/* 1999-02-22 Arkadiusz Mi¶kiewicz * - added Native Language Support * Sun Mar 21 1999 - Arnaldo Carvalho de Melo * - fixed strerr(errno) in gettext calls */ #include #include #include #include #include #include "mntent.h" #include "fstab.h" #include "sundries.h" #include "xmalloc.h" /* #include "mount_blkid.h" -- OCFS2 modification */ #include "paths.h" #include "nls.h" #define streq(s, t) (strcmp ((s), (t)) == 0) #define PROC_MOUNTS "/proc/mounts" /* Information about mtab. ------------------------------------*/ static int have_mtab_info = 0; static int var_mtab_does_not_exist = 0; static int var_mtab_is_a_symlink = 0; static void get_mtab_info(void) { struct stat mtab_stat; if (!have_mtab_info) { if (lstat(MOUNTED, &mtab_stat)) var_mtab_does_not_exist = 1; else if (S_ISLNK(mtab_stat.st_mode)) var_mtab_is_a_symlink = 1; have_mtab_info = 1; } } int mtab_does_not_exist(void) { get_mtab_info(); return var_mtab_does_not_exist; } int mtab_is_a_symlink(void) { get_mtab_info(); return var_mtab_is_a_symlink; } int mtab_is_writable() { static int ret = -1; /* Should we write to /etc/mtab upon an update? Probably not if it is a symlink to /proc/mounts, since that would create a file /proc/mounts in case the proc filesystem is not mounted. */ if (mtab_is_a_symlink()) return 0; if (ret == -1) { int fd = open(MOUNTED, O_RDWR | O_CREAT, 0644); if (fd >= 0) { close(fd); ret = 1; } else ret = 0; } return ret; } /* Contents of mtab and fstab ---------------------------------*/ struct mntentchn mounttable, fstab; static int got_mtab = 0; /* static int got_fstab = 0; -- OCFS2 modification */ static void read_mounttable(void); /*, read_fstab(void); -- OCFS2 modification */ struct mntentchn * mtab_head() { if (!got_mtab) read_mounttable(); return &mounttable; } #if 0 /* OCFS2 modification */ struct mntentchn * fstab_head() { if (!got_fstab) read_fstab(); return &fstab; } #endif static void my_free(const void *s) { if (s) free((void *) s); } static void discard_mntentchn(struct mntentchn *mc0) { struct mntentchn *mc, *mc1; for (mc = mc0->nxt; mc && mc != mc0; mc = mc1) { mc1 = mc->nxt; my_free(mc->m.mnt_fsname); my_free(mc->m.mnt_dir); my_free(mc->m.mnt_type); my_free(mc->m.mnt_opts); free(mc); } } static void read_mntentchn(mntFILE *mfp, const char *fnam, struct mntentchn *mc0) { struct mntentchn *mc = mc0; struct my_mntent *mnt; while ((mnt = my_getmntent(mfp)) != NULL) { if (!streq(mnt->mnt_type, MNTTYPE_IGNORE)) { mc->nxt = (struct mntentchn *) xmalloc(sizeof(*mc)); mc->nxt->prev = mc; mc = mc->nxt; mc->m = *mnt; mc->nxt = mc0; } } mc0->prev = mc; if (ferror(mfp->mntent_fp)) { int errsv = errno; error(_("warning: error reading %s: %s"), fnam, strerror (errsv)); mc0->nxt = mc0->prev = NULL; } my_endmntent(mfp); } /* * Read /etc/mtab. If that fails, try /proc/mounts. * This produces a linked list. The list head mounttable is a dummy. * Return 0 on success. */ static void read_mounttable() { mntFILE *mfp; const char *fnam; struct mntentchn *mc = &mounttable; got_mtab = 1; mc->nxt = mc->prev = NULL; fnam = MOUNTED; mfp = my_setmntent (fnam, "r"); if (mfp == NULL || mfp->mntent_fp == NULL) { int errsv = errno; fnam = PROC_MOUNTS; mfp = my_setmntent (fnam, "r"); if (mfp == NULL || mfp->mntent_fp == NULL) { error(_("warning: can't open %s: %s"), MOUNTED, strerror (errsv)); return; } if (verbose) printf (_("mount: could not open %s - " "using %s instead\n"), MOUNTED, PROC_MOUNTS); } read_mntentchn(mfp, fnam, mc); } #if 0 /* OCFS2 modification */ static void read_fstab() { mntFILE *mfp = NULL; const char *fnam; struct mntentchn *mc = &fstab; got_fstab = 1; mc->nxt = mc->prev = NULL; fnam = _PATH_FSTAB; mfp = my_setmntent (fnam, "r"); if (mfp == NULL || mfp->mntent_fp == NULL) { int errsv = errno; error(_("warning: can't open %s: %s"), _PATH_FSTAB, strerror (errsv)); return; } read_mntentchn(mfp, fnam, mc); } #endif /* Given the name NAME, try to find it in mtab. */ struct mntentchn * getmntfile (const char *name) { struct mntentchn *mc, *mc0; mc0 = mtab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (streq(mc->m.mnt_dir, name) || streq(mc->m.mnt_fsname, name)) return mc; return NULL; } /* * Given the directory name NAME, and the place MCPREV we found it last time, * try to find more occurrences. */ struct mntentchn * getmntdirbackward (const char *name, struct mntentchn *mcprev) { struct mntentchn *mc, *mc0; mc0 = mtab_head(); if (!mcprev) mcprev = mc0; for (mc = mcprev->prev; mc && mc != mc0; mc = mc->prev) if (streq(mc->m.mnt_dir, name)) return mc; return NULL; } /* * Given the device name NAME, and the place MCPREV we found it last time, * try to find more occurrences. */ struct mntentchn * getmntdevbackward (const char *name, struct mntentchn *mcprev) { struct mntentchn *mc, *mc0; mc0 = mtab_head(); if (!mcprev) mcprev = mc0; for (mc = mcprev->prev; mc && mc != mc0; mc = mc->prev) if (streq(mc->m.mnt_fsname, name)) return mc; return NULL; } /* * Given the name NAME, check that it occurs precisely once as dir or dev. */ int is_mounted_once(const char *name) { struct mntentchn *mc, *mc0; int ct = 0; mc0 = mtab_head(); for (mc = mc0->prev; mc && mc != mc0; mc = mc->prev) if (streq(mc->m.mnt_dir, name) || streq(mc->m.mnt_fsname, name)) ct++; return (ct == 1); } /* Given the name FILE, try to find the option "loop=FILE" in mtab. */ struct mntentchn * getmntoptfile (const char *file) { struct mntentchn *mc, *mc0; const char *opts, *s; int l; if (!file) return NULL; l = strlen(file); mc0 = mtab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if ((opts = mc->m.mnt_opts) != NULL && (s = strstr(opts, "loop=")) && !strncmp(s+5, file, l) && (s == opts || s[-1] == ',') && (s[l+5] == 0 || s[l+5] == ',')) return mc; return NULL; } #if 0 /* OCFS2 modification */ static int has_label(const char *device, const char *label) { const char *devlabel; int ret; devlabel = mount_get_volume_label_by_spec(device); ret = !strcmp(label, devlabel); /* free(devlabel); */ return ret; } static int has_uuid(const char *device, const char *uuid){ const char *devuuid; int ret; devuuid = mount_get_devname_by_uuid(device); ret = !strcmp(uuid, devuuid); /* free(devuuid); */ return ret; } /* Find the entry (SPEC,FILE) in fstab */ struct mntentchn * getfsspecfile (const char *spec, const char *file) { struct mntentchn *mc, *mc0; mc0 = fstab_head(); /* first attempt: names occur precisely as given */ for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (streq(mc->m.mnt_dir, file) && streq(mc->m.mnt_fsname, spec)) return mc; /* second attempt: names found after symlink resolution */ for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if ((streq(mc->m.mnt_dir, file) || streq(canonicalize(mc->m.mnt_dir), file)) && (streq(mc->m.mnt_fsname, spec) || streq(canonicalize(mc->m.mnt_fsname), spec))) return mc; /* third attempt: names found after LABEL= or UUID= resolution */ for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) { if (!strncmp (mc->m.mnt_fsname, "LABEL=", 6) && (streq(mc->m.mnt_dir, file) || streq(canonicalize(mc->m.mnt_dir), file))) { if (has_label(spec, mc->m.mnt_fsname+6)) return mc; } if (!strncmp (mc->m.mnt_fsname, "UUID=", 5) && (streq(mc->m.mnt_dir, file) || streq(canonicalize(mc->m.mnt_dir), file))) { if (has_uuid(spec, mc->m.mnt_fsname+5)) return mc; } } return NULL; } /* Find the dir FILE in fstab. */ struct mntentchn * getfsfile (const char *file) { struct mntentchn *mc, *mc0; mc0 = fstab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (streq(mc->m.mnt_dir, file)) return mc; return NULL; } /* Find the device SPEC in fstab. */ struct mntentchn * getfsspec (const char *spec) { struct mntentchn *mc, *mc0; mc0 = fstab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (streq(mc->m.mnt_fsname, spec)) return mc; return NULL; } /* Find the uuid UUID in fstab. */ struct mntentchn * getfsuuidspec (const char *uuid) { struct mntentchn *mc, *mc0; mc0 = fstab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (strncmp (mc->m.mnt_fsname, "UUID=", 5) == 0 && streq(mc->m.mnt_fsname + 5, uuid)) return mc; return NULL; } /* Find the label LABEL in fstab. */ struct mntentchn * getfsvolspec (const char *label) { struct mntentchn *mc, *mc0; mc0 = fstab_head(); for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) if (strncmp (mc->m.mnt_fsname, "LABEL=", 6) == 0 && streq(mc->m.mnt_fsname + 6, label)) return mc; return NULL; } #endif /* Updating mtab ----------------------------------------------*/ /* Flag for already existing lock file. */ static int we_created_lockfile = 0; /* Flag to indicate that signals have been set up. */ static int signals_have_been_setup = 0; /* Ensure that the lock is released if we are interrupted. */ extern char *strsignal(int sig); /* not always in */ static void handler (int sig) { die(EX_USER, "%s", strsignal(sig)); } static void setlkw_timeout (int sig) { /* nothing, fcntl will fail anyway */ } /* Remove lock file. */ void unlock_mtab (void) { if (we_created_lockfile) { unlink (MOUNTED_LOCK); we_created_lockfile = 0; } } /* Create the lock file. The lock file will be removed if we catch a signal or when we exit. */ /* The old code here used flock on a lock file /etc/mtab~ and deleted this lock file afterwards. However, as rgooch remarks, that has a race: a second mount may be waiting on the lock and proceed as soon as the lock file is deleted by the first mount, and immediately afterwards a third mount comes, creates a new /etc/mtab~, applies flock to that, and also proceeds, so that the second and third mount now both are scribbling in /etc/mtab. The new code uses a link() instead of a creat(), where we proceed only if it was us that created the lock, and hence we always have to delete the lock afterwards. Now the use of flock() is in principle superfluous, but avoids an arbitrary sleep(). */ /* Where does the link point to? Obvious choices are mtab and mtab~~. HJLu points out that the latter leads to races. Right now we use mtab~. instead. Use 20 as upper bound for the length of %d. */ #define MOUNTLOCK_LINKTARGET MOUNTED_LOCK "%d" #define MOUNTLOCK_LINKTARGET_LTH (sizeof(MOUNTED_LOCK)+20) void lock_mtab (void) { int tries = 3; char linktargetfile[MOUNTLOCK_LINKTARGET_LTH]; at_die = unlock_mtab; if (!signals_have_been_setup) { int sig = 0; struct sigaction sa; sa.sa_handler = handler; sa.sa_flags = 0; sigfillset (&sa.sa_mask); while (sigismember (&sa.sa_mask, ++sig) != -1 && sig != SIGCHLD) { if (sig == SIGALRM) sa.sa_handler = setlkw_timeout; else sa.sa_handler = handler; sigaction (sig, &sa, (struct sigaction *) 0); } signals_have_been_setup = 1; } sprintf(linktargetfile, MOUNTLOCK_LINKTARGET, getpid ()); /* Repeat until it was us who made the link */ while (!we_created_lockfile) { struct flock flock; int errsv, fd, i, j; i = open (linktargetfile, O_WRONLY|O_CREAT, 0); if (i < 0) { int errsv = errno; /* linktargetfile does not exist (as a file) and we cannot create it. Read-only filesystem? Too many files open in the system? Filesystem full? */ die (EX_FILEIO, _("can't create lock file %s: %s " "(use -n flag to override)"), linktargetfile, strerror (errsv)); } close(i); j = link(linktargetfile, MOUNTED_LOCK); errsv = errno; (void) unlink(linktargetfile); if (j == 0) we_created_lockfile = 1; if (j < 0 && errsv != EEXIST) { die (EX_FILEIO, _("can't link lock file %s: %s " "(use -n flag to override)"), MOUNTED_LOCK, strerror (errsv)); } fd = open (MOUNTED_LOCK, O_WRONLY); if (fd < 0) { int errsv = errno; /* Strange... Maybe the file was just deleted? */ if (errno == ENOENT && tries-- > 0) continue; die (EX_FILEIO, _("can't open lock file %s: %s " "(use -n flag to override)"), MOUNTED_LOCK, strerror (errsv)); } flock.l_type = F_WRLCK; flock.l_whence = SEEK_SET; flock.l_start = 0; flock.l_len = 0; if (j == 0) { /* We made the link. Now claim the lock. */ if (fcntl (fd, F_SETLK, &flock) == -1) { if (verbose) { int errsv = errno; printf(_("Can't lock lock file %s: %s\n"), MOUNTED_LOCK, strerror (errsv)); } /* proceed anyway */ } } else { static int tries = 0; /* Someone else made the link. Wait. */ alarm(LOCK_TIMEOUT); if (fcntl (fd, F_SETLKW, &flock) == -1) { int errsv = errno; die (EX_FILEIO, _("can't lock lock file %s: %s"), MOUNTED_LOCK, (errno == EINTR) ? _("timed out") : strerror (errsv)); } alarm(0); /* Limit the number of iterations - maybe there still is some old /etc/mtab~ */ if (tries++ > 3) { if (tries > 5) die (EX_FILEIO, _("Cannot create link %s\n" "Perhaps there is a stale lock file?\n"), MOUNTED_LOCK); sleep(1); } } close(fd); } } /* * Update the mtab. * Used by umount with null INSTEAD: remove the last DIR entry. * Used by mount upon a remount: update option part, * and complain if a wrong device or type was given. * [Note that often a remount will be a rw remount of / * where there was no entry before, and we'll have to believe * the values given in INSTEAD.] */ void update_mtab (const char *dir, struct my_mntent *instead) { mntFILE *mfp, *mftmp; const char *fnam = MOUNTED; struct mntentchn mtabhead; /* dummy */ struct mntentchn *mc, *mc0, *absent = NULL; if (mtab_does_not_exist() || mtab_is_a_symlink()) return; lock_mtab(); /* having locked mtab, read it again */ mc0 = mc = &mtabhead; mc->nxt = mc->prev = NULL; mfp = my_setmntent(fnam, "r"); if (mfp == NULL || mfp->mntent_fp == NULL) { int errsv = errno; error (_("cannot open %s (%s) - mtab not updated"), fnam, strerror (errsv)); goto leave; } read_mntentchn(mfp, fnam, mc); /* find last occurrence of dir */ for (mc = mc0->prev; mc && mc != mc0; mc = mc->prev) if (streq(mc->m.mnt_dir, dir)) break; if (mc && mc != mc0) { if (instead == NULL) { /* An umount - remove entry */ if (mc && mc != mc0) { mc->prev->nxt = mc->nxt; mc->nxt->prev = mc->prev; free(mc); } } else { /* A remount */ mc->m.mnt_opts = instead->mnt_opts; } } else if (instead) { /* not found, add a new entry */ absent = xmalloc(sizeof(*absent)); absent->m = *instead; absent->nxt = mc0; absent->prev = mc0->prev; mc0->prev = absent; if (mc0->nxt == NULL) mc0->nxt = absent; } /* write chain to mtemp */ mftmp = my_setmntent (MOUNTED_TEMP, "w"); if (mftmp == NULL || mftmp->mntent_fp == NULL) { int errsv = errno; error (_("cannot open %s (%s) - mtab not updated"), MOUNTED_TEMP, strerror (errsv)); goto leave; } for (mc = mc0->nxt; mc && mc != mc0; mc = mc->nxt) { if (my_addmntent(mftmp, &(mc->m)) == 1) { int errsv = errno; die (EX_FILEIO, _("error writing %s: %s"), MOUNTED_TEMP, strerror (errsv)); } } discard_mntentchn(mc0); if (fchmod (fileno (mftmp->mntent_fp), S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH) < 0) { int errsv = errno; fprintf(stderr, _("error changing mode of %s: %s\n"), MOUNTED_TEMP, strerror (errsv)); } my_endmntent (mftmp); { /* * If mount is setuid and some non-root user mounts sth, * then mtab.tmp might get the group of this user. Copy uid/gid * from the present mtab before renaming. */ struct stat sbuf; if (stat (MOUNTED, &sbuf) == 0) chown (MOUNTED_TEMP, sbuf.st_uid, sbuf.st_gid); } /* rename mtemp to mtab */ if (rename (MOUNTED_TEMP, MOUNTED) < 0) { int errsv = errno; fprintf(stderr, _("can't rename %s to %s: %s\n"), MOUNTED_TEMP, MOUNTED, strerror(errsv)); } leave: unlock_mtab(); }