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|
/* $OpenBSD: aic6915.c,v 1.7 2008/10/02 20:21:13 brad Exp $ */
/* $NetBSD: aic6915.c,v 1.15 2005/12/24 20:27:29 perry Exp $ */
/*-
* Copyright (c) 2001 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Jason R. Thorpe.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Device driver for the Adaptec AIC-6915 (``Starfire'')
* 10/100 Ethernet controller.
*/
#include "bpfilter.h"
#include <sys/param.h>
#include <sys/endian.h>
#include <sys/systm.h>
#include <sys/timeout.h>
#include <sys/mbuf.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <sys/errno.h>
#include <sys/device.h>
#include <uvm/uvm_extern.h>
#include <net/if.h>
#include <net/if_dl.h>
#ifdef INET
#include <netinet/in.h>
#include <netinet/in_systm.h>
#include <netinet/in_var.h>
#include <netinet/ip.h>
#include <netinet/if_ether.h>
#endif
#include <net/if_media.h>
#if NBPFILTER > 0
#include <net/bpf.h>
#endif
#include <machine/bus.h>
#include <machine/intr.h>
#include <dev/mii/miivar.h>
#include <dev/ic/aic6915.h>
void sf_start(struct ifnet *);
void sf_watchdog(struct ifnet *);
int sf_ioctl(struct ifnet *, u_long, caddr_t);
int sf_init(struct ifnet *);
void sf_stop(struct ifnet *, int);
void sf_shutdown(void *);
void sf_txintr(struct sf_softc *);
void sf_rxintr(struct sf_softc *);
void sf_stats_update(struct sf_softc *);
void sf_reset(struct sf_softc *);
void sf_macreset(struct sf_softc *);
void sf_rxdrain(struct sf_softc *);
int sf_add_rxbuf(struct sf_softc *, int);
uint8_t sf_read_eeprom(struct sf_softc *, int);
void sf_set_filter(struct sf_softc *);
int sf_mii_read(struct device *, int, int);
void sf_mii_write(struct device *, int, int, int);
void sf_mii_statchg(struct device *);
void sf_tick(void *);
int sf_mediachange(struct ifnet *);
void sf_mediastatus(struct ifnet *, struct ifmediareq *);
uint32_t sf_reg_read(struct sf_softc *, bus_addr_t);
void sf_reg_write(struct sf_softc *, bus_addr_t , uint32_t);
void sf_set_filter_perfect(struct sf_softc *, int , uint8_t *);
void sf_set_filter_hash(struct sf_softc *, uint8_t *);
struct cfdriver sf_cd = {
NULL, "sf", DV_IFNET
};
#define sf_funcreg_read(sc, reg) \
bus_space_read_4((sc)->sc_st, (sc)->sc_sh_func, (reg))
#define sf_funcreg_write(sc, reg, val) \
bus_space_write_4((sc)->sc_st, (sc)->sc_sh_func, (reg), (val))
uint32_t
sf_reg_read(struct sf_softc *sc, bus_addr_t reg)
{
if (__predict_false(sc->sc_iomapped)) {
bus_space_write_4(sc->sc_st, sc->sc_sh, SF_IndirectIoAccess,
reg);
return (bus_space_read_4(sc->sc_st, sc->sc_sh,
SF_IndirectIoDataPort));
}
return (bus_space_read_4(sc->sc_st, sc->sc_sh, reg));
}
void
sf_reg_write(struct sf_softc *sc, bus_addr_t reg, uint32_t val)
{
if (__predict_false(sc->sc_iomapped)) {
bus_space_write_4(sc->sc_st, sc->sc_sh, SF_IndirectIoAccess,
reg);
bus_space_write_4(sc->sc_st, sc->sc_sh, SF_IndirectIoDataPort,
val);
return;
}
bus_space_write_4(sc->sc_st, sc->sc_sh, reg, val);
}
#define sf_genreg_read(sc, reg) \
sf_reg_read((sc), (reg) + SF_GENREG_OFFSET)
#define sf_genreg_write(sc, reg, val) \
sf_reg_write((sc), (reg) + SF_GENREG_OFFSET, (val))
/*
* sf_attach:
*
* Attach a Starfire interface to the system.
*/
void
sf_attach(struct sf_softc *sc)
{
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
int i, rseg, error;
bus_dma_segment_t seg;
u_int8_t enaddr[ETHER_ADDR_LEN];
timeout_set(&sc->sc_mii_timeout, sf_tick, sc);
/*
* If we're I/O mapped, the functional register handle is
* the same as the base handle. If we're memory mapped,
* carve off a chunk of the register space for the functional
* registers, to save on arithmetic later.
*/
if (sc->sc_iomapped)
sc->sc_sh_func = sc->sc_sh;
else {
if ((error = bus_space_subregion(sc->sc_st, sc->sc_sh,
SF_GENREG_OFFSET, SF_FUNCREG_SIZE, &sc->sc_sh_func)) != 0) {
printf("%s: unable to sub-region functional "
"registers, error = %d\n", sc->sc_dev.dv_xname,
error);
return;
}
}
/*
* Initialize the transmit threshold for this interface. The
* manual describes the default as 4 * 16 bytes. We start out
* at 10 * 16 bytes, to avoid a bunch of initial underruns on
* several platforms.
*/
sc->sc_txthresh = 10;
/*
* Allocate the control data structures, and create and load the
* DMA map for it.
*/
if ((error = bus_dmamem_alloc(sc->sc_dmat,
sizeof(struct sf_control_data), PAGE_SIZE, 0, &seg, 1, &rseg,
BUS_DMA_NOWAIT)) != 0) {
printf("%s: unable to allocate control data, error = %d\n",
sc->sc_dev.dv_xname, error);
goto fail_0;
}
if ((error = bus_dmamem_map(sc->sc_dmat, &seg, rseg,
sizeof(struct sf_control_data), (caddr_t *)&sc->sc_control_data,
BUS_DMA_NOWAIT|BUS_DMA_COHERENT)) != 0) {
printf("%s: unable to map control data, error = %d\n",
sc->sc_dev.dv_xname, error);
goto fail_1;
}
if ((error = bus_dmamap_create(sc->sc_dmat,
sizeof(struct sf_control_data), 1,
sizeof(struct sf_control_data), 0, BUS_DMA_NOWAIT,
&sc->sc_cddmamap)) != 0) {
printf("%s: unable to create control data DMA map, "
"error = %d\n", sc->sc_dev.dv_xname, error);
goto fail_2;
}
if ((error = bus_dmamap_load(sc->sc_dmat, sc->sc_cddmamap,
sc->sc_control_data, sizeof(struct sf_control_data), NULL,
BUS_DMA_NOWAIT)) != 0) {
printf("%s: unable to load control data DMA map, error = %d\n",
sc->sc_dev.dv_xname, error);
goto fail_3;
}
/*
* Create the transmit buffer DMA maps.
*/
for (i = 0; i < SF_NTXDESC; i++) {
if ((error = bus_dmamap_create(sc->sc_dmat, MCLBYTES,
SF_NTXFRAGS, MCLBYTES, 0, BUS_DMA_NOWAIT,
&sc->sc_txsoft[i].ds_dmamap)) != 0) {
printf("%s: unable to create tx DMA map %d, "
"error = %d\n", sc->sc_dev.dv_xname, i, error);
goto fail_4;
}
}
/*
* Create the receive buffer DMA maps.
*/
for (i = 0; i < SF_NRXDESC; i++) {
if ((error = bus_dmamap_create(sc->sc_dmat, MCLBYTES, 1,
MCLBYTES, 0, BUS_DMA_NOWAIT,
&sc->sc_rxsoft[i].ds_dmamap)) != 0) {
printf("%s: unable to create rx DMA map %d, "
"error = %d\n", sc->sc_dev.dv_xname, i, error);
goto fail_5;
}
}
/*
* Reset the chip to a known state.
*/
sf_reset(sc);
/*
* Read the Ethernet address from the EEPROM.
*/
for (i = 0; i < ETHER_ADDR_LEN; i++)
enaddr[i] = sf_read_eeprom(sc, (15 + (ETHER_ADDR_LEN - 1)) - i);
printf(", address %s\n", ether_sprintf(enaddr));
#ifdef DEBUG
if (sf_funcreg_read(sc, SF_PciDeviceConfig) & PDC_System64)
printf("%s: 64-bit PCI slot detected\n", sc->sc_dev.dv_xname);
#endif
/*
* Initialize our media structures and probe the MII.
*/
sc->sc_mii.mii_ifp = ifp;
sc->sc_mii.mii_readreg = sf_mii_read;
sc->sc_mii.mii_writereg = sf_mii_write;
sc->sc_mii.mii_statchg = sf_mii_statchg;
ifmedia_init(&sc->sc_mii.mii_media, IFM_IMASK, sf_mediachange,
sf_mediastatus);
mii_attach(&sc->sc_dev, &sc->sc_mii, 0xffffffff, MII_PHY_ANY,
MII_OFFSET_ANY, 0);
if (LIST_FIRST(&sc->sc_mii.mii_phys) == NULL) {
ifmedia_add(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE, 0, NULL);
ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_NONE);
} else
ifmedia_set(&sc->sc_mii.mii_media, IFM_ETHER|IFM_AUTO);
bcopy(enaddr, sc->sc_arpcom.ac_enaddr, ETHER_ADDR_LEN);
bcopy(sc->sc_dev.dv_xname, ifp->if_xname, IFNAMSIZ);
ifp = &sc->sc_arpcom.ac_if;
ifp->if_softc = sc;
ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
ifp->if_ioctl = sf_ioctl;
ifp->if_start = sf_start;
ifp->if_watchdog = sf_watchdog;
IFQ_SET_MAXLEN(&ifp->if_snd, SF_NTXDESC_MASK);
IFQ_SET_READY(&ifp->if_snd);
/*
* Attach the interface.
*/
if_attach(ifp);
ether_ifattach(ifp);
/*
* Make sure the interface is shutdown during reboot.
*/
sc->sc_sdhook = shutdownhook_establish(sf_shutdown, sc);
if (sc->sc_sdhook == NULL)
printf("%s: WARNING: unable to establish shutdown hook\n",
sc->sc_dev.dv_xname);
return;
/*
* Free any resources we've allocated during the failed attach
* attempt. Do this in reverse order an fall through.
*/
fail_5:
for (i = 0; i < SF_NRXDESC; i++) {
if (sc->sc_rxsoft[i].ds_dmamap != NULL)
bus_dmamap_destroy(sc->sc_dmat,
sc->sc_rxsoft[i].ds_dmamap);
}
fail_4:
for (i = 0; i < SF_NTXDESC; i++) {
if (sc->sc_txsoft[i].ds_dmamap != NULL)
bus_dmamap_destroy(sc->sc_dmat,
sc->sc_txsoft[i].ds_dmamap);
}
bus_dmamap_unload(sc->sc_dmat, sc->sc_cddmamap);
fail_3:
bus_dmamap_destroy(sc->sc_dmat, sc->sc_cddmamap);
fail_2:
bus_dmamem_unmap(sc->sc_dmat, (caddr_t) sc->sc_control_data,
sizeof(struct sf_control_data));
fail_1:
bus_dmamem_free(sc->sc_dmat, &seg, rseg);
fail_0:
return;
}
/*
* sf_shutdown:
*
* Shutdown hook -- make sure the interface is stopped at reboot.
*/
void
sf_shutdown(void *arg)
{
struct sf_softc *sc = arg;
sf_stop(&sc->sc_arpcom.ac_if, 1);
}
/*
* sf_start: [ifnet interface function]
*
* Start packet transmission on the interface.
*/
void
sf_start(struct ifnet *ifp)
{
struct sf_softc *sc = ifp->if_softc;
struct mbuf *m0, *m;
struct sf_txdesc0 *txd;
struct sf_descsoft *ds;
bus_dmamap_t dmamap;
int error, producer, last = -1, opending, seg;
/*
* Remember the previous number of pending transmits.
*/
opending = sc->sc_txpending;
/*
* Find out where we're sitting.
*/
producer = SF_TXDINDEX_TO_HOST(
TDQPI_HiPrTxProducerIndex_get(
sf_funcreg_read(sc, SF_TxDescQueueProducerIndex)));
/*
* Loop through the send queue, setting up transmit descriptors
* until we drain the queue, or use up all available transmit
* descriptors. Leave a blank one at the end for sanity's sake.
*/
while (sc->sc_txpending < (SF_NTXDESC - 1)) {
/*
* Grab a packet off the queue.
*/
IFQ_POLL(&ifp->if_snd, m0);
if (m0 == NULL)
break;
m = NULL;
/*
* Get the transmit descriptor.
*/
txd = &sc->sc_txdescs[producer];
ds = &sc->sc_txsoft[producer];
dmamap = ds->ds_dmamap;
/*
* Load the DMA map. If this fails, the packet either
* didn't fit in the allotted number of frags, or we were
* short on resources. In this case, we'll copy and try
* again.
*/
if (bus_dmamap_load_mbuf(sc->sc_dmat, dmamap, m0,
BUS_DMA_WRITE|BUS_DMA_NOWAIT) != 0) {
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL) {
printf("%s: unable to allocate Tx mbuf\n",
sc->sc_dev.dv_xname);
break;
}
if (m0->m_pkthdr.len > MHLEN) {
MCLGET(m, M_DONTWAIT);
if ((m->m_flags & M_EXT) == 0) {
printf("%s: unable to allocate Tx "
"cluster\n", sc->sc_dev.dv_xname);
m_freem(m);
break;
}
}
m_copydata(m0, 0, m0->m_pkthdr.len, mtod(m, caddr_t));
m->m_pkthdr.len = m->m_len = m0->m_pkthdr.len;
error = bus_dmamap_load_mbuf(sc->sc_dmat, dmamap,
m, BUS_DMA_WRITE|BUS_DMA_NOWAIT);
if (error) {
printf("%s: unable to load Tx buffer, "
"error = %d\n", sc->sc_dev.dv_xname, error);
break;
}
}
/*
* WE ARE NOW COMMITTED TO TRANSMITTING THE PACKET.
*/
IFQ_DEQUEUE(&ifp->if_snd, m0);
if (m != NULL) {
m_freem(m0);
m0 = m;
}
/* Initialize the descriptor. */
txd->td_word0 =
htole32(TD_W0_ID | TD_W0_CRCEN | m0->m_pkthdr.len);
if (producer == (SF_NTXDESC - 1))
txd->td_word0 |= TD_W0_END;
txd->td_word1 = htole32(dmamap->dm_nsegs);
for (seg = 0; seg < dmamap->dm_nsegs; seg++) {
txd->td_frags[seg].fr_addr =
htole32(dmamap->dm_segs[seg].ds_addr);
txd->td_frags[seg].fr_len =
htole32(dmamap->dm_segs[seg].ds_len);
}
/* Sync the descriptor and the DMA map. */
SF_CDTXDSYNC(sc, producer, BUS_DMASYNC_PREWRITE);
bus_dmamap_sync(sc->sc_dmat, dmamap, 0, dmamap->dm_mapsize,
BUS_DMASYNC_PREWRITE);
/*
* Store a pointer to the packet so we can free it later.
*/
ds->ds_mbuf = m0;
/* Advance the Tx pointer. */
sc->sc_txpending++;
last = producer;
producer = SF_NEXTTX(producer);
#if NBPFILTER > 0
/*
* Pass the packet to any BPF listeners.
*/
if (ifp->if_bpf)
bpf_mtap(ifp->if_bpf, m0, BPF_DIRECTION_OUT);
#endif
}
if (sc->sc_txpending == (SF_NTXDESC - 1)) {
/* No more slots left; notify upper layer. */
ifp->if_flags |= IFF_OACTIVE;
}
if (sc->sc_txpending != opending) {
KASSERT(last != -1);
/*
* We enqueued packets. Cause a transmit interrupt to
* happen on the last packet we enqueued, and give the
* new descriptors to the chip by writing the new
* producer index.
*/
sc->sc_txdescs[last].td_word0 |= TD_W0_INTR;
SF_CDTXDSYNC(sc, last, BUS_DMASYNC_PREWRITE);
sf_funcreg_write(sc, SF_TxDescQueueProducerIndex,
TDQPI_HiPrTxProducerIndex(SF_TXDINDEX_TO_CHIP(producer)));
/* Set a watchdog timer in case the chip flakes out. */
ifp->if_timer = 5;
}
}
/*
* sf_watchdog: [ifnet interface function]
*
* Watchdog timer handler.
*/
void
sf_watchdog(struct ifnet *ifp)
{
struct sf_softc *sc = ifp->if_softc;
printf("%s: device timeout\n", sc->sc_dev.dv_xname);
ifp->if_oerrors++;
(void) sf_init(ifp);
/* Try to get more packets going. */
sf_start(ifp);
}
/*
* sf_ioctl: [ifnet interface function]
*
* Handle control requests from the operator.
*/
int
sf_ioctl(struct ifnet *ifp, u_long cmd, caddr_t data)
{
struct sf_softc *sc = (struct sf_softc *)ifp->if_softc;
struct ifaddr *ifa = (struct ifaddr *)data;
struct ifreq *ifr = (struct ifreq *) data;
int s, error = 0;
s = splnet();
switch (cmd) {
case SIOCSIFADDR:
ifp->if_flags |= IFF_UP;
if (!(ifp->if_flags & IFF_RUNNING))
sf_init(ifp);
#ifdef INET
if (ifa->ifa_addr->sa_family == AF_INET)
arp_ifinit(&sc->sc_arpcom, ifa);
#endif
break;
case SIOCSIFFLAGS:
if (ifp->if_flags & IFF_UP) {
if (ifp->if_flags & IFF_RUNNING &&
((ifp->if_flags ^ sc->sc_flags) &
IFF_PROMISC)) {
sf_set_filter(sc);
} else {
if (!(ifp->if_flags & IFF_RUNNING))
sf_init(ifp);
}
} else {
if (ifp->if_flags & IFF_RUNNING)
sf_stop(ifp, 1);
}
sc->sc_flags = ifp->if_flags;
break;
case SIOCSIFMTU:
if (ifr->ifr_mtu < ETHERMIN || ifr->ifr_mtu > ifp->if_hardmtu)
error = EINVAL;
else if (ifp->if_mtu != ifr->ifr_mtu)
ifp->if_mtu = ifr->ifr_mtu;
break;
case SIOCADDMULTI:
case SIOCDELMULTI:
ifr = (struct ifreq *)data;
error = (cmd == SIOCADDMULTI) ?
ether_addmulti(ifr, &sc->sc_arpcom) :
ether_delmulti(ifr, &sc->sc_arpcom);
if (error == ENETRESET) {
if (ifp->if_flags & IFF_RUNNING)
sf_set_filter(sc);
error = 0;
}
break;
case SIOCGIFMEDIA:
case SIOCSIFMEDIA:
error = ifmedia_ioctl(ifp, ifr, &sc->sc_mii.mii_media, cmd);
break;
default:
error = ether_ioctl(ifp, &sc->sc_arpcom, cmd, data);
}
/* Try to get more packets going. */
sf_start(ifp);
splx(s);
return (error);
}
/*
* sf_intr:
*
* Interrupt service routine.
*/
int
sf_intr(void *arg)
{
struct sf_softc *sc = arg;
uint32_t isr;
int handled = 0, wantinit = 0;
for (;;) {
/* Reading clears all interrupts we're interested in. */
isr = sf_funcreg_read(sc, SF_InterruptStatus);
if ((isr & IS_PCIPadInt) == 0)
break;
handled = 1;
/* Handle receive interrupts. */
if (isr & IS_RxQ1DoneInt)
sf_rxintr(sc);
/* Handle transmit completion interrupts. */
if (isr & (IS_TxDmaDoneInt|IS_TxQueueDoneInt))
sf_txintr(sc);
/* Handle abnormal interrupts. */
if (isr & IS_AbnormalInterrupt) {
/* Statistics. */
if (isr & IS_StatisticWrapInt)
sf_stats_update(sc);
/* DMA errors. */
if (isr & IS_DmaErrInt) {
wantinit = 1;
printf("%s: WARNING: DMA error\n",
sc->sc_dev.dv_xname);
}
/* Transmit FIFO underruns. */
if (isr & IS_TxDataLowInt) {
if (sc->sc_txthresh < 0xff)
sc->sc_txthresh++;
#ifdef DEBUG
printf("%s: transmit FIFO underrun, new "
"threshold: %d bytes\n",
sc->sc_dev.dv_xname,
sc->sc_txthresh * 16);
#endif
sf_funcreg_write(sc, SF_TransmitFrameCSR,
sc->sc_TransmitFrameCSR |
TFCSR_TransmitThreshold(sc->sc_txthresh));
sf_funcreg_write(sc, SF_TxDescQueueCtrl,
sc->sc_TxDescQueueCtrl |
TDQC_TxHighPriorityFifoThreshold(
sc->sc_txthresh));
}
}
}
if (handled) {
/* Reset the interface, if necessary. */
if (wantinit)
sf_init(&sc->sc_arpcom.ac_if);
/* Try and get more packets going. */
sf_start(&sc->sc_arpcom.ac_if);
}
return (handled);
}
/*
* sf_txintr:
*
* Helper -- handle transmit completion interrupts.
*/
void
sf_txintr(struct sf_softc *sc)
{
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
struct sf_descsoft *ds;
uint32_t cqci, tcd;
int consumer, producer, txidx;
try_again:
cqci = sf_funcreg_read(sc, SF_CompletionQueueConsumerIndex);
consumer = CQCI_TxCompletionConsumerIndex_get(cqci);
producer = CQPI_TxCompletionProducerIndex_get(
sf_funcreg_read(sc, SF_CompletionQueueProducerIndex));
if (consumer == producer)
return;
ifp->if_flags &= ~IFF_OACTIVE;
while (consumer != producer) {
SF_CDTXCSYNC(sc, consumer, BUS_DMASYNC_POSTREAD);
tcd = letoh32(sc->sc_txcomp[consumer].tcd_word0);
txidx = SF_TCD_INDEX_TO_HOST(TCD_INDEX(tcd));
#ifdef DIAGNOSTIC
if ((tcd & TCD_PR) == 0)
printf("%s: Tx queue mismatch, index %d\n",
sc->sc_dev.dv_xname, txidx);
#endif
/*
* NOTE: stats are updated later. We're just
* releasing packets that have been DMA'd to
* the chip.
*/
ds = &sc->sc_txsoft[txidx];
SF_CDTXDSYNC(sc, txidx, BUS_DMASYNC_POSTWRITE);
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap,
0, ds->ds_dmamap->dm_mapsize,
BUS_DMASYNC_POSTWRITE);
m_freem(ds->ds_mbuf);
ds->ds_mbuf = NULL;
consumer = SF_NEXTTCD(consumer);
sc->sc_txpending--;
}
/* XXXJRT -- should be KDASSERT() */
KASSERT(sc->sc_txpending >= 0);
/* If all packets are done, cancel the watchdog timer. */
if (sc->sc_txpending == 0)
ifp->if_timer = 0;
/* Update the consumer index. */
sf_funcreg_write(sc, SF_CompletionQueueConsumerIndex,
(cqci & ~CQCI_TxCompletionConsumerIndex(0x7ff)) |
CQCI_TxCompletionConsumerIndex(consumer));
/* Double check for new completions. */
goto try_again;
}
/*
* sf_rxintr:
*
* Helper -- handle receive interrupts.
*/
void
sf_rxintr(struct sf_softc *sc)
{
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
struct sf_descsoft *ds;
struct sf_rcd_full *rcd;
struct mbuf *m;
uint32_t cqci, word0;
int consumer, producer, bufproducer, rxidx, len;
try_again:
cqci = sf_funcreg_read(sc, SF_CompletionQueueConsumerIndex);
consumer = CQCI_RxCompletionQ1ConsumerIndex_get(cqci);
producer = CQPI_RxCompletionQ1ProducerIndex_get(
sf_funcreg_read(sc, SF_CompletionQueueProducerIndex));
bufproducer = RXQ1P_RxDescQ1Producer_get(
sf_funcreg_read(sc, SF_RxDescQueue1Ptrs));
if (consumer == producer)
return;
while (consumer != producer) {
rcd = &sc->sc_rxcomp[consumer];
SF_CDRXCSYNC(sc, consumer,
BUS_DMASYNC_POSTREAD|BUS_DMASYNC_POSTWRITE);
SF_CDRXCSYNC(sc, consumer,
BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
word0 = letoh32(rcd->rcd_word0);
rxidx = RCD_W0_EndIndex(word0);
ds = &sc->sc_rxsoft[rxidx];
consumer = SF_NEXTRCD(consumer);
bufproducer = SF_NEXTRX(bufproducer);
if ((word0 & RCD_W0_OK) == 0) {
SF_INIT_RXDESC(sc, rxidx);
continue;
}
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap, 0,
ds->ds_dmamap->dm_mapsize, BUS_DMASYNC_POSTREAD);
/*
* No errors; receive the packet. Note that we have
* configured the Starfire to NOT transfer the CRC
* with the packet.
*/
len = RCD_W0_Length(word0);
#ifndef __STRICT_ALIGNMENT
/*
* Allocate a new mbuf cluster. If that fails, we are
* out of memory, and must drop the packet and recycle
* the buffer that's already attached to this descriptor.
*/
m = ds->ds_mbuf;
if (sf_add_rxbuf(sc, rxidx) != 0) {
ifp->if_ierrors++;
SF_INIT_RXDESC(sc, rxidx);
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap, 0,
ds->ds_dmamap->dm_mapsize, BUS_DMASYNC_PREREAD);
continue;
}
#else
/*
* The Starfire's receive buffer must be 4-byte aligned.
* But this means that the data after the Ethernet header
* is misaligned. We must allocate a new buffer and
* copy the data, shifted forward 2 bytes.
*/
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL) {
dropit:
ifp->if_ierrors++;
SF_INIT_RXDESC(sc, rxidx);
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap, 0,
ds->ds_dmamap->dm_mapsize, BUS_DMASYNC_PREREAD);
continue;
}
if (len > (MHLEN - 2)) {
MCLGET(m, M_DONTWAIT);
if ((m->m_flags & M_EXT) == 0) {
m_freem(m);
goto dropit;
}
}
m->m_data += 2;
/*
* Note that we use cluster for incoming frames, so the
* buffer is virtually contiguous.
*/
memcpy(mtod(m, caddr_t), mtod(ds->ds_mbuf, caddr_t), len);
/* Allow the receive descriptor to continue using its mbuf. */
SF_INIT_RXDESC(sc, rxidx);
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap, 0,
ds->ds_dmamap->dm_mapsize, BUS_DMASYNC_PREREAD);
#endif /* __STRICT_ALIGNMENT */
m->m_pkthdr.rcvif = ifp;
m->m_pkthdr.len = m->m_len = len;
#if NBPFILTER > 0
/*
* Pass this up to any BPF listeners.
*/
if (ifp->if_bpf)
bpf_mtap(ifp->if_bpf, m, BPF_DIRECTION_IN);
#endif /* NBPFILTER > 0 */
/* Pass it on. */
ether_input_mbuf(ifp, m);
ifp->if_ipackets++;
}
/* Update the chip's pointers. */
sf_funcreg_write(sc, SF_CompletionQueueConsumerIndex,
(cqci & ~CQCI_RxCompletionQ1ConsumerIndex(0x7ff)) |
CQCI_RxCompletionQ1ConsumerIndex(consumer));
sf_funcreg_write(sc, SF_RxDescQueue1Ptrs,
RXQ1P_RxDescQ1Producer(bufproducer));
/* Double-check for any new completions. */
goto try_again;
}
/*
* sf_tick:
*
* One second timer, used to tick the MII and update stats.
*/
void
sf_tick(void *arg)
{
struct sf_softc *sc = arg;
int s;
s = splnet();
mii_tick(&sc->sc_mii);
sf_stats_update(sc);
splx(s);
timeout_add_sec(&sc->sc_mii_timeout, 1);
}
/*
* sf_stats_update:
*
* Read the statitistics counters.
*/
void
sf_stats_update(struct sf_softc *sc)
{
struct sf_stats stats;
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
uint32_t *p;
u_int i;
p = &stats.TransmitOKFrames;
for (i = 0; i < (sizeof(stats) / sizeof(uint32_t)); i++) {
*p++ = sf_genreg_read(sc,
SF_STATS_BASE + (i * sizeof(uint32_t)));
sf_genreg_write(sc, SF_STATS_BASE + (i * sizeof(uint32_t)), 0);
}
ifp->if_opackets += stats.TransmitOKFrames;
ifp->if_collisions += stats.SingleCollisionFrames +
stats.MultipleCollisionFrames;
ifp->if_oerrors += stats.TransmitAbortDueToExcessiveCollisions +
stats.TransmitAbortDueToExcessingDeferral +
stats.FramesLostDueToInternalTransmitErrors;
ifp->if_ipackets += stats.ReceiveOKFrames;
ifp->if_ierrors += stats.ReceiveCRCErrors + stats.AlignmentErrors +
stats.ReceiveFramesTooLong + stats.ReceiveFramesTooShort +
stats.ReceiveFramesJabbersError +
stats.FramesLostDueToInternalReceiveErrors;
}
/*
* sf_reset:
*
* Perform a soft reset on the Starfire.
*/
void
sf_reset(struct sf_softc *sc)
{
int i;
sf_funcreg_write(sc, SF_GeneralEthernetCtrl, 0);
sf_macreset(sc);
sf_funcreg_write(sc, SF_PciDeviceConfig, PDC_SoftReset);
for (i = 0; i < 1000; i++) {
delay(10);
if ((sf_funcreg_read(sc, SF_PciDeviceConfig) &
PDC_SoftReset) == 0)
break;
}
if (i == 1000) {
printf("%s: reset failed to complete\n", sc->sc_dev.dv_xname);
sf_funcreg_write(sc, SF_PciDeviceConfig, 0);
}
delay(1000);
}
/*
* sf_macreset:
*
* Reset the MAC portion of the Starfire.
*/
void
sf_macreset(struct sf_softc *sc)
{
sf_genreg_write(sc, SF_MacConfig1, sc->sc_MacConfig1 | MC1_SoftRst);
delay(1000);
sf_genreg_write(sc, SF_MacConfig1, sc->sc_MacConfig1);
}
/*
* sf_init: [ifnet interface function]
*
* Initialize the interface. Must be called at splnet().
*/
int
sf_init(struct ifnet *ifp)
{
struct sf_softc *sc = ifp->if_softc;
struct sf_descsoft *ds;
int error = 0;
u_int i;
/*
* Cancel any pending I/O.
*/
sf_stop(ifp, 0);
/*
* Reset the Starfire to a known state.
*/
sf_reset(sc);
/* Clear the stat counters. */
for (i = 0; i < sizeof(struct sf_stats); i += sizeof(uint32_t))
sf_genreg_write(sc, SF_STATS_BASE + i, 0);
/*
* Initialize the transmit descriptor ring.
*/
memset(sc->sc_txdescs, 0, sizeof(sc->sc_txdescs));
sf_funcreg_write(sc, SF_TxDescQueueHighAddr, 0);
sf_funcreg_write(sc, SF_HiPrTxDescQueueBaseAddr, SF_CDTXDADDR(sc, 0));
sf_funcreg_write(sc, SF_LoPrTxDescQueueBaseAddr, 0);
/*
* Initialize the transmit completion ring.
*/
for (i = 0; i < SF_NTCD; i++) {
sc->sc_txcomp[i].tcd_word0 = TCD_DMA_ID;
SF_CDTXCSYNC(sc, i, BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
}
sf_funcreg_write(sc, SF_CompletionQueueHighAddr, 0);
sf_funcreg_write(sc, SF_TxCompletionQueueCtrl, SF_CDTXCADDR(sc, 0));
/*
* Initialize the receive descriptor ring.
*/
for (i = 0; i < SF_NRXDESC; i++) {
ds = &sc->sc_rxsoft[i];
if (ds->ds_mbuf == NULL) {
if ((error = sf_add_rxbuf(sc, i)) != 0) {
printf("%s: unable to allocate or map rx "
"buffer %d, error = %d\n",
sc->sc_dev.dv_xname, i, error);
/*
* XXX Should attempt to run with fewer receive
* XXX buffers instead of just failing.
*/
sf_rxdrain(sc);
goto out;
}
} else
SF_INIT_RXDESC(sc, i);
}
sf_funcreg_write(sc, SF_RxDescQueueHighAddress, 0);
sf_funcreg_write(sc, SF_RxDescQueue1LowAddress, SF_CDRXDADDR(sc, 0));
sf_funcreg_write(sc, SF_RxDescQueue2LowAddress, 0);
/*
* Initialize the receive completion ring.
*/
for (i = 0; i < SF_NRCD; i++) {
sc->sc_rxcomp[i].rcd_word0 = RCD_W0_ID;
sc->sc_rxcomp[i].rcd_word1 = 0;
sc->sc_rxcomp[i].rcd_word2 = 0;
sc->sc_rxcomp[i].rcd_timestamp = 0;
SF_CDRXCSYNC(sc, i, BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE);
}
sf_funcreg_write(sc, SF_RxCompletionQueue1Ctrl, SF_CDRXCADDR(sc, 0) |
RCQ1C_RxCompletionQ1Type(3));
sf_funcreg_write(sc, SF_RxCompletionQueue2Ctrl, 0);
/*
* Initialize the Tx CSR.
*/
sc->sc_TransmitFrameCSR = 0;
sf_funcreg_write(sc, SF_TransmitFrameCSR,
sc->sc_TransmitFrameCSR |
TFCSR_TransmitThreshold(sc->sc_txthresh));
/*
* Initialize the Tx descriptor control register.
*/
sc->sc_TxDescQueueCtrl = TDQC_SkipLength(0) |
TDQC_TxDmaBurstSize(4) | /* default */
TDQC_MinFrameSpacing(3) | /* 128 bytes */
TDQC_TxDescType(0);
sf_funcreg_write(sc, SF_TxDescQueueCtrl,
sc->sc_TxDescQueueCtrl |
TDQC_TxHighPriorityFifoThreshold(sc->sc_txthresh));
/*
* Initialize the Rx descriptor control registers.
*/
sf_funcreg_write(sc, SF_RxDescQueue1Ctrl,
RDQ1C_RxQ1BufferLength(MCLBYTES) |
RDQ1C_RxDescSpacing(0));
sf_funcreg_write(sc, SF_RxDescQueue2Ctrl, 0);
/*
* Initialize the Tx descriptor producer indices.
*/
sf_funcreg_write(sc, SF_TxDescQueueProducerIndex,
TDQPI_HiPrTxProducerIndex(0) |
TDQPI_LoPrTxProducerIndex(0));
/*
* Initialize the Rx descriptor producer indices.
*/
sf_funcreg_write(sc, SF_RxDescQueue1Ptrs,
RXQ1P_RxDescQ1Producer(SF_NRXDESC - 1));
sf_funcreg_write(sc, SF_RxDescQueue2Ptrs,
RXQ2P_RxDescQ2Producer(0));
/*
* Initialize the Tx and Rx completion queue consumer indices.
*/
sf_funcreg_write(sc, SF_CompletionQueueConsumerIndex,
CQCI_TxCompletionConsumerIndex(0) |
CQCI_RxCompletionQ1ConsumerIndex(0));
sf_funcreg_write(sc, SF_RxHiPrCompletionPtrs, 0);
/*
* Initialize the Rx DMA control register.
*/
sf_funcreg_write(sc, SF_RxDmaCtrl,
RDC_RxHighPriorityThreshold(6) | /* default */
RDC_RxBurstSize(4)); /* default */
/*
* Set the receive filter.
*/
sc->sc_RxAddressFilteringCtl = 0;
sf_set_filter(sc);
/*
* Set MacConfig1. When we set the media, MacConfig1 will
* actually be written and the MAC part reset.
*/
sc->sc_MacConfig1 = MC1_PadEn;
/*
* Set the media.
*/
mii_mediachg(&sc->sc_mii);
/*
* Initialize the interrupt register.
*/
sc->sc_InterruptEn = IS_PCIPadInt | IS_RxQ1DoneInt |
IS_TxQueueDoneInt | IS_TxDmaDoneInt | IS_DmaErrInt |
IS_StatisticWrapInt;
sf_funcreg_write(sc, SF_InterruptEn, sc->sc_InterruptEn);
sf_funcreg_write(sc, SF_PciDeviceConfig, PDC_IntEnable |
PDC_PCIMstDmaEn | (1 << PDC_FifoThreshold_SHIFT));
/*
* Start the transmit and receive processes.
*/
sf_funcreg_write(sc, SF_GeneralEthernetCtrl,
GEC_TxDmaEn|GEC_RxDmaEn|GEC_TransmitEn|GEC_ReceiveEn);
/* Start the on second clock. */
timeout_add_sec(&sc->sc_mii_timeout, 1);
/*
* Note that the interface is now running.
*/
ifp->if_flags |= IFF_RUNNING;
ifp->if_flags &= ~IFF_OACTIVE;
out:
if (error) {
ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
ifp->if_timer = 0;
printf("%s: interface not running\n", sc->sc_dev.dv_xname);
}
return (error);
}
/*
* sf_rxdrain:
*
* Drain the receive queue.
*/
void
sf_rxdrain(struct sf_softc *sc)
{
struct sf_descsoft *ds;
int i;
for (i = 0; i < SF_NRXDESC; i++) {
ds = &sc->sc_rxsoft[i];
if (ds->ds_mbuf != NULL) {
bus_dmamap_unload(sc->sc_dmat, ds->ds_dmamap);
m_freem(ds->ds_mbuf);
ds->ds_mbuf = NULL;
}
}
}
/*
* sf_stop: [ifnet interface function]
*
* Stop transmission on the interface.
*/
void
sf_stop(struct ifnet *ifp, int disable)
{
struct sf_softc *sc = ifp->if_softc;
struct sf_descsoft *ds;
int i;
/* Stop the one second clock. */
timeout_del(&sc->sc_mii_timeout);
/* Down the MII. */
mii_down(&sc->sc_mii);
/* Disable interrupts. */
sf_funcreg_write(sc, SF_InterruptEn, 0);
/* Stop the transmit and receive processes. */
sf_funcreg_write(sc, SF_GeneralEthernetCtrl, 0);
/*
* Release any queued transmit buffers.
*/
for (i = 0; i < SF_NTXDESC; i++) {
ds = &sc->sc_txsoft[i];
if (ds->ds_mbuf != NULL) {
bus_dmamap_unload(sc->sc_dmat, ds->ds_dmamap);
m_freem(ds->ds_mbuf);
ds->ds_mbuf = NULL;
}
}
sc->sc_txpending = 0;
if (disable)
sf_rxdrain(sc);
/*
* Mark the interface down and cancel the watchdog timer.
*/
ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
ifp->if_timer = 0;
}
/*
* sf_read_eeprom:
*
* Read from the Starfire EEPROM.
*/
uint8_t
sf_read_eeprom(struct sf_softc *sc, int offset)
{
uint32_t reg;
reg = sf_genreg_read(sc, SF_EEPROM_BASE + (offset & ~3));
return ((reg >> (8 * (offset & 3))) & 0xff);
}
/*
* sf_add_rxbuf:
*
* Add a receive buffer to the indicated descriptor.
*/
int
sf_add_rxbuf(struct sf_softc *sc, int idx)
{
struct sf_descsoft *ds = &sc->sc_rxsoft[idx];
struct mbuf *m;
int error;
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL)
return (ENOBUFS);
MCLGET(m, M_DONTWAIT);
if ((m->m_flags & M_EXT) == 0) {
m_freem(m);
return (ENOBUFS);
}
if (ds->ds_mbuf != NULL)
bus_dmamap_unload(sc->sc_dmat, ds->ds_dmamap);
ds->ds_mbuf = m;
error = bus_dmamap_load(sc->sc_dmat, ds->ds_dmamap,
m->m_ext.ext_buf, m->m_ext.ext_size, NULL,
BUS_DMA_READ|BUS_DMA_NOWAIT);
if (error) {
printf("%s: can't load rx DMA map %d, error = %d\n",
sc->sc_dev.dv_xname, idx, error);
panic("sf_add_rxbuf"); /* XXX */
}
bus_dmamap_sync(sc->sc_dmat, ds->ds_dmamap, 0,
ds->ds_dmamap->dm_mapsize, BUS_DMASYNC_PREREAD);
SF_INIT_RXDESC(sc, idx);
return (0);
}
void
sf_set_filter_perfect(struct sf_softc *sc, int slot, uint8_t *enaddr)
{
uint32_t reg0, reg1, reg2;
reg0 = enaddr[5] | (enaddr[4] << 8);
reg1 = enaddr[3] | (enaddr[2] << 8);
reg2 = enaddr[1] | (enaddr[0] << 8);
sf_genreg_write(sc, SF_PERFECT_BASE + (slot * 0x10) + 0, reg0);
sf_genreg_write(sc, SF_PERFECT_BASE + (slot * 0x10) + 4, reg1);
sf_genreg_write(sc, SF_PERFECT_BASE + (slot * 0x10) + 8, reg2);
}
void
sf_set_filter_hash(struct sf_softc *sc, uint8_t *enaddr)
{
uint32_t hash, slot, reg;
hash = ether_crc32_be(enaddr, ETHER_ADDR_LEN) >> 23;
slot = hash >> 4;
reg = sf_genreg_read(sc, SF_HASH_BASE + (slot * 0x10));
reg |= 1 << (hash & 0xf);
sf_genreg_write(sc, SF_HASH_BASE + (slot * 0x10), reg);
}
/*
* sf_set_filter:
*
* Set the Starfire receive filter.
*/
void
sf_set_filter(struct sf_softc *sc)
{
struct arpcom *ac = &sc->sc_arpcom;
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
struct ether_multi *enm;
struct ether_multistep step;
int i;
/* Start by clearing the perfect and hash tables. */
for (i = 0; i < SF_PERFECT_SIZE; i += sizeof(uint32_t))
sf_genreg_write(sc, SF_PERFECT_BASE + i, 0);
for (i = 0; i < SF_HASH_SIZE; i += sizeof(uint32_t))
sf_genreg_write(sc, SF_HASH_BASE + i, 0);
/*
* Clear the perfect and hash mode bits.
*/
sc->sc_RxAddressFilteringCtl &=
~(RAFC_PerfectFilteringMode(3) | RAFC_HashFilteringMode(3));
if (ifp->if_flags & IFF_BROADCAST)
sc->sc_RxAddressFilteringCtl |= RAFC_PassBroadcast;
else
sc->sc_RxAddressFilteringCtl &= ~RAFC_PassBroadcast;
if (ifp->if_flags & IFF_PROMISC) {
sc->sc_RxAddressFilteringCtl |= RAFC_PromiscuousMode;
goto allmulti;
} else
sc->sc_RxAddressFilteringCtl &= ~RAFC_PromiscuousMode;
/*
* Set normal perfect filtering mode.
*/
sc->sc_RxAddressFilteringCtl |= RAFC_PerfectFilteringMode(1);
/*
* First, write the station address to the perfect filter
* table.
*/
sf_set_filter_perfect(sc, 0, LLADDR(ifp->if_sadl));
/*
* Now set the hash bits for each multicast address in our
* list.
*/
ETHER_FIRST_MULTI(step, ac, enm);
if (enm == NULL)
goto done;
while (enm != NULL) {
if (memcmp(enm->enm_addrlo, enm->enm_addrhi, ETHER_ADDR_LEN)) {
/*
* We must listen to a range of multicast addresses.
* For now, just accept all multicasts, rather than
* trying to set only those filter bits needed to match
* the range. (At this time, the only use of address
* ranges is for IP multicast routing, for which the
* range is big enough to require all bits set.)
*/
goto allmulti;
}
sf_set_filter_hash(sc, enm->enm_addrlo);
ETHER_NEXT_MULTI(step, enm);
}
/*
* Set "hash only multicast dest, match regardless of VLAN ID".
*/
sc->sc_RxAddressFilteringCtl |= RAFC_HashFilteringMode(2);
goto done;
allmulti:
/*
* XXX RAFC_PassMulticast is sub-optimal if using VLAN mode.
*/
sc->sc_RxAddressFilteringCtl |= RAFC_PassMulticast;
ifp->if_flags |= IFF_ALLMULTI;
done:
sf_funcreg_write(sc, SF_RxAddressFilteringCtl,
sc->sc_RxAddressFilteringCtl);
}
/*
* sf_mii_read: [mii interface function]
*
* Read from the MII.
*/
int
sf_mii_read(struct device *self, int phy, int reg)
{
struct sf_softc *sc = (void *) self;
uint32_t v;
int i;
for (i = 0; i < 1000; i++) {
v = sf_genreg_read(sc, SF_MII_PHY_REG(phy, reg));
if (v & MiiDataValid)
break;
delay(1);
}
if ((v & MiiDataValid) == 0)
return (0);
if (MiiRegDataPort(v) == 0xffff)
return (0);
return (MiiRegDataPort(v));
}
/*
* sf_mii_write: [mii interface function]
*
* Write to the MII.
*/
void
sf_mii_write(struct device *self, int phy, int reg, int val)
{
struct sf_softc *sc = (void *) self;
int i;
sf_genreg_write(sc, SF_MII_PHY_REG(phy, reg), val);
for (i = 0; i < 1000; i++) {
if ((sf_genreg_read(sc, SF_MII_PHY_REG(phy, reg)) &
MiiBusy) == 0)
return;
delay(1);
}
printf("%s: MII write timed out\n", sc->sc_dev.dv_xname);
}
/*
* sf_mii_statchg: [mii interface function]
*
* Callback from the PHY when the media changes.
*/
void
sf_mii_statchg(struct device *self)
{
struct sf_softc *sc = (void *) self;
uint32_t ipg;
if (sc->sc_mii.mii_media_active & IFM_FDX) {
sc->sc_MacConfig1 |= MC1_FullDuplex;
ipg = 0x15;
} else {
sc->sc_MacConfig1 &= ~MC1_FullDuplex;
ipg = 0x11;
}
sf_genreg_write(sc, SF_MacConfig1, sc->sc_MacConfig1);
sf_macreset(sc);
sf_genreg_write(sc, SF_BkToBkIPG, ipg);
}
/*
* sf_mediastatus: [ifmedia interface function]
*
* Callback from ifmedia to request current media status.
*/
void
sf_mediastatus(struct ifnet *ifp, struct ifmediareq *ifmr)
{
struct sf_softc *sc = ifp->if_softc;
mii_pollstat(&sc->sc_mii);
ifmr->ifm_status = sc->sc_mii.mii_media_status;
ifmr->ifm_active = sc->sc_mii.mii_media_active;
}
/*
* sf_mediachange: [ifmedia interface function]
*
* Callback from ifmedia to request new media setting.
*/
int
sf_mediachange(struct ifnet *ifp)
{
struct sf_softc *sc = ifp->if_softc;
if (ifp->if_flags & IFF_UP)
mii_mediachg(&sc->sc_mii);
return (0);
}
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