/* $Id: cache.c,v 1.2 2008/07/16 10:23:39 canacar Exp $ */ /* * Copyright (c) 2001, 2007 Can Erkin Acar * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #ifdef TEST_COMPAT #include "pfvarmux.h" #else #include #endif #include #include #include #include #include "cache.h" /* prototypes */ void update_state(struct sc_ent *, struct pfsync_state *, double); struct sc_ent *cache_state(struct pfsync_state *); static __inline int sc_cmp(struct sc_ent *s1, struct sc_ent *s2); /* initialize the tree and queue */ RB_HEAD(sc_tree, sc_ent) sctree; TAILQ_HEAD(sc_queue, sc_ent) scq1, scq2, scq_free; RB_GENERATE(sc_tree, sc_ent, tlink, sc_cmp); struct sc_queue *scq_act = NULL; struct sc_queue *scq_exp = NULL; int cache_max = 0; int cache_size = 0; struct sc_ent *sc_store = NULL; /* preallocate the cache and insert into the 'free' queue */ int cache_init(int max) { int n; static int initialized = 0; if (max < 0 || initialized) return (1); if (max == 0) { sc_store = NULL; } else { sc_store = malloc(max * sizeof(struct sc_ent)); if (sc_store == NULL) return (1); } RB_INIT(&sctree); TAILQ_INIT(&scq1); TAILQ_INIT(&scq2); TAILQ_INIT(&scq_free); scq_act = &scq1; scq_exp = &scq2; for (n = 0; n < max; n++) TAILQ_INSERT_HEAD(&scq_free, sc_store + n, qlink); cache_size = cache_max = max; initialized++; return (0); } void update_state(struct sc_ent *prev, struct pfsync_state *new, double rate) { assert (prev != NULL && new != NULL); prev->t = time(NULL); prev->rate = rate; prev->bytes = COUNTER(new->bytes[0]) + COUNTER(new->bytes[1]); if (prev->peak < rate) prev->peak = rate; } void add_state(struct pfsync_state *st) { struct sc_ent *ent; assert(st != NULL); if (cache_max == 0) return; if (TAILQ_EMPTY(&scq_free)) return; ent = TAILQ_FIRST(&scq_free); TAILQ_REMOVE(&scq_free, ent, qlink); cache_size--; ent->id[0] = st->id[0]; ent->id[1] = st->id[1]; ent->bytes = COUNTER(st->bytes[0]) + COUNTER(st->bytes[1]); ent->peak = 0; ent->rate = 0; ent->t = time(NULL); RB_INSERT(sc_tree, &sctree, ent); TAILQ_INSERT_HEAD(scq_act, ent, qlink); } /* must be called only once for each state before cache_endupdate */ struct sc_ent * cache_state(struct pfsync_state *st) { struct sc_ent ent, *old; double sd, td, r; if (cache_max == 0) return (NULL); ent.id[0] = st->id[0]; ent.id[1] = st->id[1]; old = RB_FIND(sc_tree, &sctree, &ent); if (old == NULL) { add_state(st); return (NULL); } if (COUNTER(st->bytes[0]) + COUNTER(st->bytes[1]) < old->bytes) return (NULL); sd = COUNTER(st->bytes[0]) + COUNTER(st->bytes[1]) - old->bytes; td = time(NULL) - old->t; if (td > 0) { r = sd/td; update_state(old, st, r); } /* move to active queue */ TAILQ_REMOVE(scq_exp, old, qlink); TAILQ_INSERT_HEAD(scq_act, old, qlink); return (old); } /* remove the states that are not updated in this cycle */ void cache_endupdate(void) { struct sc_queue *tmp; struct sc_ent *ent; while (! TAILQ_EMPTY(scq_exp)) { ent = TAILQ_FIRST(scq_exp); TAILQ_REMOVE(scq_exp, ent, qlink); RB_REMOVE(sc_tree, &sctree, ent); TAILQ_INSERT_HEAD(&scq_free, ent, qlink); cache_size++; } tmp = scq_act; scq_act = scq_exp; scq_exp = tmp; } static __inline int sc_cmp(struct sc_ent *a, struct sc_ent *b) { if (a->id[0] > b->id[0]) return (1); if (a->id[0] < b->id[0]) return (-1); if (a->id[1] > b->id[1]) return (1); if (a->id[1] < b->id[1]) return (-1); return (0); }