dev/isa/if_ix.c

1.37   msaitoh /*	$NetBSD: if_ix.c,v 1.37 2019/04/09 06:19:34 msaitoh Exp $	*/
 1.1        pk
 1.1        pk /*-
 1.1        pk  * Copyright (c) 1998 The NetBSD Foundation, Inc.
 1.1        pk  * All rights reserved.
 1.1        pk  *
 1.1        pk  * This code is derived from software contributed to The NetBSD Foundation
 1.1        pk  * by Rafal K. Boni.
 1.1        pk  *
 1.1        pk  * Redistribution and use in source and binary forms, with or without
 1.1        pk  * modification, are permitted provided that the following conditions
 1.1        pk  * are met:
 1.1        pk  * 1. Redistributions of source code must retain the above copyright
 1.1        pk  *    notice, this list of conditions and the following disclaimer.
 1.1        pk  * 2. Redistributions in binary form must reproduce the above copyright
 1.1        pk  *    notice, this list of conditions and the following disclaimer in the
 1.1        pk  *    documentation and/or other materials provided with the distribution.
 1.1        pk  *
 1.1        pk  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1        pk  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1        pk  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1        pk  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1        pk  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1        pk  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1        pk  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1        pk  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1        pk  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1        pk  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1        pk  * POSSIBILITY OF SUCH DAMAGE.
 1.1        pk  */
1.10     lukem
1.10     lukem #include <sys/cdefs.h>
1.37   msaitoh __KERNEL_RCSID(0, "$NetBSD: if_ix.c,v 1.37 2019/04/09 06:19:34 msaitoh Exp $");
 1.1        pk
 1.1        pk #include <sys/param.h>
 1.1        pk #include <sys/systm.h>
 1.1        pk #include <sys/mbuf.h>
 1.1        pk #include <sys/errno.h>
 1.1        pk #include <sys/device.h>
 1.1        pk #include <sys/protosw.h>
 1.1        pk #include <sys/socket.h>
 1.1        pk
 1.1        pk #include <net/if.h>
 1.1        pk #include <net/if_dl.h>
 1.1        pk #include <net/if_types.h>
 1.1        pk #include <net/if_media.h>
 1.1        pk #include <net/if_ether.h>
 1.1        pk
1.27        ad #include <sys/cpu.h>
1.27        ad #include <sys/bus.h>
1.27        ad #include <sys/intr.h>
 1.1        pk
 1.1        pk #include <dev/isa/isareg.h>
 1.1        pk #include <dev/isa/isavar.h>
 1.1        pk
 1.1        pk #include <dev/ic/i82586reg.h>
 1.1        pk #include <dev/ic/i82586var.h>
 1.1        pk #include <dev/isa/if_ixreg.h>
 1.1        pk
 1.1        pk #ifdef IX_DEBUG
 1.1        pk #define DPRINTF(x)	printf x
 1.1        pk #else
 1.2        pk #define DPRINTF(x)
 1.1        pk #endif
 1.1        pk
1.36   msaitoh static int ix_media[] = {
 1.1        pk 	IFM_ETHER | IFM_10_5,
 1.1        pk 	IFM_ETHER | IFM_10_2,
 1.1        pk 	IFM_ETHER | IFM_10_T,
 1.1        pk };
 1.1        pk #define NIX_MEDIA       (sizeof(ix_media) / sizeof(ix_media[0]))
 1.1        pk
 1.1        pk struct ix_softc {
 1.2        pk 	struct ie_softc sc_ie;
 1.1        pk
 1.2        pk 	bus_space_tag_t sc_regt;	/* space tag for registers */
 1.2        pk 	bus_space_handle_t sc_regh;	/* space handle for registers */
 1.1        pk
1.36   msaitoh 	uint8_t		use_pio;	/* use PIO rather than shared mem */
1.36   msaitoh 	uint16_t	irq_encoded;	/* encoded IRQ */
 1.2        pk 	void		*sc_ih;		/* interrupt handle */
 1.1        pk };
 1.1        pk
1.20     perry static void 	ix_reset(struct ie_softc *, int);
1.20     perry static void 	ix_atten(struct ie_softc *, int);
1.20     perry static int 	ix_intrhook(struct ie_softc *, int);
 1.1        pk
1.20     perry static void     ix_copyin(struct ie_softc *, void *, int, size_t);
1.20     perry static void     ix_copyout(struct ie_softc *, const void *, int, size_t);
 1.2        pk
1.20     perry static void	ix_bus_barrier(struct ie_softc *, int, int, int);
 1.8     bjh21
1.36   msaitoh static uint16_t ix_read_16(struct ie_softc *, int);
1.36   msaitoh static void	ix_write_16(struct ie_softc *, int, uint16_t);
1.20     perry static void	ix_write_24(struct ie_softc *, int, int);
1.36   msaitoh static void	ix_zeromem(struct ie_softc *, int, int);
 1.2        pk
1.20     perry static void	ix_mediastatus(struct ie_softc *, struct ifmediareq *);
 1.1        pk
1.36   msaitoh static uint16_t ix_read_eeprom(bus_space_tag_t, bus_space_handle_t, int);
1.35   msaitoh static void	ix_eeprom_outbits(bus_space_tag_t, bus_space_handle_t, int,
1.35   msaitoh     int);
1.36   msaitoh static int	ix_eeprom_inbits(bus_space_tag_t, bus_space_handle_t);
1.36   msaitoh static void	ix_eeprom_clock(bus_space_tag_t, bus_space_handle_t, int);
 1.1        pk
1.36   msaitoh static int	ix_match(device_t, cfdata_t, void *);
1.36   msaitoh static void	ix_attach(device_t, device_t, void *);
 1.1        pk
 1.1        pk /*
 1.1        pk  * EtherExpress/16 support routines
 1.1        pk  */
 1.1        pk static void
1.30       dsl ix_reset(struct ie_softc *sc, int why)
 1.1        pk {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.1        pk
 1.2        pk 	switch (why) {
 1.2        pk 	case CHIP_PROBE:
 1.2        pk 		bus_space_write_1(isc->sc_regt, isc->sc_regh, IX_ECTRL,
1.36   msaitoh 		    IX_RESET_586);
 1.2        pk 		delay(100);
 1.2        pk 		bus_space_write_1(isc->sc_regt, isc->sc_regh, IX_ECTRL, 0);
 1.2        pk 		delay(100);
 1.2        pk 		break;
 1.1        pk
 1.2        pk 	case CARD_RESET:
 1.2        pk 		break;
1.36   msaitoh 	}
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.26  christos ix_atten(struct ie_softc *sc, int why)
 1.1        pk {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
1.36   msaitoh
 1.2        pk 	bus_space_write_1(isc->sc_regt, isc->sc_regh, IX_ATTN, 0);
 1.1        pk }
 1.1        pk
1.36   msaitoh static uint16_t
1.30       dsl ix_read_eeprom(bus_space_tag_t iot, bus_space_handle_t ioh, int location)
 1.1        pk {
 1.2        pk 	int ectrl, edata;
 1.1        pk
 1.3        pk 	ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 	ectrl &= IX_ECTRL_MASK;
 1.2        pk 	ectrl |= IX_ECTRL_EECS;
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, ectrl);
 1.2        pk
 1.3        pk 	ix_eeprom_outbits(iot, ioh, IX_EEPROM_READ, IX_EEPROM_OPSIZE1);
 1.3        pk 	ix_eeprom_outbits(iot, ioh, location, IX_EEPROM_ADDR_SIZE);
 1.3        pk 	edata = ix_eeprom_inbits(iot, ioh);
 1.3        pk 	ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 	ectrl &= ~(IX_RESET_ASIC | IX_ECTRL_EEDI | IX_ECTRL_EECS);
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, ectrl);
 1.3        pk 	ix_eeprom_clock(iot, ioh, 1);
 1.3        pk 	ix_eeprom_clock(iot, ioh, 0);
1.36   msaitoh 	return edata;
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.35   msaitoh ix_eeprom_outbits(bus_space_tag_t iot, bus_space_handle_t ioh, int edata,
1.35   msaitoh     int count)
 1.1        pk {
 1.2        pk 	int ectrl, i;
 1.1        pk
 1.3        pk 	ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 	ectrl &= ~IX_RESET_ASIC;
 1.2        pk 	for (i = count - 1; i >= 0; i--) {
 1.2        pk 		ectrl &= ~IX_ECTRL_EEDI;
 1.2        pk 		if (edata & (1 << i)) {
 1.2        pk 			ectrl |= IX_ECTRL_EEDI;
 1.2        pk 		}
 1.3        pk 		bus_space_write_1(iot, ioh, IX_ECTRL, ectrl);
 1.2        pk 		delay(1);	/* eeprom data must be setup for 0.4 uSec */
 1.3        pk 		ix_eeprom_clock(iot, ioh, 1);
 1.3        pk 		ix_eeprom_clock(iot, ioh, 0);
 1.2        pk 	}
 1.2        pk 	ectrl &= ~IX_ECTRL_EEDI;
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, ectrl);
 1.2        pk 	delay(1);		/* eeprom data must be held for 0.4 uSec */
 1.1        pk }
 1.1        pk
 1.1        pk static int
1.30       dsl ix_eeprom_inbits(bus_space_tag_t iot, bus_space_handle_t ioh)
 1.1        pk {
 1.2        pk 	int ectrl, edata, i;
 1.1        pk
 1.3        pk 	ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 	ectrl &= ~IX_RESET_ASIC;
 1.2        pk 	for (edata = 0, i = 0; i < 16; i++) {
 1.2        pk 		edata = edata << 1;
 1.3        pk 		ix_eeprom_clock(iot, ioh, 1);
 1.3        pk 		ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 		if (ectrl & IX_ECTRL_EEDO) {
 1.2        pk 			edata |= 1;
 1.2        pk 		}
 1.3        pk 		ix_eeprom_clock(iot, ioh, 0);
 1.2        pk 	}
1.36   msaitoh 	return edata;
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.30       dsl ix_eeprom_clock(bus_space_tag_t iot, bus_space_handle_t ioh, int state)
 1.1        pk {
 1.2        pk 	int ectrl;
 1.1        pk
 1.3        pk 	ectrl = bus_space_read_1(iot, ioh, IX_ECTRL);
 1.2        pk 	ectrl &= ~(IX_RESET_ASIC | IX_ECTRL_EESK);
 1.2        pk 	if (state) {
 1.2        pk 		ectrl |= IX_ECTRL_EESK;
 1.2        pk 	}
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, ectrl);
 1.2        pk 	delay(9);		/* EESK must be stable for 8.38 uSec */
 1.1        pk }
 1.1        pk
 1.1        pk static int
1.30       dsl ix_intrhook(struct ie_softc *sc, int where)
 1.1        pk {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.1        pk
 1.2        pk 	switch (where) {
 1.2        pk 	case INTR_ENTER:
 1.2        pk 		/* entering ISR: disable card interrupts */
 1.2        pk 		bus_space_write_1(isc->sc_regt, isc->sc_regh,
 1.2        pk 				  IX_IRQ, isc->irq_encoded);
 1.2        pk 		break;
 1.2        pk
 1.2        pk 	case INTR_EXIT:
 1.2        pk 		/* exiting ISR: re-enable card interrupts */
 1.2        pk 		bus_space_write_1(isc->sc_regt, isc->sc_regh, IX_IRQ,
 1.2        pk     				  isc->irq_encoded | IX_IRQ_ENABLE);
 1.1        pk 	break;
 1.1        pk     }
 1.1        pk
 1.1        pk     return 1;
 1.1        pk }
 1.1        pk
 1.1        pk
 1.1        pk static void
1.35   msaitoh ix_copyin(struct ie_softc *sc, void *dst, int offset, size_t size)
 1.1        pk {
 1.8     bjh21 	int i, dribble;
1.36   msaitoh 	uint8_t *bptr = dst;
1.36   msaitoh 	uint16_t *wptr = dst;
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.1        pk
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		/* Reset read pointer to the specified offset */
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_READ);
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_READPTR, offset);
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, IX_READPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
1.36   msaitoh 	} else
1.35   msaitoh 		bus_space_barrier(sc->bt, sc->bh, offset, size,
1.36   msaitoh 		    BUS_SPACE_BARRIER_READ);
 1.1        pk
 1.2        pk 	if (offset % 2) {
 1.8     bjh21 		if (isc->use_pio)
 1.8     bjh21 			*bptr = bus_space_read_1(sc->bt, sc->bh, IX_DATAPORT);
 1.8     bjh21 		else
1.35   msaitoh 			*bptr = bus_space_read_1(sc->bt, sc->bh, offset);
 1.2        pk 		offset++; bptr++; size--;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	dribble = size % 2;
1.36   msaitoh 	wptr = (uint16_t*)bptr;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
1.36   msaitoh 		for (i = 0; i <  size / 2; i++) {
 1.8     bjh21 			*wptr = bus_space_read_2(sc->bt, sc->bh, IX_DATAPORT);
 1.8     bjh21 			wptr++;
 1.8     bjh21 		}
1.36   msaitoh 	} else
1.21     perry 		bus_space_read_region_2(sc->bt, sc->bh, offset,
1.36   msaitoh 		    (uint16_t *)bptr, size / 2);
 1.2        pk
 1.2        pk 	if (dribble) {
 1.2        pk 		bptr += size - 1;
 1.2        pk 		offset += size - 1;
 1.8     bjh21
 1.8     bjh21 		if (isc->use_pio)
 1.8     bjh21 			*bptr = bus_space_read_1(sc->bt, sc->bh, IX_DATAPORT);
 1.8     bjh21 		else
1.35   msaitoh 			*bptr = bus_space_read_1(sc->bt, sc->bh, offset);
 1.2        pk 	}
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.35   msaitoh ix_copyout(struct ie_softc *sc, const void *src, int offset, size_t size)
 1.1        pk {
 1.8     bjh21 	int i, dribble;
 1.2        pk 	int osize = size;
 1.2        pk 	int ooffset = offset;
1.36   msaitoh 	const uint8_t *bptr = src;
1.36   msaitoh 	const uint16_t *wptr = src;
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		/* Reset write pointer to the specified offset */
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_WRITEPTR, offset);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_WRITEPTR, 2,
 1.8     bjh21 						  BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	}
 1.2        pk
 1.2        pk 	if (offset % 2) {
 1.8     bjh21 		if (isc->use_pio)
 1.8     bjh21 			bus_space_write_1(sc->bt, sc->bh, IX_DATAPORT, *bptr);
 1.8     bjh21 		else
1.35   msaitoh 			bus_space_write_1(sc->bt, sc->bh, offset, *bptr);
 1.2        pk 		offset++; bptr++; size--;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	dribble = size % 2;
1.36   msaitoh 	wptr = (const uint16_t*)bptr;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
1.36   msaitoh 		for (i = 0; i < size / 2; i++) {
 1.8     bjh21 			bus_space_write_2(sc->bt, sc->bh, IX_DATAPORT, *wptr);
 1.8     bjh21 			wptr++;
 1.8     bjh21 		}
1.36   msaitoh 	} else
1.21     perry 		bus_space_write_region_2(sc->bt, sc->bh, offset,
1.36   msaitoh 		    (const uint16_t *)bptr, size / 2);
 1.8     bjh21
 1.2        pk 	if (dribble) {
 1.2        pk 		bptr += size - 1;
 1.2        pk 		offset += size - 1;
 1.8     bjh21
 1.8     bjh21 		if (isc->use_pio)
 1.8     bjh21 			bus_space_write_1(sc->bt, sc->bh, IX_DATAPORT, *bptr);
 1.8     bjh21 		else
1.35   msaitoh 			bus_space_write_1(sc->bt, sc->bh, offset, *bptr);
 1.2        pk 	}
 1.1        pk
 1.8     bjh21 	if (isc->use_pio)
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	else
1.35   msaitoh 		bus_space_barrier(sc->bt, sc->bh, ooffset, osize,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.1        pk }
 1.1        pk
 1.8     bjh21 static void
1.31       dsl ix_bus_barrier(struct ie_softc *sc, int offset, int length, int flags)
 1.8     bjh21 {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio)
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2, flags);
 1.8     bjh21 	else
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, offset, length, flags);
 1.8     bjh21 }
 1.8     bjh21
1.36   msaitoh static uint16_t
1.36   msaitoh ix_read_16(struct ie_softc *sc, int offset)
 1.1        pk {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_READ);
 1.8     bjh21
 1.8     bjh21 		/* Reset read pointer to the specified offset */
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_READPTR, offset);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_READPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.8     bjh21 		return bus_space_read_2(sc->bt, sc->bh, IX_DATAPORT);
 1.8     bjh21 	} else {
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, offset, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_READ);
1.36   msaitoh 		return bus_space_read_2(sc->bt, sc->bh, offset);
 1.8     bjh21 	}
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.36   msaitoh ix_write_16(struct ie_softc *sc, int offset, uint16_t value)
 1.1        pk {
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		/* Reset write pointer to the specified offset */
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_WRITEPTR, offset);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_WRITEPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_DATAPORT, value);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	} else {
1.35   msaitoh 		bus_space_write_2(sc->bt, sc->bh, offset, value);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, offset, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	}
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.31       dsl ix_write_24 (struct ie_softc *sc, int offset, int addr)
 1.1        pk {
1.36   msaitoh 	char *ptr;
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
1.36   msaitoh 	int val = addr + (u_long)sc->sc_maddr - (u_long)sc->sc_iobase;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		/* Reset write pointer to the specified offset */
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_WRITEPTR, offset);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_WRITEPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.36   msaitoh 		ptr = (char*)&val;
1.21     perry 		bus_space_write_2(sc->bt, sc->bh, IX_DATAPORT,
1.36   msaitoh 		    *((uint16_t *)ptr));
1.21     perry 		bus_space_write_2(sc->bt, sc->bh, IX_DATAPORT,
1.36   msaitoh 		    *((uint16_t *)(ptr + 2)));
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	} else {
 1.8     bjh21         	bus_space_write_4(sc->bt, sc->bh, offset, val);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, offset, 4,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	}
 1.8     bjh21 }
 1.8     bjh21
 1.8     bjh21 static void
1.31       dsl ix_zeromem(struct ie_softc *sc, int offset, int count)
 1.8     bjh21 {
 1.8     bjh21 	int i;
 1.8     bjh21 	int dribble;
1.36   msaitoh 	struct ix_softc *isc = (struct ix_softc *)sc;
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		/* Reset write pointer to the specified offset */
 1.8     bjh21 		bus_space_write_2(sc->bt, sc->bh, IX_WRITEPTR, offset);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_WRITEPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.8     bjh21 		if (offset % 2) {
 1.8     bjh21 			bus_space_write_1(sc->bt, sc->bh, IX_DATAPORT, 0);
 1.8     bjh21 			count--;
 1.8     bjh21 		}
 1.8     bjh21
 1.8     bjh21 	        dribble = count % 2;
1.36   msaitoh 		for (i = 0; i < count / 2; i++)
 1.8     bjh21 			bus_space_write_2(sc->bt, sc->bh, IX_DATAPORT, 0);
 1.8     bjh21
 1.8     bjh21 		if (dribble)
 1.8     bjh21 			bus_space_write_1(sc->bt, sc->bh, IX_DATAPORT, 0);
 1.8     bjh21
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, IX_DATAPORT, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	} else {
 1.8     bjh21 		bus_space_set_region_1(sc->bt, sc->bh, offset, 0, count);
1.21     perry 		bus_space_barrier(sc->bt, sc->bh, offset, count,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21 	}
 1.1        pk }
 1.1        pk
 1.1        pk static void
1.30       dsl ix_mediastatus(struct ie_softc *sc, struct ifmediareq *ifmr)
 1.1        pk {
 1.1        pk         struct ifmedia *ifm = &sc->sc_media;
 1.1        pk
1.36   msaitoh         /* The currently selected media is always the active media. */
 1.1        pk         ifmr->ifm_active = ifm->ifm_cur->ifm_media;
 1.1        pk }
 1.1        pk
 1.1        pk int
1.33    cegger ix_match(device_t parent, cfdata_t cf, void *aux)
 1.1        pk {
 1.2        pk 	int i;
 1.2        pk 	int rv = 0;
 1.2        pk 	bus_addr_t maddr;
1.22  christos 	bus_size_t msiz;
 1.2        pk 	u_short checksum = 0;
 1.2        pk 	bus_space_handle_t ioh;
 1.3        pk 	bus_space_tag_t iot;
1.36   msaitoh 	uint8_t val, bart_config;
1.36   msaitoh 	uint16_t pg, adjust, decode, edecode;
1.36   msaitoh 	uint16_t board_id, id_var1, id_var2, irq, irq_encoded;
 1.2        pk 	struct isa_attach_args * const ia = aux;
 1.2        pk 	short irq_translate[] = {0, 0x09, 0x03, 0x04, 0x05, 0x0a, 0x0b, 0};
 1.2        pk
1.13   thorpej 	if (ia->ia_nio < 1)
1.36   msaitoh 		return 0;
1.13   thorpej 	if (ia->ia_niomem < 1)
1.36   msaitoh 		return 0;
1.13   thorpej 	if (ia->ia_nirq < 1)
1.36   msaitoh 		return 0;
1.13   thorpej
1.13   thorpej 	if (ISA_DIRECT_CONFIG(ia))
1.36   msaitoh 		return 0;
1.13   thorpej
 1.3        pk 	iot = ia->ia_iot;
 1.3        pk
1.19  drochner 	if (ia->ia_io[0].ir_addr == ISA_UNKNOWN_PORT)
1.36   msaitoh 		return 0;
1.13   thorpej
1.13   thorpej 	if (bus_space_map(iot, ia->ia_io[0].ir_addr,
1.37   msaitoh 	    IX_IOSIZE, 0, &ioh) != 0) {
1.37   msaitoh 		DPRINTF(("Can't map io space at 0x%x\n",
1.37   msaitoh 			ia->ia_io[0].ir_addr));
1.36   msaitoh 		return 0;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	/* XXX: reset any ee16 at the current iobase */
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, IX_RESET_ASIC);
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, 0);
 1.2        pk 	delay(240);
 1.2        pk
1.36   msaitoh 	/* Now look for ee16. */
 1.2        pk 	board_id = id_var1 = id_var2 = 0;
 1.2        pk 	for (i = 0; i < 4 ; i++) {
 1.3        pk 		id_var1 = bus_space_read_1(iot, ioh, IX_ID_PORT);
 1.2        pk 		id_var2 = ((id_var1 & 0x03) << 2);
 1.2        pk 		board_id |= (( id_var1 >> 4)  << id_var2);
 1.2        pk 	}
 1.2        pk
 1.2        pk 	if (board_id != IX_ID) {
 1.2        pk 		DPRINTF(("BART ID mismatch (got 0x%04x, expected 0x%04x)\n",
 1.2        pk 			board_id, IX_ID));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	/*
 1.2        pk 	 * The shared RAM size and location of the EE16 is encoded into
 1.2        pk 	 * EEPROM location 6.  The location of the first set bit tells us
 1.2        pk 	 * the memory address (0xc0000 + (0x4000 * FSB)), where FSB is the
 1.2        pk 	 * number of the first set bit.  The zeroes are then shifted out,
 1.2        pk 	 * and the results is the memory size (1 = 16k, 3 = 32k, 7 = 48k,
 1.2        pk 	 * 0x0f = 64k).
 1.2        pk 	 *
 1.2        pk 	 * Examples:
 1.2        pk 	 *   0x3c -> 64k@0xc8000, 0x70 -> 48k@0xd0000, 0xc0 -> 32k@0xd8000
 1.2        pk 	 *   0x80 -> 16k@0xdc000.
 1.2        pk 	 *
 1.2        pk 	 * Side note: this comes from reading the old driver rather than
 1.2        pk 	 * from a more definitive source, so it could be out-of-whack
 1.2        pk 	 * with what the card can do...
 1.2        pk 	 */
 1.2        pk
 1.3        pk 	val = ix_read_eeprom(iot, ioh, 6) & 0xff;
1.18   mycroft 	for (pg = 0; pg < 8; pg++) {
 1.2        pk 		if (val & 1)
 1.2        pk 			break;
1.18   mycroft 		val >>= 1;
 1.2        pk 	}
 1.2        pk
 1.8     bjh21 	maddr = 0xc0000 + (pg * 0x4000);
 1.2        pk
 1.2        pk 	switch (val) {
 1.8     bjh21 	case 0x00:
1.18   mycroft 		maddr = 0;
1.22  christos 		msiz = 0;
 1.8     bjh21 		break;
 1.8     bjh21
 1.2        pk 	case 0x01:
1.22  christos 		msiz = 16 * 1024;
 1.2        pk 		break;
 1.2        pk
 1.2        pk 	case 0x03:
1.22  christos 		msiz = 32 * 1024;
 1.2        pk 		break;
 1.2        pk
 1.2        pk 	case 0x07:
1.22  christos 		msiz = 48 * 1024;
 1.2        pk 		break;
 1.2        pk
 1.2        pk 	case 0x0f:
1.22  christos 		msiz = 64 * 1024;
 1.2        pk 		break;
 1.2        pk
 1.2        pk 	default:
 1.2        pk 		DPRINTF(("invalid memory size %02x\n", val));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
1.19  drochner 	if (ia->ia_iomem[0].ir_addr != ISA_UNKNOWN_IOMEM &&
1.13   thorpej 	    ia->ia_iomem[0].ir_addr != maddr) {
 1.2        pk 		DPRINTF((
 1.2        pk 		  "ix_match: memaddr of board @ 0x%x doesn't match config\n",
1.37   msaitoh 		  ia->ia_iomem[0].ir_addr));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
1.19  drochner 	if (ia->ia_iomem[0].ir_size != ISA_UNKNOWN_IOSIZ &&
1.22  christos 	    ia->ia_iomem[0].ir_size != msiz) {
 1.2        pk 		DPRINTF((
 1.2        pk 		   "ix_match: memsize of board @ 0x%x doesn't match config\n",
1.37   msaitoh 		   ia->ia_iomem[0].ir_addr));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
1.36   msaitoh 	/* Need to put the 586 in RESET, and leave it */
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, IX_RESET_586);
 1.2        pk
1.36   msaitoh 	/* Read the eeprom and checksum it, should == IX_ID */
1.36   msaitoh 	for (i = 0; i < 0x40; i++)
 1.3        pk 		checksum += ix_read_eeprom(iot, ioh, i);
 1.2        pk
 1.2        pk 	if (checksum != IX_ID) {
 1.2        pk 		DPRINTF(("checksum mismatch (got 0x%04x, expected 0x%04x\n",
 1.2        pk 			checksum, IX_ID));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	/*
1.21     perry 	 * Only do the following bit if using memory-mapped access.  For
 1.8     bjh21 	 * boards with no mapped memory, we use PIO.  We also use PIO for
 1.8     bjh21 	 * boards with 16K of mapped memory, as those setups don't seem
 1.8     bjh21 	 * to work otherwise.
 1.2        pk 	 */
1.22  christos 	if (msiz != 0 && msiz != 16384) {
 1.8     bjh21 		/* Set board up with memory-mapping info */
 1.2        pk 	adjust = IX_MCTRL_FMCS16 | (pg & 0x3) << 2;
1.13   thorpej 	decode = ((1 << (ia->ia_iomem[0].ir_size / 16384)) - 1) << pg;
 1.2        pk 	edecode = ((~decode >> 4) & 0xF0) | (decode >> 8);
 1.2        pk
 1.3        pk 	bus_space_write_1(iot, ioh, IX_MEMDEC, decode & 0xFF);
 1.3        pk 	bus_space_write_1(iot, ioh, IX_MCTRL, adjust);
 1.3        pk 	bus_space_write_1(iot, ioh, IX_MPCTRL, (~decode & 0xFF));
 1.2        pk
 1.8     bjh21 		/* XXX disable Exxx */
1.21     perry 		bus_space_write_1(iot, ioh, IX_MECTRL, edecode);
 1.8     bjh21 	}
 1.2        pk
 1.2        pk 	/*
 1.2        pk 	 * Get the encoded interrupt number from the EEPROM, check it
 1.2        pk 	 * against the passed in IRQ.  Issue a warning if they do not
1.19  drochner 	 * match, and fail the probe.  If irq is 'ISA_UNKNOWN_IRQ' then we
 1.2        pk 	 * use the EEPROM irq, and continue.
 1.2        pk 	 */
 1.3        pk 	irq_encoded = ix_read_eeprom(iot, ioh, IX_EEPROM_CONFIG1);
 1.3        pk 	irq_encoded = (irq_encoded & IX_EEPROM_IRQ) >> IX_EEPROM_IRQ_SHIFT;
 1.3        pk 	irq = irq_translate[irq_encoded];
1.19  drochner 	if (ia->ia_irq[0].ir_irq != ISA_UNKNOWN_IRQ &&
1.13   thorpej 	    irq != ia->ia_irq[0].ir_irq) {
 1.2        pk 		DPRINTF(("board IRQ %d does not match config\n", irq));
 1.2        pk 		goto out;
 1.2        pk 	}
 1.2        pk
1.36   msaitoh 	/* Disable the board interrupts */
 1.3        pk 	bus_space_write_1(iot, ioh, IX_IRQ, irq_encoded);
 1.2        pk
 1.3        pk 	bart_config = bus_space_read_1(iot, ioh, IX_CONFIG);
 1.2        pk 	bart_config |= IX_BART_LOOPBACK;
 1.2        pk 	bart_config |= IX_BART_MCS16_TEST; /* inb doesn't get bit! */
 1.3        pk 	bus_space_write_1(iot, ioh, IX_CONFIG, bart_config);
 1.3        pk 	bart_config = bus_space_read_1(iot, ioh, IX_CONFIG);
 1.2        pk
 1.3        pk 	bus_space_write_1(iot, ioh, IX_ECTRL, 0);
 1.2        pk 	delay(100);
 1.2        pk
 1.2        pk 	rv = 1;
1.13   thorpej
1.13   thorpej 	ia->ia_nio = 1;
1.13   thorpej 	ia->ia_io[0].ir_size = IX_IOSIZE;
1.13   thorpej
1.13   thorpej 	ia->ia_niomem = 1;
1.13   thorpej 	ia->ia_iomem[0].ir_addr = maddr;
1.22  christos 	ia->ia_iomem[0].ir_size = msiz;
1.13   thorpej
1.13   thorpej 	ia->ia_nirq = 1;
1.13   thorpej 	ia->ia_irq[0].ir_irq = irq;
1.13   thorpej
1.37   msaitoh 	DPRINTF(("ix_match: found board @ 0x%x\n", ia->ia_iomem[0].ir_addr));
 1.1        pk
 1.1        pk out:
 1.3        pk 	bus_space_unmap(iot, ioh, IX_IOSIZE);
1.36   msaitoh 	return rv;
 1.1        pk }
 1.1        pk
1.36   msaitoh static void
1.33    cegger ix_attach(device_t parent, device_t self, void *aux)
 1.2        pk {
1.34   tsutsui 	struct ix_softc *isc = device_private(self);
 1.2        pk 	struct ie_softc *sc = &isc->sc_ie;
 1.2        pk 	struct isa_attach_args *ia = aux;
 1.2        pk
 1.2        pk 	int media;
 1.8     bjh21 	int i, memsize;
1.36   msaitoh 	uint8_t bart_config;
 1.3        pk 	bus_space_tag_t iot;
1.36   msaitoh 	uint8_t bpat, bval;
1.36   msaitoh 	uint16_t wpat, wval;
 1.2        pk 	bus_space_handle_t ioh, memh;
1.36   msaitoh 	uint16_t irq_encoded;
1.36   msaitoh 	uint8_t ethaddr[ETHER_ADDR_LEN];
 1.2        pk
1.34   tsutsui 	sc->sc_dev = self;
 1.3        pk 	iot = ia->ia_iot;
 1.3        pk
1.21     perry 	/*
 1.8     bjh21 	 * Shared memory access seems to fail on 16K mapped boards, so
1.21     perry 	 * disable shared memory access if the board is in 16K mode.  If
 1.8     bjh21 	 * no memory is mapped, we have no choice but to use PIO
 1.8     bjh21 	 */
1.13   thorpej 	isc->use_pio = (ia->ia_iomem[0].ir_size <= (16 * 1024));
 1.8     bjh21
1.13   thorpej 	if (bus_space_map(iot, ia->ia_io[0].ir_addr,
1.36   msaitoh 	    ia->ia_io[0].ir_size, 0, &ioh) != 0) {
 1.2        pk
 1.2        pk 		DPRINTF(("\n%s: can't map i/o space 0x%x-0x%x\n",
1.37   msaitoh 			  device_xname(self), ia->ia_io[0].ir_addr,
1.13   thorpej 			  ia->ia_io[0].ir_addr + ia->ia_io[0].ir_size - 1));
 1.2        pk 		return;
 1.2        pk 	}
 1.2        pk
 1.8     bjh21 	/* We map memory even if using PIO so something else doesn't grab it */
1.13   thorpej 	if (ia->ia_iomem[0].ir_size) {
1.36   msaitoh 		if (bus_space_map(ia->ia_memt, ia->ia_iomem[0].ir_addr,
1.36   msaitoh 		    ia->ia_iomem[0].ir_size, 0, &memh) != 0) {
1.36   msaitoh 			DPRINTF(("\n%s: can't map iomem space 0x%x-0x%x\n",
1.36   msaitoh 				device_xname(self), ia->ia_iomem[0].ir_addr,
1.36   msaitoh 				ia->ia_iomem[0].ir_addr
1.36   msaitoh 				+ ia->ia_iomem[0].ir_size - 1));
1.36   msaitoh 			bus_space_unmap(iot, ioh, ia->ia_io[0].ir_size);
1.36   msaitoh 			return;
1.36   msaitoh 		}
 1.8     bjh21 	}
 1.2        pk
 1.3        pk 	isc->sc_regt = iot;
 1.2        pk 	isc->sc_regh = ioh;
 1.2        pk
 1.2        pk 	/*
 1.2        pk 	 * Get the hardware ethernet address from the EEPROM and
 1.2        pk 	 * save it in the softc for use by the 586 setup code.
 1.2        pk 	 */
 1.8     bjh21 	wval = ix_read_eeprom(iot, ioh, IX_EEPROM_ENET_HIGH);
 1.8     bjh21 	ethaddr[1] = wval & 0xFF;
 1.8     bjh21 	ethaddr[0] = wval >> 8;
 1.8     bjh21 	wval = ix_read_eeprom(iot, ioh, IX_EEPROM_ENET_MID);
 1.8     bjh21 	ethaddr[3] = wval & 0xFF;
 1.8     bjh21 	ethaddr[2] = wval >> 8;
 1.8     bjh21 	wval = ix_read_eeprom(iot, ioh, IX_EEPROM_ENET_LOW);
 1.8     bjh21 	ethaddr[5] = wval & 0xFF;
 1.8     bjh21 	ethaddr[4] = wval >> 8;
 1.2        pk
 1.2        pk 	sc->hwinit = NULL;
 1.2        pk 	sc->hwreset = ix_reset;
 1.2        pk 	sc->chan_attn = ix_atten;
 1.2        pk 	sc->intrhook = ix_intrhook;
 1.2        pk
 1.2        pk 	sc->memcopyin = ix_copyin;
 1.2        pk 	sc->memcopyout = ix_copyout;
 1.8     bjh21
 1.8     bjh21 	/* If using PIO, make sure to setup single-byte read/write functions */
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		sc->ie_bus_barrier = ix_bus_barrier;
 1.8     bjh21 	} else {
 1.8     bjh21 		sc->ie_bus_barrier = NULL;
 1.8     bjh21 	}
 1.8     bjh21
 1.2        pk 	sc->ie_bus_read16 = ix_read_16;
 1.2        pk 	sc->ie_bus_write16 = ix_write_16;
 1.2        pk 	sc->ie_bus_write24 = ix_write_24;
 1.2        pk
 1.2        pk 	sc->do_xmitnopchain = 0;
 1.2        pk
 1.2        pk 	sc->sc_mediachange = NULL;
 1.2        pk 	sc->sc_mediastatus = ix_mediastatus;
 1.2        pk
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		sc->bt = iot;
 1.8     bjh21 		sc->bh = ioh;
 1.8     bjh21
1.21     perry 		/*
1.21     perry 		 * If using PIO, the memory size is bounded by on-card memory,
1.21     perry 		 * not by how much is mapped into the memory-mapped region, so
1.21     perry 		 * determine how much total memory we have to play with here.
 1.8     bjh21 		 */
1.36   msaitoh 		for (memsize = 64 * 1024; memsize; memsize -= 16 * 1024) {
 1.8     bjh21 			/* warm up shared memory, the zero it all out */
 1.8     bjh21 			ix_zeromem(sc, 0, 32);
 1.8     bjh21 			ix_zeromem(sc, 0, memsize);
 1.8     bjh21
 1.8     bjh21 			/* Reset write pointer to the start of RAM */
 1.8     bjh21 			bus_space_write_2(iot, ioh, IX_WRITEPTR, 0);
1.21     perry 			bus_space_barrier(iot, ioh, IX_WRITEPTR, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.36   msaitoh 			/* Write test pattern */
1.36   msaitoh 			for (i = 0, wpat = 1; i < memsize; i += 2) {
 1.8     bjh21 				bus_space_write_2(iot, ioh, IX_DATAPORT, wpat);
 1.8     bjh21 				wpat += 3;
 1.8     bjh21 			}
 1.8     bjh21
 1.8     bjh21 			/* Flush all reads & writes to data port */
1.21     perry 			bus_space_barrier(iot, ioh, IX_DATAPORT, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_READ | BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.8     bjh21 			/* Reset read pointer to beginning of card RAM */
 1.8     bjh21 			bus_space_write_2(iot, ioh, IX_READPTR, 0);
1.21     perry 			bus_space_barrier(iot, ioh, IX_READPTR, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.36   msaitoh 			/* Read and verify test pattern */
1.36   msaitoh 			for (i = 0, wpat = 1; i < memsize; i += 2) {
 1.8     bjh21 				wval = bus_space_read_2(iot, ioh, IX_DATAPORT);
 1.8     bjh21
 1.8     bjh21 				if (wval != wpat)
 1.8     bjh21 					break;
 1.8     bjh21
 1.8     bjh21 				wpat += 3;
 1.8     bjh21 			}
 1.8     bjh21
 1.8     bjh21 			/* If we failed, try next size down */
 1.8     bjh21 			if (i != memsize)
 1.8     bjh21 				continue;
 1.8     bjh21
 1.8     bjh21 			/* Now try it all with byte reads/writes */
 1.8     bjh21 			ix_zeromem(sc, 0, 32);
 1.8     bjh21 			ix_zeromem(sc, 0, memsize);
 1.8     bjh21
 1.8     bjh21 			/* Reset write pointer to start of card RAM */
 1.8     bjh21 			bus_space_write_2(iot, ioh, IX_WRITEPTR, 0);
1.21     perry 			bus_space_barrier(iot, ioh, IX_WRITEPTR, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.36   msaitoh 			/* Write out test pattern */
1.36   msaitoh 			for (i = 0, bpat = 1; i < memsize; i++) {
 1.8     bjh21 				bus_space_write_1(iot, ioh, IX_DATAPORT, bpat);
 1.8     bjh21 				bpat += 3;
 1.8     bjh21 			}
 1.8     bjh21
 1.8     bjh21 			/* Flush all reads & writes to data port */
1.21     perry 			bus_space_barrier(iot, ioh, IX_DATAPORT, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_READ | BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.8     bjh21 			/* Reset read pointer to beginning of card RAM */
 1.8     bjh21 			bus_space_write_2(iot, ioh, IX_READPTR, 0);
1.21     perry 			bus_space_barrier(iot, ioh, IX_READPTR, 2,
1.36   msaitoh 			    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.36   msaitoh 			/* Read and verify test pattern */
1.36   msaitoh 			for (i = 0, bpat = 1; i < memsize; i++) {
 1.8     bjh21 				bval = bus_space_read_1(iot, ioh, IX_DATAPORT);
 1.8     bjh21
 1.8     bjh21 				if (bval != bpat)
 1.8     bjh21 				bpat += 3;
 1.8     bjh21 			}
 1.8     bjh21
1.21     perry 			/* If we got through all of memory, we're done! */
 1.8     bjh21 			if (i == memsize)
 1.8     bjh21 				break;
 1.8     bjh21 		}
 1.8     bjh21
 1.8     bjh21 		/* Memory tests failed, punt... */
 1.8     bjh21 		if (memsize == 0)  {
 1.8     bjh21 			DPRINTF(("\n%s: can't determine size of on-card RAM\n",
1.34   tsutsui 				device_xname(self)));
1.13   thorpej 			bus_space_unmap(iot, ioh, ia->ia_io[0].ir_size);
 1.8     bjh21 			return;
 1.8     bjh21 		}
 1.8     bjh21
 1.8     bjh21 		sc->bt = iot;
 1.8     bjh21 		sc->bh = ioh;
 1.8     bjh21
 1.8     bjh21 		sc->sc_msize = memsize;
1.36   msaitoh 		sc->sc_maddr = (void*)0;
 1.8     bjh21 	} else {
1.35   msaitoh 		sc->bt = ia->ia_memt;
1.35   msaitoh 		sc->bh = memh;
 1.2        pk
1.35   msaitoh 		sc->sc_msize = ia->ia_iomem[0].ir_size;
1.35   msaitoh 		sc->sc_maddr = (void *)memh;
 1.8     bjh21 	}
 1.8     bjh21
 1.8     bjh21 	/* Map i/o space. */
 1.6  augustss 	sc->sc_iobase = (char *)sc->sc_maddr + sc->sc_msize - (1 << 24);
 1.2        pk
1.36   msaitoh 	/* Set up pointers to important on-card control structures */
 1.2        pk 	sc->iscp = 0;
 1.2        pk 	sc->scb = IE_ISCP_SZ;
 1.2        pk 	sc->scp = sc->sc_msize + IE_SCP_ADDR - (1 << 24);
 1.2        pk
 1.2        pk 	sc->buf_area = sc->scb + IE_SCB_SZ;
 1.2        pk 	sc->buf_area_sz = sc->sc_msize - IE_ISCP_SZ - IE_SCB_SZ - IE_SCP_SZ;
 1.2        pk
1.36   msaitoh 	/* Zero card memory */
 1.8     bjh21 	ix_zeromem(sc, 0, 32);
 1.8     bjh21 	ix_zeromem(sc, 0, sc->sc_msize);
 1.2        pk
1.36   msaitoh 	/* Set card to 16-bit bus mode */
 1.8     bjh21 	if (isc->use_pio) {
1.21     perry 		bus_space_write_2(sc->bt, sc->bh, IX_WRITEPTR,
1.36   msaitoh 		    IE_SCP_BUS_USE((u_long)sc->scp));
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, IX_WRITEPTR, 2,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
1.11  fredette 		bus_space_write_1(sc->bt, sc->bh, IX_DATAPORT,
1.36   msaitoh 		    IE_SYSBUS_16BIT);
1.36   msaitoh 	} else
1.21     perry 		bus_space_write_1(sc->bt, sc->bh,
1.36   msaitoh 		    IE_SCP_BUS_USE((u_long)sc->scp), IE_SYSBUS_16BIT);
 1.2        pk
1.36   msaitoh 	/* Set up pointers to key structures */
1.36   msaitoh 	ix_write_24(sc, IE_SCP_ISCP((u_long)sc->scp), (u_long)sc->iscp);
1.36   msaitoh 	ix_write_16(sc, IE_ISCP_SCB((u_long)sc->iscp), (u_long)sc->scb);
1.36   msaitoh 	ix_write_24(sc, IE_ISCP_BASE((u_long)sc->iscp), (u_long)sc->iscp);
 1.2        pk
1.36   msaitoh 	/* Flush setup of pointers, check if chip answers */
 1.8     bjh21 	if (isc->use_pio) {
 1.8     bjh21 		bus_space_barrier(sc->bt, sc->bh, 0, IX_IOSIZE,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
1.36   msaitoh 	} else
1.35   msaitoh 		bus_space_barrier(sc->bt, sc->bh, 0, sc->sc_msize,
1.36   msaitoh 		    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.2        pk 	if (!i82586_proberam(sc)) {
 1.2        pk 		DPRINTF(("\n%s: Can't talk to i82586!\n",
1.34   tsutsui 			device_xname(self)));
1.13   thorpej 		bus_space_unmap(iot, ioh, ia->ia_io[0].ir_size);
 1.8     bjh21
1.13   thorpej 		if (ia->ia_iomem[0].ir_size)
1.35   msaitoh 			bus_space_unmap(ia->ia_memt, memh,
1.35   msaitoh 			    ia->ia_iomem[0].ir_size);
 1.2        pk 		return;
 1.2        pk 	}
 1.2        pk
 1.2        pk 	/* Figure out which media is being used... */
 1.3        pk 	if (ix_read_eeprom(iot, ioh, IX_EEPROM_CONFIG1) &
1.36   msaitoh 	    IX_EEPROM_MEDIA_EXT) {
 1.3        pk 		if (ix_read_eeprom(iot, ioh, IX_EEPROM_MEDIA) &
 1.3        pk 				IX_EEPROM_MEDIA_TP)
 1.2        pk 			media = IFM_ETHER | IFM_10_T;
 1.2        pk 		else
 1.2        pk 			media = IFM_ETHER | IFM_10_2;
 1.2        pk 	} else
 1.2        pk 		media = IFM_ETHER | IFM_10_5;
 1.2        pk
 1.2        pk 	/* Take the card out of lookback */
 1.3        pk 	bart_config = bus_space_read_1(iot, ioh, IX_CONFIG);
 1.2        pk 	bart_config &= ~IX_BART_LOOPBACK;
 1.2        pk 	bart_config |= IX_BART_MCS16_TEST; /* inb doesn't get bit! */
 1.3        pk 	bus_space_write_1(iot, ioh, IX_CONFIG, bart_config);
 1.3        pk 	bart_config = bus_space_read_1(iot, ioh, IX_CONFIG);
 1.3        pk
1.36   msaitoh 	irq_encoded = ix_read_eeprom(iot, ioh, IX_EEPROM_CONFIG1);
 1.3        pk 	irq_encoded = (irq_encoded & IX_EEPROM_IRQ) >> IX_EEPROM_IRQ_SHIFT;
 1.2        pk
 1.2        pk 	/* Enable interrupts */
1.36   msaitoh 	bus_space_write_1(iot, ioh, IX_IRQ, irq_encoded | IX_IRQ_ENABLE);
 1.3        pk
 1.8     bjh21 	/* Flush all writes to registers */
1.13   thorpej 	bus_space_barrier(iot, ioh, 0, ia->ia_io[0].ir_size,
1.13   thorpej 	    BUS_SPACE_BARRIER_WRITE);
 1.8     bjh21
 1.3        pk 	isc->irq_encoded = irq_encoded;
 1.2        pk
 1.2        pk 	i82586_attach(sc, "EtherExpress/16", ethaddr,
1.36   msaitoh 	    ix_media, NIX_MEDIA, media);
 1.8     bjh21
 1.8     bjh21 	if (isc->use_pio)
1.35   msaitoh 		aprint_error_dev(self, "unsupported memory config, using PIO "
1.35   msaitoh 		    "to access %d bytes of memory\n", sc->sc_msize);
 1.2        pk
1.13   thorpej 	isc->sc_ih = isa_intr_establish(ia->ia_ic, ia->ia_irq[0].ir_irq,
1.13   thorpej 	    IST_EDGE, IPL_NET, i82586_intr, sc);
1.24  christos 	if (isc->sc_ih == NULL) {
 1.2        pk 		DPRINTF(("\n%s: can't establish interrupt\n",
1.34   tsutsui 			device_xname(self)));
1.24  christos 	}
 1.1        pk }
 1.1        pk
1.34   tsutsui CFATTACH_DECL_NEW(ix, sizeof(struct ix_softc),
1.17   thorpej     ix_match, ix_attach, NULL, NULL);