/* ** filesystem.cpp ** **--------------------------------------------------------------------------- ** Copyright 1998-2009 Randy Heit ** Copyright 2005-2020 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. **--------------------------------------------------------------------------- ** ** */ // HEADER FILES ------------------------------------------------------------ #include #include #include #include "m_argv.h" #include "cmdlib.h" #include "filesystem.h" #include "m_crc32.h" #include "printf.h" #include "md5.h" extern FILE* hashfile; // MACROS ------------------------------------------------------------------ #define NULL_INDEX (0xffffffff) struct FileSystem::LumpRecord { FResourceLump *lump; FGameTexture* linkedTexture; LumpShortName shortName; FString longName; int rfnum; int Namespace; int resourceId; void SetFromLump(int filenum, FResourceLump* lmp) { lump = lmp; rfnum = filenum; linkedTexture = nullptr; if (lump->Flags & LUMPF_SHORTNAME) { uppercopy(shortName.String, lump->getName()); shortName.String[8] = 0; longName = ""; Namespace = lump->GetNamespace(); resourceId = 0; } else if ((lump->Flags & LUMPF_EMBEDDED) || !lump->getName() || !*lump->getName()) { shortName.qword = 0; longName = ""; Namespace = ns_hidden; resourceId = 0; } else { longName = lump->getName(); resourceId = lump->GetIndexNum(); // Map some directories to WAD namespaces. // Note that some of these namespaces don't exist in WADS. // CheckNumForName will handle any request for these namespaces accordingly. Namespace = !strncmp(longName.GetChars(), "flats/", 6) ? ns_flats : !strncmp(longName.GetChars(), "textures/", 9) ? ns_newtextures : !strncmp(longName.GetChars(), "hires/", 6) ? ns_hires : !strncmp(longName.GetChars(), "sprites/", 8) ? ns_sprites : !strncmp(longName.GetChars(), "voxels/", 7) ? ns_voxels : !strncmp(longName.GetChars(), "colormaps/", 10) ? ns_colormaps : !strncmp(longName.GetChars(), "acs/", 4) ? ns_acslibrary : !strncmp(longName.GetChars(), "voices/", 7) ? ns_strifevoices : !strncmp(longName.GetChars(), "patches/", 8) ? ns_patches : !strncmp(longName.GetChars(), "graphics/", 9) ? ns_graphics : !strncmp(longName.GetChars(), "sounds/", 7) ? ns_sounds : !strncmp(longName.GetChars(), "music/", 6) ? ns_music : !strchr(longName.GetChars(), '/') ? ns_global : ns_hidden; if (Namespace == ns_hidden) shortName.qword = 0; else { long slash = longName.LastIndexOf('/'); FString base = (slash >= 0) ? longName.Mid(slash + 1) : longName; auto dot = base.LastIndexOf('.'); if (dot >= 0) base.Truncate(dot); uppercopy(shortName.String, base); shortName.String[8] = 0; // Since '\' can't be used as a file name's part inside a ZIP // we have to work around this for sprites because it is a valid // frame character. if (Namespace == ns_sprites || Namespace == ns_voxels || Namespace == ns_hires) { char* c; while ((c = (char*)memchr(shortName.String, '^', 8))) { *c = '\\'; } } } } } }; // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- static void PrintLastError (); // PUBLIC DATA DEFINITIONS ------------------------------------------------- FileSystem fileSystem; // CODE -------------------------------------------------------------------- FileSystem::FileSystem() { // This is needed to initialize the LumpRecord array, which depends on data only available here. } FileSystem::~FileSystem () { DeleteAll(); } void FileSystem::DeleteAll () { Hashes.Clear(); NumEntries = 0; // explicitly delete all manually added lumps. for (auto &frec : FileInfo) { if (frec.rfnum == -1) delete frec.lump; } FileInfo.Clear(); for (int i = Files.Size() - 1; i >= 0; --i) { delete Files[i]; } Files.Clear(); } //========================================================================== // // InitMultipleFiles // // Pass a null terminated list of files to use. All files are optional, // but at least one file must be found. File names can appear multiple // times. The name searcher looks backwards, so a later file can // override an earlier one. // //========================================================================== void FileSystem::InitSingleFile(const char* filename, bool quiet) { TArray filenames; filenames.Push(filename); InitMultipleFiles(filenames, true); } void FileSystem::InitMultipleFiles (TArray &filenames, bool quiet, LumpFilterInfo* filter) { int numfiles; // open all the files, load headers, and count lumps DeleteAll(); numfiles = 0; for(unsigned i=0;iGetHash().GetChars()); MoveLumpsInFolder(path); } NumEntries = FileInfo.Size(); if (NumEntries == 0) { if (!quiet) I_FatalError("W_InitMultipleFiles: no files found"); else return; } if (filter && filter->postprocessFunc) filter->postprocessFunc(); // [RH] Set up hash table InitHashChains (); } //========================================================================== // // AddLump // // Adds a given lump to the directory. Does not perform rehashing // //========================================================================== void FileSystem::AddLump(FResourceLump *lump) { FileSystem::LumpRecord *lumprec = &FileInfo[FileInfo.Reserve(1)]; lumprec->SetFromLump(-1, lump); } //----------------------------------------------------------------------- // // Adds an external file to the lump list but not to the hash chains // It's just a simple means to assign a lump number to some file so that // the texture manager can read from it. // //----------------------------------------------------------------------- int FileSystem::AddExternalFile(const char *filename) { FResourceLump *lump = new FExternalLump(filename); AddLump(lump); return FileInfo.Size() - 1; // later } //========================================================================== // // AddFromBuffer // // Adds an in-memory resource to the virtual directory // //========================================================================== int FileSystem::AddFromBuffer(const char* name, const char* type, char* data, int size, int id, int flags) { FStringf fullname("%s.%s", name, type); auto newlump = new FMemoryLump(data, size); newlump->LumpNameSetup(fullname); AddLump(newlump); FileInfo.Last().resourceId = id; return FileInfo.Size()-1; } //========================================================================== // // AddFile // // Files with a .wad extension are wadlink files with multiple lumps, // other files are single lumps with the base filename for the lump name. // // [RH] Removed reload hack //========================================================================== void FileSystem::AddFile (const char *filename, FileReader *filer, bool quiet, LumpFilterInfo* filter) { int startlump; bool isdir = false; FileReader filereader; if (filer == nullptr) { // Does this exist? If so, is it a directory? if (!DirEntryExists(filename, &isdir)) { if (!quiet) { Printf(TEXTCOLOR_RED "%s: File or Directory not found\n", filename); PrintLastError(); } return; } if (!isdir) { if (!filereader.OpenFile(filename)) { // Didn't find file if (!quiet) { Printf(TEXTCOLOR_RED "%s: File not found\n", filename); PrintLastError(); } return; } } } else filereader = std::move(*filer); if (!batchrun && !quiet) Printf (" adding %s", filename); startlump = NumEntries; FResourceFile *resfile; if (!isdir) resfile = FResourceFile::OpenResourceFile(filename, filereader, quiet, false, filter); else resfile = FResourceFile::OpenDirectory(filename, quiet, filter); if (resfile != NULL) { if (!quiet && !batchrun) Printf(", %d lumps\n", resfile->LumpCount()); uint32_t lumpstart = FileInfo.Size(); resfile->SetFirstLump(lumpstart); for (uint32_t i=0; i < resfile->LumpCount(); i++) { FResourceLump *lump = resfile->GetLump(i); FileSystem::LumpRecord *lump_p = &FileInfo[FileInfo.Reserve(1)]; lump_p->SetFromLump(Files.Size(), lump); } Files.Push(resfile); for (uint32_t i=0; i < resfile->LumpCount(); i++) { FResourceLump *lump = resfile->GetLump(i); if (lump->Flags & LUMPF_EMBEDDED) { FString path; path.Format("%s:%s", filename, lump->getName()); auto embedded = lump->NewReader(); AddFile(path, &embedded, quiet, filter); } } if (hashfile && !quiet) { uint8_t cksum[16]; char cksumout[33]; memset(cksumout, 0, sizeof(cksumout)); if (filereader.isOpen()) { MD5Context md5; filereader.Seek(0, FileReader::SeekSet); md5Update(filereader, md5, (unsigned)filereader.GetLength()); md5.Final(cksum); for (size_t j = 0; j < sizeof(cksum); ++j) { sprintf(cksumout + (j * 2), "%02X", cksum[j]); } fprintf(hashfile, "file: %s, hash: %s, size: %d\n", filename, cksumout, (int)filereader.GetLength()); } else fprintf(hashfile, "file: %s, Directory structure\n", filename); for (uint32_t i = 0; i < resfile->LumpCount(); i++) { FResourceLump *lump = resfile->GetLump(i); if (!(lump->Flags & LUMPF_EMBEDDED)) { MD5Context md5; auto reader = lump->NewReader(); md5Update(reader, md5, lump->LumpSize); md5.Final(cksum); for (size_t j = 0; j < sizeof(cksum); ++j) { sprintf(cksumout + (j * 2), "%02X", cksum[j]); } fprintf(hashfile, "file: %s, lump: %s, hash: %s, size: %d\n", filename, lump->getName(), cksumout, lump->LumpSize); } } } return; } } //========================================================================== // // CheckIfResourceFileLoaded // // Returns true if the specified file is loaded, false otherwise. // If a fully-qualified path is specified, then the file must match exactly. // Otherwise, any file with that name will work, whatever its path. // Returns the file's index if found, or -1 if not. // //========================================================================== int FileSystem::CheckIfResourceFileLoaded (const char *name) noexcept { unsigned int i; if (strrchr (name, '/') != NULL) { for (i = 0; i < Files.Size(); ++i) { if (stricmp (GetResourceFileFullName (i), name) == 0) { return i; } } } else { for (i = 0; i < Files.Size(); ++i) { auto pth = ExtractFileBase(GetResourceFileName(i), true); if (stricmp (pth.GetChars(), name) == 0) { return i; } } } return -1; } //========================================================================== // // CheckNumForName // // Returns -1 if name not found. The version with a third parameter will // look exclusively in the specified wad for the lump. // // [RH] Changed to use hash lookup ala BOOM instead of a linear search // and namespace parameter //========================================================================== int FileSystem::CheckNumForName (const char *name, int space) { union { char uname[8]; uint64_t qname; }; uint32_t i; if (name == NULL) { return -1; } // Let's not search for names that are longer than 8 characters and contain path separators // They are almost certainly full path names passed to this function. if (strlen(name) > 8 && strpbrk(name, "/.")) { return -1; } uppercopy (uname, name); i = FirstLumpIndex[LumpNameHash (uname) % NumEntries]; while (i != NULL_INDEX) { if (FileInfo[i].shortName.qword == qname) { auto &lump = FileInfo[i]; if (lump.Namespace == space) break; // If the lump is from one of the special namespaces exclusive to Zips // the check has to be done differently: // If we find a lump with this name in the global namespace that does not come // from a Zip return that. WADs don't know these namespaces and single lumps must // work as well. if (space > ns_specialzipdirectory && lump.Namespace == ns_global && !(lump.lump->Flags & LUMPF_FULLPATH)) break; } i = NextLumpIndex[i]; } return i != NULL_INDEX ? i : -1; } int FileSystem::CheckNumForName (const char *name, int space, int rfnum, bool exact) { union { char uname[8]; uint64_t qname; }; uint32_t i; if (rfnum < 0) { return CheckNumForName (name, space); } uppercopy (uname, name); i = FirstLumpIndex[LumpNameHash (uname) % NumEntries]; // If exact is true if will only find lumps in the same WAD, otherwise // also those in earlier WADs. while (i != NULL_INDEX && (FileInfo[i].shortName.qword != qname || FileInfo[i].Namespace != space || (exact? (FileInfo[i].rfnum != rfnum) : (FileInfo[i].rfnum > rfnum)) )) { i = NextLumpIndex[i]; } return i != NULL_INDEX ? i : -1; } //========================================================================== // // GetNumForName // // Calls CheckNumForName, but bombs out if not found. // //========================================================================== int FileSystem::GetNumForName (const char *name, int space) { int i; i = CheckNumForName (name, space); if (i == -1) I_Error ("GetNumForName: %s not found!", name); return i; } //========================================================================== // // CheckNumForFullName // // Same as above but looks for a fully qualified name from a .zip // These don't care about namespaces though because those are part // of the path. // //========================================================================== int FileSystem::CheckNumForFullName (const char *name, bool trynormal, int namespc, bool ignoreext) { uint32_t i; if (name == NULL) { return -1; } if (*name == '/') name++; // ignore leading slashes in file names. uint32_t *fli = ignoreext ? FirstLumpIndex_NoExt : FirstLumpIndex_FullName; uint32_t *nli = ignoreext ? NextLumpIndex_NoExt : NextLumpIndex_FullName; auto len = strlen(name); for (i = fli[MakeKey(name) % NumEntries]; i != NULL_INDEX; i = nli[i]) { if (strnicmp(name, FileInfo[i].longName, len)) continue; if (FileInfo[i].longName[len] == 0) break; // this is a full match if (ignoreext && FileInfo[i].longName[len] == '.') { // is this the last '.' in the last path element, indicating that the remaining part of the name is only an extension? if (strpbrk(FileInfo[i].longName.GetChars() + len + 1, "./") == nullptr) break; } } if (i != NULL_INDEX) return i; if (trynormal && strlen(name) <= 8 && !strpbrk(name, "./")) { return CheckNumForName(name, namespc); } return -1; } int FileSystem::CheckNumForFullName (const char *name, int rfnum) { uint32_t i; if (rfnum < 0) { return CheckNumForFullName (name); } i = FirstLumpIndex_FullName[MakeKey (name) % NumEntries]; while (i != NULL_INDEX && (stricmp(name, FileInfo[i].longName) || FileInfo[i].rfnum != rfnum)) { i = NextLumpIndex_FullName[i]; } return i != NULL_INDEX ? i : -1; } //========================================================================== // // GetNumForFullName // // Calls CheckNumForFullName, but bombs out if not found. // //========================================================================== int FileSystem::GetNumForFullName (const char *name) { int i; i = CheckNumForFullName (name); if (i == -1) I_Error ("GetNumForFullName: %s not found!", name); return i; } //========================================================================== // // FindFile // // Looks up a file by name, either eith or without path and extension // //========================================================================== int FileSystem::FindFileWithExtensions(const char* name, const char *const *exts, int count) { uint32_t i; if (name == NULL) { return -1; } if (*name == '/') name++; // ignore leading slashes in file names. uint32_t* fli = FirstLumpIndex_NoExt; uint32_t* nli = NextLumpIndex_NoExt; auto len = strlen(name); for (i = fli[MakeKey(name) % NumEntries]; i != NULL_INDEX; i = nli[i]) { if (strnicmp(name, FileInfo[i].longName, len)) continue; if (FileInfo[i].longName[len] != '.') continue; // we are looking for extensions but this file doesn't have one. auto cp = FileInfo[i].longName.GetChars() + len + 1; // is this the last '.' in the last path element, indicating that the remaining part of the name is only an extension? if (strpbrk(cp, "./") != nullptr) continue; // No, so it cannot be a valid entry. for (int j = 0; j < count; j++) { if (!stricmp(cp, exts[j])) return i; // found a match } } return -1; } //========================================================================== // // FindResource // // Looks for content based on Blood resource IDs. // //========================================================================== int FileSystem::FindResource (int resid, const char *type, int filenum) const noexcept { uint32_t i; if (type == NULL || resid < 0) { return -1; } uint32_t* fli = FirstLumpIndex_ResId; uint32_t* nli = NextLumpIndex_ResId; for (i = fli[resid % NumEntries]; i != NULL_INDEX; i = nli[i]) { if (filenum > 0 && FileInfo[i].rfnum != filenum) continue; if (FileInfo[i].resourceId != resid) continue; auto extp = strrchr(FileInfo[i].longName, '.'); if (!extp) continue; if (!stricmp(extp + 1, type)) return i; } return -1; } //========================================================================== // // GetResource // // Calls GetResource, but bombs out if not found. // //========================================================================== int FileSystem::GetResource (int resid, const char *type, int filenum) const { int i; i = FindResource (resid, type, filenum); if (i == -1) { I_Error("GetResource: %d of type %s not found!", resid, type); } return i; } //========================================================================== // // link a texture with a given lump // //========================================================================== void FileSystem::SetLinkedTexture(int lump, FGameTexture *tex) { if ((size_t)lump < NumEntries) { FileInfo[lump].linkedTexture = tex; } } //========================================================================== // // retrieve linked texture // //========================================================================== FGameTexture *FileSystem::GetLinkedTexture(int lump) { if ((size_t)lump < NumEntries) { return FileInfo[lump].linkedTexture; } return NULL; } //========================================================================== // // FileLength // // Returns the buffer size needed to load the given lump. // //========================================================================== int FileSystem::FileLength (int lump) const { if ((size_t)lump >= NumEntries) { return -1; } return FileInfo[lump].lump->LumpSize; } //========================================================================== // // GetFileOffset // // Returns the offset from the beginning of the file to the lump. // Returns -1 if the lump is compressed or can't be read directly // //========================================================================== int FileSystem::GetFileOffset (int lump) { if ((size_t)lump >= NumEntries) { return -1; } return FileInfo[lump].lump->GetFileOffset(); } //========================================================================== // // // //========================================================================== int FileSystem::GetFileFlags (int lump) { if ((size_t)lump >= NumEntries) { return 0; } return FileInfo[lump].lump->Flags; } //========================================================================== // // LumpNameHash // // NOTE: s should already be uppercase, in contrast to the BOOM version. // // Hash function used for lump names. // Must be mod'ed with table size. // Can be used for any 8-character names. // //========================================================================== uint32_t FileSystem::LumpNameHash (const char *s) { const uint32_t *table = GetCRCTable ();; uint32_t hash = 0xffffffff; int i; for (i = 8; i > 0 && *s; --i, ++s) { hash = CRC1 (hash, *s, table); } return hash ^ 0xffffffff; } //========================================================================== // // InitHashChains // // Prepares the lumpinfos for hashing. // (Hey! This looks suspiciously like something from Boom! :-) // //========================================================================== void FileSystem::InitHashChains (void) { unsigned int i, j; Hashes.Resize(8 * NumEntries); // Mark all buckets as empty memset(Hashes.Data(), -1, Hashes.Size() * sizeof(Hashes[0])); FirstLumpIndex = &Hashes[0]; NextLumpIndex = &Hashes[NumEntries]; FirstLumpIndex_FullName = &Hashes[NumEntries * 2]; NextLumpIndex_FullName = &Hashes[NumEntries * 3]; FirstLumpIndex_NoExt = &Hashes[NumEntries * 4]; NextLumpIndex_NoExt = &Hashes[NumEntries * 5]; FirstLumpIndex_ResId = &Hashes[NumEntries * 6]; NextLumpIndex_ResId = &Hashes[NumEntries * 7]; // Now set up the chains for (i = 0; i < (unsigned)NumEntries; i++) { j = LumpNameHash (FileInfo[i].shortName.String) % NumEntries; NextLumpIndex[i] = FirstLumpIndex[j]; FirstLumpIndex[j] = i; // Do the same for the full paths if (FileInfo[i].longName.IsNotEmpty()) { j = MakeKey(FileInfo[i].longName) % NumEntries; NextLumpIndex_FullName[i] = FirstLumpIndex_FullName[j]; FirstLumpIndex_FullName[j] = i; FString nameNoExt = FileInfo[i].longName; auto dot = nameNoExt.LastIndexOf('.'); auto slash = nameNoExt.LastIndexOf('/'); if (dot > slash) nameNoExt.Truncate(dot); j = MakeKey(nameNoExt) % NumEntries; NextLumpIndex_NoExt[i] = FirstLumpIndex_NoExt[j]; FirstLumpIndex_NoExt[j] = i; j = FileInfo[i].resourceId % NumEntries; NextLumpIndex_ResId[i] = FirstLumpIndex_ResId[j]; FirstLumpIndex_ResId[j] = i; } } FileInfo.ShrinkToFit(); Files.ShrinkToFit(); } //========================================================================== // // should only be called before the hash chains are set up. // If done later this needs rehashing. // //========================================================================== LumpShortName& FileSystem::GetShortName(int i) { if ((unsigned)i >= NumEntries) I_Error("GetShortName: Invalid index"); return FileInfo[i].shortName; } void FileSystem::RenameFile(int num, const char* newfn) { if ((unsigned)num >= NumEntries) I_Error("RenameFile: Invalid index"); FileInfo[num].longName = newfn; // This does not alter the short name - call GetShortname to do that! } //========================================================================== // // MoveLumpsInFolder // // Moves all content from the given subfolder of the internal // resources to the current end of the directory. // Used to allow modifying content in the base files, this is needed // so that Hacx and Harmony can override some content that clashes // with localization, and to inject modifying data into mods, in case // this is needed for some compatibility requirement. // //========================================================================== static FResourceLump placeholderLump; void FileSystem::MoveLumpsInFolder(const char *path) { if (FileInfo.Size() == 0) { return; } auto len = strlen(path); auto rfnum = FileInfo.Last().rfnum; unsigned i; for (i = 0; i < FileInfo.Size(); i++) { auto& li = FileInfo[i]; if (li.rfnum >= GetIwadNum()) break; if (li.longName.Left(len).CompareNoCase(path) == 0) { FileInfo.Push(li); li.lump = &placeholderLump; // Make the old entry point to something empty. We cannot delete the lump record here because it'd require adjustment of all indices in the list. auto &ln = FileInfo.Last(); ln.lump->LumpNameSetup(ln.longName.Mid(len)); ln.SetFromLump(rfnum, ln.lump); } } } //========================================================================== // // W_FindLump // // Find a named lump. Specifically allows duplicates for merging of e.g. // SNDINFO lumps. // //========================================================================== int FileSystem::FindLump (const char *name, int *lastlump, bool anyns) { union { char name8[8]; uint64_t qname; }; LumpRecord *lump_p; uppercopy (name8, name); assert(lastlump != NULL && *lastlump >= 0); lump_p = &FileInfo[*lastlump]; while (lump_p < &FileInfo[NumEntries]) { if ((anyns || lump_p->Namespace == ns_global) && lump_p->shortName.qword == qname) { int lump = int(lump_p - &FileInfo[0]); *lastlump = lump + 1; return lump; } lump_p++; } *lastlump = NumEntries; return -1; } //========================================================================== // // W_FindLumpMulti // // Find a named lump. Specifically allows duplicates for merging of e.g. // SNDINFO lumps. Returns everything having one of the passed names. // //========================================================================== int FileSystem::FindLumpMulti (const char **names, int *lastlump, bool anyns, int *nameindex) { LumpRecord *lump_p; assert(lastlump != NULL && *lastlump >= 0); lump_p = &FileInfo[*lastlump]; while (lump_p < &FileInfo[NumEntries]) { if (anyns || lump_p->Namespace == ns_global) { for(const char **name = names; *name != NULL; name++) { if (!strnicmp(*name, lump_p->shortName.String, 8)) { int lump = int(lump_p - &FileInfo[0]); *lastlump = lump + 1; if (nameindex != NULL) *nameindex = int(name - names); return lump; } } } lump_p++; } *lastlump = NumEntries; return -1; } //========================================================================== // // W_FindLump // // Find a named lump. Specifically allows duplicates for merging of e.g. // SNDINFO lumps. // //========================================================================== int FileSystem::FindLumpFullName(const char* name, int* lastlump, bool noext) { assert(lastlump != NULL && *lastlump >= 0); auto lump_p = &FileInfo[*lastlump]; if (!noext) { while (lump_p < &FileInfo[NumEntries]) { if (!stricmp(name, lump_p->longName)) { int lump = int(lump_p - &FileInfo[0]); *lastlump = lump + 1; return lump; } lump_p++; } } else { auto len = strlen(name); while (lump_p < &FileInfo[NumEntries]) { auto res = strnicmp(name, lump_p->longName, len); if (res == 0) { auto p = lump_p->longName.GetChars() + len; if (*p == 0 || (*p == '.' && strpbrk(p + 1, "./") == 0)) { int lump = int(lump_p - &FileInfo[0]); *lastlump = lump + 1; return lump; } } lump_p++; } } *lastlump = NumEntries; return -1; } //========================================================================== // // W_CheckLumpName // //========================================================================== bool FileSystem::CheckFileName (int lump, const char *name) { if ((size_t)lump >= NumEntries) return false; return !strnicmp (FileInfo[lump].shortName.String, name, 8); } //========================================================================== // // GetLumpName // //========================================================================== void FileSystem::GetFileShortName (char *to, int lump) const { if ((size_t)lump >= NumEntries) *to = 0; else uppercopy (to, FileInfo[lump].shortName.String); } const char* FileSystem::GetFileShortName(int lump) const { if ((size_t)lump >= NumEntries) return nullptr; else return FileInfo[lump].shortName.String; } void FileSystem::GetFileShortName(FString &to, int lump) const { if ((size_t)lump >= NumEntries) to = FString(); else { to = FileInfo[lump].shortName.String; to.ToUpper(); } } //========================================================================== // // FileSystem :: GetFileFullName // // Returns the lump's full name if it has one or its short name if not. // //========================================================================== const char *FileSystem::GetFileFullName (int lump, bool returnshort) const { if ((size_t)lump >= NumEntries) return NULL; else if (FileInfo[lump].longName.IsNotEmpty()) return FileInfo[lump].longName; else if (returnshort) return FileInfo[lump].shortName.String; else return nullptr; } //========================================================================== // // FileSystem :: GetFileFullPath // // Returns the name of the lump's wad prefixed to the lump's full name. // //========================================================================== FString FileSystem::GetFileFullPath(int lump) const { FString foo; if ((size_t) lump < NumEntries) { foo << GetResourceFileName(FileInfo[lump].rfnum) << ':' << GetFileFullName(lump); } return foo; } //========================================================================== // // GetFileNamespace // //========================================================================== int FileSystem::GetFileNamespace (int lump) const { if ((size_t)lump >= NumEntries) return ns_global; else return FileInfo[lump].Namespace; } void FileSystem::SetFileNamespace(int lump, int ns) { if ((size_t)lump < NumEntries) FileInfo[lump].Namespace = ns; } //========================================================================== // // FileSystem :: GetResourceId // // Returns the index number for this lump. This is *not* the lump's position // in the lump directory, but rather a special value that RFF can associate // with files. Other archive types will return 0, since they don't have it. // //========================================================================== int FileSystem::GetResourceId(int lump) const { if ((size_t)lump >= NumEntries) return -1; else return FileInfo[lump].resourceId; } //========================================================================== // // GetResourceType // // is equivalent with the extension // //========================================================================== const char *FileSystem::GetResourceType(int lump) const { if ((size_t)lump >= NumEntries) return nullptr; else { auto p = strrchr(FileInfo[lump].longName.GetChars(), '.'); if (!p) return ""; // has no extension if (strchr(p, '/')) return ""; // the '.' is part of a directory. return p + 1; } } //========================================================================== // // GetFileContainer // //========================================================================== int FileSystem::GetFileContainer (int lump) const { if ((size_t)lump >= FileInfo.Size()) return -1; return FileInfo[lump].rfnum; } //========================================================================== // // GetFilesInFolder // // Gets all lumps within a single folder in the hierarchy. // If 'atomic' is set, it treats folders as atomic, i.e. only the // content of the last found resource file having the given folder name gets used. // //========================================================================== static int folderentrycmp(const void *a, const void *b) { auto A = (FolderEntry*)a; auto B = (FolderEntry*)b; return strcmp(A->name, B->name); } //========================================================================== // // // //========================================================================== unsigned FileSystem::GetFilesInFolder(const char *inpath, TArray &result, bool atomic) const { FString path = inpath; FixPathSeperator(path); path.ToLower(); if (path[path.Len() - 1] != '/') path += '/'; result.Clear(); for (unsigned i = 0; i < FileInfo.Size(); i++) { if (FileInfo[i].longName.IndexOf(path) == 0) { // Only if it hasn't been replaced. if ((unsigned)fileSystem.CheckNumForFullName(FileInfo[i].longName) == i) { result.Push({ FileInfo[i].longName.GetChars(), i }); } } } if (result.Size()) { int maxfile = -1; if (atomic) { // Find the highest resource file having content in the given folder. for (auto & entry : result) { int thisfile = fileSystem.GetFileContainer(entry.lumpnum); if (thisfile > maxfile) maxfile = thisfile; } // Delete everything from older files. for (int i = result.Size() - 1; i >= 0; i--) { if (fileSystem.GetFileContainer(result[i].lumpnum) != maxfile) result.Delete(i); } } qsort(result.Data(), result.Size(), sizeof(FolderEntry), folderentrycmp); } return result.Size(); } //========================================================================== // // GetFileData // // Loads the lump into a TArray and returns it. // //========================================================================== TArray FileSystem::GetFileData(int lump, int pad) { if ((size_t)lump >= FileInfo.Size()) return TArray(); auto lumpr = OpenFileReader(lump); auto size = lumpr.GetLength(); TArray data(size + pad, true); auto numread = lumpr.Read(data.Data(), size); if (numread != size) { I_Error("GetFileData: only read %ld of %ld on lump %i\n", numread, size, lump); } if (pad > 0) memset(&data[size], 0, pad); return data; } //========================================================================== // // W_ReadFile // // Loads the lump into the given buffer, which must be >= W_LumpLength(). // //========================================================================== void FileSystem::ReadFile (int lump, void *dest) { auto lumpr = OpenFileReader (lump); auto size = lumpr.GetLength (); auto numread = lumpr.Read (dest, size); if (numread != size) { I_Error ("W_ReadFile: only read %ld of %ld on lump %i\n", numread, size, lump); } } //========================================================================== // // ReadFile - variant 2 // // Loads the lump into a newly created buffer and returns it. // //========================================================================== FileData FileSystem::ReadFile (int lump) { return FileData(FString(ELumpNum(lump))); } //========================================================================== // // OpenFileReader // // uses a more abstract interface to allow for easier low level optimization later // //========================================================================== FileReader FileSystem::OpenFileReader(int lump) { if ((unsigned)lump >= (unsigned)FileInfo.Size()) { I_Error("OpenFileReader: %u >= NumEntries", lump); } auto rl = FileInfo[lump].lump; auto rd = rl->GetReader(); if (rl->RefCount == 0 && rd != nullptr && !rd->GetBuffer() && !(rl->Flags & LUMPF_COMPRESSED)) { FileReader rdr; rdr.OpenFilePart(*rd, rl->GetFileOffset(), rl->LumpSize); return rdr; } return rl->NewReader(); // This always gets a reader to the cache } FileReader FileSystem::ReopenFileReader(int lump, bool alwayscache) { if ((unsigned)lump >= (unsigned)FileInfo.Size()) { I_Error("ReopenFileReader: %u >= NumEntries", lump); } auto rl = FileInfo[lump].lump; auto rd = rl->GetReader(); if (rl->RefCount == 0 && rd != nullptr && !rd->GetBuffer() && !alwayscache && !(rl->Flags & LUMPF_COMPRESSED)) { int fileno = fileSystem.GetFileContainer(lump); const char *filename = fileSystem.GetResourceFileFullName(fileno); FileReader fr; if (fr.OpenFile(filename, rl->GetFileOffset(), rl->LumpSize)) { return fr; } } return rl->NewReader(); // This always gets a reader to the cache } FileReader FileSystem::OpenFileReader(const char* name) { auto lump = CheckNumForFullName(name); if (lump < 0) return FileReader(); else return OpenFileReader(lump); } //========================================================================== // // GetFileReader // // Retrieves the File reader object to access the given WAD // Careful: This is only useful for real WAD files! // //========================================================================== FileReader *FileSystem::GetFileReader(int rfnum) { if ((uint32_t)rfnum >= Files.Size()) { return NULL; } return Files[rfnum]->GetReader(); } //========================================================================== // // GetResourceFileName // // Returns the name of the given wad. // //========================================================================== const char *FileSystem::GetResourceFileName (int rfnum) const noexcept { const char *name, *slash; if ((uint32_t)rfnum >= Files.Size()) { return NULL; } name = Files[rfnum]->FileName; slash = strrchr (name, '/'); return (slash != NULL && slash[1] != 0) ? slash+1 : name; } //========================================================================== // // //========================================================================== int FileSystem::GetFirstEntry (int rfnum) const noexcept { if ((uint32_t)rfnum >= Files.Size()) { return 0; } return Files[rfnum]->GetFirstEntry(); } //========================================================================== // // //========================================================================== int FileSystem::GetLastEntry (int rfnum) const noexcept { if ((uint32_t)rfnum >= Files.Size()) { return 0; } return Files[rfnum]->GetFirstEntry() + Files[rfnum]->LumpCount() - 1; } //========================================================================== // // //========================================================================== int FileSystem::GetEntryCount (int rfnum) const noexcept { if ((uint32_t)rfnum >= Files.Size()) { return 0; } return Files[rfnum]->LumpCount(); } //========================================================================== // // GetResourceFileFullName // // Returns the name of the given wad, including any path // //========================================================================== const char *FileSystem::GetResourceFileFullName (int rfnum) const noexcept { if ((unsigned int)rfnum >= Files.Size()) { return nullptr; } return Files[rfnum]->FileName; } //========================================================================== // // Clones an existing resource with different properties // //========================================================================== bool FileSystem::CreatePathlessCopy(const char *name, int id, int /*flags*/) { FString name2, type2, path; // The old code said 'filename' and ignored the path, this looked like a bug. auto lump = FindFile(name); if (lump < 0) return false; // Does not exist. auto oldlump = FileInfo[lump]; int slash = oldlump.longName.LastIndexOf('/'); if (slash == -1) return true; // already is pathless. // just create a new reference to the original data with a different name. oldlump.longName = oldlump.longName.Mid(slash + 1); oldlump.resourceId = id; FileInfo.Push(oldlump); return true; } // FileData ----------------------------------------------------------------- FileData::FileData () { } FileData::FileData (const FileData ©) { Block = copy.Block; } FileData &FileData::operator = (const FileData ©) { Block = copy.Block; return *this; } FileData::FileData (const FString &source) : Block (source) { } FileData::~FileData () { } FString::FString (ELumpNum lumpnum) { auto lumpr = fileSystem.OpenFileReader ((int)lumpnum); auto size = lumpr.GetLength (); AllocBuffer (1 + size); auto numread = lumpr.Read (&Chars[0], size); Chars[size] = '\0'; if (numread != size) { I_Error ("ConstructStringFromLump: Only read %ld of %ld bytes on lump %i (%s)\n", numread, size, lumpnum, fileSystem.GetFileFullName((int)lumpnum)); } } //========================================================================== // // PrintLastError // //========================================================================== #ifdef _WIN32 //#define WIN32_LEAN_AND_MEAN //#include extern "C" { __declspec(dllimport) unsigned long __stdcall FormatMessageA( unsigned long dwFlags, const void *lpSource, unsigned long dwMessageId, unsigned long dwLanguageId, char **lpBuffer, unsigned long nSize, va_list *Arguments ); __declspec(dllimport) void * __stdcall LocalFree (void *); __declspec(dllimport) unsigned long __stdcall GetLastError (); } static void PrintLastError () { char *lpMsgBuf; FormatMessageA(0x1300 /*FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS*/, NULL, GetLastError(), 1 << 10 /*MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT)*/, // Default language &lpMsgBuf, 0, NULL ); Printf (TEXTCOLOR_RED " %s\n", lpMsgBuf); // Free the buffer. LocalFree( lpMsgBuf ); } #else static void PrintLastError () { Printf (TEXTCOLOR_RED " %s\n", strerror(errno)); } #endif //========================================================================== // // NBlood style lookup functions // //========================================================================== FResourceLump* FileSystem::GetFileAt(int no) { return FileInfo[no].lump; }