/*
* Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2014
* Jonathan Schleifer <js@webkeks.org>
*
* All rights reserved.
*
* This file is part of ObjFW. It may be distributed under the terms of the
* Q Public License 1.0, which can be found in the file LICENSE.QPL included in
* the packaging of this file.
*
* Alternatively, it may be distributed under the terms of the GNU General
* Public License, either version 2 or 3, which can be found in the file
* LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this
* file.
*/
#define OF_DEFLATE_STREAM_M
#include "config.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#ifndef DEFLATE64
# import "OFDeflateStream.h"
#else
# import "OFDeflate64Stream.h"
# define OFDeflateStream OFDeflate64Stream
#endif
#import "OFDataArray.h"
#import "OFInitializationFailedException.h"
#import "OFInvalidFormatException.h"
#import "OFOutOfMemoryException.h"
#import "OFReadFailedException.h"
#import "autorelease.h"
#import "macros.h"
#define BLOCK_HEADER OF_DEFLATE_STREAM_BLOCK_HEADER
#define UNCOMPRESSED_BLOCK_HEADER OF_DEFLATE_STREAM_UNCOMPRESSED_BLOCK_HEADER
#define UNCOMPRESSED_BLOCK OF_DEFLATE_STREAM_UNCOMPRESSED_BLOCK
#define HUFFMAN_BLOCK OF_DEFLATE_STREAM_HUFFMAN_BLOCK
#define HUFFMAN_TREE OF_DEFLATE_STREAM_HUFFMAN_TREE
#define CONSTRUCT_CODELEN_TREE OF_DEFLATE_STREAM_CONSTRUCT_CODELEN_TREE
#define CONSTRUCT_LITLEN_TREE OF_DEFLATE_STREAM_CONSTRUCT_LITLEN_TREE
#define CONSTRUCT_DIST_TREE OF_DEFLATE_STREAM_CONSTRUCT_DIST_TREE
#define AWAIT_CODE OF_DEFLATE_STREAM_AWAIT_CODE
#define WRITE_VALUE OF_DEFLATE_STREAM_WRITE_VALUE
#define AWAIT_LENGTH_EXTRA_BITS OF_DEFLATE_STREAM_AWAIT_LENGTH_EXTRA_BITS
#define AWAIT_DISTANCE OF_DEFLATE_STREAM_AWAIT_DISTANCE
#define AWAIT_DISTANCE_EXTRA_BITS OF_DEFLATE_STREAM_AWAIT_DISTANCE_EXTRA_BITS
#define PROCESS_PAIR OF_DEFLATE_STREAM_PROCESS_PAIR
#define BUFFER_SIZE OF_DEFLATE_STREAM_BUFFER_SIZE
#define MAX_BITS 15
struct huffman_tree {
struct huffman_tree *leafs[2];
uint16_t value;
};
#ifndef DEFLATE64
static const uint_fast8_t numDistanceCodes = 30;
static const uint8_t lengthCodes[29] = {
/* indices are -257, values -3 */
0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 20, 24, 28, 32, 40, 48, 56,
64, 80, 96, 112, 128, 160, 192, 224, 255
};
static const uint8_t lengthExtraBits[29] = {
0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4,
5, 5, 5, 5, 0
};
static const uint16_t distanceCodes[30] = {
1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, 257, 385,
513, 769, 1025, 1537, 2049, 3073, 4097, 6145, 8193, 12289, 16385, 24577
};
static const uint8_t distanceExtraBits[30] = {
0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10,
10, 11, 11, 12, 12, 13, 13
};
#else
static const uint_fast8_t numDistanceCodes = 32;
static const uint8_t lengthCodes[29] = {
/* indices are -257, values -3 */
0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 20, 24, 28, 32, 40, 48, 56,
64, 80, 96, 112, 128, 160, 192, 224, 0
};
static const uint8_t lengthExtraBits[29] = {
0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4,
5, 5, 5, 5, 16
};
static const uint16_t distanceCodes[32] = {
1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, 257, 385,
513, 769, 1025, 1537, 2049, 3073, 4097, 6145, 8193, 12289, 16385, 24577,
32769, 49153
};
static const uint8_t distanceExtraBits[32] = {
0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10,
10, 11, 11, 12, 12, 13, 13, 14, 14
};
#endif
static const uint8_t codeLengthsOrder[19] = {
16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15
};
static struct huffman_tree *fixedLitLenTree, *fixedDistTree;
static bool
tryReadBits(OFDeflateStream *stream, uint_fast16_t *bits, uint_fast8_t count)
{
uint_fast16_t ret = stream->_savedBits;
uint_fast8_t i;
assert(stream->_savedBitsLength < count);
for (i = stream->_savedBitsLength; i < count; i++) {
if OF_UNLIKELY (stream->_bitIndex == 8) {
if (stream->_bufferIndex < stream->_bufferLength)
stream->_byte =
stream->_buffer[stream->_bufferIndex++];
else {
size_t length = [stream->_stream
readIntoBuffer: stream->_buffer
length: BUFFER_SIZE];
if OF_UNLIKELY (length < 1) {
stream->_savedBits = ret;
stream->_savedBitsLength = i;
return false;
}
stream->_byte = stream->_buffer[0];
stream->_bufferIndex = 1;
stream->_bufferLength = (uint_fast16_t)length;
}
stream->_bitIndex = 0;
}
ret |= ((stream->_byte >> stream->_bitIndex++) & 1) << i;
}
stream->_savedBits = 0;
stream->_savedBitsLength = 0;
*bits = ret;
return true;
}
static struct huffman_tree*
newTree(void)
{
struct huffman_tree *tree;
if ((tree = malloc(sizeof(*tree))) == NULL)
@throw [OFOutOfMemoryException
exceptionWithRequestedSize: sizeof(*tree)];
tree->leafs[0] = tree->leafs[1] = NULL;
tree->value = 0xFFFF;
return tree;
}
static void
treeInsert(struct huffman_tree *tree, uint_fast16_t code, uint_fast8_t length,
uint16_t value)
{
while (length > 0) {
uint_fast8_t bit;
length--;
bit = (code & (1 << length)) >> length;
if (tree->leafs[bit] == NULL)
tree->leafs[bit] = newTree();
tree = tree->leafs[bit];
}
tree->value = value;
}
static struct huffman_tree*
constructTree(uint8_t lengths[], uint_fast16_t count)
{
struct huffman_tree *tree;
uint16_t lengthCount[MAX_BITS + 1] = { 0 };
uint16_t code, maxCode = 0, nextCode[MAX_BITS + 1];
uint_fast16_t i;
for (i = 0; i < count; i++) {
uint8_t length = lengths[i];
if OF_UNLIKELY (length > MAX_BITS)
@throw [OFInvalidFormatException exception];
if (length > 0) {
lengthCount[length]++;
maxCode = i;
}
}
code = 0;
for (i = 1; i <= MAX_BITS; i++) {
code = (code + lengthCount[i - 1]) << 1;
nextCode[i] = code;
}
tree = newTree();
for (i = 0; i <= maxCode; i++) {
uint8_t length = lengths[i];
if (length > 0)
treeInsert(tree, nextCode[length]++, length, i);
}
return tree;
}
static bool
walkTree(OFDeflateStream *stream, struct huffman_tree **tree, uint16_t *value)
{
struct huffman_tree *iter = *tree;
uint_fast16_t bits;
while (iter->value == 0xFFFF) {
if OF_UNLIKELY (!tryReadBits(stream, &bits, 1)) {
*tree = iter;
return false;
}
if OF_UNLIKELY (iter->leafs[bits] == NULL)
@throw [OFInvalidFormatException exception];
iter = iter->leafs[bits];
}
*value = iter->value;
return true;
}
static void
releaseTree(struct huffman_tree *tree)
{
uint_fast8_t i;
for (i = 0; i < 2; i++)
if OF_LIKELY (tree->leafs[i] != NULL)
releaseTree(tree->leafs[i]);
free(tree);
}
@implementation OFDeflateStream
+ (void)initialize
{
uint_fast16_t i;
uint8_t lengths[288];
if (self != [OFDeflateStream class])
return;
for (i = 0; i <= 143; i++)
lengths[i] = 8;
for (i = 144; i <= 255; i++)
lengths[i] = 9;
for (i = 256; i <= 279; i++)
lengths[i] = 7;
for (i = 280; i <= 287; i++)
lengths[i] = 8;
fixedLitLenTree = constructTree(lengths, 288);
for (i = 0; i <= 31; i++)
lengths[i] = 5;
fixedDistTree = constructTree(lengths, 32);
}
#ifndef DEFLATE64
+ (instancetype)streamWithStream: (OFStream*)stream
{
return [[[self alloc] initWithStream: stream] autorelease];
}
- init
{
OF_INVALID_INIT_METHOD
}
- initWithStream: (OFStream*)stream
{
self = [super init];
_stream = [stream retain];
_bitIndex = 8; /* 0-7 address the bit, 8 means fetch next byte */
_slidingWindowMask = 0x7FFF;
return self;
}
- (void)dealloc
{
[_stream release];
[super dealloc];
}
#endif
- (size_t)lowlevelReadIntoBuffer: (void*)buffer_
length: (size_t)length
{
uint8_t *buffer = buffer_;
uint_fast16_t bits, i, tmp;
uint16_t value;
size_t bytesWritten = 0;
uint8_t *slidingWindow;
uint_fast16_t slidingWindowIndex;
if (_atEndOfStream)
@throw [OFReadFailedException exceptionWithObject: self
requestedLength: length];
start:
switch (_state) {
case BLOCK_HEADER:
if OF_UNLIKELY (_inLastBlock) {
[_stream unreadFromBuffer: _buffer + _bufferIndex
length: _bufferLength -
_bufferIndex];
_atEndOfStream = true;
return bytesWritten;
}
if OF_UNLIKELY (!tryReadBits(self, &bits, 3))
return bytesWritten;
_inLastBlock = (bits & 1);
switch (bits >> 1) {
case 0: /* No compression */
_state = UNCOMPRESSED_BLOCK_HEADER;
_bitIndex = 8;
_context.uncompressedHeader.position = 0;
memset(_context.uncompressedHeader.length, 0, 4);
break;
case 1: /* Fixed Huffman */
_state = HUFFMAN_BLOCK;
_context.huffman.state = AWAIT_CODE;
_context.huffman.litLenTree = fixedLitLenTree;
_context.huffman.distTree = fixedDistTree;
_context.huffman.treeIter = fixedLitLenTree;
break;
case 2: /* Dynamic Huffman */
_state = HUFFMAN_TREE;
_context.huffmanTree.lengths = NULL;
_context.huffmanTree.receivedCount = 0;
_context.huffmanTree.value = 0xFE;
_context.huffmanTree.litLenCodesCount = 0xFF;
_context.huffmanTree.distCodesCount = 0xFF;
_context.huffmanTree.codeLenCodesCount = 0xFF;
break;
default:
@throw [OFInvalidFormatException exception];
}
goto start;
case UNCOMPRESSED_BLOCK_HEADER:
#define CTX _context.uncompressedHeader
/* FIXME: This can be done more efficiently than unreading */
[_stream unreadFromBuffer: _buffer + _bufferIndex
length: _bufferLength - _bufferIndex];
_bufferIndex = _bufferLength = 0;
CTX.position += [_stream
readIntoBuffer: CTX.length + CTX.position
length: 4 - CTX.position];
if OF_UNLIKELY (CTX.position < 4)
return bytesWritten;
if OF_UNLIKELY ((CTX.length[0] | (CTX.length[1] << 8)) !=
(uint16_t)~(CTX.length[2] | (CTX.length[3] << 8)))
@throw [OFInvalidFormatException exception];
_state = UNCOMPRESSED_BLOCK;
/*
* Do not reorder! _context.uncompressed.position and
* _context.uncompressedHeader.length overlap!
*/
_context.uncompressed.length =
CTX.length[0] | (CTX.length[1] << 8);
_context.uncompressed.position = 0;
goto start;
#undef CTX
case UNCOMPRESSED_BLOCK:
#define CTX _context.uncompressed
if OF_UNLIKELY (length == 0)
return bytesWritten;
tmp = (length < CTX.length - CTX.position
? (uint_fast16_t)length : CTX.length - CTX.position);
tmp = (uint_fast16_t)[_stream
readIntoBuffer: buffer + bytesWritten
length: tmp];
if OF_UNLIKELY (_slidingWindow == NULL) {
_slidingWindow =
[self allocMemoryWithSize: _slidingWindowMask + 1];
/* Avoid leaking data */
memset(_slidingWindow, 0, _slidingWindowMask + 1);
}
slidingWindow = _slidingWindow;
slidingWindowIndex = _slidingWindowIndex;
for (i = 0; i < tmp; i++) {
slidingWindow[slidingWindowIndex] =
buffer[bytesWritten + i];
slidingWindowIndex = (slidingWindowIndex + 1) &
_slidingWindowMask;
}
_slidingWindowIndex = slidingWindowIndex;
length -= tmp;
bytesWritten += tmp;
CTX.position += tmp;
if OF_UNLIKELY (CTX.position == CTX.length)
_state = BLOCK_HEADER;
goto start;
#undef CTX
case HUFFMAN_TREE:
#define CTX _context.huffmanTree
if OF_LIKELY (CTX.value == 0xFE) {
if OF_LIKELY (CTX.litLenCodesCount == 0xFF) {
if OF_UNLIKELY (!tryReadBits(self, &bits, 5))
return bytesWritten;
if OF_UNLIKELY (bits > 29)
@throw [OFInvalidFormatException
exception];
CTX.litLenCodesCount = bits;
}
if OF_LIKELY (CTX.distCodesCount == 0xFF) {
if OF_UNLIKELY (!tryReadBits(self, &bits, 5))
return bytesWritten;
CTX.distCodesCount = bits;
}
if OF_LIKELY (CTX.codeLenCodesCount == 0xFF) {
if OF_UNLIKELY (!tryReadBits(self, &bits, 4))
return bytesWritten;
CTX.codeLenCodesCount = bits;
}
if OF_LIKELY (CTX.lengths == NULL) {
CTX.lengths = [self allocMemoryWithSize: 19];
memset(CTX.lengths, 0, 19);
}
for (i = CTX.receivedCount;
i < CTX.codeLenCodesCount + 4; i++) {
if OF_UNLIKELY (!tryReadBits(self, &bits, 3)) {
CTX.receivedCount = i;
return bytesWritten;
}
CTX.lengths[codeLengthsOrder[i]] = bits;
}
CTX.codeLenTree = constructTree(CTX.lengths, 19);
CTX.treeIter = CTX.codeLenTree;
[self freeMemory: CTX.lengths];
CTX.lengths = NULL;
CTX.receivedCount = 0;
CTX.value = 0xFF;
}
if OF_LIKELY (CTX.lengths == NULL)
CTX.lengths = [self allocMemoryWithSize:
CTX.litLenCodesCount + CTX.distCodesCount + 258];
for (i = CTX.receivedCount;
i < CTX.litLenCodesCount + CTX.distCodesCount + 258;) {
uint_fast8_t j, count;
if OF_LIKELY (CTX.value == 0xFF) {
if OF_UNLIKELY (!walkTree(self, &CTX.treeIter,
&value)) {
CTX.receivedCount = i;
return bytesWritten;
}
CTX.treeIter = CTX.codeLenTree;
if (value < 16) {
CTX.lengths[i++] = value;
continue;
}
} else
value = CTX.value;
switch (value) {
case 16:
if OF_UNLIKELY (i < 1)
@throw [OFInvalidFormatException
exception];
if OF_UNLIKELY (!tryReadBits(self, &bits, 2)) {
CTX.receivedCount = i;
CTX.value = value;
return bytesWritten;
}
value = CTX.lengths[i - 1];
count = bits + 3;
break;
case 17:
if OF_UNLIKELY (!tryReadBits(self, &bits, 3)) {
CTX.receivedCount = i;
CTX.value = value;
return bytesWritten;
}
value = 0;
count = bits + 3;
break;
case 18:
if OF_UNLIKELY (!tryReadBits(self, &bits, 7)) {
CTX.receivedCount = i;
CTX.value = value;
return bytesWritten;
}
value = 0;
count = bits + 11;
break;
default:
@throw [OFInvalidFormatException exception];
}
if OF_UNLIKELY (i + count >
CTX.litLenCodesCount + CTX.distCodesCount + 258)
@throw [OFInvalidFormatException exception];
for (j = 0; j < count; j++)
CTX.lengths[i++] = value;
CTX.value = 0xFF;
}
releaseTree(CTX.codeLenTree);
CTX.litLenTree = constructTree(CTX.lengths,
CTX.litLenCodesCount + 257);
CTX.distTree = constructTree(
CTX.lengths + CTX.litLenCodesCount + 257,
CTX.distCodesCount + 1);
[self freeMemory: CTX.lengths];
/*
* litLenTree and distTree are at the same location in
* _context.huffman and _context.huffmanTree, thus no need to
* set them.
*/
_state = HUFFMAN_BLOCK;
_context.huffman.state = AWAIT_CODE;
_context.huffman.treeIter = CTX.litLenTree;
goto start;
#undef CTX
case HUFFMAN_BLOCK:
#define CTX _context.huffman
for (;;) {
uint_fast8_t extraBits, lengthCodeIndex;
if OF_UNLIKELY (CTX.state == WRITE_VALUE) {
if OF_UNLIKELY (length == 0)
return bytesWritten;
buffer[bytesWritten++] = CTX.value;
length--;
if (_slidingWindow == NULL) {
_slidingWindow = [self
allocMemoryWithSize:
_slidingWindowMask + 1];
/* Avoid leaking data */
memset(_slidingWindow, 0,
_slidingWindowMask + 1);
}
_slidingWindow[_slidingWindowIndex] = CTX.value;
_slidingWindowIndex =
(_slidingWindowIndex + 1) &
_slidingWindowMask;
CTX.state = AWAIT_CODE;
CTX.treeIter = CTX.litLenTree;
}
if OF_UNLIKELY (CTX.state == AWAIT_LENGTH_EXTRA_BITS) {
if OF_UNLIKELY (!tryReadBits(self, &bits,
CTX.extraBits))
return bytesWritten;
CTX.length += bits;
CTX.state = AWAIT_DISTANCE;
CTX.treeIter = CTX.distTree;
}
/* Distance of length distance pair */
if (CTX.state == AWAIT_DISTANCE) {
if OF_UNLIKELY (!walkTree(self, &CTX.treeIter,
&value))
return bytesWritten;
if OF_UNLIKELY (value >= numDistanceCodes)
@throw [OFInvalidFormatException
exception];
CTX.distance = distanceCodes[value];
extraBits = distanceExtraBits[value];
if (extraBits > 0) {
if OF_UNLIKELY (!tryReadBits(self,
&bits, extraBits)) {
CTX.state =
AWAIT_DISTANCE_EXTRA_BITS;
CTX.extraBits = extraBits;
return bytesWritten;
}
CTX.distance += bits;
}
CTX.state = PROCESS_PAIR;
} else if (CTX.state == AWAIT_DISTANCE_EXTRA_BITS) {
if OF_UNLIKELY (!tryReadBits(self, &bits,
CTX.extraBits))
return bytesWritten;
CTX.distance += bits;
CTX.state = PROCESS_PAIR;
}
/* Length distance pair */
if (CTX.state == PROCESS_PAIR) {
uint_fast16_t j;
if OF_UNLIKELY (_slidingWindow == NULL)
@throw [OFInvalidFormatException
exception];
for (j = 0; j < CTX.length; j++) {
uint_fast16_t index;
if OF_UNLIKELY (length == 0) {
CTX.length -= j;
return bytesWritten;
}
index = (_slidingWindowIndex -
CTX.distance) & _slidingWindowMask;
value = _slidingWindow[index];
buffer[bytesWritten++] = value;
length--;
_slidingWindow[_slidingWindowIndex] =
value;
_slidingWindowIndex =
(_slidingWindowIndex + 1) &
_slidingWindowMask;
}
CTX.state = AWAIT_CODE;
CTX.treeIter = CTX.litLenTree;
}
if OF_UNLIKELY (!walkTree(self, &CTX.treeIter, &value))
return bytesWritten;
/* End of block */
if OF_UNLIKELY (value == 256) {
if (CTX.litLenTree != fixedLitLenTree)
releaseTree(CTX.litLenTree);
if (CTX.distTree != fixedDistTree)
releaseTree(CTX.distTree);
_state = BLOCK_HEADER;
goto start;
}
/* Literal byte */
if (value < 256) {
if OF_UNLIKELY (length == 0) {
CTX.state = WRITE_VALUE;
CTX.value = value;
return bytesWritten;
}
buffer[bytesWritten++] = value;
length--;
if (_slidingWindow == NULL) {
_slidingWindow = [self
allocMemoryWithSize:
_slidingWindowMask + 1];
/* Avoid leaking data */
memset(_slidingWindow, 0,
_slidingWindowMask + 1);
}
_slidingWindow[_slidingWindowIndex] = value;
_slidingWindowIndex =
(_slidingWindowIndex + 1) &
_slidingWindowMask;
CTX.treeIter = CTX.litLenTree;
continue;
}
if OF_UNLIKELY (value > 285)
@throw [OFInvalidFormatException exception];
/* Length of length distance pair */
lengthCodeIndex = value - 257;
CTX.length = lengthCodes[lengthCodeIndex] + 3;
extraBits = lengthExtraBits[lengthCodeIndex];
if (extraBits > 0) {
if OF_UNLIKELY (!tryReadBits(self, &bits,
extraBits)) {
CTX.extraBits = extraBits;
CTX.state = AWAIT_LENGTH_EXTRA_BITS;
return bytesWritten;
}
CTX.length += bits;
}
CTX.treeIter = CTX.distTree;
CTX.state = AWAIT_DISTANCE;
}
break;
#undef CTX
}
OF_UNREACHABLE
}
#ifndef DEFLATE64
- (bool)lowlevelIsAtEndOfStream
{
return _atEndOfStream;
}
- (int)fileDescriptorForReading
{
return [_stream fileDescriptorForReading];
}
- (bool)hasDataInReadBuffer
{
return ([super hasDataInReadBuffer] || [_stream hasDataInReadBuffer]);
}
#endif
@end