/* * include/haproxy/server-t.h * This file defines everything related to servers. * * Copyright (C) 2000-2012 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_T_H #define _HAPROXY_SERVER_T_H #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* server states. Only SRV_ST_STOPPED indicates a down server. */ enum srv_state { SRV_ST_STOPPED = 0, /* the server is down. Please keep set to zero. */ SRV_ST_STARTING, /* the server is warming up (up but throttled) */ SRV_ST_RUNNING, /* the server is fully up */ SRV_ST_STOPPING, /* the server is up but soft-stopping (eg: 404) */ } __attribute__((packed)); /* Administrative status : a server runs in one of these 3 stats : * - READY : normal mode * - DRAIN : takes no new visitor, equivalent to weight == 0 * - MAINT : maintenance mode, no more traffic nor health checks. * * Each server may be in maintenance by itself or may inherit this status from * another server it tracks. It can also be in drain mode by itself or inherit * it from another server. Let's store these origins here as flags. These flags * are combined this way : * * FMAINT IMAINT FDRAIN IDRAIN Resulting state * 0 0 0 0 READY * 0 0 0 1 DRAIN * 0 0 1 x DRAIN * 0 1 x x MAINT * 1 x x x MAINT * * This can be simplified this way : * * state_str = (state & MAINT) ? "MAINT" : (state & DRAIN) : "DRAIN" : "READY" */ enum srv_admin { SRV_ADMF_FMAINT = 0x01, /* the server was explicitly forced into maintenance */ SRV_ADMF_IMAINT = 0x02, /* the server has inherited the maintenance status from a tracked server */ SRV_ADMF_MAINT = 0x23, /* mask to check if any maintenance flag is present */ SRV_ADMF_CMAINT = 0x04, /* the server is in maintenance because of the configuration */ SRV_ADMF_FDRAIN = 0x08, /* the server was explicitly forced into drain state */ SRV_ADMF_IDRAIN = 0x10, /* the server has inherited the drain status from a tracked server */ SRV_ADMF_DRAIN = 0x18, /* mask to check if any drain flag is present */ SRV_ADMF_RMAINT = 0x20, /* the server is down because of an IP address resolution failure */ SRV_ADMF_HMAINT = 0x40, /* the server FQDN has been set from socket stats */ } __attribute__((packed)); /* options for servers' "init-addr" parameter * this parameter may be used to drive HAProxy's behavior when parsing a server * address at start up time. * These values are stored as a list into an integer ordered from first to last * starting with the lowest to highest bits. SRV_IADDR_END (0) is used to * indicate the end of the list. 3 bits are enough to store each value. */ enum srv_initaddr { SRV_IADDR_END = 0, /* end of the list */ SRV_IADDR_NONE = 1, /* the server won't have any address at start up */ SRV_IADDR_LIBC = 2, /* address set using the libc DNS resolver */ SRV_IADDR_LAST = 3, /* we set the IP address found in state-file for this server */ SRV_IADDR_IP = 4, /* we set an arbitrary IP address to the server */ } __attribute__((packed)); /* server-state-file version */ #define SRV_STATE_FILE_VERSION 1 #define SRV_STATE_FILE_VERSION_MIN 1 #define SRV_STATE_FILE_VERSION_MAX 1 #define SRV_STATE_FILE_FIELD_NAMES \ "be_id " \ "be_name " \ "srv_id " \ "srv_name " \ "srv_addr " \ "srv_op_state " \ "srv_admin_state " \ "srv_uweight " \ "srv_iweight " \ "srv_time_since_last_change " \ "srv_check_status " \ "srv_check_result " \ "srv_check_health " \ "srv_check_state " \ "srv_agent_state " \ "bk_f_forced_id " \ "srv_f_forced_id " \ "srv_fqdn " \ "srv_port " \ "srvrecord" #define SRV_STATE_FILE_MAX_FIELDS 20 #define SRV_STATE_FILE_NB_FIELDS_VERSION_1 20 #define SRV_STATE_LINE_MAXLEN 512 /* server flags -- 32 bits */ #define SRV_F_BACKUP 0x0001 /* this server is a backup server */ #define SRV_F_MAPPORTS 0x0002 /* this server uses mapped ports */ #define SRV_F_NON_STICK 0x0004 /* never add connections allocated to this server to a stick table */ #define SRV_F_USE_NS_FROM_PP 0x0008 /* use namespace associated with connection if present */ #define SRV_F_FORCED_ID 0x0010 /* server's ID was forced in the configuration */ #define SRV_F_CHECKADDR 0x0020 /* this server has a check addr configured */ #define SRV_F_CHECKPORT 0x0040 /* this server has a check port configured */ #define SRV_F_AGENTADDR 0x0080 /* this server has a agent addr configured */ #define SRV_F_COOKIESET 0x0100 /* this server has a cookie configured, so don't generate dynamic cookies */ #define SRV_F_FASTOPEN 0x0200 /* Use TCP Fast Open to connect to server */ #define SRV_F_SOCKS4_PROXY 0x0400 /* this server uses SOCKS4 proxy */ #define SRV_F_NO_RESOLUTION 0x0800 /* disable runtime DNS resolution on this server */ /* configured server options for send-proxy (server->pp_opts) */ #define SRV_PP_V1 0x0001 /* proxy protocol version 1 */ #define SRV_PP_V2 0x0002 /* proxy protocol version 2 */ #define SRV_PP_V2_SSL 0x0004 /* proxy protocol version 2 with SSL */ #define SRV_PP_V2_SSL_CN 0x0008 /* proxy protocol version 2 with CN */ #define SRV_PP_V2_SSL_KEY_ALG 0x0010 /* proxy protocol version 2 with cert key algorithm */ #define SRV_PP_V2_SSL_SIG_ALG 0x0020 /* proxy protocol version 2 with cert signature algorithm */ #define SRV_PP_V2_SSL_CIPHER 0x0040 /* proxy protocol version 2 with cipher used */ #define SRV_PP_V2_AUTHORITY 0x0080 /* proxy protocol version 2 with authority */ #define SRV_PP_V2_CRC32C 0x0100 /* proxy protocol version 2 with crc32c */ #define SRV_PP_V2_UNIQUE_ID 0x0200 /* proxy protocol version 2 with unique ID */ /* function which act on servers need to return various errors */ #define SRV_STATUS_OK 0 /* everything is OK. */ #define SRV_STATUS_INTERNAL 1 /* other unrecoverable errors. */ #define SRV_STATUS_NOSRV 2 /* no server is available */ #define SRV_STATUS_FULL 3 /* the/all server(s) are saturated */ #define SRV_STATUS_QUEUED 4 /* the/all server(s) are saturated but the connection was queued */ /* various constants */ #define SRV_UWGHT_RANGE 256 #define SRV_UWGHT_MAX (SRV_UWGHT_RANGE) #define SRV_EWGHT_RANGE (SRV_UWGHT_RANGE * BE_WEIGHT_SCALE) #define SRV_EWGHT_MAX (SRV_UWGHT_MAX * BE_WEIGHT_SCALE) /* server ssl options */ #define SRV_SSL_O_NONE 0x0000 #define SRV_SSL_O_NO_TLS_TICKETS 0x0100 /* disable session resumption tickets */ #define SRV_SSL_O_NO_REUSE 0x200 /* disable session reuse */ #define SRV_SSL_O_EARLY_DATA 0x400 /* Allow using early data */ /* log servers ring's protocols options */ enum srv_log_proto { SRV_LOG_PROTO_LEGACY, // messages on TCP separated by LF SRV_LOG_PROTO_OCTET_COUNTING, // TCP frames: MSGLEN SP MSG }; struct pid_list { struct list list; pid_t pid; struct task *t; int status; int exited; }; /* A tree occurrence is a descriptor of a place in a tree, with a pointer back * to the server itself. */ struct server; struct tree_occ { struct server *server; struct eb32_node node; }; struct proxy; struct server { enum obj_type obj_type; /* object type == OBJ_TYPE_SERVER */ enum srv_state next_state, cur_state; /* server state among SRV_ST_* */ enum srv_admin next_admin, cur_admin; /* server maintenance status : SRV_ADMF_* */ signed char use_ssl; /* ssl enabled (1: on, 0: disabled, -1 forced off) */ unsigned int pp_opts; /* proxy protocol options (SRV_PP_*) */ struct server *next; int cklen; /* the len of the cookie, to speed up checks */ int rdr_len; /* the length of the redirection prefix */ char *cookie; /* the id set in the cookie */ char *rdr_pfx; /* the redirection prefix */ struct proxy *proxy; /* the proxy this server belongs to */ const struct mux_proto_list *mux_proto; /* the mux to use for all outgoing connections (specified by the "proto" keyword) */ int served; /* # of active sessions currently being served (ie not pending) */ int cur_sess; /* number of currently active sessions (including syn_sent) */ unsigned maxconn, minconn; /* max # of active sessions (0 = unlimited), min# for dynamic limit. */ int nbpend; /* number of pending connections */ unsigned int queue_idx; /* count of pending connections which have been de-queued */ int maxqueue; /* maximum number of pending connections allowed */ struct freq_ctr sess_per_sec; /* sessions per second on this server */ struct be_counters counters; /* statistics counters */ struct eb_root pendconns; /* pending connections */ struct mt_list actconns[MAX_THREADS]; /* active connections (used by "shutdown server sessions") */ struct mt_list *idle_conns; /* shareable idle connections*/ struct mt_list *safe_conns; /* safe idle connections */ struct list *available_conns; /* Connection in used, but with still new streams available */ unsigned int pool_purge_delay; /* Delay before starting to purge the idle conns pool */ unsigned int low_idle_conns; /* min idle connection count to start picking from other threads */ unsigned int max_idle_conns; /* Max number of connection allowed in the orphan connections list */ unsigned int curr_idle_conns; /* Current number of orphan idling connections, both the idle and the safe lists */ unsigned int curr_idle_nb; /* Current number of connections in the idle list */ unsigned int curr_safe_nb; /* Current number of connections in the safe list */ unsigned int curr_used_conns; /* Current number of used connections */ unsigned int max_used_conns; /* Max number of used connections (the counter is reset at each connection purges */ unsigned int est_need_conns; /* Estimate on the number of needed connections (max of curr and previous max_used) */ unsigned int next_takeover; /* thread ID to try to steal connections from next time */ unsigned int *curr_idle_thr; /* Current number of orphan idling connections per thread */ int max_reuse; /* Max number of requests on a same connection */ __decl_thread(HA_SPINLOCK_T lock); /* may enclose the proxy's lock, must not be taken under */ struct eb32_node idle_node; /* When to next do cleanup in the idle connections */ struct task *warmup; /* the task dedicated to the warmup when slowstart is set */ struct conn_src conn_src; /* connection source settings */ struct server *track; /* the server we're currently tracking, if any */ struct server *trackers; /* the list of servers tracking us, if any */ struct server *tracknext; /* next server tracking in 's trackers list */ char *trackit; /* temporary variable to make assignment deferrable */ int consecutive_errors; /* current number of consecutive errors */ int consecutive_errors_limit; /* number of consecutive errors that triggers an event */ short observe, onerror; /* observing mode: one of HANA_OBS_*; what to do on error: on of ANA_ONERR_* */ short onmarkeddown; /* what to do when marked down: one of HANA_ONMARKEDDOWN_* */ short onmarkedup; /* what to do when marked up: one of HANA_ONMARKEDUP_* */ unsigned int flags; /* server flags (SRV_F_*) */ int slowstart; /* slowstart time in seconds (ms in the conf) */ char *id; /* just for identification */ unsigned iweight,uweight, cur_eweight; /* initial weight, user-specified weight, and effective weight */ unsigned wscore; /* weight score, used during srv map computation */ unsigned next_eweight; /* next pending eweight to commit */ unsigned rweight; /* remainer of weight in the current LB tree */ unsigned cumulative_weight; /* weight of servers prior to this one in the same group, for chash balancing */ unsigned npos, lpos; /* next and last positions in the LB tree */ struct eb32_node lb_node; /* node used for tree-based load balancing */ struct eb_root *lb_tree; /* we want to know in what tree the server is */ struct server *next_full; /* next server in the temporary full list */ unsigned lb_nodes_tot; /* number of allocated lb_nodes (C-HASH) */ unsigned lb_nodes_now; /* number of lb_nodes placed in the tree (C-HASH) */ struct tree_occ *lb_nodes; /* lb_nodes_tot * struct tree_occ */ const struct netns_entry *netns; /* contains network namespace name or NULL. Network namespace comes from configuration */ /* warning, these structs are huge, keep them at the bottom */ struct sockaddr_storage addr; /* the address to connect to, doesn't include the port */ struct xprt_ops *xprt; /* transport-layer operations */ unsigned int svc_port; /* the port to connect to (for relevant families) */ unsigned down_time; /* total time the server was down */ time_t last_change; /* last time, when the state was changed */ int puid; /* proxy-unique server ID, used for SNMP, and "first" LB algo */ int tcp_ut; /* for TCP, user timeout */ int do_check; /* temporary variable used during parsing to denote if health checks must be enabled */ int do_agent; /* temporary variable used during parsing to denote if an auxiliary agent check must be enabled */ struct check check; /* health-check specific configuration */ struct check agent; /* agent specific configuration */ struct dns_requester *dns_requester; /* used to link a server to its DNS resolution */ char *resolvers_id; /* resolvers section used by this server */ struct dns_resolvers *resolvers; /* pointer to the resolvers structure used by this server */ char *lastaddr; /* the address string provided by the server-state file */ struct dns_options dns_opts; int hostname_dn_len; /* string length of the server hostname in Domain Name format */ char *hostname_dn; /* server hostname in Domain Name format */ char *hostname; /* server hostname */ struct sockaddr_storage init_addr; /* plain IP address specified on the init-addr line */ unsigned int init_addr_methods; /* initial address setting, 3-bit per method, ends at 0, enough to store 10 entries */ enum srv_log_proto log_proto; /* used proto to emit messages on server lines from ring section */ #ifdef USE_OPENSSL char *sni_expr; /* Temporary variable to store a sample expression for SNI */ struct { SSL_CTX *ctx; struct { unsigned char *ptr; int size; int allocated_size; char *sni; /* SNI used for the session */ } * reused_sess; char *ciphers; /* cipher suite to use if non-null */ #if (HA_OPENSSL_VERSION_NUMBER >= 0x10101000L && !defined OPENSSL_IS_BORINGSSL && !defined LIBRESSL_VERSION_NUMBER) char *ciphersuites; /* TLS 1.3 cipher suite to use if non-null */ #endif int options; /* ssl options */ int verify; /* verify method (set of SSL_VERIFY_* flags) */ struct tls_version_filter methods; /* ssl methods */ char *verify_host; /* hostname of certificate must match this host */ char *ca_file; /* CAfile to use on verify */ char *crl_file; /* CRLfile to use on verify */ char *client_crt; /* client certificate to send */ struct sample_expr *sni; /* sample expression for SNI */ #ifdef OPENSSL_NPN_NEGOTIATED char *npn_str; /* NPN protocol string */ int npn_len; /* NPN protocol string length */ #endif #ifdef TLSEXT_TYPE_application_layer_protocol_negotiation char *alpn_str; /* ALPN protocol string */ int alpn_len; /* ALPN protocol string length */ #endif } ssl_ctx; #endif struct dns_srvrq *srvrq; /* Pointer representing the DNS SRV requeest, if any */ struct list srv_rec_item; /* to attach server to a srv record item */ struct list ip_rec_item; /* to attach server to a A or AAAA record item */ struct ebpt_node host_dn; /* hostdn store for srvrq and state file matching*/ struct task *srvrq_check; /* Task testing SRV record expiration date for this server */ struct { const char *file; /* file where the section appears */ struct eb32_node id; /* place in the tree of used IDs */ struct ebpt_node name; /* place in the tree of used names */ int line; /* line where the section appears */ } conf; /* config information */ /* Template information used only for server objects which * serve as template filled at parsing time and used during * server allocations from server templates. */ struct { char *prefix; int nb_low; int nb_high; } tmpl_info; struct { long duration; short status, code; char reason[128]; } op_st_chg; /* operational status change's reason */ char adm_st_chg_cause[48]; /* administrative status change's cause */ struct sockaddr_storage socks4_addr; /* the address of the SOCKS4 Proxy, including the port */ EXTRA_COUNTERS(extra_counters); }; /* Storage structure to load server-state lines from a flat file into * an ebtree, for faster processing */ struct state_line { char *line; struct ebmb_node name_name; /* WARNING don't put anything after name_name, it's used by the key */ }; /* Descriptor for a "server" keyword. The ->parse() function returns 0 in case of * success, or a combination of ERR_* flags if an error is encountered. The * function pointer can be NULL if not implemented. The function also has an * access to the current "server" config line. The ->skip value tells the parser * how many words have to be skipped after the keyword. If the function needs to * parse more keywords, it needs to update cur_arg. */ struct srv_kw { const char *kw; int (*parse)(char **args, int *cur_arg, struct proxy *px, struct server *srv, char **err); int skip; /* nb min of args to skip, for use when kw is not handled */ int default_ok; /* non-zero if kw is supported in default-server section */ }; /* * A keyword list. It is a NULL-terminated array of keywords. It embeds a * struct list in order to be linked to other lists, allowing it to easily * be declared where it is needed, and linked without duplicating data nor * allocating memory. It is also possible to indicate a scope for the keywords. */ struct srv_kw_list { const char *scope; struct list list; struct srv_kw kw[VAR_ARRAY]; }; #endif /* _HAPROXY_SERVER_T_H */ /* * Local variables: * c-indent-level: 8 * c-basic-offset: 8 * End: */