// makewad.c // // Reads a wad specification from stdin. // Produces a wad file -or- writes a Makefile to stdout. #include #include #include #include #include #include #include "zip.h" #define MAX_LUMPS 4096 typedef struct { char magic[4]; unsigned int numlumps; int infotableofs; } wadinfo_t; typedef struct { int filepos; unsigned int size; char name[8]; } filelump_t; /* // appendlump(wadfile, filename): // // open the file by filename, write all of its contents to the wadfile // // returns: 0 = success, 1 = error */ int appendlump (FILE *wadfile, char *filename) { char readbuf[64*1024]; FILE *lumpfile; size_t readlen; int ret = 0; lumpfile = fopen (filename, "rb"); if (lumpfile == NULL) { fprintf (stderr, "Could not open %s: %s\n", filename, strerror(errno)); return 1; } while (lumpfile != NULL) { // try to read a chunk of data readlen = fread (readbuf, 1, sizeof(readbuf), lumpfile); // if we reached the end, or hit an error if (readlen < sizeof(readbuf)) { // if it's an error, if (ferror (lumpfile)) { // diagnose fprintf (stderr, "Error reading %s: %s\n", filename, strerror(errno)); // set return code to error ret |= 1; } // in any case, close the lump file to break the loop fclose (lumpfile); lumpfile = NULL; } // write whatever data we have in the buffer // if we hit an error (less bytes written than given) if (fwrite (readbuf, 1, readlen, wadfile) < readlen) { // diagnose fprintf (stderr, "Error writing to wad: %s\n", strerror(errno)); // close the lump file to break the loop fclose (lumpfile); lumpfile = NULL; // set return code to error ret |= 1; } // if the lump file got closed, the loop exits } return ret; } /* // appendtozip(zipFile, zipname, filename): // // write a given lump file (filename) to the zipFile as zipname // // zipFile: zip object to be written to // // zipname: name of the file inside the zip // filename: file to read data from // // returns: 0 = success, 1 = error */ int appendtozip (zipFile zipfile, const char * zipname, const char *filename) { char *readbuf; FILE *lumpfile; size_t readlen; int ret = 0; size_t len; zip_fileinfo zip_inf; time_t currenttime; struct tm * ltime; // clear zip_inf structure memset(&zip_inf, 0, sizeof(zip_inf)); // try to determine local time time(¤ttime); ltime = localtime(¤ttime); // if succeeded, if (ltime != NULL) { // put it into the zip_inf structure zip_inf.tmz_date.tm_sec = ltime->tm_sec; zip_inf.tmz_date.tm_min = ltime->tm_min; zip_inf.tmz_date.tm_hour = ltime->tm_hour; zip_inf.tmz_date.tm_mday = ltime->tm_mday; zip_inf.tmz_date.tm_mon = ltime->tm_mon; zip_inf.tmz_date.tm_year = ltime->tm_year; } // lumpfile = source file lumpfile = fopen (filename, "rb"); if (lumpfile == NULL) { fprintf (stderr, "Could not open %s: %s\n", filename, strerror(errno)); return 1; } // len = source size fseek (lumpfile, 0, SEEK_END); len = ftell(lumpfile); fseek (lumpfile, 0, SEEK_SET); // allocate a buffer for the whole source file readbuf = (char*)malloc(len); if (readbuf == NULL) { fclose(lumpfile); fprintf (stderr, "Could not allocate %d bytes\n", len); return 1; } // read the whole source file into buffer readlen = fread (readbuf, 1, len, lumpfile); fclose(lumpfile); // if read less bytes than expected, if (readlen != len) { // diagnose and return error free (readbuf); fprintf (stderr, "Unable to read %s\n", filename); return 1; } // file loaded // create zip entry, giving entry name and zip_inf data if (Z_OK != zipOpenNewFileInZip(zipfile, zipname, &zip_inf, NULL, 0, NULL, 0, NULL, Z_DEFLATED, Z_BEST_COMPRESSION)) { free (readbuf); fprintf (stderr, "Unable to open zip for writing %s\n", filename); return 1; } // write data into zipfile (zipfile remembers the state) if (Z_OK != zipWriteInFileInZip(zipfile, readbuf, (unsigned)len)) { free (readbuf); fprintf (stderr, "Unable to write %s to zip\n", filename); return 1; } // done writing data free (readbuf); // close the zip entry if (Z_OK != zipCloseFileInZip(zipfile)) { fprintf (stderr, "Unable to close %s in zip\n", filename); return 1; } // all done return 0; } /* // buildwad(listfile, listfilename, makecmd, makefile) // // go through the listfile, either: // writing dependencies (listfile + lumps with files) into a makefile, // -or- // writing lumps into a wad/zip file // // listfile: already opened source file // listfilename: filename, if any - only for the makefile // makecmd: given as argv[0] - only for the makefile // makefile: output filename for makefile. determines mode: // - if specified, we're writing deps into a makefile // - otherwise, we're writing lumps into a wad/zip // */ int buildwad (FILE *listfile, char *listfilename, char *makecmd, char *makefile) { // destination we're writing output into - // one of these: zipFile zipfile = NULL; FILE *wadfile = NULL; wadinfo_t header; filelump_t directory[MAX_LUMPS]; char str[256]; // buffer for reading listfile line by line char *pt; char *lumpname, *filename; int lineno = 0; int ret = 0; int i; // prepare PWAD data strncpy (header.magic, "PWAD", 4); header.infotableofs = 0; header.numlumps = 0; memset (directory, 0, sizeof(directory)); // read the listfile line by line while (fgets (str, sizeof(str), listfile)) { lineno++; // counting lines for diagnostic purposes // Strip comments pt = strchr (str, '#'); if (pt) *pt = 0; // Strip trailing whitespace pt = str + strlen (str) - 1; while (pt >= str && isspace(*pt)) pt--; if (pt < str) continue; pt[1] = 0; // Skip leading whitespace pt = str; while (isspace(*pt)) pt++; if (*pt == '@') { // Rest of line is wadfile to create if (wadfile != NULL || zipfile != NULL) { fprintf (stderr, "Line %d: Tried to reopen wadfile as %s.\n", lineno, pt + 1); if (wadfile != NULL) fclose (wadfile); if (zipfile != NULL) zipClose (zipfile, NULL); return 1; } if (!makefile) // if it's not a makefile, { int ln = (int)strlen(pt+1); filename = pt+1; if (ln >= 4) { // If the output file has an extension '.zip' or '.pk3' it will be in Zip format. if (!stricmp(filename+ln-3, "ZIP") || !stricmp(filename+ln-3, "PK3")) { zipfile = zipOpen(filename, APPEND_STATUS_CREATE); if (zipfile == NULL) { fprintf (stderr, "Line %d: Could not open %s: %s\n", lineno, filename, strerror(errno)); return 1; } } } } else filename = makefile; if (!zipfile) // if we didn't end up opening zip, it's a regular file { // open wadfile wadfile = fopen (filename, makefile ? "w" : "wb"); if (wadfile == NULL) { fprintf (stderr, "Line %d: Could not open %s: %s\n", lineno, filename, strerror(errno)); return 1; } if (makefile) { // Write out the only rule the makefile has fprintf (wadfile, "%s: %s", pt+1, listfilename); } else { // The correct header will be written once the wad is complete fwrite (&header, sizeof(header), 1, wadfile); } } continue; } // @ // Everything up to the next whitespace is the lump name lumpname = pt; filename = NULL; while (*pt && !isspace(*pt)) pt++; // If there is more, skip whitespace and use the remainder of the line // as the file to insert into the lump. If no filename is given, then // a 0-length marker lump is inserted. if (*pt) { *pt = 0; filename = pt + 1; while (*filename && isspace(*filename)) filename++; if (*filename == 0) filename = NULL; } // must have output selected if (wadfile == NULL && zipfile == NULL) { fprintf (stderr, "Line %d: No wad specified before lumps.\n", lineno); return 1; } // if we're writing a makefile, if (makefile) { // and the lump has a filename, if (filename != NULL) { // add it as a dependency (with quotes, if needed) if (strchr (filename, ' ')) { fprintf (wadfile, " \\\n\t\"%s\"", filename); } else { fprintf (wadfile, " \\\n\t%s", filename); } } } else // not writing a makefile { if (zipfile == NULL) // must be a wadfile { // convert lumpname to uppercase for (i = 0; lumpname[i]; ++i) { lumpname[i] = toupper(lumpname[i]); } // put name into directory entry strncpy (directory[header.numlumps].name, lumpname, 8); // put filepos into directory entry directory[header.numlumps].filepos = ftell (wadfile); // if filename given, if (filename != NULL) { // append data to the wadfile ret |= appendlump (wadfile, filename); } // put size into directory entry (how many bytes were just written) directory[header.numlumps].size = ftell (wadfile) - directory[header.numlumps].filepos; } else if (filename != NULL) // writing a zip, and filename is non-null { // convert lumpname to lowercase for (i = 0; lumpname[i]; ++i) { lumpname[i] = tolower(lumpname[i]); } // add lump data to the zip ret |= appendtozip(zipfile, lumpname, filename); } // count all lumps header.numlumps++; } } // end of line-by-line reading // the finishing touches: // - makefile: terminate the line, and write the action line // - unzipped wad: write the directory at the end, // and update the header with directory's position // - zipped wad: just close it // if we were writing a plain file, if (wadfile != NULL) { // if it's makefile, if (makefile) { // terminate the dependencies line, // and write the action command fprintf (wadfile, "\n\t%s %s\n", makecmd, listfilename); } else // otherwise, it's plain wad { // the directory of lumps will be written at the end, // starting at the current position - put it into the header header.infotableofs = ftell (wadfile); // swap endianness, if needed #ifdef WORDS_BIGENDIAN #define SWAP(x) ((((x)>>24)|(((x)>>8) & 0xff00)|(((x)<<8) & 0xff0000)|((x)<<24))) for (i = 0; i < header.numlumps; ++i) { directory[i].filepos = SWAP(directory[i].filepos); directory[i].size = SWAP(directory[i].size); } #endif // write the whole directory of lumps if (fwrite (directory, sizeof(directory[0]), header.numlumps, wadfile) != header.numlumps) { // failed to write the whole directory fprintf (stderr, "Error writing to wad: %s\n", strerror(errno)); ret |= 1; } else // success - seek to 0 and rewrite the header, now with offset { // endianness #ifdef WORDS_BIGENDIAN SWAP(header.infotableofs); SWAP(header.numlumps); #endif // seek to 0 fseek (wadfile, 0, SEEK_SET); // rewrite the header if (fwrite (&header, sizeof(header), 1, wadfile) != 1) { fprintf (stderr, "Error writing to wad: %s\n", strerror(errno)); ret |= 1; } } } // plain wad fclose (wadfile); } // wadfile!=NULL - wad or makefile else if (zipfile != NULL) { // zip - just close it zipClose(zipfile, NULL); } return ret; } #if !defined(_MSC_VER) #define __cdecl #endif int __cdecl main (int argc, char **argv) { FILE *listfile = NULL; char *listfilename = NULL; char *makefile = NULL; int ret; int i; for (i = 1; i < argc; ++i) { if (strcmp (argv[i], "-make") == 0) { if (i >= argc-1) { goto baduse; } makefile = argv[++i]; } else if (listfile == NULL) { listfilename = argv[i]; listfile = fopen (listfilename, "r"); if (listfile == NULL) { fprintf (stderr, "Can't open %s: %s\n", listfilename, strerror(errno)); return 1; } } else { fclose (listfile); goto baduse; } } if (makefile != NULL && listfile == NULL) { fprintf (stderr, "You must specify a listfile if you want a makefile\n"); return 1; } ret = buildwad (listfile ? listfile : stdin, listfilename, argv[0], makefile); if (listfile != NULL) { fclose (listfile); } return ret; baduse: fprintf (stderr, "Usage: makewad [-make makefile] [listfile]\n"); return 1; }