/* Copyright (c) 1990-1999 Info-ZIP. All rights reserved. See the accompanying file LICENSE, version 1999-Oct-05 or later (the contents of which are also included in zip.h) for terms of use. If, for some reason, both of these files are missing, the Info-ZIP license also may be found at: ftp://ftp.cdrom.com/pub/infozip/license.html */ #include "zip.h" #ifndef UTIL /* the companion #endif is a bit of ways down ... */ #include #include #include #include #include #include #define PAD 0 #define PATH_END '/' extern char *label; /* defined in fileio.c */ local ulg label_time = 0; local ulg label_mode = 0; local time_t label_utim = 0; local char *readd(d) DIR *d; /* directory stream to read from */ /* Return a pointer to the next name in the directory stream d, or NULL if no more entries or an error occurs. */ { struct dirent *e; e = readdir(d); return e == NULL ? (char *) NULL : e->d_name; } local char *getVolumeLabel(drive, vtime, vmode, utim) int drive; /* drive name: 'A' .. 'Z' or '\0' for current drive */ ulg *vtime; /* volume label creation time (DOS format) */ ulg *vmode; /* volume label file mode */ time_t utim;/* volume label creation time (UNIX format) */ /* If a volume label exists for the given drive, return its name and set its time and mode. The returned name must be static data. */ { static char vol[14]; _DTA *dtaptr; if (drive) { vol[0] = (char)drive; strcpy(vol+1, ":/"); } else { strcpy(vol, "/"); } strcat(vol, "*.*"); if (Fsfirst(vol, FA_LABEL) == 0) { dtaptr = Fgetdta(); strncpy(vol, dtaptr->dta_name, sizeof(vol)-1); *vtime = ((ulg)dtaptr->dta_date << 16) | ((ulg)dtaptr->dta_time & 0xffff); *vmode = (ulg)dtaptr->dta_attribute; return vol; } return NULL; } char GetFileMode(char *name) { struct stat sb; sb.st_attr = 0; Fxattr(linkput ? 1 : 0, name, &sb); if (errno == EINVAL) { _DTA *dtaptr, *old; old = Fgetdta(); Fsfirst(name, FA_RDONLY+FA_HIDDEN+FA_SYSTEM+FA_DIR); dtaptr = Fgetdta(); sb.st_attr = dtaptr->dta_attribute; Fsetdta(old); } return sb.st_attr & 0x3f; } int wild2(w) char *w; /* path/pattern to match */ /* If not in exclude mode, expand the pattern based on the contents of the file system. Return an error code in the ZE_ class. */ { DIR *d; /* stream for reading directory */ char *e; /* name found in directory */ int r; /* temporary variable */ char *n; /* constructed name from directory */ int f; /* true if there was a match */ char *a; /* alloc'ed space for name */ char *p; /* path */ char *q; /* name */ char v[5]; /* space for device current directory */ if (volume_label == 1) { volume_label = 2; label = getVolumeLabel(w[1] == ':' ? to_up(w[0]) : '\0', &label_time, &label_mode, &label_utim); if (label != NULL) { newname(label, 0, 0); } if (w[1] == ':' && w[2] == '\0') return ZE_OK; /* "zip -$ foo a:" can be used to force drive name */ } /* special handling of stdin request */ if (strcmp(w, "-") == 0) /* if compressing stdin */ return newname(w, 0, 0); /* Allocate and copy pattern */ if ((p = a = malloc(strlen(w) + 1)) == NULL) return ZE_MEM; strcpy(p, w); /* Normalize path delimiter as '/'. */ for (q = p; *q; q++) /* use / consistently */ if (*q == '\\') *q = '/'; /* Only name can have special matching characters */ if ((q = isshexp(p)) != NULL && (strrchr(q, '/') != NULL || strrchr(q, ':') != NULL)) { free((zvoid *)a); return ZE_PARMS; } /* Separate path and name into p and q */ if ((q = strrchr(p, '/')) != NULL && (q == p || q[-1] != ':')) { *q++ = '\0'; /* path/name -> path, name */ if (*p == '\0') /* path is just / */ p = strcpy(v, "/."); } else if ((q = strrchr(p, ':')) != NULL) { /* has device and no or root path */ *q++ = '\0'; p = strcat(strcpy(v, p), ":"); /* copy device as path */ if (*q == '/') /* -> device:/., name */ { strcat(p, "/"); q++; } strcat(p, "."); } else if (recurse && (strcmp(p, ".") == 0 || strcmp(p, "..") == 0)) { /* current or parent directory */ /* I can't understand Mark's code so I am adding a hack here to get * "zip -r foo ." to work. Allow the dubious "zip -r foo .." but * reject "zip -rm foo ..". */ if (dispose && strcmp(p, "..") == 0) ziperr(ZE_PARMS, "cannot remove parent directory"); q = "*.*"; } else /* no path or device */ { q = p; p = strcpy(v, "."); } if (recurse && *q == '\0') { q = "*.*"; } /* Search that level for matching names */ if ((d = opendir(p)) == NULL) { free((zvoid *)a); return ZE_MISS; } if ((r = strlen(p)) > 1 && (strcmp(p + r - 2, ":.") == 0 || strcmp(p + r - 2, "/.") == 0)) *(p + r - 1) = '\0'; f = 0; while ((e = readd(d)) != NULL) { if (strcmp(e, ".") && strcmp(e, "..") && MATCH(q, e, 0)) { f = 1; if (strcmp(p, ".") == 0) { /* path is . */ r = procname(e, 0); /* name is name */ if (r) { f = 0; break; } } else { if ((n = malloc(strlen(p) + strlen(e) + 2)) == NULL) { free((zvoid *)a); closedir(d); return ZE_MEM; } n = strcpy(n, p); if (n[r = strlen(n) - 1] != '/' && n[r] != ':') strcat(n, "/"); r = procname(strcat(n, e), 0); /* name is path/name */ free((zvoid *)n); if (r) { f = 0; break; } } } } closedir(d); /* Done */ free((zvoid *)a); return f ? ZE_OK : ZE_MISS; } #include #include void regerror( char ZCONST *msg ) { perror( msg ); } static int ret; static regexp *regptr; static short is_w, ind_w; static char fullpath[FILENAME_MAX], file_arg[FILENAME_MAX]; #define FTW_F 0 #define FTW_D 1 #define FTW_DNR 2 #define FTW_NS 3 static int ftwfunc( struct stat *stats, int ftw_status ) { char *path = &fullpath[0]; if (strncmp(path, "./", 2) == 0) path += 2; switch (ftw_status) { case FTW_NS: zipwarn("can't stat file: ", path); ret = ZE_MISS; return 0; case FTW_F: if (!is_w || regexec(regptr, path, 1)) { #if 0 char fn[FILENAME_MAX]; int k; if (S_ISLNK(stats->st_mode) && (k = readlink(path, fn, FILENAME_MAX)) > 0) { int l = strlen(path); fn[k] = '\0'; strcat(strcat(path, " -> "), fn); ret = newname(path, 0, 0); /* procname(path, 0); */ path[l] = '\0'; } else #endif ret = newname(path, 0, 0); /* procname(path, 0); */ } return 0; case FTW_DNR: zipwarn("can't open directory: ", path); ret = ZE_MISS; return 0; case FTW_D: if (strcmp(path, ".") == 0) return 0; if (is_w && ind_w > 0 && strncmp(path, file_arg, ind_w) != 0) return 4; } return 0; } static int myftw( int depth ) { register DIR *dirp; struct dirent *entp; struct stat stats; register char *p,*q; register long i; if (LSSTAT(fullpath, &stats) < 0) return ftwfunc(&stats, FTW_NS); if (!S_ISDIR(stats.st_mode)) return ftwfunc(&stats, FTW_F); if ((dirp = opendir(fullpath)) == NULL) return ftwfunc(&stats, FTW_DNR); if (i = ftwfunc(&stats, FTW_D)) { closedir(dirp); return (i == 4 ? 0 : (int)i); } i = strlen(fullpath); p = &fullpath[i]; *p++ = '/'; *p = '\0'; if (dirnames && i > 1) { q = (strncmp(fullpath, "./", 2) == 0 ? &fullpath[2] : &fullpath[0]); ret = newname(q, 1, 0); } i = 0; while (depth > 0 && (entp = readdir(dirp)) != 0) if (strcmp(entp->d_name,".") != 0 && strcmp(entp->d_name,"..") != 0) { strcpy(p, entp->d_name); if (i = myftw(depth-1)) depth = 0; /* force User's finish */ } closedir(dirp); return (int)i; } int wild( char *p ) { char *d; ret = ZE_OK; if (p == NULL) p = "*"; if (strcmp(p, "-") == 0) /* if compressing stdin */ ret = newname(p, 0, 0); strcpy(fullpath, p); /* now turning UNIX-Wildcards into basic regular expressions */ for (is_w = ind_w = 0, d = &file_arg[0]; *p; d++, p++) switch (*p) { case '*': *d++ = '.'; *d = *p; is_w = 1; break; case '?': *d = '.'; is_w = 1; break; case '[': *d = *p; if (*(p+1) == '!') { *++d = '^'; p++; } is_w = 1; break; case '.': *d++ = '\\'; *d = *p; break; default : *d = *p; if (!is_w) ind_w++; } *++d = '\0'; if (is_w) { strcat( file_arg, "$" ); /* to get things like *.[ch] work */ if ((regptr = regcomp( file_arg )) == NULL) return ZE_MEM; strcpy( fullpath, "." ); myftw( recurse ? 99 : 1 ); free(regptr); } else if (recurse) { myftw( 99 ); } else myftw( 1 ); /* ret = procname( fullpath, 0 ); */ return ret; } int procname(n, caseflag) char *n; /* name to process */ int caseflag; /* true to force case-sensitive match */ /* Process a name or sh expression to operate on (or exclude). Return an error code in the ZE_ class. */ { char *a; /* path and name for recursion */ DIR *d; /* directory stream from opendir() */ char *e; /* pointer to name from readd() */ int m; /* matched flag */ char *p; /* path for recursion */ struct stat s; /* result of stat() */ struct zlist far *z; /* steps through zfiles list */ if (strcmp(n, "-") == 0) /* if compressing stdin */ return newname(n, 0, caseflag); else if (LSSTAT(n, &s)) { /* Not a file or directory--search for shell expression in zip file */ p = ex2in(n, 0, (int *)NULL); /* shouldn't affect matching chars */ m = 1; for (z = zfiles; z != NULL; z = z->nxt) { if (MATCH(p, z->iname, caseflag)) { z->mark = pcount ? filter(z->zname, caseflag) : 1; if (verbose) fprintf(mesg, "zip diagnostic: %scluding %s\n", z->mark ? "in" : "ex", z->name); m = 0; } } free((zvoid *)p); return m ? ZE_MISS : ZE_OK; } /* Live name--use if file, recurse if directory */ for (p = n; *p; p++) /* use / consistently */ if (*p == '\\') *p = '/'; if (!S_ISDIR(s.st_mode)) { /* add or remove name of file */ if ((m = newname(n, 0, caseflag)) != ZE_OK) return m; } else { /* Add trailing / to the directory name */ if ((p = malloc(strlen(n)+2)) == NULL) return ZE_MEM; if (strcmp(n, ".") == 0) { *p = '\0'; /* avoid "./" prefix and do not create zip entry */ } else { strcpy(p, n); a = p + strlen(p); if (a[-1] != '/') strcpy(a, "/"); if (dirnames && (m = newname(p, 1, caseflag)) != ZE_OK) { free((zvoid *)p); return m; } } /* recurse into directory */ if (recurse && (d = opendir(n)) != NULL) { while ((e = readd(d)) != NULL) { if (strcmp(e, ".") && strcmp(e, "..")) { if ((a = malloc(strlen(p) + strlen(e) + 1)) == NULL) { closedir(d); free((zvoid *)p); return ZE_MEM; } strcat(strcpy(a, p), e); if ((m = procname(a, caseflag)) != ZE_OK) /* recurse on name */ { if (m == ZE_MISS) zipwarn("name not matched: ", a); else ziperr(m, a); } free((zvoid *)a); } } closedir(d); } free((zvoid *)p); } /* (s.st_mode & S_IFDIR) == 0) */ return ZE_OK; } char *ex2in(x, isdir, pdosflag) char *x; /* external file name */ int isdir; /* input: x is a directory */ int *pdosflag; /* output: force MSDOS file attributes? */ /* Convert the external file name to a zip file name, returning the malloc'ed string or NULL if not enough memory. */ { char *n; /* internal file name (malloc'ed) */ char *t, *p; /* shortened name */ int dosflag; dosflag = 0; /* Find starting point in name before doing malloc */ t = *x && *(x + 1) == ':' ? x + 2 : x; while (*t == '/' || *t == '\\') t++; /* Make changes, if any, to the copied name (leave original intact) */ for (n = t; *n; n++) if (*n == '\\') *n = '/'; if (!pathput) t = last(t, PATH_END); /* Malloc space for internal name and copy it */ if ((n = malloc(strlen(t) + 1)) == NULL) return NULL; strcpy(n, t); #if 0 if (p = strstr(t, " -> ")) /* shorten "link -> data" to "link" */ *p = '\0'; #endif if (dosify) msname(n); /* Returned malloc'ed name */ if (pdosflag) *pdosflag = dosflag; return n; } char *in2ex(n) char *n; /* internal file name */ /* Convert the zip file name to an external file name, returning the malloc'ed string or NULL if not enough memory. */ { char *x; /* external file name */ if ((x = malloc(strlen(n) + 1 + PAD)) == NULL) return NULL; strcpy(x, n); return x; } void stamp(f, d) char *f; /* name of file to change */ ulg d; /* dos-style time to change it to */ /* Set last updated and accessed time of file f to the DOS time d. */ { struct utimbuf u; /* argument for utime() const ?? */ /* Convert DOS time to time_t format in u[0] and u[1] */ u.actime = u.modtime = dos2unixtime(d); /* Set updated and accessed times of f */ utime(f, &u); } ulg filetime(f, a, n, t) char *f; /* name of file to get info on */ ulg *a; /* return value: file attributes */ long *n; /* return value: file size */ iztimes *t; /* return value: access, modific. and creation times */ /* If file *f does not exist, return 0. Else, return the file's last modified date and time as an MSDOS date and time. The date and time is returned in a long with the date most significant to allow unsigned integer comparison of absolute times. Also, if a is not a NULL pointer, store the file attributes there, with the high two bytes being the Unix attributes, and the low byte being a mapping of that to DOS attributes. If n is not NULL, store the file size there. If t is not NULL, the file's access, modification and creation times are stored there as UNIX time_t values. If f is "-", use standard input as the file. If f is a device, return a file size of -1 */ { struct stat s; /* results of stat() */ /* convert FNMAX to malloc - 11/8/04 EG */ char *name; int len = strlen(f); if (f == label) { if (a != NULL) *a = label_mode; if (n != NULL) *n = -2L; /* convention for a label name */ if (t != NULL) t->atime = t->mtime = t->ctime = label_utim; return label_time; } if ((name = malloc(len + 1)) == NULL) { ZIPERR(ZE_MEM, "filetime"); } strcpy(name, f); if (name[len - 1] == '/') name[len - 1] = '\0'; /* not all systems allow stat'ing a file with / appended */ if (strcmp(f, "-") == 0) { if (fstat(fileno(stdin), &s) != 0) { free(name); error("fstat(stdin)"); } } else if (LSSTAT(name, &s) != 0) { /* Accept about any file kind including directories * (stored with trailing / with -r option) */ free(name); return 0; } if (a != NULL) { /* *a = ((ulg)s.st_mode << 16) | (ulg)GetFileMode(name); */ *a = ((ulg)s.st_mode << 16) | (ulg)s.st_attr; } free(name); if (n != NULL) *n = S_ISREG(s.st_mode) ? s.st_size : -1L; if (t != NULL) { t->atime = s.st_atime; t->mtime = s.st_mtime; t->ctime = s.st_ctime; } return unix2dostime(&s.st_mtime); } int set_extra_field(z, z_utim) struct zlist far *z; iztimes *z_utim; /* create extra field and change z->att if desired */ { #ifdef USE_EF_UT_TIME #ifdef IZ_CHECK_TZ if (!zp_tz_is_valid) return ZE_OK; /* skip silently if no valid TZ info */ #endif if ((z->extra = (char *)malloc(EB_HEADSIZE+EB_UT_LEN(2))) == NULL) return ZE_MEM; if ((z->cextra = (char *)malloc(EB_HEADSIZE+EB_UT_LEN(1))) == NULL) return ZE_MEM; z->extra[0] = 'U'; z->extra[1] = 'T'; z->extra[2] = EB_UT_LEN(2); /* length of data part of e.f. */ z->extra[3] = 0; z->extra[4] = EB_UT_FL_MTIME | EB_UT_FL_ATIME; z->extra[5] = (char)(z_utim->mtime); z->extra[6] = (char)(z_utim->mtime >> 8); z->extra[7] = (char)(z_utim->mtime >> 16); z->extra[8] = (char)(z_utim->mtime >> 24); z->extra[9] = (char)(z_utim->atime); z->extra[10] = (char)(z_utim->atime >> 8); z->extra[11] = (char)(z_utim->atime >> 16); z->extra[12] = (char)(z_utim->atime >> 24); z->ext = (EB_HEADSIZE+EB_UX_LEN(2)); memcpy(z->cextra, z->extra, (EB_HEADSIZE+EB_UT_LEN(1))); z->cextra[EB_LEN] = EB_UT_LEN(1); z->cext = (EB_HEADSIZE+EB_UX_LEN(1)); return ZE_OK; #else /* !USE_EF_UT_TIME */ return (int)(z-z); #endif /* ?USE_EF_UT_TIME */ } int deletedir(d) char *d; /* directory to delete */ /* Delete the directory *d if it is empty, do nothing otherwise. Return the result of rmdir(), delete(), or system(). For VMS, d must be in format [x.y]z.dir;1 (not [x.y.z]). */ { return rmdir(d); } #endif /* !UTIL */ /******************************/ /* Function version_local() */ /******************************/ void version_local() { static ZCONST char CompiledWith[] = "Compiled with %s%s for %s%s%s%s.\n\n"; #ifdef __TURBOC__ char buf[40]; #endif printf(CompiledWith, #ifdef __GNUC__ "gcc ", __VERSION__, #else # if 0 "cc ", (sprintf(buf, " version %d", _RELEASE), buf), # else # ifdef __TURBOC__ "Turbo C", (sprintf(buf, " (0x%04x = %d)", __TURBOC__, __TURBOC__), buf), # else "unknown compiler", "", # endif # endif #endif #ifdef __MINT__ "Atari TOS/MiNT", #else "Atari TOS", #endif " (Atari ST/TT/Falcon030)", #ifdef __DATE__ " on ", __DATE__ #else "", "" #endif ); } /* end function version_local() */