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/*
 * 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
 */
/* Portions Copyright 2007 Shivakumar GN */
/*
 * Copyright 2007 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#pragma ident	"%Z%%M%	%I%	%E% SMI"

#include <sys/types.h>
#include <sys/cmn_err.h>
#include <sys/debug.h>
#include <sys/dirent.h>
#include <sys/kmem.h>
#include <sys/mman.h>
#include <sys/mutex.h>
#include <sys/sysmacros.h>
#include <sys/systm.h>
#include <sys/uio.h>
#include <sys/vfs.h>
#include <sys/vnode.h>
#include <sys/cred.h>
#include <sys/kdb.h>

#include <sys/gfs.h>

/*
 * Generic pseudo-filesystem routines.
 *
 * There are significant similarities between the implementation of certain file
 * system entry points across different filesystems.  While one could attempt to
 * "choke up on the bat" and incorporate common functionality into a VOP
 * preamble or postamble, such an approach is limited in the benefit it can
 * provide.  In this file we instead define a toolkit of routines which can be
 * called from a filesystem (with in-kernel pseudo-filesystems being the focus
 * of the exercise) in a more component-like fashion.
 *
 * There are three basic classes of routines:
 *
 * 1) Lowlevel support routines
 *
 *    These routines are designed to play a support role for existing
 *    pseudo-filesystems (such as procfs).  They simplify common tasks,
 *    without enforcing the filesystem to hand over management to GFS.  The
 *    routines covered are:
 *
 *	gfs_readdir_init()
 *	gfs_readdir_emit()
 *	gfs_readdir_emitn()
 *	gfs_readdir_pred()
 *	gfs_readdir_fini()
 *	gfs_lookup_dot()
 *
 * 2) Complete GFS management
 *
 *    These routines take a more active role in management of the
 *    pseudo-filesystem.  They handle the relationship between vnode private
 *    data and VFS data, as well as the relationship between vnodes in the
 *    directory hierarchy.
 *
 *    In order to use these interfaces, the first member of every private
 *    v_data must be a gfs_file_t or a gfs_dir_t.  This hands over all control
 *    to GFS.
 *
 * 	gfs_file_create()
 * 	gfs_dir_create()
 * 	gfs_root_create()
 *
 *	gfs_file_inactive()
 *	gfs_dir_inactive()
 *	gfs_dir_lookup()
 *	gfs_dir_readdir()
 *
 * 	gfs_vop_inactive()
 * 	gfs_vop_lookup()
 * 	gfs_vop_readdir()
 * 	gfs_vop_map()
 *
 * 3) Single File pseudo-filesystems
 *
 *    This routine creates a rooted file to be overlayed ontop of another
 *    file in the physical filespace.
 *
 *    Note that the parent is NULL (actually the vfs), but there is nothing
 *    technically keeping such a file from utilizing the "Complete GFS
 *    management" set of routines.
 *
 * 	gfs_root_create_file()
 */

/*
 * Low level directory routines
 *
 * These routines provide some simple abstractions for reading directories.
 * They are designed to be used by existing pseudo filesystems (namely procfs)
 * that already have a complicated management infrastructure.
 */

/*
 * gfs_readdir_init: initiate a generic readdir
 *   st		- a pointer to an uninitialized gfs_readdir_state_t structure
 *   name_max	- the directory's maximum file name length
 *   ureclen	- the exported file-space record length (1 for non-legacy FSs)
 *   uiop	- the uiop passed to readdir
 *   parent	- the parent directory's inode
 *   self	- this directory's inode
 *
 * Returns 0 or a non-zero errno.
 *
 * Typical VOP_READDIR usage of gfs_readdir_*:
 *
 *	if ((error = gfs_readdir_init(...)) != 0)
 *		return (error);
 *	eof = 0;
 *	while ((error = gfs_readdir_pred(..., &voffset)) != 0) {
 *		if (!consumer_entry_at(voffset))
 *			voffset = consumer_next_entry(voffset);
 *		if (consumer_eof(voffset)) {
 *			eof = 1
 *			break;
 *		}
 *		if ((error = gfs_readdir_emit(..., voffset,
 *		    consumer_ino(voffset), consumer_name(voffset))) != 0)
 *			break;
 *	}
 *	return (gfs_readdir_fini(..., error, eofp, eof));
 *
 * As you can see, a zero result from gfs_readdir_pred() or
 * gfs_readdir_emit() indicates that processing should continue,
 * whereas a non-zero result indicates that the loop should terminate.
 * Most consumers need do nothing more than let gfs_readdir_fini()
 * determine what the cause of failure was and return the appropriate
 * value.
 */
int
gfs_readdir_init(gfs_readdir_state_t *st, int name_max, int ureclen,
    uio_t *uiop, ino64_t parent, ino64_t self)
{
	if (uiop->uio_loffset < 0 || uiop->uio_resid <= 0 ||
	    (uiop->uio_loffset % ureclen) != 0)
		return (EINVAL);

	st->grd_ureclen = ureclen;
	st->grd_oresid = uiop->uio_resid;
	st->grd_namlen = name_max;
	st->grd_dirent = kmem_zalloc(DIRENT64_RECLEN(st->grd_namlen), KM_SLEEP);
	st->grd_parent = parent;
	st->grd_self = self;

	return (0);
}

/*
 * gfs_readdir_emit_int: internal routine to emit directory entry
 *
 *   st		- the current readdir state, which must have d_ino and d_name
 *                set
 *   uiop	- caller-supplied uio pointer
 *   next	- the offset of the next entry
 */
static int
gfs_readdir_emit_int(gfs_readdir_state_t *st, uio_t *uiop, offset_t next,
    int *ncookies, u_long **cookies)
{
	int reclen, namlen;

	namlen = strlen(st->grd_dirent->d_name);
	reclen = DIRENT64_RECLEN(namlen);

	if (reclen > uiop->uio_resid) {
		/*
		 * Error if no entries were returned yet
		 */
		if (uiop->uio_resid == st->grd_oresid)
			return (EINVAL);
		return (-1);
	}

	st->grd_dirent->d_reclen = (ushort_t)reclen;
	st->grd_dirent->d_namlen = namlen;
	/* TODO: d_type */

	if (uiomove((caddr_t)st->grd_dirent, reclen, UIO_READ, uiop))
		return (EFAULT);

	uiop->uio_loffset = next;
	if (*cookies != NULL) {
		**cookies = next;
		(*cookies)++;
		(*ncookies)--;
		KASSERT(*ncookies >= 0, ("ncookies=%d", *ncookies));
	}

	return (0);
}

/*
 * gfs_readdir_emit: emit a directory entry
 *   voff       - the virtual offset (obtained from gfs_readdir_pred)
 *   ino        - the entry's inode
 *   name       - the entry's name
 *
 * Returns a 0 on success, a non-zero errno on failure, or -1 if the
 * readdir loop should terminate.  A non-zero result (either errno or
 * -1) from this function is typically passed directly to
 * gfs_readdir_fini().
 */
int
gfs_readdir_emit(gfs_readdir_state_t *st, uio_t *uiop, offset_t voff,
    ino64_t ino, const char *name, int *ncookies, u_long **cookies)
{
	offset_t off = (voff + 2) * st->grd_ureclen;

	st->grd_dirent->d_ino = ino;
	(void) strncpy(st->grd_dirent->d_name, name, st->grd_namlen);
	/* TODO: d_type */

	/*
	 * Inter-entry offsets are invalid, so we assume a record size of
	 * grd_ureclen and explicitly set the offset appropriately.
	 */
	return (gfs_readdir_emit_int(st, uiop, off + st->grd_ureclen, ncookies,
	    cookies));
}

/*
 * gfs_readdir_pred: readdir loop predicate
 *   voffp - a pointer in which the next virtual offset should be stored
 *
 * Returns a 0 on success, a non-zero errno on failure, or -1 if the
 * readdir loop should terminate.  A non-zero result (either errno or
 * -1) from this function is typically passed directly to
 * gfs_readdir_fini().
 */
int
gfs_readdir_pred(gfs_readdir_state_t *st, uio_t *uiop, offset_t *voffp,
    int *ncookies, u_long **cookies)
{
	offset_t off, voff;
	int error;

top:
	if (uiop->uio_resid <= 0)
		return (-1);

	off = uiop->uio_loffset / st->grd_ureclen;
	voff = off - 2;
	if (off == 0) {
		if ((error = gfs_readdir_emit(st, uiop, voff, st->grd_self,
		    ".", ncookies, cookies)) == 0)
			goto top;
	} else if (off == 1) {
		if ((error = gfs_readdir_emit(st, uiop, voff, st->grd_parent,
		    "..", ncookies, cookies)) == 0)
			goto top;
	} else {
		*voffp = voff;
		return (0);
	}

	return (error);
}

/*
 * gfs_readdir_fini: generic readdir cleanup
 *   error	- if positive, an error to return
 *   eofp	- the eofp passed to readdir
 *   eof	- the eof value
 *
 * Returns a 0 on success, a non-zero errno on failure.  This result
 * should be returned from readdir.
 */
int
gfs_readdir_fini(gfs_readdir_state_t *st, int error, int *eofp, int eof)
{
	kmem_free(st->grd_dirent, DIRENT64_RECLEN(st->grd_namlen));
	if (error > 0)
		return (error);
	if (eofp)
		*eofp = eof;
	return (0);
}

/*
 * gfs_lookup_dot
 *
 * Performs a basic check for "." and ".." directory entries.
 */
int
gfs_lookup_dot(vnode_t **vpp, vnode_t *dvp, vnode_t *pvp, const char *nm)
{
	if (*nm == '\0' || strcmp(nm, ".") == 0) {
		VN_HOLD(dvp);
		*vpp = dvp;
		return (0);
	} else if (strcmp(nm, "..") == 0) {
		if (pvp == NULL) {
			ASSERT(dvp->v_flag & VROOT);
			VN_HOLD(dvp);
			*vpp = dvp;
		} else {
			VN_HOLD(pvp);
			*vpp = pvp;
		}
		vn_lock(*vpp, LK_EXCLUSIVE | LK_RETRY, curthread);
		return (0);
	}

	return (-1);
}

/*
 * gfs_file_create(): create a new GFS file
 *
 *   size	- size of private data structure (v_data)
 *   pvp	- parent vnode (GFS directory)
 *   ops	- vnode operations vector
 *
 * In order to use this interface, the parent vnode must have been created by
 * gfs_dir_create(), and the private data stored in v_data must have a
 * 'gfs_file_t' as its first field.
 *
 * Given these constraints, this routine will automatically:
 *
 * 	- Allocate v_data for the vnode
 * 	- Initialize necessary fields in the vnode
 * 	- Hold the parent
 */
vnode_t *
gfs_file_create(size_t size, vnode_t *pvp, vfs_t *vfsp, vnodeops_t *ops)
{
	gfs_file_t *fp;
	vnode_t *vp;
	int error;

	/*
	 * Allocate vnode and internal data structure
	 */
	fp = kmem_zalloc(size, KM_SLEEP);
	error = getnewvnode("zfs", vfsp, ops, &vp);
	ASSERT(error == 0);
	vp->v_data = (caddr_t)fp;

	/*
	 * Set up various pointers
	 */
	fp->gfs_vnode = vp;
	fp->gfs_parent = pvp;
	fp->gfs_size = size;
	fp->gfs_type = GFS_FILE;

	error = insmntque(vp, vfsp);
	KASSERT(error == 0, ("insmntque() failed: error %d", error));

	/*
	 * Initialize vnode and hold parent.
	 */
	if (pvp)
		VN_HOLD(pvp);

	return (vp);
}

/*
 * gfs_dir_create: creates a new directory in the parent
 *
 *   size	- size of private data structure (v_data)
 *   pvp	- parent vnode (GFS directory)
 *   ops	- vnode operations vector
 *   entries	- NULL-terminated list of static entries (if any)
 *   maxlen	- maximum length of a directory entry
 *   readdir_cb	- readdir callback (see gfs_dir_readdir)
 *   inode_cb	- inode callback (see gfs_dir_readdir)
 *   lookup_cb	- lookup callback (see gfs_dir_lookup)
 *
 * In order to use this function, the first member of the private vnode
 * structure (v_data) must be a gfs_dir_t.  For each directory, there are
 * static entries, defined when the structure is initialized, and dynamic
 * entries, retrieved through callbacks.
 *
 * If a directory has static entries, then it must supply a inode callback,
 * which will compute the inode number based on the parent and the index.
 * For a directory with dynamic entries, the caller must supply a readdir
 * callback and a lookup callback.  If a static lookup fails, we fall back to
 * the supplied lookup callback, if any.
 *
 * This function also performs the same initialization as gfs_file_create().
 */
vnode_t *
gfs_dir_create(size_t struct_size, vnode_t *pvp, vfs_t *vfsp, vnodeops_t *ops,
    gfs_dirent_t *entries, gfs_inode_cb inode_cb, int maxlen,
    gfs_readdir_cb readdir_cb, gfs_lookup_cb lookup_cb)
{
	vnode_t *vp;
	gfs_dir_t *dp;
	gfs_dirent_t *de;

	vp = gfs_file_create(struct_size, pvp, vfsp, ops);
	vp->v_type = VDIR;

	dp = vp->v_data;
	dp->gfsd_file.gfs_type = GFS_DIR;
	dp->gfsd_maxlen = maxlen;

	if (entries != NULL) {
		for (de = entries; de->gfse_name != NULL; de++)
			dp->gfsd_nstatic++;

		dp->gfsd_static = kmem_alloc(
		    dp->gfsd_nstatic * sizeof (gfs_dirent_t), KM_SLEEP);
		bcopy(entries, dp->gfsd_static,
		    dp->gfsd_nstatic * sizeof (gfs_dirent_t));
	}

	dp->gfsd_readdir = readdir_cb;
	dp->gfsd_lookup = lookup_cb;
	dp->gfsd_inode = inode_cb;

	mutex_init(&dp->gfsd_lock, NULL, MUTEX_DEFAULT, NULL);

	return (vp);
}

/*
 * gfs_root_create(): create a root vnode for a GFS filesystem
 *
 * Similar to gfs_dir_create(), this creates a root vnode for a filesystem.  The
 * only difference is that it takes a vfs_t instead of a vnode_t as its parent.
 */
vnode_t *
gfs_root_create(size_t size, vfs_t *vfsp, vnodeops_t *ops, ino64_t ino,
    gfs_dirent_t *entries, gfs_inode_cb inode_cb, int maxlen,
    gfs_readdir_cb readdir_cb, gfs_lookup_cb lookup_cb)
{
	vnode_t *vp;

	VFS_HOLD(vfsp);
	vp = gfs_dir_create(size, NULL, vfsp, ops, entries, inode_cb,
	    maxlen, readdir_cb, lookup_cb);
	/* Manually set the inode */
	((gfs_file_t *)vp->v_data)->gfs_ino = ino;
	vp->v_flag |= VROOT;

	return (vp);
}

/*
 * gfs_file_inactive()
 *
 * Called from the VOP_INACTIVE() routine.  If necessary, this routine will
 * remove the given vnode from the parent directory and clean up any references
 * in the VFS layer.
 *
 * If the vnode was not removed (due to a race with vget), then NULL is
 * returned.  Otherwise, a pointer to the private data is returned.
 */
void *
gfs_file_inactive(vnode_t *vp)
{
	int i;
	gfs_dirent_t *ge = NULL;
	gfs_file_t *fp = vp->v_data;
	gfs_dir_t *dp = NULL;
	void *data;

	if (fp->gfs_parent == NULL)
		goto found;

	dp = fp->gfs_parent->v_data;

	/*
	 * First, see if this vnode is cached in the parent.
	 */
	gfs_dir_lock(dp);

	/*
	 * Find it in the set of static entries.
	 */
	for (i = 0; i < dp->gfsd_nstatic; i++)  {
		ge = &dp->gfsd_static[i];

		if (ge->gfse_vnode == vp)
			goto found;
	}

	/*
	 * If 'ge' is NULL, then it is a dynamic entry.
	 */
	ge = NULL;

found:
	VI_LOCK(vp);
	ASSERT(vp->v_count < 2);
	/*
	 * Really remove this vnode
	 */
	data = vp->v_data;
	if (ge != NULL) {
		/*
		 * If this was a statically cached entry, simply set the
		 * cached vnode to NULL.
		 */
		ge->gfse_vnode = NULL;
	}
	if (vp->v_count == 1) {
		vp->v_usecount--;
		vdropl(vp);
	} else {
		VI_UNLOCK(vp);
	}

	/*
	 * Free vnode and release parent
	 */
	if (fp->gfs_parent) {
		gfs_dir_unlock(dp);
		VI_LOCK(fp->gfs_parent);
		fp->gfs_parent->v_usecount--;
		VI_UNLOCK(fp->gfs_parent);
	} else {
		ASSERT(vp->v_vfsp != NULL);
		VFS_RELE(vp->v_vfsp);
	}

	return (data);
}

/*
 * gfs_dir_inactive()
 *
 * Same as above, but for directories.
 */
void *
gfs_dir_inactive(vnode_t *vp)
{
	gfs_dir_t *dp;

	ASSERT(vp->v_type == VDIR);

	if ((dp = gfs_file_inactive(vp)) != NULL) {
		mutex_destroy(&dp->gfsd_lock);
		if (dp->gfsd_nstatic)
			kmem_free(dp->gfsd_static,
			    dp->gfsd_nstatic * sizeof (gfs_dirent_t));
	}

	return (dp);
}

/*
 * gfs_dir_lookup()
 *
 * Looks up the given name in the directory and returns the corresponding vnode,
 * if found.
 *
 * First, we search statically defined entries, if any.  If a match is found,
 * and GFS_CACHE_VNODE is set and the vnode exists, we simply return the
 * existing vnode.  Otherwise, we call the static entry's callback routine,
 * caching the result if necessary.
 *
 * If no static entry is found, we invoke the lookup callback, if any.  The
 * arguments to this callback are:
 *
 *	int gfs_lookup_cb(vnode_t *pvp, const char *nm, vnode_t **vpp);
 *
 *	pvp	- parent vnode
 *	nm	- name of entry
 *	vpp	- pointer to resulting vnode
 *
 * 	Returns 0 on success, non-zero on error.
 */
int
gfs_dir_lookup(vnode_t *dvp, const char *nm, vnode_t **vpp)
{
	int i;
	gfs_dirent_t *ge;
	vnode_t *vp;
	gfs_dir_t *dp = dvp->v_data;
	int ret = 0;

	ASSERT(dvp->v_type == VDIR);

	if (gfs_lookup_dot(vpp, dvp, dp->gfsd_file.gfs_parent, nm) == 0)
		return (0);

	gfs_dir_lock(dp);

	/*
	 * Search static entries.
	 */
	for (i = 0; i < dp->gfsd_nstatic; i++) {
		ge = &dp->gfsd_static[i];

		if (strcmp(ge->gfse_name, nm) == 0) {
			if (ge->gfse_vnode) {
				ASSERT(ge->gfse_flags & GFS_CACHE_VNODE);
				vp = ge->gfse_vnode;
				VN_HOLD(vp);
				goto out;
			}

			/*
			 * We drop the directory lock, as the constructor will
			 * need to do KM_SLEEP allocations.  If we return from
			 * the constructor only to find that a parallel
			 * operation has completed, and GFS_CACHE_VNODE is set
			 * for this entry, we discard the result in favor of the
			 * cached vnode.
			 */
			gfs_dir_unlock(dp);
			vp = ge->gfse_ctor(dvp);
			gfs_dir_lock(dp);

			((gfs_file_t *)vp->v_data)->gfs_index = i;

			/* Set the inode according to the callback. */
			((gfs_file_t *)vp->v_data)->gfs_ino =
			    dp->gfsd_inode(dvp, i);

			if (ge->gfse_flags & GFS_CACHE_VNODE) {
				if (ge->gfse_vnode == NULL) {
					ge->gfse_vnode = vp;
				} else {
					/*
					 * A parallel constructor beat us to it;
					 * return existing vnode.  We have to be
					 * careful because we can't release the
					 * current vnode while holding the
					 * directory lock; its inactive routine
					 * will try to lock this directory.
					 */
					vnode_t *oldvp = vp;
					vp = ge->gfse_vnode;
					VN_HOLD(vp);

					gfs_dir_unlock(dp);
					VN_RELE(oldvp);
					gfs_dir_lock(dp);
				}
			}

			goto out;
		}
	}

	/*
	 * See if there is a dynamic constructor.
	 */
	if (dp->gfsd_lookup) {
		ino64_t ino;
		gfs_file_t *fp;

		/*
		 * Once again, drop the directory lock, as the lookup routine
		 * will need to allocate memory, or otherwise deadlock on this
		 * directory.
		 */
		gfs_dir_unlock(dp);
		ret = dp->gfsd_lookup(dvp, nm, &vp, &ino);
		gfs_dir_lock(dp);
		if (ret != 0)
			goto out;

		fp = (gfs_file_t *)vp->v_data;
		fp->gfs_index = -1;
		fp->gfs_ino = ino;
	} else {
		/*
		 * No static entry found, and there is no lookup callback, so
		 * return ENOENT.
		 */
		ret = ENOENT;
	}

out:
	gfs_dir_unlock(dp);

	if (ret == 0)
		*vpp = vp;
	else
		*vpp = NULL;

	return (ret);
}

/*
 * gfs_dir_readdir: does a readdir() on the given directory
 *
 *    dvp	- directory vnode
 *    uiop	- uio structure
 *    eofp	- eof pointer
 *    data	- arbitrary data passed to readdir callback
 *
 * This routine does all the readdir() dirty work.  Even so, the caller must
 * supply two callbacks in order to get full compatibility.
 *
 * If the directory contains static entries, an inode callback must be
 * specified.  This avoids having to create every vnode and call VOP_GETATTR()
 * when reading the directory.  This function has the following arguments:
 *
 *	ino_t gfs_inode_cb(vnode_t *vp, int index);
 *
 * 	vp	- vnode for the directory
 * 	index	- index in original gfs_dirent_t array
 *
 * 	Returns the inode number for the given entry.
 *
 * For directories with dynamic entries, a readdir callback must be provided.
 * This is significantly more complex, thanks to the particulars of
 * VOP_READDIR().
 *
 *	int gfs_readdir_cb(vnode_t *vp, struct dirent64 *dp, int *eofp,
 *	    offset_t *off, offset_t *nextoff, void *data)
 *
 *	vp	- directory vnode
 *	dp	- directory entry, sized according to maxlen given to
 *		  gfs_dir_create().  callback must fill in d_name and
 *		  d_ino.
 *	eofp	- callback must set to 1 when EOF has been reached
 *	off	- on entry, the last offset read from the directory.  Callback
 *		  must set to the offset of the current entry, typically left
 *		  untouched.
 *	nextoff	- callback must set to offset of next entry.  Typically
 *		  (off + 1)
 *	data	- caller-supplied data
 *
 *	Return 0 on success, or error on failure.
 */
int
gfs_dir_readdir(vnode_t *dvp, uio_t *uiop, int *eofp, int *ncookies,
    u_long **cookies, void *data)
{
	gfs_readdir_state_t gstate;
	int error, eof = 0;
	ino64_t ino, pino;
	offset_t off, next;
	gfs_dir_t *dp = dvp->v_data;

	ino = dp->gfsd_file.gfs_ino;

	if (dp->gfsd_file.gfs_parent == NULL)
		pino = ino;		/* root of filesystem */
	else
		pino = ((gfs_file_t *)
		    (dp->gfsd_file.gfs_parent->v_data))->gfs_ino;

	if ((error = gfs_readdir_init(&gstate, dp->gfsd_maxlen, 1, uiop,
	    pino, ino)) != 0)
		return (error);

	while ((error = gfs_readdir_pred(&gstate, uiop, &off, ncookies,
	    cookies)) == 0 && !eof) {

		if (off >= 0 && off < dp->gfsd_nstatic) {
			ino = dp->gfsd_inode(dvp, off);

			if ((error = gfs_readdir_emit(&gstate, uiop,
			    off, ino, dp->gfsd_static[off].gfse_name, ncookies,
			    cookies)) != 0)
				break;

		} else if (dp->gfsd_readdir) {
			off -= dp->gfsd_nstatic;

			if ((error = dp->gfsd_readdir(dvp,
			    gstate.grd_dirent, &eof, &off, &next,
			    data)) != 0 || eof)
				break;

			off += dp->gfsd_nstatic + 2;
			next += dp->gfsd_nstatic + 2;

			if ((error = gfs_readdir_emit_int(&gstate, uiop,
			    next, ncookies, cookies)) != 0)
				break;
		} else {
			/*
			 * Offset is beyond the end of the static entries, and
			 * we have no dynamic entries.  Set EOF.
			 */
			eof = 1;
		}
	}

	return (gfs_readdir_fini(&gstate, error, eofp, eof));
}

/*
 * gfs_vop_readdir: VOP_READDIR() entry point
 *
 * For use directly in vnode ops table.  Given a GFS directory, calls
 * gfs_dir_readdir() as necessary.
 */
/* ARGSUSED */
int
gfs_vop_readdir(ap)
	struct vop_readdir_args /* {
		struct vnode *a_vp;
		struct uio *a_uio;
		struct ucred *a_cred;
		int *a_eofflag;
		int *ncookies;
		u_long **a_cookies;
	} */ *ap;
{
	vnode_t *vp = ap->a_vp;
	uio_t *uiop = ap->a_uio;
	int *eofp = ap->a_eofflag;
	int ncookies = 0;
	u_long *cookies = NULL;
	int error;

	if (ap->a_ncookies) {
		/*
		 * Minimum entry size is dirent size and 1 byte for a file name.
		 */
		ncookies = uiop->uio_resid / (sizeof(struct dirent) - sizeof(((struct dirent *)NULL)->d_name) + 1);
		cookies = malloc(ncookies * sizeof(u_long), M_TEMP, M_WAITOK);
		*ap->a_cookies = cookies;
		*ap->a_ncookies = ncookies;
	}

	error = gfs_dir_readdir(vp, uiop, eofp, &ncookies, &cookies, NULL);

	if (error == 0) {
		/* Subtract unused cookies */
		if (ap->a_ncookies)
			*ap->a_ncookies -= ncookies;
	} else if (ap->a_ncookies) {
		free(*ap->a_cookies, M_TEMP);
		*ap->a_cookies = NULL;
		*ap->a_ncookies = 0;
	}

	return (error);
}

/*
 * gfs_vop_inactive: VOP_INACTIVE() entry point
 *
 * Given a vnode that is a GFS file or directory, call gfs_file_inactive() or
 * gfs_dir_inactive() as necessary, and kmem_free()s associated private data.
 */
/* ARGSUSED */
int
gfs_vop_inactive(ap)
	struct vop_inactive_args /* {
		struct vnode *a_vp;
		struct thread *a_td;
	} */ *ap;
{
	vnode_t *vp = ap->a_vp;
	gfs_file_t *fp = vp->v_data;
	void *data;

	if (fp->gfs_type == GFS_DIR)
		data = gfs_dir_inactive(vp);
	else
		data = gfs_file_inactive(vp);

	if (data != NULL)
		kmem_free(data, fp->gfs_size);
	vp->v_data = NULL;
	return (0);
}
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