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/*
Copyright (c) 2006, 2007, 2008 Z RESEARCH, Inc. <http://www.zresearch.com>
This file is part of GlusterFS.
GlusterFS is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 3 of the License,
or (at your option) any later version.
GlusterFS is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see
<http://www.gnu.org/licenses/>.
*/
#include <sys/time.h>
#include <stdlib.h>
#include <fnmatch.h>
#ifndef _CONFIG_H
#define _CONFIG_H
#include "config.h"
#endif
#include "xlator.h"
#include "scheduler.h"
struct switch_sched_array {
xlator_t *xl;
int32_t eligible;
int32_t considered;
};
/* Select one of this struct based on the path's pattern match */
struct switch_sched_struct {
struct switch_sched_struct *next;
struct switch_sched_array *array;
char path_pattern[256];
int32_t node_index; /* Index of the node in
this pattern. */
int32_t num_child; /* Total num of child nodes
with this pattern. */
};
struct switch_struct {
struct switch_sched_struct *cond;
struct switch_sched_array *array;
pthread_mutex_t switch_mutex;
int32_t child_count;
};
/* This function should return child node as '*:subvolumes' is inserterd */
static xlator_t *
switch_get_matching_xl (const char *path, struct switch_sched_struct *cond)
{
struct switch_sched_struct *trav = cond;
char *pathname = strdup (path);
int index = 0;
while (trav) {
if (fnmatch (trav->path_pattern,
pathname, FNM_NOESCAPE) == 0) {
free (pathname);
trav->node_index %= trav->num_child;
index = (trav->node_index++) % trav->num_child;
return trav->array[index].xl;
}
trav = trav->next;
}
free (pathname);
return NULL;
}
static int32_t
switch_init (xlator_t *xl)
{
int32_t index = 0;
data_t *data = NULL;
char *child = NULL;
char *tmp = NULL;
char *childs_data = NULL;
xlator_list_t *trav_xl = xl->children;
struct switch_struct *switch_buf = NULL;
switch_buf = CALLOC (1, sizeof (struct switch_struct));
ERR_ABORT (switch_buf);
while (trav_xl) {
index++;
trav_xl = trav_xl->next;
}
switch_buf->child_count = index;
switch_buf->array = CALLOC (index + 1,
sizeof (struct switch_sched_struct));
ERR_ABORT (switch_buf->array);
trav_xl = xl->children;
index = 0;
while (trav_xl) {
switch_buf->array[index].xl = trav_xl->xlator;
switch_buf->array[index].eligible = 1;
trav_xl = trav_xl->next;
index++;
}
data = dict_get (xl->options, "scheduler.read-only-subvolumes");
if (data) {
childs_data = strdup (data->data);
child = strtok_r (childs_data, ",", &tmp);
while (child) {
for (index = 1;
index < switch_buf->child_count; index++) {
if (strcmp (switch_buf->array[index - 1].xl->name, child) == 0) {
gf_log ("switch", GF_LOG_DEBUG,
"Child '%s' is read-only",
child);
memcpy (&(switch_buf->array[index-1]),
&(switch_buf->array[switch_buf->child_count - 1]),
sizeof (struct switch_sched_array));
switch_buf->child_count--;
break;
}
}
child = strtok_r (NULL, ",", &tmp);
}
free (childs_data);
}
data = dict_get (xl->options, "scheduler.local-volume-name");
if (data) {
/* Means, give preference to that node first */
gf_log ("switch", GF_LOG_DEBUG,
"local volume defined as %s", data->data);
/* TODO: parse it properly, have an extra index to
specify that first */
}
/* *jpg:child1,child2;*mpg:child3;*:child4,child5,child6 */
data = dict_get (xl->options, "scheduler.switch.case");
if (data) {
char *tmp_str = NULL;
char *tmp_str1 = NULL;
char *dup_str = NULL;
char *switch_str = NULL;
char *pattern = NULL;
char *childs = NULL;
struct switch_sched_struct *switch_opt = NULL;
struct switch_sched_struct *trav = NULL;
/* Get the pattern for considering switch case.
"option block-size *avi:10MB" etc */
switch_str = strtok_r (data->data, ";", &tmp_str);
while (switch_str) {
dup_str = strdup (switch_str);
switch_opt =
CALLOC (1,
sizeof (struct switch_sched_struct));
ERR_ABORT (switch_opt);
/* Link it to the main structure */
if (switch_buf->cond) {
/* there are already few entries */
trav = switch_buf->cond;
while (trav->next)
trav = trav->next;
trav->next = switch_opt;
} else {
/* First entry */
switch_buf->cond = switch_opt;
}
pattern = strtok_r (dup_str, ":", &tmp_str1);
childs = strtok_r (NULL, ":", &tmp_str1);
if (strncmp (pattern, "*", 2) == 0) {
gf_log ("switch", GF_LOG_WARNING,
"'*' pattern will be taken by default "
"for all the unconfigured child nodes,"
" hence neglecting current option");
switch_str = strtok_r (NULL, ";", &tmp_str);
free (dup_str);
continue;
}
memcpy (switch_opt->path_pattern,
pattern, strlen (pattern));
if (childs) {
int32_t idx = 0;
char *tmp1 = NULL;
char *dup_childs = NULL;
/* TODO: get the list of child nodes for
the given pattern */
dup_childs = strdup (childs);
child = strtok_r (dup_childs, ",", &tmp);
while (child) {
idx++;
child = strtok_r (NULL, ",", &tmp);
}
free (dup_childs);
child = strtok_r (childs, ",", &tmp1);
switch_opt->num_child = idx;
switch_opt->array =
CALLOC (1, idx * sizeof (struct switch_sched_array));
ERR_ABORT (switch_opt->array);
idx = 0;
child = strtok_r (childs, ",", &tmp);
while (child) {
for (index = 1;
index < switch_buf->child_count;
index++) {
if (strcmp (switch_buf->array[index - 1].xl->name,
child) == 0) {
gf_log ("switch",
GF_LOG_DEBUG,
"'%s' pattern will be scheduled to \"%s\"",
switch_opt->path_pattern, child);
/*
if (switch_buf->array[index-1].considered) {
gf_log ("switch", GF_LOG_DEBUG,
"ambiguity found, exiting");
return -1;
}
*/
switch_opt->array[idx].xl = switch_buf->array[index-1].xl;
switch_buf->array[index-1].considered = 1;
idx++;
break;
}
}
child = strtok_r (NULL, ",", &tmp1);
}
} else {
/* error */
gf_log ("switch", GF_LOG_ERROR,
"Check \"scheduler.switch.case\" "
"option in unify volume. Exiting");
free (switch_buf->array);
free (switch_buf);
return -1;
}
free (dup_str);
switch_str = strtok_r (NULL, ";", &tmp_str);
}
}
/* Now, all the pattern based considerations done, so for all the
* remaining pattern, '*' to all the remaining child nodes
*/
{
struct switch_sched_struct *switch_opt = NULL;
int32_t flag = 0;
int32_t index = 0;
for (index=0; index < switch_buf->child_count; index++) {
/* check for considered flag */
if (switch_buf->array[index].considered)
continue;
flag++;
}
if (!flag) {
gf_log ("switch", GF_LOG_ERROR,
"No nodes left for pattern '*'. Exiting.");
return -1;
}
switch_opt = CALLOC (1, sizeof (struct switch_sched_struct));
ERR_ABORT (switch_opt);
if (switch_buf->cond) {
/* there are already few entries */
struct switch_sched_struct *trav = switch_buf->cond;
while (trav->next)
trav = trav->next;
trav->next = switch_opt;
} else {
/* First entry */
switch_buf->cond = switch_opt;
}
/* Add the '*' pattern to the array */
memcpy (switch_opt->path_pattern, "*", 2);
switch_opt->num_child = flag;
switch_opt->array =
CALLOC (1, flag * sizeof (struct switch_sched_array));
ERR_ABORT (switch_opt->array);
flag = 0;
for (index=0; index < switch_buf->child_count; index++) {
/* check for considered flag */
if (switch_buf->array[index].considered)
continue;
gf_log ("switch", GF_LOG_DEBUG,
"'%s' pattern will be scheduled to \"%s\"",
switch_opt->path_pattern,
switch_buf->array[index].xl->name);
switch_opt->array[flag].xl =
switch_buf->array[index].xl;
switch_buf->array[index].considered = 1;
flag++;
}
}
pthread_mutex_init (&switch_buf->switch_mutex, NULL);
// put it at the proper place
*((long *)xl->private) = (long)switch_buf;
return 0;
}
static void
switch_fini (xlator_t *xl)
{
/* TODO: free all the allocated entries */
struct switch_struct *switch_buf = NULL;
switch_buf = (struct switch_struct *)*((long *)xl->private);
pthread_mutex_destroy (&switch_buf->switch_mutex);
free (switch_buf->array);
free (switch_buf);
}
static xlator_t *
switch_schedule (xlator_t *xl, const void *path)
{
struct switch_struct *switch_buf = NULL;
switch_buf = (struct switch_struct *)*((long *)xl->private);
return switch_get_matching_xl (path, switch_buf->cond);
}
/**
* notify
*/
void
switch_notify (xlator_t *xl, int32_t event, void *data)
{
/* TODO: This should be checking in switch_sched_struct */
#if 0
struct switch_struct *switch_buf = NULL;
int32_t idx = 0;
switch_buf = (struct switch_struct *)*((long *)xl->private);
if (!switch_buf)
return;
for (idx = 0; idx < switch_buf->child_count; idx++) {
if (switch_buf->array[idx].xl == (xlator_t *)data)
break;
}
switch (event)
{
case GF_EVENT_CHILD_UP:
{
switch_buf->array[idx].eligible = 1;
}
break;
case GF_EVENT_CHILD_DOWN:
{
switch_buf->array[idx].eligible = 0;
}
break;
default:
{
;
}
break;
}
#endif
}
static void
switch_update (xlator_t *xl)
{
return;
}
struct sched_ops sched = {
.init = switch_init,
.fini = switch_fini,
.update = switch_update,
.schedule = switch_schedule,
.notify = switch_notify
};
struct volume_options options[] = {
{ .key = { "scheduler.read-only-subvolumes" ,
"switch.read-only-subvolumes"},
.type = GF_OPTION_TYPE_ANY
},
{ .key = { "scheduler.local-volume-name",
"switch.nufa.local-volume-name" },
.type = GF_OPTION_TYPE_XLATOR
},
{ .key = { "scheduler.switch.case",
"switch.case" },
.type = GF_OPTION_TYPE_ANY
},
{ .key = {NULL} }
};
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