lzma/Java/Tukaani/src/org/tukaani/xz/SingleXZInputStream.java - nest-cam/4320010/lzma - Git at Google

 /*
  * SingleXZInputStream
  *
  * Author: Lasse Collin <lasse.collin@tukaani.org>
  *
  * This file has been put into the public domain.
  * You can do whatever you want with this file.
  */

 package org.tukaani.xz;

 import java.io.InputStream;
 import java.io.DataInputStream;
 import java.io.IOException;
 import java.io.EOFException;
 import org.tukaani.xz.common.DecoderUtil;
 import org.tukaani.xz.common.StreamFlags;
 import org.tukaani.xz.index.IndexHash;
 import org.tukaani.xz.check.Check;

 /**
  * Decompresses exactly one XZ Stream in streamed mode (no seeking).
  * The decompression stops after the first XZ Stream has been decompressed,
  * and the read position in the input stream is left at the first byte
  * after the end of the XZ Stream. This can be useful when XZ data has
  * been stored inside some other file format or protocol.
  * <p>
  * Unless you know what you are doing, don't use this class to decompress
  * standalone .xz files. For that purpose, use <code>XZInputStream</code>.
  *
  * <h4>When uncompressed size is known beforehand</h4>
  * <p>
  * If you are decompressing complete XZ streams and your application knows
  * exactly how much uncompressed data there should be, it is good to try
  * reading one more byte by calling <code>read()</code> and checking
  * that it returns <code>-1</code>. This way the decompressor will parse the
  * file footers and verify the integrity checks, giving the caller more
  * confidence that the uncompressed data is valid.
  *
  * @see XZInputStream
  */
 public class SingleXZInputStream extends InputStream {
     private InputStream in;
     private final int memoryLimit;
     private final StreamFlags streamHeaderFlags;
     private final Check check;
     private final boolean verifyCheck;
     private BlockInputStream blockDecoder = null;
     private final IndexHash indexHash = new IndexHash();
     private boolean endReached = false;
     private IOException exception = null;

     private final byte[] tempBuf = new byte[1];

     /**
      * Reads the Stream Header into a buffer.
      * This is a helper function for the constructors.
      */
     private static byte[] readStreamHeader(InputStream in) throws IOException {
         byte[] streamHeader = new byte[DecoderUtil.STREAM_HEADER_SIZE];
         new DataInputStream(in).readFully(streamHeader);
         return streamHeader;
     }

     /**
      * Creates a new XZ decompressor that decompresses exactly one
      * XZ Stream from <code>in</code> without a memory usage limit.
      * <p>
      * This constructor reads and parses the XZ Stream Header (12 bytes)
      * from <code>in</code>. The header of the first Block is not read
      * until <code>read</code> is called.
      *
      * @param       in          input stream from which XZ-compressed
      *                          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 <code>in</code>
      *
      * @throws      IOException may be thrown by <code>in</code>
      */
     public SingleXZInputStream(InputStream in) throws IOException {
         this(in, -1);
     }

     /**
      * Creates a new XZ decompressor that decompresses exactly one
      * XZ Stream from <code>in</code> with an optional memory usage limit.
      * <p>
      * This is identical to <code>SingleXZInputStream(InputStream)</code>
      * except that this takes also the <code>memoryLimit</code> argument.
      *
      * @param       in          input stream from which XZ-compressed
      *                          data is read
      *
      * @param       memoryLimit memory usage limit in kibibytes (KiB)
      *                          or <code>-1</code> 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 <code>in</code>
      *
      * @throws      IOException may be thrown by <code>in</code>
      */
     public SingleXZInputStream(InputStream in, int memoryLimit)
             throws IOException {
         this(in, memoryLimit, true, readStreamHeader(in));
     }

     /**
      * Creates a new XZ decompressor that decompresses exactly one
      * XZ Stream from <code>in</code> with an optional memory usage limit
      * and ability to disable verification of integrity checks.
      * <p>
      * This is identical to <code>SingleXZInputStream(InputStream,int)</code>
      * except that this takes also the <code>verifyCheck</code> argument.
      * <p>
      * Note that integrity check verification should almost never be disabled.
      * Possible reasons to disable integrity check verification:
      * <ul>
      *   <li>Trying to recover data from a corrupt .xz file.</li>
      *   <li>Speeding up decompression. This matters mostly with SHA-256
      *   or with files that have compressed extremely well. It's recommended
      *   that integrity checking isn't disabled for performance reasons
      *   unless the file integrity is verified externally in some other
      *   way.</li>
      * </ul>
      * <p>
      * <code>verifyCheck</code> only affects the integrity check of
      * the actual compressed data. The CRC32 fields in the headers
      * are always verified.
      *
      * @param       in          input stream from which XZ-compressed
      *                          data is read
      *
      * @param       memoryLimit memory usage limit in kibibytes (KiB)
      *                          or <code>-1</code> to impose no
      *                          memory usage limit
      *
      * @param       verifyCheck if <code>true</code>, the integrity checks
      *                          will be verified; this should almost never
      *                          be set to <code>false</code>
      *
      * @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 <code>in</code>
      *
      * @throws      IOException may be thrown by <code>in</code>
      *
      * @since 1.6
      */
     public SingleXZInputStream(InputStream in, int memoryLimit,
                                boolean verifyCheck) throws IOException {
         this(in, memoryLimit, verifyCheck, readStreamHeader(in));
     }

     SingleXZInputStream(InputStream in, int memoryLimit, boolean verifyCheck,
                         byte[] streamHeader) throws IOException {
         this.in = in;
         this.memoryLimit = memoryLimit;
         this.verifyCheck = verifyCheck;
         streamHeaderFlags = DecoderUtil.decodeStreamHeader(streamHeader);
         check = Check.getInstance(streamHeaderFlags.checkType);
     }

     /**
      * Gets the ID of the integrity check used in this XZ Stream.
      *
      * @return      the Check ID specified in the XZ Stream Header
      */
     public int getCheckType() {
         return streamHeaderFlags.checkType;
     }

     /**
      * Gets the name of the integrity check used in this XZ Stream.
      *
      * @return      the name of the check specified in the XZ Stream Header
      */
     public String getCheckName() {
         return check.getName();
     }

     /**
      * Decompresses the next byte from this input stream.
      * <p>
      * Reading lots of data with <code>read()</code> 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 decompressed byte, or <code>-1</code>
      *              to indicate the end of the compressed stream
      *
      * @throws      CorruptedInputException
      * @throws      UnsupportedOptionsException
      * @throws      MemoryLimitException
      *
      * @throws      XZIOException if the stream has been closed
      *
      * @throws      EOFException
      *                          compressed input is truncated or corrupt
      *
      * @throws      IOException may be thrown by <code>in</code>
      */
     public int read() throws IOException {
         return read(tempBuf, 0, 1) == -1 ? -1 : (tempBuf[0] & 0xFF);
     }

     /**
      * Decompresses into an array of bytes.
      * <p>
      * If <code>len</code> is zero, no bytes are read and <code>0</code>
      * is returned. Otherwise this will try to decompress <code>len</code>
      * bytes of uncompressed data. Less than <code>len</code> bytes may
      * be read only in the following situations:
      * <ul>
      *   <li>The end of the compressed data was reached successfully.</li>
      *   <li>An error is detected after at least one but less <code>len</code>
      *       bytes have already been successfully decompressed.
      *       The next call with non-zero <code>len</code> will immediately
      *       throw the pending exception.</li>
      *   <li>An exception is thrown.</li>
      * </ul>
      *
      * @param       buf         target buffer for uncompressed data
      * @param       off         start offset in <code>buf</code>
      * @param       len         maximum number of uncompressed bytes to read
      *
      * @return      number of bytes read, or <code>-1</code> to indicate
      *              the end of the compressed stream
      *
      * @throws      CorruptedInputException
      * @throws      UnsupportedOptionsException
      * @throws      MemoryLimitException
      *
      * @throws      XZIOException if the stream has been closed
      *
      * @throws      EOFException
      *                          compressed input is truncated or corrupt
      *
      * @throws      IOException may be thrown by <code>in</code>
      */
     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 (blockDecoder == null) {
                     try {
                         blockDecoder = new BlockInputStream(
                                 in, check, verifyCheck, memoryLimit, -1, -1);
                     } catch (IndexIndicatorException e) {
                         indexHash.validate(in);
                         validateStreamFooter();
                         endReached = true;
                         return size > 0 ? size : -1;
                     }
                 }

                 int ret = blockDecoder.read(buf, off, len);

                 if (ret > 0) {
                     size += ret;
                     off += ret;
                     len -= ret;
                 } else if (ret == -1) {
                     indexHash.add(blockDecoder.getUnpaddedSize(),
                                   blockDecoder.getUncompressedSize());
                     blockDecoder = null;
                 }
             }
         } catch (IOException e) {
             exception = e;
             if (size == 0)
                 throw e;
         }

         return size;
     }

     private void validateStreamFooter() throws IOException {
         byte[] buf = new byte[DecoderUtil.STREAM_HEADER_SIZE];
         new DataInputStream(in).readFully(buf);
         StreamFlags streamFooterFlags = DecoderUtil.decodeStreamFooter(buf);

         if (!DecoderUtil.areStreamFlagsEqual(streamHeaderFlags,
                                              streamFooterFlags)
                 || indexHash.getIndexSize() != streamFooterFlags.backwardSize)
             throw new CorruptedInputException(
                     "XZ Stream Footer does not match Stream Header");
     }

     /**
      * Returns the number of uncompressed bytes that can be read
      * without blocking. The value is returned with an assumption
      * that the compressed input data will be valid. If the compressed
      * data is corrupt, <code>CorruptedInputException</code> 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 blockDecoder == null ? 0 : blockDecoder.available();
     }

     /**
      * Closes the stream and calls <code>in.close()</code>.
      * If the stream was already closed, this does nothing.
      *
      * @throws  IOException if thrown by <code>in.close()</code>
      */
     public void close() throws IOException {
         if (in != null) {
             try {
                 in.close();
             } finally {
                 in = null;
             }
         }
     }
 }
	/*
	* SingleXZInputStream
	*
	* Author: Lasse Collin <lasse.collin@tukaani.org>
	*
	* This file has been put into the public domain.
	* You can do whatever you want with this file.
	*/

	package org.tukaani.xz;

	import java.io.InputStream;
	import java.io.DataInputStream;
	import java.io.IOException;
	import java.io.EOFException;
	import org.tukaani.xz.common.DecoderUtil;
	import org.tukaani.xz.common.StreamFlags;
	import org.tukaani.xz.index.IndexHash;
	import org.tukaani.xz.check.Check;

	/**
	* Decompresses exactly one XZ Stream in streamed mode (no seeking).
	* The decompression stops after the first XZ Stream has been decompressed,
	* and the read position in the input stream is left at the first byte
	* after the end of the XZ Stream. This can be useful when XZ data has
	* been stored inside some other file format or protocol.
	* <p>
	* Unless you know what you are doing, don't use this class to decompress
	* standalone .xz files. For that purpose, use <code>XZInputStream</code>.
	*
	* <h4>When uncompressed size is known beforehand</h4>
	* <p>
	* If you are decompressing complete XZ streams and your application knows
	* exactly how much uncompressed data there should be, it is good to try
	* reading one more byte by calling <code>read()</code> and checking
	* that it returns <code>-1</code>. This way the decompressor will parse the
	* file footers and verify the integrity checks, giving the caller more
	* confidence that the uncompressed data is valid.
	*
	* @see XZInputStream
	*/
	public class SingleXZInputStream extends InputStream {
	private InputStream in;
	private final int memoryLimit;
	private final StreamFlags streamHeaderFlags;
	private final Check check;
	private final boolean verifyCheck;
	private BlockInputStream blockDecoder = null;
	private final IndexHash indexHash = new IndexHash();
	private boolean endReached = false;
	private IOException exception = null;

	private final byte[] tempBuf = new byte[1];

	/**
	* Reads the Stream Header into a buffer.
	* This is a helper function for the constructors.
	*/
	private static byte[] readStreamHeader(InputStream in) throws IOException {
	byte[] streamHeader = new byte[DecoderUtil.STREAM_HEADER_SIZE];
	new DataInputStream(in).readFully(streamHeader);
	return streamHeader;
	}

	/**
	* Creates a new XZ decompressor that decompresses exactly one
	* XZ Stream from <code>in</code> without a memory usage limit.
	* <p>
	* This constructor reads and parses the XZ Stream Header (12 bytes)
	* from <code>in</code>. The header of the first Block is not read
	* until <code>read</code> is called.
	*
	* @param in input stream from which XZ-compressed
	* 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 <code>in</code>
	*
	* @throws IOException may be thrown by <code>in</code>
	*/
	public SingleXZInputStream(InputStream in) throws IOException {
	this(in, -1);
	}

	/**
	* Creates a new XZ decompressor that decompresses exactly one
	* XZ Stream from <code>in</code> with an optional memory usage limit.
	* <p>
	* This is identical to <code>SingleXZInputStream(InputStream)</code>
	* except that this takes also the <code>memoryLimit</code> argument.
	*
	* @param in input stream from which XZ-compressed
	* data is read
	*
	* @param memoryLimit memory usage limit in kibibytes (KiB)
	* or <code>-1</code> 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 <code>in</code>
	*
	* @throws IOException may be thrown by <code>in</code>
	*/
	public SingleXZInputStream(InputStream in, int memoryLimit)
	throws IOException {
	this(in, memoryLimit, true, readStreamHeader(in));
	}

	/**
	* Creates a new XZ decompressor that decompresses exactly one
	* XZ Stream from <code>in</code> with an optional memory usage limit
	* and ability to disable verification of integrity checks.
	* <p>
	* This is identical to <code>SingleXZInputStream(InputStream,int)</code>
	* except that this takes also the <code>verifyCheck</code> argument.
	* <p>
	* Note that integrity check verification should almost never be disabled.
	* Possible reasons to disable integrity check verification:
	* <ul>
	* <li>Trying to recover data from a corrupt .xz file.</li>
	* <li>Speeding up decompression. This matters mostly with SHA-256
	* or with files that have compressed extremely well. It's recommended
	* that integrity checking isn't disabled for performance reasons
	* unless the file integrity is verified externally in some other
	* way.</li>
	* </ul>
	* <p>
	* <code>verifyCheck</code> only affects the integrity check of
	* the actual compressed data. The CRC32 fields in the headers
	* are always verified.
	*
	* @param in input stream from which XZ-compressed
	* data is read
	*
	* @param memoryLimit memory usage limit in kibibytes (KiB)
	* or <code>-1</code> to impose no
	* memory usage limit
	*
	* @param verifyCheck if <code>true</code>, the integrity checks
	* will be verified; this should almost never
	* be set to <code>false</code>
	*
	* @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 <code>in</code>
	*
	* @throws IOException may be thrown by <code>in</code>
	*
	* @since 1.6
	*/
	public SingleXZInputStream(InputStream in, int memoryLimit,
	boolean verifyCheck) throws IOException {
	this(in, memoryLimit, verifyCheck, readStreamHeader(in));
	}

	SingleXZInputStream(InputStream in, int memoryLimit, boolean verifyCheck,
	byte[] streamHeader) throws IOException {
	this.in = in;
	this.memoryLimit = memoryLimit;
	this.verifyCheck = verifyCheck;
	streamHeaderFlags = DecoderUtil.decodeStreamHeader(streamHeader);
	check = Check.getInstance(streamHeaderFlags.checkType);
	}

	/**
	* Gets the ID of the integrity check used in this XZ Stream.
	*
	* @return the Check ID specified in the XZ Stream Header
	*/
	public int getCheckType() {
	return streamHeaderFlags.checkType;
	}

	/**
	* Gets the name of the integrity check used in this XZ Stream.
	*
	* @return the name of the check specified in the XZ Stream Header
	*/
	public String getCheckName() {
	return check.getName();
	}

	/**
	* Decompresses the next byte from this input stream.
	* <p>
	* Reading lots of data with <code>read()</code> 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 decompressed byte, or <code>-1</code>
	* to indicate the end of the compressed stream
	*
	* @throws CorruptedInputException
	* @throws UnsupportedOptionsException
	* @throws MemoryLimitException
	*
	* @throws XZIOException if the stream has been closed
	*
	* @throws EOFException
	* compressed input is truncated or corrupt
	*
	* @throws IOException may be thrown by <code>in</code>
	*/
	public int read() throws IOException {
	return read(tempBuf, 0, 1) == -1 ? -1 : (tempBuf[0] & 0xFF);
	}

	/**
	* Decompresses into an array of bytes.
	* <p>
	* If <code>len</code> is zero, no bytes are read and <code>0</code>
	* is returned. Otherwise this will try to decompress <code>len</code>
	* bytes of uncompressed data. Less than <code>len</code> bytes may
	* be read only in the following situations:
	* <ul>
	* <li>The end of the compressed data was reached successfully.</li>
	* <li>An error is detected after at least one but less <code>len</code>
	* bytes have already been successfully decompressed.
	* The next call with non-zero <code>len</code> will immediately
	* throw the pending exception.</li>
	* <li>An exception is thrown.</li>
	* </ul>
	*
	* @param buf target buffer for uncompressed data
	* @param off start offset in <code>buf</code>
	* @param len maximum number of uncompressed bytes to read
	*
	* @return number of bytes read, or <code>-1</code> to indicate
	* the end of the compressed stream
	*
	* @throws CorruptedInputException
	* @throws UnsupportedOptionsException
	* @throws MemoryLimitException
	*
	* @throws XZIOException if the stream has been closed
	*
	* @throws EOFException
	* compressed input is truncated or corrupt
	*
	* @throws IOException may be thrown by <code>in</code>
	*/
	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 (blockDecoder == null) {
	try {
	blockDecoder = new BlockInputStream(
	in, check, verifyCheck, memoryLimit, -1, -1);
	} catch (IndexIndicatorException e) {
	indexHash.validate(in);
	validateStreamFooter();
	endReached = true;
	return size > 0 ? size : -1;
	}
	}

	int ret = blockDecoder.read(buf, off, len);

	if (ret > 0) {
	size += ret;
	off += ret;
	len -= ret;
	} else if (ret == -1) {
	indexHash.add(blockDecoder.getUnpaddedSize(),
	blockDecoder.getUncompressedSize());
	blockDecoder = null;
	}
	}
	} catch (IOException e) {
	exception = e;
	if (size == 0)
	throw e;
	}

	return size;
	}

	private void validateStreamFooter() throws IOException {
	byte[] buf = new byte[DecoderUtil.STREAM_HEADER_SIZE];
	new DataInputStream(in).readFully(buf);
	StreamFlags streamFooterFlags = DecoderUtil.decodeStreamFooter(buf);

	if (!DecoderUtil.areStreamFlagsEqual(streamHeaderFlags,
	streamFooterFlags)
	\|\| indexHash.getIndexSize() != streamFooterFlags.backwardSize)
	throw new CorruptedInputException(
	"XZ Stream Footer does not match Stream Header");
	}

	/**
	* Returns the number of uncompressed bytes that can be read
	* without blocking. The value is returned with an assumption
	* that the compressed input data will be valid. If the compressed
	* data is corrupt, <code>CorruptedInputException</code> 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 blockDecoder == null ? 0 : blockDecoder.available();
	}

	/**
	* Closes the stream and calls <code>in.close()</code>.
	* If the stream was already closed, this does nothing.
	*
	* @throws IOException if thrown by <code>in.close()</code>
	*/
	public void close() throws IOException {
	if (in != null) {
	try {
	in.close();
	} finally {
	in = null;
	}
	}
	}
	}