/* ** resourcefile.cpp ** ** Base classes for resource file management ** **--------------------------------------------------------------------------- ** Copyright 2009 Christoph Oelckers ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions ** are met: ** ** 1. Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** 2. Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in the ** documentation and/or other materials provided with the distribution. ** 3. The name of the author may not be used to endorse or promote products ** derived from this software without specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR ** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, ** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT ** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, ** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY ** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF ** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. **--------------------------------------------------------------------------- ** ** */ #include #include "resourcefile.h" #include "cmdlib.h" #include "md5.h" //========================================================================== // // File reader that reads from a lump's cache // //========================================================================== class FLumpReader : public MemoryReader { FResourceLump *source; public: FLumpReader(FResourceLump *src) : MemoryReader(NULL, src->LumpSize), source(src) { src->Lock(); bufptr = src->Cache; } ~FLumpReader() { source->Unlock(); } }; //========================================================================== // // Base class for resource lumps // //========================================================================== FResourceLump::~FResourceLump() { if (Cache != NULL && RefCount >= 0) { delete [] Cache; Cache = NULL; } Owner = NULL; } //========================================================================== // // Sets up the lump name information for anything not coming from a WAD file. // //========================================================================== void FResourceLump::LumpNameSetup(FString iname) { // this causes interference with real Dehacked lumps. if (!iname.CompareNoCase("dehacked.exe")) { iname = ""; } FullName = iname; } //========================================================================== // // Checks for embedded resource files // //========================================================================== static bool IsWadInFolder(const FResourceFile* const archive, const char* const resPath) { // Checks a special case when was put in // directory inside if (NULL == archive) { return false; } const FString dirName = ExtractFileBase(archive->FileName); const FString fileName = ExtractFileBase(resPath, true); const FString filePath = dirName + '/' + fileName; return 0 == filePath.CompareNoCase(resPath); } void FResourceLump::CheckEmbedded(LumpFilterInfo* lfi) { // Checks for embedded archives const char *c = strstr(FullName, ".wad"); if (c && strlen(c) == 4 && (!strchr(FullName, '/') || IsWadInFolder(Owner, FullName))) { Flags |= LUMPF_EMBEDDED; } else if (lfi) for (auto& fstr : lfi->embeddings) { if (!stricmp(FullName, fstr)) { Flags |= LUMPF_EMBEDDED; } } } //========================================================================== // // this is just for completeness. For non-Zips only an uncompressed lump can // be returned. // //========================================================================== FCompressedBuffer FResourceLump::GetRawData() { FCompressedBuffer cbuf = { (unsigned)LumpSize, (unsigned)LumpSize, METHOD_STORED, 0, 0, new char[LumpSize] }; memcpy(cbuf.mBuffer, Lock(), LumpSize); Unlock(); cbuf.mCRC32 = crc32(0, (uint8_t*)cbuf.mBuffer, LumpSize); return cbuf; } //========================================================================== // // Returns the owner's FileReader if it can be used to access this lump // //========================================================================== FileReader *FResourceLump::GetReader() { return NULL; } //========================================================================== // // Returns a file reader to the lump's cache // //========================================================================== FileReader FResourceLump::NewReader() { return FileReader(new FLumpReader(this)); } //========================================================================== // // Caches a lump's content and increases the reference counter // //========================================================================== void *FResourceLump::Lock() { if (Cache != NULL) { if (RefCount > 0) RefCount++; } else if (LumpSize > 0) { FillCache(); } return Cache; } //========================================================================== // // Decrements reference counter and frees lump if counter reaches 0 // //========================================================================== int FResourceLump::Unlock() { if (LumpSize > 0 && RefCount > 0) { if (--RefCount == 0) { delete [] Cache; Cache = NULL; } } return RefCount; } //========================================================================== // // Opens a resource file // //========================================================================== typedef FResourceFile * (*CheckFunc)(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckWad(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckGRP(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckRFF(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckPak(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckZip(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *Check7Z(const char *filename, FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile* CheckSSI(const char* filename, FileReader& file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckLump(const char *filename,FileReader &file, bool quiet, LumpFilterInfo* filter); FResourceFile *CheckDir(const char *filename, bool quiet, bool nosub, LumpFilterInfo* filter); static CheckFunc funcs[] = { CheckWad, CheckZip, Check7Z, CheckPak, CheckGRP, CheckRFF, CheckSSI, CheckLump }; FResourceFile *FResourceFile::DoOpenResourceFile(const char *filename, FileReader &file, bool quiet, bool containeronly, LumpFilterInfo* filter) { for(size_t i = 0; i < countof(funcs) - containeronly; i++) { FResourceFile *resfile = funcs[i](filename, file, quiet, filter); if (resfile != NULL) return resfile; } return NULL; } FResourceFile *FResourceFile::OpenResourceFile(const char *filename, FileReader &file, bool quiet, bool containeronly, LumpFilterInfo* filter) { return DoOpenResourceFile(filename, file, quiet, containeronly, filter); } FResourceFile *FResourceFile::OpenResourceFile(const char *filename, bool quiet, bool containeronly, LumpFilterInfo* filter) { FileReader file; if (!file.OpenFile(filename)) return nullptr; return DoOpenResourceFile(filename, file, quiet, containeronly, filter); } FResourceFile *FResourceFile::OpenDirectory(const char *filename, bool quiet, LumpFilterInfo* filter) { return CheckDir(filename, quiet, false, filter); } //========================================================================== // // Resource file base class // //========================================================================== FResourceFile::FResourceFile(const char *filename) : FileName(filename) { } FResourceFile::FResourceFile(const char *filename, FileReader &r) : FResourceFile(filename) { Reader = std::move(r); } FResourceFile::~FResourceFile() { } int lumpcmp(const void * a, const void * b) { FResourceLump * rec1 = (FResourceLump *)a; FResourceLump * rec2 = (FResourceLump *)b; return stricmp(rec1->getName(), rec2->getName()); } //========================================================================== // // FResourceFile :: GenerateHash // // Generates a hash identifier for use in file identification. // Potential uses are mod-wide compatibility settings or localization add-ons. // This only hashes the lump directory but not the actual content // //========================================================================== void FResourceFile::GenerateHash() { // hash the lump directory after sorting Hash.Format(("%08X-%04X-"), (unsigned)Reader.GetLength(), NumLumps); MD5Context md5; uint8_t digest[16]; for(uint32_t i = 0; i < NumLumps; i++) { auto lump = GetLump(i); md5.Update((const uint8_t*)lump->FullName.GetChars(), (unsigned)lump->FullName.Len() + 1); md5.Update((const uint8_t*)&lump->LumpSize, 4); } md5.Final(digest); for (auto c : digest) { Hash.AppendFormat("%02X", c); } } //========================================================================== // // FResourceFile :: PostProcessArchive // // Sorts files by name. // For files named "filter//*": Using the same filter rules as config // autoloading, move them to the end and rename them without the "filter/" // prefix. Filtered files that don't match are deleted. // //========================================================================== void FResourceFile::PostProcessArchive(void *lumps, size_t lumpsize, LumpFilterInfo *filter) { // Entries in archives are sorted alphabetically qsort(lumps, NumLumps, lumpsize, lumpcmp); if (!filter) return; // Filter out lumps using the same names as the Autoload.* sections // in the ini file use. We reduce the maximum lump concidered after // each one so that we don't risk refiltering already filtered lumps. uint32_t max = NumLumps; max -= FilterLumpsByGameType(filter, lumps, lumpsize, max); ptrdiff_t len; ptrdiff_t lastpos = -1; FString file; FString LumpFilter = filter->dotFilter; while ((len = LumpFilter.IndexOf('.', lastpos+1)) > 0) { max -= FilterLumps(LumpFilter.Left(len), lumps, lumpsize, max); lastpos = len; } max -= FilterLumps(LumpFilter, lumps, lumpsize, max); JunkLeftoverFilters(lumps, lumpsize, max); } //========================================================================== // // FResourceFile :: FilterLumps // // Finds any lumps between [0,) that match the pattern // "filter//*" and moves them to the end of the lump list. // Returns the number of lumps moved. // //========================================================================== int FResourceFile::FilterLumps(FString filtername, void *lumps, size_t lumpsize, uint32_t max) { FString filter; uint32_t start, end; if (filtername.IsEmpty()) { return 0; } filter << "filter/" << filtername << '/'; bool found = FindPrefixRange(filter, lumps, lumpsize, max, start, end); // Workaround for old Doom filter names. if (!found && filtername.IndexOf("doom.id.doom") == 0) { filter.Substitute("doom.id.doom", "doom.doom"); found = FindPrefixRange(filter, lumps, lumpsize, max, start, end); } if (found) { void *from = (uint8_t *)lumps + start * lumpsize; // Remove filter prefix from every name void *lump_p = from; for (uint32_t i = start; i < end; ++i, lump_p = (uint8_t *)lump_p + lumpsize) { FResourceLump *lump = (FResourceLump *)lump_p; assert(lump->FullName.CompareNoCase(filter, (int)filter.Len()) == 0); lump->LumpNameSetup(lump->FullName.Mid(filter.Len())); } // Move filtered lumps to the end of the lump list. size_t count = (end - start) * lumpsize; void *to = (uint8_t *)lumps + NumLumps * lumpsize - count; assert (to >= from); if (from != to) { // Copy filtered lumps to a temporary buffer. uint8_t *filteredlumps = new uint8_t[count]; memcpy(filteredlumps, from, count); // Shift lumps left to make room for the filtered ones at the end. memmove(from, (uint8_t *)from + count, (NumLumps - end) * lumpsize); // Copy temporary buffer to newly freed space. memcpy(to, filteredlumps, count); delete[] filteredlumps; } } return end - start; } //========================================================================== // // FResourceFile :: FilterLumpsByGameType // // Matches any lumps that match "filter/game-/*". Includes // inclusive gametypes like Raven. // //========================================================================== int FResourceFile::FilterLumpsByGameType(LumpFilterInfo *filter, void *lumps, size_t lumpsize, uint32_t max) { if (filter == nullptr) { return 0; } int count = 0; for (auto &fstring : filter->gameTypeFilter) { count += FilterLumps(fstring, lumps, lumpsize, max); } return count; } //========================================================================== // // FResourceFile :: JunkLeftoverFilters // // Deletes any lumps beginning with "filter/" that were not matched. // //========================================================================== void FResourceFile::JunkLeftoverFilters(void *lumps, size_t lumpsize, uint32_t max) { uint32_t start, end; if (FindPrefixRange("filter/", lumps, lumpsize, max, start, end)) { // Since the resource lumps may contain non-POD data besides the // full name, we "delete" them by erasing their names so they // can't be found. void *stop = (uint8_t *)lumps + end * lumpsize; for (void *p = (uint8_t *)lumps + start * lumpsize; p < stop; p = (uint8_t *)p + lumpsize) { FResourceLump *lump = (FResourceLump *)p; lump->FullName = ""; } } } //========================================================================== // // FResourceFile :: FindPrefixRange // // Finds a range of lumps that start with the prefix string. is left // indicating the first matching one. is left at one plus the last // matching one. // //========================================================================== bool FResourceFile::FindPrefixRange(FString filter, void *lumps, size_t lumpsize, uint32_t maxlump, uint32_t &start, uint32_t &end) { uint32_t min, max, mid, inside; FResourceLump *lump; int cmp; end = start = 0; // Pretend that our range starts at 1 instead of 0 so that we can avoid // unsigned overflow if the range starts at the first lump. lumps = (uint8_t *)lumps - lumpsize; // Binary search to find any match at all. min = 1, max = maxlump; while (min <= max) { mid = min + (max - min) / 2; lump = (FResourceLump *)((uint8_t *)lumps + mid * lumpsize); cmp = lump->FullName.CompareNoCase(filter, (int)filter.Len()); if (cmp == 0) break; else if (cmp < 0) min = mid + 1; else max = mid - 1; } if (max < min) { // matched nothing return false; } // Binary search to find first match. inside = mid; min = 1, max = mid; while (min <= max) { mid = min + (max - min) / 2; lump = (FResourceLump *)((uint8_t *)lumps + mid * lumpsize); cmp = lump->FullName.CompareNoCase(filter, (int)filter.Len()); // Go left on matches and right on misses. if (cmp == 0) max = mid - 1; else min = mid + 1; } start = mid + (cmp != 0) - 1; // Binary search to find last match. min = inside, max = maxlump; while (min <= max) { mid = min + (max - min) / 2; lump = (FResourceLump *)((uint8_t *)lumps + mid * lumpsize); cmp = lump->FullName.CompareNoCase(filter, (int)filter.Len()); // Go right on matches and left on misses. if (cmp == 0) min = mid + 1; else max = mid - 1; } end = mid - (cmp != 0); return true; } //========================================================================== // // Finds a lump by a given name. Used for savegames // //========================================================================== FResourceLump *FResourceFile::FindLump(const char *name) { for (unsigned i = 0; i < NumLumps; i++) { FResourceLump *lump = GetLump(i); if (!stricmp(name, lump->FullName)) { return lump; } } return nullptr; } //========================================================================== // // Caches a lump's content and increases the reference counter // //========================================================================== FileReader *FUncompressedLump::GetReader() { Owner->Reader.Seek(Position, FileReader::SeekSet); return &Owner->Reader; } //========================================================================== // // Caches a lump's content and increases the reference counter // //========================================================================== int FUncompressedLump::FillCache() { const char * buffer = Owner->Reader.GetBuffer(); if (buffer != NULL) { // This is an in-memory file so the cache can point directly to the file's data. Cache = const_cast(buffer) + Position; RefCount = -1; return -1; } Owner->Reader.Seek(Position, FileReader::SeekSet); Cache = new char[LumpSize]; Owner->Reader.Read(Cache, LumpSize); RefCount = 1; return 1; } //========================================================================== // // Base class for uncompressed resource files // //========================================================================== FUncompressedFile::FUncompressedFile(const char *filename) : FResourceFile(filename) {} FUncompressedFile::FUncompressedFile(const char *filename, FileReader &r) : FResourceFile(filename, r) {} //========================================================================== // // external lump // //========================================================================== FExternalLump::FExternalLump(const char *_filename, int filesize) : Filename(_filename) { if (filesize == -1) { FileReader f; if (f.OpenFile(_filename)) { LumpSize = (int)f.GetLength(); } else { LumpSize = 0; } } else { LumpSize = filesize; } } //========================================================================== // // Caches a lump's content and increases the reference counter // For external lumps this reopens the file each time it is accessed // //========================================================================== int FExternalLump::FillCache() { Cache = new char[LumpSize]; FileReader f; if (f.OpenFile(Filename)) { f.Read(Cache, LumpSize); } else { memset(Cache, 0, LumpSize); } RefCount = 1; return 1; }