/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * University Copyright- Copyright (c) 1982, 1986, 1988 * The Regents of the University of California * All Rights Reserved * * University Acknowledgment- Portions of this document are derived from * software developed by the University of California, Berkeley, and its * contributors. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * Fix up / report on disc quotas & usage */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include union { struct fs sblk; char dummy[MAXBSIZE]; } un; #define sblock un.sblk #define ITABSZ 256 struct dinode itab[ITABSZ]; struct dinode *dp; struct fileusage { struct fileusage *fu_next; ulong_t fu_curfiles; uint64_t fu_curblocks; uid_t fu_uid; }; #define FUHASH 997 struct fileusage *fuhead[FUHASH]; struct fileusage *lookup(uid_t); struct fileusage *adduid(uid_t); int fi; ino_t ino; struct dinode *ginode(); char *mntopt(), *hasvfsopt(), *hasmntopt(); extern int optind; extern char *optarg; extern int fsync(int); static void acct(); static void bread(); static void usage(); static int chkquota(); static int quotactl(); static int preen(); static int waiter(); static int oneof(); int vflag; /* verbose */ int aflag; /* all file systems */ int pflag; /* fsck like parallel check */ int fflag; /* force flag */ #define QFNAME "quotas" #define CHUNK 50 char **listbuf; struct dqblk zerodqbuf; struct fileusage zerofileusage; int main(int argc, char **argv) { struct mnttab mntp; struct vfstab vfsbuf; char **listp; int listcnt; int listmax = 0; char quotafile[MAXPATHLEN]; FILE *mtab, *vfstab; int errs = 0; int opt; if ((listbuf = (char **)malloc(sizeof (char *) * CHUNK)) == NULL) { fprintf(stderr, "Can't alloc lisbuf array."); exit(31+1); } listmax = CHUNK; while ((opt = getopt(argc, argv, "vapVf")) != EOF) { switch (opt) { case 'v': vflag++; break; case 'a': aflag++; break; case 'p': pflag++; break; case 'V': /* Print command line */ { char *opt_text; int opt_count; (void) fprintf(stdout, "quotacheck -F UFS "); for (opt_count = 1; opt_count < argc; opt_count++) { opt_text = argv[opt_count]; if (opt_text) (void) fprintf(stdout, " %s ", opt_text); } (void) fprintf(stdout, "\n"); } break; case 'f': fflag++; break; case '?': usage(); } } if (argc <= optind && !aflag) { usage(); } if (quotactl(Q_ALLSYNC, NULL, (uid_t)0, NULL) < 0 && errno == EINVAL && vflag) printf("Warning: Quotas are not compiled into this kernel\n"); sync(); if (aflag) { /* * Go through vfstab and make a list of appropriate * filesystems. */ listp = listbuf; listcnt = 0; if ((vfstab = fopen(VFSTAB, "r")) == NULL) { fprintf(stderr, "Can't open "); perror(VFSTAB); exit(31+8); } while (getvfsent(vfstab, &vfsbuf) == NULL) { if (strcmp(vfsbuf.vfs_fstype, MNTTYPE_UFS) != 0 || (vfsbuf.vfs_mntopts == 0) || hasvfsopt(&vfsbuf, MNTOPT_RO) || (!hasvfsopt(&vfsbuf, MNTOPT_RQ) && !hasvfsopt(&vfsbuf, MNTOPT_QUOTA))) continue; *listp = malloc(strlen(vfsbuf.vfs_special) + 1); strcpy(*listp, vfsbuf.vfs_special); listp++; listcnt++; /* grow listbuf if needed */ if (listcnt >= listmax) { listmax += CHUNK; listbuf = (char **)realloc(listbuf, sizeof (char *) * listmax); if (listbuf == NULL) { fprintf(stderr, "Can't grow listbuf.\n"); exit(31+1); } listp = &listbuf[listcnt]; } } fclose(vfstab); *listp = (char *)0; listp = listbuf; } else { listp = &argv[optind]; listcnt = argc - optind; } if (pflag) { errs = preen(listcnt, listp); } else { if ((mtab = fopen(MNTTAB, "r")) == NULL) { fprintf(stderr, "Can't open "); perror(MNTTAB); exit(31+8); } while (getmntent(mtab, &mntp) == NULL) { if (strcmp(mntp.mnt_fstype, MNTTYPE_UFS) == 0 && !hasmntopt(&mntp, MNTOPT_RO) && (oneof(mntp.mnt_special, listp, listcnt) || oneof(mntp.mnt_mountp, listp, listcnt))) { (void) snprintf(quotafile, sizeof (quotafile), "%s/%s", mntp.mnt_mountp, QFNAME); errs += chkquota(mntp.mnt_special, mntp.mnt_mountp, quotafile); } } fclose(mtab); } while (listcnt--) { if (*listp) { fprintf(stderr, "Cannot check %s\n", *listp); errs++; } listp++; } if (errs > 0) errs += 31; return (errs); } struct active { char *rdev; pid_t pid; struct active *nxt; }; int preen(int listcnt, char **listp) { int i, rc, errs; char **lp, *rdev, *bdev; extern char *getfullrawname(), *getfullblkname(); struct mnttab mntp, mpref; struct active *alist, *ap; FILE *mtab; char quotafile[MAXPATHLEN]; char name[MAXPATHLEN]; int nactive, serially; if ((mtab = fopen(MNTTAB, "r")) == NULL) { fprintf(stderr, "Can't open "); perror(MNTTAB); exit(31+8); } memset(&mpref, 0, sizeof (struct mnttab)); errs = 0; for (lp = listp, i = 0; i < listcnt; lp++, i++) { serially = 0; rdev = getfullrawname(*lp); if (rdev == NULL || *rdev == '\0') { fprintf(stderr, "can't get rawname for `%s'\n", *lp); serially = 1; } else if (preen_addev(rdev) != 0) { fprintf(stderr, "preen_addev error\n"); serially = 1; } if (rdev != NULL) free(rdev); if (serially) { rewind(mtab); mpref.mnt_special = *lp; if (getmntany(mtab, &mntp, &mpref) == 0 && strcmp(mntp.mnt_fstype, MNTTYPE_UFS) == 0 && !hasmntopt(&mntp, MNTOPT_RO)) { errs += (31+chkquota(mntp.mnt_special, mntp.mnt_mountp, quotafile)); *lp = (char *)0; } } } nactive = 0; alist = NULL; while ((rc = preen_getdev(name)) > 0) { switch (rc) { case 1: bdev = getfullblkname(name); if (bdev == NULL || *bdev == '\0') { fprintf(stderr, "can't get blkname for `%s'\n", name); if (bdev) free(bdev); continue; } rewind(mtab); mpref.mnt_special = bdev; if (getmntany(mtab, &mntp, &mpref) != 0) { fprintf(stderr, "`%s' not mounted?\n", name); preen_releasedev(name); free(bdev); continue; } else if (strcmp(mntp.mnt_fstype, MNTTYPE_UFS) != 0 || hasmntopt(&mntp, MNTOPT_RO) || (!oneof(mntp.mnt_special, listp, listcnt) && !oneof(mntp.mnt_mountp, listp, listcnt))) { preen_releasedev(name); free(bdev); continue; } free(bdev); ap = (struct active *)malloc(sizeof (struct active)); if (ap == NULL) { fprintf(stderr, "out of memory\n"); exit(31+8); } ap->rdev = (char *)strdup(name); if (ap->rdev == NULL) { fprintf(stderr, "out of memory\n"); exit(31+8); } ap->nxt = alist; alist = ap; switch (ap->pid = fork()) { case -1: perror("fork"); exit(31+8); break; case 0: (void) snprintf(quotafile, sizeof (quotafile), "%s/%s", mntp.mnt_mountp, QFNAME); exit(31+chkquota(mntp.mnt_special, mntp.mnt_mountp, quotafile)); break; default: nactive++; break; } break; case 2: errs += waiter(&alist); nactive--; break; } } fclose(mtab); while (nactive > 0) { errs += waiter(&alist); nactive--; } return (errs); } int waiter(struct active **alp) { pid_t curpid; int status; struct active *ap, *lap; curpid = wait(&status); if (curpid == -1) { if (errno == ECHILD) return (0); perror("wait"); exit(31+8); } for (lap = NULL, ap = *alp; ap != NULL; lap = ap, ap = ap->nxt) { if (ap->pid == curpid) break; } if (ap == NULL) { fprintf(stderr, "wait returns unknown pid\n"); exit(31+8); } else if (lap) { lap->nxt = ap->nxt; } else { *alp = ap->nxt; } preen_releasedev(ap->rdev); free(ap->rdev); free(ap); return (WHIBYTE(status)); } int chkquota(char *fsdev, char *fsfile, char *qffile) { struct fileusage *fup; dev_t quotadev; FILE *qf; uid_t uid; struct passwd *pw; int cg, i; char *rawdisk; struct stat64 statb; struct dqblk dqbuf; extern char *getfullrawname(); if ((rawdisk = getfullrawname(fsdev)) == NULL) { fprintf(stderr, "malloc failed\n"); return (1); } if (*rawdisk == '\0') { fprintf(stderr, "Could not find character device for %s\n", fsdev); return (1); } if (vflag) printf("*** Checking quotas for %s (%s)\n", rawdisk, fsfile); fi = open64(rawdisk, 0); if (fi < 0) { perror(rawdisk); return (1); } qf = fopen64(qffile, "r+"); if (qf == NULL) { perror(qffile); close(fi); return (1); } if (fstat64(fileno(qf), &statb) < 0) { perror(qffile); fclose(qf); close(fi); return (1); } quotadev = statb.st_dev; if (stat64(fsdev, &statb) < 0) { perror(fsdev); fclose(qf); close(fi); return (1); } if (quotadev != statb.st_rdev) { fprintf(stderr, "%s dev (0x%x) mismatch %s dev (0x%x)\n", qffile, quotadev, fsdev, statb.st_rdev); fclose(qf); close(fi); return (1); } bread((diskaddr_t)SBLOCK, (char *)&sblock, SBSIZE); /* * Flush filesystem since we are going to read * disk raw and we want to make sure everything is * synced to disk before we read it. */ if (ioctl(fileno(qf), _FIOFFS, NULL) == -1) { perror(qffile); (void) fprintf(stderr, "%s: cannot flush file system.\n", qffile); (void) fclose(qf); return (1); } /* * no need to quotacheck a rw, mounted, and logging file system */ if ((fflag == 0) && pflag && (FSOKAY == (sblock.fs_state + sblock.fs_time)) && (sblock.fs_clean == FSLOG)) { fclose(qf); close(fi); return (0); } ino = 0; for (cg = 0; cg < sblock.fs_ncg; cg++) { dp = NULL; for (i = 0; i < sblock.fs_ipg; i++) acct(ginode()); } for (uid = 0; uid <= MAXUID && uid >= 0; uid++) { (void) fread(&dqbuf, sizeof (struct dqblk), 1, qf); if (feof(qf)) break; fup = lookup(uid); if (fup == 0) fup = &zerofileusage; if (dqbuf.dqb_bhardlimit == 0 && dqbuf.dqb_bsoftlimit == 0 && dqbuf.dqb_fhardlimit == 0 && dqbuf.dqb_fsoftlimit == 0) { fup->fu_curfiles = 0; fup->fu_curblocks = 0; } if (dqbuf.dqb_curfiles == fup->fu_curfiles && dqbuf.dqb_curblocks == fup->fu_curblocks) { fup->fu_curfiles = 0; fup->fu_curblocks = 0; continue; } /* * The maximum number of blocks that can be stored in the * dqb_curblocks field in the quota record is 2^32 - 1, * since it must fit into an unsigned 32-bit quantity. * If this user has more blocks than that, print a message * to that effect and reduce the count of allocated blocks * to the maximum value, which is UINT_MAX. */ if (fup->fu_curblocks > UINT_MAX) { if (pflag || aflag) printf("%s: ", rawdisk); printf("512-byte blocks allocated to user "); if ((pw = getpwuid(uid)) && pw->pw_name[0]) printf("%-10s ", pw->pw_name); else printf("#%-9d ", uid); printf(" = %lld\n", fup->fu_curblocks); printf( "This exceeds the maximum number of blocks recordable in a quota record.\n"); printf( "The value will be set to the maximum, which is %lu.\n", UINT_MAX); fup->fu_curblocks = UINT_MAX; } if (vflag) { if (pflag || aflag) printf("%s: ", rawdisk); if ((pw = getpwuid(uid)) && pw->pw_name[0]) printf("%-10s fixed:", pw->pw_name); else printf("#%-9d fixed:", uid); if (dqbuf.dqb_curfiles != fup->fu_curfiles) printf(" files %lu -> %lu", dqbuf.dqb_curfiles, fup->fu_curfiles); if (dqbuf.dqb_curblocks != fup->fu_curblocks) printf(" blocks %lu -> %llu", dqbuf.dqb_curblocks, fup->fu_curblocks); printf("\n"); } dqbuf.dqb_curfiles = fup->fu_curfiles; dqbuf.dqb_curblocks = fup->fu_curblocks; /* * If quotas are not enabled for the current filesystem * then just update the quotas file directly. */ if ((quotactl(Q_SETQUOTA, fsfile, uid, &dqbuf) < 0) && (errno == ESRCH)) { /* back up, overwrite the entry we just read */ (void) fseeko64(qf, (offset_t)dqoff(uid), 0); (void) fwrite(&dqbuf, sizeof (struct dqblk), 1, qf); (void) fflush(qf); } fup->fu_curfiles = 0; fup->fu_curblocks = 0; } (void) fflush(qf); (void) fsync(fileno(qf)); fclose(qf); close(fi); return (0); } void acct(struct dinode *ip) { struct fileusage *fup; if (ip == NULL) return; ip->di_mode = ip->di_smode; if (ip->di_suid != UID_LONG) { ip->di_uid = ip->di_suid; } if (ip->di_mode == 0) return; fup = adduid(ip->di_uid); fup->fu_curfiles++; if ((ip->di_mode & IFMT) == IFCHR || (ip->di_mode & IFMT) == IFBLK) return; fup->fu_curblocks += ip->di_blocks; } int oneof(char *target, char **olistp, int on) { char **listp = olistp; int n = on; while (n--) { if (*listp && strcmp(target, *listp) == 0) { *listp = (char *)0; return (1); } listp++; } return (0); } struct dinode * ginode() { ulong_t iblk; if (dp == NULL || ++dp >= &itab[ITABSZ]) { iblk = itod(&sblock, ino); bread(fsbtodb(&sblock, iblk), (char *)itab, sizeof (itab)); dp = &itab[(int)ino % (int)INOPB(&sblock)]; } if (ino++ < UFSROOTINO) return (NULL); return (dp); } void bread(diskaddr_t bno, char *buf, int cnt) { extern offset_t llseek(); offset_t pos; pos = (offset_t)bno * DEV_BSIZE; if (llseek(fi, pos, 0) != pos) { perror("lseek"); exit(31+1); } if (read(fi, buf, cnt) != cnt) { perror("read"); exit(31+1); } } struct fileusage * lookup(uid_t uid) { struct fileusage *fup; for (fup = fuhead[uid % FUHASH]; fup != 0; fup = fup->fu_next) if (fup->fu_uid == uid) return (fup); return ((struct fileusage *)0); } struct fileusage * adduid(uid_t uid) { struct fileusage *fup, **fhp; fup = lookup(uid); if (fup != 0) return (fup); fup = (struct fileusage *)calloc(1, sizeof (struct fileusage)); if (fup == 0) { fprintf(stderr, "out of memory for fileusage structures\n"); exit(31+1); } fhp = &fuhead[uid % FUHASH]; fup->fu_next = *fhp; *fhp = fup; fup->fu_uid = uid; return (fup); } void usage() { fprintf(stderr, "ufs usage:\n"); fprintf(stderr, "\tquotacheck [-v] [-f] [-p] -a\n"); fprintf(stderr, "\tquotacheck [-v] [-f] [-p] filesys ...\n"); exit(31+1); } int quotactl(int cmd, char *mountp, uid_t uid, caddr_t addr) { int fd; int status; struct quotctl quota; char qfile[MAXPATHLEN]; FILE *fstab; struct mnttab mntp; if ((mountp == NULL) && (cmd == Q_ALLSYNC)) { /* * Find the mount point of any ufs file system. This is * because the ioctl that implements the quotactl call has * to go to a real file, and not to the block device. */ if ((fstab = fopen(MNTTAB, "r")) == NULL) { fprintf(stderr, "%s: ", MNTTAB); perror("open"); exit(31+1); } fd = -1; while ((status = getmntent(fstab, &mntp)) == NULL) { if (strcmp(mntp.mnt_fstype, MNTTYPE_UFS) != 0 || hasmntopt(&mntp, MNTOPT_RO)) continue; if ((strlcpy(qfile, mntp.mnt_mountp, sizeof (qfile)) >= sizeof (qfile)) || (strlcat(qfile, "/" QFNAME, sizeof (qfile)) >= sizeof (qfile))) { continue; } if ((fd = open64(qfile, O_RDWR)) == -1) break; } fclose(fstab); if (fd == -1) { errno = ENOENT; return (-1); } } else { if (mountp == NULL || mountp[0] == '\0') { errno = ENOENT; return (-1); } if ((strlcpy(qfile, mountp, sizeof (qfile)) >= sizeof (qfile)) || (strlcat(qfile, "/" QFNAME, sizeof (qfile)) >= sizeof (qfile))) { errno = ENOENT; return (-1); } if ((fd = open64(qfile, O_RDWR)) < 0) { fprintf(stderr, "quotactl: "); perror("open"); exit(31+1); } } /* else */ quota.op = cmd; quota.uid = uid; quota.addr = addr; status = ioctl(fd, Q_QUOTACTL, "a); if (fd != 0) close(fd); return (status); } char * hasvfsopt(struct vfstab *vfs, char *opt) { char *f, *opts; static char *tmpopts; if (tmpopts == 0) { tmpopts = (char *)calloc(256, sizeof (char)); if (tmpopts == 0) return (0); } strcpy(tmpopts, vfs->vfs_mntopts); opts = tmpopts; f = mntopt(&opts); for (; *f; f = mntopt(&opts)) { if (strncmp(opt, f, strlen(opt)) == 0) return (f - tmpopts + vfs->vfs_mntopts); } return (NULL); }