/* * 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 #include #include #include #include #include #include #include #include #include __decl_thread(extern HA_SPINLOCK_T idle_conn_srv_lock); extern struct eb_root idle_conn_srv; extern struct task *idle_conn_task; 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, struct proxy *defproxy, int parse_addr, int in_peers_section, int initial_resolve); int update_server_addr(struct server *s, void *ip, int ip_sin_family, const char *updater); const char *update_server_addr_port(struct server *s, const char *addr, const char *port, char *updater); 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); /* functions related to server name resolution */ int snr_update_srv_status(struct server *s, int has_no_ip); const char *update_server_fqdn(struct server *server, const char *fqdn, const char *updater, int dns_locked); int snr_resolution_cb(struct dns_requester *requester, struct dns_nameserver *nameserver); int snr_resolution_error_cb(struct dns_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_connections(struct task *task, void *ctx, unsigned short state); struct task *srv_cleanup_toremove_connections(struct task *task, void *context, unsigned short state); /* * Registers the server keyword list 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 , or NULL if not found. */ struct srv_kw *srv_find_kw(const char *kw); /* Dumps all registered "server" keywords to the 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 , 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 , 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 (among SRV_ADMF_*) on server . 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 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 (among SRV_ADMF_*) on server . 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_ADD(&s->counters.cum_sess, 1); 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 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 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 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 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) { _HA_ATOMIC_ADD(&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 < srv->curr_used_conns) srv->max_used_conns = srv->curr_used_conns; if (srv->est_need_conns < srv->curr_used_conns) srv->est_need_conns = srv->curr_used_conns; } static inline void srv_del_conn_from_list(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_SUB(&srv->curr_idle_conns, 1); _HA_ATOMIC_SUB(conn->flags & CO_FL_SAFE_LIST ? &srv->curr_safe_nb : &srv->curr_idle_nb, 1); _HA_ATOMIC_SUB(&srv->curr_idle_thr[tid], 1); } else { /* The connection is not private and not in any server's idle * list, so decrement the current number of used connections */ _HA_ATOMIC_SUB(&srv->curr_used_conns, 1); } /* Remove the connection from any list (safe, idle or available) */ MT_LIST_DEL((struct mt_list *)&conn->list); } /* 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) && ((MT_LIST_ISEMPTY(&srv->safe_conns[tid]) && (is_safe || MT_LIST_ISEMPTY(&srv->idle_conns[tid]))) || (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(&srv->curr_idle_conns, 1); if (retadd > srv->max_idle_conns) { _HA_ATOMIC_SUB(&srv->curr_idle_conns, 1); return 0; } _HA_ATOMIC_SUB(&srv->curr_used_conns, 1); MT_LIST_DEL(&conn->list); if (is_safe) { conn->flags = (conn->flags & ~CO_FL_LIST_MASK) | CO_FL_SAFE_LIST; MT_LIST_ADDQ(&srv->safe_conns[tid], (struct mt_list *)&conn->list); _HA_ATOMIC_ADD(&srv->curr_safe_nb, 1); } else { conn->flags = (conn->flags & ~CO_FL_LIST_MASK) | CO_FL_IDLE_LIST; MT_LIST_ADDQ(&srv->idle_conns[tid], (struct mt_list *)&conn->list); _HA_ATOMIC_ADD(&srv->curr_idle_nb, 1); } _HA_ATOMIC_ADD(&srv->curr_idle_thr[tid], 1); __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; } #endif /* _HAPROXY_SERVER_H */ /* * Local variables: * c-indent-level: 8 * c-basic-offset: 8 * End: */