src/lb_map.c - haproxy - Gitiles

 /*
  * Map-based load-balancing (RR and HASH)
  *
  * Copyright 2000-2009 Willy Tarreau <w@1wt.eu>
  *
  * 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 <common/compat.h>
 #include <common/config.h>
 #include <common/debug.h>
 #include <eb32tree.h>

 #include <types/global.h>
 #include <types/server.h>

 #include <proto/backend.h>
 #include <proto/proto_http.h>
 #include <proto/proto_tcp.h>
 #include <proto/queue.h>

 /* this function updates the map according to server <srv>'s new state */
 static void map_set_server_status_down(struct server *srv)
 {
 	struct proxy *p = srv->proxy;

 	if (!srv_lb_status_changed(srv))
 		return;

 	if (srv_is_usable(srv))
 		goto out_update_state;

 	/* FIXME: could be optimized since we know what changed */
 	recount_servers(p);
 	update_backend_weight(p);
 	p->lbprm.map.state |= LB_MAP_RECALC;
  out_update_state:
 	srv_lb_commit_status(srv);
 }

 /* This function updates the map according to server <srv>'s new state */
 static void map_set_server_status_up(struct server *srv)
 {
 	struct proxy *p = srv->proxy;

 	if (!srv_lb_status_changed(srv))
 		return;

 	if (!srv_is_usable(srv))
 		goto out_update_state;

 	/* FIXME: could be optimized since we know what changed */
 	recount_servers(p);
 	update_backend_weight(p);
 	p->lbprm.map.state |= LB_MAP_RECALC;
  out_update_state:
 	srv_lb_commit_status(srv);
 }

 /* This function recomputes the server map for proxy px. It relies on
  * px->lbprm.tot_wact, tot_wbck, tot_used, tot_weight, so it must be
  * called after recount_servers(). It also expects px->lbprm.map.srv
  * to be allocated with the largest size needed. It updates tot_weight.
  */
 void recalc_server_map(struct proxy *px)
 {
 	int o, tot, flag;
 	struct server *cur, *best;

 	switch (px->lbprm.tot_used) {
 	case 0:	/* no server */
 		px->lbprm.map.state &= ~LB_MAP_RECALC;
 		return;
 	default:
 		tot = px->lbprm.tot_weight;
 		break;
 	}

 	/* here we *know* that we have some servers */
 	if (px->srv_act)
 		flag = 0;
 	else
 		flag = SRV_F_BACKUP;

 	/* this algorithm gives priority to the first server, which means that
 	 * it will respect the declaration order for equivalent weights, and
 	 * that whatever the weights, the first server called will always be
 	 * the first declared. This is an important asumption for the backup
 	 * case, where we want the first server only.
 	 */
 	for (cur = px->srv; cur; cur = cur->next)
 		cur->wscore = 0;

 	for (o = 0; o < tot; o++) {
 		int max = 0;
 		best = NULL;
 		for (cur = px->srv; cur; cur = cur->next) {
 			if ((cur->flags & SRV_F_BACKUP) == flag &&
 			    srv_is_usable(cur)) {
 				int v;

 				/* If we are forced to return only one server, we don't want to
 				 * go further, because we would return the wrong one due to
 				 * divide overflow.
 				 */
 				if (tot == 1) {
 					best = cur;
 					/* note that best->wscore will be wrong but we don't care */
 					break;
 				}

 				cur->wscore += cur->eweight;
 				v = (cur->wscore + tot) / tot; /* result between 0 and 3 */
 				if (best == NULL || v > max) {
 					max = v;
 					best = cur;
 				}
 			}
 		}
 		px->lbprm.map.srv[o] = best;
 		best->wscore -= tot;
 	}
 	px->lbprm.map.state &= ~LB_MAP_RECALC;
 }

 /* This function is responsible of building the server MAP for map-based LB
  * algorithms, allocating the map, and setting p->lbprm.wmult to the GCD of the
  * weights if applicable. It should be called only once per proxy, at config
  * time.
  */
 void init_server_map(struct proxy *p)
 {
 	struct server *srv;
 	int pgcd;
 	int act, bck;

 	p->lbprm.set_server_status_up   = map_set_server_status_up;
 	p->lbprm.set_server_status_down = map_set_server_status_down;
 	p->lbprm.update_server_eweight = NULL;

 	if (!p->srv)
 		return;

 	/* We will factor the weights to reduce the table,
 	 * using Euclide's largest common divisor algorithm.
 	 * Since we may have zero weights, we have to first
 	 * find a non-zero weight server.
 	 */
 	pgcd = 1;
 	srv = p->srv;
 	while (srv && !srv->uweight)
 		srv = srv->next;

 	if (srv) {
 		pgcd = srv->uweight; /* note: cannot be zero */
 		while (pgcd > 1 && (srv = srv->next)) {
 			int w = srv->uweight;
 			while (w) {
 				int t = pgcd % w;
 				pgcd = w;
 				w = t;
 			}
 		}
 	}

 	/* It is sometimes useful to know what factor to apply
 	 * to the backend's effective weight to know its real
 	 * weight.
 	 */
 	p->lbprm.wmult = pgcd;

 	act = bck = 0;
 	for (srv = p->srv; srv; srv = srv->next) {
 		srv->eweight = (srv->uweight * p->lbprm.wdiv + p->lbprm.wmult - 1) / p->lbprm.wmult;
 		srv_lb_commit_status(srv);

 		if (srv->flags & SRV_F_BACKUP)
 			bck += srv->eweight;
 		else
 			act += srv->eweight;
 	}

 	/* this is the largest map we will ever need for this servers list */
 	if (act < bck)
 		act = bck;

 	if (!act)
 		act = 1;

 	p->lbprm.map.srv = (struct server **)calloc(act, sizeof(struct server *));
 	/* recounts servers and their weights */
 	p->lbprm.map.state = LB_MAP_RECALC;
 	recount_servers(p);
 	update_backend_weight(p);
 	recalc_server_map(p);
 }

 /*
  * This function tries to find a running server with free connection slots for
  * the proxy <px> following the round-robin method.
  * If any server is found, it will be returned and px->lbprm.map.rr_idx will be updated
  * to point to the next server. If no valid server is found, NULL is returned.
  */
 struct server *map_get_server_rr(struct proxy *px, struct server *srvtoavoid)
 {
 	int newidx, avoididx;
 	struct server *srv, *avoided;

 	if (px->lbprm.tot_weight == 0)
 		return NULL;

 	if (px->lbprm.map.state & LB_MAP_RECALC)
 		recalc_server_map(px);

 	if (px->lbprm.map.rr_idx < 0 || px->lbprm.map.rr_idx >= px->lbprm.tot_weight)
 		px->lbprm.map.rr_idx = 0;
 	newidx = px->lbprm.map.rr_idx;

 	avoided = NULL;
 	avoididx = 0; /* shut a gcc warning */
 	do {
 		srv = px->lbprm.map.srv[newidx++];
 		if (!srv->maxconn || (!srv->nbpend && srv->served < srv_dynamic_maxconn(srv))) {
 			/* make sure it is not the server we are try to exclude... */
 			if (srv != srvtoavoid) {
 				px->lbprm.map.rr_idx = newidx;
 				return srv;
 			}

 			avoided = srv;	/* ...but remember that is was selected yet avoided */
 			avoididx = newidx;
 		}
 		if (newidx == px->lbprm.tot_weight)
 			newidx = 0;
 	} while (newidx != px->lbprm.map.rr_idx);

 	if (avoided)
 		px->lbprm.map.rr_idx = avoididx;

 	/* return NULL or srvtoavoid if found */
 	return avoided;
 }

 /*
  * This function returns the running server from the map at the location
  * pointed to by the result of a modulo operation on <hash>. The server map may
  * be recomputed if required before being looked up. If any server is found, it
  * will be returned.  If no valid server is found, NULL is returned.
  */
 struct server *map_get_server_hash(struct proxy *px, unsigned int hash)
 {
 	if (px->lbprm.tot_weight == 0)
 		return NULL;

 	if (px->lbprm.map.state & LB_MAP_RECALC)
 		recalc_server_map(px);

 	return px->lbprm.map.srv[hash % px->lbprm.tot_weight];
 }


 /*
  * Local variables:
  *  c-indent-level: 8
  *  c-basic-offset: 8
  * End:
  */
	/*
	* Map-based load-balancing (RR and HASH)
	*
	* Copyright 2000-2009 Willy Tarreau <w@1wt.eu>
	*
	* 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 <common/compat.h>
	#include <common/config.h>
	#include <common/debug.h>
	#include <eb32tree.h>

	#include <types/global.h>
	#include <types/server.h>

	#include <proto/backend.h>
	#include <proto/proto_http.h>
	#include <proto/proto_tcp.h>
	#include <proto/queue.h>

	/* this function updates the map according to server <srv>'s new state */
	static void map_set_server_status_down(struct server *srv)
	{
	struct proxy *p = srv->proxy;

	if (!srv_lb_status_changed(srv))
	return;

	if (srv_is_usable(srv))
	goto out_update_state;

	/* FIXME: could be optimized since we know what changed */
	recount_servers(p);
	update_backend_weight(p);
	p->lbprm.map.state \|= LB_MAP_RECALC;
	out_update_state:
	srv_lb_commit_status(srv);
	}

	/* This function updates the map according to server <srv>'s new state */
	static void map_set_server_status_up(struct server *srv)
	{
	struct proxy *p = srv->proxy;

	if (!srv_lb_status_changed(srv))
	return;

	if (!srv_is_usable(srv))
	goto out_update_state;

	/* FIXME: could be optimized since we know what changed */
	recount_servers(p);
	update_backend_weight(p);
	p->lbprm.map.state \|= LB_MAP_RECALC;
	out_update_state:
	srv_lb_commit_status(srv);
	}

	/* This function recomputes the server map for proxy px. It relies on
	* px->lbprm.tot_wact, tot_wbck, tot_used, tot_weight, so it must be
	* called after recount_servers(). It also expects px->lbprm.map.srv
	* to be allocated with the largest size needed. It updates tot_weight.
	*/
	void recalc_server_map(struct proxy *px)
	{
	int o, tot, flag;
	struct server cur, best;

	switch (px->lbprm.tot_used) {
	case 0: /* no server */
	px->lbprm.map.state &= ~LB_MAP_RECALC;
	return;
	default:
	tot = px->lbprm.tot_weight;
	break;
	}

	/* here we know that we have some servers */
	if (px->srv_act)
	flag = 0;
	else
	flag = SRV_F_BACKUP;

	/* this algorithm gives priority to the first server, which means that
	* it will respect the declaration order for equivalent weights, and
	* that whatever the weights, the first server called will always be
	* the first declared. This is an important asumption for the backup
	* case, where we want the first server only.
	*/
	for (cur = px->srv; cur; cur = cur->next)
	cur->wscore = 0;

	for (o = 0; o < tot; o++) {
	int max = 0;
	best = NULL;
	for (cur = px->srv; cur; cur = cur->next) {
	if ((cur->flags & SRV_F_BACKUP) == flag &&
	srv_is_usable(cur)) {
	int v;

	/* If we are forced to return only one server, we don't want to
	* go further, because we would return the wrong one due to
	* divide overflow.
	*/
	if (tot == 1) {
	best = cur;
	/* note that best->wscore will be wrong but we don't care */
	break;
	}

	cur->wscore += cur->eweight;
	v = (cur->wscore + tot) / tot; /* result between 0 and 3 */
	if (best == NULL \|\| v > max) {
	max = v;
	best = cur;
	}
	}
	}
	px->lbprm.map.srv[o] = best;
	best->wscore -= tot;
	}
	px->lbprm.map.state &= ~LB_MAP_RECALC;
	}

	/* This function is responsible of building the server MAP for map-based LB
	* algorithms, allocating the map, and setting p->lbprm.wmult to the GCD of the
	* weights if applicable. It should be called only once per proxy, at config
	* time.
	*/
	void init_server_map(struct proxy *p)
	{
	struct server *srv;
	int pgcd;
	int act, bck;

	p->lbprm.set_server_status_up = map_set_server_status_up;
	p->lbprm.set_server_status_down = map_set_server_status_down;
	p->lbprm.update_server_eweight = NULL;

	if (!p->srv)
	return;

	/* We will factor the weights to reduce the table,
	* using Euclide's largest common divisor algorithm.
	* Since we may have zero weights, we have to first
	* find a non-zero weight server.
	*/
	pgcd = 1;
	srv = p->srv;
	while (srv && !srv->uweight)
	srv = srv->next;

	if (srv) {
	pgcd = srv->uweight; /* note: cannot be zero */
	while (pgcd > 1 && (srv = srv->next)) {
	int w = srv->uweight;
	while (w) {
	int t = pgcd % w;
	pgcd = w;
	w = t;
	}
	}
	}

	/* It is sometimes useful to know what factor to apply
	* to the backend's effective weight to know its real
	* weight.
	*/
	p->lbprm.wmult = pgcd;

	act = bck = 0;
	for (srv = p->srv; srv; srv = srv->next) {
	srv->eweight = (srv->uweight * p->lbprm.wdiv + p->lbprm.wmult - 1) / p->lbprm.wmult;
	srv_lb_commit_status(srv);

	if (srv->flags & SRV_F_BACKUP)
	bck += srv->eweight;
	else
	act += srv->eweight;
	}

	/* this is the largest map we will ever need for this servers list */
	if (act < bck)
	act = bck;

	if (!act)
	act = 1;

	p->lbprm.map.srv = (struct server *)calloc(act, sizeof(struct server ));
	/* recounts servers and their weights */
	p->lbprm.map.state = LB_MAP_RECALC;
	recount_servers(p);
	update_backend_weight(p);
	recalc_server_map(p);
	}

	/*
	* This function tries to find a running server with free connection slots for
	* the proxy <px> following the round-robin method.
	* If any server is found, it will be returned and px->lbprm.map.rr_idx will be updated
	* to point to the next server. If no valid server is found, NULL is returned.
	*/
	struct server map_get_server_rr(struct proxy px, struct server *srvtoavoid)
	{
	int newidx, avoididx;
	struct server srv, avoided;

	if (px->lbprm.tot_weight == 0)
	return NULL;

	if (px->lbprm.map.state & LB_MAP_RECALC)
	recalc_server_map(px);

	if (px->lbprm.map.rr_idx < 0 \|\| px->lbprm.map.rr_idx >= px->lbprm.tot_weight)
	px->lbprm.map.rr_idx = 0;
	newidx = px->lbprm.map.rr_idx;

	avoided = NULL;
	avoididx = 0; /* shut a gcc warning */
	do {
	srv = px->lbprm.map.srv[newidx++];
	if (!srv->maxconn \|\| (!srv->nbpend && srv->served < srv_dynamic_maxconn(srv))) {
	/* make sure it is not the server we are try to exclude... */
	if (srv != srvtoavoid) {
	px->lbprm.map.rr_idx = newidx;
	return srv;
	}

	avoided = srv; /* ...but remember that is was selected yet avoided */
	avoididx = newidx;
	}
	if (newidx == px->lbprm.tot_weight)
	newidx = 0;
	} while (newidx != px->lbprm.map.rr_idx);

	if (avoided)
	px->lbprm.map.rr_idx = avoididx;

	/* return NULL or srvtoavoid if found */
	return avoided;
	}

	/*
	* This function returns the running server from the map at the location
	* pointed to by the result of a modulo operation on <hash>. The server map may
	* be recomputed if required before being looked up. If any server is found, it
	* will be returned. If no valid server is found, NULL is returned.
	*/
	struct server map_get_server_hash(struct proxy px, unsigned int hash)
	{
	if (px->lbprm.tot_weight == 0)
	return NULL;

	if (px->lbprm.map.state & LB_MAP_RECALC)
	recalc_server_map(px);

	return px->lbprm.map.srv[hash % px->lbprm.tot_weight];
	}


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