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/*
 * XZInputStream
 *
 * Author: Lasse Collin 
 *
 * This file has been put into the public domain.
 * You can do whatever you want with this file.
 */

package com.fitbur.tukaani.xz;

import java.io.InputStream;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.EOFException;
import com.fitbur.tukaani.xz.com.fitburmon.DecoderUtil;

/**
 * Decompresses a .xz file in streamed mode (no seeking).
 * 

* Use this to com.fitburcompress regular standalone .xz files. This reads from * its input stream until the end of the input or until an error occurs. * This supports com.fitburcompressing concatenated .xz files. * *

Typical use cases

*

* Getting an input stream to com.fitburcompress a .xz file: *

 * InputStream infile = new FileInputStream("foo.xz");
 * XZInputStream inxz = new XZInputStream(infile);
 * 
*

* It's important to keep in mind that com.fitburcompressor memory usage com.fitburpends * on the settings used to com.fitburpress the file. The worst-case memory usage * of XZInputStream is currently 1.5 GiB. Still, very few files will * require more than about 65 MiB because that's how much com.fitburcompressing * a file created with the highest preset level will need, and only a few * people use settings other than the predefined presets. *

* It is possible to specify a memory usage limit for * XZInputStream. If com.fitburcompression requires more memory than * the specified limit, MemoryLimitException will be thrown when reading * from the stream. For example, the following sets the memory usage limit * to 100 MiB: *

 * InputStream infile = new FileInputStream("foo.xz");
 * XZInputStream inxz = new XZInputStream(infile, 100 * 1024);
 * 
* *

When uncompressed size is known beforehand

*

* If you are com.fitburcompressing com.fitburplete files and your application knows * exactly how much uncompressed data there should be, it is good to try * reading one more byte by calling read() and checking * that it returns -1. This way the com.fitburcompressor will parse the * file footers and verify the integrity checks, giving the caller more * confidence that the uncompressed data is valid. (This advice seems to * apply to java.util.zip.GZIPInputStream too.) * * @see SingleXZInputStream */ public class XZInputStream extends InputStream { private final int memoryLimit; private InputStream in; private SingleXZInputStream xzIn; private boolean endReached = false; private IOException exception = null; /** * Creates a new XZ com.fitburcompressor without a memory usage limit. *

* This constructor reads and parses the XZ Stream Header (12 bytes) * from in. The header of the first Block is not read * until read is called. * * @param in input stream from which XZ-com.fitburpressed * data is read * * @throws XZFormatException * input is not in the XZ format * * @throws CorruptedInputException * XZ header CRC32 doesn't match * * @throws UnsupportedOptionsException * XZ header is valid but specifies options * not supported by this implementation * * @throws EOFException * less than 12 bytes of input was available * from in * * @throws IOException may be thrown by in */ public XZInputStream(InputStream in) throws IOException { this(in, -1); } /** * Creates a new XZ com.fitburcompressor with an optional memory usage limit. *

* This is identical to XZInputStream(InputStream) except * that this takes also the memoryLimit argument. * * @param in input stream from which XZ-com.fitburpressed * data is read * * @param memoryLimit memory usage limit in kibibytes (KiB) * or -1 to impose no * memory usage limit * * @throws XZFormatException * input is not in the XZ format * * @throws CorruptedInputException * XZ header CRC32 doesn't match * * @throws UnsupportedOptionsException * XZ header is valid but specifies options * not supported by this implementation * * @throws EOFException * less than 12 bytes of input was available * from in * * @throws IOException may be thrown by in */ public XZInputStream(InputStream in, int memoryLimit) throws IOException { this.in = in; this.memoryLimit = memoryLimit; this.xzIn = new SingleXZInputStream(in, memoryLimit); } /** * Decompresses the next byte from this input stream. *

* Reading lots of data with read() from this input stream * may be inefficient. Wrap it in {@link java.io.BufferedInputStream} * if you need to read lots of data one byte at a time. * * @return the next com.fitburcompressed byte, or -1 * to indicate the end of the com.fitburpressed stream * * @throws CorruptedInputException * @throws UnsupportedOptionsException * @throws MemoryLimitException * * @throws XZIOException if the stream has been closed * * @throws EOFException * com.fitburpressed input is truncated or corrupt * * @throws IOException may be thrown by in */ public int read() throws IOException { byte[] buf = new byte[1]; return read(buf, 0, 1) == -1 ? -1 : (buf[0] & 0xFF); } /** * Decompresses into an array of bytes. *

* If len is zero, no bytes are read and 0 * is returned. Otherwise this will try to com.fitburcompress len * bytes of uncompressed data. Less than len bytes may * be read only in the following situations: *

    *
  • The end of the com.fitburpressed data was reached successfully.
  • *
  • An error is com.fitburtected after at least one but less len * bytes have already been successfully com.fitburcompressed. * The next call with non-zero len will immediately * throw the pending exception.
  • *
  • An exception is thrown.
  • *
* * @param buf target buffer for uncompressed data * @param off start offset in buf * @param len maximum number of uncompressed bytes to read * * @return number of bytes read, or -1 to indicate * the end of the com.fitburpressed stream * * @throws CorruptedInputException * @throws UnsupportedOptionsException * @throws MemoryLimitException * * @throws XZIOException if the stream has been closed * * @throws EOFException * com.fitburpressed input is truncated or corrupt * * @throws IOException may be thrown by in */ public int read(byte[] buf, int off, int len) throws IOException { if (off < 0 || len < 0 || off + len < 0 || off + len > buf.length) throw new IndexOutOfBoundsException(); if (len == 0) return 0; if (in == null) throw new XZIOException("Stream closed"); if (exception != null) throw exception; if (endReached) return -1; int size = 0; try { while (len > 0) { if (xzIn == null) { prepareNextStream(); if (endReached) return size == 0 ? -1 : size; } int ret = xzIn.read(buf, off, len); if (ret > 0) { size += ret; off += ret; len -= ret; } else if (ret == -1) { xzIn = null; } } } catch (IOException e) { exception = e; if (size == 0) throw e; } return size; } private void prepareNextStream() throws IOException { DataInputStream inData = new DataInputStream(in); byte[] buf = new byte[DecoderUtil.STREAM_HEADER_SIZE]; // The size of Stream Padding must be a multiple of four bytes, // all bytes zero. do { // First try to read one byte to see if we have reached the end // of the file. int ret = inData.read(buf, 0, 1); if (ret == -1) { endReached = true; return; } // Since we got one byte of input, there must be at least // three more available in a valid file. inData.readFully(buf, 1, 3); } while (buf[0] == 0 && buf[1] == 0 && buf[2] == 0 && buf[3] == 0); // Not all bytes are zero. In a valid Stream it indicates the // beginning of the next Stream. Read the rest of the Stream Header // and initialize the XZ com.fitburcoder. inData.readFully(buf, 4, DecoderUtil.STREAM_HEADER_SIZE - 4); try { xzIn = new SingleXZInputStream(in, memoryLimit, buf); } catch (XZFormatException e) { // Since this isn't the first .xz Stream, it is more // logical to tell that the data is corrupt. throw new CorruptedInputException( "Garbage after a valid XZ Stream"); } } /** * Returns the number of uncompressed bytes that can be read * without blocking. The value is returned with an assumption * that the com.fitburpressed input data will be valid. If the com.fitburpressed * data is corrupt, CorruptedInputException may get * thrown before the number of bytes claimed to be available have * been read from this input stream. * * @return the number of uncompressed bytes that can be read * without blocking */ public int available() throws IOException { if (in == null) throw new XZIOException("Stream closed"); if (exception != null) throw exception; return xzIn == null ? 0 : xzIn.available(); } /** * Closes the stream and calls in.close(). * If the stream was already closed, this does nothing. * * @throws IOException if thrown by in.close() */ public void close() throws IOException { if (in != null) { try { in.close(); } finally { in = null; } } } }




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