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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [net/] [ipv4/] [ipvs/] [ip_vs_sed.c] - Rev 1765
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/* * IPVS: Shortest Expected Delay scheduling module * * Version: $Id: ip_vs_sed.c,v 1.1.1.1 2004-04-15 01:14:05 phoenix Exp $ * * Authors: Wensong Zhang <wensong@linuxvirtualserver.org> * * 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. * * Changes: * */ /* * The SED algorithm attempts to minimize each job's expected delay until * completion. The expected delay that the job will experience is * (Ci + 1) / Ui if sent to the ith server, in which Ci is the number of * jobs on the the ith server and Ui is the fixed service rate (weight) of * the ith server. The SED algorithm adopts a greedy policy that each does * what is in its own best interest, i.e. to join the queue which would * minimize its expected delay of completion. * * See the following paper for more information: * A. Weinrib and S. Shenker, Greed is not enough: Adaptive load sharing * in large heterogeneous systems. In Proceedings IEEE INFOCOM'88, * pages 986-994, 1988. * * Thanks must go to Marko Buuri <marko@buuri.name> for talking SED to me. * * The difference between SED and WLC is that SED includes the incoming * job in the cost function (the increment of 1). SED may outperform * WLC, while scheduling big jobs under larger heterogeneous systems * (the server weight varies a lot). * */ #include <linux/module.h> #include <linux/kernel.h> #include <net/ip_vs.h> static int ip_vs_sed_init_svc(struct ip_vs_service *svc) { return 0; } static int ip_vs_sed_done_svc(struct ip_vs_service *svc) { return 0; } static int ip_vs_sed_update_svc(struct ip_vs_service *svc) { return 0; } static inline unsigned int ip_vs_sed_dest_overhead(struct ip_vs_dest *dest) { /* * We only use the active connection number in the cost * calculation here. */ return atomic_read(&dest->activeconns) + 1; } /* * Weighted Least Connection scheduling */ static struct ip_vs_dest * ip_vs_sed_schedule(struct ip_vs_service *svc, struct iphdr *iph) { register struct list_head *l, *e; struct ip_vs_dest *dest, *least; unsigned int loh, doh; IP_VS_DBG(6, "ip_vs_sed_schedule(): Scheduling...\n"); /* * We calculate the load of each dest server as follows: * (server expected overhead) / dest->weight * * Remember -- no floats in kernel mode!!! * The comparison of h1*w2 > h2*w1 is equivalent to that of * h1/w1 > h2/w2 * if every weight is larger than zero. * * The server with weight=0 is quiesced and will not receive any * new connections. */ l = &svc->destinations; for (e=l->next; e!=l; e=e->next) { least = list_entry(e, struct ip_vs_dest, n_list); if (atomic_read(&least->weight) > 0) { loh = ip_vs_sed_dest_overhead(least); goto nextstage; } } return NULL; /* * Find the destination with the least load. */ nextstage: for (e=e->next; e!=l; e=e->next) { dest = list_entry(e, struct ip_vs_dest, n_list); doh = ip_vs_sed_dest_overhead(dest); if (loh * atomic_read(&dest->weight) > doh * atomic_read(&least->weight)) { least = dest; loh = doh; } } IP_VS_DBG(6, "SED: server %u.%u.%u.%u:%u " "activeconns %d refcnt %d weight %d overhead %d\n", NIPQUAD(least->addr), ntohs(least->port), atomic_read(&least->activeconns), atomic_read(&least->refcnt), atomic_read(&least->weight), loh); return least; } static struct ip_vs_scheduler ip_vs_sed_scheduler = { .name = "sed", .refcnt = ATOMIC_INIT(0), .module = THIS_MODULE, .init_service = ip_vs_sed_init_svc, .done_service = ip_vs_sed_done_svc, .update_service = ip_vs_sed_update_svc, .schedule = ip_vs_sed_schedule, }; static int __init ip_vs_sed_init(void) { INIT_LIST_HEAD(&ip_vs_sed_scheduler.n_list); return register_ip_vs_scheduler(&ip_vs_sed_scheduler); } static void __exit ip_vs_sed_cleanup(void) { unregister_ip_vs_scheduler(&ip_vs_sed_scheduler); } module_init(ip_vs_sed_init); module_exit(ip_vs_sed_cleanup); MODULE_LICENSE("GPL");