Bitmap loadBitmap(RandomAccessFile file) {
    try {
      byte imgBytes[] = new byte[102400];
      ByteArrayOutputStream baos = new ByteArrayOutputStream();

      int nRead = file.read(imgBytes);
      while (nRead > 0) {
        baos.write(imgBytes);
        nRead = file.read(imgBytes);
      }
      file.close();

      byte[] imgBuff = baos.toByteArray();
      Bitmap orgImage = BitmapFactory.decodeByteArray(imgBuff, 0, imgBuff.length);
      baos.close();

      return orgImage;

    } catch (FileNotFoundException e) {
      e.printStackTrace();
    } catch (IOException e) {
      e.printStackTrace();
    }
    return null;
  }
 /**
  * Returns the uncompressed size of the file in a quick, but unreliable manner. It will not
  * report the correct size if:
  *
  * <ol>
  *   <li>The compressed size is larger than 2<sup>32</sup> bytes.
  *   <li>The file is broken or truncated.
  *   <li>The file has not been generated by a standard-conformant compressor.
  *   <li>It is a multi-volume GZIP stream.
  * </ol>
  *
  * <p>The advantage of this approach is, that it only reads the first 2 and last 4 bytes of the
  * target file. If the first 2 bytes are not the GZIP magic number, the raw length of the file
  * is returned.
  *
  * @see #isGzipStream(File)
  * @param file
  * @return the size of the uncompressed file content.
  */
 public static long getGzipStreamSize(File file) {
   if (!isGzipStream(file)) {
     return file.length();
   }
   RandomAccessFile raf = null;
   try {
     raf = new RandomAccessFile(file, "r");
     if (raf.length() <= 4) {
       raf.close();
       return file.length();
     }
     raf.seek(raf.length() - 4);
     int b4 = raf.read();
     int b3 = raf.read();
     int b2 = raf.read();
     int b1 = raf.read();
     return (b1 << 24) + (b2 << 16) + (b3 << 8) + b4;
   } catch (IOException ex) {
     return file.length();
   } finally {
     if (raf != null)
       try {
         raf.close();
       } catch (IOException e) {
         // ignore
       }
   }
 }
Exemplo n.º 3
0
  /**
   * Copy the given byte range of the given input to the given output.
   *
   * @param input The input to copy the given range to the given output for.
   * @param output The output to copy the given range from the given input for.
   * @param start Start of the byte range.
   * @param length Length of the byte range.
   * @throws IOException If something fails at I/O level.
   */
  private static void copy(RandomAccessFile input, OutputStream output, long start, long length)
      throws IOException {
    byte[] buffer = new byte[DEFAULT_BUFFER_SIZE];
    int read;

    if (input.length() == length) {
      // Write full range.
      while ((read = input.read(buffer)) > 0) {
        output.write(buffer, 0, read);
      }
    } else {
      // Write partial range.
      input.seek(start);
      long toRead = length;

      while ((read = input.read(buffer)) > 0) {
        if ((toRead -= read) > 0) {
          output.write(buffer, 0, read);
        } else {
          output.write(buffer, 0, (int) toRead + read);
          break;
        }
      }
    }
  }
Exemplo n.º 4
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  public static String readLine(RandomAccessFile file, Charset cs) throws IOException {
    ByteArrayOutputStream lineBytes = new ByteArrayOutputStream();
    int b = -1;
    boolean eol = false;
    while (!eol) {
      switch (b = file.read()) {
        case -1:
        case '\n':
          eol = true;
          break;
        case '\r':
          eol = true;
          long cur = file.getFilePointer();
          if ((file.read()) != '\n') {
            file.seek(cur);
          }
          break;
        default:
          lineBytes.write(b);
          break;
      }
    }

    byte[] bytes = lineBytes.toByteArray();
    if (b == -1) {
      return null;
    }
    return new String(bytes, cs);
  }
Exemplo n.º 5
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  /**
   * Read a file offset from the file PST Files have this tendency to store file offsets (pointers)
   * in 8 little endian bytes. Convert this to a long for seeking to.
   *
   * @param in handle for PST file
   * @param startOffset where to read the 8 bytes from
   * @return long representing the read location
   * @throws IOException
   */
  protected long extractLEFileOffset(long startOffset) throws IOException {
    long offset = 0;
    if (this.getPSTFileType() == PSTFile.PST_TYPE_ANSI) {
      in.seek(startOffset);
      byte[] temp = new byte[4];
      in.read(temp);
      offset |= temp[3] & 0xff;
      offset <<= 8;
      offset |= temp[2] & 0xff;
      offset <<= 8;
      offset |= temp[1] & 0xff;
      offset <<= 8;
      offset |= temp[0] & 0xff;
    } else {
      in.seek(startOffset);
      byte[] temp = new byte[8];
      in.read(temp);
      offset = temp[7] & 0xff;
      long tmpLongValue;
      for (int x = 6; x >= 0; x--) {
        offset = offset << 8;
        tmpLongValue = (long) temp[x] & 0xff;
        offset |= tmpLongValue;
      }
    }

    return offset;
  }
Exemplo n.º 6
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  public boolean add_song_from_file(String a_file_path) {
    RandomAccessFile m_file = null;
    try {
      m_file = new RandomAccessFile(a_file_path, "r");

      byte l_file_name[] = new byte[8];
      m_file.read(l_file_name);
      byte l_file_version = m_file.readByte();

      byte l_buffer[] = new byte[0x8000 * 4];
      int l_bytes_read = m_file.read(l_buffer);
      int l_blocks_read = l_bytes_read / g_block_size;

      if (l_blocks_read > get_free_blocks() || !has_free_slot()) {
        return false;
      }

      byte l_free_slot = get_free_slot();
      int l_file_name_ptr = g_file_name_start_ptr + l_free_slot * g_file_name_length;
      m_work_ram[l_file_name_ptr++] = l_file_name[0];
      m_work_ram[l_file_name_ptr++] = l_file_name[1];
      m_work_ram[l_file_name_ptr++] = l_file_name[2];
      m_work_ram[l_file_name_ptr++] = l_file_name[3];
      m_work_ram[l_file_name_ptr++] = l_file_name[4];
      m_work_ram[l_file_name_ptr++] = l_file_name[5];
      m_work_ram[l_file_name_ptr++] = l_file_name[6];
      m_work_ram[l_file_name_ptr++] = l_file_name[7];

      int l_file_version_ptr = g_file_version_start_ptr + l_free_slot;
      m_work_ram[l_file_version_ptr] = l_file_version;

      int l_blocks_to_write = l_blocks_read;
      int l_buffer_index = 0;

      int l_next_block_id_ptr = 0;
      while (l_blocks_to_write-- > 0) {
        int l_block_id = get_block_id_of_first_free_block();

        if (0 != l_next_block_id_ptr) {
          // add one to compensate for unused FAT block
          m_work_ram[l_next_block_id_ptr] = (byte) (l_block_id + 1);
        }
        m_work_ram[g_block_alloc_table_start_ptr + l_block_id] = l_free_slot;
        int l_block_ptr = g_block_start_ptr + l_block_id * g_block_size;
        for (int l_byte = 0; l_byte < g_block_size; l_byte++) {
          m_work_ram[l_block_ptr++] = l_buffer[l_buffer_index++];
        }
        l_next_block_id_ptr = get_next_block_id_ptr(l_block_id);
      }
      m_file.close();
    } catch (Exception e) {
      e.printStackTrace();
      return false;
    }
    return true;
  }
Exemplo n.º 7
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  private void loadDataXM(RandomAccessFile fp) throws IOException {
    byte[] b = new byte[20];

    // WHY THE HELL AM I DOING THIS
    name = Util.readStringNoNul(fp, b, 20);
    System.out.printf("name: \"%s\"\n", name);
    fp.read(); // skip 0x1A byte

    // THIS CAN'T BE HAPPENING
    fp.read(b, 0, 20); // skip tracker name

    // OH HELL NO
    int xmver = 0xFFFF & (int) Short.reverseBytes(fp.readShort());
    System.out.printf("XM version: %04X\n", xmver);

    // WHAT IS THIS CRAP
    InhibitedFileBlock ifb = new InhibitedFileBlock(fp, Integer.reverseBytes(fp.readInt()) - 4);

    // HELP ME PLEASE
    int ordnum = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());
    int respos =
        0xFFFF & (int) Short.reverseBytes(ifb.readShort()); // can't be bothered right now --GM
    int chnnum =
        0xFFFF & (int) Short.reverseBytes(ifb.readShort()); // yeah sure, allow out of range values
    if (chnnum > 64)
      throw new RuntimeException(
          String.format("%d-channel modules not supported (max 64)", chnnum));
    int patnum = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());
    int insnum = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());
    int xmflags = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());
    int xmspeed = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());
    int xmtempo = 0xFFFF & (int) Short.reverseBytes(ifb.readShort());

    // OH PLEASE, STOP IT
    if (ordnum > 255) ordnum = 255;
    if (xmtempo > 255) xmtempo = 255;
    if (xmspeed > 255) xmspeed = 255;
    this.bpm = xmtempo;
    this.spd = xmspeed;
    this.flags = FLAG_COMPATGXX | FLAG_OLDEFFECTS | FLAG_INSMODE | FLAG_STEREO | FLAG_VOL0MIX;

    if ((xmflags & 0x01) != 0) this.flags |= FLAG_LINEAR;

    // NONONONONONO
    System.out.printf("chn=%d ordnum=%d tempo=%d speed=%s\n", chnnum, ordnum, xmtempo, xmspeed);
    for (int i = 0; i < 256; i++) orderlist[i] = ifb.read();
    for (int i = ordnum; i < 256; i++) orderlist[i] = 255;

    ifb.done();

    // SAVE ME PLEEEEEAAASSSSEEEE
    for (int i = 0; i < patnum; i++)
      map_pat.put((Integer) i, new SessionPattern(this, fp, SessionPattern.FORMAT_XM, chnnum));
    for (int i = 0; i < insnum; i++)
      map_ins.put((Integer) (i + 1), new SessionInstrument(fp, SessionInstrument.FORMAT_XM, this));
  }
 /**
  * Returns the uncompressed size for a Gzipped file.
  *
  * @param file Gzipped file to get the size for
  * @return Size when uncompressed, in bytes
  * @throws IOException
  */
 private int getGzipSizeUncompressed(File zipFile) throws IOException {
   RandomAccessFile raf = new RandomAccessFile(zipFile, "r");
   raf.seek(raf.length() - 4);
   int b4 = raf.read();
   int b3 = raf.read();
   int b2 = raf.read();
   int b1 = raf.read();
   raf.close();
   return (b1 << 24) | (b2 << 16) + (b3 << 8) + b4;
 }
Exemplo n.º 9
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  /*
   * gets an (uncompressed) stream representing the chunk data returns null if
   * the chunk is not found or an error occurs
   */
  public synchronized DataInputStream getChunkDataInputStream(int x, int z) {
    if (outOfBounds(x, z)) {
      debugln("READ", x, z, "out of bounds");
      return null;
    }

    try {
      int offset = getOffset(x, z);
      if (offset == 0) {
        // debugln("READ", x, z, "miss");
        return null;
      }

      int sectorNumber = offset >> 8;
      int numSectors = offset & 0xFF;

      if (sectorNumber + numSectors > sectorFree.size()) {
        debugln("READ", x, z, "invalid sector");
        return null;
      }

      file.seek(sectorNumber * SECTOR_BYTES);
      int length = file.readInt();

      if (length > SECTOR_BYTES * numSectors) {
        debugln("READ", x, z, "invalid length: " + length + " > 4096 * " + numSectors);
        return null;
      }

      byte version = file.readByte();
      if (version == VERSION_GZIP) {
        byte[] data = new byte[length - 1];
        file.read(data);
        DataInputStream ret =
            new DataInputStream(
                new BufferedInputStream(new GZIPInputStream(new ByteArrayInputStream(data))));
        // debug("READ", x, z, " = found");
        return ret;
      } else if (version == VERSION_DEFLATE) {
        byte[] data = new byte[length - 1];
        file.read(data);
        DataInputStream ret =
            new DataInputStream(
                new BufferedInputStream(new InflaterInputStream(new ByteArrayInputStream(data))));
        // debug("READ", x, z, " = found");
        return ret;
      }

      debugln("READ", x, z, "unknown version " + version);
      return null;
    } catch (IOException e) {
      debugln("READ", x, z, "exception");
      return null;
    }
  }
  private void parse(String path, long len) throws IOException {
    ByteBuffer byteBuffer;
    long sum = 0, newlen = 0;
    byte[] buffer = new byte[8];
    String name = "";

    if (!path.equals("")) mBoxes.put(path, mPos - 8);

    while (sum < len) {
      mFile.read(buffer, 0, 8);
      mPos += 8;
      sum += 8;

      if (validBoxName(buffer)) {
        name = new String(buffer, 4, 4);

        if (buffer[3] == 1) {
          // 64 bits atom size
          mFile.read(buffer, 0, 8);
          mPos += 8;
          sum += 8;
          byteBuffer = ByteBuffer.wrap(buffer, 0, 8);
          newlen = byteBuffer.getLong() - 16;
        } else {
          // 32 bits atom size
          byteBuffer = ByteBuffer.wrap(buffer, 0, 4);
          newlen = byteBuffer.getInt() - 8;
        }

        // 1061109559+8 correspond to "????" in ASCII the HTC Desire S seems to write that
        // sometimes, maybe other phones do
        // "wide" atom would produce a newlen == 0, and we shouldn't throw an exception because of
        // that
        if (newlen < 0 || newlen == 1061109559) throw new IOException();

        Log.d(TAG, "Atom -> name: " + name + " position: " + mPos + ", length: " + newlen);
        sum += newlen;
        parse(path + '/' + name, newlen);

      } else {
        if (len < 8) {
          mFile.seek(mFile.getFilePointer() - 8 + len);
          sum += len - 8;
        } else {
          int skipped = mFile.skipBytes((int) (len - 8));
          if (skipped < ((int) (len - 8))) {
            throw new IOException();
          }
          mPos += len - 8;
          sum += len - 8;
        }
      }
    }
  }
Exemplo n.º 11
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 /**
  * Given a zip File input it will return its size Only works for zip files whose uncompressed size
  * is less than 4 GB, otherwise returns the size module 2^32, per gzip specifications
  *
  * @param myFile The zip file as input
  * @throws IOException
  * @return zip file size as a long
  */
 public static long zipFileSize(File myFile) throws IOException {
   RandomAccessFile raf = new RandomAccessFile(myFile, "r");
   raf.seek(raf.length() - 4);
   long b4 = raf.read();
   long b3 = raf.read();
   long b2 = raf.read();
   long b1 = raf.read();
   long val = (b1 << 24) | (b2 << 16) + (b3 << 8) + b4;
   raf.close();
   return val;
 }
Exemplo n.º 12
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  /**
   * Gets if the file is compressed with gzip.
   *
   * @param file
   * @return gzip
   */
  private static boolean isGzip(File file) {
    try {
      RandomAccessFile raf = new RandomAccessFile(file, "r");
      int magic = raf.read() & 0xff | (raf.read() << 8) & 0xff00;
      raf.close();
      return magic == GZIPInputStream.GZIP_MAGIC;
    } catch (Exception e) {
      e.printStackTrace();
    }

    return false;
  }
Exemplo n.º 13
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  /**
   * The Vorbis Comment may span multiple pages so we we need to identify the pages they contain and
   * then extract the packet data from the pages
   *
   * @param startVorbisCommentPage
   * @param raf
   * @return
   * @throws org.jaudiotagger.audio.exceptions.CannotReadException
   * @throws java.io.IOException
   */
  private byte[] convertToVorbisCommentPacket(
      OggPageHeader startVorbisCommentPage, RandomAccessFile raf)
      throws IOException, CannotReadException {
    ByteArrayOutputStream baos = new ByteArrayOutputStream();
    byte[] b =
        new byte
            [startVorbisCommentPage.getPacketList().get(0).getLength()
                - (VorbisHeader.FIELD_PACKET_TYPE_LENGTH
                    + VorbisHeader.FIELD_CAPTURE_PATTERN_LENGTH)];
    raf.read(b);
    baos.write(b);

    // Because there is at least one other packet (SetupHeaderPacket) this means the Comment Packet
    // has finished
    // on this page so thats all we need and we can return
    if (startVorbisCommentPage.getPacketList().size() > 1) {
      //            //logger.info("Comments finish on 2nd Page because there is another packet on
      // this page");
      return baos.toByteArray();
    }

    // There is only the VorbisComment packet on page if it has completed on this page we can return
    if (!startVorbisCommentPage.isLastPacketIncomplete()) {
      //            //logger.info("Comments finish on 2nd Page because this packet is complete");
      return baos.toByteArray();
    }

    // The VorbisComment extends to the next page, so should be at end of page already
    // so carry on reading pages until we get to the end of comment
    while (true) {
      //            //logger.info("Reading next page");
      OggPageHeader nextPageHeader = OggPageHeader.read(raf);
      b = new byte[nextPageHeader.getPacketList().get(0).getLength()];
      raf.read(b);
      baos.write(b);

      // Because there is at least one other packet (SetupHeaderPacket) this means the Comment
      // Packet has finished
      // on this page so thats all we need and we can return
      if (nextPageHeader.getPacketList().size() > 1) {
        //                //logger.info("Comments finish on Page because there is another packet on
        // this page");
        return baos.toByteArray();
      }

      // There is only the VorbisComment packet on page if it has completed on this page we can
      // return
      if (!nextPageHeader.isLastPacketIncomplete()) {
        //                //logger.info("Comments finish on Page because this packet is complete");
        return baos.toByteArray();
      }
    }
  }
Exemplo n.º 14
0
  // TODO Implementation pending
  public Bucket readBucketFromFile(String path, Long offset, String datatype) {

    // If offset is -1 , return null
    // Since the bucket cannot be read.
    if (offset == -1) return null;

    RandomAccessFile raf;
    Bucket temp = new Bucket(this.maxSize, (long) -1);
    byte[] tempData = new byte[4];
    byte[] tempOffsetAddress = new byte[8];
    long tempOffset = 0;
    Comparer comparer = new Comparer();
    try {
      raf = new RandomAccessFile(new File(path), "rw");
      raf.seek(offset);

      raf.read(tempData);
      temp.maxSize = Helper.toInt(tempData);
      raf.read(tempData);
      temp.currentSize = Helper.toInt(tempData);
      raf.read(tempData);
      temp.numberOfOverflowBuckets = Helper.toInt(tempData);

      raf.read(tempOffsetAddress);
      temp.overflowOffset = Helper.toLong(tempOffsetAddress);
      tempOffset = raf.getFilePointer();
      raf.close();

      for (int i = 0; i < this.maxSize; i++) {
        if (datatype.contains("c")) {
          temp.data[i][0] =
              comparer.compare_functions[6].readString(
                  path, (int) tempOffset, Integer.parseInt(datatype.substring(1)));
        } else
          temp.data[i][0] =
              comparer.compare_functions[comparer.mapper.indexOf(datatype)].readString(
                  path, (int) tempOffset, Integer.parseInt(datatype.substring(1)));
        tempOffset += Integer.parseInt(datatype.substring(1));

        temp.data[i][1] = comparer.compare_functions[3].readString(path, (int) tempOffset, 8);
        tempOffset += 8;
      }

      return temp;
    } catch (FileNotFoundException e) {
      e.printStackTrace();
    } catch (IOException e) {
      e.printStackTrace();
    }

    return null;
  }
 private boolean findBoxAvcc() {
   try {
     fis.seek(pos + 8);
     while (true) {
       while (fis.read() != 'a') ;
       fis.read(buffer, 0, 3);
       if (buffer[0] == 'v' && buffer[1] == 'c' && buffer[2] == 'C') break;
     }
   } catch (IOException e) {
     return false;
   }
   return true;
 }
  private boolean findSPSandPPS() {
    /*
     *  SPS and PPS parameters are stored in the avcC box
     *  You may find really useful information about this box
     *  in the document ISO-IEC 14496-15, part 5.2.4.1.1
     *  The box's structure is described there
     *
     *  aligned(8) class AVCDecoderConfigurationRecord {
     *		unsigned int(8) configurationVersion = 1;
     *		unsigned int(8) AVCProfileIndication;
     *		unsigned int(8) profile_compatibility;
     *		unsigned int(8) AVCLevelIndication;
     *		bit(6) reserved = ‘111111’b;
     *		unsigned int(2) lengthSizeMinusOne;
     *		bit(3) reserved = ‘111’b;
     *		unsigned int(5) numOfSequenceParameterSets;
     *		for (i=0; i< numOfSequenceParameterSets; i++) {
     *			unsigned int(16) sequenceParameterSetLength ;
     *			bit(8*sequenceParameterSetLength) sequenceParameterSetNALUnit;
     *		}
     *		unsigned int(8) numOfPictureParameterSets;
     *		for (i=0; i< numOfPictureParameterSets; i++) {
     *			unsigned int(16) pictureParameterSetLength;
     *			bit(8*pictureParameterSetLength) pictureParameterSetNALUnit;
     *		}
     *	}
     *
     *
     *
     */
    try {

      // TODO: Here we assume that numOfSequenceParameterSets = 1, numOfPictureParameterSets = 1 !
      // Here we extract the SPS parameter
      fis.skipBytes(7);
      spsLength = 0xFF & fis.readByte();
      sps = new byte[spsLength];
      fis.read(sps, 0, spsLength);
      // Here we extract the PPS parameter
      fis.skipBytes(2);
      ppsLength = 0xFF & fis.readByte();
      pps = new byte[ppsLength];
      fis.read(pps, 0, ppsLength);

    } catch (IOException e) {
      return false;
    }

    return true;
  }
Exemplo n.º 17
0
  /*
   * (non-Javadoc)
   *
   * @see java.nio.channels.SeekableByteChannel#read(java.nio.ByteBuffer)
   */
  @Override
  public int read(ByteBuffer dst) throws IOException {
    if (dst == null) {
      throw new NullPointerException("The destination buffer is null.");
    }
    if (dst.limit() == 0) {
      throw new IllegalArgumentException("The destination buffer has zero length.");
    }
    if (!_open) return -1;

    // Make an attempt to read up to r bytes from the channel, where
    // r is the number of bytes remaining in the buffer, that is,
    // dst.remaining(), at the moment this method is invoked.
    long _here = position();

    // Build temporary storage.
    int remain = dst.remaining();
    byte[] data = new byte[remain];

    int length = _backing.read(data, 0, remain);

    if (length > 0) {

      // Iterate thru each byte of temporary storage and decrypt those
      // bytes back
      // into the buffer
      for (int index = 0; index < length; index++) {
        data[index] = _head.crypt(data[index], index + _here);
      } // Decrypt all bytes.
      dst.put(data, 0, length);
    }
    return length;
  }
  /**
   * Reads data from the given file into the given buffer, centered around the given file offset.
   * The first half of the buffer will be filled with data right before the given offset, while the
   * remainder of the buffer will contain data right after it (of course, containing the byte at the
   * given offset).
   *
   * @param stream The stream to read from
   * @param buffer The buffer to read data into
   * @param fileReferenceOffset The offset to start reading from in the stream.
   * @return The number of bytes reads, which could be less than the length of the input buffer if
   *     we can't read due to the beginning or the end of the file.
   * @throws IOException Thrown if the stream being used is invalid or inaccessible.
   */
  private static int readIntoBufferAroundReference(
      RandomAccessFile stream, byte[] buffer, long fileReferenceOffset) throws IOException {
    int length = buffer.length;
    // calculate start offset
    long fileStartOffset = fileReferenceOffset - length / 2;

    if (fileStartOffset < 0) {
      // offset is less than zero, adjust it, as well as the length we want to read
      length += (int) fileStartOffset;
      fileStartOffset = 0;
      if (length <= 0) {
        return 0;
      }
    }

    if (fileStartOffset + length > stream.length()) {
      // startOffset + length is beyond the end of the stream, adjust the length accordingly
      length = (int) (stream.length() - fileStartOffset);
      if (length <= 0) {
        return 0;
      }
    }

    // read the appropriate block of the file into the buffer, using symmetry with respect to its
    // midpoint
    // we always initiate a seek from the origin of the file.
    stream.seek(0);
    stream.seek(fileStartOffset);
    int bufferOffset = 0;
    while (bufferOffset < length) {
      int bytesRead = stream.read(buffer, bufferOffset, length - bufferOffset);
      bufferOffset += bytesRead;
    }
    return length;
  }
 @Override
 public int read(ByteBuffer bb) throws IOException {
   int c = raf.read(bb.array(), bb.position(), bb.remaining());
   if (c == -1) return -1;
   bb.position(bb.position() + c);
   return c;
 }
Exemplo n.º 20
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 public int luaCB_read(Lua l, LuaPlugin plugin) {
   l.pushNil();
   l.pushNil();
   try {
     long offset = (long) l.checkNumber(2);
     int length = (int) l.checkNumber(3);
     if (length <= 0) {
       l.pushNil();
       l.pushString("Length is not positive");
       return 2;
     }
     byte[] tmp = new byte[length];
     object.seek(offset);
     length = object.read(tmp);
     if (length < 0) {
       l.pushNil();
       l.pushNil();
       return 2;
     }
     StringBuffer buf = new StringBuffer(length);
     for (byte x : tmp) buf.appendCodePoint((int) x & 0xFF);
     l.push(buf.toString());
   } catch (IOException e) {
     l.pushNil();
     l.pushString("IOException: " + e.getMessage());
     return 2;
   }
   return 1;
 }
Exemplo n.º 21
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  /** @return A {@link Yes1Reader}, {@link Yes2Reader}, or null if there is any error. */
  public static BibleReader createYesReader(String filename) {
    try {
      RandomAccessFile f = new RandomAccessFile(filename, "r");
      byte[] header = new byte[8];
      f.read(header);

      if (header[0] != (byte) 0x98
          || header[1] != (byte) 0x58
          || header[2] != (byte) 0x0d
          || header[3] != (byte) 0x0a
          || header[4] != (byte) 0x00
          || header[5] != (byte) 0x5d
          || header[6] != (byte) 0xe0) {
        Log.e(TAG, "Yes file has not a correct header. Header is: " + Arrays.toString(header));
        return null;
      }

      if (header[7] == 0x01) { // VERSION 1 YES
        return new Yes1Reader(f);
      } else if (header[7] == 0x02) { // VERSION 2 YES
        return new Yes2Reader(new RandomAccessFileRandomInputStream(f));
      } else {
        Log.e(TAG, "Yes file version unsupported: " + header[7]);
        return null;
      }
    } catch (IOException e) {
      Log.e(TAG, "@@createYesReader io exception", e);
      return null;
    }
  }
Exemplo n.º 22
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 /**
  * reads the content of an existing file using the current domain
  *
  * @param domain The namespace used to identify the application domain (1st level directory) to
  *     use
  * @param path The path relative to the domain for the file
  * @param offset the offset from the beginning of the file.
  * @param len The length of the block in bytes
  * @return The contents of the file
  */
 public byte[] readByteFromFile(String path, long offset, int len)
     throws EOFException, FileAccessException {
   try {
     if (_isLocal) {
       File tmpFile = new File(_rootFile.getCanonicalPath() + File.separatorChar + path);
       if (tmpFile.isFile()) {
         RandomAccessFile raf = new RandomAccessFile(tmpFile, "r");
         byte[] buffer = new byte[len];
         raf.seek(offset);
         int totalByteRead = 0;
         ByteArrayOutputStream out = new ByteArrayOutputStream();
         int result = 0;
         while (totalByteRead < len && raf.getFilePointer() < raf.length()) {
           result = raf.read(buffer, 0, (len - totalByteRead));
           if (result != -1) {
             out.write(buffer, 0, result);
             totalByteRead += result;
           } else if (totalByteRead == 0) throw new EOFException("End of file reached!");
           else break;
         }
         raf.close();
         out.flush();
         out.close();
         return out.toByteArray();
       } else throw new FileAccessException("Path is not a file");
     } else return _remote.readByteFromFile(_domain, path, offset, len);
   } catch (EOFException eofe) {
     throw eofe;
   } catch (FileAccessException fae) {
     throw fae;
   } catch (Exception e) {
     throw new FileAccessException(e);
   }
 }
Exemplo n.º 23
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 /**
  * reads the content of an existing file using the current domain
  *
  * @param domain The namespace used to identify the application domain (1st level directory) to
  *     use
  * @param path The path relative to the domain for the file
  * @param block The sequential block number for the data to be read starting with 1
  * @param len The length of the block in bytes
  * @return The contents of the file
  */
 public byte[] readFromFile(String path, int block, int len) {
   byte[] buffer = null;
   try {
     if (_isLocal) {
       File tmpFile = new File(_rootFile.getCanonicalPath() + File.separatorChar + path);
       if (tmpFile.isFile()) {
         RandomAccessFile in = new RandomAccessFile(tmpFile, "r");
         in.seek((block - 1) * len);
         int result = -1;
         buffer = new byte[len];
         if (in.getFilePointer() < in.length()) {
           result = in.read(buffer);
           ByteArrayOutputStream out = new ByteArrayOutputStream(result);
           out.write(buffer, 0, result);
           in.close();
           return out.toByteArray();
         } else {
           in.close();
         }
       }
     } else {
       buffer = _remote.readFromFile(_domain, path, block, len);
     }
   } catch (Exception ex) {
     ex.printStackTrace();
   }
   return buffer;
 }
Exemplo n.º 24
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  private int readBytes(Entry entry, byte[] buffer) throws IOException {
    byte[] header = getHeader(entry);

    // entry is not compressed?
    if (get2ByteLittleEndian(header, 8) == 0) {
      zipRandomFile.skipBytes(get2ByteLittleEndian(header, 26) + get2ByteLittleEndian(header, 28));
      int offset = 0;
      int size = buffer.length;
      while (offset < size) {
        int count = zipRandomFile.read(buffer, offset, size - offset);
        if (count == -1) break;
        offset += count;
      }
      return entry.size;
    }

    int csize = entry.compressedSize;
    byte[] cbuf = new byte[csize];
    zipRandomFile.skipBytes(get2ByteLittleEndian(header, 26) + get2ByteLittleEndian(header, 28));
    zipRandomFile.readFully(cbuf, 0, csize);

    int count = inflate(cbuf, buffer);
    if (count == -1) throw new ZipException("corrupted zip file");

    return entry.size;
  }
 private String readLine() throws IOException {
   StringBuffer sb = new StringBuffer();
   char readChar;
   int ch;
   long pos = reader.getFilePointer();
   long length = file.length();
   if ((length < pos) || (length == pos && FileUtils.isFileNewer(file, accessTime))) {
     // file got rotated or truncated
     reader.close();
     reader = new RandomAccessFile(file, "r");
     position = 0;
     reader.seek(position);
     pos = 0;
   }
   accessTime = System.currentTimeMillis();
   while ((ch = reader.read()) != -1) {
     readChar = (char) ch;
     if (readChar != delimiter) {
       sb.append(readChar);
     } else {
       return sb.toString();
     }
   }
   reader.seek(pos);
   return null;
 }
Exemplo n.º 26
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 public void readFileData(byte buffer[]) throws IOException {
   if (sourceFile != null) {
     RandomAccessFile sourceRandomAccessFile = new RandomAccessFile(sourceFile, "r");
     sourceRandomAccessFile.read(buffer);
     sourceRandomAccessFile.close();
   }
 }
Exemplo n.º 27
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 public String getValueFromFile(long nextOffset, RandomAccessFile dataFile) throws IOException {
   int beginPtr = (int) dataFile.getFilePointer();
   byte[] res = new byte[(int) (nextOffset - beginPtr)];
   dataFile.read(res);
   String result = new String(res, StandardCharsets.UTF_8);
   return result;
 }
Exemplo n.º 28
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 /**
  * In case an error print out the trail file context. Because of the XML reader buffering, we can
  * only get the block (8K). It has to be visually inspected
  */
 protected void printErrorContext(PrintStream errOut) throws IOException {
   final File file = _inputStream.getCurrentFile();
   final long position = _inputStream.getCurrentPosition();
   File lastFile = new File(file.getParentFile(), getLastFileName());
   errOut.println(
       "error between "
           + lastFile
           + " @ "
           + getLastPosition()
           + " and "
           + _inputStream.getCurrentFile()
           + " @ "
           + _inputStream.getCurrentPosition());
   RandomAccessFile f = new RandomAccessFile(file, "r");
   try {
     long startPos = lastFile.equals(file) ? getLastPosition() : 0;
     long endPos = position + ERROR_CONTEXT_LEN;
     int contextSize = (int) (endPos - startPos);
     byte[] context = new byte[contextSize];
     f.seek(startPos);
     if (f.read(context, 0, contextSize) > 0) {
       errOut.println("context: " + new String(context, "ISO-8859-1"));
     } else {
       errOut.println("unable to read XML error context");
     }
   } finally {
     f.close();
   }
 }
Exemplo n.º 29
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 public static String readString(RandomAccessFile f, long l) throws IOException {
   f.seek(l - 1);
   int length = (int) f.readUnsignedByte();
   byte[] strArr = new byte[length];
   f.read(strArr);
   return new String(strArr);
 }
Exemplo n.º 30
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  public ByteBuffer readBacking() throws IOException {
    if (!_open) {
      return null;
    }

    ByteBuffer dst = ByteBuffer.allocate((int) _backing.length());

    int length;

    // 4K buffer.
    byte[] buf = new byte[4 * (2 ^ 10)];

    _backing.seek(0);

    // Read up to 4K blocks from the backing file
    while ((length = _backing.read(buf)) > 0) {
      try {
        // store the block of the correct size into the ByteBuffer.
        dst.put(buf, 0, length);
      } catch (BufferOverflowException e) {
        return null;
      }
    }
    return dst;
  }