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|
/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
//
// This file is heavily based on the arj code available under the GPL
// from http://arj.sourceforge.net/ , version 3.10.22 .
#include "common/scummsys.h"
#include "common/archive.h"
#include "common/debug.h"
#include "common/util.h"
#include "common/unarj.h"
#include "common/file.h"
#include "common/hash-str.h"
namespace Common {
#define ARJ_UCHAR_MAX 255
#define ARJ_CHAR_BIT 8
#define ARJ_COMMENT_MAX 2048
#define ARJ_FILENAME_MAX 512
#define ARJ_CODE_BIT 16
#define ARJ_THRESHOLD 3
#define ARJ_DICSIZ 26624
#define ARJ_FDICSIZ ARJ_DICSIZ
#define ARJ_MAXDICBIT 16
#define ARJ_MAXMATCH 256
#define ARJ_NC (ARJ_UCHAR_MAX + ARJ_MAXMATCH + 2 - ARJ_THRESHOLD)
#define ARJ_NP (ARJ_MAXDICBIT + 1)
#define ARJ_NT (ARJ_CODE_BIT + 3)
#if ARJ_NT > ARJ_NP
#define ARJ_NPT ARJ_NT
#else
#define ARJ_NPT ARJ_NP
#endif
#define ARJ_CTABLESIZE 4096
#define ARJ_PTABLESIZE 256
// these struct represents a file inside an Arj archive
struct ArjHeader {
int32 pos;
uint16 id;
uint16 headerSize;
//
byte firstHdrSize;
byte nbr;
byte xNbr;
byte hostOs;
byte flags;
byte method;
byte fileType;
byte pad;
uint32 timeStamp;
int32 compSize;
int32 origSize;
uint32 fileCRC;
uint16 entryPos;
uint16 fileMode;
uint16 hostData;
char filename[ARJ_FILENAME_MAX];
char comment[ARJ_COMMENT_MAX];
uint32 headerCrc;
};
static int32 findHeader(SeekableReadStream &stream);
static ArjHeader *readHeader(SeekableReadStream &stream);
class ArjDecoder {
public:
ArjDecoder(const ArjHeader *hdr) {
_compsize = hdr->compSize;
}
~ArjDecoder() {
delete _compressed;
delete _outstream;
}
void decode(int32 origsize);
void decode_f(int32 origsize);
BufferedReadStream *_compressed;
MemoryWriteStream *_outstream;
//protected:
uint16 _bitbuf;
uint16 _bytebuf;
int32 _compsize;
byte _subbitbuf;
int _bitcount;
void init_getbits();
void fillbuf(int n);
uint16 getbits(int n);
void make_table(int nchar, byte *bitlen, int tablebits, uint16 *table, int tablesize);
void read_pt_len(int nn, int nbit, int i_special);
void read_c_len(void);
uint16 decode_c(void);
uint16 decode_p(void);
void decode_start(void);
int16 decode_ptr(void);
int16 decode_len(void);
private:
byte _ntext[ARJ_FDICSIZ];
int16 _getlen;
int16 _getbuf;
uint16 _left[2 * ARJ_NC - 1];
uint16 _right[2 * ARJ_NC - 1];
byte _c_len[ARJ_NC];
byte _pt_len[ARJ_NPT];
uint16 _c_table[ARJ_CTABLESIZE];
uint16 _pt_table[ARJ_PTABLESIZE];
uint16 _blocksize;
};
#define HEADER_ID 0xEA60
#define HEADER_ID_HI 0xEA
#define HEADER_ID_LO 0x60
#define FIRST_HDR_SIZE 30
#define HEADERSIZE_MAX (FIRST_HDR_SIZE + 10 + ARJ_FILENAME_MAX + ARJ_COMMENT_MAX)
#define CRC_MASK 0xFFFFFFFFL
#define HSLIMIT_ARJ 524288L
#define CBIT 9
#define PBIT 5
#define TBIT 5
//
// Source for CRC32::init, CRC32::checksum : crc32.c
//
class CRC32 {
static uint32 _table[256];
static bool _initialized;
private:
static void init() {
const uint32 poly = 0xEDB88320;
int i, j;
uint32 r;
for (i = 0; i < 256; i++) {
r = i;
for (j = 0; j < 8; j++)
if (r & 1)
r = (r >> 1) ^ poly;
else
r >>= 1;
_table[i] = r;
}
_initialized = true;
}
public:
static uint32 checksum(byte *data, int len) {
if (!_initialized) {
init();
}
uint32 CRC = 0xFFFFFFFF;
int i;
for (i = 0; i < len; i++)
CRC = (CRC >> 8) ^ _table[(CRC ^ data[i]) & 0xFF];
return CRC ^ 0xFFFFFFFF;
}
};
bool CRC32::_initialized = false;
uint32 CRC32::_table[256];
//
// Source for findHeader and readHeader: arj_arcv.c
//
int32 findHeader(SeekableReadStream &stream) {
long end_pos, tmp_pos;
int id;
byte header[HEADERSIZE_MAX];
uint32 crc;
uint16 basic_hdr_size;
tmp_pos = stream.pos();
stream.seek(0L, SEEK_END);
end_pos = stream.pos() - 2;
if (end_pos >= tmp_pos + HSLIMIT_ARJ)
end_pos = tmp_pos + HSLIMIT_ARJ;
while (tmp_pos < end_pos) {
stream.seek(tmp_pos, SEEK_SET);
id = stream.readByte();
while (tmp_pos < end_pos) {
if (id == HEADER_ID_LO) {
if ((id = stream.readByte()) == HEADER_ID_HI)
break;
} else
id = stream.readByte();
tmp_pos++;
}
if (tmp_pos >= end_pos)
return -1;
if ((basic_hdr_size = stream.readUint16LE()) <= HEADERSIZE_MAX) {
stream.read(header, basic_hdr_size);
crc = CRC32::checksum(header, basic_hdr_size);
if (crc == stream.readUint32LE()) {
stream.seek(tmp_pos, SEEK_SET);
return tmp_pos;
}
}
tmp_pos++;
}
return -1;
}
ArjHeader *readHeader(SeekableReadStream &stream) {
ArjHeader header;
ArjHeader *head;
byte headData[HEADERSIZE_MAX];
// Strictly check the header ID
header.id = stream.readUint16LE();
if (header.id != HEADER_ID) {
warning("ArjFile::readHeader(): Bad header ID (%x)", header.id);
return NULL;
}
header.headerSize = stream.readUint16LE();
if (header.headerSize == 0)
return NULL; // end of archive
if (header.headerSize > HEADERSIZE_MAX) {
warning("ArjFile::readHeader(): Bad header");
return NULL;
}
int rSize = stream.read(headData, header.headerSize);
MemoryReadStream readS(headData, rSize);
header.headerCrc = stream.readUint32LE();
if (CRC32::checksum(headData, header.headerSize) != header.headerCrc) {
warning("ArjFile::readHeader(): Bad header CRC");
return NULL;
}
header.firstHdrSize = readS.readByte();
header.nbr = readS.readByte();
header.xNbr = readS.readByte();
header.hostOs = readS.readByte();
header.flags = readS.readByte();
header.method = readS.readByte();
header.fileType = readS.readByte();
(void)readS.readByte(); // password_modifier
header.timeStamp = readS.readUint32LE();
header.compSize = readS.readSint32LE();
header.origSize = readS.readSint32LE();
header.fileCRC = readS.readUint32LE();
header.entryPos = readS.readUint16LE();
header.fileMode = readS.readUint16LE();
header.hostData = readS.readUint16LE();
// static int check_file_size()
if (header.origSize < 0 || header.compSize < 0) {
warning("ArjFile::readHeader(): Wrong file size");
return NULL;
}
strncpy(header.filename, (const char *)&headData[header.firstHdrSize], ARJ_FILENAME_MAX);
strncpy(header.comment, (const char *)&headData[header.firstHdrSize + strlen(header.filename) + 1], ARJ_COMMENT_MAX);
// Process extended headers, if any
uint16 extHeaderSize;
while ((extHeaderSize = stream.readUint16LE()) != 0)
stream.seek((long)(extHeaderSize + 4), SEEK_CUR);
header.pos = stream.pos();
head = new ArjHeader(header);
return head;
}
//
// Source for init_getbits: arj_file.c (decode_start_stub)
//
void ArjDecoder::init_getbits() {
_bitbuf = 0;
_bytebuf = 0;
_bitcount = 0;
fillbuf(ARJ_CHAR_BIT * 2);
}
//
// Source for fillbuf, getbits: decode.c
//
void ArjDecoder::fillbuf(int n) {
while (_bitcount < n) {
_bitbuf = (_bitbuf << _bitcount) | (_bytebuf >> (8 - _bitcount));
n -= _bitcount;
if (_compsize > 0) {
_compsize--;
_bytebuf = _compressed->readByte();
} else {
_bytebuf = 0;
}
_bitcount = 8;
}
_bitcount -= n;
_bitbuf = ( _bitbuf << n) | (_bytebuf >> (8-n));
_bytebuf <<= n;
}
// Reads a series of bits into the input buffer */
uint16 ArjDecoder::getbits(int n) {
uint16 rc;
rc = _bitbuf >> (ARJ_CODE_BIT - n);
fillbuf(n);
return rc;
}
//
// Huffman decode routines
// Source: decode.c
//
// Creates a table for decoding
void ArjDecoder::make_table(int nchar, byte *bitlen, int tablebits, uint16 *table, int tablesize) {
uint16 count[17], weight[17], start[18];
uint16 *p;
uint i, k, len, ch, jutbits, avail, nextcode, mask;
for (i = 1; i <= 16; i++)
count[i] = 0;
for (i = 0; (int)i < nchar; i++)
count[bitlen[i]]++;
start[1] = 0;
for (i = 1; i <= 16; i++)
start[i + 1] = start[i] + (count[i] << (16 - i));
if (start[17] != (uint16) (1 << 16))
error("ArjDecoder::make_table(): bad file data");
jutbits = 16 - tablebits;
for (i = 1; (int)i <= tablebits; i++) {
start[i] >>= jutbits;
weight[i] = 1 << (tablebits - i);
}
while (i <= 16) {
weight[i] = 1 << (16 - i);
i++;
}
i = start[tablebits + 1] >> jutbits;
if (i != (uint16) (1 << 16)) {
k = 1 << tablebits;
while (i != k)
table[i++] = 0;
}
avail = nchar;
mask = 1 << (15 - tablebits);
for (ch = 0; (int)ch < nchar; ch++) {
if ((len = bitlen[ch]) == 0)
continue;
k = start[len];
nextcode = k + weight[len];
if ((int)len <= tablebits) {
if (nextcode > (uint)tablesize)
error("ArjDecoder::make_table(): bad file data");
for (i = start[len]; i < nextcode; i++)
table[i] = ch;
} else {
p = &table[k >> jutbits];
i = len - tablebits;
while (i != 0) {
if (*p == 0) {
_right[avail] = _left[avail] = 0;
*p = avail;
avail++;
}
if (k & mask)
p = &_right[*p];
else
p = &_left[*p];
k <<= 1;
i--;
}
*p = ch;
}
start[len] = nextcode;
}
}
// Reads length of data pending
void ArjDecoder::read_pt_len(int nn, int nbit, int i_special) {
int i, n;
int16 c;
uint16 mask;
n = getbits(nbit);
if (n == 0) {
c = getbits(nbit);
for (i = 0; i < nn; i++)
_pt_len[i] = 0;
for (i = 0; i < 256; i++)
_pt_table[i] = c;
} else {
i = 0;
while (i < n) {
c = _bitbuf >> 13;
if (c == 7) {
mask = 1 << 12;
while (mask & _bitbuf) {
mask >>= 1;
c++;
}
}
fillbuf((c < 7) ? 3 : (int)(c - 3));
_pt_len[i++] = (byte)c;
if (i == i_special) {
c = getbits(2);
while (--c >= 0)
_pt_len[i++] = 0;
}
}
while (i < nn)
_pt_len[i++] = 0;
make_table(nn, _pt_len, 8, _pt_table, ARJ_PTABLESIZE);
}
}
// Reads a character table
void ArjDecoder::read_c_len() {
int16 i, c, n;
uint16 mask;
n = getbits(CBIT);
if (n == 0) {
c = getbits(CBIT);
for (i = 0; i < ARJ_NC; i++)
_c_len[i] = 0;
for (i = 0; i < ARJ_CTABLESIZE; i++)
_c_table[i] = c;
} else {
i = 0;
while (i < n) {
c = _pt_table[_bitbuf >> (8)];
if (c >= ARJ_NT) {
mask = 1 << 7;
do {
if (_bitbuf & mask)
c = _right[c];
else
c = _left[c];
mask >>= 1;
} while (c >= ARJ_NT);
}
fillbuf((int)(_pt_len[c]));
if (c <= 2) {
if (c == 0)
c = 1;
else if (c == 1) {
c = getbits(4);
c += 3;
} else {
c = getbits(CBIT);
c += 20;
}
while (--c >= 0)
_c_len[i++] = 0;
}
else
_c_len[i++] = (byte)(c - 2);
}
while (i < ARJ_NC)
_c_len[i++] = 0;
make_table(ARJ_NC, _c_len, 12, _c_table, ARJ_CTABLESIZE);
}
}
// Decodes a single character
uint16 ArjDecoder::decode_c() {
uint16 j, mask;
if (_blocksize == 0) {
_blocksize = getbits(ARJ_CODE_BIT);
read_pt_len(ARJ_NT, TBIT, 3);
read_c_len();
read_pt_len(ARJ_NP, PBIT, -1);
}
_blocksize--;
j = _c_table[_bitbuf >> 4];
if (j >= ARJ_NC) {
mask = 1 << 3;
do {
if (_bitbuf & mask)
j = _right[j];
else
j = _left[j];
mask >>= 1;
} while (j >= ARJ_NC);
}
fillbuf((int)(_c_len[j]));
return j;
}
// Decodes a control character
uint16 ArjDecoder::decode_p() {
uint16 j, mask;
j = _pt_table[_bitbuf >> 8];
if (j >= ARJ_NP) {
mask = 1 << 7;
do {
if (_bitbuf & mask)
j = _right[j];
else
j = _left[j];
mask >>= 1;
} while (j >= ARJ_NP);
}
fillbuf((int)(_pt_len[j]));
if (j != 0) {
j--;
j = (1 << j) + getbits((int)j);
}
return j;
}
// Initializes memory for decoding
void ArjDecoder::decode_start() {
_blocksize = 0;
init_getbits();
}
// Decodes the entire file
void ArjDecoder::decode(int32 origsize) {
int16 i;
int16 r;
int16 c;
int16 j;
int32 count;
decode_start();
count = origsize;
r = 0;
while (count > 0) {
if ((c = decode_c()) <= ARJ_UCHAR_MAX) {
_ntext[r] = (byte) c;
count--;
if (++r >= ARJ_DICSIZ) {
r = 0;
_outstream->write(_ntext, ARJ_DICSIZ);
}
} else {
j = c - (ARJ_UCHAR_MAX + 1 - ARJ_THRESHOLD);
count -= j;
i = r - decode_p() - 1;
if (i < 0)
i += ARJ_DICSIZ;
if (r > i && r < ARJ_DICSIZ - ARJ_MAXMATCH - 1) {
while (--j >= 0)
_ntext[r++] = _ntext[i++];
} else {
while (--j >= 0) {
_ntext[r] = _ntext[i];
if (++r >= ARJ_DICSIZ) {
r = 0;
_outstream->write(_ntext, ARJ_DICSIZ);
}
if (++i >= ARJ_DICSIZ)
i = 0;
}
}
}
}
if (r > 0)
_outstream->write(_ntext, r);
}
// Backward pointer decoding
int16 ArjDecoder::decode_ptr() {
int16 c = 0;
int16 width;
int16 plus;
int16 pwr;
plus = 0;
pwr = 1 << 9;
for (width = 9; width < 13; width++) {
c = getbits(1);
if (c == 0)
break;
plus += pwr;
pwr <<= 1;
}
if (width != 0)
c = getbits(width);
c += plus;
return c;
}
// Reference length decoding
int16 ArjDecoder::decode_len() {
int16 c = 0;
int16 width;
int16 plus;
int16 pwr;
plus = 0;
pwr = 1;
for (width = 0; width < 7; width++) {
c = getbits(1);
if (c == 0)
break;
plus += pwr;
pwr <<= 1;
}
if (width != 0)
c = getbits(width);
c += plus;
return c;
}
// Decodes the entire file, using method 4
void ArjDecoder::decode_f(int32 origsize) {
int16 i;
int16 j;
int16 c;
int16 r;
uint32 ncount;
init_getbits();
ncount = 0;
_getlen = _getbuf = 0;
r = 0;
while (ncount < (uint32)origsize) {
c = decode_len();
if (c == 0) {
ncount++;
_ntext[r] = (byte)getbits(8);
if (++r >= ARJ_FDICSIZ) {
r = 0;
_outstream->write(_ntext, ARJ_FDICSIZ);
}
} else {
j = c - 1 + ARJ_THRESHOLD;
ncount += j;
if ((i = r - decode_ptr() - 1) < 0)
i += ARJ_FDICSIZ;
while (j-- > 0) {
_ntext[r] = _ntext[i];
if (++r >= ARJ_FDICSIZ) {
r = 0;
_outstream->write(_ntext, ARJ_FDICSIZ);
}
if (++i >= ARJ_FDICSIZ)
i = 0;
}
}
}
if (r != 0)
_outstream->write(_ntext, r);
}
#pragma mark ArjArchive implementation
typedef HashMap<String, ArjHeader*, IgnoreCase_Hash, IgnoreCase_EqualTo> ArjHeadersMap;
class ArjArchive : public Common::Archive {
ArjHeadersMap _headers;
Common::String _arjFilename;
public:
ArjArchive(const String &name);
virtual ~ArjArchive();
// Common::Archive implementation
virtual bool hasFile(const String &name);
virtual int listMembers(ArchiveMemberList &list);
virtual ArchiveMemberPtr getMember(const String &name);
virtual SeekableReadStream *createReadStreamForMember(const String &name) const;
};
ArjArchive::ArjArchive(const String &filename) : _arjFilename(filename) {
Common::File arjFile;
if (!arjFile.open(_arjFilename)) {
warning("ArjArchive::ArjArchive(): Could not find the archive file");
return;
}
int32 firstHeaderOffset = findHeader(arjFile);
if (firstHeaderOffset < 0) {
warning("ArjArchive::ArjArchive(): Could not find a valid header");
return;
}
arjFile.seek(firstHeaderOffset, SEEK_SET);
if (readHeader(arjFile) == NULL)
return;
ArjHeader *header;
while ((header = readHeader(arjFile)) != NULL) {
_headers[header->filename] = header;
arjFile.seek(header->compSize, SEEK_CUR);
}
debug(0, "ArjArchive::ArjArchive(%s): Located %d files", filename.c_str(), _headers.size());
}
ArjArchive::~ArjArchive() {
ArjHeadersMap::iterator it = _headers.begin();
for ( ; it != _headers.end(); ++it) {
delete it->_value;
}
}
bool ArjArchive::hasFile(const String &name) {
return _headers.contains(name);
}
int ArjArchive::listMembers(ArchiveMemberList &list) {
int matches = 0;
ArjHeadersMap::iterator it = _headers.begin();
for ( ; it != _headers.end(); ++it) {
list.push_back(ArchiveMemberList::value_type(new GenericArchiveMember(it->_value->filename, this)));
matches++;
}
return matches;
}
ArchiveMemberPtr ArjArchive::getMember(const String &name) {
if (!hasFile(name))
return ArchiveMemberPtr();
return ArchiveMemberPtr(new GenericArchiveMember(name, this));
}
SeekableReadStream *ArjArchive::createReadStreamForMember(const String &name) const {
if (!_headers.contains(name)) {
return 0;
}
ArjHeader *hdr = _headers[name];
Common::File archiveFile;
archiveFile.open(_arjFilename);
archiveFile.seek(hdr->pos, SEEK_SET);
// TODO: It would be good if ArjFile could decompress files in a streaming
// mode, so it would not need to pre-allocate the entire output.
byte *uncompressedData = (byte *)malloc(hdr->origSize);
assert(uncompressedData);
if (hdr->method == 0) { // store
int32 len = archiveFile.read(uncompressedData, hdr->origSize);
assert(len == hdr->origSize);
} else {
ArjDecoder *decoder = new ArjDecoder(hdr);
// TODO: It might not be appropriate to use this wrapper inside ArjFile.
// If reading from archiveFile directly is too slow to be usable,
// maybe the filesystem code should instead wrap its files
// in a BufferedReadStream.
decoder->_compressed = new Common::BufferedReadStream(&archiveFile, 4096, DisposeAfterUse::NO);
decoder->_outstream = new Common::MemoryWriteStream(uncompressedData, hdr->origSize);
if (hdr->method == 1 || hdr->method == 2 || hdr->method == 3)
decoder->decode(hdr->origSize);
else if (hdr->method == 4)
decoder->decode_f(hdr->origSize);
delete decoder;
}
return new Common::MemoryReadStream(uncompressedData, hdr->origSize, DisposeAfterUse::YES);
}
Archive *makeArjArchive(const String &name) {
return new ArjArchive(name);
}
} // End of namespace Common
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