NetBSD/dist/am-utils/amd/map.c
veego de9d6f0e6a 2nd import of am-utils 6.0.6.
This time after running the amd2netbsd script.
2001-05-13 17:49:57 +00:00

1131 lines
26 KiB
C

/* $NetBSD: map.c,v 1.1.1.4 2001/05/13 17:50:13 veego Exp $ */
/*
* Copyright (c) 1997-2001 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.
*
* %W% (Berkeley) %G%
*
* Id: map.c,v 1.6.2.3 2001/01/10 03:23:07 ezk Exp
*
*/
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif /* HAVE_CONFIG_H */
#include <am_defs.h>
#include <amd.h>
#define smallest_t(t1, t2) (t1 != NEVER ? (t2 != NEVER ? (t1 < t2 ? t1 : t2) : t1) : t2)
#define IGNORE_FLAGS (MFF_MOUNTING|MFF_UNMOUNTING|MFF_RESTART)
#define NEVER (time_t) 0
#define new_gen() (am_gen++)
/*
* Generation Numbers.
*
* Generation numbers are allocated to every node created
* by amd. When a filehandle is computed and sent to the
* kernel, the generation number makes sure that it is safe
* to reallocate a node slot even when the kernel has a cached
* reference to its old incarnation.
* No garbage collection is done, since it is assumed that
* there is no way that 2^32 generation numbers could ever
* be allocated by a single run of amd - there is simply
* not enough cpu time available.
* Famous last words... -Ion
*/
static u_int am_gen = 2; /* Initial generation number */
static int timeout_mp_id; /* Id from last call to timeout */
am_node *root_node; /* The root of the mount tree */
am_node **exported_ap = (am_node **) 0;
int exported_ap_size = 0;
int first_free_map = 0; /* First available free slot */
int last_used_map = -1; /* Last unavailable used slot */
/*
* This is the default attributes field which
* is copied into every new node to be created.
* The individual filesystem fs_init() routines
* patch the copy to represent the particular
* details for the relevant filesystem type
*/
static nfsfattr gen_fattr =
{
NFLNK, /* type */
NFSMODE_LNK | 0777, /* mode */
1, /* nlink */
0, /* uid */
0, /* gid */
0, /* size */
4096, /* blocksize */
0, /* rdev */
1, /* blocks */
0, /* fsid */
0, /* fileid */
{0, 0}, /* atime */
{0, 0}, /* mtime */
{0, 0}, /* ctime */
};
/* forward declarations */
static int unmount_node(am_node *mp);
static void exported_ap_free(am_node *mp);
static void remove_am(am_node *mp);
/*
* Resize exported_ap map
*/
static int
exported_ap_realloc_map(int nsize)
{
/*
* this shouldn't happen, but...
*/
if (nsize < 0 || nsize == exported_ap_size)
return 0;
exported_ap = (am_node **) xrealloc((voidp) exported_ap, nsize * sizeof(am_node *));
if (nsize > exported_ap_size)
memset((char *) (exported_ap + exported_ap_size), 0,
(nsize - exported_ap_size) * sizeof(am_node *));
exported_ap_size = nsize;
return 1;
}
/*
* Allocate a new mount slot and create
* a new node.
* Fills in the map number of the node,
* but leaves everything else uninitialized.
*/
am_node *
exported_ap_alloc(void)
{
am_node *mp, **mpp;
/*
* First check if there are any slots left, realloc if needed
*/
if (first_free_map >= exported_ap_size)
if (!exported_ap_realloc_map(exported_ap_size + NEXP_AP))
return 0;
/*
* Grab the next free slot
*/
mpp = exported_ap + first_free_map;
mp = *mpp = ALLOC(struct am_node);
memset((char *) mp, 0, sizeof(*mp));
mp->am_mapno = first_free_map++;
/*
* Update free pointer
*/
while (first_free_map < exported_ap_size && exported_ap[first_free_map])
first_free_map++;
if (first_free_map > last_used_map)
last_used_map = first_free_map - 1;
return mp;
}
/*
* Free a mount slot
*/
static void
exported_ap_free(am_node *mp)
{
/*
* Sanity check
*/
if (!mp)
return;
/*
* Zero the slot pointer to avoid double free's
*/
exported_ap[mp->am_mapno] = 0;
/*
* Update the free and last_used indices
*/
if (mp->am_mapno == last_used_map)
while (last_used_map >= 0 && exported_ap[last_used_map] == 0)
--last_used_map;
if (first_free_map > mp->am_mapno)
first_free_map = mp->am_mapno;
/*
* Free the mount node
*/
XFREE(mp);
}
/*
* Insert mp into the correct place,
* where p_mp is its parent node.
* A new node gets placed as the youngest sibling
* of any other children, and the parent's child
* pointer is adjusted to point to the new child node.
*/
void
insert_am(am_node *mp, am_node *p_mp)
{
/*
* If this is going in at the root then flag it
* so that it cannot be unmounted by amq.
*/
if (p_mp == root_node)
mp->am_flags |= AMF_ROOT;
/*
* Fill in n-way links
*/
mp->am_parent = p_mp;
mp->am_osib = p_mp->am_child;
if (mp->am_osib)
mp->am_osib->am_ysib = mp;
p_mp->am_child = mp;
}
/*
* Remove am from its place in the mount tree
*/
static void
remove_am(am_node *mp)
{
/*
* 1. Consistency check
*/
if (mp->am_child && mp->am_parent) {
plog(XLOG_WARNING, "children of \"%s\" still exist - deleting anyway", mp->am_path);
}
/*
* 2. Update parent's child pointer
*/
if (mp->am_parent && mp->am_parent->am_child == mp)
mp->am_parent->am_child = mp->am_osib;
/*
* 3. Unlink from sibling chain
*/
if (mp->am_ysib)
mp->am_ysib->am_osib = mp->am_osib;
if (mp->am_osib)
mp->am_osib->am_ysib = mp->am_ysib;
}
/*
* Compute a new time to live value for a node.
*/
void
new_ttl(am_node *mp)
{
mp->am_timeo_w = 0;
mp->am_ttl = clocktime();
mp->am_fattr.na_atime.nt_seconds = mp->am_ttl;
mp->am_ttl += mp->am_timeo; /* sun's -tl option */
}
void
mk_fattr(am_node *mp, nfsftype vntype)
{
switch (vntype) {
case NFDIR:
mp->am_fattr.na_type = NFDIR;
mp->am_fattr.na_mode = NFSMODE_DIR | 0555;
mp->am_fattr.na_nlink = 2;
mp->am_fattr.na_size = 512;
break;
case NFLNK:
mp->am_fattr.na_type = NFLNK;
mp->am_fattr.na_mode = NFSMODE_LNK | 0777;
mp->am_fattr.na_nlink = 1;
mp->am_fattr.na_size = 0;
break;
default:
plog(XLOG_FATAL, "Unknown fattr type %d - ignored", vntype);
break;
}
}
/*
* Initialize an allocated mount node.
* It is assumed that the mount node was b-zero'd
* before getting here so anything that would
* be set to zero isn't done here.
*/
void
init_map(am_node *mp, char *dir)
{
/*
* mp->am_mapno is initialized by exported_ap_alloc
* other fields don't need to be initialized.
*/
mp->am_mnt = new_mntfs();
mp->am_name = strdup(dir);
mp->am_path = strdup(dir);
mp->am_gen = new_gen();
mp->am_timeo = gopt.am_timeo;
mp->am_attr.ns_status = NFS_OK;
mp->am_fattr = gen_fattr;
mp->am_fattr.na_fsid = 42;
mp->am_fattr.na_fileid = mp->am_gen;
mp->am_fattr.na_atime.nt_seconds = clocktime();
mp->am_fattr.na_atime.nt_useconds = 0;
mp->am_fattr.na_mtime = mp->am_fattr.na_ctime = mp->am_fattr.na_atime;
new_ttl(mp);
mp->am_stats.s_mtime = mp->am_fattr.na_atime.nt_seconds;
}
/*
* Free a mount node.
* The node must be already unmounted.
*/
void
free_map(am_node *mp)
{
remove_am(mp);
if (mp->am_link)
XFREE(mp->am_link);
if (mp->am_name)
XFREE(mp->am_name);
if (mp->am_path)
XFREE(mp->am_path);
if (mp->am_pref)
XFREE(mp->am_pref);
if (mp->am_transp)
XFREE(mp->am_transp);
if (mp->am_mnt)
free_mntfs(mp->am_mnt);
exported_ap_free(mp);
}
/*
* Convert from file handle to automount node.
*/
am_node *
fh_to_mp3(am_nfs_fh *fhp, int *rp, int c_or_d)
{
struct am_fh *fp = (struct am_fh *) fhp;
am_node *ap = 0;
/*
* Check process id matches
* If it doesn't then it is probably
* from an old kernel cached filehandle
* which is now out of date.
*/
if (fp->fhh_pid != am_mypid)
goto drop;
/*
* Make sure the index is valid before
* exported_ap is referenced.
*/
if (fp->fhh_id < 0 || fp->fhh_id >= exported_ap_size)
goto drop;
/*
* Get hold of the supposed mount node
*/
ap = exported_ap[fp->fhh_id];
/*
* If it exists then maybe...
*/
if (ap) {
/*
* Check the generation number in the node
* matches the one from the kernel. If not
* then the old node has been timed out and
* a new one allocated.
*/
if (ap->am_gen != fp->fhh_gen) {
ap = 0;
goto drop;
}
/*
* If the node is hung then locate a new node
* for it. This implements the replicated filesystem
* retries.
*/
if (ap->am_mnt && FSRV_ISDOWN(ap->am_mnt->mf_server) && ap->am_parent) {
int error;
am_node *orig_ap = ap;
#ifdef DEBUG
dlog("fh_to_mp3: %s (%s) is hung:- call lookup",
orig_ap->am_path, orig_ap->am_mnt->mf_info);
#endif /* DEBUG */
/*
* Update modify time of parent node.
* With any luck the kernel will re-stat
* the child node and get new information.
*/
orig_ap->am_fattr.na_mtime.nt_seconds = clocktime();
/*
* Call the parent's lookup routine for an object
* with the same name. This may return -1 in error
* if a mount is in progress. In any case, if no
* mount node is returned the error code is propagated
* to the caller.
*/
if (c_or_d == VLOOK_CREATE) {
ap = (*orig_ap->am_parent->am_mnt->mf_ops->lookuppn)
(orig_ap->am_parent, orig_ap->am_name, &error, c_or_d);
} else {
ap = 0;
error = ESTALE;
}
if (ap == 0) {
if (error < 0 && amd_state == Finishing)
error = ENOENT;
*rp = error;
return 0;
}
/*
* Update last access to original node. This
* avoids timing it out and so sending ESTALE
* back to the kernel.
* XXX - Not sure we need this anymore (jsp, 90/10/6).
*/
new_ttl(orig_ap);
}
/*
* Disallow references to objects being unmounted, unless
* they are automount points.
*/
if (ap->am_mnt && (ap->am_mnt->mf_flags & MFF_UNMOUNTING) &&
!(ap->am_flags & AMF_ROOT)) {
if (amd_state == Finishing)
*rp = ENOENT;
else
*rp = -1;
return 0;
}
new_ttl(ap);
}
drop:
if (!ap || !ap->am_mnt) {
/*
* If we are shutting down then it is likely
* that this node has disappeared because of
* a fast timeout. To avoid things thrashing
* just pretend it doesn't exist at all. If
* ESTALE is returned, some NFS clients just
* keep retrying (stupid or what - if it's
* stale now, what's it going to be in 5 minutes?)
*/
if (amd_state == Finishing)
*rp = ENOENT;
else
*rp = ESTALE;
amd_stats.d_stale++;
}
return ap;
}
am_node *
fh_to_mp(am_nfs_fh *fhp)
{
int dummy;
return fh_to_mp2(fhp, &dummy);
}
/*
* Convert from automount node to file handle.
*/
void
mp_to_fh(am_node *mp, am_nfs_fh *fhp)
{
struct am_fh *fp = (struct am_fh *) fhp;
memset((char *) fhp, 0, sizeof(am_nfs_fh));
/*
* Take the process id
*/
fp->fhh_pid = am_mypid;
/*
* ... the map number
*/
fp->fhh_id = mp->am_mapno;
/*
* ... and the generation number
*/
fp->fhh_gen = mp->am_gen;
/*
* ... to make a "unique" triple that will never
* be reallocated except across reboots (which doesn't matter)
* or if we are unlucky enough to be given the same
* pid as a previous amd (very unlikely).
*/
}
am_node *
find_ap2(char *dir, am_node *mp)
{
if (mp) {
am_node *mp2;
if (STREQ(mp->am_path, dir))
return mp;
if ((mp->am_mnt->mf_flags & MFF_MOUNTED) &&
STREQ(mp->am_mnt->mf_mount, dir))
return mp;
mp2 = find_ap2(dir, mp->am_osib);
if (mp2)
return mp2;
return find_ap2(dir, mp->am_child);
}
return 0;
}
/*
* Find the mount node corresponding to dir. dir can match either the
* automount path or, if the node is mounted, the mount location.
*/
am_node *
find_ap(char *dir)
{
int i;
for (i = last_used_map; i >= 0; --i) {
am_node *mp = exported_ap[i];
if (mp && (mp->am_flags & AMF_ROOT)) {
mp = find_ap2(dir, exported_ap[i]);
if (mp) {
return mp;
}
}
}
return 0;
}
/*
* Find the mount node corresponding
* to the mntfs structure.
*/
am_node *
find_mf(mntfs *mf)
{
int i;
for (i = last_used_map; i >= 0; --i) {
am_node *mp = exported_ap[i];
if (mp && mp->am_mnt == mf)
return mp;
}
return 0;
}
/*
* Get the filehandle for a particular named directory.
* This is used during the bootstrap to tell the kernel
* the filehandles of the initial automount points.
*/
am_nfs_fh *
root_fh(char *dir)
{
static am_nfs_fh nfh;
am_node *mp = root_ap(dir, TRUE);
if (mp) {
mp_to_fh(mp, &nfh);
/*
* Patch up PID to match main server...
*/
if (!foreground) {
long pid = getppid();
((struct am_fh *) &nfh)->fhh_pid = pid;
#ifdef DEBUG
dlog("root_fh substitutes pid %ld", (long) pid);
#endif /* DEBUG */
}
return &nfh;
}
/*
* Should never get here...
*/
plog(XLOG_ERROR, "Can't find root filehandle for %s", dir);
return 0;
}
am_node *
root_ap(char *dir, int path)
{
am_node *mp = find_ap(dir);
if (mp && mp->am_parent == root_node)
return mp;
return 0;
}
/*
* Timeout all nodes waiting on
* a given Fserver.
*/
void
map_flush_srvr(fserver *fs)
{
int i;
int done = 0;
for (i = last_used_map; i >= 0; --i) {
am_node *mp = exported_ap[i];
if (mp && mp->am_mnt && mp->am_mnt->mf_server == fs) {
plog(XLOG_INFO, "Flushed %s; dependent on %s", mp->am_path, fs->fs_host);
mp->am_ttl = clocktime();
done = 1;
}
}
if (done)
reschedule_timeout_mp();
}
/*
* Mount a top level automount node
* by calling lookup in the parent
* (root) node which will cause the
* automount node to be automounted.
*/
int
mount_auto_node(char *dir, voidp arg)
{
int error = 0;
(void) amfs_auto_ops.lookuppn((am_node *) arg, dir, &error, VLOOK_CREATE);
if (error > 0) {
errno = error; /* XXX */
plog(XLOG_ERROR, "Could not mount %s: %m", dir);
}
return error;
}
/*
* Cause all the top-level mount nodes
* to be automounted
*/
int
mount_exported(void)
{
/*
* Iterate over all the nodes to be started
*/
return root_keyiter((void (*)P((char *, voidp))) mount_auto_node, root_node);
}
/*
* Construct top-level node
*/
void
make_root_node(void)
{
mntfs *root_mnt;
char *rootmap = ROOT_MAP;
root_node = exported_ap_alloc();
/*
* Allocate a new map
*/
init_map(root_node, "");
/*
* Allocate a new mounted filesystem
*/
root_mnt = find_mntfs(&amfs_root_ops, (am_opts *) 0, "", rootmap, "", "", "");
/*
* Replace the initial null reference
*/
free_mntfs(root_node->am_mnt);
root_node->am_mnt = root_mnt;
/*
* Initialize the root
*/
if (root_mnt->mf_ops->fs_init)
(*root_mnt->mf_ops->fs_init) (root_mnt);
/*
* Mount the root
*/
root_mnt->mf_error = (*root_mnt->mf_ops->mount_fs) (root_node);
}
/*
* Cause all the nodes to be unmounted by timing
* them out.
*/
void
umount_exported(void)
{
int i;
for (i = last_used_map; i >= 0; --i) {
am_node *mp = exported_ap[i];
if (mp) {
mntfs *mf = mp->am_mnt;
if (mf->mf_flags & MFF_UNMOUNTING) {
/*
* If this node is being unmounted then just ignore it. However,
* this could prevent amd from finishing if the unmount gets blocked
* since the am_node will never be free'd. am_unmounted needs
* telling about this possibility. - XXX
*/
continue;
}
if (mf && !(mf->mf_ops->fs_flags & FS_DIRECTORY)) {
/*
* When shutting down this had better
* look like a directory, otherwise it
* can't be unmounted!
*/
mk_fattr(mp, NFDIR);
}
if ((--immediate_abort < 0 &&
!(mp->am_flags & AMF_ROOT) && mp->am_parent) ||
(mf->mf_flags & MFF_RESTART)) {
/*
* Just throw this node away without bothering to unmount it. If
* the server is not known to be up then don't discard the mounted
* on directory or Amd might hang...
*/
if (mf->mf_server &&
(mf->mf_server->fs_flags & (FSF_DOWN | FSF_VALID)) != FSF_VALID)
mf->mf_flags &= ~MFF_MKMNT;
if (gopt.flags & CFM_UNMOUNT_ON_EXIT) {
plog(XLOG_INFO, "on-exit attempt to unmount %s", mf->mf_mount);
unmount_node(mp);
}
am_unmounted(mp);
} else {
/*
* Any other node gets forcibly timed out.
*/
mp->am_flags &= ~AMF_NOTIMEOUT;
mp->am_mnt->mf_flags &= ~MFF_RSTKEEP;
mp->am_ttl = 0;
mp->am_timeo = 1;
mp->am_timeo_w = 0;
}
}
}
}
static int
unmount_node(am_node *mp)
{
mntfs *mf = mp->am_mnt;
int error;
if ((mf->mf_flags & MFF_ERROR) || mf->mf_refc > 1) {
/*
* Just unlink
*/
#ifdef DEBUG
if (mf->mf_flags & MFF_ERROR)
dlog("No-op unmount of error node %s", mf->mf_info);
#endif /* DEBUG */
error = 0;
} else {
#ifdef DEBUG
dlog("Unmounting %s (%s)", mf->mf_mount, mf->mf_info);
#endif /* DEBUG */
error = (*mf->mf_ops->umount_fs) (mp);
}
if (error) {
errno = error; /* XXX */
#ifdef DEBUG
dlog("%s: unmount: %m", mf->mf_mount);
#endif /* DEBUG */
}
return error;
}
static int
unmount_node_wrap(voidp vp)
{
return unmount_node((am_node *) vp);
/*
* Below is the comment left from the old code
* that was dependent on the macro FLUSH_KERNEL_NAME_CACHE
*/
/*
* This code should just say:
* return unmount_node((am_node *) vp);
*
* However...
* The kernel keeps a cached copy of filehandles,
* and doesn't ever uncache them (apparently). So
* when Amd times out a node the kernel will have a
* stale filehandle. When the kernel next uses the
* filehandle it gets ESTALE.
*
* The workaround:
* Arrange that when a node is removed an unlink or
* rmdir is done on that path so that the kernel
* cache is done. Yes - yuck.
*
* This can all be removed (and the background
* unmount flag in amfs_link_ops) if/when the kernel does
* something smarter.
*
* If the unlink or rmdir failed then just log a warning,
* don't fail the unmount. This can occur if the kernel
* client code decides that the object is still referenced
* and should be renamed rather than discarded.
*
* There is still a race condition here...
* if another process is trying to access the same
* filesystem at the time we get here, then
* it will block, since the MF_UNMOUNTING flag will
* be set. That may, or may not, cause the entire
* system to deadlock. Hmmm...
*/
}
static void
free_map_if_success(int rc, int term, voidp closure)
{
am_node *mp = (am_node *) closure;
mntfs *mf = mp->am_mnt;
/*
* Not unmounting any more
*/
mf->mf_flags &= ~MFF_UNMOUNTING;
/*
* If a timeout was deferred because the underlying filesystem
* was busy then arrange for a timeout as soon as possible.
*/
if (mf->mf_flags & MFF_WANTTIMO) {
mf->mf_flags &= ~MFF_WANTTIMO;
reschedule_timeout_mp();
}
if (term) {
plog(XLOG_ERROR, "unmount for %s got signal %d", mp->am_path, term);
#if defined(DEBUG) && defined(SIGTRAP)
/*
* dbx likes to put a trap on exit().
* Pretend it succeeded for now...
*/
if (term == SIGTRAP) {
am_unmounted(mp);
}
#endif /* DEBUG */
amd_stats.d_uerr++;
} else if (rc) {
if (mf->mf_ops == &amfs_program_ops || rc == EBUSY) {
plog(XLOG_STATS, "\"%s\" on %s still active", mp->am_path, mf->mf_mount);
} else {
errno = rc; /* XXX */
plog(XLOG_ERROR, "%s: unmount: %m", mp->am_path);
}
amd_stats.d_uerr++;
} else {
am_unmounted(mp);
}
/*
* Wakeup anything waiting for this mount
*/
wakeup((voidp) mf);
}
static int
unmount_mp(am_node *mp)
{
int was_backgrounded = 0;
mntfs *mf = mp->am_mnt;
#ifndef MNT2_NFS_OPT_SYMTTL
/*
* This code is needed to defeat Solaris 2.4's (and newer) symlink
* values cache. It forces the last-modified time of the symlink to be
* current. It is not needed if the O/S has an nfs flag to turn off the
* symlink-cache at mount time (such as Irix 5.x and 6.x). -Erez.
*/
if (mp->am_parent) {
/* defensive programming... can't we assert the above condition? */
nfsattrstat *attrp = &mp->am_parent->am_attr;
if (++attrp->ns_u.ns_attr_u.na_mtime.nt_useconds == 0)
++attrp->ns_u.ns_attr_u.na_mtime.nt_seconds;
}
#endif /* not MNT2_NFS_OPT_SYMTTL */
#ifdef notdef
plog(XLOG_INFO, "\"%s\" on %s timed out", mp->am_path, mp->am_mnt->mf_mount);
#endif /* notdef */
if ((mf->mf_ops->fs_flags & FS_UBACKGROUND) &&
(mf->mf_flags & MFF_MOUNTED)) {
if (mf->mf_refc == 1 && !FSRV_ISUP(mf->mf_server)) {
/*
* Don't try to unmount from a server that is known to be down
*/
if (!(mf->mf_flags & MFF_LOGDOWN)) {
/* Only log this once, otherwise gets a bit boring */
plog(XLOG_STATS, "file server %s is down - timeout of \"%s\" ignored", mf->mf_server->fs_host, mp->am_path);
mf->mf_flags |= MFF_LOGDOWN;
}
} else {
/* Clear logdown flag - since the server must be up */
mf->mf_flags &= ~MFF_LOGDOWN;
#ifdef DEBUG
dlog("\"%s\" on %s timed out", mp->am_path, mp->am_mnt->mf_mount);
/* dlog("Will background the unmount attempt"); */
#endif /* DEBUG */
/*
* Note that we are unmounting this node
*/
mf->mf_flags |= MFF_UNMOUNTING;
run_task(unmount_node_wrap, (voidp) mp,
free_map_if_success, (voidp) mp);
was_backgrounded = 1;
#ifdef DEBUG
dlog("unmount attempt backgrounded");
#endif /* DEBUG */
}
} else {
#ifdef DEBUG
dlog("\"%s\" on %s timed out", mp->am_path, mp->am_mnt->mf_mount);
dlog("Trying unmount in foreground");
#endif /* DEBUG */
mf->mf_flags |= MFF_UNMOUNTING;
free_map_if_success(unmount_node(mp), 0, (voidp) mp);
#ifdef DEBUG
dlog("unmount attempt done");
#endif /* DEBUG */
}
return was_backgrounded;
}
void
timeout_mp(voidp v)
{
int i;
time_t t = NEVER;
time_t now = clocktime();
int backoff = NumChild / 4;
#ifdef DEBUG
dlog("Timing out automount points...");
#endif /* DEBUG */
for (i = last_used_map; i >= 0; --i) {
am_node *mp = exported_ap[i];
mntfs *mf;
/*
* Just continue if nothing mounted, or can't be timed out.
*/
if (!mp || (mp->am_flags & AMF_NOTIMEOUT))
continue;
/*
* Pick up mounted filesystem
*/
mf = mp->am_mnt;
if (!mf)
continue;
/*
* Don't delete last reference to a restarted filesystem.
*/
if ((mf->mf_flags & MFF_RSTKEEP) && mf->mf_refc == 1)
continue;
/*
* If there is action on this filesystem then ignore it
*/
if (!(mf->mf_flags & IGNORE_FLAGS)) {
int expired = 0;
mf->mf_flags &= ~MFF_WANTTIMO;
if (now >= mp->am_ttl) {
if (!backoff) {
expired = 1;
/*
* Move the ttl forward to avoid thrashing effects
* on the next call to timeout!
*/
/* sun's -tw option */
if (mp->am_timeo_w < 4 * gopt.am_timeo_w)
mp->am_timeo_w += gopt.am_timeo_w;
mp->am_ttl = now + mp->am_timeo_w;
} else {
/*
* Just backoff this unmount for
* a couple of seconds to avoid
* many multiple unmounts being
* started in parallel.
*/
mp->am_ttl = now + backoff + 1;
}
}
/*
* If the next ttl is smallest, use that
*/
t = smallest_t(t, mp->am_ttl);
if (!mp->am_child && mf->mf_error >= 0 && expired) {
/*
* If the unmount was backgrounded then
* bump the backoff counter.
*/
if (unmount_mp(mp)) {
backoff = 2;
}
}
} else if (mf->mf_flags & MFF_UNMOUNTING) {
mf->mf_flags |= MFF_WANTTIMO;
}
}
if (t == NEVER) {
#ifdef DEBUG
dlog("No further timeouts");
#endif /* DEBUG */
t = now + ONE_HOUR;
}
/*
* Sanity check to avoid runaways.
* Absolutely should never get this but
* if you do without this trap amd will thrash.
*/
if (t <= now) {
t = now + 6; /* XXX */
plog(XLOG_ERROR, "Got a zero interval in timeout_mp()!");
}
/*
* XXX - when shutting down, make things happen faster
*/
if ((int) amd_state >= (int) Finishing)
t = now + 1;
#ifdef DEBUG
dlog("Next mount timeout in %lds", (long) (t - now));
#endif /* DEBUG */
timeout_mp_id = timeout(t - now, timeout_mp, 0);
}
/*
* Cause timeout_mp to be called soonest
*/
void
reschedule_timeout_mp(void)
{
if (timeout_mp_id)
untimeout(timeout_mp_id);
timeout_mp_id = timeout(0, timeout_mp, 0);
}