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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.
*
* $URL$
* $Id$
*
*/
#include "common/endian.h"
#include "sci/exereader.h"
#include "sci/include/versions.h"
//namespace Sci {
#define VERSION_DETECT_BUF_SIZE 4096
// LZEXE related defines
// The LZEXE code is based on public domain code by Mitugu Kurizono
/* The amount of most recent data (in bytes) that we need to keep in the
** buffer. lzexe compression is based on copying chunks of previous data to
** form new data.
*/
#define LZEXE_WINDOW VERSION_DETECT_BUF_SIZE * 2
/* Buffer size. */
#define LZEXE_BUFFER_SIZE VERSION_DETECT_BUF_SIZE * 3
/* Maximum amount of data (in bytes) that can be in the buffer at the start
** of the decompression loop. The maximum amount of data that can be added
** to the buffer during a single step of the loop is 256 bytes.
*/
#define LZEXE_BUFFER_MAX (LZEXE_BUFFER_SIZE - 256)
int curBits;
byte lzexeBuf[2];
bool isGameExe(Common::SeekableReadStream *exeStream) {
byte magic[4];
if (exeStream->size() < VERSION_DETECT_BUF_SIZE)
return false;
// Read exe header
exeStream->read(magic, 4);
// Check if the header contains known magic bytes
// Information obtained from http://magicdb.org/magic.db
// Check if it's a DOS executable
if (magic[0] == 'M' && magic[1] == 'Z') {
return true;
}
// Check if it's an Amiga executable
if ((magic[0] == 0x03 && magic[1] == 0xF3) ||
(magic[0] == 0x7F && magic[1] == 'E' && magic[2] == 'L' && magic[3] == 'F')) {
return true;
}
// Check if it's an Atari executable
if ((magic[0] == 0x60 && magic[1] == 0x1A))
return true;
// Check if it's a Mac exe
// Is there a better way to do this?
int32 offset = MKID_BE(magic) + 28; // Resource map offset
if (exeStream->size() <= offset)
return false;
// Skip number of types in map
exeStream->skip(2);
uint16 val = exeStream->readUint16BE() + 1;
// Keep reading till we find the "CODE" bit
while (!exeStream->eos()) {
exeStream->skip(4);
if (exeStream->eos())
return false;
exeStream->read(magic, 4);
if (exeStream->eos())
return false;
if (!memcmp(magic, "CODE", 4)) {
return true;
}
// Skip to the next list entry
exeStream->skip(4);
if (exeStream->eos())
return false;
}
// If we've reached here, the file type is unknown
return false;
}
bool isLZEXECompressed(Common::SeekableReadStream *exeStream) {
uint32 filepos = 0;
exeStream->seek(0, SEEK_SET);
// First 2 bytes should be "MZ" (0x5A4D)
if (exeStream->readUint16LE() != 0x5A4D) // at pos 0, +2
return false;
exeStream->skip(6);
// Header size should be 2
filepos = exeStream->readUint16LE();
if (filepos != 2) // at pos 8, +2
return false;
exeStream->skip(12);
// Calculate code segment offset in exe file
filepos += exeStream->readUint16LE(); // at pos 22, +2
// First relocation item offset should be 0x1c
if (exeStream->readUint16LE() != 0x1c) // at pos 24, +2
return false;
// Number of overlays should be 0
if (exeStream->readUint16LE() != 0) // at pos 26, +2
return false;
// Look for LZEXE signature
byte magic[4];
exeStream->read(magic, 4);
if (memcmp(magic, "LZ09", 4) && memcmp(magic, "LZ91", 4))
return false;
// Seek to offset 8 of info table at start of code segment
exeStream->seek(filepos + 8, SEEK_SET);
if (exeStream->err())
return false;
// Read size of compressed data in paragraphs
uint16 size = exeStream->readUint16LE();
// Move file pointer to start of compressed data
filepos -= size << 4;
exeStream->seek(filepos, SEEK_SET);
if (exeStream->err())
return false;
// All conditions met, this is an LZEXE packed file
// We are currently at the start of the compressed file data
return true;
}
byte getBitFromlzexe(Common::SeekableReadStream *exeStream) {
byte result = lzexeBuf[1] & 1;
if (--curBits == 0) {
lzexeBuf[0] = exeStream->readByte();
lzexeBuf[1] = exeStream->readByte();
curBits = 16;
} else {
// Shift buffer to the right by 1 bit
uint16 curBuffer = (lzexeBuf[0] << 8) | lzexeBuf[1];
curBuffer >>= 1;
lzexeBuf[0] = (curBuffer >> 8) & 0xFF;
lzexeBuf[1] = curBuffer & 0xFF;
}
return result;
}
void readLzexe(Common::SeekableReadStream *exeStream, byte *buffer) {
// TODO: finish this (from lzexe_read)
printf("TODO: LZEXE support\n");
return;
#if 0
int done = 0;
while (done != VERSION_DETECT_BUF_SIZE) {
int size, copy, i;
int left = count - done;
if (!lzexe_decompress(exeStream))
return done;
/* Total amount of bytes in buffer. */
//size = handle->bufptr - handle->buffer;
// If we're not at end of data we need to maintain the window
if (!exeStream->eos())
copy = size - LZEXE_WINDOW;
else {
if (size == 0)
/* No data left. */
return done;
copy = size;
}
/* Do not copy more than requested. */
if (copy > left)
copy = left;
memcpy((char *) buffer + done, handle->buffer, copy);
/* Move remaining data to start of buffer. */
for (i = copy; i < size; i++)
handle->buffer[i - copy] = handle->buffer[i];
handle->bufptr -= copy;
done += copy;
}
return done;
#endif
}
void readExe(Common::SeekableReadStream *exeStream, byte *buffer) {
bool isLZEXE = isLZEXECompressed(exeStream);
if (!isLZEXE) {
exeStream->seek(0, SEEK_SET);
exeStream->read(buffer, VERSION_DETECT_BUF_SIZE);
} else {
// Read the two initial bytes
lzexeBuf[0] = exeStream->readByte();
lzexeBuf[1] = exeStream->readByte();
curBits = 16;
readLzexe(exeStream, buffer);
}
}
bool readSciVersionFromExe(Common::SeekableReadStream *exeStream, int *version) {
byte buffer[VERSION_DETECT_BUF_SIZE];
char result_string[10]; /* string-encoded result, copied from buf */
int state = 0;
/* 'state' encodes how far we have matched the version pattern
** "n.nnn.nnn"
**
** n.nnn.nnn
** 0123456789
**
** Since we cannot be certain that the pattern does not begin with an
** alphanumeric character, some states are ambiguous.
** The pattern is expected to be terminated with a non-alphanumeric
** character.
*/
readExe(exeStream, buffer);
int accept;
for (int i = 0; i < VERSION_DETECT_BUF_SIZE; i++) {
const char ch = buffer[i];
accept = 0; /* By default, we don't like this character */
if (isalnum((unsigned char) ch)) {
accept = (state != 1
&& state != 5
&& state != 9);
} else if (ch == '.') {
accept = (state == 1
|| state == 5);
} else if (state == 9) {
result_string[9] = 0; /* terminate string */
if (!version_parse(result_string, version)) {
return true; // success
}
// Continue searching
}
if (accept)
result_string[state++] = ch;
else
state = 0;
}
return false; // failure
}
#if 0
//TODO
// Code from exe_lzexe.cpp (left for reference, to be converted)
static int
lzexe_decompress(exe_handle_t *handle) {
while (!handle->eod
&& handle->bufptr - handle->buffer <= LZEXE_BUFFER_MAX) {
int bit;
int len, span;
if (!lzexe_get_bit(handle, &bit))
return 0;
if (bit) {
/* 1: copy byte verbatim. */
int data;
if (!lzexe_read_uint8(handle->f, &data))
return 0;
*handle->bufptr++ = data;
continue;
}
if (!lzexe_get_bit(handle, &bit))
return 0;
if (!bit) {
/* 00: copy small block. */
/* Next two bits indicate block length - 2. */
if (!lzexe_get_bit(handle, &bit))
return 0;
len = bit << 1;
if (!lzexe_get_bit(handle, &bit))
return 0;
len |= bit;
len += 2;
/* Read span byte. This forms the low byte of a
** negative two's compliment value.
*/
if (!lzexe_read_uint8(handle->f, &span))
return 0;
/* Convert to negative integer. */
span -= 256;
} else {
/* 01: copy large block. */
int data;
/* Read low byte of span value. */
if (!lzexe_read_uint8(handle->f, &span))
return 0;
/* Read next byte. Bits [7..3] contain bits [12..8]
** of span value. Bits [2..0] contain block length -
** 2.
*/
if (!lzexe_read_uint8(handle->f, &data))
return 0;
span |= (data & 0xf8) << 5;
/* Convert to negative integer. */
span -= 8192;
len = (data & 7) + 2;
if (len == 2) {
/* Next byte is block length value - 1. */
if (!lzexe_read_uint8(handle->f, &len))
return 0;
if (len == 0) {
/* End of data reached. */
handle->eod = 1;
break;
}
if (len == 1)
/* Segment change marker. */
continue;
len++;
}
}
assert(handle->bufptr + span >= handle->buffer);
/* Copy block. */
while (len-- > 0) {
*handle->bufptr = *(handle->bufptr + span);
handle->bufptr++;
}
}
return 1;
}
static int
lzexe_read(exe_handle_t *handle, void *buf, int count) {
int done = 0;
while (done != count) {
int size, copy, i;
int left = count - done;
if (!lzexe_decompress(handle))
return done;
/* Total amount of bytes in buffer. */
size = handle->bufptr - handle->buffer;
/* If we're not at end of data we need to maintain the
** window.
*/
if (!handle->eod)
copy = size - LZEXE_WINDOW;
else {
if (size == 0)
/* No data left. */
return done;
copy = size;
}
/* Do not copy more than requested. */
if (copy > left)
copy = left;
memcpy((char *) buf + done, handle->buffer, copy);
/* Move remaining data to start of buffer. */
for (i = copy; i < size; i++)
handle->buffer[i - copy] = handle->buffer[i];
handle->bufptr -= copy;
done += copy;
}
return done;
}
#endif
//} // End of namespace Sci
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