public void write(Tag tag, RandomAccessFile raf, RandomAccessFile tempRaf) throws CannotWriteException, IOException { FileChannel fc = raf.getChannel(); int oldTagSize = 0; if (tagExists(fc)) { // read the length if (!canOverwrite(raf)) throw new CannotWriteException("Overwritting of this kind of ID3v2 tag not supported yet"); fc.position(6); ByteBuffer buf = ByteBuffer.allocate(4); fc.read(buf); oldTagSize = (buf.get(0) & 0xFF) << 21; oldTagSize += (buf.get(1) & 0xFF) << 14; oldTagSize += (buf.get(2) & 0xFF) << 7; oldTagSize += buf.get(3) & 0xFF; oldTagSize += 10; // System.err.println("Old tag size: "+oldTagSize); int newTagSize = tc.getTagLength(tag); if (oldTagSize >= newTagSize) { // replace // System.err.println("Old ID32v Tag found, replacing the old // tag"); fc.position(0); fc.write(tc.convert(tag, oldTagSize - newTagSize)); // ID3v2 Tag Written return; } } // create new tag with padding // System.err.println("Creating a new ID3v2 Tag"); fc.position(oldTagSize); if (fc.size() > 15 * 1024 * 1024) { FileChannel tempFC = tempRaf.getChannel(); tempFC.position(0); tempFC.write(tc.convert(tag, Id3v2TagCreator.DEFAULT_PADDING)); tempFC.transferFrom(fc, tempFC.position(), fc.size() - oldTagSize); fc.close(); } else { ByteBuffer[] content = new ByteBuffer[2]; content[1] = ByteBuffer.allocate((int) fc.size()); fc.read(content[1]); content[1].rewind(); content[0] = tc.convert(tag, Id3v2TagCreator.DEFAULT_PADDING); fc.position(0); fc.write(content); } }
private boolean tagExists(FileChannel fc) throws IOException { ByteBuffer b = ByteBuffer.allocate(3); fc.position(0); fc.read(b); String tagString = new String(b.array()); return tagString.equals("ID3"); }
public RandomAccessFile delete(RandomAccessFile raf, RandomAccessFile tempRaf) throws IOException { FileChannel fc = raf.getChannel(); fc.position(0); if (!tagExists(fc)) return raf; fc.position(6); ByteBuffer b = ByteBuffer.allocate(4); fc.read(b); b.rewind(); int tagSize = (b.get() & 0xFF) << 21; tagSize += (b.get() & 0xFF) << 14; tagSize += (b.get() & 0xFF) << 7; tagSize += b.get() & 0xFF; FileChannel tempFC = tempRaf.getChannel(); tempFC.position(0); fc.position(tagSize + 10); // Here we will try to skip eventual trash afer the tag and before the // audio data b = ByteBuffer.allocate(4); int skip = 0; while (fc.read(b) != -1) { if ((b.get(0) & 0xFF) == 0xFF && (b.get(1) & 0xE0) == 0xE0 && (b.get(1) & 0x06) != 0 && (b.get(2) & 0xF0) != 0xF0 && (b.get(2) & 0x08) != 0x08) { fc.position(fc.position() - 4); break; } fc.position(fc.position() - 3); b.rewind(); skip++; } tempFC.transferFrom(fc, 0, fc.size() - tagSize - 10 - skip); return tempRaf; }