#include <sys/cdefs.h>
#include <sys/param.h>
#include <sys/malloc.h>
#include <sys/mbuf.h>
#include <sys/systm.h>
#include <sys/errno.h>
#include <sys/kernel.h>
#include <sys/syslog.h>
#include <kern/zalloc.h>
#include <net/if.h>
#include <net/net_osdep.h>
#include <net/pktsched/pktsched_tcq.h>
#include <netinet/in.h>
static int tcq_enqueue_ifclassq(struct ifclassq *, struct mbuf *);
static struct mbuf *tcq_dequeue_tc_ifclassq(struct ifclassq *,
mbuf_svc_class_t, cqdq_op_t);
static int tcq_request_ifclassq(struct ifclassq *, cqrq_t, void *);
static int tcq_clear_interface(struct tcq_if *);
static struct tcq_class *tcq_class_create(struct tcq_if *, int, u_int32_t,
int, u_int32_t);
static int tcq_class_destroy(struct tcq_if *, struct tcq_class *);
static int tcq_destroy_locked(struct tcq_if *);
static inline int tcq_addq(struct tcq_class *, struct mbuf *,
struct pf_mtag *);
static inline struct mbuf *tcq_getq(struct tcq_class *);
static inline struct mbuf *tcq_pollq(struct tcq_class *);
static void tcq_purgeq(struct tcq_if *, struct tcq_class *, u_int32_t,
u_int32_t *, u_int32_t *);
static void tcq_purge_sc(struct tcq_if *, cqrq_purge_sc_t *);
static void tcq_updateq(struct tcq_if *, struct tcq_class *, cqev_t);
static int tcq_throttle(struct tcq_if *, cqrq_throttle_t *);
static int tcq_resumeq(struct tcq_if *, struct tcq_class *);
static int tcq_suspendq(struct tcq_if *, struct tcq_class *);
static int tcq_stat_sc(struct tcq_if *, cqrq_stat_sc_t *);
static struct mbuf *tcq_dequeue_cl(struct tcq_if *, struct tcq_class *,
mbuf_svc_class_t, cqdq_op_t);
static inline struct tcq_class *tcq_clh_to_clp(struct tcq_if *, u_int32_t);
static const char *tcq_style(struct tcq_if *);
#define TCQ_ZONE_MAX 32
#define TCQ_ZONE_NAME "pktsched_tcq"
static unsigned int tcq_size;
static struct zone *tcq_zone;
#define TCQ_CL_ZONE_MAX 32
#define TCQ_CL_ZONE_NAME "pktsched_tcq_cl"
static unsigned int tcq_cl_size;
static struct zone *tcq_cl_zone;
void
tcq_init(void)
{
tcq_size = sizeof (struct tcq_if);
tcq_zone = zinit(tcq_size, TCQ_ZONE_MAX * tcq_size,
0, TCQ_ZONE_NAME);
if (tcq_zone == NULL) {
panic("%s: failed allocating %s", __func__, TCQ_ZONE_NAME);
}
zone_change(tcq_zone, Z_EXPAND, TRUE);
zone_change(tcq_zone, Z_CALLERACCT, TRUE);
tcq_cl_size = sizeof (struct tcq_class);
tcq_cl_zone = zinit(tcq_cl_size, TCQ_CL_ZONE_MAX * tcq_cl_size,
0, TCQ_CL_ZONE_NAME);
if (tcq_cl_zone == NULL) {
panic("%s: failed allocating %s", __func__, TCQ_CL_ZONE_NAME);
}
zone_change(tcq_cl_zone, Z_EXPAND, TRUE);
zone_change(tcq_cl_zone, Z_CALLERACCT, TRUE);
}
struct tcq_if *
tcq_alloc(struct ifnet *ifp, int how, boolean_t altq)
{
struct tcq_if *tif;
tif = (how == M_WAITOK) ? zalloc(tcq_zone) : zalloc_noblock(tcq_zone);
if (tif == NULL)
return (NULL);
bzero(tif, tcq_size);
tif->tif_maxpri = -1;
tif->tif_ifq = &ifp->if_snd;
if (altq)
tif->tif_flags |= TCQIFF_ALTQ;
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s scheduler allocated\n",
if_name(ifp), tcq_style(tif));
}
return (tif);
}
int
tcq_destroy(struct tcq_if *tif)
{
struct ifclassq *ifq = tif->tif_ifq;
int err;
IFCQ_LOCK(ifq);
err = tcq_destroy_locked(tif);
IFCQ_UNLOCK(ifq);
return (err);
}
static int
tcq_destroy_locked(struct tcq_if *tif)
{
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
(void) tcq_clear_interface(tif);
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s scheduler destroyed\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif));
}
zfree(tcq_zone, tif);
return (0);
}
static int
tcq_clear_interface(struct tcq_if *tif)
{
struct tcq_class *cl;
int pri;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
for (pri = 0; pri <= tif->tif_maxpri; pri++)
if ((cl = tif->tif_classes[pri]) != NULL)
tcq_class_destroy(tif, cl);
return (0);
}
void
tcq_purge(struct tcq_if *tif)
{
struct tcq_class *cl;
int pri;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
for (pri = 0; pri <= tif->tif_maxpri; pri++) {
if ((cl = tif->tif_classes[pri]) != NULL && !qempty(&cl->cl_q))
tcq_purgeq(tif, cl, 0, NULL, NULL);
}
#if !PF_ALTQ
VERIFY(IFCQ_LEN(tif->tif_ifq) == 0);
#endif
}
static void
tcq_purge_sc(struct tcq_if *tif, cqrq_purge_sc_t *pr)
{
struct ifclassq *ifq = tif->tif_ifq;
u_int32_t i;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(pr->sc == MBUF_SC_UNSPEC || MBUF_VALID_SC(pr->sc));
VERIFY(pr->flow != 0);
if (pr->sc != MBUF_SC_UNSPEC) {
i = MBUF_SCIDX(pr->sc);
VERIFY(i < IFCQ_SC_MAX);
tcq_purgeq(tif, ifq->ifcq_disc_slots[i].cl,
pr->flow, &pr->packets, &pr->bytes);
} else {
u_int32_t cnt, len;
pr->packets = 0;
pr->bytes = 0;
for (i = 0; i < IFCQ_SC_MAX; i++) {
tcq_purgeq(tif, ifq->ifcq_disc_slots[i].cl,
pr->flow, &cnt, &len);
pr->packets += cnt;
pr->bytes += len;
}
}
}
void
tcq_event(struct tcq_if *tif, cqev_t ev)
{
struct tcq_class *cl;
int pri;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
for (pri = 0; pri <= tif->tif_maxpri; pri++)
if ((cl = tif->tif_classes[pri]) != NULL)
tcq_updateq(tif, cl, ev);
}
int
tcq_add_queue(struct tcq_if *tif, int priority, u_int32_t qlimit,
int flags, u_int32_t qid, struct tcq_class **clp)
{
struct tcq_class *cl;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
if (priority >= TCQ_MAXPRI)
return (EINVAL);
if (tif->tif_classes[priority] != NULL)
return (EBUSY);
if (tcq_clh_to_clp(tif, qid) != NULL)
return (EBUSY);
cl = tcq_class_create(tif, priority, qlimit, flags, qid);
if (cl == NULL)
return (ENOMEM);
if (clp != NULL)
*clp = cl;
return (0);
}
static struct tcq_class *
tcq_class_create(struct tcq_if *tif, int pri, u_int32_t qlimit,
int flags, u_int32_t qid)
{
struct ifnet *ifp;
struct ifclassq *ifq;
struct tcq_class *cl;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
if (tif->tif_flags & TCQIFF_ALTQ)
flags &= TQCF_USERFLAGS;
#if !CLASSQ_RED
if (flags & TQCF_RED) {
log(LOG_ERR, "%s: %s RED not available!\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif));
return (NULL);
}
#endif
#if !CLASSQ_RIO
if (flags & TQCF_RIO) {
log(LOG_ERR, "%s: %s RIO not available!\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif));
return (NULL);
}
#endif
#if !CLASSQ_BLUE
if (flags & TQCF_BLUE) {
log(LOG_ERR, "%s: %s BLUE not available!\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif));
return (NULL);
}
#endif
if ((flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) &&
(flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) != TQCF_RED &&
(flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) != TQCF_RIO &&
(flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) != TQCF_BLUE &&
(flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) != TQCF_SFB) {
log(LOG_ERR, "%s: %s more than one RED|RIO|BLUE|SFB\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif));
return (NULL);
}
ifq = tif->tif_ifq;
ifp = TCQIF_IFP(tif);
if ((cl = tif->tif_classes[pri]) != NULL) {
if (!qempty(&cl->cl_q))
tcq_purgeq(tif, cl, 0, NULL, NULL);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
rio_destroy(cl->cl_rio);
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
red_destroy(cl->cl_red);
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
blue_destroy(cl->cl_blue);
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
sfb_destroy(cl->cl_sfb);
cl->cl_qalg.ptr = NULL;
qtype(&cl->cl_q) = Q_DROPTAIL;
qstate(&cl->cl_q) = QS_RUNNING;
} else {
cl = zalloc(tcq_cl_zone);
if (cl == NULL)
return (NULL);
bzero(cl, tcq_cl_size);
}
tif->tif_classes[pri] = cl;
if (flags & TQCF_DEFAULTCLASS)
tif->tif_default = cl;
if (qlimit == 0 || qlimit > IFCQ_MAXLEN(ifq)) {
qlimit = IFCQ_MAXLEN(ifq);
if (qlimit == 0)
qlimit = DEFAULT_QLIMIT;
}
_qinit(&cl->cl_q, Q_DROPTAIL, qlimit);
cl->cl_flags = flags;
cl->cl_pri = pri;
if (pri > tif->tif_maxpri)
tif->tif_maxpri = pri;
cl->cl_tif = tif;
cl->cl_handle = qid;
if (flags & (TQCF_RED|TQCF_RIO|TQCF_BLUE|TQCF_SFB)) {
#if CLASSQ_RED || CLASSQ_RIO
u_int64_t ifbandwidth = ifnet_output_linkrate(ifp);
int pkttime;
#endif
cl->cl_qflags = 0;
if (flags & TQCF_ECN) {
if (flags & TQCF_BLUE)
cl->cl_qflags |= BLUEF_ECN;
else if (flags & TQCF_SFB)
cl->cl_qflags |= SFBF_ECN;
else if (flags & TQCF_RED)
cl->cl_qflags |= REDF_ECN;
else if (flags & TQCF_RIO)
cl->cl_qflags |= RIOF_ECN;
}
if (flags & TQCF_FLOWCTL) {
if (flags & TQCF_SFB)
cl->cl_qflags |= SFBF_FLOWCTL;
}
if (flags & TQCF_CLEARDSCP) {
if (flags & TQCF_RIO)
cl->cl_qflags |= RIOF_CLEARDSCP;
}
#if CLASSQ_RED || CLASSQ_RIO
if (ifbandwidth < 8)
pkttime = 1000 * 1000 * 1000;
else
pkttime = (int64_t)ifp->if_mtu * 1000 * 1000 * 1000 /
(ifbandwidth / 8);
#if CLASSQ_RED
if (flags & TQCF_RED) {
cl->cl_red = red_alloc(ifp, 0, 0,
qlimit(&cl->cl_q) * 10/100,
qlimit(&cl->cl_q) * 30/100,
cl->cl_qflags, pkttime);
if (cl->cl_red != NULL)
qtype(&cl->cl_q) = Q_RED;
}
#endif
#if CLASSQ_RIO
if (flags & TQCF_RIO) {
cl->cl_rio =
rio_alloc(ifp, 0, NULL, cl->cl_qflags, pkttime);
if (cl->cl_rio != NULL)
qtype(&cl->cl_q) = Q_RIO;
}
#endif
#endif
#if CLASSQ_BLUE
if (flags & TQCF_BLUE) {
cl->cl_blue = blue_alloc(ifp, 0, 0, cl->cl_qflags);
if (cl->cl_blue != NULL)
qtype(&cl->cl_q) = Q_BLUE;
}
#endif
if (flags & TQCF_SFB) {
if (!(cl->cl_flags & TQCF_LAZY))
cl->cl_sfb = sfb_alloc(ifp, cl->cl_handle,
qlimit(&cl->cl_q), cl->cl_qflags);
if (cl->cl_sfb != NULL || (cl->cl_flags & TQCF_LAZY))
qtype(&cl->cl_q) = Q_SFB;
}
}
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s created qid=%d pri=%d qlimit=%d "
"flags=%b\n", if_name(ifp), tcq_style(tif),
cl->cl_handle, cl->cl_pri, qlimit, flags, TQCF_BITS);
}
return (cl);
}
int
tcq_remove_queue(struct tcq_if *tif, u_int32_t qid)
{
struct tcq_class *cl;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
if ((cl = tcq_clh_to_clp(tif, qid)) == NULL)
return (EINVAL);
return (tcq_class_destroy(tif, cl));
}
static int
tcq_class_destroy(struct tcq_if *tif, struct tcq_class *cl)
{
struct ifclassq *ifq = tif->tif_ifq;
int pri;
IFCQ_LOCK_ASSERT_HELD(ifq);
if (!qempty(&cl->cl_q))
tcq_purgeq(tif, cl, 0, NULL, NULL);
tif->tif_classes[cl->cl_pri] = NULL;
if (tif->tif_maxpri == cl->cl_pri) {
for (pri = cl->cl_pri; pri >= 0; pri--)
if (tif->tif_classes[pri] != NULL) {
tif->tif_maxpri = pri;
break;
}
if (pri < 0)
tif->tif_maxpri = -1;
}
if (tif->tif_default == cl)
tif->tif_default = NULL;
if (cl->cl_qalg.ptr != NULL) {
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
rio_destroy(cl->cl_rio);
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
red_destroy(cl->cl_red);
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
blue_destroy(cl->cl_blue);
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
sfb_destroy(cl->cl_sfb);
cl->cl_qalg.ptr = NULL;
qtype(&cl->cl_q) = Q_DROPTAIL;
qstate(&cl->cl_q) = QS_RUNNING;
}
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s destroyed qid=%d pri=%d\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif),
cl->cl_handle, cl->cl_pri);
}
zfree(tcq_cl_zone, cl);
return (0);
}
int
tcq_enqueue(struct tcq_if *tif, struct tcq_class *cl, struct mbuf *m,
struct pf_mtag *t)
{
struct ifclassq *ifq = tif->tif_ifq;
int len, ret;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(cl == NULL || cl->cl_tif == tif);
if (cl == NULL) {
#if PF_ALTQ
cl = tcq_clh_to_clp(tif, t->pftag_qid);
#else
cl = tcq_clh_to_clp(tif, 0);
#endif
if (cl == NULL) {
cl = tif->tif_default;
if (cl == NULL) {
IFCQ_CONVERT_LOCK(ifq);
m_freem(m);
return (ENOBUFS);
}
}
}
len = m_pktlen(m);
ret = tcq_addq(cl, m, t);
if (ret != 0) {
if (ret == CLASSQEQ_SUCCESS_FC) {
ret = EQFULL;
} else {
VERIFY(ret == CLASSQEQ_DROPPED ||
ret == CLASSQEQ_DROPPED_FC ||
ret == CLASSQEQ_DROPPED_SP);
PKTCNTR_ADD(&cl->cl_dropcnt, 1, len);
IFCQ_DROP_ADD(ifq, 1, len);
switch (ret) {
case CLASSQEQ_DROPPED:
return (ENOBUFS);
case CLASSQEQ_DROPPED_FC:
return (EQFULL);
case CLASSQEQ_DROPPED_SP:
return (EQSUSPENDED);
}
}
}
IFCQ_INC_LEN(ifq);
return (ret);
}
struct mbuf *
tcq_dequeue_tc(struct tcq_if *tif, mbuf_svc_class_t sc, cqdq_op_t op)
{
return (tcq_dequeue_cl(tif, NULL, sc, op));
}
static struct mbuf *
tcq_dequeue_cl(struct tcq_if *tif, struct tcq_class *cl,
mbuf_svc_class_t sc, cqdq_op_t op)
{
struct ifclassq *ifq = tif->tif_ifq;
struct mbuf *m;
IFCQ_LOCK_ASSERT_HELD(ifq);
if (cl == NULL) {
cl = tcq_clh_to_clp(tif, MBUF_SCIDX(sc));
if (cl == NULL)
return (NULL);
}
if (qempty(&cl->cl_q))
return (NULL);
VERIFY(!IFCQ_IS_EMPTY(ifq));
if (op == CLASSQDQ_POLL)
return (tcq_pollq(cl));
m = tcq_getq(cl);
if (m != NULL) {
IFCQ_DEC_LEN(ifq);
if (qempty(&cl->cl_q))
cl->cl_period++;
PKTCNTR_ADD(&cl->cl_xmitcnt, 1, m_pktlen(m));
IFCQ_XMIT_ADD(ifq, 1, m_pktlen(m));
}
return (m);
}
static inline int
tcq_addq(struct tcq_class *cl, struct mbuf *m, struct pf_mtag *t)
{
struct tcq_if *tif = cl->cl_tif;
struct ifclassq *ifq = tif->tif_ifq;
IFCQ_LOCK_ASSERT_HELD(ifq);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
return (rio_addq(cl->cl_rio, &cl->cl_q, m, t));
else
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
return (red_addq(cl->cl_red, &cl->cl_q, m, t));
else
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
return (blue_addq(cl->cl_blue, &cl->cl_q, m, t));
else
#endif
if (q_is_sfb(&cl->cl_q)) {
if (cl->cl_sfb == NULL) {
struct ifnet *ifp = TCQIF_IFP(tif);
VERIFY(cl->cl_flags & TQCF_LAZY);
cl->cl_flags &= ~TQCF_LAZY;
IFCQ_CONVERT_LOCK(ifq);
cl->cl_sfb = sfb_alloc(ifp, cl->cl_handle,
qlimit(&cl->cl_q), cl->cl_qflags);
if (cl->cl_sfb == NULL) {
qtype(&cl->cl_q) = Q_DROPTAIL;
cl->cl_flags &= ~TQCF_SFB;
cl->cl_qflags &= ~(SFBF_ECN | SFBF_FLOWCTL);
log(LOG_ERR, "%s: %s SFB lazy allocation "
"failed for qid=%d pri=%d, falling back "
"to DROPTAIL\n", if_name(ifp),
tcq_style(tif), cl->cl_handle,
cl->cl_pri);
} else if (tif->tif_throttle != IFNET_THROTTLE_OFF) {
cqrq_throttle_t tr = { 1, tif->tif_throttle };
int err = tcq_throttle(tif, &tr);
if (err == EALREADY)
err = 0;
if (err != 0) {
tr.level = IFNET_THROTTLE_OFF;
(void) tcq_throttle(tif, &tr);
}
}
}
if (cl->cl_sfb != NULL)
return (sfb_addq(cl->cl_sfb, &cl->cl_q, m, t));
} else if (qlen(&cl->cl_q) >= qlimit(&cl->cl_q)) {
IFCQ_CONVERT_LOCK(ifq);
m_freem(m);
return (CLASSQEQ_DROPPED);
}
#if PF_ECN
if (cl->cl_flags & TQCF_CLEARDSCP)
write_dsfield(m, t, 0);
#endif
_addq(&cl->cl_q, m);
return (0);
}
static inline struct mbuf *
tcq_getq(struct tcq_class *cl)
{
IFCQ_LOCK_ASSERT_HELD(cl->cl_tif->tif_ifq);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
return (rio_getq(cl->cl_rio, &cl->cl_q));
else
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
return (red_getq(cl->cl_red, &cl->cl_q));
else
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
return (blue_getq(cl->cl_blue, &cl->cl_q));
else
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
return (sfb_getq(cl->cl_sfb, &cl->cl_q));
return (_getq(&cl->cl_q));
}
static inline struct mbuf *
tcq_pollq(struct tcq_class *cl)
{
IFCQ_LOCK_ASSERT_HELD(cl->cl_tif->tif_ifq);
return (qhead(&cl->cl_q));
}
static void
tcq_purgeq(struct tcq_if *tif, struct tcq_class *cl, u_int32_t flow,
u_int32_t *packets, u_int32_t *bytes)
{
struct ifclassq *ifq = tif->tif_ifq;
u_int32_t cnt = 0, len = 0, qlen;
IFCQ_LOCK_ASSERT_HELD(ifq);
if ((qlen = qlen(&cl->cl_q)) == 0)
goto done;
IFCQ_CONVERT_LOCK(ifq);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
rio_purgeq(cl->cl_rio, &cl->cl_q, flow, &cnt, &len);
else
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
red_purgeq(cl->cl_red, &cl->cl_q, flow, &cnt, &len);
else
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
blue_purgeq(cl->cl_blue, &cl->cl_q, flow, &cnt, &len);
else
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
sfb_purgeq(cl->cl_sfb, &cl->cl_q, flow, &cnt, &len);
else
_flushq_flow(&cl->cl_q, flow, &cnt, &len);
if (cnt > 0) {
VERIFY(qlen(&cl->cl_q) == (qlen - cnt));
PKTCNTR_ADD(&cl->cl_dropcnt, cnt, len);
IFCQ_DROP_ADD(ifq, cnt, len);
VERIFY(((signed)IFCQ_LEN(ifq) - cnt) >= 0);
IFCQ_LEN(ifq) -= cnt;
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s purge qid=%d pri=%d "
"qlen=[%d,%d] cnt=%d len=%d flow=0x%x\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif),
cl->cl_handle, cl->cl_pri, qlen, qlen(&cl->cl_q),
cnt, len, flow);
}
}
done:
if (packets != NULL)
*packets = cnt;
if (bytes != NULL)
*bytes = len;
}
static void
tcq_updateq(struct tcq_if *tif, struct tcq_class *cl, cqev_t ev)
{
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s update qid=%d pri=%d event=%s\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif),
cl->cl_handle, cl->cl_pri, ifclassq_ev2str(ev));
}
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
return (rio_updateq(cl->cl_rio, ev));
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
return (red_updateq(cl->cl_red, ev));
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
return (blue_updateq(cl->cl_blue, ev));
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
return (sfb_updateq(cl->cl_sfb, ev));
}
int
tcq_get_class_stats(struct tcq_if *tif, u_int32_t qid,
struct tcq_classstats *sp)
{
struct tcq_class *cl;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
if ((cl = tcq_clh_to_clp(tif, qid)) == NULL)
return (EINVAL);
sp->class_handle = cl->cl_handle;
sp->priority = cl->cl_pri;
sp->qlength = qlen(&cl->cl_q);
sp->qlimit = qlimit(&cl->cl_q);
sp->period = cl->cl_period;
sp->xmitcnt = cl->cl_xmitcnt;
sp->dropcnt = cl->cl_dropcnt;
sp->qtype = qtype(&cl->cl_q);
sp->qstate = qstate(&cl->cl_q);
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
red_getstats(cl->cl_red, &sp->red[0]);
#endif
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
rio_getstats(cl->cl_rio, &sp->red[0]);
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
blue_getstats(cl->cl_blue, &sp->blue);
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
sfb_getstats(cl->cl_sfb, &sp->sfb);
return (0);
}
static int
tcq_stat_sc(struct tcq_if *tif, cqrq_stat_sc_t *sr)
{
struct ifclassq *ifq = tif->tif_ifq;
struct tcq_class *cl;
u_int32_t i;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(sr->sc == MBUF_SC_UNSPEC || MBUF_VALID_SC(sr->sc));
i = MBUF_SCIDX(sr->sc);
VERIFY(i < IFCQ_SC_MAX);
cl = ifq->ifcq_disc_slots[i].cl;
sr->packets = qlen(&cl->cl_q);
sr->bytes = qsize(&cl->cl_q);
return (0);
}
static inline struct tcq_class *
tcq_clh_to_clp(struct tcq_if *tif, u_int32_t chandle)
{
struct tcq_class *cl;
int idx;
IFCQ_LOCK_ASSERT_HELD(tif->tif_ifq);
for (idx = tif->tif_maxpri; idx >= 0; idx--)
if ((cl = tif->tif_classes[idx]) != NULL &&
cl->cl_handle == chandle)
return (cl);
return (NULL);
}
static const char *
tcq_style(struct tcq_if *tif)
{
return ((tif->tif_flags & TCQIFF_ALTQ) ? "ALTQ_TCQ" : "TCQ");
}
static int
tcq_enqueue_ifclassq(struct ifclassq *ifq, struct mbuf *m)
{
u_int32_t i;
IFCQ_LOCK_ASSERT_HELD(ifq);
if (!(m->m_flags & M_PKTHDR)) {
log(LOG_ERR, "%s: packet does not have pkthdr\n",
if_name(ifq->ifcq_ifp));
IFCQ_CONVERT_LOCK(ifq);
m_freem(m);
return (ENOBUFS);
}
i = MBUF_SCIDX(mbuf_get_service_class(m));
VERIFY((u_int32_t)i < IFCQ_SC_MAX);
return (tcq_enqueue(ifq->ifcq_disc,
ifq->ifcq_disc_slots[i].cl, m, m_pftag(m)));
}
static struct mbuf *
tcq_dequeue_tc_ifclassq(struct ifclassq *ifq, mbuf_svc_class_t sc,
cqdq_op_t op)
{
u_int32_t i = MBUF_SCIDX(sc);
VERIFY((u_int32_t)i < IFCQ_SC_MAX);
return (tcq_dequeue_cl(ifq->ifcq_disc,
ifq->ifcq_disc_slots[i].cl, sc, op));
}
static int
tcq_request_ifclassq(struct ifclassq *ifq, cqrq_t req, void *arg)
{
struct tcq_if *tif = (struct tcq_if *)ifq->ifcq_disc;
int err = 0;
IFCQ_LOCK_ASSERT_HELD(ifq);
switch (req) {
case CLASSQRQ_PURGE:
tcq_purge(tif);
break;
case CLASSQRQ_PURGE_SC:
tcq_purge_sc(tif, (cqrq_purge_sc_t *)arg);
break;
case CLASSQRQ_EVENT:
tcq_event(tif, (cqev_t)arg);
break;
case CLASSQRQ_THROTTLE:
err = tcq_throttle(tif, (cqrq_throttle_t *)arg);
break;
case CLASSQRQ_STAT_SC:
err = tcq_stat_sc(tif, (cqrq_stat_sc_t *)arg);
break;
}
return (err);
}
int
tcq_setup_ifclassq(struct ifclassq *ifq, u_int32_t flags)
{
struct ifnet *ifp = ifq->ifcq_ifp;
struct tcq_class *cl0, *cl1, *cl2, *cl3;
struct tcq_if *tif;
u_int32_t maxlen = 0, qflags = 0;
int err = 0;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(ifq->ifcq_disc == NULL);
VERIFY(ifq->ifcq_type == PKTSCHEDT_NONE);
if (flags & PKTSCHEDF_QALG_RED)
qflags |= TQCF_RED;
if (flags & PKTSCHEDF_QALG_RIO)
qflags |= TQCF_RIO;
if (flags & PKTSCHEDF_QALG_BLUE)
qflags |= TQCF_BLUE;
if (flags & PKTSCHEDF_QALG_SFB)
qflags |= TQCF_SFB;
if (flags & PKTSCHEDF_QALG_ECN)
qflags |= TQCF_ECN;
if (flags & PKTSCHEDF_QALG_FLOWCTL)
qflags |= TQCF_FLOWCTL;
tif = tcq_alloc(ifp, M_WAITOK, FALSE);
if (tif == NULL)
return (ENOMEM);
if ((maxlen = IFCQ_MAXLEN(ifq)) == 0)
maxlen = if_sndq_maxlen;
if ((err = tcq_add_queue(tif, 0, maxlen,
qflags | PRCF_LAZY, SCIDX_BK, &cl0)) != 0)
goto cleanup;
if ((err = tcq_add_queue(tif, 1, maxlen,
qflags | TQCF_DEFAULTCLASS, SCIDX_BE, &cl1)) != 0)
goto cleanup;
if ((err = tcq_add_queue(tif, 2, maxlen,
qflags | PRCF_LAZY, SCIDX_VI, &cl2)) != 0)
goto cleanup;
if ((err = tcq_add_queue(tif, 3, maxlen,
qflags, SCIDX_VO, &cl3)) != 0)
goto cleanup;
err = ifclassq_attach(ifq, PKTSCHEDT_TCQ, tif,
tcq_enqueue_ifclassq, NULL, tcq_dequeue_tc_ifclassq,
tcq_request_ifclassq);
if (err == 0) {
ifq->ifcq_disc_slots[SCIDX_BK_SYS].qid = SCIDX_BK;
ifq->ifcq_disc_slots[SCIDX_BK_SYS].cl = cl0;
ifq->ifcq_disc_slots[SCIDX_BK].qid = SCIDX_BK;
ifq->ifcq_disc_slots[SCIDX_BK].cl = cl0;
ifq->ifcq_disc_slots[SCIDX_BE].qid = SCIDX_BE;
ifq->ifcq_disc_slots[SCIDX_BE].cl = cl1;
ifq->ifcq_disc_slots[SCIDX_RD].qid = SCIDX_BE;
ifq->ifcq_disc_slots[SCIDX_RD].cl = cl1;
ifq->ifcq_disc_slots[SCIDX_OAM].qid = SCIDX_BE;
ifq->ifcq_disc_slots[SCIDX_OAM].cl = cl1;
ifq->ifcq_disc_slots[SCIDX_AV].qid = SCIDX_VI;
ifq->ifcq_disc_slots[SCIDX_AV].cl = cl2;
ifq->ifcq_disc_slots[SCIDX_RV].qid = SCIDX_VI;
ifq->ifcq_disc_slots[SCIDX_RV].cl = cl2;
ifq->ifcq_disc_slots[SCIDX_VI].qid = SCIDX_VI;
ifq->ifcq_disc_slots[SCIDX_VI].cl = cl2;
ifq->ifcq_disc_slots[SCIDX_VO].qid = SCIDX_VO;
ifq->ifcq_disc_slots[SCIDX_VO].cl = cl3;
ifq->ifcq_disc_slots[SCIDX_CTL].qid = SCIDX_VO;
ifq->ifcq_disc_slots[SCIDX_CTL].cl = cl3;
}
cleanup:
if (err != 0)
(void) tcq_destroy_locked(tif);
return (err);
}
int
tcq_teardown_ifclassq(struct ifclassq *ifq)
{
struct tcq_if *tif = ifq->ifcq_disc;
int i;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(tif != NULL && ifq->ifcq_type == PKTSCHEDT_TCQ);
(void) tcq_destroy_locked(tif);
ifq->ifcq_disc = NULL;
for (i = 0; i < IFCQ_SC_MAX; i++) {
ifq->ifcq_disc_slots[i].qid = 0;
ifq->ifcq_disc_slots[i].cl = NULL;
}
return (ifclassq_detach(ifq));
}
int
tcq_getqstats_ifclassq(struct ifclassq *ifq, u_int32_t slot,
struct if_ifclassq_stats *ifqs)
{
struct tcq_if *tif = ifq->ifcq_disc;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(ifq->ifcq_type == PKTSCHEDT_TCQ);
if (slot >= IFCQ_SC_MAX)
return (EINVAL);
return (tcq_get_class_stats(tif, ifq->ifcq_disc_slots[slot].qid,
&ifqs->ifqs_tcq_stats));
}
static int
tcq_throttle(struct tcq_if *tif, cqrq_throttle_t *tr)
{
struct ifclassq *ifq = tif->tif_ifq;
struct tcq_class *cl;
int err = 0;
IFCQ_LOCK_ASSERT_HELD(ifq);
VERIFY(!(tif->tif_flags & TCQIFF_ALTQ));
if (!tr->set) {
tr->level = tif->tif_throttle;
return (0);
}
if (tr->level == tif->tif_throttle)
return (EALREADY);
cl = ifq->ifcq_disc_slots[SCIDX_BK_SYS].cl;
switch (tr->level) {
case IFNET_THROTTLE_OFF:
err = tcq_resumeq(tif, cl);
break;
case IFNET_THROTTLE_OPPORTUNISTIC:
err = tcq_suspendq(tif, cl);
break;
default:
VERIFY(0);
}
if (err == 0 || err == ENXIO) {
if (pktsched_verbose) {
log(LOG_DEBUG, "%s: %s throttling %slevel set %d->%d\n",
if_name(TCQIF_IFP(tif)), tcq_style(tif),
(err == 0) ? "" : "lazy ", tif->tif_throttle,
tr->level);
}
tif->tif_throttle = tr->level;
if (err != 0)
err = 0;
else
tcq_purgeq(tif, cl, 0, NULL, NULL);
} else {
log(LOG_ERR, "%s: %s unable to set throttling level "
"%d->%d [error=%d]\n", if_name(TCQIF_IFP(tif)),
tcq_style(tif), tif->tif_throttle, tr->level, err);
}
return (err);
}
static int
tcq_resumeq(struct tcq_if *tif, struct tcq_class *cl)
{
struct ifclassq *ifq = tif->tif_ifq;
int err = 0;
IFCQ_LOCK_ASSERT_HELD(ifq);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
err = rio_suspendq(cl->cl_rio, &cl->cl_q, FALSE);
else
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
err = red_suspendq(cl->cl_red, &cl->cl_q, FALSE);
else
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
err = blue_suspendq(cl->cl_blue, &cl->cl_q, FALSE);
else
#endif
if (q_is_sfb(&cl->cl_q) && cl->cl_sfb != NULL)
err = sfb_suspendq(cl->cl_sfb, &cl->cl_q, FALSE);
if (err == 0)
qstate(&cl->cl_q) = QS_RUNNING;
return (err);
}
static int
tcq_suspendq(struct tcq_if *tif, struct tcq_class *cl)
{
struct ifclassq *ifq = tif->tif_ifq;
int err = 0;
IFCQ_LOCK_ASSERT_HELD(ifq);
#if CLASSQ_RIO
if (q_is_rio(&cl->cl_q))
err = rio_suspendq(cl->cl_rio, &cl->cl_q, TRUE);
else
#endif
#if CLASSQ_RED
if (q_is_red(&cl->cl_q))
err = red_suspendq(cl->cl_red, &cl->cl_q, TRUE);
else
#endif
#if CLASSQ_BLUE
if (q_is_blue(&cl->cl_q))
err = blue_suspendq(cl->cl_blue, &cl->cl_q, TRUE);
else
#endif
if (q_is_sfb(&cl->cl_q)) {
if (cl->cl_sfb != NULL) {
err = sfb_suspendq(cl->cl_sfb, &cl->cl_q, TRUE);
} else {
VERIFY(cl->cl_flags & TQCF_LAZY);
err = ENXIO;
}
}
if (err == 0 || err == ENXIO)
qstate(&cl->cl_q) = QS_SUSPENDED;
return (err);
}