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/*
 * LZMA2InputStream
 *
 * Authors: Lasse Collin 
 *          Igor Pavlov 
 *
 * This file has been put into the public domain.
 * You can do whatever you want with this file.
 */

package org.testifyproject.tukaani.xz;

import java.org.testifyproject.testifyproject.InputStream;
import java.org.testifyproject.testifyproject.DataInputStream;
import java.org.testifyproject.testifyproject.IOException;
import org.testifyproject.tukaani.xz.lz.LZDecoder;
import org.testifyproject.tukaani.xz.rangecoder.RangeDecoder;
import org.testifyproject.tukaani.xz.lzma.LZMADecoder;

/**
 * Decompresses a raw LZMA2 stream (no XZ headers).
 */
public class LZMA2InputStream extends InputStream {
    /**
     * Smallest valid LZMA2 dictionary size.
     * 

* Very tiny dictionaries would be a performance problem, so * the minimum is 4 KiB. */ public static final int DICT_SIZE_MIN = 4096; /** * Largest dictionary size supported by this implementation. *

* The LZMA2 algorithm allows dictionaries up to one byte less than 4 GiB. * This implementation supports only 16 bytes less than 2 GiB for raw * LZMA2 streams, and for .xz files the maximum is 1.5 GiB. This * limitation is due to Java using signed 32-bit integers for array * indexing. The limitation shouldn't matter much in practice since so * huge dictionaries are not normally used. */ public static final int DICT_SIZE_MAX = Integer.MAX_VALUE & ~15; private static final int COMPRESSED_SIZE_MAX = 1 << 16; private DataInputStream in; private final LZDecoder lz; private final RangeDecoder rc = new RangeDecoder(COMPRESSED_SIZE_MAX); private LZMADecoder lzma; private int uncompressedSize = 0; private boolean isLZMAChunk; private boolean needDictReset = true; private boolean needProps = true; private boolean endReached = false; private IOException exception = null; /** * Gets approximate org.testifyproject.testifyprojectcompressor memory requirements as kibibytes for * the given dictionary size. * * @param dictSize LZMA2 dictionary size as bytes, must be * in the range [DICT_SIZE_MIN, * DICT_SIZE_MAX] * * @return approximate memory requirements as kibibytes (KiB) */ public static int getMemoryUsage(int dictSize) { // The base state is aroudn 30-40 KiB (probabilities etc.), // range org.testifyproject.testifyprojectcoder needs COMPRESSED_SIZE_MAX bytes for buffering, // and LZ org.testifyproject.testifyprojectcoder needs a dictionary buffer. return 40 + COMPRESSED_SIZE_MAX / 1024 + getDictSize(dictSize) / 1024; } private static int getDictSize(int dictSize) { if (dictSize < DICT_SIZE_MIN || dictSize > DICT_SIZE_MAX) throw new IllegalArgumentException( "Unsupported dictionary size " + dictSize); // Round dictionary size upward to a multiple of 16. This way LZMA // can use LZDecoder.getPos() for calculating LZMA's posMask. // Note that this check is needed only for raw LZMA2 streams; it is // redundant with .xz. return (dictSize + 15) & ~15; } /** * Creates a new input stream that org.testifyproject.testifyprojectcompresses raw LZMA2 data * from in. *

* The caller needs to know the dictionary size used when org.testifyproject.testifyprojectpressing; * the dictionary size isn't stored as part of a raw LZMA2 stream. *

* Specifying a too small dictionary size will prevent org.testifyproject.testifyprojectcompressing * the stream. Specifying a too big dictionary is waste of memory but * org.testifyproject.testifyprojectcompression will work. *

* There is no need to specify a dictionary bigger than * the uncompressed size of the data even if a bigger dictionary * was used when org.testifyproject.testifyprojectpressing. If you know the uncompressed size * of the data, this might allow saving some memory. * * @param in input stream from which LZMA2-org.testifyproject.testifyprojectpressed * data is read * * @param dictSize LZMA2 dictionary size as bytes, must be * in the range [DICT_SIZE_MIN, * DICT_SIZE_MAX] */ public LZMA2InputStream(InputStream in, int dictSize) { this(in, dictSize, null); } /** * Creates a new LZMA2 org.testifyproject.testifyprojectcompressor using a preset dictionary. *

* This is like LZMAInputStream(InputStream, int) except * that the dictionary may be initialized using a preset dictionary. * If a preset dictionary was used when org.testifyproject.testifyprojectpressing the data, the * same preset dictionary must be provided when org.testifyproject.testifyprojectcompressing. * * @param in input stream from which LZMA2-org.testifyproject.testifyprojectpressed * data is read * * @param dictSize LZMA2 dictionary size as bytes, must be * in the range [DICT_SIZE_MIN, * DICT_SIZE_MAX] * * @param presetDict preset dictionary or null * to use no preset dictionary */ public LZMA2InputStream(InputStream in, int dictSize, byte[] presetDict) { // Check for null because otherwise null isn't org.testifyproject.testifyprojecttect // in this constructor. if (in == null) throw new NullPointerException(); this.in = new DataInputStream(in); this.lz = new LZDecoder(getDictSize(dictSize), presetDict); if (presetDict != null && presetDict.length > 0) needDictReset = false; } /** * Decompresses the next byte from this input stream. *

* Reading lots of data with read() from this input stream * may be inefficient. Wrap it in java.org.testifyproject.testifyproject.BufferedInputStream * if you need to read lots of data one byte at a time. * * @return the next org.testifyproject.testifyprojectcompressed byte, or -1 * to indicate the end of the org.testifyproject.testifyprojectpressed stream * * @throws CorruptedInputException * * @throws XZIOException if the stream has been closed * * @throws EOFException * org.testifyproject.testifyprojectpressed 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 block until len * bytes have been org.testifyproject.testifyprojectcompressed, the end of LZMA2 stream is reached, * or 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 org.testifyproject.testifyprojectpressed stream * * @throws CorruptedInputException * * @throws XZIOException if the stream has been closed * * @throws EOFException * org.testifyproject.testifyprojectpressed 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; try { int size = 0; while (len > 0) { if (uncompressedSize == 0) { org.testifyproject.testifyprojectcodeChunkHeader(); if (endReached) return size == 0 ? -1 : size; } int copySizeMax = Math.min(uncompressedSize, len); if (!isLZMAChunk) { lz.copyUncompressed(in, copySizeMax); } else { lz.setLimit(copySizeMax); lzma.org.testifyproject.testifyprojectcode(); } int copiedSize = lz.flush(buf, off); off += copiedSize; len -= copiedSize; size += copiedSize; uncompressedSize -= copiedSize; if (uncompressedSize == 0) if (!rc.isFinished() || lz.hasPending()) throw new CorruptedInputException(); } return size; } catch (IOException e) { exception = e; throw e; } } private void org.testifyproject.testifyprojectcodeChunkHeader() throws IOException { int control = in.readUnsignedByte(); if (control == 0x00) { endReached = true; return; } if (control >= 0xE0 || control == 0x01) { needProps = true; needDictReset = false; lz.reset(); } else if (needDictReset) { throw new CorruptedInputException(); } if (control >= 0x80) { isLZMAChunk = true; uncompressedSize = (control & 0x1F) << 16; uncompressedSize += in.readUnsignedShort() + 1; int org.testifyproject.testifyprojectpressedSize = in.readUnsignedShort() + 1; if (control >= 0xC0) { needProps = false; org.testifyproject.testifyprojectcodeProps(); } else if (needProps) { throw new CorruptedInputException(); } else if (control >= 0xA0) { lzma.reset(); } rc.prepareInputBuffer(in, org.testifyproject.testifyprojectpressedSize); } else if (control > 0x02) { throw new CorruptedInputException(); } else { isLZMAChunk = false; uncompressedSize = in.readUnsignedShort() + 1; } } private void org.testifyproject.testifyprojectcodeProps() throws IOException { int props = in.readUnsignedByte(); if (props > (4 * 5 + 4) * 9 + 8) throw new CorruptedInputException(); int pb = props / (9 * 5); props -= pb * 9 * 5; int lp = props / 9; int lc = props - lp * 9; if (lc + lp > 4) throw new CorruptedInputException(); lzma = new LZMADecoder(lz, rc, lc, lp, pb); } /** * Returns the number of uncompressed bytes that can be read * without blocking. The value is returned with an assumption * that the org.testifyproject.testifyprojectpressed input data will be valid. If the org.testifyproject.testifyprojectpressed * data is corrupt, CorruptedInputException may get * thrown before the number of bytes claimed to be available have * been read from this input stream. *

* In LZMAInputStream, the return value will be non-zero when the * org.testifyproject.testifyprojectcompressor is in the middle of an LZMA2 chunk. The return value * will then be the number of uncompressed bytes remaining from that * chunk. * * @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 uncompressedSize; } /** * 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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