; // read ref data and slot in if (isRef) { // number final int[] values = StreamReaderUtils.readRefFromStream(raw, i); i = values[2]; final int generation = values[1]; final int number = values[0]; if (raw[i] != 82) // we are expecting R to end ref { throw new RuntimeException( "3. Unexpected value in file " + raw[i] + " - please send to IDRsolutions for analysis"); } if (!ignoreRecursion) { // read the Dictionary data data = objectReader.readObjectAsByteArray( pdfObject, objectReader.isCompressed(number, generation), number, generation); // allow for data in Linear object not yet loaded if (data == null) { pdfObject.setFullyResolved(false); if (debugFastCode) { System.out.println(padding + "Data not yet loaded"); } i = length; return i; } // lose obj at start j = 3; while (data[j - 1] != 106 && data[j - 2] != 98 && data[j - 3] != 111 && data[j - 3] != '<') { j++; } j = StreamReaderUtils.skipSpaces(data, j); // reset pointer start = j; } } // move to end while (j < data.length) { if (data[j] == '[' || data[j] == '(') { count++; } else if (data[j] == ']' || data[j] == ')') { count--; } if (count == 0) { break; } j++; } if (!ignoreRecursion) { final int stringLength = j - start + 1; byte[] newString = new byte[stringLength]; System.arraycopy(data, start, newString, 0, stringLength); if (pdfObject.getObjectType() != PdfDictionary.Encrypt) { final DecryptionFactory decryption = objectReader.getDecryptionObject(); if (decryption != null) { try { newString = decryption.decrypt( newString, pdfObject.getObjectRefAsString(), false, null, false, false); } catch (final PdfSecurityException e) { LogWriter.writeLog("Exception: " + e.getMessage()); } } } pdfObject.setTextStreamValue(PDFkeyInt, newString); if (debugFastCode) { System.out.println(padding + "name=" + new String(newString) + " set in " + pdfObject); } } // roll on if (!isRef) { i = j; } return i; }
/** read table of values */ public int readXRefs( int current, final byte[] Bytes, final int endTable, int i, final long eof, final RandomAccessBuffer pdf_datafile) { char flag; int id, tokenCount, generation, lineLen, startLine, endLine; boolean skipNext = false; boolean isFirstValue = true; final int[] breaks = new int[5]; final int[] starts = new int[5]; // loop to read all references while (i < endTable) { // exit end at trailer startLine = i; endLine = -1; /** read line locations */ // move to start of value ignoring spaces or returns while (Bytes[i] != 10 && Bytes[i] != 13) { // scan for % if ((endLine == -1) && (Bytes[i] == 37)) { endLine = i - 1; } i++; } // set end if no comment if (endLine == -1) { endLine = i - 1; } // strip any spaces while (Bytes[startLine] == 32) { startLine++; } // strip any spaces while (Bytes[endLine] == 32) { endLine--; } i++; /** decode the line */ tokenCount = 0; lineLen = endLine - startLine + 1; if (lineLen > 0) { // decide if line is a section header or value // first count tokens int lastChar = 1, currentChar; for (int j = 1; j < lineLen; j++) { currentChar = Bytes[startLine + j]; if ((currentChar == 32) && (lastChar != 32)) { breaks[tokenCount] = j; tokenCount++; } else if ((currentChar != 32) && (lastChar == 32)) { starts[tokenCount] = j; } lastChar = currentChar; } // update numbers so loops work breaks[tokenCount] = lineLen; tokenCount++; if (tokenCount == 1) { // fix for first 2 values on separate lines if (skipNext) { skipNext = false; } else { current = NumberUtils.parseInt(startLine, startLine + breaks[0], Bytes); skipNext = true; } } else if (tokenCount == 2) { current = NumberUtils.parseInt(startLine, startLine + breaks[0], Bytes); } else { id = NumberUtils.parseInt(startLine, startLine + breaks[0], Bytes); generation = NumberUtils.parseInt(startLine + starts[1], startLine + breaks[1], Bytes); flag = (char) Bytes[startLine + starts[2]]; if ((flag == 'n')) { // only add objects in use /** assume not valid and test to see if valid */ boolean isValid = false; // get bytes int bufSize = 20; // adjust buffer if less than 1024 bytes left in file if (id + bufSize > eof) { bufSize = (int) (eof - id); } if (bufSize > 0) { /** get bytes into buffer */ final byte[] buffer = getBytes(id, bufSize, pdf_datafile); // look for space o b j for (int ii = 4; ii < bufSize; ii++) { if ((buffer[ii - 3] == 32 || buffer[ii - 3] == 10) && (buffer[ii - 2] == 111) && (buffer[ii - 1] == 98) && (buffer[ii] == 106)) { isValid = true; ii = bufSize; } } // check number if (isValid && isFirstValue) { isFirstValue = false; if (buffer[0] == 48 && buffer[1] != 48 && current == 1) { current = 0; } else if (buffer[0] == 49 && buffer[1] == 32) { current = 1; } } if (isValid) { storeObjectOffset(current, id, generation, false, false); xref.addElement(id); } else if (LogWriter.isRunningFromIDE) { LogWriter.writeLog(current + " " + id + " is bum reference"); } } current++; // update our pointer } else if (flag == 'f') { current++; // update our pointer } } } } return current; }