include/types/server.h - haproxy - Gitiles

 /*
  * include/types/server.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 _TYPES_SERVER_H
 #define _TYPES_SERVER_H

 #include <netinet/in.h>
 #include <arpa/inet.h>

 #ifdef USE_OPENSSL
 #include <openssl/ssl.h>
 #endif

 #include <common/config.h>
 #include <common/mini-clist.h>
 #include <eb32tree.h>

 #include <types/connection.h>
 #include <types/counters.h>
 #include <types/freq_ctr.h>
 #include <types/obj_type.h>
 #include <types/proxy.h>
 #include <types/queue.h>
 #include <types/task.h>
 #include <types/checks.h>


 /* 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) */
 };

 /* 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    = 0x1,        /* the server was explicitly forced into maintenance */
 	SRV_ADMF_IMAINT    = 0x2,        /* the server has inherited the maintenance status from a tracked server */
 	SRV_ADMF_MAINT     = 0x3,        /* mask to check if any maintenance flag is present */
 	SRV_ADMF_FDRAIN    = 0x4,        /* the server was explicitly forced into drain state */
 	SRV_ADMF_IDRAIN    = 0x8,        /* the server has inherited the drain status from a tracked server */
 	SRV_ADMF_DRAIN     = 0xC,        /* mask to check if any drain flag is present */
 };

 /* server flags */
 #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 */

 /* 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 SSL and CN*/

 /* 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)

 #ifdef USE_OPENSSL
 /* server ssl options */
 #define SRV_SSL_O_NONE         0x0000
 #define SRV_SSL_O_NO_VMASK     0x000F /* force version mask */
 #define SRV_SSL_O_NO_SSLV3     0x0001 /* disable SSLv3 */
 #define SRV_SSL_O_NO_TLSV10    0x0002 /* disable TLSv1.0 */
 #define SRV_SSL_O_NO_TLSV11    0x0004 /* disable TLSv1.1 */
 #define SRV_SSL_O_NO_TLSV12    0x0008 /* disable TLSv1.2 */
 /* 0x000F reserved for 'no' protocol version options */
 #define SRV_SSL_O_USE_VMASK    0x00F0 /* force version mask */
 #define SRV_SSL_O_USE_SSLV3    0x0010 /* force SSLv3 */
 #define SRV_SSL_O_USE_TLSV10   0x0020 /* force TLSv1.0 */
 #define SRV_SSL_O_USE_TLSV11   0x0040 /* force TLSv1.1 */
 #define SRV_SSL_O_USE_TLSV12   0x0080 /* force TLSv1.2 */
 /* 0x00F0 reserved for 'force' protocol version options */
 #define SRV_SSL_O_NO_TLS_TICKETS 0x0100 /* disable session resumption tickets */
 #define SRV_SSL_O_NO_REUSE     0x200  /* disable session reuse */
 #endif

 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 server {
 	enum obj_type obj_type;                 /* object type == OBJ_TYPE_SERVER */
 	enum srv_state state, prev_state;       /* server state among SRV_ST_* */
 	enum srv_admin admin, prev_admin;       /* server maintenance status : SRV_ADMF_* */
 	unsigned char flags;                    /* server flags (SRV_F_*) */
 	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 */
 	int pp_opts;				/* proxy protocol options (SRV_PP_*) */

 	struct proxy *proxy;			/* the proxy this server belongs to */
 	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 */
 	int maxqueue;				/* maximum number of pending connections allowed */
 	struct freq_ctr sess_per_sec;		/* sessions per second on this server */
 	struct srvcounters counters;		/* statistics counters */

 	struct list pendconns;			/* pending connections */
 	struct list actconns;			/* active 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 <track> in <track>'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_* */
 	int slowstart;				/* slowstart time in seconds (ms in the conf) */

 	char *id;				/* just for identification */
 	unsigned iweight,uweight, eweight;	/* initial weight, user-specified weight, and effective weight */
 	unsigned wscore;			/* weight score, used during srv map computation */
 	unsigned prev_eweight;			/* eweight before last change */
 	unsigned rweight;			/* remainer of weight in the current LB tree */
 	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 */
 	struct xprt_ops *xprt;                  /* transport-layer operations */
 	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 */

 	struct check check;                     /* health-check specific configuration */
 	struct check agent;                     /* agent specific configuration */

 	char *resolvers_id;			/* resolvers section used by this server */
 	char *hostname;				/* server hostname */
 	struct dns_resolution *resolution;	/* server name resolution */
 	int resolver_family_priority;		/* which IP family should the resolver use when both are returned */

 #ifdef USE_OPENSSL
 	int use_ssl;				/* ssl enabled */
 	struct {
 		SSL_CTX *ctx;
 		SSL_SESSION *reused_sess;
 		char *ciphers;			/* cipher suite to use if non-null */
 		int options;			/* ssl options */
 		int verify;			/* verify method (set of SSL_VERIFY_* flags) */
 		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 */
 	} ssl_ctx;
 #endif
 	struct {
 		const char *file;		/* file where the section appears */
 		int line;			/* line where the section appears */
 		struct eb32_node id;		/* place in the tree of used IDs */
 	} conf;					/* config information */
 };

 /* 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 /* _TYPES_SERVER_H */

 /*
  * Local variables:
  *  c-indent-level: 8
  *  c-basic-offset: 8
  * End:
  */
	/*
	* include/types/server.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 _TYPES_SERVER_H
	#define _TYPES_SERVER_H

	#include <netinet/in.h>
	#include <arpa/inet.h>

	#ifdef USE_OPENSSL
	#include <openssl/ssl.h>
	#endif

	#include <common/config.h>
	#include <common/mini-clist.h>
	#include <eb32tree.h>

	#include <types/connection.h>
	#include <types/counters.h>
	#include <types/freq_ctr.h>
	#include <types/obj_type.h>
	#include <types/proxy.h>
	#include <types/queue.h>
	#include <types/task.h>
	#include <types/checks.h>


	/* 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) */
	};

	/* 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 = 0x1, /* the server was explicitly forced into maintenance */
	SRV_ADMF_IMAINT = 0x2, /* the server has inherited the maintenance status from a tracked server */
	SRV_ADMF_MAINT = 0x3, /* mask to check if any maintenance flag is present */
	SRV_ADMF_FDRAIN = 0x4, /* the server was explicitly forced into drain state */
	SRV_ADMF_IDRAIN = 0x8, /* the server has inherited the drain status from a tracked server */
	SRV_ADMF_DRAIN = 0xC, /* mask to check if any drain flag is present */
	};

	/* server flags */
	#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 */

	/* 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 SSL and CN*/

	/* 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)

	#ifdef USE_OPENSSL
	/* server ssl options */
	#define SRV_SSL_O_NONE 0x0000
	#define SRV_SSL_O_NO_VMASK 0x000F /* force version mask */
	#define SRV_SSL_O_NO_SSLV3 0x0001 /* disable SSLv3 */
	#define SRV_SSL_O_NO_TLSV10 0x0002 /* disable TLSv1.0 */
	#define SRV_SSL_O_NO_TLSV11 0x0004 /* disable TLSv1.1 */
	#define SRV_SSL_O_NO_TLSV12 0x0008 /* disable TLSv1.2 */
	/* 0x000F reserved for 'no' protocol version options */
	#define SRV_SSL_O_USE_VMASK 0x00F0 /* force version mask */
	#define SRV_SSL_O_USE_SSLV3 0x0010 /* force SSLv3 */
	#define SRV_SSL_O_USE_TLSV10 0x0020 /* force TLSv1.0 */
	#define SRV_SSL_O_USE_TLSV11 0x0040 /* force TLSv1.1 */
	#define SRV_SSL_O_USE_TLSV12 0x0080 /* force TLSv1.2 */
	/* 0x00F0 reserved for 'force' protocol version options */
	#define SRV_SSL_O_NO_TLS_TICKETS 0x0100 /* disable session resumption tickets */
	#define SRV_SSL_O_NO_REUSE 0x200 /* disable session reuse */
	#endif

	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 server {
	enum obj_type obj_type; /* object type == OBJ_TYPE_SERVER */
	enum srv_state state, prev_state; /* server state among SRV_ST_* */
	enum srv_admin admin, prev_admin; /* server maintenance status : SRV_ADMF_* */
	unsigned char flags; /* server flags (SRV_F_) /
	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 */
	int pp_opts; /* proxy protocol options (SRV_PP_) /

	struct proxy proxy; / the proxy this server belongs to */
	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 */
	int maxqueue; /* maximum number of pending connections allowed */
	struct freq_ctr sess_per_sec; /* sessions per second on this server */
	struct srvcounters counters; /* statistics counters */

	struct list pendconns; /* pending connections */
	struct list actconns; /* active 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 <track> in <track>'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_* */
	int slowstart; /* slowstart time in seconds (ms in the conf) */

	char id; / just for identification */
	unsigned iweight,uweight, eweight; /* initial weight, user-specified weight, and effective weight */
	unsigned wscore; /* weight score, used during srv map computation */
	unsigned prev_eweight; /* eweight before last change */
	unsigned rweight; /* remainer of weight in the current LB tree */
	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 */
	struct xprt_ops xprt; / transport-layer operations */
	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 */

	struct check check; /* health-check specific configuration */
	struct check agent; /* agent specific configuration */

	char resolvers_id; / resolvers section used by this server */
	char hostname; / server hostname */
	struct dns_resolution resolution; / server name resolution */
	int resolver_family_priority; /* which IP family should the resolver use when both are returned */

	#ifdef USE_OPENSSL
	int use_ssl; /* ssl enabled */
	struct {
	SSL_CTX *ctx;
	SSL_SESSION *reused_sess;
	char ciphers; / cipher suite to use if non-null */
	int options; /* ssl options */
	int verify; /* verify method (set of SSL_VERIFY_* flags) */
	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 */
	} ssl_ctx;
	#endif
	struct {
	const char file; / file where the section appears */
	int line; /* line where the section appears */
	struct eb32_node id; /* place in the tree of used IDs */
	} conf; /* config information */
	};

	/* 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 /* _TYPES_SERVER_H */

	/*
	* Local variables:
	* c-indent-level: 8
	* c-basic-offset: 8
	* End:
	*/