#include "quakedef.h" #include "fs.h" #include "errno.h" #ifdef WEBSVONLY #define Z_Free free #define Z_Malloc malloc #else #if !defined(_WIN32) || defined(_SDL) #define VFSSTDIO_Open VFSOS_Open #define stdiofilefuncs osfilefuncs #endif #define FSSTDIO_OpenTemp FS_OpenTemp #endif typedef struct { vfsfile_t funcs; FILE *handle; } vfsstdiofile_t; static int VFSSTDIO_ReadBytes (struct vfsfile_s *file, void *buffer, int bytestoread) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; return fread(buffer, 1, bytestoread, intfile->handle); } static int VFSSTDIO_WriteBytes (struct vfsfile_s *file, const void *buffer, int bytestoread) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; return fwrite(buffer, 1, bytestoread, intfile->handle); } static qboolean VFSSTDIO_Seek (struct vfsfile_s *file, unsigned long pos) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; return fseek(intfile->handle, pos, SEEK_SET) == 0; } static unsigned long VFSSTDIO_Tell (struct vfsfile_s *file) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; return ftell(intfile->handle); } static void VFSSTDIO_Flush(struct vfsfile_s *file) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; fflush(intfile->handle); } static unsigned long VFSSTDIO_GetSize (struct vfsfile_s *file) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; unsigned int curpos; unsigned int maxlen; curpos = ftell(intfile->handle); fseek(intfile->handle, 0, SEEK_END); maxlen = ftell(intfile->handle); fseek(intfile->handle, curpos, SEEK_SET); return maxlen; } static void VFSSTDIO_Close(vfsfile_t *file) { vfsstdiofile_t *intfile = (vfsstdiofile_t*)file; fclose(intfile->handle); Z_Free(file); } vfsfile_t *FSSTDIO_OpenTemp(void) { FILE *f; vfsstdiofile_t *file; f = tmpfile(); if (!f) return NULL; file = Z_Malloc(sizeof(vfsstdiofile_t)); file->funcs.ReadBytes = VFSSTDIO_ReadBytes; file->funcs.WriteBytes = VFSSTDIO_WriteBytes; file->funcs.Seek = VFSSTDIO_Seek; file->funcs.Tell = VFSSTDIO_Tell; file->funcs.GetLen = VFSSTDIO_GetSize; file->funcs.Close = VFSSTDIO_Close; file->funcs.Flush = VFSSTDIO_Flush; file->handle = f; return (vfsfile_t*)file; } vfsfile_t *VFSSTDIO_Open(const char *osname, const char *mode) { FILE *f; vfsstdiofile_t *file; qboolean read = !!strchr(mode, 'r'); qboolean write = !!strchr(mode, 'w'); qboolean append = !!strchr(mode, 'a'); qboolean text = !!strchr(mode, 't'); char newmode[3]; int modec = 0; if (read) newmode[modec++] = 'r'; if (write) newmode[modec++] = 'w'; if (append) newmode[modec++] = 'a'; if (text) newmode[modec++] = 't'; else newmode[modec++] = 'b'; newmode[modec++] = '\0'; f = fopen(osname, newmode); if (!f) return NULL; file = Z_Malloc(sizeof(vfsstdiofile_t)); file->funcs.ReadBytes = strchr(mode, 'r')?VFSSTDIO_ReadBytes:NULL; file->funcs.WriteBytes = (strchr(mode, 'w')||strchr(mode, 'a'))?VFSSTDIO_WriteBytes:NULL; file->funcs.Seek = VFSSTDIO_Seek; file->funcs.Tell = VFSSTDIO_Tell; file->funcs.GetLen = VFSSTDIO_GetSize; file->funcs.Close = VFSSTDIO_Close; file->funcs.Flush = VFSSTDIO_Flush; file->handle = f; return (vfsfile_t*)file; } #ifndef WEBSVONLY static vfsfile_t *FSSTDIO_OpenVFS(void *handle, flocation_t *loc, const char *mode) { char diskname[MAX_OSPATH]; //path is already cleaned, as anything that gets a valid loc needs cleaning up first. snprintf(diskname, sizeof(diskname), "%s/%s", (char*)handle, loc->rawname); return VFSOS_Open(diskname, mode); } static void FSSTDIO_PrintPath(void *handle) { Con_Printf("%s\n", (char*)handle); } static void FSSTDIO_ClosePath(void *handle) { Z_Free(handle); } static int FSSTDIO_RebuildFSHash(const char *filename, int filesize, void *data) { if (filename[strlen(filename)-1] == '/') { //this is actually a directory char childpath[256]; sprintf(childpath, "%s*", filename); Sys_EnumerateFiles((char*)data, childpath, FSSTDIO_RebuildFSHash, data); return true; } if (!Hash_GetInsensative(&filesystemhash, filename)) { bucket_t *bucket = (bucket_t*)BZ_Malloc(sizeof(bucket_t) + strlen(filename)+1); strcpy((char *)(bucket+1), filename); #ifdef _WIN32 Q_strlwr((char *)(bucket+1)); #endif Hash_AddInsensative(&filesystemhash, (char *)(bucket+1), data, bucket); fs_hash_files++; } else fs_hash_dups++; return true; } static void FSSTDIO_BuildHash(void *handle) { Sys_EnumerateFiles(handle, "*", FSSTDIO_RebuildFSHash, handle); } static qboolean FSSTDIO_FLocate(void *handle, flocation_t *loc, const char *filename, void *hashedresult) { FILE *f; int len; char netpath[MAX_OSPATH]; if (hashedresult && (void *)hashedresult != handle) return false; /* if (!static_registered) { // if not a registered version, don't ever go beyond base if ( strchr (filename, '/') || strchr (filename,'\\')) continue; } */ // check a file in the directory tree snprintf (netpath, sizeof(netpath)-1, "%s/%s",(char*)handle, filename); f = fopen(netpath, "rb"); if (!f) return false; fseek(f, 0, SEEK_END); len = ftell(f); fclose(f); if (loc) { loc->len = len; loc->offset = 0; loc->index = 0; Q_strncpyz(loc->rawname, filename, sizeof(loc->rawname)); } return true; } static void FSSTDIO_ReadFile(void *handle, flocation_t *loc, char *buffer) { FILE *f; size_t result; f = fopen(loc->rawname, "rb"); if (!f) //err... return; fseek(f, loc->offset, SEEK_SET); result = fread(buffer, 1, loc->len, f); // do soemthing with result if (result != loc->len) Con_Printf("FSSTDIO_ReadFile() fread: Filename: %s, expected %i, result was %i (%i)\n",loc->rawname,loc->len,result,errno); fclose(f); } static int FSSTDIO_EnumerateFiles (void *handle, const char *match, int (*func)(const char *, int, void *), void *parm) { return Sys_EnumerateFiles(handle, match, func, parm); } searchpathfuncs_t stdiofilefuncs = { FSSTDIO_PrintPath, FSSTDIO_ClosePath, FSSTDIO_BuildHash, FSSTDIO_FLocate, FSSTDIO_ReadFile, FSSTDIO_EnumerateFiles, NULL, NULL, FSSTDIO_OpenVFS }; #endif