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|
/*-
* Copyright (c) 1994, 1995 Matt Thomas (matt@lkg.dec.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. The name of the author may not be used to endorse or promote products
* derived from this software withough specific prior written permission
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
*/
/*
* DEC DC21040 PCI Ethernet Controller
*
* Written by Matt Thomas
* BPF support code stolen directly from if_ec.c
*
* This driver supports the DEC DE435 or any other PCI
* board which support DC21040, DC21041, or DC21140 (mostly).
*/
#if defined(__FreeBSD__)
#include "de.h"
#endif
#if NDE > 0 || !defined(__FreeBSD__)
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/mbuf.h>
#include <sys/protosw.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <sys/errno.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
#include <sys/proc.h> /* only for declaration of wakeup() used by vm.h */
#if defined(__FreeBSD__)
#include <sys/devconf.h>
#include <machine/clock.h>
#elif defined(__bsdi__) || defined(__NetBSD__)
#include <sys/device.h>
#endif
#include <net/if.h>
#include <net/if_types.h>
#include <net/if_dl.h>
#include <net/route.h>
#include "bpfilter.h"
#if NBPFILTER > 0
#include <net/bpf.h>
#include <net/bpfdesc.h>
#endif
#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
#ifdef NS
#include <netns/ns.h>
#include <netns/ns_if.h>
#endif
#include <vm/vm.h>
#include <vm/vm_kern.h>
#include <vm/vm_param.h>
#if defined(__FreeBSD__)
#include <pci.h>
#if NPCI > 0
#include <pci/pcivar.h>
#include <pci/dc21040.h>
#endif
#endif /* __FreeBSD__ */
#if defined(__bsdi__)
#include <i386/pci/pci.h>
#include <i386/pci/ic/dc21040.h>
#include <i386/isa/isa.h>
#include <i386/isa/icu.h>
#include <i386/isa/dma.h>
#include <i386/isa/isavar.h>
#include <eisa.h>
#if NEISA > 0
#include <i386/eisa/eisa.h>
#define TULIP_EISA
#endif
#endif /* __bsdi__ */
#if defined(__NetBSD__)
#include <dev/pci/pcivar.h>
#include <dev/ic/dc21040reg.h>
#if defined(__i386__)
#include <machine/pio.h>
#include <i386/isa/isa_machdep.h>
#endif
#endif /* __NetBSD__ */
/*
* Intel CPUs should use I/O mapped access.
*/
#if defined(__i386__)
#define TULIP_IOMAPPED
#endif
/*
* This module supports
* the DEC DC21040 PCI Ethernet Controller.
* the DEC DC21041 PCI Ethernet Controller.
* the DEC DC21140 PCI Fast Ethernet Controller.
*/
typedef struct {
tulip_desc_t *ri_first;
tulip_desc_t *ri_last;
tulip_desc_t *ri_nextin;
tulip_desc_t *ri_nextout;
int ri_max;
int ri_free;
} tulip_ringinfo_t;
#ifdef TULIP_IOMAPPED
#ifndef __NetBSD__
typedef tulip_uint16_t tulip_csrptr_t;
#else
typedef int tulip_csrptr_t;
#endif
#define TULIP_EISA_CSRSIZE 16
#define TULIP_EISA_CSROFFSET 0
#define TULIP_PCI_CSRSIZE 8
#define TULIP_PCI_CSROFFSET 0
#define TULIP_READ_CSR(sc, csr) (inl((sc)->tulip_csrs.csr))
#define TULIP_WRITE_CSR(sc, csr, val) outl((sc)->tulip_csrs.csr, val)
#define TULIP_READ_CSRBYTE(sc, csr) (inb((sc)->tulip_csrs.csr))
#define TULIP_WRITE_CSRBYTE(sc, csr, val) outb((sc)->tulip_csrs.csr, val)
#else /* TULIP_IOMAPPED */
typedef volatile tulip_uint32_t *tulip_csrptr_t;
#if defined(__alpha__)
#define TULIP_PCI_CSRSIZE (256 / sizeof(tulip_uint32_t))
#define TULIP_PCI_CSROFFSET (24 / sizeof(tulip_uint32_t))
#elif defined(__i386__)
#define TULIP_PCI_CSRSIZE (8 / sizeof(tulip_uint32_t))
#define TULIP_PCI_CSROFFSET 0
#endif
/*
* macros to read and write CSRs. Note that the "0 +" in
* READ_CSR is to prevent the macro from being an lvalue
* and WRITE_CSR shouldn't be assigned from.
*/
#define TULIP_READ_CSR(sc, csr) (0 + *(sc)->tulip_csrs.csr)
#ifndef __alpha__
#define TULIP_WRITE_CSR(sc, csr, val) \
((void)(*(sc)->tulip_csrs.csr = (val)))
#else
#define TULIP_WRITE_CSR(sc, csr, val) \
((void)(*(sc)->tulip_csrs.csr = (val), MB()))
#endif
#endif /* TULIP_IOMAPPED */
typedef struct {
tulip_csrptr_t csr_busmode; /* CSR0 */
tulip_csrptr_t csr_txpoll; /* CSR1 */
tulip_csrptr_t csr_rxpoll; /* CSR2 */
tulip_csrptr_t csr_rxlist; /* CSR3 */
tulip_csrptr_t csr_txlist; /* CSR4 */
tulip_csrptr_t csr_status; /* CSR5 */
tulip_csrptr_t csr_command; /* CSR6 */
tulip_csrptr_t csr_intr; /* CSR7 */
tulip_csrptr_t csr_missed_frame; /* CSR8 */
/* DC21040 specific registers */
tulip_csrptr_t csr_enetrom; /* CSR9 */
tulip_csrptr_t csr_reserved; /* CSR10 */
tulip_csrptr_t csr_full_duplex; /* CSR11 */
/* DC21040/DC21041 common registers */
tulip_csrptr_t csr_sia_status; /* CSR12 */
tulip_csrptr_t csr_sia_connectivity; /* CSR13 */
tulip_csrptr_t csr_sia_tx_rx; /* CSR14 */
tulip_csrptr_t csr_sia_general; /* CSR15 */
/* DC21140/DC21041 common registers */
tulip_csrptr_t csr_srom_mii; /* CSR9 */
tulip_csrptr_t csr_gp_timer; /* CSR11 */
/* DC21140 specific registers */
tulip_csrptr_t csr_gp; /* CSR12 */
tulip_csrptr_t csr_watchdog; /* CSR15 */
/* DC21041 specific registers */
tulip_csrptr_t csr_bootrom; /* CSR10 */
} tulip_regfile_t;
/*
* The DC21040 has a stupid restriction in that the receive
* buffers must be longword aligned. But since Ethernet
* headers are not a multiple of longwords in size this forces
* the data to non-longword aligned. Since IP requires the
* data to be longword aligned, we need to copy it after it has
* been DMA'ed in our memory.
*
* Since we have to copy it anyways, we might as well as allocate
* dedicated receive space for the input. This allows to use a
* small receive buffer size and more ring entries to be able to
* better keep with a flood of tiny Ethernet packets.
*
* The receive space MUST ALWAYS be a multiple of the page size.
* And the number of receive descriptors multiplied by the size
* of the receive buffers must equal the recevive space. This
* is so that we can manipulate the page tables so that even if a
* packet wraps around the end of the receive space, we can
* treat it as virtually contiguous.
*
* The above used to be true (the stupid restriction is still true)
* but we gone to directly DMA'ing into MBUFs because with 100Mb
* cards the copying is just too much of a hit.
*/
#if defined(__alpha__)
#define TULIP_COPY_RXDATA 1
#endif
#define TULIP_RXDESCS 16
#define TULIP_TXDESCS 128
#define TULIP_RXQ_TARGET 8
typedef enum {
TULIP_DC21040_GENERIC,
TULIP_DC21140_DEC_EB,
TULIP_DC21140_DEC_DE500,
TULIP_DC21140_COGENT_EM100,
TULIP_DC21140_ZNYX_ZX34X,
TULIP_DC21041_GENERIC,
TULIP_DC21041_DE450
} tulip_board_t;
typedef struct _tulip_softc_t tulip_softc_t;
typedef struct {
tulip_board_t bd_type;
const char *bd_description;
int (*bd_media_probe)(tulip_softc_t *sc);
void (*bd_media_select)(tulip_softc_t *sc);
} tulip_boardsw_t;
typedef enum {
TULIP_DC21040, TULIP_DC21140,
TULIP_DC21041, TULIP_DE425,
TULIP_CHIPID_UNKNOWN
} tulip_chipid_t;
typedef enum {
TULIP_PROBE_INACTIVE, TULIP_PROBE_10BASET, TULIP_PROBE_AUI,
TULIP_PROBE_BNC
} tulip_probe_state_t;
typedef enum {
TULIP_MEDIA_UNKNOWN, TULIP_MEDIA_10BASET,
TULIP_MEDIA_BNC, TULIP_MEDIA_AUI,
TULIP_MEDIA_BNCAUI, TULIP_MEDIA_100BASET
} tulip_media_t;
struct _tulip_softc_t {
#if defined(__bsdi__)
struct device tulip_dev; /* base device */
struct isadev tulip_id; /* ISA device */
struct intrhand tulip_ih; /* interrupt vectoring */
struct atshutdown tulip_ats; /* shutdown hook */
#endif
#if defined(__NetBSD__)
struct device tulip_dev; /* base device */
void *tulip_ih; /* interrupt vectoring */
void *tulip_ats; /* shutdown hook */
#endif
struct arpcom tulip_ac;
tulip_regfile_t tulip_csrs;
unsigned tulip_flags;
#define TULIP_WANTSETUP 0x01
#define TULIP_WANTHASH 0x02
#define TULIP_DOINGSETUP 0x04
#define TULIP_ALTPHYS 0x08 /* use AUI */
#define TULIP_TXPROBE_ACTIVE 0x10
#define TULIP_TXPROBE_OK 0x20
#define TULIP_INRESET 0x40
#define TULIP_WANTRXACT 0x80
unsigned char tulip_rombuf[128];
tulip_uint32_t tulip_setupbuf[192/sizeof(tulip_uint32_t)];
tulip_uint32_t tulip_setupdata[192/sizeof(tulip_uint32_t)];
tulip_uint32_t tulip_intrmask;
tulip_uint32_t tulip_cmdmode;
tulip_uint32_t tulip_revinfo;
tulip_uint32_t tulip_gpticks;
tulip_media_t tulip_media;
tulip_probe_state_t tulip_probe_state;
tulip_chipid_t tulip_chipid;
const tulip_boardsw_t *tulip_boardsw;
struct ifqueue tulip_txq;
struct ifqueue tulip_rxq;
tulip_ringinfo_t tulip_rxinfo;
tulip_ringinfo_t tulip_txinfo;
};
#ifndef IFF_ALTPHYS
#define IFF_ALTPHYS IFF_LINK0 /* In case it isn't defined */
#endif
static const char *tulip_chipdescs[] = {
"DC21040 [10Mb/s]",
"DC21140 [10-100Mb/s]",
"DC21041 [10Mb/s]",
#if defined(TULIP_EISA)
"DE425 [10Mb/s]"
#endif
};
#if defined(__FreeBSD__)
typedef void ifnet_ret_t;
typedef int ioctl_cmd_t;
tulip_softc_t *tulips[NDE];
#define TULIP_UNIT_TO_SOFTC(unit) (tulips[unit])
#endif
#if defined(__bsdi__)
typedef int ifnet_ret_t;
typedef int ioctl_cmd_t;
extern struct cfdriver decd;
#define TULIP_UNIT_TO_SOFTC(unit) ((tulip_softc_t *) decd.cd_devs[unit])
#endif
#if defined(__NetBSD__)
typedef void ifnet_ret_t;
typedef u_long ioctl_cmd_t;
extern struct cfdriver decd;
#define TULIP_UNIT_TO_SOFTC(unit) ((tulip_softc_t *) decd.cd_devs[unit])
#endif
#define tulip_if tulip_ac.ac_if
#define tulip_unit tulip_ac.ac_if.if_unit
#define tulip_name tulip_ac.ac_if.if_name
#define tulip_bpf tulip_ac.ac_if.if_bpf
#define tulip_hwaddr tulip_ac.ac_enaddr
#define TULIP_CRC32_POLY 0xEDB88320UL /* CRC-32 Poly -- Little Endian */
#define TULIP_CHECK_RXCRC 0
#define TULIP_MAX_TXSEG 30
#define TULIP_ADDREQUAL(a1, a2) \
(((u_short *)a1)[0] == ((u_short *)a2)[0] \
&& ((u_short *)a1)[1] == ((u_short *)a2)[1] \
&& ((u_short *)a1)[2] == ((u_short *)a2)[2])
#define TULIP_ADDRBRDCST(a1) \
(((u_short *)a1)[0] == 0xFFFFU \
&& ((u_short *)a1)[1] == 0xFFFFU \
&& ((u_short *)a1)[2] == 0xFFFFU)
static ifnet_ret_t tulip_start(struct ifnet *ifp);
static void tulip_rx_intr(tulip_softc_t *sc);
static void tulip_addr_filter(tulip_softc_t *sc);
static int
tulip_dc21040_media_probe(
tulip_softc_t * const sc)
{
int cnt;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, 0);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_10BASET);
for (cnt = 0; cnt < 2400; cnt++) {
if ((TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_LINKFAIL) == 0)
break;
DELAY(1000);
}
return (TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_LINKFAIL) != 0;
}
static void
tulip_dc21040_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_CAPTREFFCT|TULIP_CMD_THRSHLD160;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
if (sc->tulip_if.if_flags & IFF_ALTPHYS) {
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0)
printf("%s%d: enabling Thinwire/AUI port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_AUI);
sc->tulip_flags |= TULIP_ALTPHYS;
} else {
if (sc->tulip_flags & TULIP_ALTPHYS)
printf("%s%d: enabling 10baseT/UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_10BASET);
sc->tulip_flags &= ~TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_10BASET;
}
}
static const tulip_boardsw_t tulip_dc21040_boardsw = {
TULIP_DC21040_GENERIC,
"",
tulip_dc21040_media_probe,
tulip_dc21040_media_select
};
static int
tulip_dc21140_evalboard_media_probe(
tulip_softc_t * const sc)
{
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EB_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EB_INIT);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) | TULIP_CMD_PORTSELECT |
TULIP_CMD_PCSFUNCTION | TULIP_CMD_SCRAMBLER | TULIP_CMD_MUSTBEONE);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) & ~TULIP_CMD_TXTHRSHLDCTL);
DELAY(1000000);
return (TULIP_READ_CSR(sc, csr_gp) & TULIP_GP_EB_OK100) != 0;
}
static void
tulip_dc21140_evalboard_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_STOREFWD|TULIP_CMD_MUSTBEONE;
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EB_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EB_INIT);
if (sc->tulip_if.if_flags & IFF_ALTPHYS) {
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0)
printf("%s%d: enabling 100baseTX UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode |= TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER;
sc->tulip_cmdmode &= ~TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags |= TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_100BASET;
} else {
if (sc->tulip_flags & TULIP_ALTPHYS)
printf("%s%d: enabling 10baseT UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode &= ~(TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER);
sc->tulip_cmdmode |= TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags &= ~TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_10BASET;
}
}
static const tulip_boardsw_t tulip_dc21140_eb_boardsw = {
TULIP_DC21140_DEC_EB,
"",
tulip_dc21140_evalboard_media_probe,
tulip_dc21140_evalboard_media_select
};
static int
tulip_dc21140_cogent_em100_media_probe(
tulip_softc_t * const sc)
{
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EM100_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EM100_INIT);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) | TULIP_CMD_PORTSELECT |
TULIP_CMD_PCSFUNCTION | TULIP_CMD_SCRAMBLER | TULIP_CMD_MUSTBEONE);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) & ~TULIP_CMD_TXTHRSHLDCTL);
return 1;
}
static void
tulip_dc21140_cogent_em100_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_STOREFWD|TULIP_CMD_MUSTBEONE;
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EM100_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_EM100_INIT);
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0)
printf("%s%d: enabling 100baseTX UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode |= TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER;
sc->tulip_cmdmode &= ~TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags |= TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_100BASET;
}
static const tulip_boardsw_t tulip_dc21140_cogent_em100_boardsw = {
TULIP_DC21140_COGENT_EM100,
"Cogent EM100",
tulip_dc21140_cogent_em100_media_probe,
tulip_dc21140_cogent_em100_media_select
};
static int
tulip_dc21140_znyx_zx34x_media_probe(
tulip_softc_t * const sc)
{
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_ZX34X_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_ZX34X_INIT);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) | TULIP_CMD_PORTSELECT |
TULIP_CMD_PCSFUNCTION | TULIP_CMD_SCRAMBLER | TULIP_CMD_MUSTBEONE);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) & ~TULIP_CMD_TXTHRSHLDCTL);
DELAY(1000000);
return (TULIP_READ_CSR(sc, csr_gp) & TULIP_GP_ZX34X_OK10);
}
static void
tulip_dc21140_znyx_zx34x_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_STOREFWD|TULIP_CMD_MUSTBEONE;
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_ZX34X_PINS);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_ZX34X_INIT);
if (sc->tulip_if.if_flags & IFF_ALTPHYS) {
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0)
printf("%s%d: enabling 100baseTX UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode |= TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER;
sc->tulip_cmdmode &= ~TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags |= TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_100BASET;
} else {
if (sc->tulip_flags & TULIP_ALTPHYS)
printf("%s%d: enabling 10baseT UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode &= ~(TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER);
sc->tulip_cmdmode |= TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags &= ~TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_10BASET;
}
}
static const tulip_boardsw_t tulip_dc21140_znyx_zx34x_boardsw = {
TULIP_DC21140_ZNYX_ZX34X,
"Znyx ZX34X ",
tulip_dc21140_znyx_zx34x_media_probe,
tulip_dc21140_znyx_zx34x_media_select
};
static int
tulip_dc21140_de500_media_probe(
tulip_softc_t * const sc)
{
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_DE500_PINS);
DELAY(1000);
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_DE500_HALFDUPLEX);
if ((TULIP_READ_CSR(sc, csr_gp) &
(TULIP_GP_DE500_NOTOK_100|TULIP_GP_DE500_NOTOK_10)) !=
(TULIP_GP_DE500_NOTOK_100|TULIP_GP_DE500_NOTOK_10))
return (TULIP_READ_CSR(sc, csr_gp) & TULIP_GP_DE500_NOTOK_100) != 0;
TULIP_WRITE_CSR(sc, csr_gp,
TULIP_GP_DE500_HALFDUPLEX|TULIP_GP_DE500_FORCE_100);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) | TULIP_CMD_PORTSELECT |
TULIP_CMD_PCSFUNCTION | TULIP_CMD_SCRAMBLER | TULIP_CMD_MUSTBEONE);
TULIP_WRITE_CSR(sc, csr_command,
TULIP_READ_CSR(sc, csr_command) & ~TULIP_CMD_TXTHRSHLDCTL);
DELAY(1000000);
return (TULIP_READ_CSR(sc, csr_gp) & TULIP_GP_DE500_NOTOK_100) != 0;
}
static void
tulip_dc21140_de500_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_STOREFWD|TULIP_CMD_MUSTBEONE;
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_DE500_PINS);
if (sc->tulip_if.if_flags & IFF_ALTPHYS) {
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0)
printf("%s%d: enabling 100baseTX UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode |= TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER;
sc->tulip_cmdmode &= ~TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags |= TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_100BASET;
TULIP_WRITE_CSR(sc, csr_gp,
TULIP_GP_DE500_HALFDUPLEX|TULIP_GP_DE500_FORCE_100);
} else {
if (sc->tulip_flags & TULIP_ALTPHYS)
printf("%s%d: enabling 10baseT UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
sc->tulip_cmdmode &= ~(TULIP_CMD_PORTSELECT
|TULIP_CMD_PCSFUNCTION|TULIP_CMD_SCRAMBLER);
sc->tulip_cmdmode |= TULIP_CMD_TXTHRSHLDCTL;
sc->tulip_flags &= ~TULIP_ALTPHYS;
sc->tulip_media = TULIP_MEDIA_10BASET;
TULIP_WRITE_CSR(sc, csr_gp, TULIP_GP_DE500_HALFDUPLEX);
}
}
static const tulip_boardsw_t tulip_dc21140_de500_boardsw = {
TULIP_DC21140_DEC_DE500, "Digital DE500 ",
tulip_dc21140_de500_media_probe,
tulip_dc21140_de500_media_select
};
static int
tulip_dc21041_media_probe(
tulip_softc_t * const sc)
{
return 0;
}
static void
tulip_dc21041_media_select(
tulip_softc_t * const sc)
{
sc->tulip_cmdmode |= TULIP_CMD_CAPTREFFCT|TULIP_CMD_ENHCAPTEFFCT
/* |TULIP_CMD_FULLDUPLEX */ |TULIP_CMD_THRSHLD160;
sc->tulip_intrmask |= TULIP_STS_NORMALINTR|TULIP_STS_GPTIMEOUT
|TULIP_STS_ABNRMLINTR|TULIP_STS_LINKPASS|TULIP_STS_LINKFAIL;
if (sc->tulip_if.if_flags & IFF_ALTPHYS) {
if ((sc->tulip_flags & TULIP_ALTPHYS) == 0) {
sc->tulip_media = TULIP_MEDIA_UNKNOWN;
sc->tulip_flags &= ~(TULIP_TXPROBE_OK|TULIP_TXPROBE_ACTIVE);
sc->tulip_flags |= TULIP_ALTPHYS|TULIP_WANTRXACT;
sc->tulip_probe_state = TULIP_PROBE_INACTIVE;
}
} else {
if (sc->tulip_flags & TULIP_ALTPHYS) {
sc->tulip_media = TULIP_MEDIA_UNKNOWN;
sc->tulip_flags &= ~(TULIP_TXPROBE_OK|TULIP_TXPROBE_ACTIVE|TULIP_ALTPHYS);
sc->tulip_flags |= TULIP_WANTRXACT;
sc->tulip_probe_state = TULIP_PROBE_INACTIVE;
}
}
if (TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_LINKFAIL) {
if (sc->tulip_media == TULIP_MEDIA_10BASET) {
sc->tulip_media = TULIP_MEDIA_UNKNOWN;
} else if (sc->tulip_media == TULIP_MEDIA_BNC) {
sc->tulip_intrmask &= ~TULIP_STS_GPTIMEOUT;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_BNC);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_BNC);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_BNC);
return;
} else if (sc->tulip_media == TULIP_MEDIA_AUI) {
sc->tulip_intrmask &= ~TULIP_STS_GPTIMEOUT;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_AUI);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_AUI);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_AUI);
return;
}
switch (sc->tulip_probe_state) {
case TULIP_PROBE_INACTIVE: {
TULIP_WRITE_CSR(sc, csr_command, sc->tulip_cmdmode);
sc->tulip_if.if_flags |= IFF_OACTIVE;
sc->tulip_gpticks = 200;
sc->tulip_probe_state = TULIP_PROBE_10BASET;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_10BASET);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_10BASET);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_10BASET);
TULIP_WRITE_CSR(sc, csr_gp_timer, 12000000 / 204800); /* 120 ms */
break;
}
case TULIP_PROBE_10BASET: {
if (--sc->tulip_gpticks > 0) {
if ((TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_OTHERRXACTIVITY) == 0) {
TULIP_WRITE_CSR(sc, csr_gp_timer, 12000000 / 204800); /* 120 ms */
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
break;
}
}
sc->tulip_gpticks = 4;
if (TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_OTHERRXACTIVITY) {
sc->tulip_probe_state = TULIP_PROBE_BNC;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_BNC);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_BNC);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_BNC);
TULIP_WRITE_CSR(sc, csr_gp_timer, 100000000 / 204800); /* 100 ms */
} else {
sc->tulip_probe_state = TULIP_PROBE_AUI;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_AUI);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_AUI);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_AUI);
TULIP_WRITE_CSR(sc, csr_gp_timer, 100000000 / 204800); /* 100 ms */
}
break;
}
case TULIP_PROBE_BNC:
case TULIP_PROBE_AUI: {
if (sc->tulip_flags & TULIP_TXPROBE_OK) {
sc->tulip_intrmask &= ~TULIP_STS_GPTIMEOUT;
sc->tulip_flags &= ~(TULIP_TXPROBE_OK|TULIP_TXPROBE_ACTIVE);
TULIP_WRITE_CSR(sc, csr_gp_timer, 0); /* disable */
if ((sc->tulip_probe_state == TULIP_PROBE_AUI
&& sc->tulip_media != TULIP_MEDIA_AUI)
|| (sc->tulip_probe_state == TULIP_PROBE_BNC
&& sc->tulip_media != TULIP_MEDIA_AUI)) {
printf("%s%d: enabling %s port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit,
sc->tulip_probe_state == TULIP_PROBE_BNC
? "Thinwire/BNC" : "AUI");
if (sc->tulip_probe_state == TULIP_PROBE_AUI)
sc->tulip_media = TULIP_MEDIA_AUI;
else if (sc->tulip_probe_state == TULIP_PROBE_BNC)
sc->tulip_media = TULIP_MEDIA_BNC;
}
sc->tulip_probe_state = TULIP_PROBE_INACTIVE;
break;
}
if ((sc->tulip_flags & TULIP_WANTRXACT) == 0
|| (TULIP_READ_CSR(sc, csr_sia_status) & TULIP_SIASTS_RXACTIVITY)) {
if ((sc->tulip_flags & TULIP_TXPROBE_ACTIVE) == 0) {
struct mbuf *m;
/*
* Before we are sure this is the right media we need
* to send a small packet to make sure there's carrier.
* Strangely, BNC and AUI will 'see" receive data if
* either is connected so the transmit is the only way
* to verify the connectivity.
*/
MGETHDR(m, M_DONTWAIT, MT_DATA);
if (m == NULL) {
TULIP_WRITE_CSR(sc, csr_gp_timer, 100000000 / 204800); /* 100 ms */
break;
}
/*
* Construct a LLC TEST message which will point to ourselves.
*/
bcopy(sc->tulip_hwaddr, mtod(m, struct ether_header *)->ether_dhost, 6);
bcopy(sc->tulip_hwaddr, mtod(m, struct ether_header *)->ether_shost, 6);
mtod(m, struct ether_header *)->ether_type = htons(3);
mtod(m, unsigned char *)[14] = 0;
mtod(m, unsigned char *)[15] = 0;
mtod(m, unsigned char *)[16] = 0xE3; /* LLC Class1 TEST (no poll) */
m->m_len = m->m_pkthdr.len = sizeof(struct ether_header) + 3;
/*
* send it!
*/
sc->tulip_flags |= TULIP_TXPROBE_ACTIVE;
sc->tulip_flags &= ~TULIP_TXPROBE_OK;
sc->tulip_cmdmode |= TULIP_CMD_TXRUN;
TULIP_WRITE_CSR(sc, csr_command, sc->tulip_cmdmode);
IF_PREPEND(&sc->tulip_if.if_snd, m);
tulip_start(&sc->tulip_if);
break;
}
sc->tulip_flags &= ~TULIP_TXPROBE_ACTIVE;
}
/*
* Take 2 passes through before deciding to not
* wait for receive activity. Then take another
* two passes before spitting out a warning.
*/
if (sc->tulip_gpticks > 0 && --sc->tulip_gpticks == 0) {
if (sc->tulip_flags & TULIP_WANTRXACT) {
sc->tulip_flags &= ~TULIP_WANTRXACT;
sc->tulip_gpticks = 4;
} else {
printf("%s%d: autosense failed: cable problem?\n",
sc->tulip_name, sc->tulip_unit);
}
}
/*
* Since this media failed to probe, try the other one.
*/
if (sc->tulip_probe_state == TULIP_PROBE_AUI) {
sc->tulip_probe_state = TULIP_PROBE_BNC;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_BNC);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_BNC);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_BNC);
TULIP_WRITE_CSR(sc, csr_gp_timer, 100000000 / 204800); /* 100 ms */
} else {
sc->tulip_probe_state = TULIP_PROBE_AUI;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_AUI);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_AUI);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_AUI);
TULIP_WRITE_CSR(sc, csr_gp_timer, 100000000 / 204800); /* 100 ms */
}
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
break;
}
}
} else {
/*
* If the link has passed LinkPass, 10baseT is the
* proper media to use.
*/
if (sc->tulip_media != TULIP_MEDIA_10BASET)
printf("%s%d: enabling 10baseT/UTP port\n",
sc->tulip_if.if_name, sc->tulip_if.if_unit);
if (sc->tulip_media != TULIP_MEDIA_10BASET
|| (sc->tulip_flags & TULIP_INRESET)) {
sc->tulip_media = TULIP_MEDIA_10BASET;
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_SIACONN_RESET);
TULIP_WRITE_CSR(sc, csr_sia_connectivity, TULIP_DC21041_SIACONN_10BASET);
TULIP_WRITE_CSR(sc, csr_sia_tx_rx, TULIP_DC21041_SIATXRX_10BASET);
TULIP_WRITE_CSR(sc, csr_sia_general, TULIP_DC21041_SIAGEN_10BASET);
}
TULIP_WRITE_CSR(sc, csr_gp_timer, 0); /* disable */
sc->tulip_gpticks = 1;
sc->tulip_probe_state = TULIP_PROBE_10BASET;
sc->tulip_intrmask &= ~TULIP_STS_GPTIMEOUT;
sc->tulip_if.if_flags &= ~IFF_OACTIVE;
}
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
}
static const tulip_boardsw_t tulip_dc21041_boardsw = {
TULIP_DC21041_GENERIC,
"",
tulip_dc21041_media_probe,
tulip_dc21041_media_select
};
static const tulip_boardsw_t tulip_dc21041_de450_boardsw = {
TULIP_DC21041_DE450,
"Digital DE450 ",
tulip_dc21041_media_probe,
tulip_dc21041_media_select
};
static void
tulip_reset(
tulip_softc_t * const sc)
{
tulip_ringinfo_t *ri;
tulip_desc_t *di;
TULIP_WRITE_CSR(sc, csr_busmode, TULIP_BUSMODE_SWRESET);
DELAY(10); /* Wait 10 microsends (actually 50 PCI cycles but at
33MHz that comes to two microseconds but wait a
bit longer anyways) */
sc->tulip_flags |= TULIP_INRESET;
sc->tulip_intrmask = 0;
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
TULIP_WRITE_CSR(sc, csr_txlist, vtophys(&sc->tulip_txinfo.ri_first[0]));
TULIP_WRITE_CSR(sc, csr_rxlist, vtophys(&sc->tulip_rxinfo.ri_first[0]));
TULIP_WRITE_CSR(sc, csr_busmode,
TULIP_BUSMODE_BURSTLEN_8LW|TULIP_BUSMODE_CACHE_ALIGN8
|(BYTE_ORDER != LITTLE_ENDIAN ? TULIP_BUSMODE_BIGENDIAN : 0));
sc->tulip_txq.ifq_maxlen = TULIP_TXDESCS;
/*
* Free all the mbufs that were on the transmit ring.
*/
for (;;) {
struct mbuf *m;
IF_DEQUEUE(&sc->tulip_txq, m);
if (m == NULL)
break;
m_freem(m);
}
ri = &sc->tulip_txinfo;
ri->ri_nextin = ri->ri_nextout = ri->ri_first;
ri->ri_free = ri->ri_max;
for (di = ri->ri_first; di < ri->ri_last; di++)
di->d_status = 0;
/*
* We need to collect all the mbufs were on the
* receive ring before we reinit it either to put
* them back on or to know if we have to allocate
* more.
*/
ri = &sc->tulip_rxinfo;
ri->ri_nextin = ri->ri_nextout = ri->ri_first;
ri->ri_free = ri->ri_max;
for (di = ri->ri_first; di < ri->ri_last; di++) {
di->d_status = 0;
di->d_length1 = 0; di->d_addr1 = 0;
di->d_length2 = 0; di->d_addr2 = 0;
}
for (;;) {
struct mbuf *m;
IF_DEQUEUE(&sc->tulip_rxq, m);
if (m == NULL)
break;
m_freem(m);
}
(*sc->tulip_boardsw->bd_media_select)(sc);
sc->tulip_intrmask |= TULIP_STS_NORMALINTR|TULIP_STS_RXINTR|TULIP_STS_TXINTR
|TULIP_STS_ABNRMLINTR|TULIP_STS_SYSERROR|TULIP_STS_TXSTOPPED
|TULIP_STS_TXBABBLE|TULIP_STS_LINKFAIL|TULIP_STS_RXSTOPPED;
sc->tulip_flags &= ~(TULIP_DOINGSETUP|TULIP_WANTSETUP|TULIP_INRESET);
tulip_addr_filter(sc);
}
static void
tulip_init(
tulip_softc_t * const sc)
{
if (sc->tulip_if.if_flags & IFF_UP) {
sc->tulip_if.if_flags |= IFF_RUNNING;
if (sc->tulip_if.if_flags & IFF_PROMISC) {
sc->tulip_cmdmode |= TULIP_CMD_PROMISCUOUS;
} else {
sc->tulip_cmdmode &= ~TULIP_CMD_PROMISCUOUS;
if (sc->tulip_if.if_flags & IFF_ALLMULTI) {
sc->tulip_cmdmode |= TULIP_CMD_ALLMULTI;
} else {
sc->tulip_cmdmode &= ~TULIP_CMD_ALLMULTI;
}
}
sc->tulip_cmdmode |= TULIP_CMD_TXRUN;
if ((sc->tulip_flags & TULIP_WANTSETUP) == 0) {
tulip_rx_intr(sc);
sc->tulip_cmdmode |= TULIP_CMD_RXRUN;
sc->tulip_intrmask |= TULIP_STS_RXSTOPPED;
} else {
sc->tulip_intrmask &= ~TULIP_STS_RXSTOPPED;
tulip_start(&sc->tulip_if);
}
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
TULIP_WRITE_CSR(sc, csr_command, sc->tulip_cmdmode);
} else {
tulip_reset(sc);
sc->tulip_if.if_flags &= ~IFF_RUNNING;
}
}
#if TULIP_CHECK_RXCRC
static unsigned
tulip_crc32(
u_char *addr,
int len)
{
unsigned int crc = 0xFFFFFFFF;
static unsigned int crctbl[256];
int idx;
static int done;
/*
* initialize the multicast address CRC table
*/
for (idx = 0; !done && idx < 256; idx++) {
unsigned int tmp = idx;
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
tmp = (tmp >> 1) ^ (tmp & 1 ? TULIP_CRC32_POLY : 0); /* XOR */
crctbl[idx] = tmp;
}
done = 1;
while (len-- > 0)
crc = (crc >> 8) ^ crctbl[*addr++] ^ crctbl[crc & 0xFF];
return crc;
}
#endif
static void
tulip_rx_intr(
tulip_softc_t * const sc)
{
tulip_ringinfo_t * const ri = &sc->tulip_rxinfo;
struct ifnet * const ifp = &sc->tulip_if;
for (;;) {
struct ether_header eh;
tulip_desc_t *eop = ri->ri_nextin;
int total_len = 0;
struct mbuf *m = NULL;
int accept = 0;
if (sc->tulip_rxq.ifq_len < TULIP_RXQ_TARGET)
goto queue_mbuf;
if (((volatile tulip_desc_t *) eop)->d_status & TULIP_DSTS_OWNER)
break;
total_len = ((eop->d_status >> 16) & 0x7FF) - 4;
IF_DEQUEUE(&sc->tulip_rxq, m);
if ((eop->d_status & TULIP_DSTS_ERRSUM) == 0) {
#if TULIP_CHECK_RXCRC
unsigned crc = tulip_crc32(mtod(m, unsigned char *), total_len);
if (~crc != *((unsigned *) &bufaddr[total_len])) {
printf("%s%d: bad rx crc: %08x [rx] != %08x\n",
sc->tulip_name, sc->tulip_unit,
*((unsigned *) &bufaddr[total_len]), ~crc);
goto next;
}
#endif
eh = *mtod(m, struct ether_header *);
#if NBPFILTER > 0
if (sc->tulip_bpf != NULL)
bpf_tap(sc->tulip_bpf, mtod(m, caddr_t), total_len);
#endif
if ((sc->tulip_if.if_flags & IFF_PROMISC)
&& (eh.ether_dhost[0] & 1) == 0
&& !TULIP_ADDREQUAL(eh.ether_dhost, sc->tulip_ac.ac_enaddr))
goto next;
accept = 1;
total_len -= sizeof(struct ether_header);
} else {
ifp->if_ierrors++;
}
next:
ifp->if_ipackets++;
if (++ri->ri_nextin == ri->ri_last)
ri->ri_nextin = ri->ri_first;
queue_mbuf:
/*
* Either we are priming the TULIP with mbufs (m == NULL)
* or we are about to accept an mbuf for the upper layers
* so we need to allocate an mbuf to replace it. If we
* can't replace, then count it as an input error and reuse
* the mbuf.
*/
if (accept || m == NULL) {
struct mbuf *m0;
MGETHDR(m0, M_DONTWAIT, MT_DATA);
if (m0 != NULL) {
#if defined(TULIP_COPY_RXDATA)
if (!accept || total_len >= MHLEN) {
#endif
MCLGET(m0, M_DONTWAIT);
if ((m0->m_flags & M_EXT) == 0) {
m_freem(m0);
m0 = NULL;
}
#if defined(TULIP_COPY_RXDATA)
}
#endif
}
if (accept) {
if (m0 != NULL) {
#if defined(__bsdi__)
eh.ether_type = ntohs(eh.ether_type);
#endif
#if !defined(TULIP_COPY_RXDATA)
m->m_data += sizeof(struct ether_header);
m->m_len = m->m_pkthdr.len = total_len;
m->m_pkthdr.rcvif = ifp;
ether_input(ifp, &eh, m);
m = m0;
#else
bcopy(mtod(m, caddr_t) + sizeof(struct ether_header),
mtod(m0, caddr_t), total_len);
m0->m_len = m0->m_pkthdr.len = total_len;
m0->m_pkthdr.rcvif = ifp;
ether_input(ifp, &eh, m0);
#endif
} else {
ifp->if_ierrors++;
}
} else {
m = m0;
}
}
if (m == NULL)
break;
/*
* Now give the buffer to the TULIP and save in our
* receive queue.
*/
ri->ri_nextout->d_length1 = MCLBYTES - 4;
ri->ri_nextout->d_addr1 = vtophys(mtod(m, caddr_t));
ri->ri_nextout->d_status = TULIP_DSTS_OWNER;
if (++ri->ri_nextout == ri->ri_last)
ri->ri_nextout = ri->ri_first;
IF_ENQUEUE(&sc->tulip_rxq, m);
}
}
static int
tulip_tx_intr(
tulip_softc_t * const sc)
{
tulip_ringinfo_t * const ri = &sc->tulip_txinfo;
struct mbuf *m;
int xmits = 0;
while (ri->ri_free < ri->ri_max) {
if (((volatile tulip_desc_t *) ri->ri_nextin)->d_status & TULIP_DSTS_OWNER)
break;
if (ri->ri_nextin->d_flag & TULIP_DFLAG_TxLASTSEG) {
if (ri->ri_nextin->d_flag & TULIP_DFLAG_TxSETUPPKT) {
/*
* We've just finished processing a setup packet.
* Mark that we can finished it. If there's not
* another pending, startup the TULIP receiver.
* Make sure we ack the RXSTOPPED so we won't get
* an abormal interrupt indication.
*/
sc->tulip_flags &= ~TULIP_DOINGSETUP;
if ((sc->tulip_flags & TULIP_WANTSETUP) == 0) {
tulip_rx_intr(sc);
sc->tulip_cmdmode |= TULIP_CMD_RXRUN;
sc->tulip_intrmask |= TULIP_STS_RXSTOPPED;
TULIP_WRITE_CSR(sc, csr_status, TULIP_STS_RXSTOPPED);
TULIP_WRITE_CSR(sc, csr_command, sc->tulip_cmdmode);
TULIP_WRITE_CSR(sc, csr_intr, sc->tulip_intrmask);
}
} else {
IF_DEQUEUE(&sc->tulip_txq, m);
m_freem(m);
xmits++;
if (sc->tulip_flags & TULIP_TXPROBE_ACTIVE) {
if ((ri->ri_nextin->d_status & (TULIP_DSTS_TxNOCARR|TULIP_DSTS_TxEXCCOLL)) == 0)
sc->tulip_flags |= TULIP_TXPROBE_OK;
(*sc->tulip_boardsw->bd_media_select)(sc);
} else {
sc->tulip_if.if_collisions +=
(ri->ri_nextin->d_status & TULIP_DSTS_TxCOLLMASK)
>> TULIP_DSTS_V_TxCOLLCNT;
if (ri->ri_nextin->d_status & TULIP_DSTS_ERRSUM)
sc->tulip_if.if_oerrors++;
}
}
}
if (++ri->ri_nextin == ri->ri_last)
ri->ri_nextin = ri->ri_first;
ri->ri_free++;
sc->tulip_if.if_flags &= ~IFF_OACTIVE;
}
sc->tulip_if.if_opackets += xmits;
return xmits;
}
static ifnet_ret_t
tulip_start(
struct ifnet * const ifp)
{
tulip_softc_t * const sc = TULIP_UNIT_TO_SOFTC(ifp->if_unit);
struct ifqueue * const ifq = &ifp->if_snd;
tulip_ringinfo_t * const ri = &sc->tulip_txinfo;
struct mbuf *m, *m0, *next_m0;
if ((ifp->if_flags & IFF_RUNNING) == 0
&& (sc->tulip_flags & TULIP_TXPROBE_ACTIVE) == 0)
return;
for (;;) {
tulip_desc_t *eop, *nextout;
int segcnt, free, recopy;
tulip_uint32_t d_status;
if (sc->tulip_flags & TULIP_WANTSETUP) {
if ((sc->tulip_flags & TULIP_DOINGSETUP) || ri->ri_free == 1) {
ifp->if_flags |= IFF_OACTIVE;
return;
}
bcopy(sc->tulip_setupdata, sc->tulip_setupbuf,
sizeof(sc->tulip_setupbuf));
sc->tulip_flags &= ~TULIP_WANTSETUP;
sc->tulip_flags |= TULIP_DOINGSETUP;
ri->ri_free--;
ri->ri_nextout->d_flag &= TULIP_DFLAG_ENDRING|TULIP_DFLAG_CHAIN;
ri->ri_nextout->d_flag |= TULIP_DFLAG_TxFIRSTSEG|TULIP_DFLAG_TxLASTSEG
|TULIP_DFLAG_TxSETUPPKT|TULIP_DFLAG_TxWANTINTR;
if (sc->tulip_flags & TULIP_WANTHASH)
ri->ri_nextout->d_flag |= TULIP_DFLAG_TxHASHFILT;
ri->ri_nextout->d_length1 = sizeof(sc->tulip_setupbuf);
ri->ri_nextout->d_addr1 = vtophys(sc->tulip_setupbuf);
ri->ri_nextout->d_length2 = 0;
ri->ri_nextout->d_addr2 = 0;
ri->ri_nextout->d_status = TULIP_DSTS_OWNER;
TULIP_WRITE_CSR(sc, csr_txpoll, 1);
/*
* Advance the ring for the next transmit packet.
*/
if (++ri->ri_nextout == ri->ri_last)
ri->ri_nextout = ri->ri_first;
/*
* Make sure the next descriptor is owned by us since it
* may have been set up above if we ran out of room in the
* ring.
*/
ri->ri_nextout->d_status = 0;
}
IF_DEQUEUE(ifq, m);
if (m == NULL)
break;
/*
* Now we try to fill in our transmit descriptors. This is
* a bit reminiscent of going on the Ark two by two
* since each descriptor for the TULIP can describe
* two buffers. So we advance through packet filling
* each of the two entries at a time to to fill each
* descriptor. Clear the first and last segment bits
* in each descriptor (actually just clear everything
* but the end-of-ring or chain bits) to make sure
* we don't get messed up by previously sent packets.
*
* We may fail to put the entire packet on the ring if
* there is either not enough ring entries free or if the
* packet has more than MAX_TXSEG segments. In the former
* case we will just wait for the ring to empty. In the
* latter case we have to recopy.
*/
d_status = 0;
recopy = 0;
eop = nextout = ri->ri_nextout;
m0 = m;
segcnt = 0;
free = ri->ri_free;
do {
int len = m0->m_len;
caddr_t addr = mtod(m0, caddr_t);
unsigned clsize = CLBYTES - (((u_long) addr) & (CLBYTES-1));
next_m0 = m0->m_next;
while (len > 0) {
unsigned slen = min(len, clsize);
segcnt++;
if (segcnt > TULIP_MAX_TXSEG) {
recopy = 1;
next_m0 = NULL; /* to break out of outside loop */
break;
}
if (segcnt & 1) {
if (--free == 0) {
/*
* There's no more room but since nothing
* has been committed at this point, just
* show output is active, put back the
* mbuf and return.
*/
ifp->if_flags |= IFF_OACTIVE;
IF_PREPEND(ifq, m);
return;
}
eop = nextout;
if (++nextout == ri->ri_last)
nextout = ri->ri_first;
eop->d_flag &= TULIP_DFLAG_ENDRING|TULIP_DFLAG_CHAIN;
eop->d_status = d_status;
eop->d_addr1 = vtophys(addr); eop->d_length1 = slen;
} else {
/*
* Fill in second half of descriptor
*/
eop->d_addr2 = vtophys(addr); eop->d_length2 = slen;
}
d_status = TULIP_DSTS_OWNER;
len -= slen;
addr += slen;
clsize = CLBYTES;
}
} while ((m0 = next_m0) != NULL);
/*
* The packet exceeds the number of transmit buffer
* entries that we can use for one packet, so we have
* recopy it into one mbuf and then try again.
*/
if (recopy) {
MGETHDR(m0, M_DONTWAIT, MT_DATA);
if (m0 != NULL) {
if (m->m_pkthdr.len > MHLEN) {
MCLGET(m0, M_DONTWAIT);
if ((m0->m_flags & M_EXT) == 0) {
m_freem(m);
m_freem(m0);
continue;
}
}
m_copydata(m, 0, m->m_pkthdr.len, mtod(m0, caddr_t));
m0->m_pkthdr.len = m0->m_len = m->m_pkthdr.len;
IF_PREPEND(ifq, m0);
}
m_freem(m);
continue;
}
/*
* The descriptors have been filled in. Now get ready
* to transmit.
*/
#if NBPFILTER > 0
if (sc->tulip_bpf != NULL)
bpf_mtap(sc->tulip_bpf, m);
#endif
IF_ENQUEUE(&sc->tulip_txq, m);
/*
* Make sure the next descriptor after this packet is owned
* by us since it may have been set up above if we ran out
* of room in the ring.
*/
nextout->d_status = 0;
/*
* If we only used the first segment of the last descriptor,
* make sure the second segment will not be used.
*/
if (segcnt & 1) {
eop->d_addr2 = 0;
eop->d_length2 = 0;
}
/*
* Mark the last and first segments, indicate we want a transmit
* complete interrupt, give the descriptors to the TULIP, and tell
* it to transmit!
*/
eop->d_flag |= TULIP_DFLAG_TxLASTSEG|TULIP_DFLAG_TxWANTINTR;
/*
* Note that ri->ri_nextout is still the start of the packet
* and until we set the OWNER bit, we can still back out of
* everything we have done.
*/
ri->ri_nextout->d_flag |= TULIP_DFLAG_TxFIRSTSEG;
ri->ri_nextout->d_status = TULIP_DSTS_OWNER;
/*
* This advances the ring for us.
*/
ri->ri_nextout = nextout;
ri->ri_free = free;
TULIP_WRITE_CSR(sc, csr_txpoll, 1);
}
if (m != NULL) {
ifp->if_flags |= IFF_OACTIVE;
IF_PREPEND(ifq, m);
}
}
static int
tulip_intr(
void *arg)
{
tulip_softc_t * const sc = (tulip_softc_t *) arg;
tulip_uint32_t csr;
#if defined(__bsdi__)
int progress = 1;
#else
int progress = 0;
#endif
while ((csr = TULIP_READ_CSR(sc, csr_status)) & (TULIP_STS_NORMALINTR|TULIP_STS_ABNRMLINTR)) {
progress = 1;
TULIP_WRITE_CSR(sc, csr_status, csr & sc->tulip_intrmask);
if (csr & TULIP_STS_SYSERROR) {
if ((csr & TULIP_STS_ERRORMASK) == TULIP_STS_ERR_PARITY) {
tulip_reset(sc);
tulip_init(sc);
break;
}
}
if (csr & (TULIP_STS_GPTIMEOUT|TULIP_STS_LINKPASS|TULIP_STS_LINKFAIL)) {
if (sc->tulip_chipid == TULIP_DC21041) {
(*sc->tulip_boardsw->bd_media_select)(sc);
if (csr & (TULIP_STS_LINKPASS|TULIP_STS_LINKFAIL))
csr &= ~TULIP_STS_ABNRMLINTR;
}
}
if (csr & TULIP_STS_ABNRMLINTR) {
printf("%s%d: abnormal interrupt: 0x%05x [0x%05x]\n",
sc->tulip_name, sc->tulip_unit, csr, csr & sc->tulip_intrmask);
TULIP_WRITE_CSR(sc, csr_command, sc->tulip_cmdmode);
}
if (csr & TULIP_STS_RXINTR)
tulip_rx_intr(sc);
if (sc->tulip_txinfo.ri_free < sc->tulip_txinfo.ri_max) {
tulip_tx_intr(sc);
tulip_start(&sc->tulip_if);
}
}
return progress;
}
/*
*
*/
static void
tulip_delay_300ns(
tulip_softc_t * const sc)
{
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
TULIP_READ_CSR(sc, csr_busmode); TULIP_READ_CSR(sc, csr_busmode);
}
#define EMIT do { TULIP_WRITE_CSR(sc, csr_srom_mii, csr); tulip_delay_300ns(sc); } while (0)
static void
tulip_idle_srom(
tulip_softc_t * const sc)
{
unsigned bit, csr;
csr = SROMSEL | SROMRD; EMIT;
csr ^= SROMCS; EMIT;
csr ^= SROMCLKON; EMIT;
/*
* Write 25 cycles of 0 which will force the SROM to be idle.
*/
for (bit = 3 + SROM_BITWIDTH + 16; bit > 0; bit--) {
csr ^= SROMCLKOFF; EMIT; /* clock low; data not valid */
csr ^= SROMCLKON; EMIT; /* clock high; data valid */
}
csr ^= SROMCLKOFF; EMIT;
csr ^= SROMCS; EMIT; EMIT;
csr = 0; EMIT;
}
static void
tulip_read_srom(
tulip_softc_t * const sc)
{
int idx;
const unsigned bitwidth = SROM_BITWIDTH;
const unsigned cmdmask = (SROMCMD_RD << bitwidth);
const unsigned msb = 1 << (bitwidth + 3 - 1);
unsigned lastidx = (1 << bitwidth) - 1;
tulip_idle_srom(sc);
for (idx = 0; idx <= lastidx; idx++) {
unsigned lastbit, data, bits, bit, csr;
csr = SROMSEL | SROMRD; EMIT;
csr ^= SROMCSON; EMIT;
csr ^= SROMCLKON; EMIT;
lastbit = 0;
for (bits = idx|cmdmask, bit = bitwidth + 3; bit > 0; bit--, bits <<= 1) {
const unsigned thisbit = bits & msb;
csr ^= SROMCLKOFF; EMIT; /* clock low; data not valid */
if (thisbit != lastbit) {
csr ^= SROMDOUT; EMIT; /* clock low; invert data */
}
csr ^= SROMCLKON; EMIT; /* clock high; data valid */
lastbit = thisbit;
}
csr ^= SROMCLKOFF; EMIT;
for (data = 0, bits = 0; bits < 16; bits++) {
data <<= 1;
csr ^= SROMCLKON; EMIT; /* clock high; data valid */
data |= TULIP_READ_CSR(sc, csr_srom_mii) & SROMDIN ? 1 : 0;
csr ^= SROMCLKOFF; EMIT; /* clock low; data not valid */
}
sc->tulip_rombuf[idx*2] = data & 0xFF;
sc->tulip_rombuf[idx*2+1] = data >> 8;
csr = SROMSEL | SROMRD; EMIT;
csr = 0; EMIT;
}
}
#define tulip_mchash(mca) (tulip_crc32(mca, 6) & 0x1FF)
#define tulip_srom_crcok(databuf) ( \
((tulip_crc32(databuf, 126) & 0xFFFF) ^ 0xFFFF)== \
((databuf)[126] | ((databuf)[127] << 8)))
static unsigned
tulip_crc32(
const unsigned char *databuf,
size_t datalen)
{
u_int idx, bit, data, crc = 0xFFFFFFFFUL;
for (idx = 0; idx < datalen; idx++)
for (data = *databuf++, bit = 0; bit < 8; bit++, data >>= 1)
crc = (crc >> 1) ^ (((crc ^ data) & 1) ? TULIP_CRC32_POLY : 0);
return crc;
}
/*
* This deals with the vagaries of the address roms and the
* brain-deadness that various vendors commit in using them.
*/
static int
tulip_read_macaddr(
tulip_softc_t *sc)
{
int cksum, rom_cksum, idx;
tulip_uint32_t csr;
unsigned char tmpbuf[8];
static const u_char testpat[] = { 0xFF, 0, 0x55, 0xAA, 0xFF, 0, 0x55, 0xAA };
if (sc->tulip_chipid == TULIP_DC21040) {
TULIP_WRITE_CSR(sc, csr_enetrom, 1);
for (idx = 0; idx < 32; idx++) {
int cnt = 0;
while (((csr = TULIP_READ_CSR(sc, csr_enetrom)) & 0x80000000L) && cnt < 10000)
cnt++;
sc->tulip_rombuf[idx] = csr & 0xFF;
}
sc->tulip_boardsw = &tulip_dc21040_boardsw;
#if defined(TULIP_EISA)
} else if (sc->tulip_chipid == TULIP_DE425) {
int cnt;
for (idx = 0, cnt = 0; idx < sizeof(testpat) && cnt < 32; cnt++) {
tmpbuf[idx] = TULIP_READ_CSRBYTE(sc, csr_enetrom);
if (tmpbuf[idx] == testpat[idx])
++idx;
else
idx = 0;
}
for (idx = 0; idx < 32; idx++)
sc->tulip_rombuf[idx] = TULIP_READ_CSRBYTE(sc, csr_enetrom);
sc->tulip_boardsw = &tulip_dc21040_boardsw;
#endif /* TULIP_EISA */
} else {
int new_srom_fmt = 0;
/*
* Assume all DC21140 board are compatible with the
* DEC 10/100 evaluation board. Not really valid but
* it's the best we can do until every one switches to
* the new SROM format.
*/
if (sc->tulip_chipid == TULIP_DC21140)
sc->tulip_boardsw = &tulip_dc21140_eb_boardsw;
/*
* Thankfully all DC21041's act the same.
*/
if (sc->tulip_chipid == TULIP_DC21041)
sc->tulip_boardsw = &tulip_dc21041_boardsw;
tulip_read_srom(sc);
if (tulip_srom_crcok(sc->tulip_rombuf)) {
/*
* SROM CRC is valid therefore it must be in the
* new format.
*/
new_srom_fmt = 1;
} else if (sc->tulip_rombuf[126] == 0xff && sc->tulip_rombuf[127] == 0xFF) {
/*
* No checksum is present. See if the SROM id checks out;
* the first 18 bytes should be 0 followed by a 1 followed
* by the number of adapters (which we don't deal with yet).
*/
for (idx = 0; idx < 18; idx++) {
if (sc->tulip_rombuf[idx] != 0)
break;
}
if (idx == 18 && sc->tulip_rombuf[18] == 1 && sc->tulip_rombuf[19] != 0)
new_srom_fmt = 2;
}
if (new_srom_fmt) {
/*
* New SROM format. Copy out the Ethernet address.
* If it contains a DE500-XA string, then it must be
* a DE500-XA.
*/
bcopy(sc->tulip_rombuf + 20, sc->tulip_hwaddr, 6);
if (bcmp(sc->tulip_rombuf + 29, "DE500-XA", 8) == 0)
sc->tulip_boardsw = &tulip_dc21140_de500_boardsw;
if (bcmp(sc->tulip_rombuf + 29, "DE450", 5) == 0)
sc->tulip_boardsw = &tulip_dc21041_de450_boardsw;
if (sc->tulip_boardsw == NULL)
return -6;
return 0;
}
}
if (bcmp(&sc->tulip_rombuf[0], &sc->tulip_rombuf[16], 8) != 0) {
/*
* Some folks don't use the standard ethernet rom format
* but instead just put the address in the first 6 bytes
* of the rom and let the rest be all 0xffs. (Can we say
* ZNYX???)
*/
for (idx = 6; idx < 32; idx++) {
if (sc->tulip_rombuf[idx] != 0xFF)
return -4;
}
/*
* Make sure the address is not multicast or locally assigned
* that the OUI is not 00-00-00.
*/
if ((sc->tulip_rombuf[0] & 3) != 0)
return -4;
if (sc->tulip_rombuf[0] == 0 && sc->tulip_rombuf[1] == 0
&& sc->tulip_rombuf[2] == 0)
return -4;
bcopy(sc->tulip_rombuf, sc->tulip_hwaddr, 6);
return 0;
}
/*
* This is the standard DEC address ROM test.
*/
if (bcmp(&sc->tulip_rombuf[24], testpat, 8) != 0)
return -3;
tmpbuf[0] = sc->tulip_rombuf[15]; tmpbuf[1] = sc->tulip_rombuf[14];
tmpbuf[2] = sc->tulip_rombuf[13]; tmpbuf[3] = sc->tulip_rombuf[12];
tmpbuf[4] = sc->tulip_rombuf[11]; tmpbuf[5] = sc->tulip_rombuf[10];
tmpbuf[6] = sc->tulip_rombuf[9]; tmpbuf[7] = sc->tulip_rombuf[8];
if (bcmp(&sc->tulip_rombuf[0], tmpbuf, 8) != 0)
return -2;
bcopy(sc->tulip_rombuf, sc->tulip_hwaddr, 6);
cksum = *(u_short *) &sc->tulip_hwaddr[0];
cksum *= 2;
if (cksum > 65535) cksum -= 65535;
cksum += *(u_short *) &sc->tulip_hwaddr[2];
if (cksum > 65535) cksum -= 65535;
cksum *= 2;
if (cksum > 65535) cksum -= 65535;
cksum += *(u_short *) &sc->tulip_hwaddr[4];
if (cksum >= 65535) cksum -= 65535;
rom_cksum = *(u_short *) &sc->tulip_rombuf[6];
if (cksum != rom_cksum)
return -1;
/*
* Check for various boards based on OUI. Did I say braindead?
*/
if (sc->tulip_chipid == TULIP_DC21140) {
if (sc->tulip_hwaddr[0] == TULIP_OUI_COGENT_0
&& sc->tulip_hwaddr[1] == TULIP_OUI_COGENT_1
&& sc->tulip_hwaddr[2] == TULIP_OUI_COGENT_2) {
if (sc->tulip_rombuf[32] == TULIP_COGENT_EM100_ID)
sc->tulip_boardsw = &tulip_dc21140_cogent_em100_boardsw;
}
if (sc->tulip_hwaddr[0] == TULIP_OUI_ZNYX_0
&& sc->tulip_hwaddr[1] == TULIP_OUI_ZNYX_1
&& sc->tulip_hwaddr[2] == TULIP_OUI_ZNYX_2) {
/* this at least works for the zx342 from Znyx */
sc->tulip_boardsw = &tulip_dc21140_znyx_zx34x_boardsw;
}
}
return 0;
}
static void
tulip_addr_filter(
tulip_softc_t * const sc)
{
tulip_uint32_t *sp = sc->tulip_setupdata;
struct ether_multistep step;
struct ether_multi *enm;
int i;
sc->tulip_flags &= ~TULIP_WANTHASH;
sc->tulip_flags |= TULIP_WANTSETUP;
sc->tulip_cmdmode &= ~TULIP_CMD_RXRUN;
sc->tulip_intrmask &= ~TULIP_STS_RXSTOPPED;
if (sc->tulip_ac.ac_multicnt > 14) {
unsigned hash;
/*
* If we have more than 14 multicasts, we have
* go into hash perfect mode (512 bit multicast
* hash and one perfect hardware).
*/
bzero(sc->tulip_setupdata, sizeof(sc->tulip_setupdata));
hash = tulip_mchash(etherbroadcastaddr);
sp[hash >> 4] |= 1 << (hash & 0xF);
ETHER_FIRST_MULTI(step, &sc->tulip_ac, enm);
while (enm != NULL) {
hash = tulip_mchash(enm->enm_addrlo);
sp[hash >> 4] |= 1 << (hash & 0xF);
ETHER_NEXT_MULTI(step, enm);
}
sc->tulip_flags |= TULIP_WANTHASH;
sp[39] = ((u_short *) sc->tulip_ac.ac_enaddr)[0];
sp[40] = ((u_short *) sc->tulip_ac.ac_enaddr)[1];
sp[41] = ((u_short *) sc->tulip_ac.ac_enaddr)[2];
} else {
/*
* Else can get perfect filtering for 16 addresses.
*/
i = 0;
ETHER_FIRST_MULTI(step, &sc->tulip_ac, enm);
for (; enm != NULL; i++) {
*sp++ = ((u_short *) enm->enm_addrlo)[0];
*sp++ = ((u_short *) enm->enm_addrlo)[1];
*sp++ = ((u_short *) enm->enm_addrlo)[2];
ETHER_NEXT_MULTI(step, enm);
}
/*
* If an IP address is enabled, turn on broadcast
*/
if (sc->tulip_ac.ac_ipaddr.s_addr != 0) {
i++;
*sp++ = 0xFFFF;
*sp++ = 0xFFFF;
*sp++ = 0xFFFF;
}
/*
* Pad the rest with our hardware address
*/
for (; i < 16; i++) {
*sp++ = ((u_short *) sc->tulip_ac.ac_enaddr)[0];
*sp++ = ((u_short *) sc->tulip_ac.ac_enaddr)[1];
*sp++ = ((u_short *) sc->tulip_ac.ac_enaddr)[2];
}
}
}
/*extern void arp_ifinit(struct arpcom *, struct ifaddr*);*/
static int
tulip_ioctl(
struct ifnet * const ifp,
ioctl_cmd_t cmd,
caddr_t data)
{
tulip_softc_t * const sc = TULIP_UNIT_TO_SOFTC(ifp->if_unit);
struct ifaddr *ifa = (struct ifaddr *)data;
struct ifreq *ifr = (struct ifreq *) data;
int s, error = 0;
s = splimp();
switch (cmd) {
case SIOCSIFADDR: {
ifp->if_flags |= IFF_UP;
switch(ifa->ifa_addr->sa_family) {
#ifdef INET
case AF_INET: {
sc->tulip_ac.ac_ipaddr = IA_SIN(ifa)->sin_addr;
tulip_addr_filter(sc); /* reset multicast filtering */
tulip_init(sc);
#if defined(__FreeBSD__) || defined(__NetBSD__)
arp_ifinit(&sc->tulip_ac, ifa);
#elif defined(__bsdi__)
arpwhohas(&sc->tulip_ac, &IA_SIN(ifa)->sin_addr);
#endif
break;
}
#endif /* INET */
#ifdef NS
/*
* This magic copied from if_is.c; I don't use XNS,
* so I have no way of telling if this actually
* works or not.
*/
case AF_NS: {
struct ns_addr *ina = &(IA_SNS(ifa)->sns_addr);
if (ns_nullhost(*ina)) {
ina->x_host = *(union ns_host *)(sc->tulip_ac.ac_enaddr);
} else {
ifp->if_flags &= ~IFF_RUNNING;
bcopy((caddr_t)ina->x_host.c_host,
(caddr_t)sc->tulip_ac.ac_enaddr,
sizeof sc->tulip_ac.ac_enaddr);
}
tulip_init(sc);
break;
}
#endif /* NS */
default: {
tulip_init(sc);
break;
}
}
break;
}
case SIOCSIFFLAGS: {
/*
* Changing the connection forces a reset.
*/
if (sc->tulip_flags & TULIP_ALTPHYS) {
if ((ifp->if_flags & IFF_ALTPHYS) == 0)
tulip_reset(sc);
} else {
if (ifp->if_flags & IFF_ALTPHYS)
tulip_reset(sc);
}
tulip_init(sc);
break;
}
case SIOCADDMULTI:
case SIOCDELMULTI: {
/*
* Update multicast listeners
*/
if (cmd == SIOCADDMULTI)
error = ether_addmulti(ifr, &sc->tulip_ac);
else
error = ether_delmulti(ifr, &sc->tulip_ac);
if (error == ENETRESET) {
tulip_addr_filter(sc); /* reset multicast filtering */
tulip_init(sc);
error = 0;
}
break;
}
#if defined(SIOCSIFMTU)
#if !defined(ifr_mtu)
#define ifr_mtu ifr_metric
#endif
case SIOCSIFMTU:
/*
* Set the interface MTU.
*/
if (ifr->ifr_mtu > ETHERMTU) {
error = EINVAL;
} else {
ifp->if_mtu = ifr->ifr_mtu;
}
break;
#endif
default: {
error = EINVAL;
break;
}
}
splx(s);
return error;
}
static void
tulip_attach(
tulip_softc_t * const sc)
{
struct ifnet * const ifp = &sc->tulip_if;
ifp->if_flags = IFF_BROADCAST|IFF_SIMPLEX|IFF_NOTRAILERS|IFF_MULTICAST;
ifp->if_ioctl = tulip_ioctl;
ifp->if_output = ether_output;
ifp->if_start = tulip_start;
#ifdef __FreeBSD__
printf("%s%d", sc->tulip_name, sc->tulip_unit);
#endif
printf(": %s%s pass %d.%d Ethernet address %s\n",
sc->tulip_boardsw->bd_description,
tulip_chipdescs[sc->tulip_chipid],
(sc->tulip_revinfo & 0xF0) >> 4,
sc->tulip_revinfo & 0x0F,
ether_sprintf(sc->tulip_hwaddr));
if ((*sc->tulip_boardsw->bd_media_probe)(sc)) {
ifp->if_flags |= IFF_ALTPHYS;
} else {
sc->tulip_flags |= TULIP_ALTPHYS;
}
tulip_reset(sc);
if_attach(ifp);
#if defined(__NetBSD__)
ether_ifattach(ifp);
#endif
#if NBPFILTER > 0
bpfattach(&sc->tulip_bpf, ifp, DLT_EN10MB, sizeof(struct ether_header));
#endif
}
static void
tulip_initcsrs(
tulip_softc_t * const sc,
tulip_csrptr_t csr_base,
size_t csr_size)
{
sc->tulip_csrs.csr_busmode = csr_base + 0 * csr_size;
sc->tulip_csrs.csr_txpoll = csr_base + 1 * csr_size;
sc->tulip_csrs.csr_rxpoll = csr_base + 2 * csr_size;
sc->tulip_csrs.csr_rxlist = csr_base + 3 * csr_size;
sc->tulip_csrs.csr_txlist = csr_base + 4 * csr_size;
sc->tulip_csrs.csr_status = csr_base + 5 * csr_size;
sc->tulip_csrs.csr_command = csr_base + 6 * csr_size;
sc->tulip_csrs.csr_intr = csr_base + 7 * csr_size;
sc->tulip_csrs.csr_missed_frame = csr_base + 8 * csr_size;
if (sc->tulip_chipid == TULIP_DC21040) {
sc->tulip_csrs.csr_enetrom = csr_base + 9 * csr_size;
sc->tulip_csrs.csr_reserved = csr_base + 10 * csr_size;
sc->tulip_csrs.csr_full_duplex = csr_base + 11 * csr_size;
sc->tulip_csrs.csr_sia_status = csr_base + 12 * csr_size;
sc->tulip_csrs.csr_sia_connectivity = csr_base + 13 * csr_size;
sc->tulip_csrs.csr_sia_tx_rx = csr_base + 14 * csr_size;
sc->tulip_csrs.csr_sia_general = csr_base + 15 * csr_size;
#if defined(TULIP_EISA)
} else if (sc->tulip_chipid == TULIP_DE425) {
sc->tulip_csrs.csr_enetrom = csr_base + DE425_ENETROM_OFFSET;
sc->tulip_csrs.csr_reserved = csr_base + 10 * csr_size;
sc->tulip_csrs.csr_full_duplex = csr_base + 11 * csr_size;
sc->tulip_csrs.csr_sia_status = csr_base + 12 * csr_size;
sc->tulip_csrs.csr_sia_connectivity = csr_base + 13 * csr_size;
sc->tulip_csrs.csr_sia_tx_rx = csr_base + 14 * csr_size;
sc->tulip_csrs.csr_sia_general = csr_base + 15 * csr_size;
#endif /* TULIP_EISA */
} else if (sc->tulip_chipid == TULIP_DC21140) {
sc->tulip_csrs.csr_srom_mii = csr_base + 9 * csr_size;
sc->tulip_csrs.csr_gp_timer = csr_base + 11 * csr_size;
sc->tulip_csrs.csr_gp = csr_base + 12 * csr_size;
sc->tulip_csrs.csr_watchdog = csr_base + 15 * csr_size;
} else if (sc->tulip_chipid == TULIP_DC21041) {
sc->tulip_csrs.csr_srom_mii = csr_base + 9 * csr_size;
sc->tulip_csrs.csr_bootrom = csr_base + 10 * csr_size;
sc->tulip_csrs.csr_gp_timer = csr_base + 11 * csr_size;
sc->tulip_csrs.csr_sia_status = csr_base + 12 * csr_size;
sc->tulip_csrs.csr_sia_connectivity = csr_base + 13 * csr_size;
sc->tulip_csrs.csr_sia_tx_rx = csr_base + 14 * csr_size;
sc->tulip_csrs.csr_sia_general = csr_base + 15 * csr_size;
}
}
static void
tulip_initring(
tulip_softc_t * const sc,
tulip_ringinfo_t * const ri,
tulip_desc_t *descs,
int ndescs)
{
ri->ri_max = ndescs;
ri->ri_first = descs;
ri->ri_last = ri->ri_first + ri->ri_max;
bzero((caddr_t) ri->ri_first, sizeof(ri->ri_first[0]) * ri->ri_max);
ri->ri_last[-1].d_flag = TULIP_DFLAG_ENDRING;
}
/*
* This is the PCI configuration support. Since the DC21040 is available
* on both EISA and PCI boards, one must be careful in how defines the
* DC21040 in the config file.
*/
#define PCI_CFID 0x00 /* Configuration ID */
#define PCI_CFCS 0x04 /* Configurtion Command/Status */
#define PCI_CFRV 0x08 /* Configuration Revision */
#define PCI_CFLT 0x0c /* Configuration Latency Timer */
#define PCI_CBIO 0x10 /* Configuration Base IO Address */
#define PCI_CBMA 0x14 /* Configuration Base Memory Address */
#define PCI_CFIT 0x3c /* Configuration Interrupt */
#define PCI_CFDA 0x40 /* Configuration Driver Area */
#if defined(TULIP_EISA)
static const int tulip_eisa_irqs[4] = { IRQ5, IRQ9, IRQ10, IRQ11 };
#endif
#if defined(__FreeBSD__)
#define TULIP_PCI_ATTACH_ARGS pcici_t config_id, int unit
static int
tulip_pci_shutdown(
struct kern_devconf * const kdc,
int force)
{
if (kdc->kdc_unit < NDE) {
tulip_softc_t * const sc = TULIP_UNIT_TO_SOFTC(kdc->kdc_unit);
TULIP_WRITE_CSR(sc, csr_busmode, TULIP_BUSMODE_SWRESET);
DELAY(10); /* Wait 10 microsends (actually 50 PCI cycles but at
33MHz that comes to two microseconds but wait a
bit longer anyways) */
}
(void) dev_detach(kdc);
return 0;
}
static char*
tulip_pci_probe(
pcici_t config_id,
pcidi_t device_id)
{
if (PCI_VENDORID(device_id) != DEC_VENDORID)
return NULL;
if (PCI_CHIPID(device_id) == DC21040_CHIPID)
return "Digital DC21040 Ethernet";
if (PCI_CHIPID(device_id) == DC21041_CHIPID)
return "Digital DC21041 Ethernet";
if (PCI_CHIPID(device_id) == DC21140_CHIPID)
return "Digital DC21140 Fast Ethernet";
return NULL;
}
static void tulip_pci_attach(TULIP_PCI_ATTACH_ARGS);
static u_long tulip_pci_count;
struct pci_device dedevice = {
"de",
tulip_pci_probe,
tulip_pci_attach,
&tulip_pci_count,
tulip_pci_shutdown,
};
DATA_SET (pcidevice_set, dedevice);
#endif /* __FreeBSD__ */
#if defined(__bsdi__)
#define TULIP_PCI_ATTACH_ARGS struct device * const parent, struct device * const self, void * const aux
static void
tulip_shutdown(
void *arg)
{
tulip_softc_t * const sc = (tulip_softc_t *) arg;
TULIP_WRITE_CSR(sc, csr_busmode, TULIP_BUSMODE_SWRESET);
DELAY(10); /* Wait 10 microsends (actually 50 PCI cycles but at
33MHz that comes to two microseconds but wait a
bit longer anyways) */
}
static int
tulip_pci_match(
pci_devaddr_t *pa)
{
int irq;
unsigned id;
id = pci_inl(pa, PCI_VENDOR_ID);
if (PCI_VENDORID(id) != DEC_VENDORID)
return 0;
id = PCI_CHIPID(id);
if (id != DC21040_CHIPID && id != DC21041_CHIPID && id != DC21140_CHIPID)
return 0;
irq = pci_inl(pa, PCI_I_LINE) & 0xFF;
if (irq == 0 || irq >= 16) {
printf("de?: invalid IRQ %d; skipping\n", irq);
return 0;
}
return 1;
}
static int
tulip_probe(
struct device *parent,
struct cfdata *cf,
void *aux)
{
struct isa_attach_args * const ia = (struct isa_attach_args *) aux;
unsigned irq, slot;
pci_devaddr_t *pa;
#if defined(TULIP_EISA)
if ((slot = eisa_match(cf, ia)) != 0) {
unsigned tmp;
ia->ia_iobase = slot << 12;
ia->ia_iosize = EISA_NPORT;
eisa_slotalloc(slot);
tmp = inb(ia->ia_iobase + DE425_CFG0);
irq = tulip_eisa_irqs[(tmp >> 1) & 0x03];
/*
* Until BSD/OS likes level interrupts, force
* the DE425 into edge-triggered mode.
*/
if ((tmp & 1) == 0)
outb(ia->ia_iobase + DE425_CFG0, tmp | 1);
/*
* CBIO needs to map to the EISA slot
* enable I/O access and Master
*/
outl(ia->ia_iobase + DE425_CBIO, ia->ia_iobase);
outl(ia->ia_iobase + DE425_CFCS, 5 | inl(ia->ia_iobase + DE425_CFCS));
ia->ia_aux = NULL;
} else {
#endif /* TULIP_EISA */
pa = pci_scan(tulip_pci_match);
if (pa == NULL)
return 0;
irq = (1 << (pci_inl(pa, PCI_I_LINE) & 0xFF));
/* Get the base address; assume the BIOS set it up correctly */
#if defined(TULIP_IOMAPPED)
ia->ia_maddr = NULL;
ia->ia_msize = 0;
ia->ia_iobase = pci_inl(pa, PCI_CBIO) & ~7;
pci_outl(pa, PCI_CBIO, 0xFFFFFFFF);
ia->ia_iosize = ((~pci_inl(pa, PCI_CBIO)) | 7) + 1;
pci_outl(pa, PCI_CBIO, (int) ia->ia_iobase);
/* Disable memory space access */
pci_outl(pa, PCI_COMMAND, pci_inl(pa, PCI_COMMAND) & ~2);
#else
ia->ia_maddr = (caddr_t) (pci_inl(pa, PCI_CBMA) & ~7);
pci_outl(pa, PCI_CBMA, 0xFFFFFFFF);
ia->ia_msize = ((~pci_inl(pa, PCI_CBMA)) | 7) + 1;
pci_outl(pa, PCI_CBMA, (int) ia->ia_maddr);
ia->ia_iobase = 0;
ia->ia_iosize = 0;
/* Disable I/O space access */
pci_outl(pa, PCI_COMMAND, pci_inl(pa, PCI_COMMAND) & ~1);
#endif /* TULIP_IOMAPPED */
ia->ia_aux = (void *) pa;
#if defined(TULIP_EISA)
}
#endif
/* PCI bus masters don't use host DMA channels */
ia->ia_drq = DRQNONE;
if (ia->ia_irq != IRQUNK && irq != ia->ia_irq) {
printf("de%d: error: desired IRQ of %d does not match device's actual IRQ of %d,\n",
cf->cf_unit,
ffs(ia->ia_irq) - 1, ffs(irq) - 1);
return 0;
}
if (ia->ia_irq == IRQUNK && (ia->ia_irq = isa_irqalloc(irq)) == 0) {
printf("de%d: warning: IRQ %d is shared\n", cf->cf_unit, ffs(irq) - 1);
ia->ia_irq = irq;
}
return 1;
}
static void tulip_pci_attach(TULIP_PCI_ATTACH_ARGS);
#if defined(TULIP_EISA)
static char *tulip_eisa_ids[] = {
"DEC4250",
NULL
};
#endif
struct cfdriver decd = {
0, "de", tulip_probe, tulip_pci_attach, DV_IFNET, sizeof(tulip_softc_t),
#if defined(TULIP_EISA)
tulip_eisa_ids
#endif
};
#endif /* __bsdi__ */
#if defined(__NetBSD__)
#define TULIP_PCI_ATTACH_ARGS struct device * const parent, struct device * const self, void * const aux
static void
tulip_pci_shutdown(
void *arg)
{
tulip_softc_t * const sc = (tulip_softc_t *) arg;
TULIP_WRITE_CSR(sc, csr_busmode, TULIP_BUSMODE_SWRESET);
DELAY(10); /* Wait 10 microsends (actually 50 PCI cycles but at
33MHz that comes to two microseconds but wait a
bit longer anyways) */
}
static int
tulip_pci_probe(
struct device *parent,
void *match,
void *aux)
{
struct pci_attach_args *pa = (struct pci_attach_args *) aux;
if (PCI_VENDORID(pa->pa_id) != DEC_VENDORID)
return 0;
if (PCI_CHIPID(pa->pa_id) == DC21040_CHIPID
|| PCI_CHIPID(pa->pa_id) == DC21041_CHIPID
|| PCI_CHIPID(pa->pa_id) == DC21140_CHIPID)
return 1;
return 0;
}
static void tulip_pci_attach(TULIP_PCI_ATTACH_ARGS);
struct cfdriver decd = {
0, "de", tulip_pci_probe, tulip_pci_attach, DV_IFNET, sizeof(tulip_softc_t)
};
#endif /* __NetBSD__ */
static void
tulip_pci_attach(
TULIP_PCI_ATTACH_ARGS)
{
#if defined(__FreeBSD__)
tulip_softc_t *sc;
#endif
#if defined(__bsdi__)
tulip_softc_t * const sc = (tulip_softc_t *) self;
struct isa_attach_args * const ia = (struct isa_attach_args *) aux;
pci_devaddr_t *pa = (pci_devaddr_t *) ia->ia_aux;
int unit = sc->tulip_dev.dv_unit;
#endif
#if defined(__NetBSD__)
tulip_softc_t * const sc = (tulip_softc_t *) self;
struct pci_attach_args * const pa = (struct pci_attach_args *) aux;
int unit = sc->tulip_dev.dv_unit;
#endif
int retval, idx, revinfo, id;
#if !defined(TULIP_IOMAPPED) && !defined(__bsdi__)
vm_offset_t pa_csrs;
#endif
unsigned csroffset = TULIP_PCI_CSROFFSET;
unsigned csrsize = TULIP_PCI_CSRSIZE;
tulip_csrptr_t csr_base;
tulip_desc_t *rxdescs, *txdescs;
tulip_chipid_t chipid = TULIP_CHIPID_UNKNOWN;
#if defined(__FreeBSD__)
if (unit >= NDE) {
printf("de%d: not configured; kernel is built for only %d device%s.\n",
unit, NDE, NDE == 1 ? "" : "s");
return;
}
#endif
#if defined(__FreeBSD__)
revinfo = pci_conf_read(config_id, PCI_CFRV) & 0xFF;
id = pci_conf_read(config_id, PCI_CFID);
#endif
#if defined(__bsdi__)
if (pa != NULL) {
revinfo = pci_inl(pa, PCI_CFRV) & 0xFF;
id = pci_inl(pa, PCI_CFID);
#if defined(TULIP_EISA)
} else {
revinfo = inl(ia->ia_iobase + DE425_CFRV) & 0xFF;
csroffset = TULIP_EISA_CSROFFSET;
csrsize = TULIP_EISA_CSRSIZE;
chipid = TULIP_DE425;
#endif
}
#endif
#if defined(__NetBSD__)
revinfo = pci_conf_read(pa->pa_tag, PCI_CFRV) & 0xFF;
id = pa->pa_id;
#endif
if (PCI_VENDORID(id) == DEC_VENDORID) {
if (PCI_CHIPID(id) == DC21040_CHIPID) chipid = TULIP_DC21040;
else if (PCI_CHIPID(id) == DC21140_CHIPID) chipid = TULIP_DC21140;
else if (PCI_CHIPID(id) == DC21041_CHIPID) chipid = TULIP_DC21041;
}
if (chipid == TULIP_CHIPID_UNKNOWN)
return;
if ((chipid == TULIP_DC21040 || chipid == TULIP_DE425) && revinfo < 0x20) {
#ifdef __FreeBSD__
printf("de%d", unit);
#endif
printf(": not configured; DC21040 pass 2.0 required (%d.%d found)\n",
revinfo >> 4, revinfo & 0x0f);
return;
} else if (chipid == TULIP_DC21140 && revinfo < 0x11) {
#ifdef __FreeBSD__
printf("de%d", unit);
#endif
printf(": not configured; DC21140 pass 1.1 required (%d.%d found)\n",
revinfo >> 4, revinfo & 0x0f);
return;
}
#if defined(__FreeBSD__)
sc = (tulip_softc_t *) malloc(sizeof(*sc), M_DEVBUF, M_NOWAIT);
if (sc == NULL)
return;
bzero(sc, sizeof(*sc)); /* Zero out the softc*/
#endif
rxdescs = (tulip_desc_t *)
malloc(sizeof(tulip_desc_t) * TULIP_RXDESCS, M_DEVBUF, M_NOWAIT);
if (rxdescs == NULL) {
#if defined(__FreeBSD__)
free((caddr_t) sc, M_DEVBUF);
#endif
return;
}
txdescs = (tulip_desc_t *)
malloc(sizeof(tulip_desc_t) * TULIP_TXDESCS, M_DEVBUF, M_NOWAIT);
if (txdescs == NULL) {
free((caddr_t) rxdescs, M_DEVBUF);
#if defined(__FreeBSD__)
free((caddr_t) sc, M_DEVBUF);
#endif
return;
}
sc->tulip_chipid = chipid;
sc->tulip_unit = unit;
sc->tulip_name = "de";
sc->tulip_revinfo = revinfo;
#if defined(__FreeBSD__)
#if defined(TULIP_IOMAPPED)
retval = pci_map_port(config_id, PCI_CBIO, &csr_base);
#else
retval = pci_map_mem(config_id, PCI_CBMA, (vm_offset_t *) &csr_base, &pa_csrs);
#endif
if (!retval) {
free((caddr_t) txdescs, M_DEVBUF);
free((caddr_t) rxdescs, M_DEVBUF);
free((caddr_t) sc, M_DEVBUF);
return;
}
tulips[unit] = sc;
#endif /* __FreeBSD__ */
#if defined(__bsdi__)
#if defined(TULIP_IOMAPPED)
csr_base = ia->ia_iobase;
#else
csr_base = (vm_offset_t) mapphys((vm_offset_t) ia->ia_maddr, ia->ia_msize);
#endif
#endif /* __bsdi__ */
#if defined(__NetBSD__)
#if defined(TULIP_IOMAPPED)
retval = pci_map_io(pa->pa_tag, PCI_CBIO, &csr_base);
#else
retval = pci_map_mem(pa->pa_tag, PCI_CBMA, (vm_offset_t *) &csr_base, &pa_csrs);
#endif
if (retval) {
free((caddr_t) txdescs, M_DEVBUF);
free((caddr_t) rxdescs, M_DEVBUF);
return;
}
#endif /* __NetBSD__ */
tulip_initcsrs(sc, csr_base + csroffset, csrsize);
tulip_initring(sc, &sc->tulip_rxinfo, rxdescs, TULIP_RXDESCS);
tulip_initring(sc, &sc->tulip_txinfo, txdescs, TULIP_TXDESCS);
if ((retval = tulip_read_macaddr(sc)) < 0) {
#ifdef __FreeBSD__
printf("%s%d", sc->tulip_name, sc->tulip_unit);
#endif
printf(": can't read ENET ROM (why=%d) (", retval);
for (idx = 0; idx < 32; idx++)
printf("%02x", sc->tulip_rombuf[idx]);
printf("\n");
printf("%s%d: %s%s pass %d.%d Ethernet address %s\n",
sc->tulip_name, sc->tulip_unit,
(sc->tulip_boardsw != NULL ? sc->tulip_boardsw->bd_description : ""),
tulip_chipdescs[sc->tulip_chipid],
(sc->tulip_revinfo & 0xF0) >> 4, sc->tulip_revinfo & 0x0F,
"unknown");
} else {
/*
* Make sure there won't be any interrupts or such...
*/
TULIP_WRITE_CSR(sc, csr_busmode, TULIP_BUSMODE_SWRESET);
DELAY(10); /* Wait 10 microsends (actually 50 PCI cycles but at
33MHz that comes to two microseconds but wait a
bit longer anyways) */
#if defined(__NetBSD__)
sc->tulip_ih = pci_map_int(pa->pa_tag, PCI_IPL_NET, tulip_intr, sc);
if (sc->tulip_ih == NULL) {
printf("%s%d: couldn't map interrupt\n",
sc->tulip_name, sc->tulip_unit);
return;
}
#if defined(__i386__)
/* gross but netbsd won't print the irq otherwise */
printf(" irq %d", ((struct intrhand *) sc->tulip_ih)->ih_irq);
#endif
sc->tulip_ats = shutdownhook_establish(tulip_pci_shutdown, sc);
if (sc->tulip_ats == NULL)
printf("%s%d: warning: couldn't establish shutdown hook\n",
sc->tulip_name, sc->tulip_unit);
#endif
#if defined(__FreeBSD__)
pci_map_int (config_id, tulip_intr, (void*) sc, &net_imask);
#endif
#if defined(__bsdi__)
isa_establish(&sc->tulip_id, &sc->tulip_dev);
sc->tulip_ih.ih_fun = tulip_intr;
sc->tulip_ih.ih_arg = (void *)sc;
intr_establish(ia->ia_irq, &sc->tulip_ih, DV_NET);
sc->tulip_ats.func = tulip_shutdown;
sc->tulip_ats.arg = (void *) sc;
atshutdown(&sc->tulip_ats, ATSH_ADD);
#endif
tulip_reset(sc);
tulip_attach(sc);
}
}
#endif /* NDE > 0 */
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