/*
* Crack a SunOS4-style host:fs:sub-link line
* Construct an amd-style line and call the
* normal amd matcher.
*/
am_ops *
sunos4_match(am_opts *fo, char *key, char *g_key, char *path,
char *keym, char *map)
{
char *host = key;
char *fs = strchr(host, ':');
char *sublink = fs ? strchr(fs+1, ':') : 0;
char keybuf[MAXPATHLEN];
snprintf(keybuf, sizeof(keybuf),
"type:=nfs;rhost:=%s;rfs:=%s;sublink:=%s;opts:=%s", host,
fs ? fs+1 : "",
sublink ? sublink+1 : "",
g_key);
return ops_match(fo, keybuf, "", path, keym, map);
}
static char *
amfs_parse_defaults(am_node *mp, mntfs *mf, char *def_opts)
{
char *dflts;
char *dfl;
char **rvec = NULL;
struct mnt_map *mm = (mnt_map *) mf->mf_private;
dlog("determining /defaults entry value");
/*
* Find out if amd.conf overrode any map-specific /defaults.
*/
if (mm->cfm && mm->cfm->cfm_defaults) {
dlog("map %s map_defaults override: %s", mf->mf_mount, mm->cfm->cfm_defaults);
dflts = xstrdup(mm->cfm->cfm_defaults);
} else if (mapc_search(mm, "/defaults", &dflts) == 0) {
dlog("/defaults gave %s", dflts);
} else {
return def_opts; /* if nothing found */
}
/* trim leading '-' in case thee's one */
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_al->al_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) {
size_t l = strlen(def_opts) + strlen(dfl) + 2;
char *nopts = (char *) xmalloc(l);
xsnprintf(nopts, l, "%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 */
if (rvec)
XFREE(rvec);
return def_opts;
}
static am_loc *
amfs_lookup_one_location(am_node *new_mp, mntfs *mf, char *ivec,
char *def_opts, char *pfname)
{
am_ops *p;
am_opts *fs_opts;
am_loc *new_al;
mntfs *new_mf;
char *mp_dir = NULL;
#ifdef HAVE_FS_AUTOFS
int on_autofs = 1;
#endif /* HAVE_FS_AUTOFS */
/* match the operators */
/*
* although we alloc the fs_opts here, the pointer is 'owned' by the am_loc and will
* be free'd on destruction of the am_loc. If we don't allocate a loc, then we need
* to free this.
*/
fs_opts = CALLOC(am_opts);
p = ops_match(fs_opts, ivec, def_opts, new_mp->am_path,
pfname, mf->mf_info);
#ifdef HAVE_FS_AUTOFS
/* XXX: this should be factored out into an autofs-specific function */
if (new_mp->am_flags & AMF_AUTOFS) {
/* ignore user-provided fs if we're using autofs */
if (fs_opts->opt_sublink && fs_opts->opt_sublink[0]) {
/*
* For sublinks we need to use a hack with autofs:
* mount the filesystem on the original opt_fs (which is NOT an
* autofs mountpoint) and symlink (or lofs-mount) to it from
* the autofs mountpoint.
*/
on_autofs = 0;
mp_dir = fs_opts->opt_fs;
} else {
if (p->autofs_fs_flags & FS_ON_AUTOFS) {
mp_dir = new_mp->am_path;
} else {
mp_dir = fs_opts->opt_fs;
on_autofs = 0;
}
}
} else
#endif /* HAVE_FS_AUTOFS */
mp_dir = fs_opts->opt_fs;
/*
* Find or allocate a filesystem for this node.
* we search for a matching backend share, since
* we will construct our own al_loc to handle
* any customisations for this usage.
*/
new_mf = find_mntfs(p, fs_opts,
mp_dir,
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);
free_opts(fs_opts);
XFREE(fs_opts);
return NULL;
}
dlog("Got a hit with %s", p->fs_type);
new_al = new_loc();
free_mntfs(new_al->al_mnt);
new_al->al_mnt = new_mf;
new_al->al_fo = fs_opts; /* now the loc is in charge of free'ing this mem */
#ifdef HAVE_FS_AUTOFS
if (new_mp->am_flags & AMF_AUTOFS && on_autofs) {
new_mf->mf_flags |= MFF_ON_AUTOFS;
new_mf->mf_fsflags = new_mf->mf_ops->autofs_fs_flags;
}
/*
* A new filesystem is an autofs filesystems if:
* 1. it claims it can be one (has the FS_AUTOFS flag)
* 2. autofs is enabled system-wide
* 3. either has an autofs parent,
* or it is explicitly requested to be autofs.
*/
if (new_mf->mf_ops->autofs_fs_flags & FS_AUTOFS &&
amd_use_autofs &&
((mf->mf_flags & MFF_IS_AUTOFS) ||
(new_mf->mf_fo && new_mf->mf_fo->opt_mount_type &&
STREQ(new_mf->mf_fo->opt_mount_type, "autofs"))))
new_mf->mf_flags |= MFF_IS_AUTOFS;
#endif /* HAVE_FS_AUTOFS */
return new_al;
}
static mntfs *
amfs_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 *mp_dir = 0;
#ifdef HAVE_FS_AUTOFS
int on_autofs = 1;
#endif /* HAVE_FS_AUTOFS */
/* match the operators */
fs_opts = CALLOC(am_opts);
p = ops_match(fs_opts, ivec, def_opts, new_mp->am_path,
pfname, mf->mf_info);
#ifdef HAVE_FS_AUTOFS
/* XXX: this should be factored out into an autofs-specific function */
if (new_mp->am_flags & AMF_AUTOFS) {
/* ignore user-provided fs if we're using autofs */
if (fs_opts->opt_sublink) {
/*
* For sublinks we need to use a hack with autofs:
* mount the filesystem on the original opt_fs (which is NOT an
* autofs mountpoint) and symlink (or lofs-mount) to it from
* the autofs mountpoint.
*/
on_autofs = 0;
mp_dir = fs_opts->opt_fs;
} else {
if (p->autofs_fs_flags & FS_ON_AUTOFS) {
mp_dir = new_mp->am_path;
} else {
mp_dir = fs_opts->opt_fs;
on_autofs = 0;
}
}
} else
#endif /* HAVE_FS_AUTOFS */
mp_dir = fs_opts->opt_fs;
/*
* Find or allocate a filesystem for this node.
*/
new_mf = find_mntfs(p, fs_opts,
mp_dir,
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 && on_autofs) {
new_mf->mf_flags |= MFF_ON_AUTOFS;
new_mf->mf_fsflags = new_mf->mf_ops->autofs_fs_flags;
}
/*
* A new filesystem is an autofs filesystems if:
* 1. it claims it can be one (has the FS_AUTOFS flag)
* 2. autofs is enabled system-wide
* 3. either has an autofs parent,
* or it is explicitly requested to be autofs.
*/
if (new_mf->mf_ops->autofs_fs_flags & FS_AUTOFS &&
amd_use_autofs &&
((mf->mf_flags & MFF_IS_AUTOFS) ||
(new_mf->mf_fo && new_mf->mf_fo->opt_mount_type &&
STREQ(new_mf->mf_fo->opt_mount_type, "autofs"))))
new_mf->mf_flags |= MFF_IS_AUTOFS;
#endif /* HAVE_FS_AUTOFS */
return new_mf;
}
