xref: /illumos-gate/usr/src/uts/common/fs/nfs/nfs_export.c (revision 374858d291554c199353841e2900bc130463934a)

/*
 * 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 (c) 1990, 2010, Oracle and/or its affiliates. All rights reserved.
 */

/*
 *	Copyright 1983, 1984, 1985, 1986, 1987, 1988, 1989  AT&T.
 *		All rights reserved.
 */

/*
 * Copyright 2018 Nexenta Systems, Inc.
 */

#include <sys/types.h>
#include <sys/param.h>
#include <sys/time.h>
#include <sys/vfs.h>
#include <sys/vnode.h>
#include <sys/socket.h>
#include <sys/errno.h>
#include <sys/uio.h>
#include <sys/proc.h>
#include <sys/user.h>
#include <sys/file.h>
#include <sys/tiuser.h>
#include <sys/kmem.h>
#include <sys/pathname.h>
#include <sys/debug.h>
#include <sys/vtrace.h>
#include <sys/cmn_err.h>
#include <sys/acl.h>
#include <sys/utsname.h>
#include <sys/sdt.h>
#include <netinet/in.h>
#include <sys/avl.h>

#include <rpc/types.h>
#include <rpc/auth.h>
#include <rpc/svc.h>

#include <nfs/nfs.h>
#include <nfs/export.h>
#include <nfs/nfssys.h>
#include <nfs/nfs_clnt.h>
#include <nfs/nfs_acl.h>
#include <nfs/nfs_log.h>
#include <nfs/lm.h>
#include <sys/sunddi.h>

/*
 * exi_id support
 *
 * exi_id_next		The next exi_id available.
 * exi_id_overflow	The exi_id_next already overflowed, so we should
 *			thoroughly check for duplicates.
 * exi_id_tree		AVL tree indexed by exi_id.
 * nfs_exi_id_lock	Lock to protect the export ID list
 *
 * All exi_id_next, exi_id_overflow, and exi_id_tree are protected by
 * nfs_exi_id_lock.
 */
static int exi_id_next;
static bool_t exi_id_overflow;
avl_tree_t exi_id_tree;
kmutex_t nfs_exi_id_lock;

static int	unexport(nfs_export_t *, exportinfo_t *, cred_t *);
static void	exportfree(exportinfo_t *);
static int	loadindex(exportdata_t *);

extern void	nfsauth_cache_free(exportinfo_t *);
extern int	sec_svc_loadrootnames(int, int, caddr_t **, model_t);
extern void	sec_svc_freerootnames(int, int, caddr_t *);

static int	build_seclist_nodups(exportdata_t *, secinfo_t *, int);
static void	srv_secinfo_add(secinfo_t **, int *, secinfo_t *, int, int);
static void	srv_secinfo_remove(secinfo_t **, int *, secinfo_t *, int);
static void	srv_secinfo_treeclimb(nfs_export_t *, exportinfo_t *,
		    secinfo_t *, int, bool_t);

#ifdef VOLATILE_FH_TEST
static struct ex_vol_rename *find_volrnm_fh(exportinfo_t *, nfs_fh4 *);
static uint32_t find_volrnm_fh_id(exportinfo_t *, nfs_fh4 *);
static void	free_volrnm_list(exportinfo_t *);
#endif /* VOLATILE_FH_TEST */

fhandle_t nullfh2;	/* for comparing V2 filehandles */

/*
 * macro for static dtrace probes to trace server namespace ref count mods.
 */
#define	SECREF_TRACE(seclist, tag, flav, aftcnt) \
	DTRACE_PROBE4(nfss__i__nmspc__secref, struct secinfo *, (seclist), \
		char *, (tag), int, (int)(flav), int, (int)(aftcnt))


#define	exptablehash(fsid, fid) (nfs_fhhash((fsid), (fid)) & (EXPTABLESIZE - 1))

extern nfs_export_t *
nfs_get_export(void)
{
	nfs_globals_t *ng = nfs_srv_getzg();
	nfs_export_t *ne = ng->nfs_export;
	ASSERT(ne != NULL);
	return (ne);
}

static uint8_t
xor_hash(uint8_t *data, int len)
{
	uint8_t h = 0;

	while (len--)
		h ^= *data++;

	return (h);
}

/*
 * File handle hash function, XOR over all bytes in fsid and fid.
 */
static unsigned
nfs_fhhash(fsid_t *fsid, fid_t *fid)
{
	int len;
	uint8_t h;

	h = xor_hash((uint8_t *)fsid, sizeof (fsid_t));

	/*
	 * Sanity check the length before using it
	 * blindly in case the client trashed it.
	 */
	len = fid->fid_len > NFS_FH4MAXDATA ? 0 : fid->fid_len;
	h ^= xor_hash((uint8_t *)fid->fid_data, len);

	return ((unsigned)h);
}

/*
 * Free the memory allocated within a secinfo entry.
 */
void
srv_secinfo_entry_free(struct secinfo *secp)
{
	if (secp->s_rootcnt > 0 && secp->s_rootnames != NULL) {
		sec_svc_freerootnames(secp->s_secinfo.sc_rpcnum,
		    secp->s_rootcnt, secp->s_rootnames);
		secp->s_rootcnt = 0;
	}

	if ((secp->s_secinfo.sc_rpcnum == RPCSEC_GSS) &&
	    (secp->s_secinfo.sc_gss_mech_type)) {
		kmem_free(secp->s_secinfo.sc_gss_mech_type->elements,
		    secp->s_secinfo.sc_gss_mech_type->length);
		kmem_free(secp->s_secinfo.sc_gss_mech_type,
		    sizeof (rpc_gss_OID_desc));
		secp->s_secinfo.sc_gss_mech_type = NULL;
	}
}

/*
 * Free a list of secinfo allocated in the exportdata structure.
 */
void
srv_secinfo_list_free(struct secinfo *secinfo, int cnt)
{
	int i;

	if (cnt == 0)
		return;

	for (i = 0; i < cnt; i++)
		srv_secinfo_entry_free(&secinfo[i]);

	kmem_free(secinfo, cnt * sizeof (struct secinfo));
}

/*
 * Allocate and copy a secinfo data from "from" to "to".
 *
 * This routine is used by srv_secinfo_add() to add a new flavor to an
 * ancestor's export node. The rootnames are not copied because the
 * allowable rootname access only applies to the explicit exported node,
 * not its ancestor's.
 *
 * "to" should have already been allocated and zeroed before calling
 * this routine.
 *
 * This routine is used under the protection of exported_lock (RW_WRITER).
 */
void
srv_secinfo_copy(struct secinfo *from, struct secinfo *to)
{
	to->s_secinfo.sc_nfsnum = from->s_secinfo.sc_nfsnum;
	to->s_secinfo.sc_rpcnum = from->s_secinfo.sc_rpcnum;

	if (from->s_secinfo.sc_rpcnum == RPCSEC_GSS) {
		to->s_secinfo.sc_service = from->s_secinfo.sc_service;
		bcopy(from->s_secinfo.sc_name, to->s_secinfo.sc_name,
		    strlen(from->s_secinfo.sc_name));
		bcopy(from->s_secinfo.sc_gss_mech, to->s_secinfo.sc_gss_mech,
		    strlen(from->s_secinfo.sc_gss_mech));

		/* copy mechanism oid */
		to->s_secinfo.sc_gss_mech_type =
		    kmem_alloc(sizeof (rpc_gss_OID_desc), KM_SLEEP);
		to->s_secinfo.sc_gss_mech_type->length =
		    from->s_secinfo.sc_gss_mech_type->length;
		to->s_secinfo.sc_gss_mech_type->elements =
		    kmem_alloc(from->s_secinfo.sc_gss_mech_type->length,
		    KM_SLEEP);
		bcopy(from->s_secinfo.sc_gss_mech_type->elements,
		    to->s_secinfo.sc_gss_mech_type->elements,
		    from->s_secinfo.sc_gss_mech_type->length);
	}

	to->s_refcnt = from->s_refcnt;
	to->s_window = from->s_window;
	/* no need to copy the mode bits - s_flags */
}

/*
 * Create a secinfo array without duplicates.  The condensed
 * flavor list is used to propagate flavor ref counts  to an
 * export's ancestor pseudonodes.
 */
static int
build_seclist_nodups(exportdata_t *exd, secinfo_t *nodups, int exponly)
{
	int ccnt, c;
	int ncnt, n;
	struct secinfo *cursec;

	ncnt = 0;
	ccnt = exd->ex_seccnt;
	cursec = exd->ex_secinfo;

	for (c = 0; c < ccnt; c++) {

		if (exponly && ! SEC_REF_EXPORTED(&cursec[c]))
			continue;

		for (n = 0; n < ncnt; n++) {
			if (nodups[n].s_secinfo.sc_nfsnum ==
			    cursec[c].s_secinfo.sc_nfsnum)
				break;
		}

		/*
		 * The structure copy below also copys ptrs embedded
		 * within struct secinfo.  The ptrs are copied but
		 * they are never freed from the nodups array.  If
		 * an ancestor's secinfo array doesn't contain one
		 * of the nodups flavors, then the entry is properly
		 * copied into the ancestor's secinfo array.
		 * (see srv_secinfo_copy)
		 */
		if (n == ncnt) {
			nodups[n] = cursec[c];
			ncnt++;
		}
	}
	return (ncnt);
}

/*
 * Add the new security flavors from newdata to the current list, pcursec.
 * Upon return, *pcursec has the newly merged secinfo list.
 *
 * There should be at least 1 secinfo entry in newsec.
 *
 * This routine is used under the protection of exported_lock (RW_WRITER).
 */
static void
srv_secinfo_add(secinfo_t **pcursec, int *pcurcnt, secinfo_t *newsec,
    int newcnt, int is_pseudo)
{
	int ccnt, c;		/* sec count in current data - curdata */
	int n;			/* index for newsec  - newsecinfo */
	int tcnt;		/* total sec count after merge */
	int mcnt;		/* total sec count after merge */
	struct secinfo *msec;	/* merged secinfo list */
	struct secinfo *cursec;

	cursec = *pcursec;
	ccnt = *pcurcnt;

	ASSERT(newcnt > 0);
	tcnt = ccnt + newcnt;

	for (n = 0; n < newcnt; n++) {
		for (c = 0; c < ccnt; c++) {
			if (newsec[n].s_secinfo.sc_nfsnum ==
			    cursec[c].s_secinfo.sc_nfsnum) {
				cursec[c].s_refcnt += newsec[n].s_refcnt;
				SECREF_TRACE(cursec, "add_ref",
				    cursec[c].s_secinfo.sc_nfsnum,
				    cursec[c].s_refcnt);
				tcnt--;
				break;
			}
		}
	}

	if (tcnt == ccnt)
		return; /* no change; no new flavors */

	msec = kmem_zalloc(tcnt * sizeof (struct secinfo), KM_SLEEP);

	/* move current secinfo list data to the new list */
	for (c = 0; c < ccnt; c++)
		msec[c] = cursec[c];

	/* Add the flavor that's not in the current data */
	mcnt = ccnt;
	for (n = 0; n < newcnt; n++) {
		for (c = 0; c < ccnt; c++) {
			if (newsec[n].s_secinfo.sc_nfsnum ==
			    cursec[c].s_secinfo.sc_nfsnum)
				break;
		}

		/* This is the one. Add it. */
		if (c == ccnt) {
			srv_secinfo_copy(&newsec[n], &msec[mcnt]);

			if (is_pseudo)
				msec[mcnt].s_flags = M_RO;

			SECREF_TRACE(msec, "new_ref",
			    msec[mcnt].s_secinfo.sc_nfsnum,
			    msec[mcnt].s_refcnt);
			mcnt++;
		}
	}

	ASSERT(mcnt == tcnt);

	/*
	 * Done. Update curdata. Free the old secinfo list in
	 * curdata and return the new sec array info
	 */
	if (ccnt > 0)
		kmem_free(cursec, ccnt * sizeof (struct secinfo));
	*pcurcnt = tcnt;
	*pcursec = msec;
}

/*
 * For NFS V4.
 * Remove the security data of the unexported node from its ancestors.
 * Assume there is at least one flavor entry in the current sec list
 * (pcursec).
 *
 * This routine is used under the protection of exported_lock (RW_WRITER).
 *
 * Every element of remsec is an explicitly exported flavor.  If
 * srv_secinfo_remove() is called fom an exportfs error path, then
 * the flavor list was derived from the user's share cmdline,
 * and all flavors are explicit.  If it was called from the unshare path,
 * build_seclist_nodups() was called with the exponly flag.
 */
static void
srv_secinfo_remove(secinfo_t **pcursec, int *pcurcnt, secinfo_t *remsec,
    int remcnt)
{
	int ccnt, c;		/* sec count in current data - cursec */
	int r;			/* sec count in removal data - remsec */
	int tcnt, mcnt;		/* total sec count after removing */
	struct secinfo *msec;	/* final secinfo list after removing */
	struct secinfo *cursec;

	cursec = *pcursec;
	ccnt = *pcurcnt;
	tcnt = ccnt;

	for (r = 0; r < remcnt; r++) {
		/*
		 * At unshare/reshare time, only explicitly shared flavor ref
		 * counts are decremented and propagated to ancestors.
		 * Implicit flavor refs came from shared descendants, and
		 * they must be kept.
		 */
		if (! SEC_REF_EXPORTED(&remsec[r]))
			continue;

		for (c = 0; c < ccnt; c++) {
			if (remsec[r].s_secinfo.sc_nfsnum ==
			    cursec[c].s_secinfo.sc_nfsnum) {

				/*
				 * Decrement secinfo reference count by 1.
				 * If this entry is invalid after decrementing
				 * the count (i.e. count < 1), this entry will
				 * be removed.
				 */
				cursec[c].s_refcnt--;

				SECREF_TRACE(cursec, "del_ref",
				    cursec[c].s_secinfo.sc_nfsnum,
				    cursec[c].s_refcnt);

				ASSERT(cursec[c].s_refcnt >= 0);

				if (SEC_REF_INVALID(&cursec[c]))
					tcnt--;
				break;
			}
		}
	}

	ASSERT(tcnt >= 0);
	if (tcnt == ccnt)
		return; /* no change; no flavors to remove */

	if (tcnt == 0) {
		srv_secinfo_list_free(cursec, ccnt);
		*pcurcnt = 0;
		*pcursec = NULL;
		return;
	}

	msec = kmem_zalloc(tcnt * sizeof (struct secinfo), KM_SLEEP);

	/* walk thru the given secinfo list to remove the flavors */
	mcnt = 0;
	for (c = 0; c < ccnt; c++) {
		if (SEC_REF_INVALID(&cursec[c])) {
			srv_secinfo_entry_free(&cursec[c]);
		} else {
			msec[mcnt] = cursec[c];
			mcnt++;
		}
	}

	ASSERT(mcnt == tcnt);
	/*
	 * Done. Update curdata.
	 * Free the existing secinfo list in curdata. All pointers
	 * within the list have either been moved to msec or freed
	 * if it's invalid.
	 */
	kmem_free(*pcursec, ccnt * sizeof (struct secinfo));
	*pcursec = msec;
	*pcurcnt = tcnt;
}


/*
 * For the reshare case, sec flavor accounting happens in 3 steps:
 * 1) propagate addition of new flavor refs up the ancestor tree
 * 2) transfer flavor refs of descendants to new/reshared exportdata
 * 3) propagate removal of old flavor refs up the ancestor tree
 *
 * srv_secinfo_exp2exp() implements step 2 of a reshare.  At this point,
 * the new flavor list has already been propagated up through the
 * ancestor tree via srv_secinfo_treeclimb().
 *
 * If there is more than 1 export reference to an old flavor (i.e. some
 * of its children shared with this flavor), this flavor information
 * needs to be transferred to the new exportdata struct.  A flavor in
 * the old exportdata has descendant refs when its s_refcnt > 1 or it
 * is implicitly shared (M_SEC4_EXPORTED not set in s_flags).
 *
 * SEC_REF_EXPORTED() is only true when  M_SEC4_EXPORTED is set
 * SEC_REF_SELF() is only true when both M_SEC4_EXPORTED is set and s_refcnt==1
 *
 * Transferring descendant flavor refcnts happens in 2 passes:
 * a) flavors used before (oldsecinfo) and after (curdata->ex_secinfo) reshare
 * b) flavors used before but not after reshare
 *
 * This routine is used under the protection of exported_lock (RW_WRITER).
 */
void
srv_secinfo_exp2exp(exportdata_t *curdata, secinfo_t *oldsecinfo, int ocnt)
{
	int ccnt, c;		/* sec count in current data - curdata */
	int o;			/* sec count in old data - oldsecinfo */
	int tcnt, mcnt;		/* total sec count after the transfer */
	struct secinfo *msec;	/* merged secinfo list */

	ccnt = curdata->ex_seccnt;

	ASSERT(ocnt > 0);
	ASSERT(!(curdata->ex_flags & EX_PSEUDO));

	/*
	 * If the oldsecinfo has flavors with more than 1 reference count
	 * and the flavor is specified in the reshare, transfer the flavor
	 * refs to the new seclist (curdata.ex_secinfo).
	 */
	tcnt = ccnt + ocnt;

	for (o = 0; o < ocnt; o++) {

		if (SEC_REF_SELF(&oldsecinfo[o])) {
			tcnt--;
			continue;
		}

		for (c = 0; c < ccnt; c++) {
			if (oldsecinfo[o].s_secinfo.sc_nfsnum ==
			    curdata->ex_secinfo[c].s_secinfo.sc_nfsnum) {

				/*
				 * add old reference to the current
				 * secinfo count
				 */
				curdata->ex_secinfo[c].s_refcnt +=
				    oldsecinfo[o].s_refcnt;

				/*
				 * Delete the old export flavor
				 * reference.  The initial reference
				 * was created during srv_secinfo_add,
				 * and the count is decremented below
				 * to account for the initial reference.
				 */
				if (SEC_REF_EXPORTED(&oldsecinfo[o]))
					curdata->ex_secinfo[c].s_refcnt--;

				SECREF_TRACE(curdata->ex_path,
				    "reshare_xfer_common_child_refs",
				    curdata->ex_secinfo[c].s_secinfo.sc_nfsnum,
				    curdata->ex_secinfo[c].s_refcnt);

				ASSERT(curdata->ex_secinfo[c].s_refcnt >= 0);

				tcnt--;
				break;
			}
		}
	}

	if (tcnt == ccnt)
		return; /* no more transfer to do */

	/*
	 * oldsecinfo has flavors referenced by its children that are not
	 * in the current (new) export flavor list.  Add these flavors.
	 */
	msec = kmem_zalloc(tcnt * sizeof (struct secinfo), KM_SLEEP);

	/* move current secinfo list data to the new list */
	for (c = 0; c < ccnt; c++)
		msec[c] = curdata->ex_secinfo[c];

	/*
	 * Add the flavor that's not in the new export, but still
	 * referenced by its children.
	 */
	mcnt = ccnt;
	for (o = 0; o < ocnt; o++) {
		if (! SEC_REF_SELF(&oldsecinfo[o])) {
			for (c = 0; c < ccnt; c++) {
				if (oldsecinfo[o].s_secinfo.sc_nfsnum ==
				    curdata->ex_secinfo[c].s_secinfo.sc_nfsnum)
					break;
			}

			/*
			 * This is the one. Add it. Decrement the ref count
			 * by 1 if the flavor is an explicitly shared flavor
			 * for the oldsecinfo export node.
			 */
			if (c == ccnt) {
				srv_secinfo_copy(&oldsecinfo[o], &msec[mcnt]);
				if (SEC_REF_EXPORTED(&oldsecinfo[o]))
					msec[mcnt].s_refcnt--;

				SECREF_TRACE(curdata,
				    "reshare_xfer_implicit_child_refs",
				    msec[mcnt].s_secinfo.sc_nfsnum,
				    msec[mcnt].s_refcnt);

				ASSERT(msec[mcnt].s_refcnt >= 0);
				mcnt++;
			}
		}
	}

	ASSERT(mcnt == tcnt);
	/*
	 * Done. Update curdata, free the existing secinfo list in
	 * curdata and set the new value.
	 */
	if (ccnt > 0)
		kmem_free(curdata->ex_secinfo, ccnt * sizeof (struct secinfo));
	curdata->ex_seccnt = tcnt;
	curdata->ex_secinfo = msec;
}

/*
 * When unsharing an old export node and the old node becomes a pseudo node,
 * if there is more than 1 export reference to an old flavor (i.e. some of
 * its children shared with this flavor), this flavor information needs to
 * be transferred to the new shared node.
 *
 * This routine is used under the protection of exported_lock (RW_WRITER).
 */
void
srv_secinfo_exp2pseu(exportdata_t *curdata, exportdata_t *olddata)
{
	int ocnt, o;		/* sec count in transfer data - trandata */
	int tcnt, mcnt;		/* total sec count after transfer */
	struct secinfo *msec;	/* merged secinfo list */

	ASSERT(curdata->ex_flags & EX_PSEUDO);
	ASSERT(curdata->ex_seccnt == 0);

	ocnt = olddata->ex_seccnt;

	/*
	 * If the olddata has flavors with more than 1 reference count,
	 * transfer the information to the curdata.
	 */
	tcnt = ocnt;

	for (o = 0; o < ocnt; o++) {
		if (SEC_REF_SELF(&olddata->ex_secinfo[o]))
			tcnt--;
	}

	if (tcnt == 0)
		return; /* no transfer to do */

	msec = kmem_zalloc(tcnt * sizeof (struct secinfo), KM_SLEEP);

	mcnt = 0;
	for (o = 0; o < ocnt; o++) {
		if (! SEC_REF_SELF(&olddata->ex_secinfo[o])) {

			/*
			 * Decrement the reference count by 1 if the flavor is
			 * an explicitly shared flavor for the olddata export
			 * node.
			 */
			srv_secinfo_copy(&olddata->ex_secinfo[o], &msec[mcnt]);
			msec[mcnt].s_flags = M_RO;
			if (SEC_REF_EXPORTED(&olddata->ex_secinfo[o]))
				msec[mcnt].s_refcnt--;

			SECREF_TRACE(curdata, "unshare_morph_pseudo",
			    msec[mcnt].s_secinfo.sc_nfsnum,
			    msec[mcnt].s_refcnt);

			ASSERT(msec[mcnt].s_refcnt >= 0);
			mcnt++;
		}
	}

	ASSERT(mcnt == tcnt);
	/*
	 * Done. Update curdata.
	 * Free up the existing secinfo list in curdata and
	 * set the new value.
	 */
	curdata->ex_seccnt = tcnt;
	curdata->ex_secinfo = msec;
}

/*
 * Find for given treenode the exportinfo which has its
 * exp_visible linked on its exi_visible list.
 *
 * Note: We could add new pointer either to treenode or
 * to exp_visible, which will point there directly.
 * This would buy some speed for some memory.
 */
exportinfo_t *
vis2exi(treenode_t *tnode)
{
	exportinfo_t *exi_ret = NULL;

	for (;;) {
		tnode = tnode->tree_parent;
		if (TREE_ROOT(tnode)) {
			exi_ret = tnode->tree_exi;
			break;
		}
	}

	/* Every visible should have its home exportinfo */
	ASSERT(exi_ret != NULL);
	return (exi_ret);
}

/*
 * For NFS V4.
 * Add or remove the newly exported or unexported security flavors of the
 * given exportinfo from its ancestors upto the system root.
 */
static void
srv_secinfo_treeclimb(nfs_export_t *ne, exportinfo_t *exip, secinfo_t *sec,
    int seccnt, bool_t isadd)
{
	treenode_t *tnode;

	ASSERT(RW_WRITE_HELD(&ne->exported_lock));

	/*
	 * exi_tree can be null for the zone root
	 * which means we're already at the "top"
	 * and there's nothing more to "climb".
	 */
	tnode = exip->exi_tree;
	if (tnode == NULL) {
		/* Should only happen for... */
		ASSERT(exip == ne->exi_root);
		return;
	}

	if (seccnt == 0)
		return;

	/*
	 * If flavors are being added and the new export root isn't
	 * also VROOT, its implicitly allowed flavors are inherited from
	 * its pseudonode.
	 * Note - for VROOT exports the implicitly allowed flavors were
	 * transferred from the PSEUDO export in exportfs()
	 */
	if (isadd && !(exip->exi_vp->v_flag & VROOT) &&
	    !VN_CMP(exip->exi_vp, EXI_TO_ZONEROOTVP(exip)) &&
	    tnode->tree_vis->vis_seccnt > 0) {
		srv_secinfo_add(&exip->exi_export.ex_secinfo,
		    &exip->exi_export.ex_seccnt, tnode->tree_vis->vis_secinfo,
		    tnode->tree_vis->vis_seccnt, FALSE);
	}

	/*
	 * Move to parent node and propagate sec flavor
	 * to exportinfo and to visible structures.
	 */
	tnode = tnode->tree_parent;

	while (tnode != NULL) {

		/* If there is exportinfo, update it */
		if (tnode->tree_exi != NULL) {
			secinfo_t **pxsec =
			    &tnode->tree_exi->exi_export.ex_secinfo;
			int *pxcnt = &tnode->tree_exi->exi_export.ex_seccnt;
			int is_pseudo = PSEUDO(tnode->tree_exi);
			if (isadd)
				srv_secinfo_add(pxsec, pxcnt, sec, seccnt,
				    is_pseudo);
			else
				srv_secinfo_remove(pxsec, pxcnt, sec, seccnt);
		}

		/* Update every visible - only root node has no visible */
		if (tnode->tree_vis != NULL) {
			secinfo_t **pxsec = &tnode->tree_vis->vis_secinfo;
			int *pxcnt = &tnode->tree_vis->vis_seccnt;
			if (isadd)
				srv_secinfo_add(pxsec, pxcnt, sec, seccnt,
				    FALSE);
			else
				srv_secinfo_remove(pxsec, pxcnt, sec, seccnt);
		}
		tnode = tnode->tree_parent;
	}
}

/* hash_name is a text substitution for either fid_hash or path_hash */
#define	exp_hash_unlink(exi, hash_name) \
	if (*(exi)->hash_name.bckt == (exi)) \
		*(exi)->hash_name.bckt = (exi)->hash_name.next; \
	if ((exi)->hash_name.prev) \
		(exi)->hash_name.prev->hash_name.next = (exi)->hash_name.next; \
	if ((exi)->hash_name.next) \
		(exi)->hash_name.next->hash_name.prev = (exi)->hash_name.prev; \
	(exi)->hash_name.bckt = NULL;

#define	exp_hash_link(exi, hash_name, bucket) \
	(exi)->hash_name.bckt = (bucket); \
	(exi)->hash_name.prev = NULL; \
	(exi)->hash_name.next = *(bucket); \
	if ((exi)->hash_name.next) \
		(exi)->hash_name.next->hash_name.prev = (exi); \
	*(bucket) = (exi);

void
export_link(nfs_export_t *ne, exportinfo_t *exi)
{
	exportinfo_t **bckt;

	ASSERT(RW_WRITE_HELD(&ne->exported_lock));

	bckt = &ne->exptable[exptablehash(&exi->exi_fsid, &exi->exi_fid)];
	exp_hash_link(exi, fid_hash, bckt);

	bckt = &ne->exptable_path_hash[pkp_tab_hash(exi->exi_export.ex_path,
	    strlen(exi->exi_export.ex_path))];
	exp_hash_link(exi, path_hash, bckt);
	exi->exi_ne = ne;
}

/*
 * Helper functions for exi_id handling
 */
static int
exi_id_compar(const void *v1, const void *v2)
{
	const struct exportinfo *e1 = v1;
	const struct exportinfo *e2 = v2;

	if (e1->exi_id < e2->exi_id)
		return (-1);
	if (e1->exi_id > e2->exi_id)
		return (1);

	return (0);
}

int
exi_id_get_next()
{
	struct exportinfo e;
	int ret = exi_id_next;

	ASSERT(MUTEX_HELD(&nfs_exi_id_lock));

	do {
		exi_id_next++;
		if (exi_id_next == 0)
			exi_id_overflow = TRUE;

		if (!exi_id_overflow)
			break;

		if (exi_id_next == ret)
			cmn_err(CE_PANIC, "exi_id exhausted");

		e.exi_id = exi_id_next;
	} while (avl_find(&exi_id_tree, &e, NULL) != NULL);

	return (ret);
}

/*
 * Get the root file handle for this zone.
 * Called when nfs_svc() starts
 */
int
nfs_export_get_rootfh(nfs_globals_t *g)
{
	nfs_export_t *ne = g->nfs_export;
	int err;

	ne->exi_rootfid.fid_len = MAXFIDSZ;
	err = vop_fid_pseudo(ne->exi_root->exi_vp, &ne->exi_rootfid);
	if (err != 0) {
		ne->exi_rootfid.fid_len = 0;
		return (err);
	}

	/* Setup the fhandle template exi_fh */
	ne->exi_root->exi_fh.fh_fsid = rootdir->v_vfsp->vfs_fsid;
	ne->exi_root->exi_fh.fh_xlen = ne->exi_rootfid.fid_len;
	bcopy(ne->exi_rootfid.fid_data, ne->exi_root->exi_fh.fh_xdata,
	    ne->exi_rootfid.fid_len);
	ne->exi_root->exi_fh.fh_len = sizeof (ne->exi_root->exi_fh.fh_data);

	return (0);
}

void
nfs_export_zone_init(nfs_globals_t *ng)
{
	int i;
	nfs_export_t *ne;
	zone_t *zone;

	ne = kmem_zalloc(sizeof (*ne), KM_SLEEP);

	rw_init(&ne->exported_lock, NULL, RW_DEFAULT, NULL);

	ne->ne_globals = ng; /* "up" pointer */

	/*
	 * Allocate the place holder for the public file handle, which
	 * is all zeroes. It is initially set to the root filesystem.
	 */
	ne->exi_root = kmem_zalloc(sizeof (*ne->exi_root), KM_SLEEP);
	ne->exi_public = ne->exi_root;

	ne->exi_root->exi_export.ex_flags = EX_PUBLIC;
	ne->exi_root->exi_export.ex_pathlen = 1;	/* length of "/" */
	ne->exi_root->exi_export.ex_path =
	    kmem_alloc(ne->exi_root->exi_export.ex_pathlen + 1, KM_SLEEP);
	ne->exi_root->exi_export.ex_path[0] = '/';
	ne->exi_root->exi_export.ex_path[1] = '\0';

	ne->exi_root->exi_count = 1;
	mutex_init(&ne->exi_root->exi_lock, NULL, MUTEX_DEFAULT, NULL);

	/*
	 * Because we cannot:
	 *	ASSERT(curzone->zone_id == ng->nfs_zoneid);
	 * We grab the zone pointer explicitly (like netstacks do) and
	 * set the rootvp here.
	 *
	 * Subsequent exportinfo_t's that get export_link()ed to "ne" also
	 * will backpoint to "ne" such that exi->exi_ne->exi_root->exi_vp
	 * will get the zone's rootvp for a given exportinfo_t.
	 */
	zone = zone_find_by_id_nolock(ng->nfs_zoneid);
	ne->exi_root->exi_vp = zone->zone_rootvp;
	ne->exi_root->exi_zoneid = ng->nfs_zoneid;

	/*
	 * Fill in ne->exi_rootfid later, in nfs_export_get_rootfid
	 * because we can't correctly return errors here.
	 */

	/* Initialize auth cache and auth cache lock */
	for (i = 0; i < AUTH_TABLESIZE; i++) {
		ne->exi_root->exi_cache[i] = kmem_alloc(sizeof (avl_tree_t),
		    KM_SLEEP);
		avl_create(ne->exi_root->exi_cache[i],
		    nfsauth_cache_clnt_compar, sizeof (struct auth_cache_clnt),
		    offsetof(struct auth_cache_clnt, authc_link));
	}
	rw_init(&ne->exi_root->exi_cache_lock, NULL, RW_DEFAULT, NULL);

	/* setup exi_fh later, in nfs_export_get_rootfid */

	rw_enter(&ne->exported_lock, RW_WRITER);

	/* Publish the exportinfo in the hash table */
	export_link(ne, ne->exi_root);

	/* Initialize exi_id and exi_kstats */
	mutex_enter(&nfs_exi_id_lock);
	ne->exi_root->exi_id = exi_id_get_next();
	avl_add(&exi_id_tree, ne->exi_root);
	mutex_exit(&nfs_exi_id_lock);

	rw_exit(&ne->exported_lock);
	ne->ns_root = NULL;

	ng->nfs_export = ne;
}

/*
 * During zone shutdown, remove exports
 */
void
nfs_export_zone_shutdown(nfs_globals_t *ng)
{
	nfs_export_t *ne = ng->nfs_export;
	struct exportinfo *exi, *nexi;
	int i, errors;
	zoneid_t zoneid = ng->nfs_zoneid;
	cred_t *cr;

	/*
	 * Use the zone's credential.  Since this is a zone shutdown method,
	 * the zone_t should still be around for a zone_get_kcred() call.
	 */
	cr = zone_get_kcred(zoneid);
	VERIFY(cr != NULL);
	rw_enter(&ne->exported_lock, RW_READER);

	errors = 0;
	for (i = 0; i < EXPTABLESIZE; i++) {

		exi = ne->exptable[i];
		if (exi != NULL)
			exi_hold(exi);

		while (exi != NULL) {
			ASSERT3U(zoneid, ==, exi->exi_zoneid);
			/*
			 * Get and hold next export before
			 * dropping the rwlock and unexport
			 */
			nexi = exi->fid_hash.next;
			if (nexi != NULL)
				exi_hold(nexi);

			rw_exit(&ne->exported_lock);

			/*
			 * Skip ne->exi_root which gets special
			 * create/destroy handling.
			 */
			if (exi != ne->exi_root &&
			    unexport(ne, exi, cr) != 0)
				errors++;
			exi_rele(exi);

			rw_enter(&ne->exported_lock, RW_READER);
			exi = nexi;
		}
	}
	if (errors > 0) {
		cmn_err(CE_NOTE, "NFS: failed un-exports in zone %d",
		    (int)ng->nfs_zoneid);
	}

	rw_exit(&ne->exported_lock);
	crfree(cr);
}

void
nfs_export_zone_fini(nfs_globals_t *ng)
{
	int i;
	nfs_export_t *ne = ng->nfs_export;
	struct exportinfo *exi;

	ng->nfs_export = NULL;

	rw_enter(&ne->exported_lock, RW_WRITER);

	mutex_enter(&nfs_exi_id_lock);
	avl_remove(&exi_id_tree, ne->exi_root);
	mutex_exit(&nfs_exi_id_lock);

	export_unlink(ne, ne->exi_root);

	rw_exit(&ne->exported_lock);

	/* Deallocate the place holder for the public file handle */
	srv_secinfo_list_free(ne->exi_root->exi_export.ex_secinfo,
	    ne->exi_root->exi_export.ex_seccnt);
	mutex_destroy(&ne->exi_root->exi_lock);

	rw_destroy(&ne->exi_root->exi_cache_lock);
	for (i = 0; i < AUTH_TABLESIZE; i++) {
		avl_destroy(ne->exi_root->exi_cache[i]);
		kmem_free(ne->exi_root->exi_cache[i], sizeof (avl_tree_t));
	}

	kmem_free(ne->exi_root->exi_export.ex_path,
	    ne->exi_root->exi_export.ex_pathlen + 1);
	kmem_free(ne->exi_root, sizeof (*ne->exi_root));

	/*
	 * The shutdown hook should have left the exi_id_tree
	 * with nothing belonging to this zone.
	 */
	mutex_enter(&nfs_exi_id_lock);
	i = 0;
	exi = avl_first(&exi_id_tree);
	while (exi != NULL) {
		if (exi->exi_zoneid == ng->nfs_zoneid)
			i++;
		exi = AVL_NEXT(&exi_id_tree, exi);
	}
	mutex_exit(&nfs_exi_id_lock);
	if (i > 0) {
		cmn_err(CE_NOTE,
		    "NFS: zone %d has %d export IDs left after shutdown",
		    (int)ng->nfs_zoneid, i);
	}
	rw_destroy(&ne->exported_lock);
	kmem_free(ne, sizeof (*ne));
}

/*
 * Initialization routine for export routines.
 * Should only be called once.
 */
void
nfs_exportinit(void)
{
	mutex_init(&nfs_exi_id_lock, NULL, MUTEX_DEFAULT, NULL);

	/* exi_id handling initialization */
	exi_id_next = 0;
	exi_id_overflow = FALSE;
	avl_create(&exi_id_tree, exi_id_compar, sizeof (struct exportinfo),
	    offsetof(struct exportinfo, exi_id_link));

	nfslog_init();
}

/*
 * Finalization routine for export routines.
 */
void
nfs_exportfini(void)
{
	avl_destroy(&exi_id_tree);
	mutex_destroy(&nfs_exi_id_lock);
}

/*
 *  Check if 2 gss mechanism identifiers are the same.
 *
 *  return FALSE if not the same.
 *  return TRUE if the same.
 */
static bool_t
nfs_mech_equal(rpc_gss_OID mech1, rpc_gss_OID mech2)
{
	if ((mech1->length == 0) && (mech2->length == 0))
		return (TRUE);

	if (mech1->length != mech2->length)
		return (FALSE);

	return (bcmp(mech1->elements, mech2->elements, mech1->length) == 0);
}

/*
 *  This routine is used by rpc to map rpc security number
 *  to nfs specific security flavor number.
 *
 *  The gss callback prototype is
 *  callback(struct svc_req *, gss_cred_id_t *, gss_ctx_id_t *,
 *				rpc_gss_lock_t *, void **),
 *  since nfs does not use the gss_cred_id_t/gss_ctx_id_t arguments
 *  we cast them to void.
 */
/*ARGSUSED*/
bool_t
rfs_gsscallback(struct svc_req *req, gss_cred_id_t deleg, void *gss_context,
    rpc_gss_lock_t *lock, void **cookie)
{
	int i, j;
	rpc_gss_rawcred_t *raw_cred;
	struct exportinfo *exi;
	nfs_export_t *ne = nfs_get_export();

	/*
	 * We don't deal with delegated credentials.
	 */
	if (deleg != GSS_C_NO_CREDENTIAL)
		return (FALSE);

	raw_cred = lock->raw_cred;
	*cookie = NULL;

	rw_enter(&ne->exported_lock, RW_READER);

	for (i = 0; i < EXPTABLESIZE; i++) {
		exi = ne->exptable[i];
		while (exi) {
			if (exi->exi_export.ex_seccnt > 0) {
				struct secinfo *secp;
				seconfig_t *se;
				int seccnt;

				secp = exi->exi_export.ex_secinfo;
				seccnt = exi->exi_export.ex_seccnt;
				for (j = 0; j < seccnt; j++) {
					/*
					 *  If there is a map of the triplet
					 *  (mechanism, service, qop) between
					 *  raw_cred and the exported flavor,
					 *  get the psudo flavor number.
					 *  Also qop should not be NULL, it
					 *  should be "default" or something
					 *  else.
					 */
					se = &secp[j].s_secinfo;
					if ((se->sc_rpcnum == RPCSEC_GSS) &&

					    (nfs_mech_equal(
					    se->sc_gss_mech_type,
					    raw_cred->mechanism)) &&

					    (se->sc_service ==
					    raw_cred->service) &&
					    (raw_cred->qop == se->sc_qop)) {

						*cookie = (void *)(uintptr_t)
						    se->sc_nfsnum;
						goto done;
					}
				}
			}
			exi = exi->fid_hash.next;
		}
	}
done:
	rw_exit(&ne->exported_lock);

	/*
	 * If no nfs pseudo number mapping can be found in the export
	 * table, assign the nfsflavor to NFS_FLAVOR_NOMAP. In V4, we may
	 * recover the flavor mismatch from NFS layer (NFS4ERR_WRONGSEC).
	 *
	 * For example:
	 *	server first shares with krb5i;
	 *	client mounts with krb5i;
	 *	server re-shares with krb5p;
	 *	client tries with krb5i, but no mapping can be found;
	 *	rpcsec_gss module calls this routine to do the mapping,
	 *		if this routine fails, request is rejected from
	 *		the rpc layer.
	 *	What we need is to let the nfs layer rejects the request.
	 *	For V4, we can reject with NFS4ERR_WRONGSEC and the client
	 *	may recover from it by getting the new flavor via SECINFO.
	 *
	 * nfs pseudo number for RPCSEC_GSS mapping (see nfssec.conf)
	 * is owned by IANA (see RFC 2623).
	 *
	 * XXX NFS_FLAVOR_NOMAP is defined in Solaris to work around
	 * the implementation issue. This number should not overlap with
	 * any new IANA defined pseudo flavor numbers.
	 */
	if (*cookie == NULL)
		*cookie = (void *)NFS_FLAVOR_NOMAP;

	lock->locked = TRUE;

	return (TRUE);
}


/*
 * Exportfs system call; credentials should be checked before
 * calling this function.
 */
int
exportfs(struct exportfs_args *args, model_t model, cred_t *cr)
{
	vnode_t *vp;
	vnode_t *dvp;
	struct exportdata *kex;
	struct exportinfo *exi = NULL;
	struct exportinfo *ex, *ex1, *ex2;
	fid_t fid;
	fsid_t fsid;
	int error;
	size_t allocsize;
	struct secinfo *sp;
	struct secinfo *exs;
	rpc_gss_callback_t cb;
	char *pathbuf;
	char *log_buffer;
	char *tagbuf;
	int callback;
	int allocd_seccnt;
	STRUCT_HANDLE(exportfs_args, uap);
	STRUCT_DECL(exportdata, uexi);
	struct secinfo newsec[MAX_FLAVORS];
	int newcnt;
	struct secinfo oldsec[MAX_FLAVORS];
	int oldcnt;
	int i;
	struct pathname lookpn;
	nfs_export_t *ne = nfs_get_export();

	STRUCT_SET_HANDLE(uap, model, args);

	/* Read in pathname from userspace */
	if (error = pn_get(STRUCT_FGETP(uap, dname), UIO_USERSPACE, &lookpn))
		return (error);

	/* Walk the export list looking for that pathname */
	rw_enter(&ne->exported_lock, RW_READER);
	DTRACE_PROBE(nfss__i__exported_lock1_start);
	for (ex1 = ne->exptable_path_hash[pkp_tab_hash(lookpn.pn_path,
	    strlen(lookpn.pn_path))]; ex1; ex1 = ex1->path_hash.next) {
		if (ex1 != ne->exi_root && 0 ==
		    strcmp(ex1->exi_export.ex_path, lookpn.pn_path)) {
			exi_hold(ex1);
			break;
		}
	}
	DTRACE_PROBE(nfss__i__exported_lock1_stop);
	rw_exit(&ne->exported_lock);

	/* Is this an unshare? */
	if (STRUCT_FGETP(uap, uex) == NULL) {
		pn_free(&lookpn);
		if (ex1 == NULL)
			return (EINVAL);
		error = unexport(ne, ex1, cr);
		exi_rele(ex1);
		return (error);
	}

	/* It is a share or a re-share */
	error = lookupname(STRUCT_FGETP(uap, dname), UIO_USERSPACE,
	    FOLLOW, &dvp, &vp);
	if (error == EINVAL) {
		/*
		 * if fname resolves to / we get EINVAL error
		 * since we wanted the parent vnode. Try again
		 * with NULL dvp.
		 */
		error = lookupname(STRUCT_FGETP(uap, dname), UIO_USERSPACE,
		    FOLLOW, NULL, &vp);
		dvp = NULL;
	}
	if (!error && vp == NULL) {
		/* Last component of fname not found */
		if (dvp != NULL)
			VN_RELE(dvp);
		error = ENOENT;
	}
	if (error) {
		pn_free(&lookpn);
		if (ex1)
			exi_rele(ex1);
		return (error);
	}

	/*
	 * 'vp' may be an AUTOFS node, so we perform a
	 * VOP_ACCESS() to trigger the mount of the
	 * intended filesystem, so we can share the intended
	 * filesystem instead of the AUTOFS filesystem.
	 */
	(void) VOP_ACCESS(vp, 0, 0, cr, NULL);

	/*
	 * We're interested in the top most filesystem.
	 * This is specially important when uap->dname is a trigger
	 * AUTOFS node, since we're really interested in sharing the
	 * filesystem AUTOFS mounted as result of the VOP_ACCESS()
	 * call not the AUTOFS node itself.
	 */
	if (vn_mountedvfs(vp) != NULL) {
		if (error = traverse(&vp)) {
			VN_RELE(vp);
			if (dvp != NULL)
				VN_RELE(dvp);
			pn_free(&lookpn);
			if (ex1)
				exi_rele(ex1);
			return (error);
		}
	}

	/* Do not allow sharing another vnode for already shared path */
	if (ex1 && !PSEUDO(ex1) && !VN_CMP(ex1->exi_vp, vp)) {
		VN_RELE(vp);
		if (dvp != NULL)
			VN_RELE(dvp);
		pn_free(&lookpn);
		exi_rele(ex1);
		return (EEXIST);
	}
	if (ex1)
		exi_rele(ex1);

	/*
	 * Get the vfs id
	 */
	bzero(&fid, sizeof (fid));
	fid.fid_len = MAXFIDSZ;
	error = VOP_FID(vp, &fid, NULL);
	fsid = vp->v_vfsp->vfs_fsid;

	if (error) {
		VN_RELE(vp);
		if (dvp != NULL)
			VN_RELE(dvp);
		/*
		 * If VOP_FID returns ENOSPC then the fid supplied
		 * is too small.  For now we simply return EREMOTE.
		 */
		if (error == ENOSPC)
			error = EREMOTE;
		pn_free(&lookpn);
		return (error);
	}

	/*
	 * Do not allow re-sharing a shared vnode under a different path
	 * PSEUDO export has ex_path fabricated, e.g. "/tmp (pseudo)", skip it.
	 */
	rw_enter(&ne->exported_lock, RW_READER);
	DTRACE_PROBE(nfss__i__exported_lock2_start);
	for (ex2 = ne->exptable[exptablehash(&fsid, &fid)]; ex2;
	    ex2 = ex2->fid_hash.next) {
		if (ex2 != ne->exi_root && !PSEUDO(ex2) &&
		    VN_CMP(ex2->exi_vp, vp) &&
		    strcmp(ex2->exi_export.ex_path, lookpn.pn_path) != 0) {
			DTRACE_PROBE(nfss__i__exported_lock2_stop);
			rw_exit(&ne->exported_lock);
			VN_RELE(vp);
			if (dvp != NULL)
				VN_RELE(dvp);
			pn_free(&lookpn);
			return (EEXIST);
		}
	}
	DTRACE_PROBE(nfss__i__exported_lock2_stop);
	rw_exit(&ne->exported_lock);
	pn_free(&lookpn);

	exi = kmem_zalloc(sizeof (*exi), KM_SLEEP);
	exi->exi_fsid = fsid;
	exi->exi_fid = fid;
	exi->exi_vp = vp;
	exi->exi_count = 1;
	exi->exi_zoneid = crgetzoneid(cr);
	ASSERT3U(exi->exi_zoneid, ==, curzone->zone_id);
	exi->exi_volatile_dev = (vfssw[vp->v_vfsp->vfs_fstype].vsw_flag &
	    VSW_VOLATILEDEV) ? 1 : 0;
	mutex_init(&exi->exi_lock, NULL, MUTEX_DEFAULT, NULL);
	exi->exi_dvp = dvp;

	/*
	 * Initialize auth cache and auth cache lock
	 */
	for (i = 0; i < AUTH_TABLESIZE; i++) {
		exi->exi_cache[i] = kmem_alloc(sizeof (avl_tree_t), KM_SLEEP);
		avl_create(exi->exi_cache[i], nfsauth_cache_clnt_compar,
		    sizeof (struct auth_cache_clnt),
		    offsetof(struct auth_cache_clnt, authc_link));
	}
	rw_init(&exi->exi_cache_lock, NULL, RW_DEFAULT, NULL);

	/*
	 * Build up the template fhandle
	 */
	exi->exi_fh.fh_fsid = fsid;
	if (exi->exi_fid.fid_len > sizeof (exi->exi_fh.fh_xdata)) {
		error = EREMOTE;
		goto out1;
	}
	exi->exi_fh.fh_xlen = exi->exi_fid.fid_len;
	bcopy(exi->exi_fid.fid_data, exi->exi_fh.fh_xdata,
	    exi->exi_fid.fid_len);

	exi->exi_fh.fh_len = sizeof (exi->exi_fh.fh_data);

	kex = &exi->exi_export;

	/*
	 * Load in everything, and do sanity checking
	 */
	STRUCT_INIT(uexi, model);
	if (copyin(STRUCT_FGETP(uap, uex), STRUCT_BUF(uexi),
	    STRUCT_SIZE(uexi))) {
		error = EFAULT;
		goto out1;
	}

	kex->ex_version = STRUCT_FGET(uexi, ex_version);
	if (kex->ex_version != EX_CURRENT_VERSION) {
		error = EINVAL;
		cmn_err(CE_WARN,
		    "NFS: exportfs requires export struct version 2 - got %d\n",
		    kex->ex_version);
		goto out1;
	}

	/*
	 * Must have at least one security entry
	 */
	kex->ex_seccnt = STRUCT_FGET(uexi, ex_seccnt);
	if (kex->ex_seccnt < 1) {
		error = EINVAL;
		goto out1;
	}

	kex->ex_path = STRUCT_FGETP(uexi, ex_path);
	kex->ex_pathlen = STRUCT_FGET(uexi, ex_pathlen);
	kex->ex_flags = STRUCT_FGET(uexi, ex_flags);
	kex->ex_anon = STRUCT_FGET(uexi, ex_anon);
	kex->ex_secinfo = STRUCT_FGETP(uexi, ex_secinfo);
	kex->ex_index = STRUCT_FGETP(uexi, ex_index);
	kex->ex_log_buffer = STRUCT_FGETP(uexi, ex_log_buffer);
	kex->ex_log_bufferlen = STRUCT_FGET(uexi, ex_log_bufferlen);
	kex->ex_tag = STRUCT_FGETP(uexi, ex_tag);
	kex->ex_taglen = STRUCT_FGET(uexi, ex_taglen);

	/*
	 * Copy the exported pathname into
	 * an appropriately sized buffer.
	 */
	pathbuf = kmem_alloc(MAXPATHLEN, KM_SLEEP);
	if (copyinstr(kex->ex_path, pathbuf, MAXPATHLEN, &kex->ex_pathlen)) {
		kmem_free(pathbuf, MAXPATHLEN);
		error = EFAULT;
		goto out1;
	}
	kex->ex_path = kmem_alloc(kex->ex_pathlen + 1, KM_SLEEP);
	bcopy(pathbuf, kex->ex_path, kex->ex_pathlen);
	kex->ex_path[kex->ex_pathlen] = '\0';
	kmem_free(pathbuf, MAXPATHLEN);

	/*
	 * Get the path to the logging buffer and the tag
	 */
	if (kex->ex_flags & EX_LOG) {
		log_buffer = kmem_alloc(MAXPATHLEN, KM_SLEEP);
		if (copyinstr(kex->ex_log_buffer, log_buffer, MAXPATHLEN,
		    &kex->ex_log_bufferlen)) {
			kmem_free(log_buffer, MAXPATHLEN);
			error = EFAULT;
			goto out2;
		}
		kex->ex_log_buffer =
		    kmem_alloc(kex->ex_log_bufferlen + 1, KM_SLEEP);
		bcopy(log_buffer, kex->ex_log_buffer, kex->ex_log_bufferlen);
		kex->ex_log_buffer[kex->ex_log_bufferlen] = '\0';
		kmem_free(log_buffer, MAXPATHLEN);

		tagbuf = kmem_alloc(MAXPATHLEN, KM_SLEEP);
		if (copyinstr(kex->ex_tag, tagbuf, MAXPATHLEN,
		    &kex->ex_taglen)) {
			kmem_free(tagbuf, MAXPATHLEN);
			error = EFAULT;
			goto out3;
		}
		kex->ex_tag = kmem_alloc(kex->ex_taglen + 1, KM_SLEEP);
		bcopy(tagbuf, kex->ex_tag, kex->ex_taglen);
		kex->ex_tag[kex->ex_taglen] = '\0';
		kmem_free(tagbuf, MAXPATHLEN);
	}

	/*
	 * Load the security information for each flavor
	 */
	allocsize = kex->ex_seccnt * SIZEOF_STRUCT(secinfo, model);
	sp = kmem_zalloc(allocsize, KM_SLEEP);
	if (copyin(kex->ex_secinfo, sp, allocsize)) {
		kmem_free(sp, allocsize);
		error = EFAULT;
		goto out4;
	}

	/*
	 * All of these nested structures need to be converted to
	 * the kernel native format.
	 */
	if (model != DATAMODEL_NATIVE) {
		size_t allocsize2;
		struct secinfo *sp2;

		allocsize2 = kex->ex_seccnt * sizeof (struct secinfo);
		sp2 = kmem_zalloc(allocsize2, KM_SLEEP);

		for (i = 0; i < kex->ex_seccnt; i++) {
			STRUCT_HANDLE(secinfo, usi);

			STRUCT_SET_HANDLE(usi, model,
			    (struct secinfo *)((caddr_t)sp +
			    (i * SIZEOF_STRUCT(secinfo, model))));
			bcopy(STRUCT_FGET(usi, s_secinfo.sc_name),
			    sp2[i].s_secinfo.sc_name, MAX_NAME_LEN);
			sp2[i].s_secinfo.sc_nfsnum =
			    STRUCT_FGET(usi, s_secinfo.sc_nfsnum);
			sp2[i].s_secinfo.sc_rpcnum =
			    STRUCT_FGET(usi, s_secinfo.sc_rpcnum);
			bcopy(STRUCT_FGET(usi, s_secinfo.sc_gss_mech),
			    sp2[i].s_secinfo.sc_gss_mech, MAX_NAME_LEN);
			sp2[i].s_secinfo.sc_gss_mech_type =
			    STRUCT_FGETP(usi, s_secinfo.sc_gss_mech_type);
			sp2[i].s_secinfo.sc_qop =
			    STRUCT_FGET(usi, s_secinfo.sc_qop);
			sp2[i].s_secinfo.sc_service =
			    STRUCT_FGET(usi, s_secinfo.sc_service);

			sp2[i].s_flags = STRUCT_FGET(usi, s_flags);
			sp2[i].s_window = STRUCT_FGET(usi, s_window);
			sp2[i].s_rootid = STRUCT_FGET(usi, s_rootid);
			sp2[i].s_rootcnt = STRUCT_FGET(usi, s_rootcnt);
			sp2[i].s_rootnames = STRUCT_FGETP(usi, s_rootnames);
		}
		kmem_free(sp, allocsize);
		sp = sp2;
		allocsize = allocsize2;
	}

	kex->ex_secinfo = sp;

	/*
	 * And now copy rootnames for each individual secinfo.
	 */
	callback = 0;
	allocd_seccnt = 0;
	while (allocd_seccnt < kex->ex_seccnt) {

		exs = &sp[allocd_seccnt];
		if (exs->s_rootcnt > 0) {
			if (!sec_svc_loadrootnames(exs->s_secinfo.sc_rpcnum,
			    exs->s_rootcnt, &exs->s_rootnames, model)) {
				error = EFAULT;
				goto out5;
			}
		}

		if (exs->s_secinfo.sc_rpcnum == RPCSEC_GSS) {
			rpc_gss_OID mech_tmp;
			STRUCT_DECL(rpc_gss_OID_s, umech_tmp);
			caddr_t elements_tmp;

			/* Copyin mechanism type */
			STRUCT_INIT(umech_tmp, model);
			mech_tmp = kmem_alloc(sizeof (*mech_tmp), KM_SLEEP);
			if (copyin(exs->s_secinfo.sc_gss_mech_type,
			    STRUCT_BUF(umech_tmp), STRUCT_SIZE(umech_tmp))) {
				kmem_free(mech_tmp, sizeof (*mech_tmp));
				error = EFAULT;
				goto out5;
			}
			mech_tmp->length = STRUCT_FGET(umech_tmp, length);
			mech_tmp->elements = STRUCT_FGETP(umech_tmp, elements);

			elements_tmp = kmem_alloc(mech_tmp->length, KM_SLEEP);
			if (copyin(mech_tmp->elements, elements_tmp,
			    mech_tmp->length)) {
				kmem_free(elements_tmp, mech_tmp->length);
				kmem_free(mech_tmp, sizeof (*mech_tmp));
				error = EFAULT;
				goto out5;
			}
			mech_tmp->elements = elements_tmp;
			exs->s_secinfo.sc_gss_mech_type = mech_tmp;
			allocd_seccnt++;

			callback = 1;
		} else
			allocd_seccnt++;
	}

	/*
	 * Init the secinfo reference count and mark these flavors
	 * explicitly exported flavors.
	 */
	for (i = 0; i < kex->ex_seccnt; i++) {
		kex->ex_secinfo[i].s_flags |= M_4SEC_EXPORTED;
		kex->ex_secinfo[i].s_refcnt = 1;
	}

	/*
	 *  Set up rpcsec_gss callback routine entry if any.
	 */
	if (callback) {
		cb.callback = rfs_gsscallback;
		cb.program = NFS_ACL_PROGRAM;
		for (cb.version = NFS_ACL_VERSMIN;
		    cb.version <= NFS_ACL_VERSMAX; cb.version++) {
			(void) sec_svc_control(RPC_SVC_SET_GSS_CALLBACK,
			    (void *)&cb);
		}

		cb.program = NFS_PROGRAM;
		for (cb.version = NFS_VERSMIN;
		    cb.version <= NFS_VERSMAX; cb.version++) {
			(void) sec_svc_control(RPC_SVC_SET_GSS_CALLBACK,
			    (void *)&cb);
		}
	}

	/*
	 * Check the index flag. Do this here to avoid holding the
	 * lock while dealing with the index option (as we do with
	 * the public option).
	 */
	if (kex->ex_flags & EX_INDEX) {
		if (!kex->ex_index) {	/* sanity check */
			error = EINVAL;
			goto out5;
		}
		if (error = loadindex(kex))
			goto out5;
	}

	if (kex->ex_flags & EX_LOG) {
		if (error = nfslog_setup(exi))
			goto out6;
	}

	/*
	 * Insert the new entry at the front of the export list
	 */
	rw_enter(&ne->exported_lock, RW_WRITER);
	DTRACE_PROBE(nfss__i__exported_lock3_start);

	export_link(ne, exi);

	/*
	 * Check the rest of the list for an old entry for the fs.
	 * If one is found then unlink it, wait until this is the
	 * only reference and then free it.
	 */
	for (ex = exi->fid_hash.next; ex != NULL; ex = ex->fid_hash.next) {
		if (ex != ne->exi_root && VN_CMP(ex->exi_vp, vp)) {
			mutex_enter(&nfs_exi_id_lock);
			avl_remove(&exi_id_tree, ex);
			mutex_exit(&nfs_exi_id_lock);
			export_unlink(ne, ex);
			break;
		}
	}

	/*
	 * If the public filehandle is pointing at the
	 * old entry, then point it back at the root.
	 */
	if (ex != NULL && ex == ne->exi_public)
		ne->exi_public = ne->exi_root;

	/*
	 * If the public flag is on, make the global exi_public
	 * point to this entry and turn off the public bit so that
	 * we can distinguish it from the place holder export.
	 */
	if (kex->ex_flags & EX_PUBLIC) {
		ne->exi_public = exi;
		kex->ex_flags &= ~EX_PUBLIC;
	}

#ifdef VOLATILE_FH_TEST
	/*
	 * Set up the volatile_id value if volatile on share.
	 * The list of volatile renamed filehandles is always destroyed,
	 * if the fs was reshared.
	 */
	if (kex->ex_flags & EX_VOLFH)
		exi->exi_volatile_id = gethrestime_sec();

	mutex_init(&exi->exi_vol_rename_lock, NULL, MUTEX_DEFAULT, NULL);
#endif /* VOLATILE_FH_TEST */

	/*
	 * If this is a new export, then climb up
	 * the tree and check if any pseudo exports
	 * need to be created to provide a path for
	 * NFS v4 clients.
	 */
	if (ex == NULL) {
		error = treeclimb_export(exi);
		if (error)
			goto out7;
	} else {
		/* If it's a re-export update namespace tree */
		exi->exi_tree = ex->exi_tree;
		exi->exi_tree->tree_exi = exi;

		/* Update the change timestamp */
		tree_update_change(ne, exi->exi_tree, NULL);
	}

	/*
	 * build a unique flavor list from the flavors specified
	 * in the share cmd.  unique means that each flavor only
	 * appears once in the secinfo list -- no duplicates allowed.
	 */
	newcnt = build_seclist_nodups(&exi->exi_export, newsec, FALSE);

	srv_secinfo_treeclimb(ne, exi, newsec, newcnt, TRUE);

	/*
	 * If re-sharing an old export entry, update the secinfo data
	 * depending on if the old entry is a pseudo node or not.
	 */
	if (ex != NULL) {
		oldcnt = build_seclist_nodups(&ex->exi_export, oldsec, FALSE);
		if (PSEUDO(ex)) {
			/*
			 * The dir being shared is a pseudo export root (which
			 * will be transformed into a real export root).  The
			 * flavor(s) of the new share were propagated to the
			 * ancestors by srv_secinfo_treeclimb() above.  Now
			 * transfer the implicit flavor refs from the old
			 * pseudo exprot root to the new (real) export root.
			 */
			srv_secinfo_add(&exi->exi_export.ex_secinfo,
			    &exi->exi_export.ex_seccnt, oldsec, oldcnt, TRUE);
		} else {
			/*
			 * First transfer implicit flavor refs to new export.
			 * Remove old flavor refs last.
			 */
			srv_secinfo_exp2exp(&exi->exi_export, oldsec, oldcnt);
			srv_secinfo_treeclimb(ne, ex, oldsec, oldcnt, FALSE);
		}
	}

	/*
	 * If it's a re-export and the old entry has a pseudonode list,
	 * transfer it to the new export.
	 */
	if (ex != NULL && (ex->exi_visible != NULL)) {
		exi->exi_visible = ex->exi_visible;
		ex->exi_visible = NULL;
	}

	/*
	 * Initialize exi_id and exi_kstats
	 */
	if (ex != NULL) {
		exi->exi_id = ex->exi_id;
	} else {
		mutex_enter(&nfs_exi_id_lock);
		exi->exi_id = exi_id_get_next();
		mutex_exit(&nfs_exi_id_lock);
	}
	mutex_enter(&nfs_exi_id_lock);
	avl_add(&exi_id_tree, exi);
	mutex_exit(&nfs_exi_id_lock);

	DTRACE_PROBE(nfss__i__exported_lock3_stop);
	rw_exit(&ne->exported_lock);

	if (ne->exi_public == exi || kex->ex_flags & EX_LOG) {
		/*
		 * Log share operation to this buffer only.
		 */
		nfslog_share_record(exi, cr);
	}

	if (ex != NULL)
		exi_rele(ex);

	return (0);

out7:
	/* Unlink the new export in exptable. */
	export_unlink(ne, exi);
	DTRACE_PROBE(nfss__i__exported_lock3_stop);
	rw_exit(&ne->exported_lock);
out6:
	if (kex->ex_flags & EX_INDEX)
		kmem_free(kex->ex_index, strlen(kex->ex_index) + 1);
out5:
	/* free partially completed allocation */
	while (--allocd_seccnt >= 0) {
		exs = &kex->ex_secinfo[allocd_seccnt];
		srv_secinfo_entry_free(exs);
	}

	if (kex->ex_secinfo) {
		kmem_free(kex->ex_secinfo,
		    kex->ex_seccnt * sizeof (struct secinfo));
	}

out4:
	if ((kex->ex_flags & EX_LOG) && kex->ex_tag != NULL)
		kmem_free(kex->ex_tag, kex->ex_taglen + 1);
out3:
	if ((kex->ex_flags & EX_LOG) && kex->ex_log_buffer != NULL)
		kmem_free(kex->ex_log_buffer, kex->ex_log_bufferlen + 1);
out2:
	kmem_free(kex->ex_path, kex->ex_pathlen + 1);
out1:
	VN_RELE(vp);
	if (dvp != NULL)
		VN_RELE(dvp);
	mutex_destroy(&exi->exi_lock);
	rw_destroy(&exi->exi_cache_lock);
	for (i = 0; i < AUTH_TABLESIZE; i++) {
		avl_destroy(exi->exi_cache[i]);
		kmem_free(exi->exi_cache[i], sizeof (avl_tree_t));
	}

	kmem_free(exi, sizeof (*exi));

	return (error);
}

/*
 * Remove the exportinfo from the export list
 */
void
export_unlink(nfs_export_t *ne, struct exportinfo *exi)
{
	ASSERT(RW_WRITE_HELD(&ne->exported_lock));

	exp_hash_unlink(exi, fid_hash);
	exp_hash_unlink(exi, path_hash);
	ASSERT3P(exi->exi_ne, ==, ne);
	exi->exi_ne = NULL;
}

/*
 * Unexport an exported filesystem
 */
static int
unexport(nfs_export_t *ne, struct exportinfo *exi, cred_t *cr)
{
	struct secinfo cursec[MAX_FLAVORS];
	int curcnt;

	rw_enter(&ne->exported_lock, RW_WRITER);

	/* Check if exi is still linked in the export table */
	if (!EXP_LINKED(exi) || PSEUDO(exi)) {
		rw_exit(&ne->exported_lock);
		return (EINVAL);
	}

	mutex_enter(&nfs_exi_id_lock);
	avl_remove(&exi_id_tree, exi);
	mutex_exit(&nfs_exi_id_lock);
	export_unlink(ne, exi);

	/*
	 * Remove security flavors before treeclimb_unexport() is called
	 * because srv_secinfo_treeclimb needs the namespace tree
	 */
	curcnt = build_seclist_nodups(&exi->exi_export, cursec, TRUE);
	srv_secinfo_treeclimb(ne, exi, cursec, curcnt, FALSE);

	/*
	 * If there's a visible list, then need to leave
	 * a pseudo export here to retain the visible list
	 * for paths to exports below.
	 */
	if (exi->exi_visible != NULL) {
		struct exportinfo *newexi;

		newexi = pseudo_exportfs(ne, exi->exi_vp, &exi->exi_fid,
		    exi->exi_visible, &exi->exi_export);
		exi->exi_visible = NULL;

		/* interconnect the existing treenode with the new exportinfo */
		newexi->exi_tree = exi->exi_tree;
		newexi->exi_tree->tree_exi = newexi;

		/* Update the change timestamp */
		tree_update_change(ne, exi->exi_tree, NULL);
	} else {
		treeclimb_unexport(ne, exi);
	}

	rw_exit(&ne->exported_lock);

	/*
	 * Need to call into the NFSv4 server and release all data
	 * held on this particular export.  This is important since
	 * the v4 server may be holding file locks or vnodes under
	 * this export.
	 */
	rfs4_clean_state_exi(ne, exi);

	/*
	 * Notify the lock manager that the filesystem is being
	 * unexported.
	 */
	lm_unexport(exi);

	/*
	 * If this was a public export, restore
	 * the public filehandle to the root.
	 */

	if (exi == ne->exi_public) {
		ne->exi_public = ne->exi_root;

		nfslog_share_record(ne->exi_public, cr);
	}

	if (exi->exi_export.ex_flags & EX_LOG)
		nfslog_unshare_record(exi, cr);

	exi_rele(exi);
	return (0);
}

/*
 * Get file handle system call.
 * Takes file name and returns a file handle for it.
 * Credentials must be verified before calling.
 */
int
nfs_getfh(struct nfs_getfh_args *args, model_t model, cred_t *cr)
{
	nfs_fh3 fh;
	char buf[NFS3_MAXFHSIZE];
	char *logptr, logbuf[NFS3_MAXFHSIZE];
	int l = NFS3_MAXFHSIZE;
	vnode_t *vp;
	vnode_t *dvp;
	struct exportinfo *exi;
	int error;
	int vers;
	STRUCT_HANDLE(nfs_getfh_args, uap);

#ifdef lint
	model = model;		/* STRUCT macros don't always use it */
#endif

	STRUCT_SET_HANDLE(uap, model, args);

	error = lookupname(STRUCT_FGETP(uap, fname), UIO_USERSPACE,
	    FOLLOW, &dvp, &vp);
	if (error == EINVAL) {
		/*
		 * if fname resolves to / we get EINVAL error
		 * since we wanted the parent vnode. Try again
		 * with NULL dvp.
		 */
		error = lookupname(STRUCT_FGETP(uap, fname), UIO_USERSPACE,
		    FOLLOW, NULL, &vp);
		dvp = NULL;
	}
	if (!error && vp == NULL) {
		/*
		 * Last component of fname not found
		 */
		if (dvp != NULL) {
			VN_RELE(dvp);
		}
		error = ENOENT;
	}
	if (error)
		return (error);

	/*
	 * 'vp' may be an AUTOFS node, so we perform a
	 * VOP_ACCESS() to trigger the mount of the
	 * intended filesystem, so we can share the intended
	 * filesystem instead of the AUTOFS filesystem.
	 */
	(void) VOP_ACCESS(vp, 0, 0, cr, NULL);

	/*
	 * We're interested in the top most filesystem.
	 * This is specially important when uap->dname is a trigger
	 * AUTOFS node, since we're really interested in sharing the
	 * filesystem AUTOFS mounted as result of the VOP_ACCESS()
	 * call not the AUTOFS node itself.
	 */
	if (vn_mountedvfs(vp) != NULL) {
		if (error = traverse(&vp)) {
			VN_RELE(vp);
			if (dvp != NULL)
				VN_RELE(dvp);
			return (error);
		}
	}

	vers = STRUCT_FGET(uap, vers);
	exi = nfs_vptoexi(dvp, vp, cr, NULL, &error, FALSE);
	if (!error) {
		if (vers == NFS_VERSION) {
			error = makefh((fhandle_t *)buf, vp, exi);
			l = NFS_FHSIZE;
			logptr = buf;
		} else if (vers == NFS_V3) {
			int i, sz, pad;

			error = makefh3(&fh, vp, exi);
			l = RNDUP(fh.fh3_length);
			if (!error && (l > sizeof (fhandle3_t)))
				error = EREMOTE;
			logptr = logbuf;
			if (!error) {
				i = 0;
				sz = sizeof (fsid_t);
				bcopy(&fh.fh3_fsid, &buf[i], sz);
				i += sz;

				/*
				 * For backwards compatibility, the
				 * fid length may be less than
				 * NFS_FHMAXDATA, but it was always
				 * encoded as NFS_FHMAXDATA bytes.
				 */

				sz = sizeof (ushort_t);
				bcopy(&fh.fh3_len, &buf[i], sz);
				i += sz;
				bcopy(fh.fh3_data, &buf[i], fh.fh3_len);
				i += fh.fh3_len;
				pad = (NFS_FHMAXDATA - fh.fh3_len);
				if (pad > 0) {
					bzero(&buf[i], pad);
					i += pad;
					l += pad;
				}

				sz = sizeof (ushort_t);
				bcopy(&fh.fh3_xlen, &buf[i], sz);
				i += sz;
				bcopy(fh.fh3_xdata, &buf[i], fh.fh3_xlen);
				i += fh.fh3_xlen;
				pad = (NFS_FHMAXDATA - fh.fh3_xlen);
				if (pad > 0) {
					bzero(&buf[i], pad);
					i += pad;
					l += pad;
				}
			}
			/*
			 * If we need to do NFS logging, the filehandle
			 * must be downsized to 32 bytes.
			 */
			if (!error && exi->exi_export.ex_flags & EX_LOG) {
				i = 0;
				sz = sizeof (fsid_t);
				bcopy(&fh.fh3_fsid, &logbuf[i], sz);
				i += sz;
				sz = sizeof (ushort_t);
				bcopy(&fh.fh3_len, &logbuf[i], sz);
				i += sz;
				sz = NFS_FHMAXDATA;
				bcopy(fh.fh3_data, &logbuf[i], sz);
				i += sz;
				sz = sizeof (ushort_t);
				bcopy(&fh.fh3_xlen, &logbuf[i], sz);
				i += sz;
				sz = NFS_FHMAXDATA;
				bcopy(fh.fh3_xdata, &logbuf[i], sz);
				i += sz;
			}
		}
		if (!error && exi->exi_export.ex_flags & EX_LOG) {
			nfslog_getfh(exi, (fhandle_t *)logptr,
			    STRUCT_FGETP(uap, fname), UIO_USERSPACE, cr);
		}
		exi_rele(exi);
		if (!error) {
			if (copyout(&l, STRUCT_FGETP(uap, lenp), sizeof (int)))
				error = EFAULT;
			if (copyout(buf, STRUCT_FGETP(uap, fhp), l))
				error = EFAULT;
		}
	}
	VN_RELE(vp);
	if (dvp != NULL) {
		VN_RELE(dvp);
	}
	return (error);
}

/*
 * Strategy: if vp is in the export list, then
 * return the associated file handle. Otherwise, ".."
 * once up the vp and try again, until the root of the
 * filesystem is reached.
 */
struct   exportinfo *
nfs_vptoexi(vnode_t *dvp, vnode_t *vp, cred_t *cr, int *walk,
    int *err, bool_t v4srv)
{
	fid_t fid;
	int error;
	struct exportinfo *exi;

	ASSERT(vp);
	VN_HOLD(vp);
	if (dvp != NULL) {
		VN_HOLD(dvp);
	}
	if (walk != NULL)
		*walk = 0;

	for (;;) {
		bzero(&fid, sizeof (fid));
		fid.fid_len = MAXFIDSZ;
		error = vop_fid_pseudo(vp, &fid);
		if (error) {
			/*
			 * If vop_fid_pseudo returns ENOSPC then the fid
			 * supplied is too small. For now we simply
			 * return EREMOTE.
			 */
			if (error == ENOSPC)
				error = EREMOTE;
			break;
		}

		if (v4srv)
			exi = checkexport4(&vp->v_vfsp->vfs_fsid, &fid, vp);
		else
			exi = checkexport(&vp->v_vfsp->vfs_fsid, &fid);

		if (exi != NULL) {
			/*
			 * Found the export info
			 */
			break;
		}

		/*
		 * We have just failed finding a matching export.
		 * If we're at the root of this filesystem, then
		 * it's time to stop (with failure).
		 */
		ASSERT3P(vp->v_vfsp->vfs_zone, ==, curzone);
		if ((vp->v_flag & VROOT) || VN_IS_CURZONEROOT(vp)) {
			error = EINVAL;
			break;
		}

		if (walk != NULL)
			(*walk)++;

		/*
		 * Now, do a ".." up vp. If dvp is supplied, use it,
		 * otherwise, look it up.
		 */
		if (dvp == NULL) {
			error = VOP_LOOKUP(vp, "..", &dvp, NULL, 0, NULL, cr,
			    NULL, NULL, NULL);
			if (error)
				break;
		}
		VN_RELE(vp);
		vp = dvp;
		dvp = NULL;
	}
	VN_RELE(vp);
	if (dvp != NULL) {
		VN_RELE(dvp);
	}
	if (error != 0) {
		if (err != NULL)
			*err = error;
		return (NULL);
	}
	return (exi);
}

int
chk_clnt_sec(exportinfo_t *exi, struct svc_req *req)
{
	int i, nfsflavor;
	struct secinfo *sp;

	/*
	 *  Get the nfs flavor number from xprt.
	 */
	nfsflavor = (int)(uintptr_t)req->rq_xprt->xp_cookie;

	sp = exi->exi_export.ex_secinfo;
	for (i = 0; i < exi->exi_export.ex_seccnt; i++) {
		if ((nfsflavor == sp[i].s_secinfo.sc_nfsnum) &&
		    SEC_REF_EXPORTED(sp + i))
			return (TRUE);
	}
	return (FALSE);
}

/*
 * Make an fhandle from a vnode
 */
int
makefh(fhandle_t *fh, vnode_t *vp, exportinfo_t *exi)
{
	int error;

	*fh = exi->exi_fh;	/* struct copy */

	error = VOP_FID(vp, (fid_t *)&fh->fh_len, NULL);
	if (error) {
		/*
		 * Should be something other than EREMOTE
		 */
		return (EREMOTE);
	}
	return (0);
}

/*
 * This routine makes an overloaded V2 fhandle which contains
 * sec modes.
 *
 * Note that the first four octets contain the length octet,
 * the status octet, and two padded octets to make them XDR
 * four-octet aligned.
 *
 *   1   2   3   4                                          32
 * +---+---+---+---+---+---+---+---+   +---+---+---+---+   +---+
 * | l | s |   |   |     sec_1     |...|     sec_n     |...|   |
 * +---+---+---+---+---+---+---+---+   +---+---+---+---+   +---+
 *
 * where
 *
 *   the status octet s indicates whether there are more security
 *   flavors (1 means yes, 0 means no) that require the client to
 *   perform another 0x81 LOOKUP to get them,
 *
 *   the length octet l is the length describing the number of
 *   valid octets that follow.  (l = 4 * n, where n is the number
 *   of security flavors sent in the current overloaded filehandle.)
 *
 *   sec_index should always be in the inclusive range: [1 - ex_seccnt],
 *   and it tells server where to start within the secinfo array.
 *   Usually it will always be 1; however, if more flavors are used
 *   for the public export than can be encoded in the overloaded FH
 *   (7 for NFS2), subsequent SNEGO MCLs will have a larger index
 *   so the server will pick up where it left off from the previous
 *   MCL reply.
 *
 *   With NFS4 support, implicitly allowed flavors are also in
 *   the secinfo array; however, they should not be returned in
 *   SNEGO MCL replies.
 */
int
makefh_ol(fhandle_t *fh, exportinfo_t *exi, uint_t sec_index)
{
	secinfo_t sec[MAX_FLAVORS];
	int totalcnt, i, *ipt, cnt, seccnt, secidx, fh_max_cnt;
	char *c;

	if (fh == NULL || exi == NULL || sec_index < 1)
		return (EREMOTE);

	/*
	 * WebNFS clients need to know the unique set of explicitly
	 * shared flavors in used for the public export. When
	 * "TRUE" is passed to build_seclist_nodups(), only explicitly
	 * shared flavors are included in the list.
	 */
	seccnt = build_seclist_nodups(&exi->exi_export, sec, TRUE);
	if (sec_index > seccnt)
		return (EREMOTE);

	fh_max_cnt = (NFS_FHSIZE / sizeof (int)) - 1;
	totalcnt = seccnt - sec_index + 1;
	cnt = totalcnt > fh_max_cnt ? fh_max_cnt : totalcnt;

	c = (char *)fh;
	/*
	 * Encode the length octet representing the number of
	 * security flavors (in bytes) in this overloaded fh.
	 */
	*c = cnt * sizeof (int);

	/*
	 * Encode the status octet that indicates whether there
	 * are more security flavors the client needs to get.
	 */
	*(c + 1) = totalcnt > fh_max_cnt;

	/*
	 * put security flavors in the overloaded fh
	 */
	ipt = (int *)(c + sizeof (int32_t));
	secidx = sec_index - 1;
	for (i = 0; i < cnt; i++) {
		ipt[i] = htonl(sec[i + secidx].s_secinfo.sc_nfsnum);
	}
	return (0);
}

/*
 * Make an nfs_fh3 from a vnode
 */
int
makefh3(nfs_fh3 *fh, vnode_t *vp, struct exportinfo *exi)
{
	int error;
	fid_t fid;

	bzero(&fid, sizeof (fid));
	fid.fid_len = sizeof (fh->fh3_data);
	error = VOP_FID(vp, &fid, NULL);
	if (error)
		return (EREMOTE);

	bzero(fh, sizeof (nfs_fh3));
	fh->fh3_fsid = exi->exi_fsid;
	fh->fh3_len = fid.fid_len;
	bcopy(fid.fid_data, fh->fh3_data, fh->fh3_len);

	fh->fh3_xlen = exi->exi_fid.fid_len;
	ASSERT(fh->fh3_xlen <= sizeof (fh->fh3_xdata));
	bcopy(exi->exi_fid.fid_data, fh->fh3_xdata, fh->fh3_xlen);

	fh->fh3_length = sizeof (fh->fh3_fsid)
	    + sizeof (fh->fh3_len) + fh->fh3_len
	    + sizeof (fh->fh3_xlen) + fh->fh3_xlen;
	fh->fh3_flags = 0;

	return (0);
}

/*
 * This routine makes an overloaded V3 fhandle which contains
 * sec modes.
 *
 *  1        4
 * +--+--+--+--+
 * |    len    |
 * +--+--+--+--+
 *                                               up to 64
 * +--+--+--+--+--+--+--+--+--+--+--+--+     +--+--+--+--+
 * |s |  |  |  |   sec_1   |   sec_2   | ... |   sec_n   |
 * +--+--+--+--+--+--+--+--+--+--+--+--+     +--+--+--+--+
 *
 * len = 4 * (n+1), where n is the number of security flavors
 * sent in the current overloaded filehandle.
 *
 * the status octet s indicates whether there are more security
 * mechanisms (1 means yes, 0 means no) that require the client
 * to perform another 0x81 LOOKUP to get them.
 *
 * Three octets are padded after the status octet.
 */
int
makefh3_ol(nfs_fh3 *fh, struct exportinfo *exi, uint_t sec_index)
{
	secinfo_t sec[MAX_FLAVORS];
	int totalcnt, cnt, *ipt, i, seccnt, fh_max_cnt, secidx;
	char *c;

	if (fh == NULL || exi == NULL || sec_index < 1)
		return (EREMOTE);

	/*
	 * WebNFS clients need to know the unique set of explicitly
	 * shared flavors in used for the public export. When
	 * "TRUE" is passed to build_seclist_nodups(), only explicitly
	 * shared flavors are included in the list.
	 */
	seccnt = build_seclist_nodups(&exi->exi_export, sec, TRUE);

	if (sec_index > seccnt)
		return (EREMOTE);

	fh_max_cnt = (NFS3_FHSIZE / sizeof (int)) - 1;
	totalcnt = seccnt - sec_index + 1;
	cnt = totalcnt > fh_max_cnt ? fh_max_cnt : totalcnt;

	/*
	 * Place the length in fh3_length representing the number
	 * of security flavors (in bytes) in this overloaded fh.
	 */
	fh->fh3_flags = FH_WEBNFS;
	fh->fh3_length = (cnt+1) * sizeof (int32_t);

	c = (char *)&fh->fh3_u.nfs_fh3_i.fh3_i;
	/*
	 * Encode the status octet that indicates whether there
	 * are more security flavors the client needs to get.
	 */
	*c = totalcnt > fh_max_cnt;

	/*
	 * put security flavors in the overloaded fh
	 */
	secidx = sec_index - 1;
	ipt = (int *)(c + sizeof (int32_t));
	for (i = 0; i < cnt; i++) {
		ipt[i] = htonl(sec[i + secidx].s_secinfo.sc_nfsnum);
	}
	return (0);
}

/*
 * Make an nfs_fh4 from a vnode
 */
int
makefh4(nfs_fh4 *fh, vnode_t *vp, struct exportinfo *exi)
{
	int error;
	nfs_fh4_fmt_t *fh_fmtp = (nfs_fh4_fmt_t *)fh->nfs_fh4_val;
	fid_t fid;

	bzero(&fid, sizeof (fid));
	fid.fid_len = MAXFIDSZ;
	/*
	 * vop_fid_pseudo() is used to set up NFSv4 namespace, so
	 * use vop_fid_pseudo() here to get the fid instead of VOP_FID.
	 */
	error = vop_fid_pseudo(vp, &fid);
	if (error)
		return (error);

	fh->nfs_fh4_len = NFS_FH4_LEN;

	fh_fmtp->fh4_i.fhx_fsid = exi->exi_fh.fh_fsid;
	fh_fmtp->fh4_i.fhx_xlen = exi->exi_fh.fh_xlen;

	bzero(fh_fmtp->fh4_i.fhx_data, sizeof (fh_fmtp->fh4_i.fhx_data));
	bzero(fh_fmtp->fh4_i.fhx_xdata, sizeof (fh_fmtp->fh4_i.fhx_xdata));
	ASSERT(exi->exi_fh.fh_xlen <= sizeof (fh_fmtp->fh4_i.fhx_xdata));
	bcopy(exi->exi_fh.fh_xdata, fh_fmtp->fh4_i.fhx_xdata,
	    exi->exi_fh.fh_xlen);

	fh_fmtp->fh4_len = fid.fid_len;
	ASSERT(fid.fid_len <= sizeof (fh_fmtp->fh4_data));
	bcopy(fid.fid_data, fh_fmtp->fh4_data, fid.fid_len);
	fh_fmtp->fh4_flag = 0;

#ifdef VOLATILE_FH_TEST
	/*
	 * XXX (temporary?)
	 * Use the rnode volatile_id value to add volatility to the fh.
	 *
	 * For testing purposes there are currently two scenarios, based
	 * on whether the filesystem was shared with "volatile_fh"
	 * or "expire_on_rename". In the first case, use the value of
	 * export struct share_time as the volatile_id. In the second
	 * case use the vnode volatile_id value (which is set to the
	 * time in which the file was renamed).
	 *
	 * Note that the above are temporary constructs for testing only
	 * XXX
	 */
	if (exi->exi_export.ex_flags & EX_VOLRNM) {
		fh_fmtp->fh4_volatile_id = find_volrnm_fh_id(exi, fh);
	} else if (exi->exi_export.ex_flags & EX_VOLFH) {
		fh_fmtp->fh4_volatile_id = exi->exi_volatile_id;
	} else {
		fh_fmtp->fh4_volatile_id = 0;
	}
#endif /* VOLATILE_FH_TEST */

	return (0);
}

/*
 * Convert an fhandle into a vnode.
 * Uses the file id (fh_len + fh_data) in the fhandle to get the vnode.
 * WARNING: users of this routine must do a VN_RELE on the vnode when they
 * are done with it.
 */
vnode_t *
nfs_fhtovp(fhandle_t *fh, struct exportinfo *exi)
{
	vfs_t *vfsp;
	vnode_t *vp;
	int error;
	fid_t *fidp;

	TRACE_0(TR_FAC_NFS, TR_FHTOVP_START,
	    "fhtovp_start");

	if (exi == NULL) {
		TRACE_1(TR_FAC_NFS, TR_FHTOVP_END,
		    "fhtovp_end:(%S)", "exi NULL");
		return (NULL);	/* not exported */
	}

	ASSERT(exi->exi_vp != NULL);

	if (PUBLIC_FH2(fh)) {
		if (exi->exi_export.ex_flags & EX_PUBLIC) {
			TRACE_1(TR_FAC_NFS, TR_FHTOVP_END,
			    "fhtovp_end:(%S)", "root not exported");
			return (NULL);
		}
		vp = exi->exi_vp;
		VN_HOLD(vp);
		return (vp);
	}

	vfsp = exi->exi_vp->v_vfsp;
	ASSERT(vfsp != NULL);
	fidp = (fid_t *)&fh->fh_len;

	error = VFS_VGET(vfsp, &vp, fidp);
	if (error || vp == NULL) {
		TRACE_1(TR_FAC_NFS, TR_FHTOVP_END,
		    "fhtovp_end:(%S)", "VFS_GET failed or vp NULL");
		return (NULL);
	}
	TRACE_1(TR_FAC_NFS, TR_FHTOVP_END,
	    "fhtovp_end:(%S)", "end");
	return (vp);
}

/*
 * Convert an nfs_fh3 into a vnode.
 * Uses the file id (fh_len + fh_data) in the file handle to get the vnode.
 * WARNING: users of this routine must do a VN_RELE on the vnode when they
 * are done with it.
 */
vnode_t *
nfs3_fhtovp(nfs_fh3 *fh, struct exportinfo *exi)
{
	vfs_t *vfsp;
	vnode_t *vp;
	int error;
	fid_t *fidp;

	if (exi == NULL)
		return (NULL);	/* not exported */

	ASSERT(exi->exi_vp != NULL);

	if (PUBLIC_FH3(fh)) {
		if (exi->exi_export.ex_flags & EX_PUBLIC)
			return (NULL);
		vp = exi->exi_vp;
		VN_HOLD(vp);
		return (vp);
	}

	if (fh->fh3_length < NFS3_OLDFHSIZE ||
	    fh->fh3_length > NFS3_MAXFHSIZE)
		return (NULL);

	vfsp = exi->exi_vp->v_vfsp;
	ASSERT(vfsp != NULL);
	fidp = FH3TOFIDP(fh);

	error = VFS_VGET(vfsp, &vp, fidp);
	if (error || vp == NULL)
		return (NULL);

	return (vp);
}

/*
 * Convert an nfs_fh4 into a vnode.
 * Uses the file id (fh_len + fh_data) in the file handle to get the vnode.
 * WARNING: users of this routine must do a VN_RELE on the vnode when they
 * are done with it.
 */
vnode_t *
nfs4_fhtovp(nfs_fh4 *fh, struct exportinfo *exi, nfsstat4 *statp)
{
	vfs_t *vfsp;
	vnode_t *vp = NULL;
	int error;
	fid_t *fidp;
	nfs_fh4_fmt_t *fh_fmtp;
#ifdef VOLATILE_FH_TEST
	uint32_t volatile_id = 0;
#endif /* VOLATILE_FH_TEST */

	if (exi == NULL) {
		*statp = NFS4ERR_STALE;
		return (NULL);	/* not exported */
	}
	ASSERT(exi->exi_vp != NULL);

	/* caller should have checked this */
	ASSERT(fh->nfs_fh4_len >= NFS_FH4_LEN);

	fh_fmtp = (nfs_fh4_fmt_t *)fh->nfs_fh4_val;
	vfsp = exi->exi_vp->v_vfsp;
	ASSERT(vfsp != NULL);
	fidp = (fid_t *)&fh_fmtp->fh4_len;

#ifdef VOLATILE_FH_TEST
	/* XXX check if volatile - should be changed later */
	if (exi->exi_export.ex_flags & (EX_VOLRNM | EX_VOLFH)) {
		/*
		 * Filesystem is shared with volatile filehandles
		 */
		if (exi->exi_export.ex_flags & EX_VOLRNM)
			volatile_id = find_volrnm_fh_id(exi, fh);
		else
			volatile_id = exi->exi_volatile_id;

		if (fh_fmtp->fh4_volatile_id != volatile_id) {
			*statp = NFS4ERR_FHEXPIRED;
			return (NULL);
		}
	}
	/*
	 * XXX even if test_volatile_fh false, the fh may contain a
	 * volatile id if obtained when the test was set.
	 */
	fh_fmtp->fh4_volatile_id = (uchar_t)0;
#endif /* VOLATILE_FH_TEST */

	error = VFS_VGET(vfsp, &vp, fidp);
	/*
	 * If we can not get vp from VFS_VGET, perhaps this is
	 * an nfs v2/v3/v4 node in an nfsv4 pseudo filesystem.
	 * Check it out.
	 */
	if (error && PSEUDO(exi))
		error = nfs4_vget_pseudo(exi, &vp, fidp);

	if (error || vp == NULL) {
		*statp = NFS4ERR_STALE;
		return (NULL);
	}
	/* XXX - disgusting hack */
	if (vp->v_type == VNON && vp->v_flag & V_XATTRDIR)
		vp->v_type = VDIR;
	*statp = NFS4_OK;
	return (vp);
}

/*
 * Find the export structure associated with the given filesystem.
 * If found, then increment the ref count (exi_count).
 */
struct exportinfo *
checkexport(fsid_t *fsid, fid_t *fid)
{
	struct exportinfo *exi;
	nfs_export_t *ne = nfs_get_export();

	rw_enter(&ne->exported_lock, RW_READER);
	for (exi = ne->exptable[exptablehash(fsid, fid)];
	    exi != NULL;
	    exi = exi->fid_hash.next) {
		if (exportmatch(exi, fsid, fid)) {
			/*
			 * If this is the place holder for the
			 * public file handle, then return the
			 * real export entry for the public file
			 * handle.
			 */
			if (exi->exi_export.ex_flags & EX_PUBLIC) {
				exi = ne->exi_public;
			}

			exi_hold(exi);
			rw_exit(&ne->exported_lock);
			return (exi);
		}
	}
	rw_exit(&ne->exported_lock);
	return (NULL);
}


/*
 * "old school" version of checkexport() for NFS4.  NFS4
 * rfs4_compound holds exported_lock for duration of compound
 * processing.  This version doesn't manipulate exi_count
 * since NFS4 breaks fundamental assumptions in the exi_count
 * design.
 */
struct exportinfo *
checkexport4(fsid_t *fsid, fid_t *fid, vnode_t *vp)
{
	struct exportinfo *exi;
	nfs_export_t *ne = nfs_get_export();

	ASSERT(RW_LOCK_HELD(&ne->exported_lock));

	for (exi = ne->exptable[exptablehash(fsid, fid)];
	    exi != NULL;
	    exi = exi->fid_hash.next) {
		if (exportmatch(exi, fsid, fid)) {
			/*
			 * If this is the place holder for the
			 * public file handle, then return the
			 * real export entry for the public file
			 * handle.
			 */
			if (exi->exi_export.ex_flags & EX_PUBLIC) {
				exi = ne->exi_public;
			}

			/*
			 * If vp is given, check if vp is the
			 * same vnode as the exported node.
			 *
			 * Since VOP_FID of a lofs node returns the
			 * fid of its real node (ufs), the exported
			 * node for lofs and (pseudo) ufs may have
			 * the same fsid and fid.
			 */
			if (vp == NULL || vp == exi->exi_vp)
				return (exi);
		}
	}

	return (NULL);
}

/*
 * Free an entire export list node
 */
void
exportfree(struct exportinfo *exi)
{
	struct exportdata *ex;
	struct charset_cache *cache;
	int i;

	ex = &exi->exi_export;

	ASSERT(exi->exi_vp != NULL && !(exi->exi_export.ex_flags & EX_PUBLIC));
	VN_RELE(exi->exi_vp);
	if (exi->exi_dvp != NULL)
		VN_RELE(exi->exi_dvp);

	if (ex->ex_flags & EX_INDEX)
		kmem_free(ex->ex_index, strlen(ex->ex_index) + 1);

	kmem_free(ex->ex_path, ex->ex_pathlen + 1);
	nfsauth_cache_free(exi);

	/*
	 * if there is a character set mapping cached, clean it up.
	 */
	for (cache = exi->exi_charset; cache != NULL;
	    cache = exi->exi_charset) {
		if (cache->inbound != (kiconv_t)-1)
			(void) kiconv_close(cache->inbound);
		if (cache->outbound != (kiconv_t)-1)
			(void) kiconv_close(cache->outbound);
		exi->exi_charset = cache->next;
		kmem_free(cache, sizeof (struct charset_cache));
	}

	if (exi->exi_logbuffer != NULL)
		nfslog_disable(exi);

	if (ex->ex_flags & EX_LOG) {
		kmem_free(ex->ex_log_buffer, ex->ex_log_bufferlen + 1);
		kmem_free(ex->ex_tag, ex->ex_taglen + 1);
	}

	if (exi->exi_visible)
		free_visible(exi->exi_visible);

	srv_secinfo_list_free(ex->ex_secinfo, ex->ex_seccnt);

#ifdef VOLATILE_FH_TEST
	free_volrnm_list(exi);
	mutex_destroy(&exi->exi_vol_rename_lock);
#endif /* VOLATILE_FH_TEST */

	mutex_destroy(&exi->exi_lock);
	rw_destroy(&exi->exi_cache_lock);
	/*
	 * All nodes in the exi_cache AVL trees were removed and freed in the
	 * nfsauth_cache_free() call above.  We will just destroy and free the
	 * empty AVL trees here.
	 */
	for (i = 0; i < AUTH_TABLESIZE; i++) {
		avl_destroy(exi->exi_cache[i]);
		kmem_free(exi->exi_cache[i], sizeof (avl_tree_t));
	}

	kmem_free(exi, sizeof (*exi));
}

/*
 * load the index file from user space into kernel space.
 */
static int
loadindex(struct exportdata *kex)
{
	int error;
	char index[MAXNAMELEN+1];
	size_t len;

	/*
	 * copyinstr copies the complete string including the NULL and
	 * returns the len with the NULL byte included in the calculation
	 * as long as the max length is not exceeded.
	 */
	if (error = copyinstr(kex->ex_index, index, sizeof (index), &len))
		return (error);

	kex->ex_index = kmem_alloc(len, KM_SLEEP);
	bcopy(index, kex->ex_index, len);

	return (0);
}

void
exi_hold(struct exportinfo *exi)
{
	mutex_enter(&exi->exi_lock);
	exi->exi_count++;
	mutex_exit(&exi->exi_lock);
}

/*
 * When a thread completes using exi, it should call exi_rele().
 * exi_rele() decrements exi_count. It releases exi if exi_count == 0, i.e.
 * if this is the last user of exi and exi is not on exportinfo list anymore
 */
void
exi_rele(struct exportinfo *exi)
{
	mutex_enter(&exi->exi_lock);
	exi->exi_count--;
	if (exi->exi_count == 0) {
		mutex_exit(&exi->exi_lock);
		exportfree(exi);
	} else
		mutex_exit(&exi->exi_lock);
}

#ifdef VOLATILE_FH_TEST
/*
 * Test for volatile fh's - add file handle to list and set its volatile id
 * to time it was renamed. If EX_VOLFH is also on and the fs is reshared,
 * the vol_rename queue is purged.
 *
 * XXX This code is for unit testing purposes only... To correctly use it, it
 * needs to tie a rename list to the export struct and (more
 * important), protect access to the exi rename list using a write lock.
 */

/*
 * get the fh vol record if it's in the volatile on rename list. Don't check
 * volatile_id in the file handle - compare only the file handles.
 */
static struct ex_vol_rename *
find_volrnm_fh(struct exportinfo *exi, nfs_fh4 *fh4p)
{
	struct ex_vol_rename *p = NULL;
	fhandle4_t *fhp;

	/* XXX shouldn't we assert &exported_lock held? */
	ASSERT(MUTEX_HELD(&exi->exi_vol_rename_lock));

	if (fh4p->nfs_fh4_len != NFS_FH4_LEN) {
		return (NULL);
	}
	fhp = &((nfs_fh4_fmt_t *)fh4p->nfs_fh4_val)->fh4_i;
	for (p = exi->exi_vol_rename; p != NULL; p = p->vrn_next) {
		if (bcmp(fhp, &p->vrn_fh_fmt.fh4_i,
		    sizeof (fhandle4_t)) == 0)
			break;
	}
	return (p);
}

/*
 * get the volatile id for the fh (if there is - else return 0). Ignore the
 * volatile_id in the file handle - compare only the file handles.
 */
static uint32_t
find_volrnm_fh_id(struct exportinfo *exi, nfs_fh4 *fh4p)
{
	struct ex_vol_rename *p;
	uint32_t volatile_id;

	mutex_enter(&exi->exi_vol_rename_lock);
	p = find_volrnm_fh(exi, fh4p);
	volatile_id = (p ? p->vrn_fh_fmt.fh4_volatile_id :
	    exi->exi_volatile_id);
	mutex_exit(&exi->exi_vol_rename_lock);
	return (volatile_id);
}

/*
 * Free the volatile on rename list - will be called if a filesystem is
 * unshared or reshared without EX_VOLRNM
 */
static void
free_volrnm_list(struct exportinfo *exi)
{
	struct ex_vol_rename *p, *pnext;

	/* no need to hold mutex lock - this one is called from exportfree */
	for (p = exi->exi_vol_rename; p != NULL; p = pnext) {
		pnext = p->vrn_next;
		kmem_free(p, sizeof (*p));
	}
	exi->exi_vol_rename = NULL;
}

/*
 * Add a file handle to the volatile on rename list.
 */
void
add_volrnm_fh(struct exportinfo *exi, vnode_t *vp)
{
	struct ex_vol_rename *p;
	char fhbuf[NFS4_FHSIZE];
	nfs_fh4 fh4;
	int error;

	fh4.nfs_fh4_val = fhbuf;
	error = makefh4(&fh4, vp, exi);
	if ((error) || (fh4.nfs_fh4_len != sizeof (p->vrn_fh_fmt))) {
		return;
	}

	mutex_enter(&exi->exi_vol_rename_lock);

	p = find_volrnm_fh(exi, &fh4);

	if (p == NULL) {
		p = kmem_alloc(sizeof (*p), KM_SLEEP);
		bcopy(fh4.nfs_fh4_val, &p->vrn_fh_fmt, sizeof (p->vrn_fh_fmt));
		p->vrn_next = exi->exi_vol_rename;
		exi->exi_vol_rename = p;
	}

	p->vrn_fh_fmt.fh4_volatile_id = gethrestime_sec();
	mutex_exit(&exi->exi_vol_rename_lock);
}

#endif /* VOLATILE_FH_TEST */