/* * Copyright (c) 1980 Regents of the University of California. * All rights reserved. The Berkeley software License Agreement * specifies the terms and conditions for redistribution. */ #if !defined(lint) && defined(DOSCCS) char copyright[] = "@(#) Copyright (c) 1980 Regents of the University of California.\n\ All rights reserved.\n"; static char sccsid[] = "@(#)ls.c 5.9.2 (2.11BSD GTE) 1996/12/23"; #endif /* * ls * * 4.2bsd version for symbolic links, variable length * directory entries, block size in the inode, etc. */ #include #include #include #include #include #include #include #define kbytes(size) (((size) + 1023) / 1024) struct afile { char ftype; /* file type, e.g. 'd', 'c', 'f' */ ino_t fnum; /* inode number of file */ short fmode; /* mode&~S_IFMT, perhaps ISARG */ u_short fflags; /* st_flags (uappnd, uchg, schg, ...) */ short fnl; /* number of links */ uid_t fuid; /* owner id */ gid_t fgid; /* group id */ off_t fsize; /* file size */ long fblks; /* number of blocks used */ time_t fmtime; /* time (modify or access or create) */ char *fname; /* file name */ char *flinkto; /* symbolic link value */ }; #define ISARG 0x8000 /* extra ``mode'' */ struct subdirs { char *sd_name; struct subdirs *sd_next; } *subdirs; char aflg, dflg, gflg, lflg, sflg, tflg, uflg, iflg, fflg, cflg, rflg = 1; char oflg, qflg, Aflg, Cflg, Fflg, Lflg, Rflg, usetabs; time_t now, sixmonthsago; char *dotp = "."; struct winsize win; int twidth; struct afile *gstat(); int fcmp(); char *cat(), *savestr(); char *fmtentry(); char *getname(), *getgroup(); main(argc, argv) int argc; char *argv[]; { extern int optind; struct afile *fp0, *fplast; register struct afile *fp; struct sgttyb sgbuf; int ch, i; time_t time(); Aflg = !getuid(); (void) time(&now); sixmonthsago = now - 6L*30L*24L*60L*60L; now += 60; twidth = 80; if (isatty(1)) { qflg = Cflg = 1; (void) gtty(1, &sgbuf); if (ioctl(1, TIOCGWINSZ, &win) != -1) twidth = (win.ws_col == 0 ? 80 : win.ws_col); if ((sgbuf.sg_flags & XTABS) != XTABS) usetabs = 1; } else usetabs = 1; while ((ch = getopt(argc, argv, "1ACLFRacdfgiloqrstu")) != EOF) switch((char)ch) { /* * The -1, -C, and -l options override each other so shell aliasing * works right. */ case '1': lflg = 0; Cflg = 0; break; case 'C': lflg = 0; Cflg = 1; break; case 'l': Cflg = 0; lflg++; break; case 'A': Aflg++; break; case 'L': Lflg++; break; case 'F': Fflg++; break; case 'R': Rflg++; break; case 'a': aflg++; break; case 'c': uflg = 0; /* -c overrides -u */ cflg++; break; case 'd': Rflg = 0; /* -d overrides -R */ dflg++; break; case 'f': fflg++; break; case 'g': gflg++; break; case 'i': iflg++; break; case 'o': oflg++; break; case 'q': qflg = 1; break; case 'r': rflg = -1; break; case 's': sflg++; break; case 't': tflg++; break; case 'u': cflg = 0; /* -u overrides -c */ uflg++; break; case '?': default: fputs("usage: ls [ -1ACLFRacdfgiloqrstu ] [ file ]\n", stderr); exit(1); } if (!lflg) oflg = 0; if (fflg) { Aflg++; aflg++; lflg = 0; sflg = 0; tflg = 0; } if (lflg) Cflg = 0; argc -= optind; argv += optind; if (argc == 0) { argc++; argv = &dotp; } fp = (struct afile *)calloc((u_int)argc, sizeof (struct afile)); if (fp == 0) { fputs("ls: out of memory\n", stderr); exit(1); } fp0 = fp; for (i = 0; i < argc; i++) { if (gstat(fp, *argv, 1, (int *)0)) { fp->fname = *argv; fp->fmode |= ISARG; fp++; } argv++; } fplast = fp; if (fflg == 0) qsort(fp0, fplast - fp0, sizeof (struct afile), fcmp); if (dflg) { formatf(fp0, fplast); exit(0); } if (fflg) fp = fp0; else { for (fp = fp0; fp < fplast && fp->ftype != 'd'; fp++) continue; formatf(fp0, fp); } if (fp < fplast) { if (fp > fp0) putchar('\n'); for (;;) { formatd(fp->fname, argc > 1); while (subdirs) { struct subdirs *t; t = subdirs; subdirs = t->sd_next; putchar('\n'); formatd(t->sd_name, 1); cfree(t->sd_name); cfree((char *)t); } if (++fp == fplast) break; putchar('\n'); } } exit(0); } formatd(name, dotitle) char *name; int dotitle; { register struct afile *fp; register struct subdirs *dp; struct afile *dfp0, *dfplast; int isadir; long nkb, getdir(); nkb = getdir(name, &dfp0, &dfplast, &isadir); if (dfp0 == 0) return; if (fflg == 0) qsort(dfp0, dfplast - dfp0, sizeof (struct afile), fcmp); if (dotitle) printf("%s%s\n", name, isadir ? ":" : ""); if (lflg || sflg) printf("total %ld\n", nkb); formatf(dfp0, dfplast); if (Rflg) for (fp = dfplast - 1; fp >= dfp0; fp--) { if (fp->ftype != 'd' || !strcmp(fp->fname, ".") || !strcmp(fp->fname, "..")) continue; dp = (struct subdirs *)malloc(sizeof (struct subdirs)); dp->sd_name = savestr(cat(name, fp->fname)); dp->sd_next = subdirs; subdirs = dp; } for (fp = dfp0; fp < dfplast; fp++) { if ((fp->fmode&ISARG) == 0 && fp->fname) cfree(fp->fname); if (fp->flinkto) cfree(fp->flinkto); } cfree((char *)dfp0); } long getdir(dir, pfp0, pfplast, isadir) char *dir; struct afile **pfp0, **pfplast; int *isadir; { register struct afile *fp; DIR *dirp; register struct direct *dp; struct stat st; long nb; int nent = 20; dirp = opendir(dir); if (dirp == NULL) { *pfp0 = *pfplast = NULL; printf("%s unreadable\n", dir); /* not stderr! */ return (0); } fstat(dirfd(dirp), &st); if (S_ISDIR(st.st_mode)) *isadir = 1; else *isadir = 0; fp = *pfp0 = (struct afile *)calloc(nent, sizeof (struct afile)); *pfplast = *pfp0 + nent; nb = 0; while (dp = readdir(dirp)) { if (dp->d_ino == 0) continue; if (aflg == 0 && dp->d_name[0]=='.' && (Aflg == 0 || dp->d_name[1]==0 || dp->d_name[1]=='.' && dp->d_name[2]==0)) continue; if (gstat(fp, cat(dir, dp->d_name), Fflg+Rflg, &nb) == 0) continue; fp->fnum = dp->d_ino; fp->fname = savestr(dp->d_name); fp++; if (fp == *pfplast) { *pfp0 = (struct afile *)realloc((char *)*pfp0, 2 * nent * sizeof (struct afile)); if (*pfp0 == 0) { fputs("ls: out of memory\n", stderr); exit(1); } fp = *pfp0 + nent; *pfplast = fp + nent; nent *= 2; } } closedir(dirp); *pfplast = fp; return (kbytes(dbtob(nb))); } int stat(), lstat(); struct afile * gstat(fp, file, statarg, pnb) register struct afile *fp; char *file; int statarg; long *pnb; { int (*statf)() = Lflg ? stat : lstat; char buf[BUFSIZ]; int cc; static struct afile azerofile; *fp = azerofile; fp->fmode = 0; fp->fnum = 0; fp->ftype = '-'; if (statarg || sflg || lflg || tflg) { struct stat stb, stb1; if ((*statf)(file, &stb) < 0) { if (statf == lstat || lstat(file, &stb) < 0) { fprintf(stderr, "%s not found\n", file); return (0); } } fp->fblks = stb.st_blocks; fp->fsize = stb.st_size; switch (stb.st_mode & S_IFMT) { case S_IFDIR: fp->ftype = 'd'; break; case S_IFBLK: fp->ftype = 'b'; fp->fsize = stb.st_rdev; break; case S_IFCHR: fp->ftype = 'c'; fp->fsize = stb.st_rdev; break; case S_IFSOCK: fp->ftype = 's'; fp->fsize = 0; break; case S_IFLNK: fp->ftype = 'l'; if (lflg) { cc = readlink(file, buf, BUFSIZ); if (cc >= 0) { buf[cc] = 0; fp->flinkto = savestr(buf); } break; } if (stat(file, &stb1) < 0) break; if ((stb1.st_mode & S_IFMT) == S_IFDIR) { stb = stb1; fp->ftype = 'd'; fp->fsize = stb.st_size; fp->fblks = stb.st_blocks; } break; } fp->fnum = stb.st_ino; fp->fmode = stb.st_mode & ~S_IFMT; fp->fflags = stb.st_flags; fp->fnl = stb.st_nlink; fp->fuid = stb.st_uid; fp->fgid = stb.st_gid; if (uflg) fp->fmtime = stb.st_atime; else if (cflg) fp->fmtime = stb.st_ctime; else fp->fmtime = stb.st_mtime; if (pnb) *pnb += stb.st_blocks; } return (fp); } formatf(fp0, fplast) struct afile *fp0, *fplast; { register struct afile *fp; register int i, j, w; int width = 0, nentry = fplast - fp0; int columns, lines, maxflags; char *cp; if (fp0 == fplast) return; maxflags = 0; if (oflg) { for (fp = fp0; fp < fplast; fp++) { i = strlen(flags_to_string(fp->fflags, "-")); if (i > maxflags) maxflags = i; } } if (lflg || Cflg == 0) columns = 1; else { for (fp = fp0; fp < fplast; fp++) { int len = strlen(fmtentry(fp, maxflags)); if (len > width) width = len; } if (usetabs) width = (width + 8) &~ 7; else width += 2; columns = twidth / width; if (columns == 0) columns = 1; } lines = (nentry + columns - 1) / columns; for (i = 0; i < lines; i++) { for (j = 0; j < columns; j++) { fp = fp0 + j * lines + i; cp = fmtentry(fp, maxflags); fputs(cp, stdout); if (fp + lines >= fplast) { putchar('\n'); break; } w = strlen(cp); while (w < width) if (usetabs) { w = (w + 8) &~ 7; putchar('\t'); } else { w++; putchar(' '); } } } } fcmp(f1, f2) register struct afile *f1, *f2; { if (dflg == 0 && fflg == 0) { if ((f1->fmode&ISARG) && f1->ftype == 'd') { if ((f2->fmode&ISARG) == 0 || f2->ftype != 'd') return (1); } else { if ((f2->fmode&ISARG) && f2->ftype == 'd') return (-1); } } if (tflg) { if (f2->fmtime == f1->fmtime) return (0); if (f2->fmtime > f1->fmtime) return (rflg); return (-rflg); } return (rflg * strcmp(f1->fname, f2->fname)); } char * cat(dir, file) char *dir, *file; { static char dfile[BUFSIZ]; register int dlen; if ((dlen = strlen(dir))+1+strlen(file)+1 > BUFSIZ) { fputs("ls: filename too long\n", stderr); exit(1); } if (!dir[0] || dir[0] == '.' && !dir[1]) return(strcpy(dfile, file)); (void) strcpy(dfile, dir); if (dir[dlen - 1] != '/' && *file != '/') dfile[dlen++] = '/'; (void) strcpy(dfile + dlen, file); return (dfile); } char * savestr(str) char *str; { register char *cp = strdup(str); if (cp == NULL) { fputs("ls: out of memory\n", stderr); exit(1); } return(cp); } char *fmtinum(), *fmtsize(), *fmtlstuff(), *fmtmode(); char * fmtentry(fp, maxflags) register struct afile *fp; int maxflags; { static char fmtres[BUFSIZ]; register char *cp, *dp; (void) sprintf(fmtres, "%s%s%s", iflg ? fmtinum(fp) : "", sflg ? fmtsize(fp) : "", lflg ? fmtlstuff(fp, maxflags) : ""); dp = &fmtres[strlen(fmtres)]; for (cp = fp->fname; *cp; cp++) if (qflg && (*cp < ' ' || *cp >= 0177)) *dp++ = '?'; else *dp++ = *cp; if (Fflg) { if (fp->ftype == 'd') *dp++ = '/'; else if (fp->ftype == 'l') *dp++ = '@'; else if (fp->ftype == 's') *dp++ = '='; else if (fp->fmode & 0111) *dp++ = '*'; } if (lflg && fp->flinkto) { (void) strcpy(dp, " -> "); dp += 4; for (cp = fp->flinkto; *cp; cp++) if (qflg && (*cp < ' ' || *cp >= 0177)) *dp++ = '?'; else *dp++ = *cp; } *dp++ = 0; return (fmtres); } char * fmtinum(p) register struct afile *p; { static char inumbuf[8]; (void) sprintf(inumbuf, "%6u ", p->fnum); return (inumbuf); } char * fmtsize(p) register struct afile *p; { static char sizebuf[16]; (void) sprintf(sizebuf, "%4ld ", kbytes(dbtob(p->fblks))); return (sizebuf); } char * fmtlstuff(p, maxflags) register struct afile *p; int maxflags; { static char lstuffbuf[256]; char gname[32], uname[32], fsize[32], ftime[32], fflags[64]; register char *lp = lstuffbuf; /* type mode uname gname fsize ftime */ /* get uname */ { char *cp = getname(p->fuid); if (cp) (void) sprintf(uname, "%-9.9s", cp); else (void) sprintf(uname, "%-9u", p->fuid); } /* get gname */ if (gflg) { char *cp = getgroup(p->fgid); if (cp) (void) sprintf(gname, "%-9.9s", cp); else (void) sprintf(gname, "%-9u", p->fgid); } /* get flags */ if (oflg) (void) sprintf(fflags, "%-*s ", maxflags, flags_to_string(p->fflags, "-")); /* get fsize */ if (p->ftype == 'b' || p->ftype == 'c') (void) sprintf(fsize, "%3d,%4d", major(p->fsize), minor(p->fsize)); else if (p->ftype == 's') (void) sprintf(fsize, "%8ld", 0L); else (void) sprintf(fsize, "%8ld", p->fsize); /* get ftime */ { char *cp = ctime(&p->fmtime); if ((p->fmtime < sixmonthsago) || (p->fmtime > now)) (void) sprintf(ftime, " %-7.7s %-4.4s ", cp+4, cp+20); else (void) sprintf(ftime, " %-12.12s ", cp+4); } /* splat */ *lp++ = p->ftype; lp = fmtmode(lp, p->fmode); (void) sprintf(lp, "%3d %s%s%s%s%s", p->fnl, uname, gflg ? gname : "", oflg ? fflags : "", fsize, ftime); return (lstuffbuf); } int m1[] = { 1, S_IREAD>>0, 'r', '-' }; int m2[] = { 1, S_IWRITE>>0, 'w', '-' }; int m3[] = { 3, S_ISUID|(S_IEXEC>>0), 's', S_ISUID, 'S', S_IEXEC>>0, 'x', '-' }; int m4[] = { 1, S_IREAD>>3, 'r', '-' }; int m5[] = { 1, S_IWRITE>>3, 'w', '-' }; int m6[] = { 3, S_ISGID|(S_IEXEC>>3), 's', S_ISGID, 'S', S_IEXEC>>3, 'x', '-' }; int m7[] = { 1, S_IREAD>>6, 'r', '-' }; int m8[] = { 1, S_IWRITE>>6, 'w', '-' }; int m9[] = { 3, S_ISVTX|(S_IEXEC>>6), 't', S_ISVTX, 'T', S_IEXEC>>6, 'x', '-' }; int *m[] = { m1, m2, m3, m4, m5, m6, m7, m8, m9}; char * fmtmode(lp, flags) char *lp; register int flags; { int **mp; for (mp = &m[0]; mp < &m[sizeof(m)/sizeof(m[0])]; ) { register int *pairp = *mp++; register int n = *pairp++; while (--n >= 0 && (flags&*pairp) != *pairp) pairp += 2; *lp++ = pairp[n>=0]; } return (lp); } /* rest should be done with nameserver or database */ #include #include #include struct utmp utmp; #define NMAX (sizeof (utmp.ut_name)) #define SCPYN(a, b) strncpy(a, b, NMAX) #define NCACHE 64 /* power of 2 */ #define CAMASK NCACHE - 1 char * getname(uid) uid_t uid; { static struct ncache { uid_t uid; char name[NMAX+1]; } c_uid[NCACHE]; register struct passwd *pw; register struct ncache *cp; setpassent(1); cp = c_uid + (uid & CAMASK); if (cp->uid == uid && *cp->name) return(cp->name); if (!(pw = getpwuid(uid))) return((char *)0); cp->uid = uid; SCPYN(cp->name, pw->pw_name); return(cp->name); } char * getgroup(gid) gid_t gid; { static struct ncache { gid_t gid; char name[NMAX+1]; } c_gid[NCACHE]; register struct group *gr; register struct ncache *cp; cp = c_gid + (gid & CAMASK); if (cp->gid == gid && *cp->name) return(cp->name); if (!(gr = getgrgid(gid))) return((char *)0); cp->gid = gid; SCPYN(cp->name, gr->gr_name); return(cp->name); }