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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/scummsys.h"
#include "common/debug.h"
#include "common/util.h"
#include "common/file.h"
#include "common/fs.h"
#include "common/macresman.h"
#include "common/md5.h"
#ifdef MACOSX
#include "common/config-manager.h"
#include "backends/fs/stdiostream.h"
#endif
namespace Common {
#define MBI_INFOHDR 128
#define MBI_ZERO1 0
#define MBI_NAMELEN 1
#define MBI_ZERO2 74
#define MBI_ZERO3 82
#define MBI_DFLEN 83
#define MBI_RFLEN 87
#define MAXNAMELEN 63
MacResManager::MacResManager() {
memset(this, 0, sizeof(MacResManager));
close();
}
MacResManager::~MacResManager() {
close();
}
void MacResManager::close() {
_resForkOffset = -1;
_mode = kResForkNone;
for (int i = 0; i < _resMap.numTypes; i++) {
for (int j = 0; j < _resTypes[i].items; j++)
if (_resLists[i][j].nameOffset != -1)
delete[] _resLists[i][j].name;
delete[] _resLists[i];
}
delete[] _resLists; _resLists = 0;
delete[] _resTypes; _resTypes = 0;
delete _stream; _stream = 0;
}
bool MacResManager::hasDataFork() {
return !_baseFileName.empty();
}
bool MacResManager::hasResFork() {
return !_baseFileName.empty() && _mode != kResForkNone;
}
uint32 MacResManager::getResForkSize() {
if (!hasResFork())
return 0;
return _resForkSize;
}
bool MacResManager::getResForkMD5(char *md5str, uint32 length) {
if (!hasResFork())
return false;
ReadStream *stream = new SeekableSubReadStream(_stream, _resForkOffset, _resForkOffset + _resForkSize);
bool retVal = md5_file_string(*stream, md5str, MIN<uint32>(length, _resForkSize));
delete stream;
return retVal;
}
bool MacResManager::open(Common::String filename) {
close();
#ifdef MACOSX
// Check the actual fork on a Mac computer
Common::String fullPath = ConfMan.get("path") + "/" + filename + "/..namedfork/rsrc";
Common::SeekableReadStream *macResForkRawStream = StdioStream::makeFromPath(fullPath, false);
if (macResForkRawStream && loadFromRawFork(*macResForkRawStream)) {
_baseFileName = filename;
return true;
}
#endif
Common::File *file = new Common::File();
// First, let's try to see if the Mac converted name exists
if (file->open("._" + filename) && loadFromAppleDouble(*file)) {
_baseFileName = filename;
return true;
}
// Check .bin too
if (file->open(filename + ".bin") && loadFromMacBinary(*file)) {
_baseFileName = filename;
return true;
}
// Maybe we have a dumped fork?
if (file->open(filename + ".rsrc") && loadFromRawFork(*file)) {
_baseFileName = filename;
return true;
}
// Fine, what about just the data fork?
if (file->open(filename)) {
_baseFileName = filename;
_stream = file;
return true;
}
delete file;
// The file doesn't exist
return false;
}
bool MacResManager::open(Common::FSNode path, Common::String filename) {
close();
#ifdef MACOSX
// Check the actual fork on a Mac computer
Common::String fullPath = path.getPath() + "/" + filename + "/..namedfork/rsrc";
Common::SeekableReadStream *macResForkRawStream = StdioStream::makeFromPath(fullPath, false);
if (macResForkRawStream && loadFromRawFork(*macResForkRawStream)) {
_baseFileName = filename;
return true;
}
#endif
// First, let's try to see if the Mac converted name exists
Common::FSNode fsNode = path.getChild("._" + filename);
if (fsNode.exists() && !fsNode.isDirectory() && loadFromAppleDouble(*fsNode.createReadStream())) {
_baseFileName = filename;
return true;
}
// Check .bin too
fsNode = path.getChild(filename + ".bin");
if (fsNode.exists() && !fsNode.isDirectory() && loadFromMacBinary(*fsNode.createReadStream())) {
_baseFileName = filename;
return true;
}
// Maybe we have a dumped fork?
fsNode = path.getChild(filename + ".rsrc");
if (fsNode.exists() && !fsNode.isDirectory() && loadFromRawFork(*fsNode.createReadStream())) {
_baseFileName = filename;
return true;
}
// Fine, what about just the data fork?
fsNode = path.getChild(filename);
if (fsNode.exists() && !fsNode.isDirectory()) {
_baseFileName = filename;
_stream = fsNode.createReadStream();
return true;
}
// The file doesn't exist
return false;
}
bool MacResManager::loadFromAppleDouble(Common::SeekableReadStream &stream) {
if (stream.readUint32BE() != 0x00051607) // tag
return false;
stream.skip(20); // version + home file system
uint16 entryCount = stream.readUint16BE();
for (uint16 i = 0; i < entryCount; i++) {
uint32 id = stream.readUint32BE();
uint32 offset = stream.readUint32BE();
uint32 length = stream.readUint32BE(); // length
if (id == 1) {
// Found the data fork!
_resForkOffset = offset;
_mode = kResForkAppleDouble;
_resForkSize = length;
return load(stream);
}
}
return false;
}
bool MacResManager::loadFromMacBinary(Common::SeekableReadStream &stream) {
byte infoHeader[MBI_INFOHDR];
stream.read(infoHeader, MBI_INFOHDR);
// Maybe we have MacBinary?
if (infoHeader[MBI_ZERO1] == 0 && infoHeader[MBI_ZERO2] == 0 &&
infoHeader[MBI_ZERO3] == 0 && infoHeader[MBI_NAMELEN] <= MAXNAMELEN) {
// Pull out fork lengths
uint32 dataSize = READ_BE_UINT32(infoHeader + MBI_DFLEN);
uint32 rsrcSize = READ_BE_UINT32(infoHeader + MBI_RFLEN);
uint32 dataSizePad = (((dataSize + 127) >> 7) << 7);
uint32 rsrcSizePad = (((rsrcSize + 127) >> 7) << 7);
// Length check
if (MBI_INFOHDR + dataSizePad + rsrcSizePad == (uint32)stream.size()) {
_resForkOffset = MBI_INFOHDR + dataSizePad;
_resForkSize = rsrcSize;
}
}
if (_resForkOffset < 0)
return false;
_mode = kResForkMacBinary;
return load(stream);
}
bool MacResManager::loadFromRawFork(Common::SeekableReadStream &stream) {
_mode = kResForkRaw;
_resForkOffset = 0;
_resForkSize = stream.size();
return load(stream);
}
bool MacResManager::load(Common::SeekableReadStream &stream) {
if (_mode == kResForkNone)
return false;
stream.seek(_resForkOffset);
_dataOffset = stream.readUint32BE() + _resForkOffset;
_mapOffset = stream.readUint32BE() + _resForkOffset;
_dataLength = stream.readUint32BE();
_mapLength = stream.readUint32BE();
// do sanity check
if (_dataOffset >= (uint32)stream.size() || _mapOffset >= (uint32)stream.size() ||
_dataLength + _mapLength > (uint32)stream.size()) {
_resForkOffset = -1;
_mode = kResForkNone;
return false;
}
debug(7, "got header: data %d [%d] map %d [%d]",
_dataOffset, _dataLength, _mapOffset, _mapLength);
_stream = &stream;
readMap();
return true;
}
Common::SeekableReadStream *MacResManager::getDataFork() {
if (!_stream)
return NULL;
if (_mode == kResForkMacBinary) {
_stream->seek(MBI_DFLEN);
uint32 dataSize = _stream->readUint32BE();
return new SeekableSubReadStream(_stream, MBI_INFOHDR, MBI_INFOHDR + dataSize);
}
Common::File *file = new Common::File();
if (file->open(_baseFileName))
return file;
delete file;
return NULL;
}
MacResIDArray MacResManager::getResIDArray(uint32 typeID) {
int typeNum = -1;
MacResIDArray res;
for (int i = 0; i < _resMap.numTypes; i++)
if (_resTypes[i].id == typeID) {
typeNum = i;
break;
}
if (typeNum == -1)
return res;
res.resize(_resTypes[typeNum].items);
for (int i = 0; i < _resTypes[typeNum].items; i++)
res[i] = _resLists[typeNum][i].id;
return res;
}
MacResTagArray MacResManager::getResTagArray() {
MacResTagArray tagArray;
if (!hasResFork())
return tagArray;
tagArray.resize(_resMap.numTypes);
for (uint32 i = 0; i < _resMap.numTypes; i++)
tagArray[i] = _resTypes[i].id;
return tagArray;
}
Common::String MacResManager::getResName(uint32 typeID, uint16 resID) {
int typeNum = -1;
for (int i = 0; i < _resMap.numTypes; i++)
if (_resTypes[i].id == typeID) {
typeNum = i;
break;
}
if (typeNum == -1)
return "";
for (int i = 0; i < _resTypes[typeNum].items; i++)
if (_resLists[typeNum][i].id == resID)
return _resLists[typeNum][i].name;
return "";
}
Common::SeekableReadStream *MacResManager::getResource(uint32 typeID, uint16 resID) {
int typeNum = -1;
int resNum = -1;
for (int i = 0; i < _resMap.numTypes; i++)
if (_resTypes[i].id == typeID) {
typeNum = i;
break;
}
if (typeNum == -1)
return NULL;
for (int i = 0; i < _resTypes[typeNum].items; i++)
if (_resLists[typeNum][i].id == resID) {
resNum = i;
break;
}
if (resNum == -1)
return NULL;
_stream->seek(_dataOffset + _resLists[typeNum][resNum].dataOffset);
uint32 len = _stream->readUint32BE();
return _stream->readStream(len);
}
Common::SeekableReadStream *MacResManager::getResource(const Common::String &filename) {
for (uint32 i = 0; i < _resMap.numTypes; i++) {
for (uint32 j = 0; j < _resTypes[i].items; j++) {
if (_resLists[i][j].nameOffset != -1 && filename.equalsIgnoreCase(_resLists[i][j].name)) {
_stream->seek(_dataOffset + _resLists[i][j].dataOffset);
uint32 len = _stream->readUint32BE();
return _stream->readStream(len);
}
}
}
return 0;
}
void MacResManager::readMap() {
_stream->seek(_mapOffset + 22);
_resMap.resAttr = _stream->readUint16BE();
_resMap.typeOffset = _stream->readUint16BE();
_resMap.nameOffset = _stream->readUint16BE();
_resMap.numTypes = _stream->readUint16BE();
_resMap.numTypes++;
_stream->seek(_mapOffset + _resMap.typeOffset + 2);
_resTypes = new ResType[_resMap.numTypes];
for (int i = 0; i < _resMap.numTypes; i++) {
_resTypes[i].id = _stream->readUint32BE();
_resTypes[i].items = _stream->readUint16BE();
_resTypes[i].offset = _stream->readUint16BE();
_resTypes[i].items++;
debug(8, "resType: <%s> items: %d offset: %d (0x%x)", tag2str(_resTypes[i].id), _resTypes[i].items, _resTypes[i].offset, _resTypes[i].offset);
}
_resLists = new ResPtr[_resMap.numTypes];
for (int i = 0; i < _resMap.numTypes; i++) {
_resLists[i] = new Resource[_resTypes[i].items];
_stream->seek(_resTypes[i].offset + _mapOffset + _resMap.typeOffset);
for (int j = 0; j < _resTypes[i].items; j++) {
ResPtr resPtr = _resLists[i] + j;
resPtr->id = _stream->readUint16BE();
resPtr->nameOffset = _stream->readUint16BE();
resPtr->dataOffset = _stream->readUint32BE();
_stream->readUint32BE();
resPtr->name = 0;
resPtr->attr = resPtr->dataOffset >> 24;
resPtr->dataOffset &= 0xFFFFFF;
}
for (int j = 0; j < _resTypes[i].items; j++) {
if (_resLists[i][j].nameOffset != -1) {
_stream->seek(_resLists[i][j].nameOffset + _mapOffset + _resMap.nameOffset);
byte len = _stream->readByte();
_resLists[i][j].name = new char[len + 1];
_resLists[i][j].name[len] = 0;
_stream->read(_resLists[i][j].name, len);
}
}
}
}
void MacResManager::convertCrsrCursor(byte *data, int datasize, byte **cursor, int *w, int *h,
int *hotspot_x, int *hotspot_y, int *keycolor, bool colored, byte **palette, int *palSize) {
Common::MemoryReadStream dis(data, datasize);
int i, b;
byte imageByte;
byte *iconData;
int numBytes;
int pixelsPerByte, bpp;
int ctSize;
byte bitmask;
int iconRowBytes, iconBounds[4];
int ignored;
int iconDataSize;
dis.readUint16BE(); // type
dis.readUint32BE(); // offset to pixel map
dis.readUint32BE(); // offset to pixel data
dis.readUint32BE(); // expanded cursor data
dis.readUint16BE(); // expanded data depth
dis.readUint32BE(); // reserved
// Grab B/W icon data
*cursor = (byte *)malloc(16 * 16);
for (i = 0; i < 32; i++) {
imageByte = dis.readByte();
for (b = 0; b < 8; b++)
cursor[0][i*8+b] = (byte)((imageByte & (0x80 >> b)) > 0? 0x0F: 0x00);
}
// Apply mask data
for (i = 0; i < 32; i++) {
imageByte = dis.readByte();
for (b = 0; b < 8; b++)
if ((imageByte & (0x80 >> b)) == 0)
cursor[0][i*8+b] = 0xff;
}
*hotspot_y = dis.readUint16BE();
*hotspot_x = dis.readUint16BE();
*w = *h = 16;
// Use b/w cursor on backends which don't support cursor palettes
if (!colored)
return;
dis.readUint32BE(); // reserved
dis.readUint32BE(); // cursorID
// Color version of cursor
dis.readUint32BE(); // baseAddr
// Keep only lowbyte for now
dis.readByte();
iconRowBytes = dis.readByte();
if (!iconRowBytes)
return;
iconBounds[0] = dis.readUint16BE();
iconBounds[1] = dis.readUint16BE();
iconBounds[2] = dis.readUint16BE();
iconBounds[3] = dis.readUint16BE();
dis.readUint16BE(); // pmVersion
dis.readUint16BE(); // packType
dis.readUint32BE(); // packSize
dis.readUint32BE(); // hRes
dis.readUint32BE(); // vRes
dis.readUint16BE(); // pixelType
dis.readUint16BE(); // pixelSize
dis.readUint16BE(); // cmpCount
dis.readUint16BE(); // cmpSize
dis.readUint32BE(); // planeByte
dis.readUint32BE(); // pmTable
dis.readUint32BE(); // reserved
// Pixel data for cursor
iconDataSize = iconRowBytes * (iconBounds[3] - iconBounds[1]);
iconData = (byte *)malloc(iconDataSize);
dis.read(iconData, iconDataSize);
// Color table
dis.readUint32BE(); // ctSeed
dis.readUint16BE(); // ctFlag
ctSize = dis.readUint16BE() + 1;
*palette = (byte *)malloc(ctSize * 4);
// Read just high byte of 16-bit color
for (int c = 0; c < ctSize; c++) {
// We just use indices 0..ctSize, so ignore color ID
dis.readUint16BE(); // colorID[c]
palette[0][c * 4 + 0] = dis.readByte();
ignored = dis.readByte();
palette[0][c * 4 + 1] = dis.readByte();
ignored = dis.readByte();
palette[0][c * 4 + 2] = dis.readByte();
ignored = dis.readByte();
palette[0][c * 4 + 3] = 0;
}
*palSize = ctSize;
numBytes = (iconBounds[2] - iconBounds[0]) * (iconBounds[3] - iconBounds[1]);
pixelsPerByte = (iconBounds[2] - iconBounds[0]) / iconRowBytes;
bpp = 8 / pixelsPerByte;
// build a mask to make sure the pixels are properly shifted out
bitmask = 0;
for (int m = 0; m < bpp; m++) {
bitmask <<= 1;
bitmask |= 1;
}
// Extract pixels from bytes
for (int j = 0; j < iconDataSize; j++)
for (b = 0; b < pixelsPerByte; b++) {
int idx = j * pixelsPerByte + (pixelsPerByte - 1 - b);
if (cursor[0][idx] != 0xff) // if mask is not there
cursor[0][idx] = (byte)((iconData[j] >> (b * bpp)) & bitmask);
}
free(iconData);
assert(datasize - dis.pos() == 0);
}
} // End of namespace Common
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