NetBSD/dist/am-utils/amd/amfs_auto.c
2003-03-09 01:38:38 +00:00

1674 lines
43 KiB
C

/* $NetBSD: amfs_auto.c,v 1.3 2003/03/09 01:38:39 christos Exp $ */
/*
* Copyright (c) 1997-2003 Erez Zadok
* Copyright (c) 1990 Jan-Simon Pendry
* Copyright (c) 1990 Imperial College of Science, Technology & Medicine
* Copyright (c) 1990 The Regents of the University of California.
* All rights reserved.
*
* This code is derived from software contributed to Berkeley by
* Jan-Simon Pendry at Imperial College, London.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgment:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
*
* Id: amfs_auto.c,v 1.58 2003/01/25 01:46:23 ib42 Exp
*
*/
/*
* Automount file system
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif /* HAVE_CONFIG_H */
#include <am_defs.h>
#include <amd.h>
/****************************************************************************
*** MACROS ***
****************************************************************************/
#define IN_PROGRESS(cp) ((cp)->mp->am_mnt->mf_flags & MFF_MOUNTING)
#define DOT_DOT_COOKIE (u_int) 1
/****************************************************************************
*** STRUCTURES ***
****************************************************************************/
/****************************************************************************
*** FORWARD DEFINITIONS ***
****************************************************************************/
static int amfs_auto_bgmount(struct continuation *cp);
static int amfs_auto_mount(am_node *mp, mntfs *mf);
static int amfs_auto_readdir_browsable(am_node *mp, nfscookie cookie, nfsdirlist *dp, nfsentry *ep, int count, int fully_browsable);
static mntfs **amfs_auto_lookup_mntfs(am_node *new_mp, int *error_return);
static am_node *amfs_auto_lookup_node(am_node *mp, char *fname, int *error_return);
/****************************************************************************
*** OPS STRUCTURES ***
****************************************************************************/
am_ops amfs_auto_ops =
{
"auto",
amfs_auto_match,
0, /* amfs_auto_init */
amfs_auto_mount,
amfs_auto_umount,
amfs_auto_lookup_child,
amfs_auto_mount_child,
amfs_auto_readdir,
0, /* amfs_auto_readlink */
amfs_auto_mounted,
0, /* amfs_auto_umounted */
find_amfs_auto_srvr,
FS_AMQINFO | FS_DIRECTORY | FS_AUTOFS,
#ifdef HAVE_FS_AUTOFS
AUTOFS_AUTO_FS_FLAGS,
#endif /* HAVE_FS_AUTOFS */
};
/****************************************************************************
*** FUNCTIONS ***
****************************************************************************/
/*
* AMFS_AUTO needs nothing in particular.
*/
char *
amfs_auto_match(am_opts *fo)
{
char *p = fo->opt_rfs;
if (!fo->opt_rfs) {
plog(XLOG_USER, "auto: no mount point named (rfs:=)");
return 0;
}
if (!fo->opt_fs) {
plog(XLOG_USER, "auto: no map named (fs:=)");
return 0;
}
/*
* Swap round fs:= and rfs:= options
* ... historical (jsp)
*/
fo->opt_rfs = fo->opt_fs;
fo->opt_fs = p;
/*
* mtab entry turns out to be the name of the mount map
*/
return strdup(fo->opt_rfs ? fo->opt_rfs : ".");
}
/*
* Build a new map cache for this node, or re-use
* an existing cache for the same map.
*/
void
amfs_auto_mkcacheref(mntfs *mf)
{
char *cache;
if (mf->mf_fo && mf->mf_fo->opt_cache)
cache = mf->mf_fo->opt_cache;
else
cache = "none";
mf->mf_private = (voidp) mapc_find(mf->mf_info, cache,
mf->mf_fo->opt_maptype);
mf->mf_prfree = mapc_free;
}
/*
* Mount a sub-mount
*/
static int
amfs_auto_mount(am_node *mp, mntfs *mf)
{
/*
* Pseudo-directories are used to provide some structure
* to the automounted directories instead
* of putting them all in the top-level automount directory.
*
* Here, just increment the parent's link count.
*/
mp->am_parent->am_fattr.na_nlink++;
/*
* Info field of . means use parent's info field.
* Historical - not documented.
*/
if (mf->mf_info[0] == '.' && mf->mf_info[1] == '\0')
mf->mf_info = strealloc(mf->mf_info, mp->am_parent->am_mnt->mf_info);
/*
* Compute prefix:
*
* If there is an option prefix then use that else
* If the parent had a prefix then use that with name
* of this node appended else
* Use the name of this node.
*
* That means if you want no prefix you must say so
* in the map.
*/
if (mf->mf_fo->opt_pref) {
/* allow pref:=null to set a real null prefix */
if (STREQ(mf->mf_fo->opt_pref, "null")) {
mp->am_pref = strdup("");
} else {
/*
* the prefix specified as an option
*/
mp->am_pref = strdup(mf->mf_fo->opt_pref);
}
} else {
/*
* else the parent's prefix
* followed by the name
* followed by /
*/
char *ppref = mp->am_parent->am_pref;
if (ppref == 0)
ppref = "";
mp->am_pref = str3cat((char *) 0, ppref, mp->am_name, "/");
}
#ifdef HAVE_FS_AUTOFS
if (mf->mf_flags & MFF_AUTOFS) {
char opts[256];
int error;
autofs_get_opts(opts, mf->mf_autofs_fh);
/* now do the mount */
error = mount_amfs_toplvl(mf, opts);
if (error) {
errno = error;
plog(XLOG_FATAL, "amfs_auto_mount: mount_amfs_toplvl failed: %m");
return error;
}
}
#endif /* HAVE_FS_AUTOFS */
/*
* Attach a map cache
*/
amfs_auto_mkcacheref(mf);
return 0;
}
void
amfs_auto_mounted(mntfs *mf)
{
amfs_auto_mkcacheref(mf);
}
/*
* Unmount an automount sub-node
*/
int
amfs_auto_umount(am_node *mp, mntfs *mf)
{
int error = 0;
#ifdef HAVE_FS_AUTOFS
if (mf->mf_flags & MFF_AUTOFS)
error = UMOUNT_FS(mp->am_path, mf->mf_real_mount, mnttab_file_name);
#endif /* HAVE_FS_AUTOFS */
return error;
}
/*
* Discard an old continuation
*/
void
free_continuation(struct continuation *cp)
{
mntfs **mf;
dlog("free_continuation");
if (cp->callout)
untimeout(cp->callout);
/*
* we must free the mntfs's in the list.
* so free all of them if there was an error,
* or free all but the used one, if the mount succeeded.
*/
for (mf = cp->mp->am_mfarray; *mf; mf++)
/* don't free the mntfs attached to the am_node */
if (cp->mp->am_mnt != *mf)
free_mntfs(*mf);
XFREE(cp->mp->am_mfarray);
cp->mp->am_mfarray = 0;
XFREE(cp);
}
/*
* Replace mount point with a reference to an error filesystem.
* The mount point (struct mntfs) is NOT discarded,
* the caller must do it if it wants to _before_ calling this function.
*/
void
assign_error_mntfs(am_node *mp)
{
dlog("assign_error_mntfs");
if (mp->am_error > 0) {
/*
* Save the old error code
*/
int error = mp->am_error;
if (error <= 0)
error = mp->am_mnt->mf_error;
/*
* Allocate a new error reference
*/
mp->am_mnt = new_mntfs();
/*
* Put back the error code
*/
mp->am_mnt->mf_error = error;
mp->am_mnt->mf_flags |= MFF_ERROR;
/*
* Zero the error in the mount point
*/
mp->am_error = 0;
}
}
/*
* The continuation function. This is called by
* the task notifier when a background mount attempt
* completes.
*/
void
amfs_auto_cont(int rc, int term, voidp closure)
{
struct continuation *cp = (struct continuation *) closure;
mntfs *mf = cp->mp->am_mnt;
/*
* Definitely not trying to mount at the moment
*/
mf->mf_flags &= ~MFF_MOUNTING;
/*
* While we are mounting - try to avoid race conditions
*/
new_ttl(cp->mp);
/*
* Wakeup anything waiting for this mount
*/
wakeup((voidp) mf);
/*
* Check for termination signal or exit status...
*/
if (rc || term) {
am_node *xmp;
if (term) {
/*
* Not sure what to do for an error code.
*/
mf->mf_error = EIO; /* XXX ? */
mf->mf_flags |= MFF_ERROR;
plog(XLOG_ERROR, "mount for %s got signal %d", cp->mp->am_path, term);
} else {
/*
* Check for exit status...
*/
#ifdef __linux__
/*
* HACK ALERT!
*
* On Linux (and maybe not only) it's possible to run
* an amd which "knows" how to mount certain combinations
* of nfs_proto/nfs_version which the kernel doesn't grok.
* So if we got an EINVAL and we have a server that's not
* using NFSv2/UDP, try again with NFSv2/UDP.
*/
if (rc == EINVAL &&
mf->mf_server &&
(mf->mf_server->fs_version != 2 ||
!STREQ(mf->mf_server->fs_proto, "udp")))
mf->mf_flags |= MFF_NFS_SCALEDOWN;
else
#endif /* __linux__ */
{
mf->mf_error = rc;
mf->mf_flags |= MFF_ERROR;
errno = rc; /* XXX */
if (!STREQ(cp->mp->am_mnt->mf_ops->fs_type, "linkx"))
plog(XLOG_ERROR, "%s: mount (amfs_auto_cont): %m", cp->mp->am_path);
}
}
if (mf->mf_flags & MFF_NFS_SCALEDOWN)
amfs_auto_bgmount(cp);
else {
/*
* If we get here then that attempt didn't work, so
* move the info vector pointer along by one and
* call the background mount routine again
*/
amd_stats.d_merr++;
cp->mf++;
xmp = cp->mp;
amfs_auto_bgmount(cp);
assign_error_mntfs(xmp);
}
} else {
/*
* The mount worked.
*/
dlog("Mounting %s returned success", cp->mp->am_path);
am_mounted(cp->mp);
free_continuation(cp);
}
reschedule_timeout_mp();
}
/*
* Retry a mount
*/
void
amfs_auto_retry(int rc, int term, voidp closure)
{
struct continuation *cp = (struct continuation *) closure;
int error = 0;
dlog("Commencing retry for mount of %s", cp->mp->am_path);
new_ttl(cp->mp);
if ((cp->start + ALLOWED_MOUNT_TIME) < clocktime()) {
/*
* The entire mount has timed out. Set the error code and skip past all
* the mntfs's so that amfs_auto_bgmount will not have any more
* ways to try the mount, thus causing an error.
*/
plog(XLOG_INFO, "mount of \"%s\" has timed out", cp->mp->am_path);
error = ETIMEDOUT;
while (*cp->mf)
cp->mf++;
/* explicitly forbid further retries after timeout */
cp->retry = FALSE;
}
if (error || !IN_PROGRESS(cp))
amfs_auto_bgmount(cp);
reschedule_timeout_mp();
}
/*
* Try to mount a file system. Can be called
* directly or in a sub-process by run_task.
*/
int
try_mount(voidp mvp)
{
int error = 0;
am_node *mp = (am_node *) mvp;
/*
* Mount it!
*/
error = mount_node(mp);
if (error > 0)
dlog("amfs_auto: call to mount_node(%s) failed: %s",
mp->am_path, strerror(error));
return error;
}
/*
* Pick a file system to try mounting and
* do that in the background if necessary
*
For each location:
discard previous mount location if required
fetch next mount location
if the filesystem failed to be mounted then
this_error = error from filesystem
goto failed
if the filesystem is mounting or unmounting then
goto retry;
if the fileserver is down then
this_error = EIO
continue;
if the filesystem is already mounted
break
fi
this_error = initialize mount point
if no error on this mount and mount is delayed then
this_error = -1
fi
if this_error < 0 then
retry = true
fi
if no error on this mount then
if mount in background then
run mount in background
return -1
else
this_error = mount in foreground
fi
fi
if an error occurred on this mount then
update stats
save error in mount point
fi
endfor
*/
static int
amfs_auto_bgmount(struct continuation *cp)
{
am_node *mp = cp->mp;
mntfs *mf; /* Current mntfs */
int this_error = -1; /* Per-mount error */
int hard_error = -1; /* Cumulative per-node error */
/*
* Try to mount each location.
* At the end:
* hard_error == 0 indicates something was mounted.
* hard_error > 0 indicates everything failed with a hard error
* hard_error < 0 indicates nothing could be mounted now
*/
for (mp->am_mnt = *cp->mf; *cp->mf; cp->mf++, mp->am_mnt = *cp->mf) {
am_ops *p;
mf = mp->am_mnt;
p = mf->mf_ops;
if (hard_error < 0)
hard_error = this_error;
this_error = 0;
if (mf->mf_fo->fs_mtab) {
plog(XLOG_MAP, "Trying mount of %s on %s fstype %s mount_type %s",
mf->mf_fo->fs_mtab, mf->mf_fo->opt_fs, p->fs_type,
mp->am_parent->am_mnt->mf_fo ? mp->am_parent->am_mnt->mf_fo->opt_mount_type : "root");
}
if (mp->am_link) {
XFREE(mp->am_link);
mp->am_link = 0;
}
if (mf->mf_fo->opt_sublink)
mp->am_link = strdup(mf->mf_fo->opt_sublink);
if (mf->mf_error > 0) {
this_error = mf->mf_error;
goto failed;
}
if (mf->mf_flags & (MFF_MOUNTING | MFF_UNMOUNTING)) {
/*
* Still mounting - retry later
*/
dlog("Duplicate pending mount fstype %s", p->fs_type);
goto retry;
}
if (FSRV_ISDOWN(mf->mf_server)) {
/*
* Would just mount from the same place
* as a hung mount - so give up
*/
dlog("%s is already hung - giving up", mf->mf_server->fs_host);
this_error = EIO;
if (mf->mf_error < 0)
mf->mf_error = EIO;
continue;
}
if (mf->mf_flags & MFF_MOUNTED) {
dlog("duplicate mount of \"%s\" ...", mf->mf_info);
/*
* Just call am_mounted()
*/
am_mounted(mp);
break;
}
/*
* Will usually need to play around with the mount nodes
* file attribute structure. This must be done here.
* Try and get things initialized, even if the fileserver
* is not known to be up. In the common case this will
* progress things faster.
*/
/*
* Fill in attribute fields.
*/
if (mf->mf_fsflags & FS_DIRECTORY)
mk_fattr(mp, NFDIR);
else
mk_fattr(mp, NFLNK);
if (p->fs_init)
this_error = (*p->fs_init) (mf);
if (this_error > 0)
continue;
if (this_error < 0)
goto retry;
if (mf->mf_fo->opt_delay) {
/*
* If there is a delay timer on the mount
* then don't try to mount if the timer
* has not expired.
*/
int i = atoi(mf->mf_fo->opt_delay);
if (i > 0 && clocktime() < (cp->start + i)) {
dlog("Mount of %s delayed by %lds", mf->mf_mount, (long) (i - clocktime() + cp->start));
goto retry;
}
}
/*
* If the directory is not yet made and it needs to be made, then make it!
*/
if (!(mf->mf_flags & MFF_MKMNT) && mf->mf_fsflags & FS_MKMNT) {
plog(XLOG_INFO, "creating mountpoint directory '%s'", mf->mf_real_mount);
this_error = mkdirs(mf->mf_real_mount, 0555);
if (this_error) {
plog(XLOG_ERROR, "mkdirs failed: %s", strerror(this_error));
continue;
}
mf->mf_flags |= MFF_MKMNT;
}
if (mf->mf_fsflags & FS_MBACKGROUND) {
mf->mf_flags |= MFF_MOUNTING; /* XXX */
dlog("backgrounding mount of \"%s\"", mf->mf_mount);
if (cp->callout) {
untimeout(cp->callout);
cp->callout = 0;
}
/* actually run the task, backgrounding as necessary */
run_task(try_mount, (voidp) mp, amfs_auto_cont, (voidp) cp);
return -1;
} else {
dlog("foreground mount of \"%s\" ...", mf->mf_info);
this_error = try_mount((voidp) mp);
/* do this again, it might have changed */
mf = mp->am_mnt;
}
if (this_error > 0)
goto failed;
break; /* Success */
retry:
if (!cp->retry)
continue;
dlog("will retry ...\n");
/*
* Arrange that amfs_auto_bgmount is called
* after anything else happens.
*/
dlog("Arranging to retry mount of %s", mp->am_path);
sched_task(amfs_auto_retry, (voidp) cp, (voidp) mf);
if (cp->callout)
untimeout(cp->callout);
cp->callout = timeout(RETRY_INTERVAL, wakeup, (voidp) mf);
mp->am_ttl = clocktime() + RETRY_INTERVAL;
/*
* Not done yet - so don't return anything
*/
return -1;
failed:
amd_stats.d_merr++;
mf->mf_error = this_error;
mf->mf_flags |= MFF_ERROR;
if (mf->mf_flags & MFF_MKMNT) {
rmdirs(mf->mf_real_mount);
mf->mf_flags &= ~MFF_MKMNT;
}
/*
* Wakeup anything waiting for this mount
*/
wakeup((voidp) mf);
/* continue */
}
/*
* If we get here, then either the mount succeeded or
* there is no more mount information available.
*/
if (this_error) {
mp->am_mnt = mf = new_mntfs();
#ifdef HAVE_FS_AUTOFS
if (mp->am_flags & AMF_AUTOFS)
autofs_mount_failed(mp);
#endif /* HAVE_FS_AUTOFS */
if (hard_error <= 0)
hard_error = this_error;
if (hard_error < 0)
hard_error = ETIMEDOUT;
/*
* Set a small(ish) timeout on an error node if
* the error was not a time out.
*/
switch (hard_error) {
case ETIMEDOUT:
case EWOULDBLOCK:
case EIO:
mp->am_timeo = 17;
break;
default:
mp->am_timeo = 5;
break;
}
new_ttl(mp);
} else {
mf = mp->am_mnt;
/*
* Wakeup anything waiting for this mount
*/
wakeup((voidp) mf);
hard_error = 0;
}
/*
* Make sure that the error value in the mntfs has a
* reasonable value.
*/
if (mf->mf_error < 0) {
mf->mf_error = hard_error;
if (hard_error)
mf->mf_flags |= MFF_ERROR;
}
/*
* In any case we don't need the continuation any more
*/
free_continuation(cp);
return hard_error;
}
static char *
amfs_parse_defaults(am_node *mp, mntfs *mf, char *def_opts)
{
char *dflts;
char *dfl;
char **rvec;
dlog("searching for /defaults entry");
if (mapc_search((mnt_map *) mf->mf_private, "/defaults", &dflts) == 0) {
dlog("/defaults gave %s", dflts);
if (*dflts == '-')
dfl = dflts + 1;
else
dfl = dflts;
/*
* Chop the defaults up
*/
rvec = strsplit(dfl, ' ', '\"');
if (gopt.flags & CFM_SELECTORS_IN_DEFAULTS) {
/*
* Pick whichever first entry matched the list of selectors.
* Strip the selectors from the string, and assign to dfl the
* rest of the string.
*/
if (rvec) {
am_opts ap;
am_ops *pt;
char **sp = rvec;
while (*sp) { /* loop until you find something, if any */
memset((char *) &ap, 0, sizeof(am_opts));
/*
* This next routine cause many spurious "expansion of ... is"
* messages, which are ignored, b/c all we need out of this
* routine is to match selectors. These spurious messages may
* be wrong, esp. if they try to expand ${key} b/c it will
* get expanded to "/defaults"
*/
pt = ops_match(&ap, *sp, "", mp->am_path, "/defaults",
mp->am_parent->am_mnt->mf_info);
free_opts(&ap); /* don't leak */
if (pt == &amfs_error_ops) {
plog(XLOG_MAP, "did not match defaults for \"%s\"", *sp);
} else {
dfl = strip_selectors(*sp, "/defaults");
plog(XLOG_MAP, "matched default selectors \"%s\"", dfl);
break;
}
++sp;
}
}
} else { /* not selectors_in_defaults */
/*
* Extract first value
*/
dfl = rvec[0];
}
/*
* If there were any values at all...
*/
if (dfl) {
/*
* Log error if there were other values
*/
if (!(gopt.flags & CFM_SELECTORS_IN_DEFAULTS) && rvec[1]) {
dlog("/defaults chopped into %s", dfl);
plog(XLOG_USER, "More than a single value for /defaults in %s", mf->mf_info);
}
/*
* Prepend to existing defaults if they exist,
* otherwise just use these defaults.
*/
if (*def_opts && *dfl) {
char *nopts = (char *) xmalloc(strlen(def_opts) + strlen(dfl) + 2);
sprintf(nopts, "%s;%s", dfl, def_opts);
XFREE(def_opts);
def_opts = nopts;
} else if (*dfl) {
def_opts = strealloc(def_opts, dfl);
}
}
XFREE(dflts);
/*
* Don't need info vector any more
*/
XFREE(rvec);
}
return def_opts;
}
static am_node *
amfs_auto_lookup_node(am_node *mp, char *fname, int *error_return)
{
am_node *new_mp;
int error = 0; /* Error so far */
int in_progress = 0; /* # of (un)mount in progress */
mntfs *mf;
char *expanded_fname = 0;
dlog("in amfs_auto_lookup_node");
/*
* If the server is shutting down
* then don't return information
* about the mount point.
*/
if (amd_state == Finishing) {
if (mp->am_mnt == 0 || mp->am_mnt->mf_fsflags & FS_DIRECT) {
dlog("%s mount ignored - going down", fname);
} else {
dlog("%s/%s mount ignored - going down", mp->am_path, fname);
}
ereturn(ENOENT);
}
/*
* Handle special case of "." and ".."
*/
if (fname[0] == '.') {
if (fname[1] == '\0')
return mp; /* "." is the current node */
if (fname[1] == '.' && fname[2] == '\0') {
if (mp->am_parent) {
dlog(".. in %s gives %s", mp->am_path, mp->am_parent->am_path);
return mp->am_parent; /* ".." is the parent node */
}
ereturn(ESTALE);
}
}
/*
* Check for valid key name.
* If it is invalid then pretend it doesn't exist.
*/
if (!valid_key(fname)) {
plog(XLOG_WARNING, "Key \"%s\" contains a disallowed character", fname);
ereturn(ENOENT);
}
/*
* Expand key name.
* expanded_fname is now a private copy.
*/
expanded_fname = expand_selectors(fname);
/*
* Search children of this node
*/
for (new_mp = mp->am_child; new_mp; new_mp = new_mp->am_osib) {
if (FSTREQ(new_mp->am_name, expanded_fname)) {
if (new_mp->am_error) {
error = new_mp->am_error;
continue;
}
/*
* If the error code is undefined then it must be
* in progress.
*/
mf = new_mp->am_mnt;
if (mf->mf_error < 0)
goto in_progrss;
/*
* If there was a previous error with this node
* then return that error code.
*/
if (mf->mf_flags & MFF_ERROR) {
error = mf->mf_error;
continue;
}
if (!(mf->mf_flags & MFF_MOUNTED) || (mf->mf_flags & MFF_UNMOUNTING)) {
in_progrss:
/*
* If the fs is not mounted or it is unmounting then there
* is a background (un)mount in progress. In this case
* we just drop the RPC request (return nil) and
* wait for a retry, by which time the (un)mount may
* have completed.
*/
dlog("ignoring mount of %s in %s -- %smounting in progress, flags %x",
expanded_fname, mf->mf_mount,
(mf->mf_flags & MFF_UNMOUNTING) ? "un" : "", mf->mf_flags);
in_progress++;
if (mf->mf_flags & MFF_UNMOUNTING) {
dlog("will remount later");
new_mp->am_flags |= AMF_REMOUNT;
}
continue;
}
/*
* Otherwise we have a hit: return the current mount point.
*/
dlog("matched %s in %s", expanded_fname, new_mp->am_path);
XFREE(expanded_fname);
return new_mp;
}
}
if (in_progress) {
dlog("Waiting while %d mount(s) in progress", in_progress);
XFREE(expanded_fname);
ereturn(-1);
}
/*
* If an error occurred then return it.
*/
if (error) {
dlog("Returning error: %s", strerror(error));
XFREE(expanded_fname);
ereturn(error);
}
/*
* If the server is going down then just return,
* don't try to mount any more file systems
*/
if ((int) amd_state >= (int) Finishing) {
dlog("not found - server going down anyway");
ereturn(ENOENT);
}
/*
* Allocate a new map
*/
new_mp = get_ap_child(mp, expanded_fname);
XFREE(expanded_fname);
if (new_mp == 0)
ereturn(ENOSPC);
*error_return = -1;
return new_mp;
}
static mntfs *
amfs_auto_lookup_one_mntfs(am_node *new_mp, mntfs *mf, char *ivec,
char *def_opts, char *pfname)
{
am_ops *p;
am_opts *fs_opts;
mntfs *new_mf;
char *link_dir;
/* match the operators */
fs_opts = calloc(1, sizeof(am_opts));
p = ops_match(fs_opts, ivec, def_opts, new_mp->am_path,
pfname, mf->mf_info);
#ifdef HAVE_FS_AUTOFS
if (new_mp->am_flags & AMF_AUTOFS) {
/* ignore user-provided fs if we're using autofs */
if (fs_opts->opt_sublink) {
if (fs_opts->opt_sublink[0] == '/') {
XFREE(fs_opts->opt_fs);
fs_opts->opt_fs = strdup(new_mp->am_path);
} else {
/*
* For a relative sublink we need to use a hack with autofe:
* mount the filesystem on the original opt_fs (which is NOT an
* autofs mountpoint) and symlink (or lofs-mount) to it from
* the autofs dir.
*
* In other words, we make no changes here.
*/
}
} else {
XFREE(fs_opts->opt_fs);
fs_opts->opt_fs = strdup(new_mp->am_path);
}
}
#endif /* HAVE_FS_AUTOFS */
/*
* Find or allocate a filesystem for this node.
*/
new_mf = find_mntfs(p, fs_opts,
fs_opts->opt_fs,
fs_opts->fs_mtab,
def_opts,
fs_opts->opt_opts,
fs_opts->opt_remopts);
/*
* See whether this is a real filesystem
*/
p = new_mf->mf_ops;
if (p == &amfs_error_ops) {
plog(XLOG_MAP, "Map entry %s for %s did not match", ivec, new_mp->am_path);
free_mntfs(new_mf);
return NULL;
}
dlog("Got a hit with %s", p->fs_type);
#ifdef HAVE_FS_AUTOFS
if (new_mp->am_flags & AMF_AUTOFS) {
new_mf->mf_fsflags = new_mf->mf_ops->autofs_fs_flags;
#ifdef NEED_AUTOFS_SPACE_HACK
free(new_mf->mf_real_mount);
new_mf->mf_real_mount = autofs_strdup_space_hack(new_mf->mf_mount);
#endif /* NEED_AUTOFS_SPACE_HACK */
}
if (new_mf->mf_fsflags & FS_AUTOFS &&
mf->mf_flags & MFF_AUTOFS)
new_mf->mf_flags |= MFF_AUTOFS;
#endif /* HAVE_FS_AUTOFS */
link_dir = new_mf->mf_fo->opt_sublink;
if (link_dir && link_dir[0] && link_dir[0] != '/') {
link_dir = str3cat((char *) 0,
new_mf->mf_fo->opt_fs, "/", link_dir);
normalize_slash(link_dir);
XFREE(new_mf->mf_fo->opt_sublink);
new_mf->mf_fo->opt_sublink = link_dir;
}
return new_mf;
}
static mntfs **
amfs_auto_lookup_mntfs(am_node *new_mp, int *error_return)
{
am_node *mp;
char *info; /* Mount info - where to get the file system */
char **ivecs, **cur_ivec; /* Split version of info */
int num_ivecs;
char *def_opts; /* Automount options */
int error = 0; /* Error so far */
char path_name[MAXPATHLEN]; /* General path name buffer */
char *pfname; /* Path for database lookup */
mntfs *mf, **mf_array;
int count;
dlog("in amfs_auto_lookup_mntfs");
mp = new_mp->am_parent;
/*
* If we get here then this is a reference to an,
* as yet, unknown name so we need to search the mount
* map for it.
*/
if (mp->am_pref) {
if (strlen(mp->am_pref) + strlen(new_mp->am_name) >= sizeof(path_name))
ereturn(ENAMETOOLONG);
sprintf(path_name, "%s%s", mp->am_pref, new_mp->am_name);
pfname = path_name;
} else {
pfname = new_mp->am_name;
}
mf = mp->am_mnt;
dlog("will search map info in %s to find %s", mf->mf_info, pfname);
/*
* Consult the oracle for some mount information.
* info is malloc'ed and belongs to this routine.
* It ends up being free'd in free_continuation().
*
* Note that this may return -1 indicating that information
* is not yet available.
*/
error = mapc_search((mnt_map *) mf->mf_private, pfname, &info);
if (error) {
if (error > 0)
plog(XLOG_MAP, "No map entry for %s", pfname);
else
plog(XLOG_MAP, "Waiting on map entry for %s", pfname);
ereturn(error);
}
dlog("mount info is %s", info);
/*
* Split info into an argument vector.
* The vector is malloc'ed and belongs to
* this routine. It is free'd further down.
*
* Note: the vector pointers point into info, so don't free it!
*/
ivecs = strsplit(info, ' ', '\"');
if (mf->mf_auto)
def_opts = mf->mf_auto;
else
def_opts = "";
def_opts = amfs_parse_defaults(mp, mf, strdup(def_opts));
/* first build our defaults */
num_ivecs = 0;
for (cur_ivec = ivecs; *cur_ivec; cur_ivec++) {
if (**cur_ivec == '-') {
/*
* Pick up new defaults
*/
char *old_def_opts = def_opts;
def_opts = str3cat((char *) 0, old_def_opts, ";", *cur_ivec + 1);
dlog("Setting def_opts to \"%s\"", def_opts);
continue;
} else
num_ivecs++;
}
mf_array = calloc(num_ivecs + 1, sizeof(mntfs *));
/* construct the array of struct mntfs for this mount point */
for (count = 0, cur_ivec = ivecs; *cur_ivec; cur_ivec++) {
mntfs *new_mf;
/* we've dealt with the defaults already */
if (**cur_ivec == '-')
continue;
/*
* If a mntfs has already been found, and we find
* a cut then don't try any more locations.
*/
if (STREQ(*cur_ivec, "/") || STREQ(*cur_ivec, "||")) {
if (count > 0) {
dlog("Cut: not trying any more locations for %s", mp->am_path);
break;
}
continue;
}
new_mf = amfs_auto_lookup_one_mntfs(new_mp, mf, *cur_ivec, def_opts, pfname);
if (new_mf == NULL)
continue;
mf_array[count++] = new_mf;
}
/* We're done with ivecs */
XFREE(ivecs);
XFREE(info);
if (count == 0) { /* no match */
XFREE(mf_array);
ereturn(ENOENT);
}
return mf_array;
}
am_node *
amfs_auto_mount_child(am_node *new_mp, int *error_return)
{
int error;
struct continuation *cp; /* Continuation structure if need to mount */
dlog("in amfs_auto_mount_child");
*error_return = error = 0; /* Error so far */
/* we have an errorfs attached to the am_node, free it */
free_mntfs(new_mp->am_mnt);
new_mp->am_mnt = 0;
/*
* Construct a continuation
*/
cp = ALLOC(struct continuation);
cp->callout = 0;
cp->mp = new_mp;
cp->retry = TRUE;
cp->start = clocktime();
cp->mf = new_mp->am_mfarray;
/*
* Try and mount the file system. If this succeeds immediately (possible
* for a ufs file system) then return the attributes, otherwise just
* return an error.
*/
error = amfs_auto_bgmount(cp);
reschedule_timeout_mp();
if (!error)
return new_mp;
/*
* Code for quick reply. If current_transp is set, then it's the
* transp that's been passed down from nfs_program_2() or from
* autofs_program_[123]().
* If new_mp->am_transp is not already set, set it by copying in
* current_transp. Once am_transp is set, nfs_quick_reply() and
* autofs_mount_succeeded() can use it to send a reply to the
* client that requested this mount.
*/
if (current_transp && !new_mp->am_transp) {
new_mp->am_transp = (SVCXPRT *) xmalloc(sizeof(SVCXPRT));
*(new_mp->am_transp) = *current_transp;
}
if (error && (new_mp->am_mnt->mf_ops == &amfs_error_ops))
new_mp->am_error = error;
assign_error_mntfs(new_mp);
ereturn(error);
}
/*
* Automount interface to RPC lookup routine
* Find the corresponding entry and return
* the file handle for it.
*/
am_node *
amfs_auto_lookup_child(am_node *mp, char *fname, int *error_return, int op)
{
am_node *new_mp;
mntfs **mf_array;
int mp_error;
dlog("in amfs_auto_lookup_child");
*error_return = 0;
new_mp = amfs_auto_lookup_node(mp, fname, error_return);
/* return if we got an error */
if (!new_mp || *error_return > 0)
return new_mp;
/* also return if it's already mounted and known to be up */
if (*error_return == 0 && FSRV_ISUP(new_mp->am_mnt->mf_server))
return new_mp;
if (op == VLOOK_DELETE)
/*
* If doing a delete then don't create again!
*/
ereturn(ENOENT);
/* save error_return */
mp_error = *error_return;
mf_array = amfs_auto_lookup_mntfs(new_mp, error_return);
if (!mf_array) {
new_mp->am_error = new_mp->am_mnt->mf_error = *error_return;
free_map(new_mp);
return NULL;
}
/*
* Already mounted but known to be down:
* check if we have any alternatives to mount
*/
if (mp_error == 0) {
mntfs **mfp;
for (mfp = mf_array; *mfp; mfp++)
if (*mfp != new_mp->am_mnt)
break;
if (*mfp != NULL) {
/*
* we found an alternative, so try mounting again.
*/
*error_return = -1;
} else {
for (mfp = mf_array; *mfp; mfp++)
free_mntfs(*mfp);
XFREE(mf_array);
if (new_mp->am_flags & AMF_SOFTLOOKUP) {
ereturn(EIO);
} else {
*error_return = 0;
return new_mp;
}
}
}
/* store the array inside the am_node */
new_mp->am_mfarray = mf_array;
/*
* XXX: we need to sort the mntfs's we got.
* the order should be something like:
* 1. link
* 2. anything else (XXX -- any other preferences?)
*/
return new_mp;
}
/*
* Locate next node in sibling list which is mounted
* and is not an error node.
*/
am_node *
next_nonerror_node(am_node *xp)
{
mntfs *mf;
/*
* Bug report (7/12/89) from Rein Tollevik <rein@ifi.uio.no>
* Fixes a race condition when mounting direct automounts.
* Also fixes a problem when doing a readdir on a directory
* containing hung automounts.
*/
while (xp &&
(!(mf = xp->am_mnt) || /* No mounted filesystem */
mf->mf_error != 0 || /* There was a mntfs error */
xp->am_error != 0 || /* There was a mount error */
!(mf->mf_flags & MFF_MOUNTED) || /* The fs is not mounted */
(mf->mf_server->fs_flags & FSF_DOWN)) /* The fs may be down */
)
xp = xp->am_osib;
return xp;
}
/*
* This readdir function which call a special version of it that allows
* browsing if browsable_dirs=yes was set on the map.
*/
int
amfs_auto_readdir(am_node *mp, nfscookie cookie, nfsdirlist *dp, nfsentry *ep, int count)
{
u_int gen = *(u_int *) cookie;
am_node *xp;
mntent_t mnt;
dp->dl_eof = FALSE; /* assume readdir not done */
/* check if map is browsable */
if (mp->am_mnt && mp->am_mnt->mf_mopts) {
mnt.mnt_opts = mp->am_mnt->mf_mopts;
if (amu_hasmntopt(&mnt, "fullybrowsable"))
return amfs_auto_readdir_browsable(mp, cookie, dp, ep, count, TRUE);
if (amu_hasmntopt(&mnt, "browsable"))
return amfs_auto_readdir_browsable(mp, cookie, dp, ep, count, FALSE);
}
/* when gen is 0, we start reading from the beginning of the directory */
if (gen == 0) {
/*
* In the default instance (which is used to start a search) we return
* "." and "..".
*
* This assumes that the count is big enough to allow both "." and ".."
* to be returned in a single packet. If it isn't (which would be
* fairly unbelievable) then tough.
*/
dlog("amfs_auto_readdir: default search");
/*
* Check for enough room. This is extremely approximate but is more
* than enough space. Really need 2 times:
* 4byte fileid
* 4byte cookie
* 4byte name length
* 4byte name
* plus the dirlist structure */
if (count < (2 * (2 * (sizeof(*ep) + sizeof("..") + 4) + sizeof(*dp))))
return EINVAL;
xp = next_nonerror_node(mp->am_child);
dp->dl_entries = ep;
/* construct "." */
ep[0].ne_fileid = mp->am_gen;
ep[0].ne_name = ".";
ep[0].ne_nextentry = &ep[1];
*(u_int *) ep[0].ne_cookie = 0;
/* construct ".." */
if (mp->am_parent)
ep[1].ne_fileid = mp->am_parent->am_gen;
else
ep[1].ne_fileid = mp->am_gen;
ep[1].ne_name = "..";
ep[1].ne_nextentry = 0;
*(u_int *) ep[1].ne_cookie = (xp ? xp->am_gen : DOT_DOT_COOKIE);
if (!xp)
dp->dl_eof = TRUE; /* by default assume readdir done */
if (amuDebug(D_READDIR)) {
nfsentry *ne;
int j;
for (j = 0, ne = ep; ne; ne = ne->ne_nextentry)
plog(XLOG_DEBUG, "gen1 key %4d \"%s\" fi=%d ck=%d",
j++, ne->ne_name, ne->ne_fileid, *(u_int *)ne->ne_cookie);
}
return 0;
}
dlog("amfs_auto_readdir: real child");
if (gen == DOT_DOT_COOKIE) {
dlog("amfs_auto_readdir: End of readdir in %s", mp->am_path);
dp->dl_eof = TRUE;
dp->dl_entries = 0;
if (amuDebug(D_READDIR))
plog(XLOG_DEBUG, "end of readdir eof=TRUE, dl_entries=0\n");
return 0;
}
/* non-browsable directories code */
xp = mp->am_child;
while (xp && xp->am_gen != gen)
xp = xp->am_osib;
if (xp) {
int nbytes = count / 2; /* conservative */
int todo = MAX_READDIR_ENTRIES;
dp->dl_entries = ep;
do {
am_node *xp_next = next_nonerror_node(xp->am_osib);
if (xp_next) {
*(u_int *) ep->ne_cookie = xp_next->am_gen;
} else {
*(u_int *) ep->ne_cookie = DOT_DOT_COOKIE;
dp->dl_eof = TRUE;
}
ep->ne_fileid = xp->am_gen;
ep->ne_name = xp->am_name;
nbytes -= sizeof(*ep) + 1;
if (xp->am_name)
nbytes -= strlen(xp->am_name);
xp = xp_next;
if (nbytes > 0 && !dp->dl_eof && todo > 1) {
ep->ne_nextentry = ep + 1;
ep++;
--todo;
} else {
todo = 0;
}
} while (todo > 0);
ep->ne_nextentry = 0;
if (amuDebug(D_READDIR)) {
nfsentry *ne;
int j;
for (j=0,ne=ep; ne; ne=ne->ne_nextentry)
plog(XLOG_DEBUG, "gen2 key %4d \"%s\" fi=%d ck=%d",
j++, ne->ne_name, ne->ne_fileid, *(u_int *)ne->ne_cookie);
}
return 0;
}
return ESTALE;
}
/* This one is called only if map is browsable */
static int
amfs_auto_readdir_browsable(am_node *mp, nfscookie cookie, nfsdirlist *dp, nfsentry *ep, int count, int fully_browsable)
{
u_int gen = *(u_int *) cookie;
int chain_length, i;
static nfsentry *te, *te_next;
static int j;
dp->dl_eof = FALSE; /* assume readdir not done */
if (amuDebug(D_READDIR))
plog(XLOG_DEBUG, "amfs_auto_readdir_browsable gen=%u, count=%d",
gen, count);
if (gen == 0) {
/*
* In the default instance (which is used to start a search) we return
* "." and "..".
*
* This assumes that the count is big enough to allow both "." and ".."
* to be returned in a single packet. If it isn't (which would be
* fairly unbelievable) then tough.
*/
dlog("amfs_auto_readdir_browsable: default search");
/*
* Check for enough room. This is extremely approximate but is more
* than enough space. Really need 2 times:
* 4byte fileid
* 4byte cookie
* 4byte name length
* 4byte name
* plus the dirlist structure */
if (count < (2 * (2 * (sizeof(*ep) + sizeof("..") + 4) + sizeof(*dp))))
return EINVAL;
/*
* compute # of entries to send in this chain.
* heuristics: 128 bytes per entry.
* This is too much probably, but it seems to work better because
* of the re-entrant nature of nfs_readdir, and esp. on systems
* like OpenBSD 2.2.
*/
chain_length = count / 128;
/* reset static state counters */
te = te_next = NULL;
dp->dl_entries = ep;
/* construct "." */
ep[0].ne_fileid = mp->am_gen;
ep[0].ne_name = ".";
ep[0].ne_nextentry = &ep[1];
*(u_int *) ep[0].ne_cookie = 0;
/* construct ".." */
if (mp->am_parent)
ep[1].ne_fileid = mp->am_parent->am_gen;
else
ep[1].ne_fileid = mp->am_gen;
ep[1].ne_name = "..";
ep[1].ne_nextentry = 0;
*(u_int *) ep[1].ne_cookie = DOT_DOT_COOKIE;
/*
* If map is browsable, call a function make_entry_chain() to construct
* a linked list of unmounted keys, and return it. Then link the chain
* to the regular list. Get the chain only once, but return
* chunks of it each time.
*/
te = make_entry_chain(mp, dp->dl_entries, fully_browsable);
if (!te)
return 0;
if (amuDebug(D_READDIR)) {
nfsentry *ne;
for (j = 0, ne = te; ne; ne = ne->ne_nextentry)
plog(XLOG_DEBUG, "gen1 key %4d \"%s\"", j++, ne->ne_name);
}
/* return only "chain_length" entries */
te_next = te;
for (i=1; i<chain_length; ++i) {
te_next = te_next->ne_nextentry;
if (!te_next)
break;
}
if (te_next) {
nfsentry *te_saved = te_next->ne_nextentry;
te_next->ne_nextentry = NULL; /* terminate "te" chain */
te_next = te_saved; /* save rest of "te" for next iteration */
dp->dl_eof = FALSE; /* tell readdir there's more */
} else {
dp->dl_eof = TRUE; /* tell readdir that's it */
}
ep[1].ne_nextentry = te; /* append this chunk of "te" chain */
if (amuDebug(D_READDIR)) {
nfsentry *ne;
for (j = 0, ne = te; ne; ne = ne->ne_nextentry)
plog(XLOG_DEBUG, "gen2 key %4d \"%s\"", j++, ne->ne_name);
for (j = 0, ne = ep; ne; ne = ne->ne_nextentry)
plog(XLOG_DEBUG, "gen2+ key %4d \"%s\" fi=%d ck=%d",
j++, ne->ne_name, ne->ne_fileid, *(u_int *)ne->ne_cookie);
plog(XLOG_DEBUG, "EOF is %d", dp->dl_eof);
}
return 0;
} /* end of "if (gen == 0)" statement */
dlog("amfs_auto_readdir_browsable: real child");
if (gen == DOT_DOT_COOKIE) {
dlog("amfs_auto_readdir_browsable: End of readdir in %s", mp->am_path);
dp->dl_eof = TRUE;
dp->dl_entries = 0;
return 0;
}
/*
* If browsable directories, then continue serving readdir() with another
* chunk of entries, starting from where we left off (when gen was equal
* to 0). Once again, assume last chunk served to readdir.
*/
dp->dl_eof = TRUE;
dp->dl_entries = ep;
te = te_next; /* reset 'te' from last saved te_next */
if (!te) { /* another indicator of end of readdir */
dp->dl_entries = 0;
return 0;
}
/*
* compute # of entries to send in this chain.
* heuristics: 128 bytes per entry.
*/
chain_length = count / 128;
/* return only "chain_length" entries */
for (i = 1; i < chain_length; ++i) {
te_next = te_next->ne_nextentry;
if (!te_next)
break;
}
if (te_next) {
nfsentry *te_saved = te_next->ne_nextentry;
te_next->ne_nextentry = NULL; /* terminate "te" chain */
te_next = te_saved; /* save rest of "te" for next iteration */
dp->dl_eof = FALSE; /* tell readdir there's more */
}
ep = te; /* send next chunk of "te" chain */
dp->dl_entries = ep;
if (amuDebug(D_READDIR)) {
nfsentry *ne;
plog(XLOG_DEBUG, "dl_entries=0x%lx, te_next=0x%lx, dl_eof=%d",
(u_long) dp->dl_entries,
(u_long) te_next,
dp->dl_eof);
for (ne = te; ne; ne = ne->ne_nextentry)
plog(XLOG_DEBUG, "gen3 key %4d \"%s\"", j++, ne->ne_name);
}
return 0;
}