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/*
Copyright (c) 2008-2012 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
/* TODO: add NS locking */
#include "glusterfs.h"
#include "xlator.h"
#include "dht-common.h"
#include "dht-messages.h"
#include "defaults.h"
#include <sys/time.h>
int
dht_du_info_cbk (call_frame_t *frame, void *cookie, xlator_t *this,
int op_ret, int op_errno, struct statvfs *statvfs,
dict_t *xdata)
{
dht_conf_t *conf = NULL;
call_frame_t *prev = NULL;
int this_call_cnt = 0;
int i = 0;
double percent = 0;
double percent_inodes = 0;
uint64_t bytes = 0;
uint32_t bpc; /* blocks per chunk */
uint32_t chunks = 0;
conf = this->private;
prev = cookie;
if (op_ret == -1) {
gf_log (this->name, GF_LOG_WARNING,
"failed to get disk info from %s", prev->this->name);
goto out;
}
if (statvfs && statvfs->f_blocks) {
percent = (statvfs->f_bavail * 100) / statvfs->f_blocks;
bytes = (statvfs->f_bavail * statvfs->f_frsize);
/*
* A 32-bit count of 1MB chunks allows a maximum brick size of
* ~4PB. It's possible that we could see a single local FS
* bigger than that some day, but this code is likely to be
* irrelevant by then. Meanwhile, it's more important to keep
* the chunk size small so the layout-calculation code that
* uses this value can be tested on normal machines.
*/
bpc = (1 << 20) / statvfs->f_bsize;
chunks = (statvfs->f_blocks + bpc - 1) / bpc;
}
if (statvfs && statvfs->f_files) {
percent_inodes = (statvfs->f_ffree * 100) / statvfs->f_files;
} else {
/*
* Set percent inodes to 100 for dynamically allocated inode
* filesystems. The rationale is that distribute need not
* worry about total inodes; rather, let the 'create()' be
* scheduled on the hashed subvol regardless of the total
* inodes.
*/
percent_inodes = 100;
}
LOCK (&conf->subvolume_lock);
{
for (i = 0; i < conf->subvolume_cnt; i++)
if (prev->this == conf->subvolumes[i]) {
conf->du_stats[i].avail_percent = percent;
conf->du_stats[i].avail_space = bytes;
conf->du_stats[i].avail_inodes = percent_inodes;
conf->du_stats[i].chunks = chunks;
gf_msg_debug (this->name, 0,
"subvolume '%s': avail_percent "
"is: %.2f and avail_space "
"is: %" PRIu64" and avail_inodes"
" is: %.2f",
prev->this->name,
conf->du_stats[i].avail_percent,
conf->du_stats[i].avail_space,
conf->du_stats[i].avail_inodes);
break; /* no point in looping further */
}
}
UNLOCK (&conf->subvolume_lock);
out:
this_call_cnt = dht_frame_return (frame);
if (is_last_call (this_call_cnt))
DHT_STACK_DESTROY (frame);
return 0;
}
int
dht_get_du_info_for_subvol (xlator_t *this, int subvol_idx)
{
dht_conf_t *conf = NULL;
call_frame_t *statfs_frame = NULL;
dht_local_t *statfs_local = NULL;
call_pool_t *pool = NULL;
loc_t tmp_loc = {0,};
conf = this->private;
pool = this->ctx->pool;
statfs_frame = create_frame (this, pool);
if (!statfs_frame) {
goto err;
}
/* local->fop value is not used in this case */
statfs_local = dht_local_init (statfs_frame, NULL, NULL,
GF_FOP_MAXVALUE);
if (!statfs_local) {
goto err;
}
/* make it root gfid, should be enough to get the proper info back */
tmp_loc.gfid[15] = 1;
statfs_local->call_cnt = 1;
STACK_WIND (statfs_frame, dht_du_info_cbk,
conf->subvolumes[subvol_idx],
conf->subvolumes[subvol_idx]->fops->statfs,
&tmp_loc, NULL);
return 0;
err:
if (statfs_frame)
DHT_STACK_DESTROY (statfs_frame);
return -1;
}
int
dht_get_du_info (call_frame_t *frame, xlator_t *this, loc_t *loc)
{
int i = 0;
int ret = -1;
dht_conf_t *conf = NULL;
call_frame_t *statfs_frame = NULL;
dht_local_t *statfs_local = NULL;
struct timeval tv = {0,};
loc_t tmp_loc = {0,};
conf = this->private;
gettimeofday (&tv, NULL);
/* make it root gfid, should be enough to get the proper
info back */
tmp_loc.gfid[15] = 1;
if (tv.tv_sec > (conf->refresh_interval
+ conf->last_stat_fetch.tv_sec)) {
statfs_frame = copy_frame (frame);
if (!statfs_frame) {
goto err;
}
/* In this case, 'local->fop' is not used */
statfs_local = dht_local_init (statfs_frame, loc, NULL,
GF_FOP_MAXVALUE);
if (!statfs_local) {
goto err;
}
statfs_local->params = dict_new ();
if (!statfs_local->params)
goto err;
ret = dict_set_int8 (statfs_local->params,
GF_INTERNAL_IGNORE_DEEM_STATFS, 1);
if (ret) {
gf_log (this->name, GF_LOG_ERROR,
"Failed to set "
GF_INTERNAL_IGNORE_DEEM_STATFS" in dict");
goto err;
}
statfs_local->call_cnt = conf->subvolume_cnt;
for (i = 0; i < conf->subvolume_cnt; i++) {
STACK_WIND (statfs_frame, dht_du_info_cbk,
conf->subvolumes[i],
conf->subvolumes[i]->fops->statfs,
&tmp_loc, statfs_local->params);
}
conf->last_stat_fetch.tv_sec = tv.tv_sec;
}
return 0;
err:
if (statfs_frame)
DHT_STACK_DESTROY (statfs_frame);
return -1;
}
gf_boolean_t
dht_is_subvol_filled (xlator_t *this, xlator_t *subvol)
{
int i = 0;
dht_conf_t *conf = NULL;
gf_boolean_t subvol_filled_inodes = _gf_false;
gf_boolean_t subvol_filled_space = _gf_false;
gf_boolean_t is_subvol_filled = _gf_false;
conf = this->private;
/* Check for values above specified percent or free disk */
LOCK (&conf->subvolume_lock);
{
for (i = 0; i < conf->subvolume_cnt; i++) {
if (subvol == conf->subvolumes[i]) {
if (conf->disk_unit == 'p') {
if (conf->du_stats[i].avail_percent <
conf->min_free_disk) {
subvol_filled_space = _gf_true;
break;
}
} else {
if (conf->du_stats[i].avail_space <
conf->min_free_disk) {
subvol_filled_space = _gf_true;
break;
}
}
if (conf->du_stats[i].avail_inodes <
conf->min_free_inodes) {
subvol_filled_inodes = _gf_true;
break;
}
}
}
}
UNLOCK (&conf->subvolume_lock);
if (subvol_filled_space && conf->subvolume_status[i]) {
if (!(conf->du_stats[i].log++ % (GF_UNIVERSAL_ANSWER * 10))) {
gf_msg (this->name, GF_LOG_WARNING, 0,
DHT_MSG_SUBVOL_INSUFF_SPACE,
"disk space on subvolume '%s' is getting "
"full (%.2f %%), consider adding more nodes",
subvol->name,
(100 - conf->du_stats[i].avail_percent));
}
}
if (subvol_filled_inodes && conf->subvolume_status[i]) {
if (!(conf->du_stats[i].log++ % (GF_UNIVERSAL_ANSWER * 10))) {
gf_msg (this->name, GF_LOG_CRITICAL, 0,
DHT_MSG_SUBVOL_INSUFF_INODES,
"inodes on subvolume '%s' are at "
"(%.2f %%), consider adding more nodes",
subvol->name,
(100 - conf->du_stats[i].avail_inodes));
}
}
is_subvol_filled = (subvol_filled_space || subvol_filled_inodes);
return is_subvol_filled;
}
/*Get the best subvolume to create the file in*/
xlator_t *
dht_free_disk_available_subvol (xlator_t *this, xlator_t *subvol,
dht_local_t *local)
{
xlator_t *avail_subvol = NULL;
dht_conf_t *conf = NULL;
dht_layout_t *layout = NULL;
loc_t *loc = NULL;
conf = this->private;
if (!local)
goto out;
loc = &local->loc;
if (!local->layout) {
layout = dht_layout_get (this, loc->parent);
if (!layout) {
gf_msg_debug (this->name, 0,
"Missing layout. path=%s,"
" parent gfid = %s", loc->path,
uuid_utoa (loc->parent->gfid));
goto out;
}
} else {
layout = dht_layout_ref (this, local->layout);
}
LOCK (&conf->subvolume_lock);
{
avail_subvol = dht_subvol_with_free_space_inodes(this, subvol,
layout);
if(!avail_subvol)
{
avail_subvol = dht_subvol_maxspace_nonzeroinode(this,
subvol,
layout);
}
}
UNLOCK (&conf->subvolume_lock);
out:
if (!avail_subvol) {
gf_msg_debug (this->name, 0,
"No subvolume has enough free space \
and/or inodes to create");
avail_subvol = subvol;
}
if (layout)
dht_layout_unref (this, layout);
return avail_subvol;
}
static inline
int32_t dht_subvol_has_err (xlator_t *this, dht_layout_t *layout)
{
int ret = -1;
int i = 0;
if (!this || !layout)
goto out;
/* check if subvol has layout errors, before selecting it */
for (i = 0; i < layout->cnt; i++) {
if (!strcmp (layout->list[i].xlator->name, this->name) &&
(layout->list[i].err != 0)) {
ret = -1;
goto out;
}
}
ret = 0;
out:
return ret;
}
/*Get subvolume which has both space and inodes more than the min criteria*/
xlator_t *
dht_subvol_with_free_space_inodes(xlator_t *this, xlator_t *subvol,
dht_layout_t *layout)
{
int i = 0;
double max = 0;
double max_inodes = 0;
int ignore_subvol = 0;
xlator_t *avail_subvol = NULL;
dht_conf_t *conf = NULL;
conf = this->private;
for(i=0; i < conf->subvolume_cnt; i++) {
/* check if subvol has layout errors, before selecting it */
ignore_subvol = dht_subvol_has_err (conf->subvolumes[i],
layout);
if (ignore_subvol)
continue;
if ((conf->disk_unit == 'p') &&
(conf->du_stats[i].avail_percent > conf->min_free_disk) &&
(conf->du_stats[i].avail_inodes > conf->min_free_inodes)) {
if ((conf->du_stats[i].avail_inodes > max_inodes) ||
(conf->du_stats[i].avail_percent > max)) {
max = conf->du_stats[i].avail_percent;
max_inodes = conf->du_stats[i].avail_inodes;
avail_subvol = conf->subvolumes[i];
}
}
if ((conf->disk_unit != 'p') &&
(conf->du_stats[i].avail_space > conf->min_free_disk) &&
(conf->du_stats[i].avail_inodes > conf->min_free_inodes)) {
if ((conf->du_stats[i].avail_inodes > max_inodes) ||
(conf->du_stats[i].avail_space > max)) {
max = conf->du_stats[i].avail_space;
max_inodes = conf->du_stats[i].avail_inodes;
avail_subvol = conf->subvolumes[i];
}
}
}
return avail_subvol;
}
/* Get subvol which has atleast one inode and maximum space */
xlator_t *
dht_subvol_maxspace_nonzeroinode (xlator_t *this, xlator_t *subvol,
dht_layout_t *layout)
{
int i = 0;
double max = 0;
int ignore_subvol = 0;
xlator_t *avail_subvol = NULL;
dht_conf_t *conf = NULL;
conf = this->private;
for (i = 0; i < conf->subvolume_cnt; i++) {
/* check if subvol has layout errors, before selecting it */
ignore_subvol = dht_subvol_has_err (conf->subvolumes[i],
layout);
if (ignore_subvol)
continue;
if (conf->disk_unit == 'p') {
if ((conf->du_stats[i].avail_percent > max)
&& (conf->du_stats[i].avail_inodes > 0 )) {
max = conf->du_stats[i].avail_percent;
avail_subvol = conf->subvolumes[i];
}
} else {
if ((conf->du_stats[i].avail_space > max)
&& (conf->du_stats[i].avail_inodes > 0)) {
max = conf->du_stats[i].avail_space;
avail_subvol = conf->subvolumes[i];
}
}
}
return avail_subvol;
}
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