/* $OpenBSD: ifq.c,v 1.45 2022/01/18 10:54:05 dlg Exp $ */ /* * Copyright (c) 2015 David Gwynne * * 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 "bpfilter.h" #include "kstat.h" #include #include #include #include #include #include #include #include #if NBPFILTER > 0 #include #endif #if NKSTAT > 0 #include #endif /* * priq glue */ unsigned int priq_idx(unsigned int, const struct mbuf *); struct mbuf *priq_enq(struct ifqueue *, struct mbuf *); struct mbuf *priq_deq_begin(struct ifqueue *, void **); void priq_deq_commit(struct ifqueue *, struct mbuf *, void *); void priq_purge(struct ifqueue *, struct mbuf_list *); void *priq_alloc(unsigned int, void *); void priq_free(unsigned int, void *); const struct ifq_ops priq_ops = { priq_idx, priq_enq, priq_deq_begin, priq_deq_commit, priq_purge, priq_alloc, priq_free, }; const struct ifq_ops * const ifq_priq_ops = &priq_ops; /* * priq internal structures */ struct priq { struct mbuf_list pq_lists[IFQ_NQUEUES]; }; /* * ifqueue serialiser */ void ifq_start_task(void *); void ifq_restart_task(void *); void ifq_barrier_task(void *); void ifq_bundle_task(void *); static inline void ifq_run_start(struct ifqueue *ifq) { ifq_serialize(ifq, &ifq->ifq_start); } void ifq_serialize(struct ifqueue *ifq, struct task *t) { struct task work; if (ISSET(t->t_flags, TASK_ONQUEUE)) return; mtx_enter(&ifq->ifq_task_mtx); if (!ISSET(t->t_flags, TASK_ONQUEUE)) { SET(t->t_flags, TASK_ONQUEUE); TAILQ_INSERT_TAIL(&ifq->ifq_task_list, t, t_entry); } if (ifq->ifq_serializer == NULL) { ifq->ifq_serializer = curcpu(); while ((t = TAILQ_FIRST(&ifq->ifq_task_list)) != NULL) { TAILQ_REMOVE(&ifq->ifq_task_list, t, t_entry); CLR(t->t_flags, TASK_ONQUEUE); work = *t; /* copy to caller to avoid races */ mtx_leave(&ifq->ifq_task_mtx); (*work.t_func)(work.t_arg); mtx_enter(&ifq->ifq_task_mtx); } ifq->ifq_serializer = NULL; } mtx_leave(&ifq->ifq_task_mtx); } int ifq_is_serialized(struct ifqueue *ifq) { return (ifq->ifq_serializer == curcpu()); } void ifq_start(struct ifqueue *ifq) { if (ifq_len(ifq) >= min(ifq->ifq_if->if_txmit, ifq->ifq_maxlen)) { task_del(ifq->ifq_softnet, &ifq->ifq_bundle); ifq_run_start(ifq); } else task_add(ifq->ifq_softnet, &ifq->ifq_bundle); } void ifq_start_task(void *p) { struct ifqueue *ifq = p; struct ifnet *ifp = ifq->ifq_if; if (!ISSET(ifp->if_flags, IFF_RUNNING) || ifq_empty(ifq) || ifq_is_oactive(ifq)) return; ifp->if_qstart(ifq); } void ifq_restart_task(void *p) { struct ifqueue *ifq = p; struct ifnet *ifp = ifq->ifq_if; ifq_clr_oactive(ifq); ifp->if_qstart(ifq); } void ifq_bundle_task(void *p) { struct ifqueue *ifq = p; ifq_run_start(ifq); } void ifq_barrier(struct ifqueue *ifq) { struct cond c = COND_INITIALIZER(); struct task t = TASK_INITIALIZER(ifq_barrier_task, &c); task_del(ifq->ifq_softnet, &ifq->ifq_bundle); if (ifq->ifq_serializer == NULL) return; ifq_serialize(ifq, &t); cond_wait(&c, "ifqbar"); } void ifq_barrier_task(void *p) { struct cond *c = p; cond_signal(c); } /* * ifqueue mbuf queue API */ #if NKSTAT > 0 struct ifq_kstat_data { struct kstat_kv kd_packets; struct kstat_kv kd_bytes; struct kstat_kv kd_qdrops; struct kstat_kv kd_errors; struct kstat_kv kd_qlen; struct kstat_kv kd_maxqlen; struct kstat_kv kd_oactive; }; static const struct ifq_kstat_data ifq_kstat_tpl = { KSTAT_KV_UNIT_INITIALIZER("packets", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("bytes", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_BYTES), KSTAT_KV_UNIT_INITIALIZER("qdrops", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("errors", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("qlen", KSTAT_KV_T_UINT32, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("maxqlen", KSTAT_KV_T_UINT32, KSTAT_KV_U_PACKETS), KSTAT_KV_INITIALIZER("oactive", KSTAT_KV_T_BOOL), }; int ifq_kstat_copy(struct kstat *ks, void *dst) { struct ifqueue *ifq = ks->ks_softc; struct ifq_kstat_data *kd = dst; *kd = ifq_kstat_tpl; kstat_kv_u64(&kd->kd_packets) = ifq->ifq_packets; kstat_kv_u64(&kd->kd_bytes) = ifq->ifq_bytes; kstat_kv_u64(&kd->kd_qdrops) = ifq->ifq_qdrops; kstat_kv_u64(&kd->kd_errors) = ifq->ifq_errors; kstat_kv_u32(&kd->kd_qlen) = ifq->ifq_len; kstat_kv_u32(&kd->kd_maxqlen) = ifq->ifq_maxlen; kstat_kv_bool(&kd->kd_oactive) = ifq->ifq_oactive; return (0); } #endif void ifq_init(struct ifqueue *ifq, struct ifnet *ifp, unsigned int idx) { ifq->ifq_if = ifp; ifq->ifq_softnet = net_tq(ifp->if_index); /* + idx */ ifq->ifq_softc = NULL; mtx_init(&ifq->ifq_mtx, IPL_NET); /* default to priq */ ifq->ifq_ops = &priq_ops; ifq->ifq_q = priq_ops.ifqop_alloc(idx, NULL); ml_init(&ifq->ifq_free); ifq->ifq_len = 0; ifq->ifq_packets = 0; ifq->ifq_bytes = 0; ifq->ifq_qdrops = 0; ifq->ifq_errors = 0; ifq->ifq_mcasts = 0; mtx_init(&ifq->ifq_task_mtx, IPL_NET); TAILQ_INIT(&ifq->ifq_task_list); ifq->ifq_serializer = NULL; task_set(&ifq->ifq_bundle, ifq_bundle_task, ifq); task_set(&ifq->ifq_start, ifq_start_task, ifq); task_set(&ifq->ifq_restart, ifq_restart_task, ifq); if (ifq->ifq_maxlen == 0) ifq_set_maxlen(ifq, IFQ_MAXLEN); ifq->ifq_idx = idx; #if NKSTAT > 0 /* XXX xname vs driver name and unit */ ifq->ifq_kstat = kstat_create(ifp->if_xname, 0, "txq", ifq->ifq_idx, KSTAT_T_KV, 0); KASSERT(ifq->ifq_kstat != NULL); kstat_set_mutex(ifq->ifq_kstat, &ifq->ifq_mtx); ifq->ifq_kstat->ks_softc = ifq; ifq->ifq_kstat->ks_datalen = sizeof(ifq_kstat_tpl); ifq->ifq_kstat->ks_copy = ifq_kstat_copy; kstat_install(ifq->ifq_kstat); #endif } void ifq_attach(struct ifqueue *ifq, const struct ifq_ops *newops, void *opsarg) { struct mbuf_list ml = MBUF_LIST_INITIALIZER(); struct mbuf_list free_ml = MBUF_LIST_INITIALIZER(); struct mbuf *m; const struct ifq_ops *oldops; void *newq, *oldq; newq = newops->ifqop_alloc(ifq->ifq_idx, opsarg); mtx_enter(&ifq->ifq_mtx); ifq->ifq_ops->ifqop_purge(ifq, &ml); ifq->ifq_len = 0; oldops = ifq->ifq_ops; oldq = ifq->ifq_q; ifq->ifq_ops = newops; ifq->ifq_q = newq; while ((m = ml_dequeue(&ml)) != NULL) { m = ifq->ifq_ops->ifqop_enq(ifq, m); if (m != NULL) { ifq->ifq_qdrops++; ml_enqueue(&free_ml, m); } else ifq->ifq_len++; } mtx_leave(&ifq->ifq_mtx); oldops->ifqop_free(ifq->ifq_idx, oldq); ml_purge(&free_ml); } void ifq_destroy(struct ifqueue *ifq) { struct mbuf_list ml = MBUF_LIST_INITIALIZER(); #if NKSTAT > 0 kstat_destroy(ifq->ifq_kstat); #endif NET_ASSERT_UNLOCKED(); if (!task_del(ifq->ifq_softnet, &ifq->ifq_bundle)) taskq_barrier(ifq->ifq_softnet); /* don't need to lock because this is the last use of the ifq */ ifq->ifq_ops->ifqop_purge(ifq, &ml); ifq->ifq_ops->ifqop_free(ifq->ifq_idx, ifq->ifq_q); ml_purge(&ml); } void ifq_add_data(struct ifqueue *ifq, struct if_data *data) { mtx_enter(&ifq->ifq_mtx); data->ifi_opackets += ifq->ifq_packets; data->ifi_obytes += ifq->ifq_bytes; data->ifi_oqdrops += ifq->ifq_qdrops; data->ifi_omcasts += ifq->ifq_mcasts; /* ifp->if_data.ifi_oerrors */ mtx_leave(&ifq->ifq_mtx); } int ifq_enqueue(struct ifqueue *ifq, struct mbuf *m) { struct mbuf *dm; mtx_enter(&ifq->ifq_mtx); dm = ifq->ifq_ops->ifqop_enq(ifq, m); if (dm != m) { ifq->ifq_packets++; ifq->ifq_bytes += m->m_pkthdr.len; if (ISSET(m->m_flags, M_MCAST)) ifq->ifq_mcasts++; } if (dm == NULL) ifq->ifq_len++; else ifq->ifq_qdrops++; mtx_leave(&ifq->ifq_mtx); if (dm != NULL) m_freem(dm); return (dm == m ? ENOBUFS : 0); } static inline void ifq_deq_enter(struct ifqueue *ifq) { mtx_enter(&ifq->ifq_mtx); } static inline void ifq_deq_leave(struct ifqueue *ifq) { struct mbuf_list ml; ml = ifq->ifq_free; ml_init(&ifq->ifq_free); mtx_leave(&ifq->ifq_mtx); if (!ml_empty(&ml)) ml_purge(&ml); } struct mbuf * ifq_deq_begin(struct ifqueue *ifq) { struct mbuf *m = NULL; void *cookie; ifq_deq_enter(ifq); if (ifq->ifq_len == 0 || (m = ifq->ifq_ops->ifqop_deq_begin(ifq, &cookie)) == NULL) { ifq_deq_leave(ifq); return (NULL); } m->m_pkthdr.ph_cookie = cookie; return (m); } void ifq_deq_commit(struct ifqueue *ifq, struct mbuf *m) { void *cookie; KASSERT(m != NULL); cookie = m->m_pkthdr.ph_cookie; ifq->ifq_ops->ifqop_deq_commit(ifq, m, cookie); ifq->ifq_len--; ifq_deq_leave(ifq); } void ifq_deq_rollback(struct ifqueue *ifq, struct mbuf *m) { KASSERT(m != NULL); ifq_deq_leave(ifq); } struct mbuf * ifq_dequeue(struct ifqueue *ifq) { struct mbuf *m; m = ifq_deq_begin(ifq); if (m == NULL) return (NULL); ifq_deq_commit(ifq, m); return (m); } int ifq_deq_sleep(struct ifqueue *ifq, struct mbuf **mp, int nbio, int priority, const char *wmesg, volatile unsigned int *sleeping, volatile unsigned int *alive) { struct mbuf *m; void *cookie; int error = 0; ifq_deq_enter(ifq); if (ifq->ifq_len == 0 && nbio) error = EWOULDBLOCK; else { for (;;) { m = ifq->ifq_ops->ifqop_deq_begin(ifq, &cookie); if (m != NULL) { ifq->ifq_ops->ifqop_deq_commit(ifq, m, cookie); ifq->ifq_len--; *mp = m; break; } (*sleeping)++; error = msleep_nsec(ifq, &ifq->ifq_mtx, priority, wmesg, INFSLP); (*sleeping)--; if (error != 0) break; if (!(*alive)) { error = EIO; break; } } } ifq_deq_leave(ifq); return (error); } int ifq_hdatalen(struct ifqueue *ifq) { struct mbuf *m; int len = 0; if (ifq_empty(ifq)) return (0); m = ifq_deq_begin(ifq); if (m != NULL) { len = m->m_pkthdr.len; ifq_deq_rollback(ifq, m); } return (len); } unsigned int ifq_purge(struct ifqueue *ifq) { struct mbuf_list ml = MBUF_LIST_INITIALIZER(); unsigned int rv; mtx_enter(&ifq->ifq_mtx); ifq->ifq_ops->ifqop_purge(ifq, &ml); rv = ifq->ifq_len; ifq->ifq_len = 0; ifq->ifq_qdrops += rv; mtx_leave(&ifq->ifq_mtx); KASSERT(rv == ml_len(&ml)); ml_purge(&ml); return (rv); } void * ifq_q_enter(struct ifqueue *ifq, const struct ifq_ops *ops) { mtx_enter(&ifq->ifq_mtx); if (ifq->ifq_ops == ops) return (ifq->ifq_q); mtx_leave(&ifq->ifq_mtx); return (NULL); } void ifq_q_leave(struct ifqueue *ifq, void *q) { KASSERT(q == ifq->ifq_q); mtx_leave(&ifq->ifq_mtx); } void ifq_mfreem(struct ifqueue *ifq, struct mbuf *m) { MUTEX_ASSERT_LOCKED(&ifq->ifq_mtx); ifq->ifq_len--; ifq->ifq_qdrops++; ml_enqueue(&ifq->ifq_free, m); } void ifq_mfreeml(struct ifqueue *ifq, struct mbuf_list *ml) { MUTEX_ASSERT_LOCKED(&ifq->ifq_mtx); ifq->ifq_len -= ml_len(ml); ifq->ifq_qdrops += ml_len(ml); ml_enlist(&ifq->ifq_free, ml); } /* * ifiq */ #if NKSTAT > 0 struct ifiq_kstat_data { struct kstat_kv kd_packets; struct kstat_kv kd_bytes; struct kstat_kv kd_qdrops; struct kstat_kv kd_errors; struct kstat_kv kd_qlen; }; static const struct ifiq_kstat_data ifiq_kstat_tpl = { KSTAT_KV_UNIT_INITIALIZER("packets", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("bytes", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_BYTES), KSTAT_KV_UNIT_INITIALIZER("qdrops", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("errors", KSTAT_KV_T_COUNTER64, KSTAT_KV_U_PACKETS), KSTAT_KV_UNIT_INITIALIZER("qlen", KSTAT_KV_T_UINT32, KSTAT_KV_U_PACKETS), }; int ifiq_kstat_copy(struct kstat *ks, void *dst) { struct ifiqueue *ifiq = ks->ks_softc; struct ifiq_kstat_data *kd = dst; *kd = ifiq_kstat_tpl; kstat_kv_u64(&kd->kd_packets) = ifiq->ifiq_packets; kstat_kv_u64(&kd->kd_bytes) = ifiq->ifiq_bytes; kstat_kv_u64(&kd->kd_qdrops) = ifiq->ifiq_qdrops; kstat_kv_u64(&kd->kd_errors) = ifiq->ifiq_errors; kstat_kv_u32(&kd->kd_qlen) = ml_len(&ifiq->ifiq_ml); return (0); } #endif static void ifiq_process(void *); void ifiq_init(struct ifiqueue *ifiq, struct ifnet *ifp, unsigned int idx) { ifiq->ifiq_if = ifp; ifiq->ifiq_softnet = net_tq(ifp->if_index); /* + idx */ ifiq->ifiq_softc = NULL; mtx_init(&ifiq->ifiq_mtx, IPL_NET); ml_init(&ifiq->ifiq_ml); task_set(&ifiq->ifiq_task, ifiq_process, ifiq); ifiq->ifiq_pressure = 0; ifiq->ifiq_packets = 0; ifiq->ifiq_bytes = 0; ifiq->ifiq_qdrops = 0; ifiq->ifiq_errors = 0; ifiq->ifiq_idx = idx; #if NKSTAT > 0 /* XXX xname vs driver name and unit */ ifiq->ifiq_kstat = kstat_create(ifp->if_xname, 0, "rxq", ifiq->ifiq_idx, KSTAT_T_KV, 0); KASSERT(ifiq->ifiq_kstat != NULL); kstat_set_mutex(ifiq->ifiq_kstat, &ifiq->ifiq_mtx); ifiq->ifiq_kstat->ks_softc = ifiq; ifiq->ifiq_kstat->ks_datalen = sizeof(ifiq_kstat_tpl); ifiq->ifiq_kstat->ks_copy = ifiq_kstat_copy; kstat_install(ifiq->ifiq_kstat); #endif } void ifiq_destroy(struct ifiqueue *ifiq) { #if NKSTAT > 0 kstat_destroy(ifiq->ifiq_kstat); #endif NET_ASSERT_UNLOCKED(); if (!task_del(ifiq->ifiq_softnet, &ifiq->ifiq_task)) taskq_barrier(ifiq->ifiq_softnet); /* don't need to lock because this is the last use of the ifiq */ ml_purge(&ifiq->ifiq_ml); } unsigned int ifiq_maxlen_drop = 2048 * 5; unsigned int ifiq_maxlen_return = 2048 * 3; int ifiq_input(struct ifiqueue *ifiq, struct mbuf_list *ml) { struct ifnet *ifp = ifiq->ifiq_if; struct mbuf *m; uint64_t packets; uint64_t bytes = 0; unsigned int len; #if NBPFILTER > 0 caddr_t if_bpf; #endif if (ml_empty(ml)) return (0); MBUF_LIST_FOREACH(ml, m) { m->m_pkthdr.ph_ifidx = ifp->if_index; m->m_pkthdr.ph_rtableid = ifp->if_rdomain; bytes += m->m_pkthdr.len; } packets = ml_len(ml); #if NBPFILTER > 0 if_bpf = ifp->if_bpf; if (if_bpf) { struct mbuf_list ml0 = *ml; ml_init(ml); while ((m = ml_dequeue(&ml0)) != NULL) { if ((*ifp->if_bpf_mtap)(if_bpf, m, BPF_DIRECTION_IN)) m_freem(m); else ml_enqueue(ml, m); } if (ml_empty(ml)) { mtx_enter(&ifiq->ifiq_mtx); ifiq->ifiq_packets += packets; ifiq->ifiq_bytes += bytes; mtx_leave(&ifiq->ifiq_mtx); return (0); } } #endif mtx_enter(&ifiq->ifiq_mtx); ifiq->ifiq_packets += packets; ifiq->ifiq_bytes += bytes; len = ml_len(&ifiq->ifiq_ml); if (__predict_true(!ISSET(ifp->if_xflags, IFXF_MONITOR))) { if (len > ifiq_maxlen_drop) ifiq->ifiq_qdrops += ml_len(ml); else ml_enlist(&ifiq->ifiq_ml, ml); } mtx_leave(&ifiq->ifiq_mtx); if (ml_empty(ml)) task_add(ifiq->ifiq_softnet, &ifiq->ifiq_task); else ml_purge(ml); return (len > ifiq_maxlen_return); } void ifiq_add_data(struct ifiqueue *ifiq, struct if_data *data) { mtx_enter(&ifiq->ifiq_mtx); data->ifi_ipackets += ifiq->ifiq_packets; data->ifi_ibytes += ifiq->ifiq_bytes; data->ifi_iqdrops += ifiq->ifiq_qdrops; mtx_leave(&ifiq->ifiq_mtx); } int ifiq_enqueue(struct ifiqueue *ifiq, struct mbuf *m) { mtx_enter(&ifiq->ifiq_mtx); ml_enqueue(&ifiq->ifiq_ml, m); mtx_leave(&ifiq->ifiq_mtx); task_add(ifiq->ifiq_softnet, &ifiq->ifiq_task); return (0); } static void ifiq_process(void *arg) { struct ifiqueue *ifiq = arg; struct mbuf_list ml; if (ifiq_empty(ifiq)) return; mtx_enter(&ifiq->ifiq_mtx); ml = ifiq->ifiq_ml; ml_init(&ifiq->ifiq_ml); mtx_leave(&ifiq->ifiq_mtx); if_input_process(ifiq->ifiq_if, &ml); } int net_ifiq_sysctl(int *name, u_int namelen, void *oldp, size_t *oldlenp, void *newp, size_t newlen) { int error = EOPNOTSUPP; /* pressure is disabled for 6.6-release */ #if 0 int val; if (namelen != 1) return (EISDIR); switch (name[0]) { case NET_LINK_IFRXQ_PRESSURE_RETURN: val = ifiq_pressure_return; error = sysctl_int(oldp, oldlenp, newp, newlen, &val); if (error != 0) return (error); if (val < 1 || val > ifiq_pressure_drop) return (EINVAL); ifiq_pressure_return = val; break; case NET_LINK_IFRXQ_PRESSURE_DROP: val = ifiq_pressure_drop; error = sysctl_int(oldp, oldlenp, newp, newlen, &val); if (error != 0) return (error); if (ifiq_pressure_return > val) return (EINVAL); ifiq_pressure_drop = val; break; default: error = EOPNOTSUPP; break; } #endif return (error); } /* * priq implementation */ unsigned int priq_idx(unsigned int nqueues, const struct mbuf *m) { unsigned int flow = 0; if (ISSET(m->m_pkthdr.csum_flags, M_FLOWID)) flow = m->m_pkthdr.ph_flowid; return (flow % nqueues); } void * priq_alloc(unsigned int idx, void *null) { struct priq *pq; int i; pq = malloc(sizeof(struct priq), M_DEVBUF, M_WAITOK); for (i = 0; i < IFQ_NQUEUES; i++) ml_init(&pq->pq_lists[i]); return (pq); } void priq_free(unsigned int idx, void *pq) { free(pq, M_DEVBUF, sizeof(struct priq)); } struct mbuf * priq_enq(struct ifqueue *ifq, struct mbuf *m) { struct priq *pq; struct mbuf_list *pl; struct mbuf *n = NULL; unsigned int prio; pq = ifq->ifq_q; KASSERT(m->m_pkthdr.pf.prio <= IFQ_MAXPRIO); /* Find a lower priority queue to drop from */ if (ifq_len(ifq) >= ifq->ifq_maxlen) { for (prio = 0; prio < m->m_pkthdr.pf.prio; prio++) { pl = &pq->pq_lists[prio]; if (ml_len(pl) > 0) { n = ml_dequeue(pl); goto enqueue; } } /* * There's no lower priority queue that we can * drop from so don't enqueue this one. */ return (m); } enqueue: pl = &pq->pq_lists[m->m_pkthdr.pf.prio]; ml_enqueue(pl, m); return (n); } struct mbuf * priq_deq_begin(struct ifqueue *ifq, void **cookiep) { struct priq *pq = ifq->ifq_q; struct mbuf_list *pl; unsigned int prio = nitems(pq->pq_lists); struct mbuf *m; do { pl = &pq->pq_lists[--prio]; m = MBUF_LIST_FIRST(pl); if (m != NULL) { *cookiep = pl; return (m); } } while (prio > 0); return (NULL); } void priq_deq_commit(struct ifqueue *ifq, struct mbuf *m, void *cookie) { struct mbuf_list *pl = cookie; KASSERT(MBUF_LIST_FIRST(pl) == m); ml_dequeue(pl); } void priq_purge(struct ifqueue *ifq, struct mbuf_list *ml) { struct priq *pq = ifq->ifq_q; struct mbuf_list *pl; unsigned int prio = nitems(pq->pq_lists); do { pl = &pq->pq_lists[--prio]; ml_enlist(ml, pl); } while (prio > 0); }