/*
* Copyright (c) 2005 Christophe Varoqui
* Copyright (c) 2005 Edward Goggin, EMC
*/
#include "checkers.h"
#include "vector.h"
#include "structs.h"
#include "switchgroup.h"
void path_group_prio_update(struct pathgroup *pgp)
{
int i;
int priority = 0;
int marginal = 0;
struct path * pp;
pgp->enabled_paths = 0;
if (!pgp->paths) {
pgp->priority = 0;
return;
}
vector_foreach_slot (pgp->paths, pp, i) {
if (pp->marginal)
marginal++;
if (pp->state == PATH_UP ||
pp->state == PATH_GHOST) {
priority += pp->priority;
pgp->enabled_paths++;
}
}
if (pgp->enabled_paths)
pgp->priority = priority / pgp->enabled_paths;
else
pgp->priority = 0;
if (marginal && marginal == i)
pgp->marginal = 1;
}
int select_path_group(struct multipath *mpp)
{
int i;
int normal_pgp = 0;
int max_priority = 0;
int bestpg = 1;
int max_enabled_paths = 1;
struct pathgroup * pgp;
if (!mpp->pg)
return 1;
vector_foreach_slot (mpp->pg, pgp, i) {
if (!pgp->paths)
continue;
path_group_prio_update(pgp);
if (pgp->marginal && normal_pgp)
continue;
if (pgp->enabled_paths) {
if (!pgp->marginal && !normal_pgp) {
normal_pgp = 1;
max_priority = pgp->priority;
max_enabled_paths = pgp->enabled_paths;
bestpg = i + 1;
} else if (pgp->priority > max_priority) {
max_priority = pgp->priority;
max_enabled_paths = pgp->enabled_paths;
bestpg = i + 1;
} else if (pgp->priority == max_priority) {
if (pgp->enabled_paths > max_enabled_paths) {
max_enabled_paths = pgp->enabled_paths;
bestpg = i + 1;
}
}
}
}
return bestpg;
}