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path: root/xlators/cluster/afr/src/afr-self-heald.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.
*/


#include "afr.h"
#include "afr-self-heal.h"
#include "afr-self-heald.h"
#include "protocol-common.h"
#include "syncop-utils.h"
#include "afr-messages.h"

#define SHD_INODE_LRU_LIMIT          2048
#define AFR_EH_SPLIT_BRAIN_LIMIT     1024
#define AFR_STATISTICS_HISTORY_SIZE    50


#define ASSERT_LOCAL(this, healer)				\
	if (!afr_shd_is_subvol_local(this, healer->subvol)) {	\
		healer->local = _gf_false;			\
		if (safe_break (healer)) {			\
			break;					\
		} else {					\
			continue;				\
		}						\
	} else {						\
		healer->local = _gf_true;			\
	}


#define NTH_INDEX_HEALER(this, n) &((((afr_private_t *)this->private))->shd.index_healers[n])
#define NTH_FULL_HEALER(this, n) &((((afr_private_t *)this->private))->shd.full_healers[n])

char *
afr_subvol_name (xlator_t *this, int subvol)
{
	afr_private_t *priv = NULL;

	priv = this->private;
	if (subvol < 0 || subvol > priv->child_count)
		return NULL;

	return priv->children[subvol]->name;
}


void
afr_destroy_crawl_event_data (void *data)
{
        return;
}


void
afr_destroy_shd_event_data (void *data)
{
	shd_event_t *shd_event = data;

	if (!shd_event)
		return;
	GF_FREE (shd_event->path);

        return;
}


gf_boolean_t
afr_shd_is_subvol_local (xlator_t *this, int subvol)
{
	afr_private_t *priv    = NULL;
	gf_boolean_t  is_local = _gf_false;
        loc_t         loc      = {0, };

        loc.inode = this->itable->root;
        gf_uuid_copy (loc.gfid, loc.inode->gfid);
	priv = this->private;
        syncop_is_subvol_local(priv->children[subvol], &loc, &is_local);
        return is_local;
}


int
__afr_shd_healer_wait (struct subvol_healer *healer)
{
	afr_private_t *priv = NULL;
	struct timespec wait_till = {0, };
	int ret = 0;

	priv = healer->this->private;

disabled_loop:
	wait_till.tv_sec = time (NULL) + priv->shd.timeout;

	while (!healer->rerun) {
		ret = pthread_cond_timedwait (&healer->cond,
					      &healer->mutex,
					      &wait_till);
		if (ret == ETIMEDOUT)
			break;
	}

	ret = healer->rerun;
	healer->rerun = 0;

	if (!priv->shd.enabled)
		goto disabled_loop;

	return ret;
}


int
afr_shd_healer_wait (struct subvol_healer *healer)
{
	int ret = 0;

	pthread_mutex_lock (&healer->mutex);
	{
		ret = __afr_shd_healer_wait (healer);
	}
	pthread_mutex_unlock (&healer->mutex);

	return ret;
}


gf_boolean_t
safe_break (struct subvol_healer *healer)
{
	gf_boolean_t ret = _gf_false;

	pthread_mutex_lock (&healer->mutex);
	{
		if (healer->rerun)
			goto unlock;

		healer->running = _gf_false;
		ret = _gf_true;
	}
unlock:
	pthread_mutex_unlock (&healer->mutex);

	return ret;
}


inode_t *
afr_shd_inode_find (xlator_t *this, xlator_t *subvol, uuid_t gfid)
{
        int          ret       = 0;
        uint64_t     val       = IA_INVAL;
        dict_t       *xdata    = NULL;
        dict_t       *rsp_dict = NULL;
        inode_t      *inode    = NULL;

        xdata = dict_new ();
        if (!xdata)
                goto out;

        ret = dict_set_int8 (xdata, GF_INDEX_IA_TYPE_GET_REQ, 1);
        if (ret)
                goto out;

	ret = syncop_inode_find (this, subvol, gfid, &inode,
                                 xdata, &rsp_dict);
	if (ret < 0)
		goto out;

        if (rsp_dict) {
                ret = dict_get_uint64 (rsp_dict, GF_INDEX_IA_TYPE_GET_RSP,
                                       &val);
                if (ret)
                        goto out;
        }
        ret = inode_ctx_set2 (inode, subvol, 0, &val);
out:
        if (ret && inode) {
                inode_unref (inode);
                inode = NULL;
        }
        if (xdata)
                dict_unref (xdata);
        if (rsp_dict)
                dict_unref (rsp_dict);
	return inode;
}

inode_t*
afr_shd_index_inode (xlator_t *this, xlator_t *subvol, char *vgfid)
{
	loc_t rootloc = {0, };
	inode_t *inode = NULL;
	int ret = 0;
	dict_t *xattr = NULL;
	void *index_gfid = NULL;

	rootloc.inode = inode_ref (this->itable->root);
	gf_uuid_copy (rootloc.gfid, rootloc.inode->gfid);

	ret = syncop_getxattr (subvol, &rootloc, &xattr,
			       vgfid, NULL, NULL);
	if (ret || !xattr) {
		errno = -ret;
		goto out;
	}

	ret = dict_get_ptr (xattr, vgfid, &index_gfid);
	if (ret)
		goto out;

        gf_msg_debug (this->name, 0, "%s dir gfid for %s: %s",
	              vgfid, subvol->name, uuid_utoa (index_gfid));

	inode = afr_shd_inode_find (this, subvol, index_gfid);

out:
	loc_wipe (&rootloc);

	if (xattr)
		dict_unref (xattr);

	return inode;
}

int
afr_shd_index_purge (xlator_t *subvol, inode_t *inode, char *name,
                     ia_type_t type)
{
	int    ret = 0;
	loc_t  loc = {0,};

	loc.parent = inode_ref (inode);
	loc.name = name;

        if (IA_ISDIR (type))
                ret = syncop_rmdir (subvol, &loc, 1, NULL, NULL);
        else
                ret = syncop_unlink (subvol, &loc, NULL, NULL);

	loc_wipe (&loc);
	return ret;
}

void
afr_shd_zero_xattrop (xlator_t *this, uuid_t gfid)
{

        call_frame_t *frame = NULL;
        inode_t *inode = NULL;
        afr_private_t *priv = NULL;
        dict_t  *xattr = NULL;
        int ret = 0;
        int i = 0;
        int raw[AFR_NUM_CHANGE_LOGS] = {0};

        priv = this->private;
        frame = afr_frame_create (this);
        if (!frame)
                goto out;
        inode = afr_inode_find (this, gfid);
        if (!inode)
                goto out;
        xattr = dict_new();
        if (!xattr)
                goto out;
        ret = dict_set_static_bin (xattr, AFR_DIRTY, raw,
                                   sizeof(int) * AFR_NUM_CHANGE_LOGS);
        if (ret)
                goto out;
        for (i = 0; i < priv->child_count; i++) {
                ret = dict_set_static_bin (xattr, priv->pending_key[i], raw,
                                           sizeof(int) * AFR_NUM_CHANGE_LOGS);
                if (ret)
                        goto out;
        }

        /*Send xattrop to all bricks. Doing a lookup to see if bricks are up or
        * has valid repies for this gfid seems a bit of an overkill.*/
        for (i = 0; i < priv->child_count; i++)
                afr_selfheal_post_op (frame, this, inode, i, xattr, NULL);

out:
        if (frame)
                AFR_STACK_DESTROY (frame);
        if (inode)
                inode_unref (inode);
        if (xattr)
                dict_unref (xattr);
        return;
}

int
afr_shd_selfheal_name (struct subvol_healer *healer, int child, uuid_t parent,
		       const char *bname)
{
	int ret = -1;

	ret = afr_selfheal_name (THIS, parent, bname, NULL);

	return ret;
}

int
afr_shd_selfheal (struct subvol_healer *healer, int child, uuid_t gfid)
{
	int ret = 0;
	eh_t *eh = NULL;
	afr_private_t *priv = NULL;
	afr_self_heald_t *shd = NULL;
	shd_event_t *shd_event = NULL;
	char *path = NULL;
	xlator_t *subvol = NULL;
	xlator_t *this = NULL;
	crawl_event_t *crawl_event = NULL;

	this = healer->this;
	priv = this->private;
	shd = &priv->shd;
	crawl_event = &healer->crawl_event;

	subvol = priv->children[child];

        //If this fails with ENOENT/ESTALE index is stale
        ret = syncop_gfid_to_path (this->itable, subvol, gfid, &path);
        if (ret < 0)
                return ret;

	ret = afr_selfheal (this, gfid);

        LOCK (&priv->lock);
        {
                if (ret == -EIO) {
                        eh = shd->split_brain;
                        crawl_event->split_brain_count++;
                } else if (ret < 0) {
                        crawl_event->heal_failed_count++;
                } else if (ret == 0) {
                        crawl_event->healed_count++;
                }
        }
        UNLOCK (&priv->lock);

	if (eh) {
		shd_event = GF_CALLOC (1, sizeof(*shd_event),
				       gf_afr_mt_shd_event_t);
		if (!shd_event)
                        goto out;

		shd_event->child = child;
		shd_event->path = path;

		if (eh_save_history (eh, shd_event) < 0)
                        goto out;

                shd_event = NULL;
                path = NULL;
	}
out:
        GF_FREE (shd_event);
        GF_FREE (path);
	return ret;
}


void
afr_shd_sweep_prepare (struct subvol_healer *healer)
{
	crawl_event_t *event = NULL;

	event = &healer->crawl_event;

	event->healed_count = 0;
	event->split_brain_count = 0;
	event->heal_failed_count = 0;

	time (&event->start_time);
	event->end_time = 0;
}


void
afr_shd_sweep_done (struct subvol_healer *healer)
{
	crawl_event_t *event = NULL;
	crawl_event_t *history = NULL;
	afr_self_heald_t *shd = NULL;

	event = &healer->crawl_event;
	shd = &(((afr_private_t *)healer->this->private)->shd);

	time (&event->end_time);
	history = memdup (event, sizeof (*event));
	event->start_time = 0;

	if (!history)
		return;

	if (eh_save_history (shd->statistics[healer->subvol], history) < 0)
		GF_FREE (history);
}

int
afr_shd_index_heal (xlator_t *subvol, gf_dirent_t *entry, loc_t *parent,
                    void *data)
{
        struct subvol_healer *healer = data;
        afr_private_t        *priv   = NULL;
        uuid_t               gfid    = {0};
        int                  ret     = 0;
        uint64_t             val     = IA_INVAL;

        priv = healer->this->private;
        if (!priv->shd.enabled)
                return -EBUSY;

        gf_msg_debug (healer->this->name, 0, "got entry: %s from %s",
                      entry->d_name, priv->children[healer->subvol]->name);

        ret = gf_uuid_parse (entry->d_name, gfid);
        if (ret)
                return 0;

        inode_ctx_get2 (parent->inode, subvol, NULL, &val);

        ret = afr_shd_selfheal (healer, healer->subvol, gfid);

        if (ret == -ENOENT || ret == -ESTALE)
                afr_shd_index_purge (subvol, parent->inode, entry->d_name, val);

        if (ret == 2)
                /* If bricks crashed in pre-op after creating indices/xattrop
                 * link but before setting afr changelogs, we end up with stale
                 * xattrop links but zero changelogs. Remove such entries by
                 * sending a post-op with zero changelogs.
                 */
                afr_shd_zero_xattrop (healer->this, gfid);

        return 0;
}

int
afr_shd_index_sweep (struct subvol_healer *healer, char *vgfid)
{
	loc_t         loc     = {0};
	afr_private_t *priv   = NULL;
	int           ret     = 0;
	xlator_t      *subvol = NULL;
	dict_t        *xdata  = NULL;
        call_frame_t  *frame  = NULL;

	priv = healer->this->private;
	subvol = priv->children[healer->subvol];

        frame = afr_frame_create (healer->this);
        if (!frame) {
                ret = -ENOMEM;
                goto out;
        }

	loc.inode = afr_shd_index_inode (healer->this, subvol, vgfid);
	if (!loc.inode) {
	        gf_msg (healer->this->name, GF_LOG_WARNING,
                        0, AFR_MSG_INDEX_DIR_GET_FAILED,
		        "unable to get index-dir on %s", subvol->name);
		ret = -errno;
	        goto out;
	}

        xdata = dict_new ();
        if (!xdata || dict_set_int32 (xdata, "get-gfid-type", 1)) {
                ret = -ENOMEM;
                goto out;
        }

        ret = syncop_mt_dir_scan (frame, subvol, &loc, GF_CLIENT_PID_SELF_HEALD,
                                  healer, afr_shd_index_heal, xdata,
                                 priv->shd.max_threads, priv->shd.wait_qlength);

        if (ret == 0)
                ret = healer->crawl_event.healed_count;

out:
        loc_wipe (&loc);

        if (xdata)
                dict_unref (xdata);
        if (frame)
                AFR_STACK_DESTROY (frame);
	return ret;
}

int
afr_shd_index_sweep_all (struct subvol_healer *healer)
{
        int            ret    = 0;
        int            count  = 0;

        ret = afr_shd_index_sweep (healer, GF_XATTROP_INDEX_GFID);
        if (ret < 0)
                goto out;
        count = ret;

        ret = afr_shd_index_sweep (healer, GF_XATTROP_DIRTY_GFID);
        if (ret < 0)
                goto out;
        count += ret;

        ret = afr_shd_index_sweep (healer, GF_XATTROP_ENTRY_CHANGES_GFID);
        if (ret < 0)
                goto out;
        count += ret;
out:
        if (ret < 0)
                return ret;
        else
                return count;
}

int
afr_shd_full_heal (xlator_t *subvol, gf_dirent_t *entry, loc_t *parent,
                   void *data)
{
        struct subvol_healer *healer = data;
        xlator_t             *this   = healer->this;
        afr_private_t        *priv   = NULL;

        priv = this->private;
        if (!priv->shd.enabled)
                return -EBUSY;

        afr_shd_selfheal_name (healer, healer->subvol,
                               parent->inode->gfid, entry->d_name);

        afr_shd_selfheal (healer, healer->subvol, entry->d_stat.ia_gfid);

        return 0;
}

int
afr_shd_full_sweep (struct subvol_healer *healer, inode_t *inode)
{
        afr_private_t *priv = NULL;
        loc_t          loc  = {0};

        priv = healer->this->private;
        loc.inode = inode;
        return syncop_ftw (priv->children[healer->subvol], &loc,
                           GF_CLIENT_PID_SELF_HEALD, healer,
                           afr_shd_full_heal);
}


void *
afr_shd_index_healer (void *data)
{
	struct subvol_healer *healer = NULL;
	xlator_t *this = NULL;
	int ret = 0;
	afr_private_t *priv = NULL;

	healer = data;
	THIS = this = healer->this;
	priv = this->private;

	for (;;) {
		afr_shd_healer_wait (healer);

		ASSERT_LOCAL(this, healer);
		priv->local[healer->subvol] = healer->local;

		do {
		        gf_msg_debug (this->name, 0,
		                      "starting index sweep on subvol %s",
			              afr_subvol_name (this, healer->subvol));

			afr_shd_sweep_prepare (healer);

                        ret = afr_shd_index_sweep_all (healer);

			afr_shd_sweep_done (healer);
			/*
			  As long as at least one gfid was
			  healed, keep retrying. We may have
			  just healed a directory and thereby
			  created entries for other gfids which
			  could not be healed thus far.
			*/

		        gf_msg_debug (this->name, 0,
			              "finished index sweep on subvol %s",
			              afr_subvol_name (this, healer->subvol));
			/*
			  Give a pause before retrying to avoid a busy loop
			  in case the only entry in index is because of
			  an ongoing I/O.
			*/
			sleep (1);
		} while (ret > 0);
	}

	return NULL;
}


void *
afr_shd_full_healer (void *data)
{
	struct subvol_healer *healer = NULL;
	xlator_t *this = NULL;
	int run = 0;

	healer = data;
	THIS = this = healer->this;

	for (;;) {
		pthread_mutex_lock (&healer->mutex);
		{
			run = __afr_shd_healer_wait (healer);
			if (!run)
				healer->running = _gf_false;
		}
		pthread_mutex_unlock (&healer->mutex);

		if (!run)
			break;

		ASSERT_LOCAL(this, healer);

	        gf_msg (this->name, GF_LOG_INFO, 0, AFR_MSG_SELF_HEAL_INFO,
		        "starting full sweep on subvol %s",
		        afr_subvol_name (this, healer->subvol));

		afr_shd_sweep_prepare (healer);

		afr_shd_full_sweep (healer, this->itable->root);

		afr_shd_sweep_done (healer);

	        gf_msg (this->name, GF_LOG_INFO, 0, AFR_MSG_SELF_HEAL_INFO,
		        "finished full sweep on subvol %s",
		        afr_subvol_name (this, healer->subvol));
	}

	return NULL;
}


int
afr_shd_healer_init (xlator_t *this, struct subvol_healer *healer)
{
	int ret = 0;

	ret = pthread_mutex_init (&healer->mutex, NULL);
	if (ret)
		goto out;

	ret = pthread_cond_init (&healer->cond, NULL);
	if (ret)
		goto out;

	healer->this = this;
	healer->running = _gf_false;
	healer->rerun = _gf_false;
	healer->local = _gf_false;
out:
	return ret;
}


int
afr_shd_healer_spawn (xlator_t *this, struct subvol_healer *healer,
		      void *(threadfn)(void *))
{
	int ret = 0;

	pthread_mutex_lock (&healer->mutex);
	{
		if (healer->running) {
			pthread_cond_signal (&healer->cond);
		} else {
			ret = gf_thread_create (&healer->thread, NULL,
						threadfn, healer);
			if (ret)
				goto unlock;
			healer->running = 1;
		}

		healer->rerun = 1;
	}
unlock:
	pthread_mutex_unlock (&healer->mutex);

	return ret;
}


int
afr_shd_full_healer_spawn (xlator_t *this, int subvol)
{
	return afr_shd_healer_spawn (this, NTH_FULL_HEALER (this, subvol),
				     afr_shd_full_healer);
}


int
afr_shd_index_healer_spawn (xlator_t *this, int subvol)
{
	return afr_shd_healer_spawn (this, NTH_INDEX_HEALER (this, subvol),
				     afr_shd_index_healer);
}


int
afr_shd_dict_add_crawl_event (xlator_t *this, dict_t *output,
			      crawl_event_t *crawl_event)
{
        int             ret = 0;
        uint64_t        count = 0;
        char            key[256] = {0};
        int             xl_id = 0;
        uint64_t        healed_count = 0;
        uint64_t        split_brain_count = 0;
        uint64_t        heal_failed_count = 0;
        char            *start_time_str = 0;
        char            *end_time_str = NULL;
        char            *crawl_type = NULL;
        int             progress = -1;
	int             child = -1;

	child = crawl_event->child;
        healed_count = crawl_event->healed_count;
        split_brain_count = crawl_event->split_brain_count;
        heal_failed_count = crawl_event->heal_failed_count;
        crawl_type = crawl_event->crawl_type;

	if (!crawl_event->start_time)
		goto out;

        start_time_str = gf_strdup (ctime (&crawl_event->start_time));

	if (crawl_event->end_time)
		end_time_str = gf_strdup (ctime (&crawl_event->end_time));

        ret = dict_get_int32 (output, this->name, &xl_id);
        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR, -ret,
                        AFR_MSG_DICT_GET_FAILED, "xl does not have id");
                goto out;
        }

        snprintf (key, sizeof (key), "statistics-%d-%d-count", xl_id, child);
        ret = dict_get_uint64 (output, key, &count);


        snprintf (key, sizeof (key), "statistics_healed_cnt-%d-%d-%"PRIu64,
                  xl_id, child, count);
        ret = dict_set_uint64(output, key, healed_count);
        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not add statistics_healed_count to output");
                goto out;
	}

        snprintf (key, sizeof (key), "statistics_sb_cnt-%d-%d-%"PRIu64,
                  xl_id, child, count);
        ret = dict_set_uint64 (output, key, split_brain_count);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not add statistics_split_brain_count to output");
                goto out;
        }

        snprintf (key, sizeof (key), "statistics_crawl_type-%d-%d-%"PRIu64,
                  xl_id, child, count);
        ret = dict_set_str (output, key, crawl_type);
        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
	                "Could not add statistics_crawl_type to output");
                goto out;
        }

        snprintf (key, sizeof (key), "statistics_heal_failed_cnt-%d-%d-%"PRIu64,
                  xl_id, child, count);
        ret = dict_set_uint64 (output, key, heal_failed_count);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
	                "Could not add statistics_healed_failed_count to output");
                goto out;
        }

        snprintf (key, sizeof (key), "statistics_strt_time-%d-%d-%"PRIu64,
                  xl_id, child, count);
        ret = dict_set_dynstr (output, key, start_time_str);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not add statistics_crawl_start_time to output");
                goto out;
        } else {
		start_time_str = NULL;
	}

	if (!end_time_str)
                progress = 1;
        else
                progress = 0;

        snprintf (key, sizeof (key), "statistics_end_time-%d-%d-%"PRIu64,
                  xl_id, child, count);
        if (!end_time_str)
                end_time_str = gf_strdup ("Could not determine the end time");
        ret = dict_set_dynstr (output, key, end_time_str);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not add statistics_crawl_end_time to output");
                goto out;
        } else {
		end_time_str = NULL;
	}

        snprintf (key, sizeof (key), "statistics_inprogress-%d-%d-%"PRIu64,
                  xl_id, child, count);

        ret = dict_set_int32 (output, key, progress);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not add statistics_inprogress to output");
                goto out;
        }

	snprintf (key, sizeof (key), "statistics-%d-%d-count", xl_id, child);
	ret = dict_set_uint64 (output, key, count + 1);
	if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
		        "Could not increment the counter.");
                goto out;
	}
out:
	GF_FREE (start_time_str);
	GF_FREE (end_time_str);
        return ret;
}


int
afr_shd_dict_add_path (xlator_t *this, dict_t *output, int child, char *path,
		       struct timeval *tv)
{
        int             ret = -1;
        uint64_t        count = 0;
        char            key[256] = {0};
        int             xl_id = 0;

        ret = dict_get_int32 (output, this->name, &xl_id);
        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR, -ret,
                        AFR_MSG_DICT_GET_FAILED, "xl does not have id");
                goto out;
        }

        snprintf (key, sizeof (key), "%d-%d-count", xl_id, child);
        ret = dict_get_uint64 (output, key, &count);

        snprintf (key, sizeof (key), "%d-%d-%"PRIu64, xl_id, child, count);
	ret = dict_set_dynstr (output, key, path);

        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR, -ret,
                        AFR_MSG_DICT_SET_FAILED, "%s: Could not add to output",
                        path);
                goto out;
        }

	if (tv) {
		snprintf (key, sizeof (key), "%d-%d-%"PRIu64"-time", xl_id,
			  child, count);
		ret = dict_set_uint32 (output, key, tv->tv_sec);
		if (ret) {
		        gf_msg (this->name, GF_LOG_ERROR,
                                -ret, AFR_MSG_DICT_SET_FAILED,
                                "%s: Could not set time",
			        path);
			goto out;
		}
	}

        snprintf (key, sizeof (key), "%d-%d-count", xl_id, child);

        ret = dict_set_uint64 (output, key, count + 1);
        if (ret) {
                gf_msg (this->name, GF_LOG_ERROR,
                        -ret, AFR_MSG_DICT_SET_FAILED,
                        "Could not increment count");
                goto out;
        }

        ret = 0;
out:
        return ret;
}

int
afr_add_shd_event (circular_buffer_t *cb, void *data)
{
	dict_t *output = NULL;
	xlator_t *this = THIS;
	afr_private_t *priv = NULL;
	afr_self_heald_t *shd = NULL;
	shd_event_t *shd_event = NULL;
	char *path = NULL;

	output = data;
	priv = this->private;
	shd = &priv->shd;
	shd_event = cb->data;

	if (!shd->index_healers[shd_event->child].local)
		return 0;

	path = gf_strdup (shd_event->path);
	if (!path)
		return -ENOMEM;

	afr_shd_dict_add_path (this, output, shd_event->child, path,
			       &cb->tv);
	return 0;
}

int
afr_add_crawl_event (circular_buffer_t *cb, void *data)
{
	dict_t *output = NULL;
	xlator_t *this = THIS;
	afr_private_t *priv = NULL;
	afr_self_heald_t *shd = NULL;
	crawl_event_t *crawl_event = NULL;

	output = data;
	priv = this->private;
	shd = &priv->shd;
	crawl_event = cb->data;

	if (!shd->index_healers[crawl_event->child].local)
		return 0;

	afr_shd_dict_add_crawl_event (this, output, crawl_event);

	return 0;
}


int
afr_selfheal_daemon_init (xlator_t *this)
{
	afr_private_t *priv = NULL;
	afr_self_heald_t *shd = NULL;
	int ret = -1;
	int i = 0;

	priv = this->private;
	shd = &priv->shd;

	this->itable = inode_table_new (SHD_INODE_LRU_LIMIT, this);
	if (!this->itable)
		goto out;

	shd->index_healers = GF_CALLOC (sizeof(*shd->index_healers),
					priv->child_count,
					gf_afr_mt_subvol_healer_t);
	if (!shd->index_healers)
		goto out;

	for (i = 0; i < priv->child_count; i++) {
		shd->index_healers[i].subvol = i;
		ret = afr_shd_healer_init (this, &shd->index_healers[i]);
		if (ret)
			goto out;
	}

	shd->full_healers = GF_CALLOC (sizeof(*shd->full_healers),
				       priv->child_count,
				       gf_afr_mt_subvol_healer_t);
	if (!shd->full_healers)
		goto out;
	for (i = 0; i < priv->child_count; i++) {
		shd->full_healers[i].subvol = i;
		ret = afr_shd_healer_init (this, &shd->full_healers[i]);
		if (ret)
			goto out;
	}

	shd->split_brain = eh_new (AFR_EH_SPLIT_BRAIN_LIMIT, _gf_false,
				   afr_destroy_shd_event_data);
	if (!shd->split_brain)
		goto out;

        shd->statistics = GF_CALLOC (sizeof(eh_t *), priv->child_count,
				     gf_common_mt_eh_t);
        if (!shd->statistics)
                goto out;

        for (i = 0; i < priv->child_count ; i++) {
                shd->statistics[i] = eh_new (AFR_STATISTICS_HISTORY_SIZE,
					     _gf_false,
					     afr_destroy_crawl_event_data);
                if (!shd->statistics[i])
                        goto out;
		shd->full_healers[i].crawl_event.child = i;
		shd->full_healers[i].crawl_event.crawl_type = "FULL";
		shd->index_healers[i].crawl_event.child = i;
		shd->index_healers[i].crawl_event.crawl_type = "INDEX";
        }

	ret = 0;
out:
	return ret;
}


int
afr_selfheal_childup (xlator_t *this, int subvol)
{
	afr_shd_index_healer_spawn (this, subvol);

	return 0;
}


int
afr_shd_get_index_count (xlator_t *this, int i, uint64_t *count)
{
	afr_private_t *priv = NULL;
	xlator_t *subvol = NULL;
	loc_t rootloc = {0, };
	dict_t *xattr = NULL;
	int ret = -1;

	priv = this->private;
	subvol = priv->children[i];

	rootloc.inode = inode_ref (this->itable->root);
	gf_uuid_copy (rootloc.gfid, rootloc.inode->gfid);

	ret = syncop_getxattr (subvol, &rootloc, &xattr,
			       GF_XATTROP_INDEX_COUNT, NULL, NULL);
	if (ret < 0)
		goto out;

	ret = dict_get_uint64 (xattr, GF_XATTROP_INDEX_COUNT, count);
	if (ret)
		goto out;

        ret = 0;

out:
        if (xattr)
                dict_unref (xattr);
	loc_wipe (&rootloc);

	return ret;
}


int
afr_xl_op (xlator_t *this, dict_t *input, dict_t *output)
{
        gf_xl_afr_op_t   op = GF_SHD_OP_INVALID;
        int              ret = 0;
        int              xl_id = 0;
	afr_private_t   *priv = NULL;
	afr_self_heald_t *shd = NULL;
	struct subvol_healer *healer = NULL;
	int i = 0;
	char key[64];
	int op_ret = 0;
	uint64_t cnt = 0;

	priv = this->private;
	shd = &priv->shd;

        ret = dict_get_int32 (input, "xl-op", (int32_t*)&op);
        if (ret)
                goto out;
        ret = dict_get_int32 (input, this->name, &xl_id);
        if (ret)
                goto out;
        ret = dict_set_int32 (output, this->name, xl_id);
        if (ret)
                goto out;
        switch (op) {
        case GF_SHD_OP_HEAL_INDEX:
		op_ret = 0;

		for (i = 0; i < priv->child_count; i++) {
			healer = &shd->index_healers[i];
			snprintf (key, sizeof (key), "%d-%d-status", xl_id, i);

			if (!priv->child_up[i]) {
				ret = dict_set_str (output, key,
						    "Brick is not connected");
                                op_ret = -1;
			} else if (AFR_COUNT (priv->child_up,
					      priv->child_count) < 2) {
				ret = dict_set_str (output, key,
						    "< 2 bricks in replica are up");
                                op_ret = -1;
			} else if (!afr_shd_is_subvol_local (this, healer->subvol)) {
				ret = dict_set_str (output, key,
						    "Brick is remote");
			} else {
				ret = dict_set_str (output, key,
						    "Started self-heal");
				afr_shd_index_healer_spawn (this, i);
			}
		}
                break;
        case GF_SHD_OP_HEAL_FULL:
		op_ret = -1;

		for (i = 0; i < priv->child_count; i++) {
			healer = &shd->full_healers[i];
			snprintf (key, sizeof (key), "%d-%d-status", xl_id, i);

			if (!priv->child_up[i]) {
				ret = dict_set_str (output, key,
						    "Brick is not connected");
			} else if (AFR_COUNT (priv->child_up,
					      priv->child_count) < 2) {
				ret = dict_set_str (output, key,
						    "< 2 bricks in replica are up");
			} else if (!afr_shd_is_subvol_local (this, healer->subvol)) {
				ret = dict_set_str (output, key,
						    "Brick is remote");
			} else {
				ret = dict_set_str (output, key,
						    "Started self-heal");
				afr_shd_full_healer_spawn (this, i);
				op_ret = 0;
			}
		}
                break;
        case GF_SHD_OP_INDEX_SUMMARY:
                /* this case has been handled in glfs-heal.c */
                break;
        case GF_SHD_OP_HEALED_FILES:
        case GF_SHD_OP_HEAL_FAILED_FILES:
                for (i = 0; i < priv->child_count; i++) {
                        snprintf (key, sizeof (key), "%d-%d-status", xl_id, i);
                        ret = dict_set_str (output, key, "Operation Not "
                                            "Supported");
                }
                break;
        case GF_SHD_OP_SPLIT_BRAIN_FILES:
		eh_dump (shd->split_brain, output, afr_add_shd_event);
                break;
        case GF_SHD_OP_STATISTICS:
		for (i = 0; i < priv->child_count; i++) {
			eh_dump (shd->statistics[i], output,
				 afr_add_crawl_event);
			afr_shd_dict_add_crawl_event (this, output,
						      &shd->index_healers[i].crawl_event);
			afr_shd_dict_add_crawl_event (this, output,
						      &shd->full_healers[i].crawl_event);
		}
                break;
        case GF_SHD_OP_STATISTICS_HEAL_COUNT:
        case GF_SHD_OP_STATISTICS_HEAL_COUNT_PER_REPLICA:
		op_ret = -1;

		for (i = 0; i < priv->child_count; i++) {
			if (!priv->child_up[i]) {
				snprintf (key, sizeof (key), "%d-%d-status",
                                          xl_id, i);
				ret = dict_set_str (output, key,
						    "Brick is not connected");
			} else {
				snprintf (key, sizeof (key), "%d-%d-hardlinks",
                                          xl_id, i);
				ret = afr_shd_get_index_count (this, i, &cnt);
				if (ret == 0) {
					ret = dict_set_uint64 (output, key, cnt);
				}
				op_ret = 0;
			}
		}

//                ret = _do_crawl_op_on_local_subvols (this, INDEX_TO_BE_HEALED,
//                                                     STATISTICS_TO_BE_HEALED,
//                                                     output);
                break;

        default:
                gf_msg (this->name, GF_LOG_ERROR, 0,
                        AFR_MSG_INVALID_ARG, "Unknown set op %d", op);
                break;
        }
out:
        dict_del (output, this->name);
        return op_ret;
}