#ifndef __RESFILE_H #define __RESFILE_H #include #include "files.h" struct LumpFilterInfo { TArray gameTypeFilter; // this can contain multiple entries FString dotFilter; // The following are for checking if the root directory of a zip can be removed. TArray reservedFolders; TArray requiredPrefixes; std::function postprocessFunc; }; class FResourceFile; // [RH] Namespaces from BOOM. // These are needed here in the low level part so that WAD files can be properly set up. typedef enum { ns_hidden = -1, ns_global = 0, ns_sprites, ns_flats, ns_colormaps, ns_acslibrary, ns_newtextures, ns_bloodraw, // no longer used - kept for ZScript. ns_bloodsfx, // no longer used - kept for ZScript. ns_bloodmisc, // no longer used - kept for ZScript. ns_strifevoices, ns_hires, ns_voxels, // These namespaces are only used to mark lumps in special subdirectories // so that their contents doesn't interfere with the global namespace. // searching for data in these namespaces works differently for lumps coming // from Zips or other files. ns_specialzipdirectory, ns_sounds, ns_patches, ns_graphics, ns_music, ns_firstskin, } namespace_t; enum ELumpFlags { LUMPF_MAYBEFLAT = 1, // might be a flat outside F_START/END LUMPF_FULLPATH = 2, // contains a full path. This will trigger extended namespace checks when looking up short names. LUMPF_EMBEDDED = 4, // marks an embedded resource file for later processing. LUMPF_SHORTNAME = 8, // the stored name is a short extension-less name LUMPF_COMPRESSED = 16, // compressed or encrypted, i.e. cannot be read with the container file's reader. }; // This holds a compresed Zip entry with all needed info to decompress it. struct FCompressedBuffer { unsigned mSize; unsigned mCompressedSize; int mMethod; int mZipFlags; unsigned mCRC32; char *mBuffer; bool Decompress(char *destbuffer); void Clean() { mSize = mCompressedSize = 0; if (mBuffer != nullptr) { delete[] mBuffer; mBuffer = nullptr; } } }; struct FResourceLump { friend class FResourceFile; friend class FWadFile; // this still needs direct access. int LumpSize; int RefCount; protected: FString FullName; public: uint8_t Flags; char * Cache; FResourceFile * Owner; FResourceLump() { Cache = NULL; Owner = NULL; Flags = 0; RefCount = 0; } virtual ~FResourceLump(); virtual FileReader *GetReader(); virtual FileReader NewReader(); virtual int GetFileOffset() { return -1; } virtual int GetIndexNum() const { return -1; } virtual int GetNamespace() const { return 0; } void LumpNameSetup(FString iname); void CheckEmbedded(); virtual FCompressedBuffer GetRawData(); void *Lock(); // validates the cache and increases the refcount. int Unlock(); // decreases the refcount and frees the buffer unsigned Size() const{ return LumpSize; } int LockCount() const { return RefCount; } const char* getName() { return FullName.GetChars(); } protected: virtual int FillCache() { return -1; } }; class FResourceFile { public: FileReader Reader; FString FileName; protected: uint32_t NumLumps; FString Hash; FResourceFile(const char *filename); FResourceFile(const char *filename, FileReader &r); // for archives that can contain directories void GenerateHash(); void PostProcessArchive(void *lumps, size_t lumpsize, LumpFilterInfo *filter); private: uint32_t FirstLump; int FilterLumps(FString filtername, void *lumps, size_t lumpsize, uint32_t max); int FilterLumpsByGameType(LumpFilterInfo *filter, void *lumps, size_t lumpsize, uint32_t max); bool FindPrefixRange(FString filter, void *lumps, size_t lumpsize, uint32_t max, uint32_t &start, uint32_t &end); void JunkLeftoverFilters(void *lumps, size_t lumpsize, uint32_t max); static FResourceFile *DoOpenResourceFile(const char *filename, FileReader &file, bool quiet, bool containeronly, LumpFilterInfo* filter); public: static FResourceFile *OpenResourceFile(const char *filename, FileReader &file, bool quiet = false, bool containeronly = false, LumpFilterInfo* filter = nullptr); static FResourceFile *OpenResourceFile(const char *filename, bool quiet = false, bool containeronly = false, LumpFilterInfo* filter = nullptr); static FResourceFile *OpenDirectory(const char *filename, bool quiet = false, LumpFilterInfo* filter = nullptr); virtual ~FResourceFile(); // If this FResourceFile represents a directory, the Reader object is not usable so don't return it. FileReader *GetReader() { return Reader.isOpen()? &Reader : nullptr; } uint32_t LumpCount() const { return NumLumps; } uint32_t GetFirstEntry() const { return FirstLump; } void SetFirstLump(uint32_t f) { FirstLump = f; } const FString &GetHash() const { return Hash; } virtual FResourceLump *GetLump(int no) = 0; FResourceLump *FindLump(const char *name); }; struct FUncompressedLump : public FResourceLump { int Position; virtual FileReader *GetReader(); virtual int FillCache(); virtual int GetFileOffset() { return Position; } }; // Base class for uncompressed resource files (WAD, GRP, PAK and single lumps) class FUncompressedFile : public FResourceFile { protected: TArray Lumps; FUncompressedFile(const char *filename); FUncompressedFile(const char *filename, FileReader &r); virtual FResourceLump *GetLump(int no) { return ((unsigned)no < NumLumps)? &Lumps[no] : NULL; } }; struct FExternalLump : public FResourceLump { FString Filename; FExternalLump(const char *_filename, int filesize = -1); virtual int FillCache(); }; struct FMemoryLump : public FResourceLump { FMemoryLump(const void* data, int length) { RefCount = INT_MAX / 2; LumpSize = length; Cache = new char[length]; memcpy(Cache, data, length); } virtual int FillCache() override { RefCount = INT_MAX / 2; // Make sure it never counts down to 0 by resetting it to something high each time it is used. return 1; } }; #endif