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path: root/xlators/cluster/afr/src/afr-self-heal-data.c
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/*
  Copyright (c) 2013 Red Hat, Inc. <http://www.redhat.com>
  This file is part of GlusterFS.

  This file is licensed to you under your choice of the GNU Lesser
  General Public License, version 3 or any later version (LGPLv3 or
  later), or the GNU General Public License, version 2 (GPLv2), in all
  cases as published by the Free Software Foundation.
*/


#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif

#include "afr.h"
#include "afr-self-heal.h"
#include "byte-order.h"
#include "protocol-common.h"
#include "afr-messages.h"

enum {
	AFR_SELFHEAL_DATA_FULL = 0,
	AFR_SELFHEAL_DATA_DIFF,
};


#define HAS_HOLES(i) ((i->ia_blocks * 512) < (i->ia_size))
static int
__checksum_cbk (call_frame_t *frame, void *cookie, xlator_t *this,
		int op_ret, int op_errno, uint32_t weak, uint8_t *strong,
		dict_t *xdata)
{
	afr_local_t *local = NULL;
        struct afr_reply *replies = NULL;
	int i = (long) cookie;

	local = frame->local;
        replies = local->replies;

	replies[i].valid = 1;
	replies[i].op_ret = op_ret;
	replies[i].op_errno = op_errno;
        if (xdata)
                replies[i].buf_has_zeroes = dict_get_str_boolean (xdata,
                                                   "buf-has-zeroes", _gf_false);
	if (strong)
		memcpy (local->replies[i].checksum, strong, MD5_DIGEST_LENGTH);

	syncbarrier_wake (&local->barrier);
	return 0;
}


static int
attr_cbk (call_frame_t *frame, void *cookie, xlator_t *this,
	  int op_ret, int op_errno, struct iatt *pre, struct iatt *post,
	  dict_t *xdata)
{
	int i = (long) cookie;
	afr_local_t *local = NULL;

	local = frame->local;

	local->replies[i].valid = 1;
	local->replies[i].op_ret = op_ret;
	local->replies[i].op_errno = op_errno;
	if (pre)
		local->replies[i].prestat = *pre;
	if (post)
		local->replies[i].poststat = *post;
	if (xdata)
		local->replies[i].xdata = dict_ref (xdata);

	syncbarrier_wake (&local->barrier);

	return 0;
}


static gf_boolean_t
__afr_can_skip_data_block_heal (call_frame_t *frame, xlator_t *this, fd_t *fd,
                                int source, unsigned char *healed_sinks,
				off_t offset, size_t size,
                                struct iatt *poststat)
{
	afr_private_t *priv = NULL;
	afr_local_t *local = NULL;
	unsigned char *wind_subvols = NULL;
        gf_boolean_t checksum_match = _gf_true;
        dict_t *xdata = NULL;
	int i = 0;

	priv = this->private;
	local = frame->local;
        xdata = dict_new();
        if (xdata)
                i = dict_set_int32 (xdata, "check-zero-filled", 1);
	wind_subvols = alloca0 (priv->child_count);
	for (i = 0; i < priv->child_count; i++) {
		if (i == source || healed_sinks[i])
			wind_subvols[i] = 1;
	}

	AFR_ONLIST (wind_subvols, frame, __checksum_cbk, rchecksum, fd,
		    offset, size, xdata);
        if (xdata)
                dict_unref (xdata);

	if (!local->replies[source].valid || local->replies[source].op_ret != 0)
		return _gf_false;

	for (i = 0; i < priv->child_count; i++) {
		if (i == source)
			continue;
                if (local->replies[i].valid) {
                        if (memcmp (local->replies[source].checksum,
                                    local->replies[i].checksum,
                                    MD5_DIGEST_LENGTH)) {
                                checksum_match = _gf_false;
                                break;
                        }
                }
	}

        if (checksum_match) {
                if (HAS_HOLES (poststat))
                        return _gf_true;

                /* For non-sparse files, we might be better off writing the
                 * zeroes to sinks to avoid mismatch of disk-usage in bricks. */
                if (local->replies[source].buf_has_zeroes)
                        return _gf_false;
                else
                        return _gf_true;
        }

        return _gf_false;
}


static gf_boolean_t
__afr_is_sink_zero_filled (xlator_t *this, fd_t *fd, size_t size,
                           off_t offset, int sink)
{
        afr_private_t *priv   = NULL;
        struct iobref *iobref = NULL;
        struct iovec  *iovec  = NULL;
        int            count  = 0;
        int            ret    = 0;
        gf_boolean_t   zero_filled   = _gf_false;

        priv = this->private;
        ret = syncop_readv (priv->children[sink], fd, size, offset, 0, &iovec,
                            &count, &iobref, NULL, NULL);
        if (ret < 0)
                goto out;
        ret = iov_0filled (iovec, count);
        if (!ret)
                zero_filled = _gf_true;
out:
        if (iovec)
                GF_FREE (iovec);
        if (iobref)
                iobref_unref (iobref);
        return zero_filled;
}

static int
__afr_selfheal_data_read_write (call_frame_t *frame, xlator_t *this, fd_t *fd,
				int source, unsigned char *healed_sinks,
				off_t offset, size_t size,
				struct afr_reply *replies, int type)
{
	struct iovec *iovec = NULL;
	int count = 0;
	struct iobref *iobref = NULL;
	int ret = 0;
	int i = 0;
	afr_private_t *priv = NULL;

	priv = this->private;

	ret = syncop_readv (priv->children[source], fd, size, offset, 0,
			    &iovec, &count, &iobref, NULL, NULL);
	if (ret <= 0)
		return ret;

	for (i = 0; i < priv->child_count; i++) {
		if (!healed_sinks[i])
			continue;

		/*
		 * TODO: Use fiemap() and discard() to heal holes
		 * in the future.
		 *
		 * For now,
		 *
		 * - if the source had any holes at all,
		 * AND
		 * - if we are writing past the original file size
		 *   of the sink
		 * AND
		 * - is NOT the last block of the source file. if
		 *   the block contains EOF, it has to be written
		 *   in order to set the file size even if the
		 *   last block is 0-filled.
		 * AND
		 * - if the read buffer is filled with only 0's
		 *
		 * then, skip writing to this source. We don't depend
		 * on the write to happen to update the size as we
		 * have performed an ftruncate() upfront anyways.
		 */
#define is_last_block(o,b,s) ((s >= o) && (s <= (o + b)))
		if (HAS_HOLES ((&replies[source].poststat)) &&
		    offset >= replies[i].poststat.ia_size &&
		    !is_last_block (offset, size,
				    replies[source].poststat.ia_size) &&
		    (iov_0filled (iovec, count) == 0))
			continue;

                /* Avoid filling up sparse regions of the sink with 0-filled
                 * writes.*/
                if (type == AFR_SELFHEAL_DATA_FULL &&
                    HAS_HOLES ((&replies[source].poststat)) &&
                    ((offset + size) <= replies[i].poststat.ia_size) &&
                    (iov_0filled (iovec, count) == 0) &&
                    __afr_is_sink_zero_filled (this, fd, size, offset, i)) {
                                continue;
                }

		ret = syncop_writev (priv->children[i], fd, iovec, count,
				     offset, iobref, 0, NULL, NULL);
		if (ret != iov_length (iovec, count)) {
			/* write() failed on this sink. unset the corresponding
			   member in sinks[] (which is healed_sinks[] in the
			   caller) so that this server does NOT get considered
			   as successfully healed.
			*/
			healed_sinks[i] = 0;
		}
	}
        if (iovec)
                GF_FREE (iovec);
	if (iobref)
		iobref_unref (iobref);

	return ret;
}

static int
afr_selfheal_data_block (call_frame_t *frame, xlator_t *this, fd_t *fd,
			 int source, unsigned char *healed_sinks, off_t offset,
			 size_t size, int type, struct afr_reply *replies)
{
	int ret = -1;
	int sink_count = 0;
	afr_private_t *priv = NULL;
	unsigned char *data_lock = NULL;

	priv = this->private;
	sink_count = AFR_COUNT (healed_sinks, priv->child_count);
	data_lock = alloca0 (priv->child_count);

	ret = afr_selfheal_inodelk (frame, this, fd->inode, this->name,
				    offset, size, data_lock);
	{
		if (ret < sink_count) {
			ret = -ENOTCONN;
			goto unlock;
		}

		if (type == AFR_SELFHEAL_DATA_DIFF &&
		    __afr_can_skip_data_block_heal (frame, this, fd, source,
					            healed_sinks, offset, size,
                                                   &replies[source].poststat)) {
			ret = 0;
			goto unlock;
		}

		ret = __afr_selfheal_data_read_write (frame, this, fd, source,
						      healed_sinks, offset, size,
						      replies, type);
	}
unlock:
	afr_selfheal_uninodelk (frame, this, fd->inode, this->name,
				offset, size, data_lock);
	return ret;
}



static int
afr_selfheal_data_fsync (call_frame_t *frame, xlator_t *this, fd_t *fd,
			 unsigned char *healed_sinks)
{
	afr_local_t *local = NULL;
	afr_private_t *priv = NULL;
	int i = 0;

	local = frame->local;
	priv = this->private;

	AFR_ONLIST (healed_sinks, frame, attr_cbk, fsync, fd, 0, NULL);

	for (i = 0; i < priv->child_count; i++)
		if (healed_sinks[i] && local->replies[i].op_ret != 0)
			/* fsync() failed. Do NOT consider this server
			   as successfully healed. Mark it so.
			*/
			healed_sinks[i] = 0;
	return 0;
}


static int
afr_selfheal_data_restore_time (call_frame_t *frame, xlator_t *this,
				inode_t *inode, int source,
				unsigned char *healed_sinks,
				struct afr_reply *replies)
{
	loc_t loc = {0, };

	loc.inode = inode_ref (inode);
	gf_uuid_copy (loc.gfid, inode->gfid);

	AFR_ONLIST (healed_sinks, frame, attr_cbk, setattr, &loc,
		    &replies[source].poststat,
		    (GF_SET_ATTR_ATIME|GF_SET_ATTR_MTIME), NULL);

	loc_wipe (&loc);

	return 0;
}

static int
afr_data_self_heal_type_get (afr_private_t *priv, unsigned char *healed_sinks,
                             int source, struct afr_reply *replies)
{
        int type = AFR_SELFHEAL_DATA_FULL;
        int i = 0;

        if (priv->data_self_heal_algorithm == NULL) {
                type = AFR_SELFHEAL_DATA_FULL;
                for (i = 0; i < priv->child_count; i++) {
                        if (!healed_sinks[i] && i != source)
                                continue;
                        if (replies[i].poststat.ia_size) {
                                type = AFR_SELFHEAL_DATA_DIFF;
                                break;
                        }
                }
        } else if (strcmp (priv->data_self_heal_algorithm, "full") == 0) {
                type = AFR_SELFHEAL_DATA_FULL;
        } else if (strcmp (priv->data_self_heal_algorithm, "diff") == 0) {
                type = AFR_SELFHEAL_DATA_DIFF;
        }
        return type;
}

static int
afr_selfheal_data_do (call_frame_t *frame, xlator_t *this, fd_t *fd,
		      int source, unsigned char *healed_sinks,
		      struct afr_reply *replies)
{
	afr_private_t *priv = NULL;
	off_t off = 0;
	size_t block = 128 * 1024;
	int type = AFR_SELFHEAL_DATA_FULL;
	int ret = -1;
	call_frame_t *iter_frame = NULL;
        unsigned char arbiter_sink_status = 0;

	priv = this->private;
        if (priv->arbiter_count) {
                arbiter_sink_status = healed_sinks[ARBITER_BRICK_INDEX];
                healed_sinks[ARBITER_BRICK_INDEX] = 0;
        }

        type = afr_data_self_heal_type_get (priv, healed_sinks, source,
                                            replies);

	iter_frame = afr_copy_frame (frame);
	if (!iter_frame) {
                ret = -ENOMEM;
                goto out;
        }

	for (off = 0; off < replies[source].poststat.ia_size; off += block) {
                if (AFR_COUNT (healed_sinks, priv->child_count) == 0) {
                        ret = -ENOTCONN;
                        goto out;
                }

		ret = afr_selfheal_data_block (iter_frame, this, fd, source,
					       healed_sinks, off, block, type,
					       replies);
		if (ret < 0)
			goto out;

		AFR_STACK_RESET (iter_frame);
		if (iter_frame->local == NULL) {
		        ret = -ENOTCONN;
		        goto out;
                }
	}

	ret = afr_selfheal_data_fsync (frame, this, fd, healed_sinks);

out:
        if (arbiter_sink_status)
                healed_sinks[ARBITER_BRICK_INDEX] = arbiter_sink_status;

	if (iter_frame)
		AFR_STACK_DESTROY (iter_frame);
	return ret;
}


static int
__afr_selfheal_truncate_sinks (call_frame_t *frame, xlator_t *this,
			       fd_t *fd, unsigned char *healed_sinks,
			       uint64_t size)
{
	afr_local_t *local = NULL;
	afr_private_t *priv = NULL;
        unsigned char arbiter_sink_status = 0;
	int i = 0;

	local = frame->local;
	priv = this->private;

        if (priv->arbiter_count) {
                arbiter_sink_status = healed_sinks[ARBITER_BRICK_INDEX];
                healed_sinks[ARBITER_BRICK_INDEX] = 0;
        }

	AFR_ONLIST (healed_sinks, frame, attr_cbk, ftruncate, fd, size, NULL);

	for (i = 0; i < priv->child_count; i++)
		if (healed_sinks[i] && local->replies[i].op_ret == -1)
			/* truncate() failed. Do NOT consider this server
			   as successfully healed. Mark it so.
			*/
			healed_sinks[i] = 0;

        if (arbiter_sink_status)
                healed_sinks[ARBITER_BRICK_INDEX] = arbiter_sink_status;
	return 0;
}

gf_boolean_t
afr_has_source_witnesses (xlator_t *this, unsigned char *sources,
                          uint64_t *witness)
{
        int i = 0;
        afr_private_t *priv = NULL;

        priv = this->private;

        for (i = 0; i < priv->child_count; i++) {
                if (sources[i] && witness[i])
                        return _gf_true;
        }
        return _gf_false;
}

static gf_boolean_t
afr_does_size_mismatch (xlator_t *this, unsigned char *sources,
                        struct afr_reply *replies)
{
        int     i = 0;
        afr_private_t *priv = NULL;
        struct iatt *min = NULL;
        struct iatt *max = NULL;

        priv = this->private;

        for (i = 0; i < priv->child_count; i++) {
                if (!replies[i].valid)
                        continue;

                if (replies[i].op_ret < 0)
                        continue;

                if (!sources[i])
                        continue;

                if (AFR_IS_ARBITER_BRICK (priv, i) &&
                    (replies[i].poststat.ia_size == 0))
                        continue;

                if (!min)
                        min = &replies[i].poststat;

                if (!max)
                        max = &replies[i].poststat;

                if (min->ia_size > replies[i].poststat.ia_size)
                        min = &replies[i].poststat;

                if (max->ia_size < replies[i].poststat.ia_size)
                        max = &replies[i].poststat;
        }

        if (min && max) {
                if (min->ia_size != max->ia_size)
                        return _gf_true;
        }

        return _gf_false;
}

static void
afr_mark_biggest_witness_as_source (xlator_t *this, unsigned char *sources,
                                    uint64_t *witness)
{
        int i = 0;
        afr_private_t *priv = NULL;
        uint64_t biggest_witness = 0;

        priv = this->private;
        /* Find source with biggest witness count */
        for (i = 0; i < priv->child_count; i++) {
                if (!sources[i])
                        continue;
                if (biggest_witness < witness[i])
                        biggest_witness = witness[i];
        }

        /* Mark files with less witness count as not source */
        for (i = 0; i < priv->child_count; i++) {
                if (!sources[i])
                        continue;
                if (witness[i] < biggest_witness)
                        sources[i] = 0;
        }

        return;
}

/* This is a tie breaker function. Only one source be assigned here */
static void
afr_mark_newest_file_as_source (xlator_t *this, unsigned char *sources,
                                struct afr_reply *replies)
{
        int i = 0;
        afr_private_t *priv = NULL;
        int source = -1;
        uint32_t max_ctime = 0;

        priv = this->private;
        /* Find source with latest ctime */
        for (i = 0; i < priv->child_count; i++) {
                if (!sources[i])
                        continue;

                if (max_ctime <= replies[i].poststat.ia_ctime) {
                        source = i;
                        max_ctime = replies[i].poststat.ia_ctime;
                }
        }

        /* Only mark one of the files as source to break ties */
        memset (sources, 0, sizeof (*sources) * priv->child_count);
        sources[source] = 1;
}

static int
__afr_selfheal_data_finalize_source (call_frame_t *frame, xlator_t *this,
                                     unsigned char *sources,
                                     unsigned char *sinks,
				     unsigned char *healed_sinks,
				     unsigned char *locked_on,
				     struct afr_reply *replies,
                                     uint64_t *witness)
{
	int i = 0;
	afr_private_t *priv = NULL;
	int source = -1;
	int sources_count = 0;
	priv = this->private;

	sources_count = AFR_COUNT (sources, priv->child_count);

	if ((AFR_CMP (locked_on, healed_sinks, priv->child_count) == 0)
            || !sources_count) {
		/* split brain */
                source = afr_mark_split_brain_source_sinks (frame, this,
                                                            sources, sinks,
                                                            healed_sinks,
                                                            locked_on, replies,
                                                          AFR_DATA_TRANSACTION);
                if (source < 0)
                        return -EIO;
                return source;
	}

        /* No split brain at this point. If we were called from
         * afr_heal_splitbrain_file(), abort.*/
        if (afr_dict_contains_heal_op(frame))
                return -EIO;

        /* If there are no witnesses/size-mismatches on sources we are done*/
        if (!afr_does_size_mismatch (this, sources, replies) &&
            !afr_has_source_witnesses (this, sources, witness))
                goto out;

        afr_mark_largest_file_as_source (this, sources, replies);
        afr_mark_biggest_witness_as_source (this, sources, witness);
        afr_mark_newest_file_as_source (this, sources, replies);

out:
        afr_mark_active_sinks (this, sources, locked_on, healed_sinks);

        for (i = 0; i < priv->child_count; i++) {
                if (sources[i]) {
                        source = i;
                        break;
                }
        }
	return source;
}

/*
 * __afr_selfheal_data_prepare:
 *
 * This function inspects the on-disk xattrs and determines which subvols
 * are sources and sinks.
 *
 * The return value is the index of the subvolume to be used as the source
 * for self-healing, or -1 if no healing is necessary/split brain.
 */
int
__afr_selfheal_data_prepare (call_frame_t *frame, xlator_t *this,
                             inode_t *inode, unsigned char *locked_on,
                             unsigned char *sources, unsigned char *sinks,
                             unsigned char *healed_sinks,
			     struct afr_reply *replies, gf_boolean_t *pflag)
{
	int ret = -1;
	int source = -1;
	afr_private_t *priv = NULL;
        uint64_t *witness = NULL;

	priv = this->private;

	ret = afr_selfheal_unlocked_discover (frame, inode, inode->gfid,
					      replies);

        if (ret)
                return ret;

        witness = alloca0(priv->child_count * sizeof (*witness));
	ret = afr_selfheal_find_direction (frame, this, replies,
					   AFR_DATA_TRANSACTION,
					   locked_on, sources, sinks, witness,
                                           pflag);
	if (ret)
		return ret;

        /* Initialize the healed_sinks[] array optimistically to
           the intersection of to-be-healed (i.e sinks[]) and
           the list of servers which are up (i.e locked_on[]).
           As we encounter failures in the healing process, we
           will unmark the respective servers in the healed_sinks[]
           array.
        */
        AFR_INTERSECT (healed_sinks, sinks, locked_on, priv->child_count);

	source = __afr_selfheal_data_finalize_source (frame, this, sources,
                                                      sinks, healed_sinks,
                                                      locked_on, replies,
                                                      witness);
	if (source < 0)
		return -EIO;

	return source;
}


static int
__afr_selfheal_data (call_frame_t *frame, xlator_t *this, fd_t *fd,
		     unsigned char *locked_on)
{
	afr_private_t *priv = NULL;
	int ret = -1;
	unsigned char *sources = NULL;
	unsigned char *sinks = NULL;
	unsigned char *data_lock = NULL;
	unsigned char *healed_sinks = NULL;
	struct afr_reply *locked_replies = NULL;
	int source = -1;
        gf_boolean_t did_sh = _gf_true;
        gf_boolean_t is_arbiter_the_only_sink = _gf_false;

	priv = this->private;

	sources = alloca0 (priv->child_count);
	sinks = alloca0 (priv->child_count);
	healed_sinks = alloca0 (priv->child_count);
	data_lock = alloca0 (priv->child_count);

	locked_replies = alloca0 (sizeof (*locked_replies) * priv->child_count);

	ret = afr_selfheal_inodelk (frame, this, fd->inode, this->name, 0, 0,
				    data_lock);
	{
		if (ret < AFR_SH_MIN_PARTICIPANTS) {
                        gf_msg_debug (this->name, 0, "%s: Skipping "
                                      "self-heal as only %d number "
                                      "of subvolumes "
                                      "could be locked",
                                      uuid_utoa (fd->inode->gfid),
                                      ret);
			ret = -ENOTCONN;
			goto unlock;
		}

		ret = __afr_selfheal_data_prepare (frame, this, fd->inode,
                                                   data_lock, sources, sinks,
                                                   healed_sinks,
						   locked_replies,
                                                   NULL);
		if (ret < 0)
			goto unlock;

                if (AFR_COUNT(healed_sinks, priv->child_count) == 0) {
                        did_sh = _gf_false;
                        goto unlock;
                }

		source = ret;

                if (AFR_IS_ARBITER_BRICK(priv, source) &&
                    AFR_COUNT (sources, priv->child_count) == 1) {
                        did_sh = _gf_false;
                        goto unlock;
                }

                if (priv->arbiter_count &&
                    AFR_COUNT (healed_sinks, priv->child_count) == 1 &&
                    healed_sinks[ARBITER_BRICK_INDEX]) {
                        is_arbiter_the_only_sink = _gf_true;
                        goto restore_time;
                }

		ret = __afr_selfheal_truncate_sinks (frame, this, fd, healed_sinks,
						     locked_replies[source].poststat.ia_size);
		if (ret < 0)
			goto unlock;

		ret = 0;

	}
unlock:
	afr_selfheal_uninodelk (frame, this, fd->inode, this->name, 0, 0,
				data_lock);
        if (ret < 0)
		goto out;

        if (!did_sh)
                goto out;

	ret = afr_selfheal_data_do (frame, this, fd, source, healed_sinks,
				    locked_replies);
	if (ret)
                goto out;
restore_time:
	afr_selfheal_data_restore_time (frame, this, fd->inode, source,
					healed_sinks, locked_replies);

        if (!is_arbiter_the_only_sink) {
                ret = afr_selfheal_inodelk (frame, this, fd->inode, this->name,
                                            0, 0, data_lock);
                if (ret < AFR_SH_MIN_PARTICIPANTS) {
                        ret = -ENOTCONN;
                        did_sh = _gf_false;
                        goto skip_undo_pending;
                }
        }
        ret = afr_selfheal_undo_pending (frame, this, fd->inode,
                                         sources, sinks, healed_sinks,
                                         AFR_DATA_TRANSACTION,
                                         locked_replies, data_lock);
skip_undo_pending:
	afr_selfheal_uninodelk (frame, this, fd->inode, this->name, 0, 0,
				data_lock);
out:

        if (did_sh)
                afr_log_selfheal (fd->inode->gfid, this, ret, "data", source,
                                  healed_sinks);
        else
                ret = 1;

        if (locked_replies)
                afr_replies_wipe (locked_replies, priv->child_count);

	return ret;
}


int
afr_selfheal_data_open (xlator_t *this, inode_t *inode, fd_t **fd)
{
	int         ret    = 0;
        fd_t       *fd_tmp = NULL;
	loc_t       loc    = {0,};

	fd_tmp = fd_create (inode, 0);
	if (!fd_tmp)
		return -ENOMEM;

	loc.inode = inode_ref (inode);
	gf_uuid_copy (loc.gfid, inode->gfid);

	ret = syncop_open (this, &loc, O_RDWR|O_LARGEFILE, fd_tmp, NULL, NULL);
	if (ret < 0) {
		fd_unref (fd_tmp);
                loc_wipe (&loc);
                goto out;
	} else {
		fd_bind (fd_tmp);
	}

        *fd = fd_tmp;
out:
	return ret;
}

int
afr_selfheal_data (call_frame_t *frame, xlator_t *this, inode_t *inode)
{
	afr_private_t *priv = NULL;
	unsigned char *locked_on = NULL;
	int ret = 0;
	fd_t *fd = NULL;

	priv = this->private;

	ret = afr_selfheal_data_open (this, inode, &fd);
	if (!fd) {
                gf_msg_debug (this->name, -ret, "%s: Failed to open",
                              uuid_utoa (inode->gfid));
                return -EIO;
        }

	locked_on = alloca0 (priv->child_count);

	ret = afr_selfheal_tryinodelk (frame, this, inode, priv->sh_domain, 0, 0,
				       locked_on);
	{
		if (ret < AFR_SH_MIN_PARTICIPANTS) {
                        gf_msg_debug (this->name, 0, "%s: Skipping "
                                      "self-heal as only %d number of "
                                      "subvolumes could be locked",
                                      uuid_utoa (fd->inode->gfid),
                                ret);
			/* Either less than two subvols available, or another
			   selfheal (from another server) is in progress. Skip
			   for now in any case there isn't anything to do.
			*/
			ret = -ENOTCONN;
			goto unlock;
		}

		ret = __afr_selfheal_data (frame, this, fd, locked_on);
	}
unlock:
	afr_selfheal_uninodelk (frame, this, inode, priv->sh_domain, 0, 0, locked_on);

	if (fd)
		fd_unref (fd);

	return ret;
}