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|
/* $OpenBSD: re.c,v 1.32 2006/06/30 06:17:55 brad Exp $ */
/* $FreeBSD: if_re.c,v 1.31 2004/09/04 07:54:05 ru Exp $ */
/*
* Copyright (c) 1997, 1998-2003
* Bill Paul <wpaul@windriver.com>. All rights reserved.
*
* 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Bill Paul.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Bill Paul 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 Bill Paul OR THE VOICES IN HIS HEAD
* 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.
*/
/*
* RealTek 8139C+/8169/8169S/8110S PCI NIC driver
*
* Written by Bill Paul <wpaul@windriver.com>
* Senior Networking Software Engineer
* Wind River Systems
*/
/*
* This driver is designed to support RealTek's next generation of
* 10/100 and 10/100/1000 PCI ethernet controllers. There are currently
* seven devices in this family: the RTL8139C+, the RTL8169, the RTL8169S,
* RTL8110S, the RTL8168, the RTL8111 and the RTL8101E.
*
* The 8139C+ is a 10/100 ethernet chip. It is backwards compatible
* with the older 8139 family, however it also supports a special
* C+ mode of operation that provides several new performance enhancing
* features. These include:
*
* o Descriptor based DMA mechanism. Each descriptor represents
* a single packet fragment. Data buffers may be aligned on
* any byte boundary.
*
* o 64-bit DMA
*
* o TCP/IP checksum offload for both RX and TX
*
* o High and normal priority transmit DMA rings
*
* o VLAN tag insertion and extraction
*
* o TCP large send (segmentation offload)
*
* Like the 8139, the 8139C+ also has a built-in 10/100 PHY. The C+
* programming API is fairly straightforward. The RX filtering, EEPROM
* access and PHY access is the same as it is on the older 8139 series
* chips.
*
* The 8169 is a 64-bit 10/100/1000 gigabit ethernet MAC. It has almost the
* same programming API and feature set as the 8139C+ with the following
* differences and additions:
*
* o 1000Mbps mode
*
* o Jumbo frames
*
* o GMII and TBI ports/registers for interfacing with copper
* or fiber PHYs
*
* o RX and TX DMA rings can have up to 1024 descriptors
* (the 8139C+ allows a maximum of 64)
*
* o Slight differences in register layout from the 8139C+
*
* The TX start and timer interrupt registers are at different locations
* on the 8169 than they are on the 8139C+. Also, the status word in the
* RX descriptor has a slightly different bit layout. The 8169 does not
* have a built-in PHY. Most reference boards use a Marvell 88E1000 'Alaska'
* copper gigE PHY.
*
* The 8169S/8110S 10/100/1000 devices have built-in copper gigE PHYs
* (the 'S' stands for 'single-chip'). These devices have the same
* programming API as the older 8169, but also have some vendor-specific
* registers for the on-board PHY. The 8110S is a LAN-on-motherboard
* part designed to be pin-compatible with the RealTek 8100 10/100 chip.
*
* This driver takes advantage of the RX and TX checksum offload and
* VLAN tag insertion/extraction features. It also implements TX
* interrupt moderation using the timer interrupt registers, which
* significantly reduces TX interrupt load. There is also support
* for jumbo frames, however the 8169/8169S/8110S can not transmit
* jumbo frames larger than 7440, so the max MTU possible with this
* driver is 7422 bytes.
*/
#include "bpfilter.h"
#include "vlan.h"
#include <sys/param.h>
#include <sys/endian.h>
#include <sys/systm.h>
#include <sys/sockio.h>
#include <sys/mbuf.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
#include <sys/device.h>
#include <sys/timeout.h>
#include <sys/socket.h>
#include <net/if.h>
#include <net/if_dl.h>
#include <net/if_media.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
#if NVLAN > 0
#include <net/if_types.h>
#include <net/if_vlan_var.h>
#endif
#if NBPFILTER > 0
#include <net/bpf.h>
#endif
#include <dev/mii/mii.h>
#include <dev/mii/miivar.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
#include <dev/ic/rtl81x9reg.h>
int redebug = 0;
#define DPRINTF(x) if (redebug) printf x
void re_attach_common(struct rl_softc *);
int re_encap(struct rl_softc *, struct mbuf *, int *);
int re_allocmem(struct rl_softc *);
int re_newbuf(struct rl_softc *, int, struct mbuf *);
int re_rx_list_init(struct rl_softc *);
int re_tx_list_init(struct rl_softc *);
#ifdef __STRICT_ALIGNMENT
void re_fixup_rx(struct mbuf *);
#endif
void re_rxeof(struct rl_softc *);
void re_txeof(struct rl_softc *);
int re_intr(void *);
void re_tick(void *);
void re_start(struct ifnet *);
int re_ioctl(struct ifnet *, u_long, caddr_t);
int re_init(struct ifnet *);
void re_stop(struct ifnet *, int);
void re_watchdog(struct ifnet *);
int re_ifmedia_upd(struct ifnet *);
void re_ifmedia_sts(struct ifnet *, struct ifmediareq *);
void re_eeprom_putbyte(struct rl_softc *, int);
void re_eeprom_getword(struct rl_softc *, int, u_int16_t *);
void re_read_eeprom(struct rl_softc *, caddr_t, int, int);
int re_gmii_readreg(struct device *, int, int);
void re_gmii_writereg(struct device *, int, int, int);
int re_miibus_readreg(struct device *, int, int);
void re_miibus_writereg(struct device *, int, int, int);
void re_miibus_statchg(struct device *);
void re_setmulti(struct rl_softc *);
void re_reset(struct rl_softc *);
#ifdef RE_DIAG
int re_diag(struct rl_softc *);
#endif
struct cfdriver re_cd = {
0, "re", DV_IFNET
};
#define EE_SET(x) \
CSR_WRITE_1(sc, RL_EECMD, \
CSR_READ_1(sc, RL_EECMD) | x)
#define EE_CLR(x) \
CSR_WRITE_1(sc, RL_EECMD, \
CSR_READ_1(sc, RL_EECMD) & ~x)
/*
* Send a read command and address to the EEPROM, check for ACK.
*/
void
re_eeprom_putbyte(struct rl_softc *sc, int addr)
{
int d, i;
d = addr | (RL_9346_READ << sc->rl_eewidth);
/*
* Feed in each bit and strobe the clock.
*/
for (i = 1 << (sc->rl_eewidth + 3); i; i >>= 1) {
if (d & i)
EE_SET(RL_EE_DATAIN);
else
EE_CLR(RL_EE_DATAIN);
DELAY(100);
EE_SET(RL_EE_CLK);
DELAY(150);
EE_CLR(RL_EE_CLK);
DELAY(100);
}
}
/*
* Read a word of data stored in the EEPROM at address 'addr.'
*/
void
re_eeprom_getword(struct rl_softc *sc, int addr, u_int16_t *dest)
{
int i;
u_int16_t word = 0;
/*
* Send address of word we want to read.
*/
re_eeprom_putbyte(sc, addr);
/*
* Start reading bits from EEPROM.
*/
for (i = 0x8000; i; i >>= 1) {
EE_SET(RL_EE_CLK);
DELAY(100);
if (CSR_READ_1(sc, RL_EECMD) & RL_EE_DATAOUT)
word |= i;
EE_CLR(RL_EE_CLK);
DELAY(100);
}
*dest = word;
}
/*
* Read a sequence of words from the EEPROM.
*/
void
re_read_eeprom(struct rl_softc *sc, caddr_t dest, int off, int cnt)
{
int i;
u_int16_t word = 0, *ptr;
CSR_SETBIT_1(sc, RL_EECMD, RL_EEMODE_PROGRAM);
DELAY(100);
for (i = 0; i < cnt; i++) {
CSR_SETBIT_1(sc, RL_EECMD, RL_EE_SEL);
re_eeprom_getword(sc, off + i, &word);
CSR_CLRBIT_1(sc, RL_EECMD, RL_EE_SEL);
ptr = (u_int16_t *)(dest + (i * 2));
*ptr = letoh16(word);
}
CSR_CLRBIT_1(sc, RL_EECMD, RL_EEMODE_PROGRAM);
}
int
re_gmii_readreg(struct device *self, int phy, int reg)
{
struct rl_softc *sc = (struct rl_softc *)self;
u_int32_t rval;
int i;
if (phy != 7)
return (0);
/* Let the rgephy driver read the GMEDIASTAT register */
if (reg == RL_GMEDIASTAT) {
rval = CSR_READ_1(sc, RL_GMEDIASTAT);
return (rval);
}
CSR_WRITE_4(sc, RL_PHYAR, reg << 16);
DELAY(1000);
for (i = 0; i < RL_TIMEOUT; i++) {
rval = CSR_READ_4(sc, RL_PHYAR);
if (rval & RL_PHYAR_BUSY)
break;
DELAY(100);
}
if (i == RL_TIMEOUT) {
printf ("%s: PHY read failed\n", sc->sc_dev.dv_xname);
return (0);
}
return (rval & RL_PHYAR_PHYDATA);
}
void
re_gmii_writereg(struct device *dev, int phy, int reg, int data)
{
struct rl_softc *sc = (struct rl_softc *)dev;
u_int32_t rval;
int i;
CSR_WRITE_4(sc, RL_PHYAR, (reg << 16) |
(data & RL_PHYAR_PHYDATA) | RL_PHYAR_BUSY);
DELAY(1000);
for (i = 0; i < RL_TIMEOUT; i++) {
rval = CSR_READ_4(sc, RL_PHYAR);
if (!(rval & RL_PHYAR_BUSY))
break;
DELAY(100);
}
if (i == RL_TIMEOUT)
printf ("%s: PHY write failed\n", sc->sc_dev.dv_xname);
}
int
re_miibus_readreg(struct device *dev, int phy, int reg)
{
struct rl_softc *sc = (struct rl_softc *)dev;
u_int16_t rval = 0;
u_int16_t re8139_reg = 0;
int s;
s = splnet();
if (sc->rl_type == RL_8169) {
rval = re_gmii_readreg(dev, phy, reg);
splx(s);
return (rval);
}
/* Pretend the internal PHY is only at address 0 */
if (phy) {
splx(s);
return (0);
}
switch(reg) {
case MII_BMCR:
re8139_reg = RL_BMCR;
break;
case MII_BMSR:
re8139_reg = RL_BMSR;
break;
case MII_ANAR:
re8139_reg = RL_ANAR;
break;
case MII_ANER:
re8139_reg = RL_ANER;
break;
case MII_ANLPAR:
re8139_reg = RL_LPAR;
break;
case MII_PHYIDR1:
case MII_PHYIDR2:
splx(s);
return (0);
/*
* Allow the rlphy driver to read the media status
* register. If we have a link partner which does not
* support NWAY, this is the register which will tell
* us the results of parallel detection.
*/
case RL_MEDIASTAT:
rval = CSR_READ_1(sc, RL_MEDIASTAT);
splx(s);
return (rval);
default:
printf("%s: bad phy register\n", sc->sc_dev.dv_xname);
splx(s);
return (0);
}
rval = CSR_READ_2(sc, re8139_reg);
splx(s);
return (rval);
}
void
re_miibus_writereg(struct device *dev, int phy, int reg, int data)
{
struct rl_softc *sc = (struct rl_softc *)dev;
u_int16_t re8139_reg = 0;
int s;
s = splnet();
if (sc->rl_type == RL_8169) {
re_gmii_writereg(dev, phy, reg, data);
splx(s);
return;
}
/* Pretend the internal PHY is only at address 0 */
if (phy) {
splx(s);
return;
}
switch(reg) {
case MII_BMCR:
re8139_reg = RL_BMCR;
break;
case MII_BMSR:
re8139_reg = RL_BMSR;
break;
case MII_ANAR:
re8139_reg = RL_ANAR;
break;
case MII_ANER:
re8139_reg = RL_ANER;
break;
case MII_ANLPAR:
re8139_reg = RL_LPAR;
break;
case MII_PHYIDR1:
case MII_PHYIDR2:
splx(s);
return;
break;
default:
printf("%s: bad phy register\n", sc->sc_dev.dv_xname);
splx(s);
return;
}
CSR_WRITE_2(sc, re8139_reg, data);
splx(s);
}
void
re_miibus_statchg(struct device *dev)
{
}
/*
* Program the 64-bit multicast hash filter.
*/
void
re_setmulti(struct rl_softc *sc)
{
struct ifnet *ifp;
int h = 0;
u_int32_t hashes[2] = { 0, 0 };
u_int32_t rxfilt;
int mcnt = 0;
struct arpcom *ac = &sc->sc_arpcom;
struct ether_multi *enm;
struct ether_multistep step;
ifp = &sc->sc_arpcom.ac_if;
rxfilt = CSR_READ_4(sc, RL_RXCFG);
if (ifp->if_flags & IFF_ALLMULTI || ifp->if_flags & IFF_PROMISC) {
rxfilt |= RL_RXCFG_RX_MULTI;
CSR_WRITE_4(sc, RL_RXCFG, rxfilt);
CSR_WRITE_4(sc, RL_MAR0, 0xFFFFFFFF);
CSR_WRITE_4(sc, RL_MAR4, 0xFFFFFFFF);
return;
}
/* first, zot all the existing hash bits */
CSR_WRITE_4(sc, RL_MAR0, 0);
CSR_WRITE_4(sc, RL_MAR4, 0);
/* now program new ones */
ETHER_FIRST_MULTI(step, ac, enm);
while (enm != NULL) {
if (bcmp(enm->enm_addrlo, enm->enm_addrhi, ETHER_ADDR_LEN)) {
ifp->if_flags |= IFF_ALLMULTI;
mcnt = MAX_NUM_MULTICAST_ADDRESSES;
}
if (mcnt == MAX_NUM_MULTICAST_ADDRESSES)
break;
h = (ether_crc32_be(enm->enm_addrlo,
ETHER_ADDR_LEN) >> 26) & 0x0000003F;
if (h < 32)
hashes[0] |= (1 << h);
else
hashes[1] |= (1 << (h - 32));
mcnt++;
ETHER_NEXT_MULTI(step, enm);
}
if (mcnt)
rxfilt |= RL_RXCFG_RX_MULTI;
else
rxfilt &= ~RL_RXCFG_RX_MULTI;
CSR_WRITE_4(sc, RL_RXCFG, rxfilt);
CSR_WRITE_4(sc, RL_MAR0, hashes[0]);
CSR_WRITE_4(sc, RL_MAR4, hashes[1]);
}
void
re_reset(struct rl_softc *sc)
{
int i;
CSR_WRITE_1(sc, RL_COMMAND, RL_CMD_RESET);
for (i = 0; i < RL_TIMEOUT; i++) {
DELAY(10);
if (!(CSR_READ_1(sc, RL_COMMAND) & RL_CMD_RESET))
break;
}
if (i == RL_TIMEOUT)
printf("%s: reset never completed!\n", sc->sc_dev.dv_xname);
CSR_WRITE_1(sc, 0x82, 1);
}
#ifdef RE_DIAG
/*
* The following routine is designed to test for a defect on some
* 32-bit 8169 cards. Some of these NICs have the REQ64# and ACK64#
* lines connected to the bus, however for a 32-bit only card, they
* should be pulled high. The result of this defect is that the
* NIC will not work right if you plug it into a 64-bit slot: DMA
* operations will be done with 64-bit transfers, which will fail
* because the 64-bit data lines aren't connected.
*
* There's no way to work around this (short of talking a soldering
* iron to the board), however we can detect it. The method we use
* here is to put the NIC into digital loopback mode, set the receiver
* to promiscuous mode, and then try to send a frame. We then compare
* the frame data we sent to what was received. If the data matches,
* then the NIC is working correctly, otherwise we know the user has
* a defective NIC which has been mistakenly plugged into a 64-bit PCI
* slot. In the latter case, there's no way the NIC can work correctly,
* so we print out a message on the console and abort the device attach.
*/
int
re_diag(struct rl_softc *sc)
{
struct ifnet *ifp = &sc->sc_arpcom.ac_if;
struct mbuf *m0;
struct ether_header *eh;
struct rl_desc *cur_rx;
bus_dmamap_t dmamap;
u_int16_t status;
u_int32_t rxstat;
int total_len, i, s, error = 0, phyaddr;
u_int8_t dst[] = { 0x00, 'h', 'e', 'l', 'l', 'o' };
u_int8_t src[] = { 0x00, 'w', 'o', 'r', 'l', 'd' };
DPRINTF(("inside re_diag\n"));
/* Allocate a single mbuf */
MGETHDR(m0, M_DONTWAIT, MT_DATA);
if (m0 == NULL)
return (ENOBUFS);
/*
* Initialize the NIC in test mode. This sets the chip up
* so that it can send and receive frames, but performs the
* following special functions:
* - Puts receiver in promiscuous mode
* - Enables digital loopback mode
* - Leaves interrupts turned off
*/
ifp->if_flags |= IFF_PROMISC;
sc->rl_testmode = 1;
re_reset(sc);
re_init(ifp);
sc->rl_link = 1;
if (sc->rl_type == RL_8169)
phyaddr = 1;
else
phyaddr = 0;
re_miibus_writereg((struct device *)sc, phyaddr, MII_BMCR,
BMCR_RESET);
for (i = 0; i < RL_TIMEOUT; i++) {
status = re_miibus_readreg((struct device *)sc,
phyaddr, MII_BMCR);
if (!(status & BMCR_RESET))
break;
}
re_miibus_writereg((struct device *)sc, phyaddr, MII_BMCR,
BMCR_LOOP);
CSR_WRITE_2(sc, RL_ISR, RL_INTRS);
DELAY(100000);
/* Put some data in the mbuf */
eh = mtod(m0, struct ether_header *);
bcopy ((char *)&dst, eh->ether_dhost, ETHER_ADDR_LEN);
bcopy ((char *)&src, eh->ether_shost, ETHER_ADDR_LEN);
eh->ether_type = htons(ETHERTYPE_IP);
m0->m_pkthdr.len = m0->m_len = ETHER_MIN_LEN - ETHER_CRC_LEN;
/*
* Queue the packet, start transmission.
*/
CSR_WRITE_2(sc, RL_ISR, 0xFFFF);
s = splnet();
IFQ_ENQUEUE(&ifp->if_snd, m0, NULL, error);
re_start(ifp);
splx(s);
m0 = NULL;
DPRINTF(("re_diag: transmission started\n"));
/* Wait for it to propagate through the chip */
DELAY(100000);
for (i = 0; i < RL_TIMEOUT; i++) {
status = CSR_READ_2(sc, RL_ISR);
CSR_WRITE_2(sc, RL_ISR, status);
if ((status & (RL_ISR_TIMEOUT_EXPIRED|RL_ISR_RX_OK)) ==
(RL_ISR_TIMEOUT_EXPIRED|RL_ISR_RX_OK))
break;
DELAY(10);
}
if (i == RL_TIMEOUT) {
printf("%s: diagnostic failed, failed to receive packet "
"in loopback mode\n", sc->sc_dev.dv_xname);
error = EIO;
goto done;
}
/*
* The packet should have been dumped into the first
* entry in the RX DMA ring. Grab it from there.
*/
dmamap = sc->rl_ldata.rl_rx_list_map;
bus_dmamap_sync(sc->sc_dmat,
dmamap, 0, dmamap->dm_mapsize, BUS_DMASYNC_POSTREAD);
dmamap = sc->rl_ldata.rl_rx_dmamap[0];
bus_dmamap_sync(sc->sc_dmat, dmamap, 0, dmamap->dm_mapsize,
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat,
sc->rl_ldata.rl_rx_dmamap[0]);
m0 = sc->rl_ldata.rl_rx_mbuf[0];
sc->rl_ldata.rl_rx_mbuf[0] = NULL;
eh = mtod(m0, struct ether_header *);
cur_rx = &sc->rl_ldata.rl_rx_list[0];
total_len = RL_RXBYTES(cur_rx);
rxstat = letoh32(cur_rx->rl_cmdstat);
if (total_len != ETHER_MIN_LEN) {
printf("%s: diagnostic failed, received short packet\n",
sc->sc_dev.dv_xname);
error = EIO;
goto done;
}
DPRINTF(("re_diag: packet received\n"));
/* Test that the received packet data matches what we sent. */
if (bcmp((char *)&eh->ether_dhost, (char *)&dst, ETHER_ADDR_LEN) ||
bcmp((char *)&eh->ether_shost, (char *)&src, ETHER_ADDR_LEN) ||
ntohs(eh->ether_type) != ETHERTYPE_IP) {
printf("%s: WARNING, DMA FAILURE!\n", sc->sc_dev.dv_xname);
printf("%s: expected TX data: %s",
sc->sc_dev.dv_xname, ether_sprintf(dst));
printf("/%s/0x%x\n", ether_sprintf(src), ETHERTYPE_IP);
printf("%s: received RX data: %s",
sc->sc_dev.dv_xname,
ether_sprintf(eh->ether_dhost));
printf("/%s/0x%x\n", ether_sprintf(eh->ether_shost),
ntohs(eh->ether_type));
printf("%s: You may have a defective 32-bit NIC plugged "
"into a 64-bit PCI slot.\n", sc->sc_dev.dv_xname);
printf("%s: Please re-install the NIC in a 32-bit slot "
"for proper operation.\n", sc->sc_dev.dv_xname);
printf("%s: Read the re(4) man page for more details.\n",
sc->sc_dev.dv_xname);
error = EIO;
}
done:
/* Turn interface off, release resources */
sc->rl_testmode = 0;
sc->rl_link = 0;
ifp->if_flags &= ~IFF_PROMISC;
re_stop(ifp, 1);
if (m0 != NULL)
m_freem(m0);
DPRINTF(("leaving re_diag\n"));
return (error);
}
#endif
int
re_allocmem(struct rl_softc *sc)
{
int error;
int nseg, rseg;
int i;
nseg = 32;
/* Allocate DMA'able memory for the TX ring */
error = bus_dmamap_create(sc->sc_dmat, RL_TX_LIST_SZ, 1,
RL_TX_LIST_SZ, 0, BUS_DMA_ALLOCNOW,
&sc->rl_ldata.rl_tx_list_map);
if (error)
return (ENOMEM);
error = bus_dmamem_alloc(sc->sc_dmat, RL_TX_LIST_SZ,
ETHER_ALIGN, 0,
&sc->rl_ldata.rl_tx_listseg, 1, &rseg, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
/* Load the map for the TX ring. */
error = bus_dmamem_map(sc->sc_dmat, &sc->rl_ldata.rl_tx_listseg,
1, RL_TX_LIST_SZ,
(caddr_t *)&sc->rl_ldata.rl_tx_list, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
memset(sc->rl_ldata.rl_tx_list, 0, RL_TX_LIST_SZ);
error = bus_dmamap_load(sc->sc_dmat, sc->rl_ldata.rl_tx_list_map,
sc->rl_ldata.rl_tx_list, RL_TX_LIST_SZ, NULL, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
/* Create DMA maps for TX buffers */
for (i = 0; i < RL_TX_DESC_CNT; i++) {
error = bus_dmamap_create(sc->sc_dmat, MCLBYTES * nseg, nseg,
MCLBYTES, 0, BUS_DMA_ALLOCNOW,
&sc->rl_ldata.rl_tx_dmamap[i]);
if (error) {
printf("%s: can't create DMA map for TX\n",
sc->sc_dev.dv_xname);
return (ENOMEM);
}
}
/* Allocate DMA'able memory for the RX ring */
error = bus_dmamap_create(sc->sc_dmat, RL_RX_LIST_SZ, 1,
RL_RX_LIST_SZ, 0, BUS_DMA_ALLOCNOW,
&sc->rl_ldata.rl_rx_list_map);
if (error)
return (ENOMEM);
error = bus_dmamem_alloc(sc->sc_dmat, RL_RX_LIST_SZ, RL_RING_ALIGN,
0, &sc->rl_ldata.rl_rx_listseg, 1, &rseg, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
/* Load the map for the RX ring. */
error = bus_dmamem_map(sc->sc_dmat, &sc->rl_ldata.rl_rx_listseg,
1, RL_RX_LIST_SZ,
(caddr_t *)&sc->rl_ldata.rl_rx_list, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
memset(sc->rl_ldata.rl_rx_list, 0, RL_RX_LIST_SZ);
error = bus_dmamap_load(sc->sc_dmat, sc->rl_ldata.rl_rx_list_map,
sc->rl_ldata.rl_rx_list, RL_RX_LIST_SZ, NULL, BUS_DMA_NOWAIT);
if (error)
return (ENOMEM);
/* Create DMA maps for RX buffers */
for (i = 0; i < RL_RX_DESC_CNT; i++) {
error = bus_dmamap_create(sc->sc_dmat, MCLBYTES * nseg, nseg,
MCLBYTES, 0, BUS_DMA_ALLOCNOW,
&sc->rl_ldata.rl_rx_dmamap[i]);
if (error) {
printf("%s: can't create DMA map for RX\n",
sc->sc_dev.dv_xname);
return (ENOMEM);
}
}
return (0);
}
/*
* Attach the interface. Allocate softc structures, do ifmedia
* setup and ethernet/BPF attach.
*/
void
re_attach_common(struct rl_softc *sc)
{
u_char eaddr[ETHER_ADDR_LEN];
u_int16_t as[3];
struct ifnet *ifp;
u_int16_t re_did = 0;
int error = 0, i;
/* Reset the adapter. */
re_reset(sc);
sc->rl_eewidth = 6;
re_read_eeprom(sc, (caddr_t)&re_did, 0, 1);
if (re_did != 0x8129)
sc->rl_eewidth = 8;
/*
* Get station address from the EEPROM.
*/
re_read_eeprom(sc, (caddr_t)as, RL_EE_EADDR, 3);
for (i = 0; i < 3; i++) {
eaddr[(i * 2) + 0] = as[i] & 0xff;
eaddr[(i * 2) + 1] = as[i] >> 8;
}
/* Set RX length mask */
if (sc->rl_type == RL_8169) {
sc->rl_rxlenmask = RL_RDESC_STAT_GFRAGLEN;
sc->rl_txstart = RL_GTXSTART;
} else {
sc->rl_rxlenmask = RL_RDESC_STAT_FRAGLEN;
sc->rl_txstart = RL_TXSTART;
}
bcopy(eaddr, (char *)&sc->sc_arpcom.ac_enaddr, ETHER_ADDR_LEN);
printf(", address %s\n",
ether_sprintf(sc->sc_arpcom.ac_enaddr));
error = re_allocmem(sc);
if (error)
return;
ifp = &sc->sc_arpcom.ac_if;
ifp->if_softc = sc;
strlcpy(ifp->if_xname, sc->sc_dev.dv_xname, IFNAMSIZ);
ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
ifp->if_ioctl = re_ioctl;
ifp->if_start = re_start;
ifp->if_watchdog = re_watchdog;
ifp->if_init = re_init;
if (sc->rl_type == RL_8169) {
ifp->if_baudrate = 1000000000;
ifp->if_hardmtu = RL_JUMBO_MTU;
} else
ifp->if_baudrate = 100000000;
IFQ_SET_MAXLEN(&ifp->if_snd, RL_IFQ_MAXLEN);
IFQ_SET_READY(&ifp->if_snd);
ifp->if_capabilities = IFCAP_VLAN_MTU;
#ifdef RE_CSUM_OFFLOAD
ifp->if_capabilities |= IFCAP_CSUM_IPv4|IFCAP_CSUM_TCPv4|
IFCAP_CSUM_UDPv4;
#endif
#ifdef RE_VLAN
ifp->if_capabilities |= IFCAP_VLAN_HWTAGGING;
#endif
timeout_set(&sc->timer_handle, re_tick, sc);
/* Do MII setup */
sc->sc_mii.mii_ifp = ifp;
sc->sc_mii.mii_readreg = re_miibus_readreg;
sc->sc_mii.mii_writereg = re_miibus_writereg;
sc->sc_mii.mii_statchg = re_miibus_statchg;
ifmedia_init(&sc->sc_mii.mii_media, IFM_IMASK, re_ifmedia_upd,
re_ifmedia_sts);
DPRINTF(("calling mii_attach\n"));
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) {
printf("%s: no PHY found!\n", sc->sc_dev.dv_xname);
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);
/*
* Call MI attach routine.
*/
re_reset(sc);
if_attach(ifp);
ether_ifattach(ifp);
#ifdef RE_DIAG
/*
* Perform hardware diagnostic on the original RTL8169.
* Some 32-bit cards were incorrectly wired and would
* malfunction if plugged into a 64-bit slot.
*/
error = re_diag(sc);
if (error) {
printf("%s: attach aborted due to hardware diag failure\n",
sc->sc_dev.dv_xname);
ether_ifdetach(ifp);
return;
}
#endif
DPRINTF(("leaving re_attach\n"));
}
int
re_newbuf(struct rl_softc *sc, int idx, struct mbuf *m)
{
struct mbuf *n = NULL;
bus_dmamap_t map;
struct rl_desc *d;
u_int32_t cmdstat;
int error;
if (m == NULL) {
MGETHDR(n, M_DONTWAIT, MT_DATA);
if (n == NULL)
return (ENOBUFS);
m = n;
MCLGET(m, M_DONTWAIT);
if (! (m->m_flags & M_EXT)) {
m_freem(m);
return (ENOBUFS);
}
} else
m->m_data = m->m_ext.ext_buf;
m->m_len = m->m_pkthdr.len = MCLBYTES;
#ifdef __STRICT_ALIGNMENT
/*
* This is part of an evil trick to deal with strict alignment
* architectures. The RealTek chip requires RX buffers to be
* aligned on 64-bit boundaries, but that will hose strict
* alignment architectures. To get around this, we leave some
* empty space at the start of each buffer and for strict
* alignment architectures, we copy the buffer back six
* bytes to achieve word alignment. This is slightly more
* efficient than allocating a new buffer, copying the
* contents, and discarding the old buffer.
*/
m_adj(m, RE_ETHER_ALIGN);
#endif
map = sc->rl_ldata.rl_rx_dmamap[idx];
error = bus_dmamap_load_mbuf(sc->sc_dmat, map, m, BUS_DMA_NOWAIT);
if (map->dm_nsegs > 1)
goto out;
if (error)
goto out;
d = &sc->rl_ldata.rl_rx_list[idx];
if (letoh32(d->rl_cmdstat) & RL_RDESC_STAT_OWN)
goto out;
cmdstat = map->dm_segs[0].ds_len;
d->rl_bufaddr_lo = htole32(RL_ADDR_LO(map->dm_segs[0].ds_addr));
d->rl_bufaddr_hi = htole32(RL_ADDR_HI(map->dm_segs[0].ds_addr));
cmdstat |= RL_TDESC_CMD_SOF;
if (idx == (RL_RX_DESC_CNT - 1))
cmdstat |= RL_TDESC_CMD_EOR;
d->rl_cmdstat = htole32(cmdstat);
d->rl_cmdstat |= htole32(RL_TDESC_CMD_EOF);
sc->rl_ldata.rl_rx_list[idx].rl_cmdstat |= htole32(RL_RDESC_CMD_OWN);
sc->rl_ldata.rl_rx_mbuf[idx] = m;
bus_dmamap_sync(sc->sc_dmat, sc->rl_ldata.rl_rx_dmamap[idx], 0,
sc->rl_ldata.rl_rx_dmamap[idx]->dm_mapsize,
BUS_DMASYNC_PREREAD);
return (0);
out:
if (n != NULL)
m_freem(n);
return (ENOMEM);
}
#ifdef __STRICT_ALIGNMENT
void
re_fixup_rx(struct mbuf *m)
{
int i;
uint16_t *src, *dst;
src = mtod(m, uint16_t *);
dst = src - (RE_ETHER_ALIGN - ETHER_ALIGN) / sizeof *src;
for (i = 0; i < (m->m_len / sizeof(uint16_t) + 1); i++)
*dst++ = *src++;
m->m_data -= RE_ETHER_ALIGN - ETHER_ALIGN;
}
#endif
int
re_tx_list_init(struct rl_softc *sc)
{
memset((char *)sc->rl_ldata.rl_tx_list, 0, RL_TX_LIST_SZ);
memset((char *)&sc->rl_ldata.rl_tx_mbuf, 0,
(RL_TX_DESC_CNT * sizeof(struct mbuf *)));
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_tx_list_map, 0,
sc->rl_ldata.rl_tx_list_map->dm_mapsize, BUS_DMASYNC_PREWRITE);
sc->rl_ldata.rl_tx_prodidx = 0;
sc->rl_ldata.rl_tx_considx = 0;
sc->rl_ldata.rl_tx_free = RL_TX_DESC_CNT;
return (0);
}
int
re_rx_list_init(struct rl_softc *sc)
{
int i;
memset((char *)sc->rl_ldata.rl_rx_list, 0, RL_RX_LIST_SZ);
memset((char *)&sc->rl_ldata.rl_rx_mbuf, 0,
(RL_RX_DESC_CNT * sizeof(struct mbuf *)));
for (i = 0; i < RL_RX_DESC_CNT; i++) {
if (re_newbuf(sc, i, NULL) == ENOBUFS)
return (ENOBUFS);
}
/* Flush the RX descriptors */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_rx_list_map,
0, sc->rl_ldata.rl_rx_list_map->dm_mapsize,
BUS_DMASYNC_PREWRITE|BUS_DMASYNC_PREREAD);
sc->rl_ldata.rl_rx_prodidx = 0;
sc->rl_head = sc->rl_tail = NULL;
return (0);
}
/*
* RX handler for C+ and 8169. For the gigE chips, we support
* the reception of jumbo frames that have been fragmented
* across multiple 2K mbuf cluster buffers.
*/
void
re_rxeof(struct rl_softc *sc)
{
struct mbuf *m;
struct ifnet *ifp;
int i, total_len;
struct rl_desc *cur_rx;
u_int32_t rxstat;
ifp = &sc->sc_arpcom.ac_if;
i = sc->rl_ldata.rl_rx_prodidx;
/* Invalidate the descriptor memory */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_rx_list_map,
0, sc->rl_ldata.rl_rx_list_map->dm_mapsize,
BUS_DMASYNC_POSTREAD);
while (!RL_OWN(&sc->rl_ldata.rl_rx_list[i])) {
cur_rx = &sc->rl_ldata.rl_rx_list[i];
m = sc->rl_ldata.rl_rx_mbuf[i];
total_len = RL_RXBYTES(cur_rx);
rxstat = letoh32(cur_rx->rl_cmdstat);
/* Invalidate the RX mbuf and unload its map */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_rx_dmamap[i],
0, sc->rl_ldata.rl_rx_dmamap[i]->dm_mapsize,
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->sc_dmat,
sc->rl_ldata.rl_rx_dmamap[i]);
if (!(rxstat & RL_RDESC_STAT_EOF)) {
m->m_len = RE_RX_DESC_BUFLEN;
if (sc->rl_head == NULL)
sc->rl_head = sc->rl_tail = m;
else {
m->m_flags &= ~M_PKTHDR;
sc->rl_tail->m_next = m;
sc->rl_tail = m;
}
re_newbuf(sc, i, NULL);
RL_DESC_INC(i);
continue;
}
/*
* NOTE: for the 8139C+, the frame length field
* is always 12 bits in size, but for the gigE chips,
* it is 13 bits (since the max RX frame length is 16K).
* Unfortunately, all 32 bits in the status word
* were already used, so to make room for the extra
* length bit, RealTek took out the 'frame alignment
* error' bit and shifted the other status bits
* over one slot. The OWN, EOR, FS and LS bits are
* still in the same places. We have already extracted
* the frame length and checked the OWN bit, so rather
* than using an alternate bit mapping, we shift the
* status bits one space to the right so we can evaluate
* them using the 8169 status as though it was in the
* same format as that of the 8139C+.
*/
if (sc->rl_type == RL_8169)
rxstat >>= 1;
/*
* if total_len > 2^13-1, both _RXERRSUM and _GIANT will be
* set, but if CRC is clear, it will still be a valid frame.
*/
if (rxstat & RL_RDESC_STAT_RXERRSUM && !(total_len > 8191 &&
(rxstat & RL_RDESC_STAT_ERRS) == RL_RDESC_STAT_GIANT)) {
ifp->if_ierrors++;
/*
* If this is part of a multi-fragment packet,
* discard all the pieces.
*/
if (sc->rl_head != NULL) {
m_freem(sc->rl_head);
sc->rl_head = sc->rl_tail = NULL;
}
re_newbuf(sc, i, m);
RL_DESC_INC(i);
continue;
}
/*
* If allocating a replacement mbuf fails,
* reload the current one.
*/
if (re_newbuf(sc, i, NULL)) {
ifp->if_ierrors++;
if (sc->rl_head != NULL) {
m_freem(sc->rl_head);
sc->rl_head = sc->rl_tail = NULL;
}
re_newbuf(sc, i, m);
RL_DESC_INC(i);
continue;
}
RL_DESC_INC(i);
if (sc->rl_head != NULL) {
m->m_len = total_len % RE_RX_DESC_BUFLEN;
if (m->m_len == 0)
m->m_len = RE_RX_DESC_BUFLEN;
/*
* Special case: if there's 4 bytes or less
* in this buffer, the mbuf can be discarded:
* the last 4 bytes is the CRC, which we don't
* care about anyway.
*/
if (m->m_len <= ETHER_CRC_LEN) {
sc->rl_tail->m_len -=
(ETHER_CRC_LEN - m->m_len);
m_freem(m);
} else {
m->m_len -= ETHER_CRC_LEN;
m->m_flags &= ~M_PKTHDR;
sc->rl_tail->m_next = m;
}
m = sc->rl_head;
sc->rl_head = sc->rl_tail = NULL;
m->m_pkthdr.len = total_len - ETHER_CRC_LEN;
} else
m->m_pkthdr.len = m->m_len =
(total_len - ETHER_CRC_LEN);
#ifdef __STRICT_ALIGNMENT
re_fixup_rx(m);
#endif
ifp->if_ipackets++;
m->m_pkthdr.rcvif = ifp;
/* Do RX checksumming */
/* Check IP header checksum */
if ((rxstat & RL_RDESC_STAT_PROTOID) &&
!(rxstat & RL_RDESC_STAT_IPSUMBAD))
m->m_pkthdr.csum_flags |= M_IPV4_CSUM_IN_OK;
/* Check TCP/UDP checksum */
if ((RL_TCPPKT(rxstat) &&
!(rxstat & RL_RDESC_STAT_TCPSUMBAD)) ||
(RL_UDPPKT(rxstat) &&
!(rxstat & RL_RDESC_STAT_UDPSUMBAD)))
m->m_pkthdr.csum_flags |= M_TCP_CSUM_IN_OK | M_UDP_CSUM_IN_OK;
#if NBPFILTER > 0
if (ifp->if_bpf)
bpf_mtap(ifp->if_bpf, m, BPF_DIRECTION_IN);
#endif
ether_input_mbuf(ifp, m);
}
/* Flush the RX DMA ring */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_rx_list_map,
0, sc->rl_ldata.rl_rx_list_map->dm_mapsize,
BUS_DMASYNC_PREWRITE|BUS_DMASYNC_PREREAD);
sc->rl_ldata.rl_rx_prodidx = i;
}
void
re_txeof(struct rl_softc *sc)
{
struct ifnet *ifp;
u_int32_t txstat;
int idx;
ifp = &sc->sc_arpcom.ac_if;
idx = sc->rl_ldata.rl_tx_considx;
/* Invalidate the TX descriptor list */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_tx_list_map,
0, sc->rl_ldata.rl_tx_list_map->dm_mapsize,
BUS_DMASYNC_POSTREAD);
while (idx != sc->rl_ldata.rl_tx_prodidx) {
txstat = letoh32(sc->rl_ldata.rl_tx_list[idx].rl_cmdstat);
if (txstat & RL_TDESC_CMD_OWN)
break;
/*
* We only stash mbufs in the last descriptor
* in a fragment chain, which also happens to
* be the only place where the TX status bits
* are valid.
*/
if (txstat & RL_TDESC_CMD_EOF) {
m_freem(sc->rl_ldata.rl_tx_mbuf[idx]);
sc->rl_ldata.rl_tx_mbuf[idx] = NULL;
bus_dmamap_unload(sc->sc_dmat,
sc->rl_ldata.rl_tx_dmamap[idx]);
if (txstat & (RL_TDESC_STAT_EXCESSCOL|
RL_TDESC_STAT_COLCNT))
ifp->if_collisions++;
if (txstat & RL_TDESC_STAT_TXERRSUM)
ifp->if_oerrors++;
else
ifp->if_opackets++;
}
sc->rl_ldata.rl_tx_free++;
RL_DESC_INC(idx);
}
/* No changes made to the TX ring, so no flush needed */
if (idx != sc->rl_ldata.rl_tx_considx) {
sc->rl_ldata.rl_tx_considx = idx;
ifp->if_flags &= ~IFF_OACTIVE;
ifp->if_timer = 0;
}
/*
* If not all descriptors have been released reaped yet,
* reload the timer so that we will eventually get another
* interrupt that will cause us to re-enter this routine.
* This is done in case the transmitter has gone idle.
*/
if (sc->rl_ldata.rl_tx_free != RL_TX_DESC_CNT)
CSR_WRITE_4(sc, RL_TIMERCNT, 1);
}
void
re_tick(void *xsc)
{
struct rl_softc *sc = xsc;
struct mii_data *mii;
struct ifnet *ifp;
int s;
ifp = &sc->sc_arpcom.ac_if;
mii = &sc->sc_mii;
s = splnet();
mii_tick(mii);
if (sc->rl_link) {
if (!(mii->mii_media_status & IFM_ACTIVE))
sc->rl_link = 0;
} else {
if (mii->mii_media_status & IFM_ACTIVE &&
IFM_SUBTYPE(mii->mii_media_active) != IFM_NONE) {
sc->rl_link = 1;
if (!IFQ_IS_EMPTY(&ifp->if_snd))
re_start(ifp);
}
}
splx(s);
timeout_add(&sc->timer_handle, hz);
}
int
re_intr(void *arg)
{
struct rl_softc *sc = arg;
struct ifnet *ifp;
u_int16_t status;
int claimed = 0;
ifp = &sc->sc_arpcom.ac_if;
if (!(ifp->if_flags & IFF_UP))
return (0);
for (;;) {
status = CSR_READ_2(sc, RL_ISR);
/* If the card has gone away the read returns 0xffff. */
if (status == 0xffff)
break;
if (status)
CSR_WRITE_2(sc, RL_ISR, status);
if ((status & RL_INTRS_CPLUS) == 0)
break;
if ((status & RL_ISR_RX_OK) ||
(status & RL_ISR_RX_ERR)) {
re_rxeof(sc);
claimed = 1;
}
if ((status & RL_ISR_TIMEOUT_EXPIRED) ||
(status & RL_ISR_TX_ERR) ||
(status & RL_ISR_TX_DESC_UNAVAIL)) {
re_txeof(sc);
claimed = 1;
}
if (status & RL_ISR_SYSTEM_ERR) {
re_reset(sc);
re_init(ifp);
claimed = 1;
}
if (status & RL_ISR_LINKCHG) {
timeout_del(&sc->timer_handle);
re_tick(sc);
claimed = 1;
}
}
if (ifp->if_flags & IFF_RUNNING && !IFQ_IS_EMPTY(&ifp->if_snd))
re_start(ifp);
return (claimed);
}
int
re_encap(struct rl_softc *sc, struct mbuf *m_head, int *idx)
{
bus_dmamap_t map;
int error, i, curidx;
#ifdef RE_VLAN
struct m_tag *mtag;
#endif
struct rl_desc *d;
u_int32_t cmdstat, rl_flags = 0;
if (sc->rl_ldata.rl_tx_free <= 4)
return (EFBIG);
#ifdef RE_CSUM_OFFLOAD
/*
* Set up checksum offload. Note: checksum offload bits must
* appear in all descriptors of a multi-descriptor transmit
* attempt. This is according to testing done with an 8169
* chip. This is a requirement.
*/
/*
* Set RL_TDESC_CMD_IPCSUM if any checksum offloading
* is requested. Otherwise, RL_TDESC_CMD_TCPCSUM/
* RL_TDESC_CMD_UDPCSUM does not take affect.
*/
if ((m_head->m_pkthdr.csum_flags &
(M_IPV4_CSUM_OUT|M_TCPV4_CSUM_OUT|M_UDPV4_CSUM_OUT)) != 0) {
rl_flags |= RL_TDESC_CMD_IPCSUM;
if (m_head->m_pkthdr.csum_flags & M_TCPV4_CSUM_OUT)
rl_flags |= RL_TDESC_CMD_TCPCSUM;
if (m_head->m_pkthdr.csum_flags & M_UDPV4_CSUM_OUT)
rl_flags |= RL_TDESC_CMD_UDPCSUM;
}
#endif
map = sc->rl_ldata.rl_tx_dmamap[*idx];
error = bus_dmamap_load_mbuf(sc->sc_dmat, map,
m_head, BUS_DMA_NOWAIT);
if (error) {
printf("%s: can't map mbuf (error %d)\n",
sc->sc_dev.dv_xname, error);
return (ENOBUFS);
}
if (map->dm_nsegs > sc->rl_ldata.rl_tx_free - 4)
return (ENOBUFS);
/*
* Map the segment array into descriptors. Note that we set the
* start-of-frame and end-of-frame markers for either TX or RX, but
* they really only have meaning in the TX case. (In the RX case,
* it's the chip that tells us where packets begin and end.)
* We also keep track of the end of the ring and set the
* end-of-ring bits as needed, and we set the ownership bits
* in all except the very first descriptor. (The caller will
* set this descriptor later when it start transmission or
* reception.)
*/
i = 0;
curidx = *idx;
while (1) {
d = &sc->rl_ldata.rl_tx_list[curidx];
if (letoh32(d->rl_cmdstat) & RL_RDESC_STAT_OWN)
return (ENOBUFS);
cmdstat = map->dm_segs[i].ds_len;
d->rl_bufaddr_lo =
htole32(RL_ADDR_LO(map->dm_segs[i].ds_addr));
d->rl_bufaddr_hi =
htole32(RL_ADDR_HI(map->dm_segs[i].ds_addr));
if (i == 0)
cmdstat |= RL_TDESC_CMD_SOF;
else
cmdstat |= RL_TDESC_CMD_OWN;
if (curidx == (RL_RX_DESC_CNT - 1))
cmdstat |= RL_TDESC_CMD_EOR;
d->rl_cmdstat = htole32(cmdstat | rl_flags);
i++;
if (i == map->dm_nsegs)
break;
RL_DESC_INC(curidx);
}
d->rl_cmdstat |= htole32(RL_TDESC_CMD_EOF);
/*
* Ensure that the map for this transmission
* is placed at the array index of the last descriptor
* in this chain. (Swap last and first dmamaps.)
*/
sc->rl_ldata.rl_tx_dmamap[*idx] =
sc->rl_ldata.rl_tx_dmamap[curidx];
sc->rl_ldata.rl_tx_dmamap[curidx] = map;
sc->rl_ldata.rl_tx_mbuf[curidx] = m_head;
sc->rl_ldata.rl_tx_free -= map->dm_nsegs;
/*
* Set up hardware VLAN tagging. Note: vlan tag info must
* appear in the first descriptor of a multi-descriptor
* transmission attempt.
*/
#ifdef RE_VLAN
if (sc->ethercom.ec_nvlans &&
(mtag = m_tag_find(m_head, PACKET_TAG_VLAN, NULL)) != NULL)
sc->rl_ldata.rl_tx_list[*idx].rl_vlanctl =
htole32(htons(*(u_int *)(mtag + 1)) |
RL_TDESC_VLANCTL_TAG);
#endif
/* Transfer ownership of packet to the chip. */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_tx_dmamap[curidx],
0, sc->rl_ldata.rl_tx_dmamap[curidx]->dm_mapsize,
BUS_DMASYNC_PREWRITE);
sc->rl_ldata.rl_tx_list[curidx].rl_cmdstat |=
htole32(RL_TDESC_CMD_OWN);
if (*idx != curidx)
sc->rl_ldata.rl_tx_list[*idx].rl_cmdstat |=
htole32(RL_TDESC_CMD_OWN);
RL_DESC_INC(curidx);
*idx = curidx;
return (0);
}
/*
* Main transmit routine for C+ and gigE NICs.
*/
void
re_start(struct ifnet *ifp)
{
struct rl_softc *sc;
struct mbuf *m_head = NULL;
int idx, queued = 0;
sc = ifp->if_softc;
if (!sc->rl_link || ifp->if_flags & IFF_OACTIVE)
return;
idx = sc->rl_ldata.rl_tx_prodidx;
while (sc->rl_ldata.rl_tx_mbuf[idx] == NULL) {
IFQ_DEQUEUE(&ifp->if_snd, m_head);
if (m_head == NULL)
break;
if (re_encap(sc, m_head, &idx)) {
IF_PREPEND(&ifp->if_snd, m_head);
ifp->if_flags |= IFF_OACTIVE;
break;
}
#if NBPFILTER > 0
/*
* If there's a BPF listener, bounce a copy of this frame
* to him.
*/
if (ifp->if_bpf)
bpf_mtap(ifp->if_bpf, m_head, BPF_DIRECTION_OUT);
#endif
queued++;
}
if (queued == 0)
return;
/* Flush the TX descriptors */
bus_dmamap_sync(sc->sc_dmat,
sc->rl_ldata.rl_tx_list_map,
0, sc->rl_ldata.rl_tx_list_map->dm_mapsize,
BUS_DMASYNC_PREWRITE|BUS_DMASYNC_PREREAD);
sc->rl_ldata.rl_tx_prodidx = idx;
/*
* RealTek put the TX poll request register in a different
* location on the 8169 gigE chip. I don't know why.
*/
CSR_WRITE_2(sc, sc->rl_txstart, RL_TXSTART_START);
/*
* Use the countdown timer for interrupt moderation.
* 'TX done' interrupts are disabled. Instead, we reset the
* countdown timer, which will begin counting until it hits
* the value in the TIMERINT register, and then trigger an
* interrupt. Each time we write to the TIMERCNT register,
* the timer count is reset to 0.
*/
CSR_WRITE_4(sc, RL_TIMERCNT, 1);
/*
* Set a timeout in case the chip goes out to lunch.
*/
ifp->if_timer = 5;
}
int
re_init(struct ifnet *ifp)
{
struct rl_softc *sc = ifp->if_softc;
u_int32_t rxcfg = 0;
int s;
union {
u_int32_t align_dummy;
u_char eaddr[ETHER_ADDR_LEN];
} eaddr;
s = splnet();
/*
* Cancel pending I/O and free all RX/TX buffers.
*/
re_stop(ifp, 0);
/*
* Enable C+ RX and TX mode, as well as RX checksum offload.
* We must configure the C+ register before all others.
*/
CSR_WRITE_2(sc, RL_CPLUS_CMD, RL_CPLUSCMD_RXENB|
RL_CPLUSCMD_TXENB|RL_CPLUSCMD_PCI_MRW|
RL_CPLUSCMD_RXCSUM_ENB);
/*
* Init our MAC address. Even though the chipset
* documentation doesn't mention it, we need to enter "Config
* register write enable" mode to modify the ID registers.
*/
bcopy(sc->sc_arpcom.ac_enaddr, eaddr.eaddr, ETHER_ADDR_LEN);
CSR_WRITE_1(sc, RL_EECMD, RL_EEMODE_WRITECFG);
CSR_WRITE_4(sc, RL_IDR0,
htole32(*(u_int32_t *)(&eaddr.eaddr[0])));
CSR_WRITE_4(sc, RL_IDR4,
htole32(*(u_int32_t *)(&eaddr.eaddr[4])));
CSR_WRITE_1(sc, RL_EECMD, RL_EEMODE_OFF);
/*
* For C+ mode, initialize the RX descriptors and mbufs.
*/
re_rx_list_init(sc);
re_tx_list_init(sc);
/*
* Enable transmit and receive.
*/
CSR_WRITE_1(sc, RL_COMMAND, RL_CMD_TX_ENB|RL_CMD_RX_ENB);
/*
* Set the initial TX and RX configuration.
*/
if (sc->rl_testmode) {
if (sc->rl_type == RL_8169)
CSR_WRITE_4(sc, RL_TXCFG,
RL_TXCFG_CONFIG|RL_LOOPTEST_ON);
else
CSR_WRITE_4(sc, RL_TXCFG,
RL_TXCFG_CONFIG|RL_LOOPTEST_ON_CPLUS);
} else
CSR_WRITE_4(sc, RL_TXCFG, RL_TXCFG_CONFIG);
CSR_WRITE_4(sc, RL_RXCFG, RL_RXCFG_CONFIG);
/* Set the individual bit to receive frames for this host only. */
rxcfg = CSR_READ_4(sc, RL_RXCFG);
rxcfg |= RL_RXCFG_RX_INDIV;
/* If we want promiscuous mode, set the allframes bit. */
if (ifp->if_flags & IFF_PROMISC)
rxcfg |= RL_RXCFG_RX_ALLPHYS;
else
rxcfg &= ~RL_RXCFG_RX_ALLPHYS;
CSR_WRITE_4(sc, RL_RXCFG, rxcfg);
/*
* Set capture broadcast bit to capture broadcast frames.
*/
if (ifp->if_flags & IFF_BROADCAST)
rxcfg |= RL_RXCFG_RX_BROAD;
else
rxcfg &= ~RL_RXCFG_RX_BROAD;
CSR_WRITE_4(sc, RL_RXCFG, rxcfg);
/*
* Program the multicast filter, if necessary.
*/
re_setmulti(sc);
/*
* Enable interrupts.
*/
if (sc->rl_testmode)
CSR_WRITE_2(sc, RL_IMR, 0);
else
CSR_WRITE_2(sc, RL_IMR, RL_INTRS_CPLUS);
/* Start RX/TX process. */
CSR_WRITE_4(sc, RL_MISSEDPKT, 0);
#ifdef notdef
/* Enable receiver and transmitter. */
CSR_WRITE_1(sc, RL_COMMAND, RL_CMD_TX_ENB|RL_CMD_RX_ENB);
#endif
/*
* Load the addresses of the RX and TX lists into the chip.
*/
CSR_WRITE_4(sc, RL_RXLIST_ADDR_HI,
RL_ADDR_HI(sc->rl_ldata.rl_rx_list_map->dm_segs[0].ds_addr));
CSR_WRITE_4(sc, RL_RXLIST_ADDR_LO,
RL_ADDR_LO(sc->rl_ldata.rl_rx_list_map->dm_segs[0].ds_addr));
CSR_WRITE_4(sc, RL_TXLIST_ADDR_HI,
RL_ADDR_HI(sc->rl_ldata.rl_tx_list_map->dm_segs[0].ds_addr));
CSR_WRITE_4(sc, RL_TXLIST_ADDR_LO,
RL_ADDR_LO(sc->rl_ldata.rl_tx_list_map->dm_segs[0].ds_addr));
CSR_WRITE_1(sc, RL_EARLY_TX_THRESH, 16);
/*
* Initialize the timer interrupt register so that
* a timer interrupt will be generated once the timer
* reaches a certain number of ticks. The timer is
* reloaded on each transmit. This gives us TX interrupt
* moderation, which dramatically improves TX frame rate.
*/
if (sc->rl_type == RL_8169)
CSR_WRITE_4(sc, RL_TIMERINT_8169, 0x800);
else
CSR_WRITE_4(sc, RL_TIMERINT, 0x400);
/*
* For 8169 gigE NICs, set the max allowed RX packet
* size so we can receive jumbo frames.
*/
if (sc->rl_type == RL_8169)
CSR_WRITE_2(sc, RL_MAXRXPKTLEN, 16383);
if (sc->rl_testmode)
return (0);
mii_mediachg(&sc->sc_mii);
CSR_WRITE_1(sc, RL_CFG1, RL_CFG1_DRVLOAD|RL_CFG1_FULLDUPLEX);
ifp->if_flags |= IFF_RUNNING;
ifp->if_flags &= ~IFF_OACTIVE;
splx(s);
timeout_add(&sc->timer_handle, hz);
return (0);
}
/*
* Set media options.
*/
int
re_ifmedia_upd(struct ifnet *ifp)
{
struct rl_softc *sc;
sc = ifp->if_softc;
return (mii_mediachg(&sc->sc_mii));
}
/*
* Report current media status.
*/
void
re_ifmedia_sts(struct ifnet *ifp, struct ifmediareq *ifmr)
{
struct rl_softc *sc;
sc = ifp->if_softc;
mii_pollstat(&sc->sc_mii);
ifmr->ifm_active = sc->sc_mii.mii_media_active;
ifmr->ifm_status = sc->sc_mii.mii_media_status;
}
int
re_ioctl(struct ifnet *ifp, u_long command, caddr_t data)
{
struct rl_softc *sc = ifp->if_softc;
struct ifreq *ifr = (struct ifreq *) data;
struct ifaddr *ifa = (struct ifaddr *)data;
int s, error = 0;
s = splnet();
if ((error = ether_ioctl(ifp, &sc->sc_arpcom, command,
data)) > 0) {
splx(s);
return (error);
}
switch(command) {
case SIOCSIFADDR:
ifp->if_flags |= IFF_UP;
switch (ifa->ifa_addr->sa_family) {
#ifdef INET
case AF_INET:
re_init(ifp);
arp_ifinit(&sc->sc_arpcom, ifa);
break;
#endif /* INET */
default:
re_init(ifp);
break;
}
break;
case SIOCSIFMTU:
if (ifr->ifr_mtu < ETHERMIN ||
((sc->rl_type == RL_8169 &&
ifr->ifr_mtu > RL_JUMBO_MTU) ||
(sc->rl_type == RL_8139 &&
ifr->ifr_mtu > ETHERMTU)))
error = EINVAL;
else if (ifp->if_mtu != ifr->ifr_mtu)
ifp->if_mtu = ifr->ifr_mtu;
break;
case SIOCSIFFLAGS:
if (ifp->if_flags & IFF_UP) {
re_init(ifp);
} else {
if (ifp->if_flags & IFF_RUNNING)
re_stop(ifp, 1);
}
error = 0;
break;
case SIOCADDMULTI:
case SIOCDELMULTI:
error = (command == SIOCADDMULTI) ?
ether_addmulti(ifr, &sc->sc_arpcom) :
ether_delmulti(ifr, &sc->sc_arpcom);
if (error == ENETRESET) {
/*
* Multicast list has changed; set the hardware
* filter accordingly.
*/
if (ifp->if_flags & IFF_RUNNING)
re_setmulti(sc);
error = 0;
}
break;
case SIOCGIFMEDIA:
case SIOCSIFMEDIA:
error = ifmedia_ioctl(ifp, ifr, &sc->sc_mii.mii_media, command);
break;
default:
error = EINVAL;
break;
}
splx(s);
return (error);
}
void
re_watchdog(struct ifnet *ifp)
{
struct rl_softc *sc;
int s;
sc = ifp->if_softc;
s = splnet();
printf("%s: watchdog timeout\n", sc->sc_dev.dv_xname);
ifp->if_oerrors++;
re_txeof(sc);
re_rxeof(sc);
re_init(ifp);
splx(s);
}
/*
* Stop the adapter and free any mbufs allocated to the
* RX and TX lists.
*/
void
re_stop(struct ifnet *ifp, int disable)
{
struct rl_softc *sc;
int i;
sc = ifp->if_softc;
ifp->if_timer = 0;
sc->rl_link = 0;
timeout_del(&sc->timer_handle);
ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE);
mii_down(&sc->sc_mii);
CSR_WRITE_1(sc, RL_COMMAND, 0x00);
CSR_WRITE_2(sc, RL_IMR, 0x0000);
CSR_WRITE_2(sc, RL_ISR, 0xFFFF);
if (sc->rl_head != NULL) {
m_freem(sc->rl_head);
sc->rl_head = sc->rl_tail = NULL;
}
/* Free the TX list buffers. */
for (i = 0; i < RL_TX_DESC_CNT; i++) {
if (sc->rl_ldata.rl_tx_mbuf[i] != NULL) {
bus_dmamap_unload(sc->sc_dmat,
sc->rl_ldata.rl_tx_dmamap[i]);
m_freem(sc->rl_ldata.rl_tx_mbuf[i]);
sc->rl_ldata.rl_tx_mbuf[i] = NULL;
}
}
/* Free the RX list buffers. */
for (i = 0; i < RL_RX_DESC_CNT; i++) {
if (sc->rl_ldata.rl_rx_mbuf[i] != NULL) {
bus_dmamap_unload(sc->sc_dmat,
sc->rl_ldata.rl_rx_dmamap[i]);
m_freem(sc->rl_ldata.rl_rx_mbuf[i]);
sc->rl_ldata.rl_rx_mbuf[i] = NULL;
}
}
}
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