blob: 0d70e32a75ca7aa9cf454e27c820370c09e9bb07 [file] [log] [blame]
/*
* Stick tables management functions.
*
* Copyright 2009-2010 EXCELIANCE, Emeric Brun <ebrun@exceliance.fr>
*
* This program 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
* 2 of the License, or (at your option) any later version.
*
*/
#include <string.h>
#include <common/config.h>
#include <common/memory.h>
#include <common/mini-clist.h>
#include <common/standard.h>
#include <common/time.h>
#include <ebmbtree.h>
#include <ebsttree.h>
#include <types/stick_table.h>
#include <proto/proxy.h>
#include <proto/session.h>
#include <proto/task.h>
/*
* Free an allocate sticked session <ts>.
* Decrease table <t> sticked session counter .
*/
void stksess_free(struct stktable *t, struct stksess *ts)
{
t->current--;
pool_free2(t->pool,ts);
}
/*
* Init or modify <key> of th sticked session <ts> present in table <t>.
*/
void stksess_key(struct stktable *t, struct stksess *ts, struct stktable_key *key)
{
if (t->type != STKTABLE_TYPE_STRING)
memcpy(ts->keys.key, key->key , t->key_size);
else {
memcpy(ts->keys.key, key->key, MIN(t->key_size - 1, key->key_len));
ts->keys.key[MIN(t->key_size - 1, key->key_len)] = 0;
}
}
/*
* Init sticked session <ts> using <key>.
*/
struct stksess *stksess_init(struct stktable *t, struct stksess * ts, struct stktable_key *key)
{
ts->keys.node.leaf_p = NULL;
ts->exps.node.leaf_p = NULL;
ts->sid = 0;
stksess_key(t, ts, key);
return ts;
}
/*
* Trash oldest <to_batch> sticked sessions from table <t>
* Returns number of trashed sticked session.
*/
static int stktable_trash_oldest(struct stktable *t, int to_batch)
{
struct stksess *ts;
struct eb32_node *eb;
int batched = 0;
eb = eb32_lookup_ge(&t->exps, now_ms - TIMER_LOOK_BACK);
while (batched < to_batch) {
if (unlikely(!eb)) {
/* we might have reached the end of the tree, typically because
* <now_ms> is in the first half and we're first scanning the last
* half. Let's loop back to the beginning of the tree now.
*/
eb = eb32_first(&t->exps);
if (likely(!eb))
break;
}
/* timer looks expired, detach it from the queue */
ts = eb32_entry(eb, struct stksess, exps);
eb = eb32_next(eb);
eb32_delete(&ts->exps);
if (ts->expire != ts->exps.key) {
if (!tick_isset(ts->expire))
continue;
ts->exps.key = ts->expire;
eb32_insert(&t->exps, &ts->exps);
if (!eb || eb->key > ts->exps.key)
eb = &ts->exps;
continue;
}
/* session expired, trash it */
ebmb_delete(&ts->keys);
stksess_free(t, ts);
batched++;
}
return batched;
}
/*
* Allocate and initialise a new sticked session.
* The new sticked session is returned or NULL in case of lack of memory.
* Sticked sessions should only be allocated this way, and must be
* freed using stksess_free().
* Increase table <t> sticked session counter.
*/
struct stksess *stksess_new(struct stktable *t, struct stktable_key *key)
{
struct stksess *ts;
if (unlikely(t->current == t->size)) {
if ( t->nopurge )
return NULL;
if (!stktable_trash_oldest(t, t->size >> 8))
return NULL;
}
ts = pool_alloc2(t->pool);
if (ts) {
t->current++;
stksess_init(t, ts, key);
}
return ts;
}
/*
* Lookup in table <t> for a sticked session identified by <key>.
* Returns pointer on requested sticked session or NULL if no one found.
*/
struct stksess *stktable_lookup(struct stktable *t, struct stktable_key *key)
{
struct ebmb_node *eb;
/* lookup on track session */
if (t->type == STKTABLE_TYPE_STRING)
eb = ebst_lookup_len(&t->keys, key->key, key->key_len);
else
eb = ebmb_lookup(&t->keys, key->key, t->key_size);
if (unlikely(!eb)) {
/* no session found */
return NULL;
}
/* Existing session, returns server id */
return ebmb_entry(eb, struct stksess, keys);
}
/*
* Store sticked session if not present in table.
* Il already present, update the existing session.
*/
int stktable_store(struct stktable *t, struct stksess *tsess, int sid)
{
struct stksess *ts;
struct ebmb_node *eb;
if (t->type == STKTABLE_TYPE_STRING)
eb = ebst_lookup(&(t->keys), (char *)tsess->keys.key);
else
eb = ebmb_lookup(&(t->keys), tsess->keys.key, t->key_size);
if (unlikely(!eb)) {
tsess->sid = sid;
ebmb_insert(&t->keys, &tsess->keys, t->key_size);
tsess->exps.key = tsess->expire = tick_add(now_ms, MS_TO_TICKS(t->expire));
eb32_insert(&t->exps, &tsess->exps);
if (t->expire) {
t->exp_task->expire = t->exp_next = tick_first(tsess->expire, t->exp_next);
task_queue(t->exp_task);
}
return 0;
}
/* Existing track session */
ts = ebmb_entry(eb, struct stksess, keys);
if ( ts->sid != sid )
ts->sid = sid;
return 1;
}
/*
* Trash expired sticked sessions from table <t>.
*/
static int stktable_trash_expired(struct stktable *t)
{
struct stksess *ts;
struct eb32_node *eb;
eb = eb32_lookup_ge(&t->exps, now_ms - TIMER_LOOK_BACK);
while (1) {
if (unlikely(!eb)) {
/* we might have reached the end of the tree, typically because
* <now_ms> is in the first half and we're first scanning the last
* half. Let's loop back to the beginning of the tree now.
*/
eb = eb32_first(&t->exps);
if (likely(!eb))
break;
}
if (likely(tick_is_lt(now_ms, eb->key))) {
/* timer not expired yet, revisit it later */
t->exp_next = eb->key;
return t->exp_next;
}
/* timer looks expired, detach it from the queue */
ts = eb32_entry(eb, struct stksess, exps);
eb = eb32_next(eb);
eb32_delete(&ts->exps);
if (!tick_is_expired(ts->expire, now_ms)) {
if (!tick_isset(ts->expire))
continue;
ts->exps.key = ts->expire;
eb32_insert(&t->exps, &ts->exps);
if (!eb || eb->key > ts->exps.key)
eb = &ts->exps;
continue;
}
/* session expired, trash it */
ebmb_delete(&ts->keys);
stksess_free(t, ts);
}
/* We have found no task to expire in any tree */
t->exp_next = TICK_ETERNITY;
return t->exp_next;
}
/*
* Task processing function to trash expired sticked sessions.
*/
static struct task *process_table_expire(struct task * task)
{
struct stktable *t = (struct stktable *)task->context;
task->expire = stktable_trash_expired(t);
return task;
}
/* Perform minimal intializations, report 0 in case of error, 1 if OK. */
int stktable_init(struct stktable *t)
{
if (t->size) {
memset(&t->keys, 0, sizeof(t->keys));
memset(&t->exps, 0, sizeof(t->exps));
t->pool = create_pool("sticktables", sizeof(struct stksess) + t->key_size, MEM_F_SHARED);
t->exp_next = TICK_ETERNITY;
if ( t->expire ) {
t->exp_task = task_new();
t->exp_task->process = process_table_expire;
t->exp_task->expire = TICK_ETERNITY;
t->exp_task->context = (void *)t;
}
return t->pool != NULL;
}
return 1;
}
/*
* Configuration keywords of known table types
*/
struct stktable_type stktable_types[STKTABLE_TYPES] = { { "ip", 0, 4 } ,
{ "integer", 0, 4 },
{ "string", STKTABLE_TYPEFLAG_CUSTOMKEYSIZE, 32 } };
/*
* Parse table type configuration.
* Returns 0 on successful parsing, else 1.
* <myidx> is set at next configuration <args> index.
*/
int stktable_parse_type(char **args, int *myidx, unsigned long *type, size_t *key_size)
{
for (*type = 0; *type < STKTABLE_TYPES; (*type)++) {
if (strcmp(args[*myidx], stktable_types[*type].kw) != 0)
continue;
*key_size = stktable_types[*type].default_size;
(*myidx)++;
if (stktable_types[*type].flags & STKTABLE_TYPEFLAG_CUSTOMKEYSIZE) {
if (strcmp("len", args[*myidx]) == 0) {
(*myidx)++;
*key_size = atol(args[*myidx]);
if ( !*key_size )
break;
/* null terminated string needs +1 for '\0'. */
(*key_size)++;
(*myidx)++;
}
}
return 0;
}
return 1;
}