sun2/dev/if_ie_mbmem.c

1.8       chs /*	$NetBSD: if_ie_mbmem.c,v 1.8 2005/01/22 15:36:09 chs Exp $	*/
1.1  fredette
1.1  fredette /*-
1.1  fredette  * Copyright (c) 1995 Charles D. Cranor
1.1  fredette  * All rights reserved.
1.1  fredette  *
1.1  fredette  * Redistribution and use in source and binary forms, with or without
1.1  fredette  * modification, are permitted provided that the following conditions
1.1  fredette  * are met:
1.1  fredette  * 1. Redistributions of source code must retain the above copyright
1.1  fredette  *    notice, this list of conditions and the following disclaimer.
1.1  fredette  * 2. Redistributions in binary form must reproduce the above copyright
1.1  fredette  *    notice, this list of conditions and the following disclaimer in the
1.1  fredette  *    documentation and/or other materials provided with the distribution.
1.1  fredette  * 3. All advertising materials mentioning features or use of this software
1.1  fredette  *    must display the following acknowledgement:
1.1  fredette  *      This product includes software developed by Charles D. Cranor.
1.1  fredette  * 4. The name of the author may not be used to endorse or promote products
1.1  fredette  *    derived from this software without specific prior written permission.
1.1  fredette  *
1.1  fredette  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  fredette  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  fredette  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  fredette  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  fredette  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1  fredette  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  fredette  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  fredette  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  fredette  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.1  fredette  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  fredette  */
1.1  fredette
1.1  fredette /*
1.1  fredette  * Converted to SUN ie driver by Charles D. Cranor,
1.1  fredette  *		October 1994, January 1995.
1.1  fredette  */
1.1  fredette
1.1  fredette /*
1.1  fredette  * The i82586 is a very painful chip, found in sun2's, sun3's, sun-4/100's
1.1  fredette  * sun-4/200's, and VME based suns.  The byte order is all wrong for a
1.1  fredette  * SUN, making life difficult.  Programming this chip is mostly the same,
1.1  fredette  * but certain details differ from system to system.  This driver is
1.1  fredette  * written so that different "ie" interfaces can be controled by the same
1.1  fredette  * driver.
1.1  fredette  */
1.1  fredette
1.1  fredette /*
1.1  fredette  * programming notes:
1.1  fredette  *
1.1  fredette  * the ie chip operates in a 24 bit address space.
1.1  fredette  *
1.1  fredette  * most ie interfaces appear to be divided into two parts:
1.1  fredette  *	 - generic 586 stuff
1.1  fredette  *	 - board specific
1.1  fredette  *
1.1  fredette  * generic:
1.1  fredette  *	the generic stuff of the ie chip is all done with data structures
1.1  fredette  * 	that live in the chip's memory address space.   the chip expects
1.1  fredette  * 	its main data structure (the sys conf ptr -- SCP) to be at a fixed
1.1  fredette  * 	address in its 24 bit space: 0xfffff4
1.1  fredette  *
1.1  fredette  *      the SCP points to another structure called the ISCP.
1.1  fredette  *      the ISCP points to another structure called the SCB.
1.1  fredette  * 	the SCB has a status field, a linked list of "commands", and
1.1  fredette  * 	a linked list of "receive buffers".   these are data structures that
1.1  fredette  * 	live in memory, not registers.
1.1  fredette  *
1.1  fredette  * board:
1.1  fredette  * 	to get the chip to do anything, you first put a command in the
1.1  fredette  * 	command data structure list.   then you have to signal "attention"
1.1  fredette  * 	to the chip to get it to look at the command.   how you
1.1  fredette  * 	signal attention depends on what board you have... on PC's
1.1  fredette  * 	there is an i/o port number to do this, on sun's there is a
1.1  fredette  * 	register bit you toggle.
1.1  fredette  *
1.1  fredette  * 	to get data from the chip you program it to interrupt...
1.1  fredette  *
1.1  fredette  *
1.1  fredette  * sun issues:
1.1  fredette  *
1.1  fredette  *      there are 3 kinds of sun "ie" interfaces:
1.1  fredette  *        1 - a VME/multibus card
1.1  fredette  *        2 - an on-board interface (sun3's, sun-4/100's, and sun-4/200's)
1.1  fredette  *        3 - another VME board called the 3E
1.1  fredette  *
1.1  fredette  * 	the VME boards lives in vme16 space.   only 16 and 8 bit accesses
1.1  fredette  * 	are allowed, so functions that copy data must be aware of this.
1.1  fredette  *
1.1  fredette  * 	the chip is an intel chip.  this means that the byte order
1.1  fredette  * 	on all the "short"s in the chip's data structures is wrong.
1.1  fredette  * 	so, constants described in the intel docs are swapped for the sun.
1.1  fredette  * 	that means that any buffer pointers you give the chip must be
1.1  fredette  * 	swapped to intel format.   yuck.
1.1  fredette  *
1.1  fredette  *   VME/multibus interface:
1.1  fredette  * 	for the multibus interface the board ignores the top 4 bits
1.1  fredette  * 	of the chip address.   the multibus interface has its own
1.1  fredette  * 	MMU like page map (without protections or valid bits, etc).
1.1  fredette  * 	there are 256 pages of physical memory on the board (each page
1.1  fredette  * 	is 1024 bytes).   There are 1024 slots in the page map.  so,
1.1  fredette  * 	a 1024 byte page takes up 10 bits of address for the offset,
1.1  fredette  * 	and if there are 1024 slots in the page that is another 10 bits
1.1  fredette  * 	of the address.   That makes a 20 bit address, and as stated
1.1  fredette  * 	earlier the board ignores the top 4 bits, so that accounts
1.1  fredette  * 	for all 24 bits of address.
1.1  fredette  *
1.1  fredette  * 	Note that the last entry of the page map maps the top of the
1.1  fredette  * 	24 bit address space and that the SCP is supposed to be at
1.1  fredette  * 	0xfffff4 (taking into account allignment).   so,
1.1  fredette  *	for multibus, that entry in the page map has to be used for the SCP.
1.1  fredette  *
1.1  fredette  * 	The page map effects BOTH how the ie chip sees the
1.1  fredette  * 	memory, and how the host sees it.
1.1  fredette  *
1.1  fredette  * 	The page map is part of the "register" area of the board
1.1  fredette  *
1.1  fredette  *	The page map to control where ram appears in the address space.
1.1  fredette  *	We choose to have RAM start at 0 in the 24 bit address space.
1.1  fredette  *
1.1  fredette  *	to get the phyiscal address of the board's RAM you must take the
1.1  fredette  *	top 12 bits of the physical address of the register address and
1.1  fredette  *	or in the 4 bits from the status word as bits 17-20 (remember that
1.1  fredette  *	the board ignores the chip's top 4 address lines). For example:
1.1  fredette  *	if the register is @ 0xffe88000, then the top 12 bits are 0xffe00000.
1.1  fredette  *	to get the 4 bits from the status word just do status & IEMBMEM_HADDR.
1.1  fredette  *	suppose the value is "4".   Then just shift it left 16 bits to get
1.1  fredette  *	it into bits 17-20 (e.g. 0x40000).    Then or it to get the
1.1  fredette  *	address of RAM (in our example: 0xffe40000).   see the attach routine!
1.1  fredette  *
1.1  fredette  *
1.1  fredette  *   on-board interface:
1.1  fredette  *
1.1  fredette  *	on the onboard ie interface the 24 bit address space is hardwired
1.1  fredette  *	to be 0xff000000 -> 0xffffffff of KVA.   this means that sc_iobase
1.1  fredette  *	will be 0xff000000.   sc_maddr will be where ever we allocate RAM
1.1  fredette  *	in KVA.    note that since the SCP is at a fixed address it means
1.1  fredette  *	that we have to allocate a fixed KVA for the SCP.
1.1  fredette  *	<fill in useful info later>
1.1  fredette  *
1.1  fredette  *
1.1  fredette  *   VME3E interface:
1.1  fredette  *
1.1  fredette  *	<fill in useful info later>
1.1  fredette  *
1.1  fredette  */
1.7     lukem
1.7     lukem #include <sys/cdefs.h>
1.8       chs __KERNEL_RCSID(0, "$NetBSD: if_ie_mbmem.c,v 1.8 2005/01/22 15:36:09 chs Exp $");
1.1  fredette
1.1  fredette #include <sys/param.h>
1.1  fredette #include <sys/systm.h>
1.1  fredette #include <sys/errno.h>
1.1  fredette #include <sys/device.h>
1.1  fredette #include <sys/protosw.h>
1.1  fredette #include <sys/socket.h>
1.1  fredette
1.1  fredette #include <net/if.h>
1.1  fredette #include <net/if_types.h>
1.1  fredette #include <net/if_dl.h>
1.1  fredette #include <net/if_media.h>
1.1  fredette #include <net/if_ether.h>
1.1  fredette
1.1  fredette #include <machine/autoconf.h>
1.1  fredette #include <machine/idprom.h>
1.1  fredette #include <machine/bus.h>
1.1  fredette #include <machine/intr.h>
1.3  fredette #include <machine/cpu.h>
1.1  fredette
1.1  fredette #include <dev/ic/i82586reg.h>
1.1  fredette #include <dev/ic/i82586var.h>
1.1  fredette
1.1  fredette #include "locators.h"
1.1  fredette
1.1  fredette /*
1.1  fredette  * VME/multibus definitions
1.1  fredette  */
1.1  fredette #define IEMBMEM_PAGESIZE 1024	/* bytes */
1.1  fredette #define IEMBMEM_PAGSHIFT 10	/* bits */
1.1  fredette #define IEMBMEM_NPAGES   256	/* number of pages on chip */
1.1  fredette #define IEMBMEM_MAPSZ    1024	/* number of entries in the map */
1.1  fredette
1.1  fredette /*
1.1  fredette  * PTE for the page map
1.1  fredette  */
1.1  fredette #define IEMBMEM_SBORDR 0x8000	/* sun byte order */
1.1  fredette #define IEMBMEM_IBORDR 0x0000	/* intel byte ordr */
1.1  fredette
1.1  fredette #define IEMBMEM_P2MEM  0x2000	/* memory is on P2 */
1.1  fredette #define IEMBMEM_OBMEM  0x0000	/* memory is on board */
1.1  fredette
1.1  fredette #define IEMBMEM_PGMASK 0x0fff	/* gives the physical page frame number */
1.1  fredette
1.1  fredette struct iembmem {
1.8       chs 	uint16_t	pgmap[IEMBMEM_MAPSZ];
1.8       chs 	uint16_t	xxx[32];	/* prom */
1.8       chs 	uint16_t	status;		/* see below for bits */
1.8       chs 	uint16_t	xxx2;		/* filler */
1.8       chs 	uint16_t	pectrl;		/* parity control (see below) */
1.8       chs 	uint16_t	peaddr;		/* low 16 bits of address */
1.1  fredette };
1.1  fredette
1.1  fredette /*
1.1  fredette  * status bits
1.1  fredette  */
1.1  fredette #define IEMBMEM_RESET 0x8000	/* reset board */
1.1  fredette #define IEMBMEM_ONAIR 0x4000	/* go out of loopback 'on-air' */
1.1  fredette #define IEMBMEM_ATTEN 0x2000	/* attention */
1.1  fredette #define IEMBMEM_IENAB 0x1000	/* interrupt enable */
1.1  fredette #define IEMBMEM_PEINT 0x0800	/* parity error interrupt enable */
1.1  fredette #define IEMBMEM_PERR  0x0200	/* parity error flag */
1.1  fredette #define IEMBMEM_INT   0x0100	/* interrupt flag */
1.1  fredette #define IEMBMEM_P2EN  0x0020	/* enable p2 bus */
1.1  fredette #define IEMBMEM_256K  0x0010	/* 256kb rams */
1.1  fredette #define IEMBMEM_HADDR 0x000f	/* mask for bits 17-20 of address */
1.1  fredette
1.1  fredette /*
1.1  fredette  * parity control
1.1  fredette  */
1.1  fredette #define IEMBMEM_PARACK 0x0100	/* parity error ack */
1.1  fredette #define IEMBMEM_PARSRC 0x0080	/* parity error source */
1.1  fredette #define IEMBMEM_PAREND 0x0040	/* which end of the data got the error */
1.1  fredette #define IEMBMEM_PARADR 0x000f	/* mask to get bits 17-20 of parity address */
1.1  fredette
1.1  fredette /* Supported media */
1.1  fredette static int media[] = {
1.1  fredette 	IFM_ETHER | IFM_10_2,
1.1  fredette };
1.1  fredette #define NMEDIA	(sizeof(media) / sizeof(media[0]))
1.1  fredette
1.1  fredette /*
1.1  fredette  * the 3E board not supported (yet?)
1.1  fredette  */
1.1  fredette
1.1  fredette
1.8       chs static void ie_mbmemreset(struct ie_softc *, int);
1.8       chs static void ie_mbmemattend(struct ie_softc *, int);
1.8       chs static void ie_mbmemrun(struct ie_softc *);
1.8       chs static int  ie_mbmemintr(struct ie_softc *, int);
1.1  fredette
1.8       chs int ie_mbmem_match(struct device *, struct cfdata *, void *);
1.8       chs void ie_mbmem_attach(struct device *, struct device *, void *);
1.1  fredette
1.1  fredette struct ie_mbmem_softc {
1.1  fredette 	struct ie_softc ie;
1.1  fredette 	bus_space_tag_t ievt;
1.1  fredette 	bus_space_handle_t ievh;
1.1  fredette };
1.1  fredette
1.5   thorpej CFATTACH_DECL(ie_mbmem, sizeof(struct ie_mbmem_softc),
1.6   thorpej     ie_mbmem_match, ie_mbmem_attach, NULL, NULL);
1.1  fredette
1.1  fredette #define read_iev(sc, reg) \
1.1  fredette   bus_space_read_2(sc->ievt, sc->ievh, offsetof(struct iembmem, reg))
1.1  fredette #define write_iev(sc, reg, val) \
1.1  fredette   bus_space_write_2(sc->ievt, sc->ievh, offsetof(struct iembmem, reg), val)
1.1  fredette
1.1  fredette /*
1.1  fredette  * MULTIBUS support routines
1.1  fredette  */
1.8       chs void
1.8       chs ie_mbmemreset(struct ie_softc *sc, int what)
1.1  fredette {
1.1  fredette 	struct ie_mbmem_softc *vsc = (struct ie_mbmem_softc *)sc;
1.1  fredette 	write_iev(vsc, status, IEMBMEM_RESET);
1.1  fredette 	delay(100);		/* XXX could be shorter? */
1.1  fredette 	write_iev(vsc, status, 0);
1.1  fredette }
1.1  fredette
1.8       chs void
1.8       chs ie_mbmemattend(struct ie_softc *sc, int why)
1.1  fredette {
1.1  fredette 	struct ie_mbmem_softc *vsc = (struct ie_mbmem_softc *)sc;
1.1  fredette
1.1  fredette 	/* flag! */
1.1  fredette 	write_iev(vsc, status, read_iev(vsc, status) | IEMBMEM_ATTEN);
1.1  fredette 	/* down. */
1.1  fredette 	write_iev(vsc, status, read_iev(vsc, status) & ~IEMBMEM_ATTEN);
1.1  fredette }
1.1  fredette
1.8       chs void
1.8       chs ie_mbmemrun(struct ie_softc *sc)
1.1  fredette {
1.1  fredette 	struct ie_mbmem_softc *vsc = (struct ie_mbmem_softc *)sc;
1.1  fredette
1.1  fredette 	write_iev(vsc, status, read_iev(vsc, status)
1.1  fredette 		  | IEMBMEM_ONAIR | IEMBMEM_IENAB | IEMBMEM_PEINT);
1.1  fredette }
1.1  fredette
1.8       chs int
1.8       chs ie_mbmemintr(struct ie_softc *sc, int where)
1.1  fredette {
1.1  fredette 	struct ie_mbmem_softc *vsc = (struct ie_mbmem_softc *)sc;
1.1  fredette
1.1  fredette 	if (where != INTR_ENTER)
1.1  fredette 		return (0);
1.1  fredette
1.1  fredette         /*
1.1  fredette          * check for parity error
1.1  fredette          */
1.1  fredette 	if (read_iev(vsc, status) & IEMBMEM_PERR) {
1.1  fredette 		printf("%s: parity error (ctrl 0x%x @ 0x%02x%04x)\n",
1.1  fredette 		       sc->sc_dev.dv_xname, read_iev(vsc, pectrl),
1.1  fredette 		       read_iev(vsc, pectrl) & IEMBMEM_HADDR,
1.1  fredette 		       read_iev(vsc, peaddr));
1.1  fredette 		write_iev(vsc, pectrl, read_iev(vsc, pectrl) | IEMBMEM_PARACK);
1.1  fredette 	}
1.1  fredette 	return (0);
1.1  fredette }
1.1  fredette
1.8       chs void ie_mbmemcopyin(struct ie_softc *, void *, int, size_t);
1.8       chs void ie_mbmemcopyout(struct ie_softc *, const void *, int, size_t);
1.1  fredette
1.1  fredette /*
1.1  fredette  * Copy board memory to kernel.
1.1  fredette  */
1.8       chs void
1.8       chs ie_mbmemcopyin(struct ie_softc *sc, void *p, int offset, size_t size)
1.1  fredette {
1.3  fredette 	bus_space_copyin(sc->bt, sc->bh, offset, p, size);
1.1  fredette }
1.1  fredette
1.1  fredette /*
1.1  fredette  * Copy from kernel space to board memory.
1.1  fredette  */
1.8       chs void
1.8       chs ie_mbmemcopyout(struct ie_softc *sc, const void *p, int offset, size_t size)
1.1  fredette {
1.3  fredette 	bus_space_copyout(sc->bt, sc->bh, offset, p, size);
1.1  fredette }
1.1  fredette
1.1  fredette /* read a 16-bit value at BH offset */
1.8       chs uint16_t ie_mbmem_read16(struct ie_softc *, int offset);
1.1  fredette /* write a 16-bit value at BH offset */
1.8       chs void ie_mbmem_write16(struct ie_softc *, int offset, uint16_t value);
1.8       chs void ie_mbmem_write24(struct ie_softc *, int offset, int addr);
1.1  fredette
1.8       chs uint16_t
1.8       chs ie_mbmem_read16(struct ie_softc *sc, int offset)
1.1  fredette {
1.8       chs 	uint16_t v;
1.1  fredette
1.1  fredette 	bus_space_barrier(sc->bt, sc->bh, offset, 2, BUS_SPACE_BARRIER_READ);
1.1  fredette 	v = bus_space_read_2(sc->bt, sc->bh, offset);
1.1  fredette 	return (((v&0xff)<<8) | ((v>>8)&0xff));
1.1  fredette }
1.1  fredette
1.8       chs void
1.8       chs ie_mbmem_write16(struct ie_softc *sc, int offset, uint16_t v)
1.1  fredette {
1.1  fredette 	int v0 = ((((v)&0xff)<<8) | (((v)>>8)&0xff));
1.8       chs
1.1  fredette 	bus_space_write_2(sc->bt, sc->bh, offset, v0);
1.1  fredette 	bus_space_barrier(sc->bt, sc->bh, offset, 2, BUS_SPACE_BARRIER_WRITE);
1.1  fredette }
1.1  fredette
1.8       chs void
1.8       chs ie_mbmem_write24(struct ie_softc *sc, int offset, int addr)
1.1  fredette {
1.1  fredette 	u_char *f = (u_char *)&addr;
1.8       chs 	uint16_t v0, v1;
1.1  fredette 	u_char *t;
1.1  fredette
1.1  fredette 	t = (u_char *)&v0;
1.1  fredette 	t[0] = f[3]; t[1] = f[2];
1.1  fredette 	bus_space_write_2(sc->bt, sc->bh, offset, v0);
1.1  fredette
1.1  fredette 	t = (u_char *)&v1;
1.1  fredette 	t[0] = f[1]; t[1] = 0;
1.1  fredette 	bus_space_write_2(sc->bt, sc->bh, offset+2, v1);
1.1  fredette
1.1  fredette 	bus_space_barrier(sc->bt, sc->bh, offset, 4, BUS_SPACE_BARRIER_WRITE);
1.1  fredette }
1.1  fredette
1.8       chs int
1.8       chs ie_mbmem_match(struct device *parent, struct cfdata *cf, void *aux)
1.1  fredette {
1.3  fredette 	struct mbmem_attach_args *mbma = aux;
1.3  fredette 	bus_space_handle_t bh;
1.3  fredette 	int matched;
1.1  fredette
1.1  fredette 	/* No default Multibus address. */
1.3  fredette 	if (mbma->mbma_paddr == -1)
1.1  fredette 		return(0);
1.1  fredette
1.3  fredette 	/* Make sure there is something there... */
1.3  fredette 	if (bus_space_map(mbma->mbma_bustag, mbma->mbma_paddr, sizeof(struct iembmem),
1.3  fredette 			  0, &bh))
1.3  fredette 		return (0);
1.3  fredette 	matched = (bus_space_peek_2(mbma->mbma_bustag, bh, 0, NULL) == 0);
1.3  fredette 	bus_space_unmap(mbma->mbma_bustag, bh, sizeof(struct iembmem));
1.3  fredette 	if (!matched)
1.1  fredette 		return (0);
1.1  fredette
1.1  fredette 	/* Default interrupt priority. */
1.3  fredette 	if (mbma->mbma_pri == -1)
1.3  fredette 		mbma->mbma_pri = 3;
1.1  fredette
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.8       chs void
1.8       chs ie_mbmem_attach(struct device *parent, struct device *self, void *aux)
1.1  fredette {
1.8       chs 	uint8_t myaddr[ETHER_ADDR_LEN];
1.1  fredette 	struct ie_mbmem_softc *vsc = (void *) self;
1.3  fredette 	struct mbmem_attach_args *mbma = aux;
1.1  fredette 	struct ie_softc *sc;
1.1  fredette 	bus_size_t memsize;
1.1  fredette 	bus_addr_t rampaddr;
1.1  fredette 	int lcv;
1.1  fredette
1.1  fredette 	sc = &vsc->ie;
1.1  fredette
1.1  fredette 	sc->hwreset = ie_mbmemreset;
1.1  fredette 	sc->hwinit = ie_mbmemrun;
1.1  fredette 	sc->chan_attn = ie_mbmemattend;
1.1  fredette 	sc->intrhook = ie_mbmemintr;
1.1  fredette 	sc->memcopyout = ie_mbmemcopyout;
1.1  fredette 	sc->memcopyin = ie_mbmemcopyin;
1.1  fredette
1.1  fredette 	sc->ie_bus_barrier = NULL;
1.1  fredette 	sc->ie_bus_read16 = ie_mbmem_read16;
1.1  fredette 	sc->ie_bus_write16 = ie_mbmem_write16;
1.1  fredette 	sc->ie_bus_write24 = ie_mbmem_write24;
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * There is 64K of memory on the Multibus board.
1.1  fredette 	 * (determined by hardware - NOT configurable!)
1.1  fredette 	 */
1.1  fredette 	memsize = 0x10000; /* MEMSIZE 64K */
1.1  fredette
1.1  fredette 	/* Map in the board control regs. */
1.3  fredette 	vsc->ievt = mbma->mbma_bustag;
1.3  fredette 	if (bus_space_map(mbma->mbma_bustag, mbma->mbma_paddr, sizeof(struct iembmem),
1.1  fredette 			  0, &vsc->ievh))
1.1  fredette 		panic("ie_mbmem_attach: can't map regs");
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * Find and map in the board memory.
1.1  fredette 	 */
1.1  fredette 	/* top 12 bits */
1.3  fredette 	rampaddr = mbma->mbma_paddr & 0xfff00000;
1.1  fredette 	/* 4 more */
1.1  fredette 	rampaddr = rampaddr | ((read_iev(vsc, status) & IEMBMEM_HADDR) << 16);
1.3  fredette 	sc->bt = mbma->mbma_bustag;
1.3  fredette 	if (bus_space_map(mbma->mbma_bustag, rampaddr, memsize, 0, &sc->bh))
1.1  fredette 		panic("ie_mbmem_attach: can't map mem");
1.1  fredette
1.1  fredette 	write_iev(vsc, pectrl, read_iev(vsc, pectrl) | IEMBMEM_PARACK);
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * Set up mappings, direct map except for last page
1.1  fredette 	 * which is mapped at zero and at high address (for scp)
1.1  fredette 	 */
1.1  fredette 	for (lcv = 0; lcv < IEMBMEM_MAPSZ - 1; lcv++)
1.1  fredette 		write_iev(vsc, pgmap[lcv], IEMBMEM_SBORDR | IEMBMEM_OBMEM | lcv);
1.1  fredette 	write_iev(vsc, pgmap[IEMBMEM_MAPSZ - 1], IEMBMEM_SBORDR | IEMBMEM_OBMEM | 0);
1.1  fredette
1.1  fredette 	/* Clear all ram */
1.1  fredette 	bus_space_set_region_2(sc->bt, sc->bh, 0, 0, memsize/2);
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * We use the first page to set up SCP, ICSP and SCB data
1.1  fredette 	 * structures. The remaining pages become the buffer area
1.1  fredette 	 * (managed in i82586.c).
1.1  fredette 	 * SCP is in double-mapped page, so the 586 can see it at
1.1  fredette 	 * the mandatory magic address (IE_SCP_ADDR).
1.1  fredette 	 */
1.1  fredette 	sc->scp = (IE_SCP_ADDR & (IEMBMEM_PAGESIZE - 1));
1.1  fredette
1.1  fredette 	/* iscp at location zero */
1.1  fredette 	sc->iscp = 0;
1.1  fredette
1.1  fredette 	/* scb follows iscp */
1.1  fredette 	sc->scb = IE_ISCP_SZ;
1.1  fredette
1.1  fredette 	ie_mbmem_write16(sc, IE_ISCP_SCB((long)sc->iscp), sc->scb);
1.1  fredette 	ie_mbmem_write16(sc, IE_ISCP_BASE((u_long)sc->iscp), 0);
1.1  fredette 	ie_mbmem_write24(sc, IE_SCP_ISCP((u_long)sc->scp), 0);
1.1  fredette
1.1  fredette 	if (i82586_proberam(sc) == 0) {
1.1  fredette 		printf(": memory probe failed\n");
1.1  fredette 		return;
1.1  fredette 	}
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * Rest of first page is unused; rest of ram for buffers.
1.1  fredette 	 */
1.1  fredette 	sc->buf_area = IEMBMEM_PAGESIZE;
1.1  fredette 	sc->buf_area_sz = memsize - IEMBMEM_PAGESIZE;
1.1  fredette
1.1  fredette 	sc->do_xmitnopchain = 0;
1.1  fredette
1.1  fredette 	printf("\n%s:", self->dv_xname);
1.1  fredette
1.1  fredette 	/* Set the ethernet address. */
1.1  fredette 	idprom_etheraddr(myaddr);
1.1  fredette
1.1  fredette 	i82586_attach(sc, "multibus", myaddr, media, NMEDIA, media[0]);
1.1  fredette
1.3  fredette 	bus_intr_establish(mbma->mbma_bustag, mbma->mbma_pri, IPL_NET, 0,
1.1  fredette 			   i82586_intr, sc);
1.1  fredette }