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haproxy/include/haproxy/server.h
Amaury Denoyelle bc2ebfa5a4 MEDIUM: server: extend refcount for all servers 
In a future patch, it will be possible to remove at runtime every
servers, both static and dynamic. This requires to extend the server
refcount for all instances.

First, refcount manipulation functions have been renamed to better
express the API usage.

* srv_refcount_use -> srv_take
The refcount is always initialize to 1 on the server creation in
new_server. It's also incremented for each check/agent configured on a
server instance.

* free_server -> srv_drop
This decrements the refcount and if null, the server is freed, so code
calling it must not use the server reference after it. As a bonus, this
function now returns the next server instance. This is useful when
calling on the server loop without having to save the next pointer
before each invocation.

In these functions, remove the checks that prevent refcount on
non-dynamic servers. Each reference to "dynamic" in variable/function
naming have been eliminated as well.
2021-08-25 15:53:54 +02:00

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/*
* include/haproxy/server.h
* This file defines everything related to servers.
*
* Copyright (C) 2000-2009 Willy Tarreau - w@1wt.eu
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, version 2.1
* exclusively.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef _HAPROXY_SERVER_H
#define _HAPROXY_SERVER_H
#include <unistd.h>
#include <haproxy/api.h>
#include <haproxy/applet-t.h>
#include <haproxy/freq_ctr.h>
#include <haproxy/proxy-t.h>
#include <haproxy/resolvers-t.h>
#include <haproxy/server-t.h>
#include <haproxy/task.h>
#include <haproxy/thread-t.h>
#include <haproxy/time.h>
__decl_thread(extern HA_SPINLOCK_T idle_conn_srv_lock);
extern struct idle_conns idle_conns[MAX_THREADS];
extern struct eb_root idle_conn_srv;
extern struct task *idle_conn_task;
extern struct list servers_list;
extern struct dict server_key_dict;
int srv_downtime(const struct server *s);
int srv_lastsession(const struct server *s);
int srv_getinter(const struct check *check);
int parse_server(const char *file, int linenum, char **args, struct proxy *curproxy, const struct proxy *defproxy, int parse_flags);
int srv_update_addr(struct server *s, void *ip, int ip_sin_family, const char *updater);
const char *srv_update_addr_port(struct server *s, const char *addr, const char *port, char *updater);
const char *srv_update_check_addr_port(struct server *s, const char *addr, const char *port);
const char *srv_update_agent_addr_port(struct server *s, const char *addr, const char *port);
struct server *server_find_by_id(struct proxy *bk, int id);
struct server *server_find_by_name(struct proxy *bk, const char *name);
struct server *server_find_best_match(struct proxy *bk, char *name, int id, int *diff);
void apply_server_state(void);
void srv_compute_all_admin_states(struct proxy *px);
int srv_set_addr_via_libc(struct server *srv, int *err_code);
int srv_init_addr(void);
struct server *cli_find_server(struct appctx *appctx, char *arg);
struct server *new_server(struct proxy *proxy);
void srv_take(struct server *srv);
struct server *srv_drop(struct server *srv);
int srv_init_per_thr(struct server *srv);
/* functions related to server name resolution */
int srv_prepare_for_resolution(struct server *srv, const char *hostname);
int srvrq_update_srv_status(struct server *s, int has_no_ip);
int snr_update_srv_status(struct server *s, int has_no_ip);
int srv_set_fqdn(struct server *srv, const char *fqdn, int resolv_locked);
const char *srv_update_fqdn(struct server *server, const char *fqdn, const char *updater, int dns_locked);
int snr_resolution_cb(struct resolv_requester *requester, struct dns_counters *counters);
int srvrq_resolution_error_cb(struct resolv_requester *requester, int error_code);
int snr_resolution_error_cb(struct resolv_requester *requester, int error_code);
struct server *snr_check_ip_callback(struct server *srv, void *ip, unsigned char *ip_family);
struct task *srv_cleanup_idle_conns(struct task *task, void *ctx, unsigned int state);
struct task *srv_cleanup_toremove_conns(struct task *task, void *context, unsigned int state);
int srv_apply_track(struct server *srv, struct proxy *curproxy);
/*
* Registers the server keyword list <kwl> as a list of valid keywords for next
* parsing sessions.
*/
void srv_register_keywords(struct srv_kw_list *kwl);
/* Return a pointer to the server keyword <kw>, or NULL if not found. */
struct srv_kw *srv_find_kw(const char *kw);
/* Dumps all registered "server" keywords to the <out> string pointer. */
void srv_dump_kws(char **out);
/* Recomputes the server's eweight based on its state, uweight, the current time,
* and the proxy's algorithm. To be used after updating sv->uweight. The warmup
* state is automatically disabled if the time is elapsed.
*/
void server_recalc_eweight(struct server *sv, int must_update);
/*
* Parses weight_str and configures sv accordingly.
* Returns NULL on success, error message string otherwise.
*/
const char *server_parse_weight_change_request(struct server *sv,
const char *weight_str);
/*
* Parses addr_str and configures sv accordingly. updater precise
* the source of the change in the associated message log.
* Returns NULL on success, error message string otherwise.
*/
const char *server_parse_addr_change_request(struct server *sv,
const char *addr_str, const char *updater);
/*
* Parses maxconn_str and configures sv accordingly.
* Returns NULL on success, error message string otherwise.
*/
const char *server_parse_maxconn_change_request(struct server *sv,
const char *maxconn_str);
/* Shutdown all connections of a server. The caller must pass a termination
* code in <why>, which must be one of SF_ERR_* indicating the reason for the
* shutdown.
*/
void srv_shutdown_streams(struct server *srv, int why);
/* Shutdown all connections of all backup servers of a proxy. The caller must
* pass a termination code in <why>, which must be one of SF_ERR_* indicating
* the reason for the shutdown.
*/
void srv_shutdown_backup_streams(struct proxy *px, int why);
void srv_append_status(struct buffer *msg, struct server *s, struct check *,
int xferred, int forced);
void srv_set_stopped(struct server *s, const char *reason, struct check *check);
void srv_set_running(struct server *s, const char *reason, struct check *check);
void srv_set_stopping(struct server *s, const char *reason, struct check *check);
/* Enables admin flag <mode> (among SRV_ADMF_*) on server <s>. This is used to
* enforce either maint mode or drain mode. It is not allowed to set more than
* one flag at once. The equivalent "inherited" flag is propagated to all
* tracking servers. Maintenance mode disables health checks (but not agent
* checks). When either the flag is already set or no flag is passed, nothing
* is done. If <cause> is non-null, it will be displayed at the end of the log
* lines to justify the state change.
*/
void srv_set_admin_flag(struct server *s, enum srv_admin mode, const char *cause);
/* Disables admin flag <mode> (among SRV_ADMF_*) on server <s>. This is used to
* stop enforcing either maint mode or drain mode. It is not allowed to set more
* than one flag at once. The equivalent "inherited" flag is propagated to all
* tracking servers. Leaving maintenance mode re-enables health checks. When
* either the flag is already cleared or no flag is passed, nothing is done.
*/
void srv_clr_admin_flag(struct server *s, enum srv_admin mode);
/* Calculates the dynamic persitent cookie for a server, if a secret key has
* been provided.
*/
void srv_set_dyncookie(struct server *s);
/* increase the number of cumulated connections on the designated server */
static inline void srv_inc_sess_ctr(struct server *s)
{
_HA_ATOMIC_INC(&s->counters.cum_sess);
HA_ATOMIC_UPDATE_MAX(&s->counters.sps_max,
update_freq_ctr(&s->sess_per_sec, 1));
}
/* set the time of last session on the designated server */
static inline void srv_set_sess_last(struct server *s)
{
s->counters.last_sess = now.tv_sec;
}
/* returns the current server throttle rate between 0 and 100% */
static inline unsigned int server_throttle_rate(struct server *sv)
{
struct proxy *px = sv->proxy;
/* when uweight is 0, we're in soft-stop so that cannot be a slowstart,
* thus the throttle is 100%.
*/
if (!sv->uweight)
return 100;
return (100U * px->lbprm.wmult * sv->cur_eweight + px->lbprm.wdiv - 1) / (px->lbprm.wdiv * sv->uweight);
}
/*
* Return true if the server has a zero user-weight, meaning it's in draining
* mode (ie: not taking new non-persistent connections).
*/
static inline int server_is_draining(const struct server *s)
{
return !s->uweight || (s->cur_admin & SRV_ADMF_DRAIN);
}
/* Puts server <s> into maintenance mode, and propagate that status down to all
* tracking servers.
*/
static inline void srv_adm_set_maint(struct server *s)
{
srv_set_admin_flag(s, SRV_ADMF_FMAINT, NULL);
srv_clr_admin_flag(s, SRV_ADMF_FDRAIN);
}
/* Puts server <s> into drain mode, and propagate that status down to all
* tracking servers.
*/
static inline void srv_adm_set_drain(struct server *s)
{
srv_set_admin_flag(s, SRV_ADMF_FDRAIN, NULL);
srv_clr_admin_flag(s, SRV_ADMF_FMAINT);
}
/* Puts server <s> into ready mode, and propagate that status down to all
* tracking servers.
*/
static inline void srv_adm_set_ready(struct server *s)
{
srv_clr_admin_flag(s, SRV_ADMF_FDRAIN);
srv_clr_admin_flag(s, SRV_ADMF_FMAINT);
}
/* appends an initaddr method to the existing list. Returns 0 on failure. */
static inline int srv_append_initaddr(unsigned int *list, enum srv_initaddr addr)
{
int shift = 0;
while (shift + 3 < 32 && (*list >> shift))
shift += 3;
if (shift + 3 > 32)
return 0;
*list |= addr << shift;
return 1;
}
/* returns the next initaddr method and removes it from <list> by shifting
* it right (implying that it MUST NOT be the server's. Returns SRV_IADDR_END
* at the end.
*/
static inline enum srv_initaddr srv_get_next_initaddr(unsigned int *list)
{
enum srv_initaddr ret;
ret = *list & 7;
*list >>= 3;
return ret;
}
static inline void srv_use_conn(struct server *srv, struct connection *conn)
{
unsigned int curr;
curr = _HA_ATOMIC_ADD_FETCH(&srv->curr_used_conns, 1);
/* It's ok not to do that atomically, we don't need an
* exact max.
*/
if (srv->max_used_conns < curr)
srv->max_used_conns = curr;
if (srv->est_need_conns < curr)
srv->est_need_conns = curr;
}
static inline void conn_delete_from_tree(struct ebmb_node *node)
{
ebmb_delete(node);
memset(node, 0, sizeof(*node));
}
/* removes an idle conn after updating the server idle conns counters */
static inline void srv_release_conn(struct server *srv, struct connection *conn)
{
if (conn->flags & CO_FL_LIST_MASK) {
/* The connection is currently in the server's idle list, so tell it
* there's one less connection available in that list.
*/
_HA_ATOMIC_DEC(&srv->curr_idle_conns);
_HA_ATOMIC_DEC(conn->flags & CO_FL_SAFE_LIST ? &srv->curr_safe_nb : &srv->curr_idle_nb);
_HA_ATOMIC_DEC(&srv->curr_idle_thr[tid]);
}
else {
/* The connection is not private and not in any server's idle
* list, so decrement the current number of used connections
*/
_HA_ATOMIC_DEC(&srv->curr_used_conns);
}
/* Remove the connection from any tree (safe, idle or available) */
HA_SPIN_LOCK(IDLE_CONNS_LOCK, &idle_conns[tid].idle_conns_lock);
conn_delete_from_tree(&conn->hash_node->node);
HA_SPIN_UNLOCK(IDLE_CONNS_LOCK, &idle_conns[tid].idle_conns_lock);
}
/* This adds an idle connection to the server's list if the connection is
* reusable, not held by any owner anymore, but still has available streams.
*/
static inline int srv_add_to_idle_list(struct server *srv, struct connection *conn, int is_safe)
{
/* we try to keep the connection in the server's idle list
* if we don't have too many FD in use, and if the number of
* idle+current conns is lower than what was observed before
* last purge, or if we already don't have idle conns for the
* current thread and we don't exceed last count by global.nbthread.
*/
if (!(conn->flags & CO_FL_PRIVATE) &&
srv && srv->pool_purge_delay > 0 &&
((srv->proxy->options & PR_O_REUSE_MASK) != PR_O_REUSE_NEVR) &&
ha_used_fds < global.tune.pool_high_count &&
(srv->max_idle_conns == -1 || srv->max_idle_conns > srv->curr_idle_conns) &&
((eb_is_empty(&srv->per_thr[tid].safe_conns) &&
(is_safe || eb_is_empty(&srv->per_thr[tid].idle_conns))) ||
(ha_used_fds < global.tune.pool_low_count &&
(srv->curr_used_conns + srv->curr_idle_conns <=
MAX(srv->curr_used_conns, srv->est_need_conns) + srv->low_idle_conns))) &&
!conn->mux->used_streams(conn) && conn->mux->avail_streams(conn)) {
int retadd;
retadd = _HA_ATOMIC_ADD_FETCH(&srv->curr_idle_conns, 1);
if (retadd > srv->max_idle_conns) {
_HA_ATOMIC_DEC(&srv->curr_idle_conns);
return 0;
}
_HA_ATOMIC_DEC(&srv->curr_used_conns);
HA_SPIN_LOCK(IDLE_CONNS_LOCK, &idle_conns[tid].idle_conns_lock);
conn_delete_from_tree(&conn->hash_node->node);
if (is_safe) {
conn->flags = (conn->flags & ~CO_FL_LIST_MASK) | CO_FL_SAFE_LIST;
ebmb_insert(&srv->per_thr[tid].safe_conns, &conn->hash_node->node, sizeof(conn->hash_node->hash));
_HA_ATOMIC_INC(&srv->curr_safe_nb);
} else {
conn->flags = (conn->flags & ~CO_FL_LIST_MASK) | CO_FL_IDLE_LIST;
ebmb_insert(&srv->per_thr[tid].idle_conns, &conn->hash_node->node, sizeof(conn->hash_node->hash));
_HA_ATOMIC_INC(&srv->curr_idle_nb);
}
HA_SPIN_UNLOCK(IDLE_CONNS_LOCK, &idle_conns[tid].idle_conns_lock);
_HA_ATOMIC_INC(&srv->curr_idle_thr[tid]);
__ha_barrier_full();
if ((volatile void *)srv->idle_node.node.leaf_p == NULL) {
HA_SPIN_LOCK(OTHER_LOCK, &idle_conn_srv_lock);
if ((volatile void *)srv->idle_node.node.leaf_p == NULL) {
srv->idle_node.key = tick_add(srv->pool_purge_delay,
now_ms);
eb32_insert(&idle_conn_srv, &srv->idle_node);
if (!task_in_wq(idle_conn_task) && !
task_in_rq(idle_conn_task)) {
task_schedule(idle_conn_task,
srv->idle_node.key);
}
}
HA_SPIN_UNLOCK(OTHER_LOCK, &idle_conn_srv_lock);
}
return 1;
}
return 0;
}
/* retrieve a connection from its <hash> in <tree>
* returns NULL if no connection found
*/
static inline struct connection *srv_lookup_conn(struct eb_root *tree, uint64_t hash)
{
struct ebmb_node *node = NULL;
struct connection *conn = NULL;
struct conn_hash_node *hash_node = NULL;
node = ebmb_lookup(tree, &hash, sizeof(hash_node->hash));
if (node) {
hash_node = ebmb_entry(node, struct conn_hash_node, node);
conn = hash_node->conn;
}
return conn;
}
/* retrieve the next connection sharing the same hash as <conn>
* returns NULL if no connection found
*/
static inline struct connection *srv_lookup_conn_next(struct connection *conn)
{
struct ebmb_node *node = NULL;
struct connection *next_conn = NULL;
struct conn_hash_node *hash_node = NULL;
node = ebmb_next_dup(&conn->hash_node->node);
if (node) {
hash_node = ebmb_entry(node, struct conn_hash_node, node);
next_conn = hash_node->conn;
}
return next_conn;
}
#endif /* _HAPROXY_SERVER_H */
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/
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