mac68k/nubus/nubus.c

1.22   briggs /*	$NetBSD: nubus.c,v 1.22 1996/05/07 03:12:12 briggs Exp $	*/
 1.8      cgd
1.11   briggs /*
1.11   briggs  * Copyright (c) 1995 Allen Briggs.  All rights reserved.
 1.1   briggs  *
 1.1   briggs  * Redistribution and use in source and binary forms, with or without
 1.1   briggs  * modification, are permitted provided that the following conditions
 1.1   briggs  * are met:
 1.1   briggs  * 1. Redistributions of source code must retain the above copyright
 1.1   briggs  *    notice, this list of conditions and the following disclaimer.
 1.1   briggs  * 2. Redistributions in binary form must reproduce the above copyright
 1.1   briggs  *    notice, this list of conditions and the following disclaimer in the
 1.1   briggs  *    documentation and/or other materials provided with the distribution.
 1.1   briggs  * 3. All advertising materials mentioning features or use of this software
 1.1   briggs  *    must display the following acknowledgement:
1.11   briggs  *	This product includes software developed by Allen Briggs.
1.11   briggs  * 4. The name of the author may not be used to endorse or promote products
1.11   briggs  *    derived from this software without specific prior written permission.
 1.1   briggs  *
1.11   briggs  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1   briggs  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1   briggs  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.11   briggs  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1   briggs  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 1.1   briggs  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 1.1   briggs  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 1.1   briggs  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.11   briggs  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.11   briggs  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 1.1   briggs  */
 1.1   briggs
 1.4   briggs #include <sys/param.h>
 1.4   briggs #include <sys/systm.h>
1.10   briggs #include <sys/device.h>
1.10   briggs
1.19   briggs #include <machine/autoconf.h>
 1.4   briggs #include <machine/cpu.h>
 1.1   briggs
1.12   briggs #include <vm/vm.h>
1.12   briggs
 1.1   briggs #include "nubus.h"
 1.1   briggs
1.12   briggs #if DEBUG
1.12   briggs static int	nubus_debug = 0x01;
1.12   briggs #define NDB_PROBE	0x1
1.12   briggs #define NDB_FOLLOW	0x2
1.12   briggs #define NDB_ARITH	0x4
1.12   briggs #endif
1.12   briggs
1.19   briggs static int	nubusprint __P((void *, char *));
1.19   briggs static int	nubusmatch __P((struct device *, void *, void *));
1.19   briggs static void	nubusattach __P((struct device *, struct device *, void *));
1.11   briggs
1.11   briggs static int	probe_slot __P((int slot, nubus_slot *fmt));
1.11   briggs static u_long	IncPtr __P((nubus_slot *fmt, u_long base, long amt));
1.11   briggs static u_long	nubus_calc_CRC __P((nubus_slot *fmt));
1.11   briggs static u_char	GetByte __P((nubus_slot *fmt, u_long ptr));
1.17   briggs #ifdef notyet
1.17   briggs /* unused */ static u_short	GetWord __P((nubus_slot *fmt, u_long ptr));
1.17   briggs #endif
1.11   briggs static u_long	GetLong __P((nubus_slot *fmt, u_long ptr));
1.18   scottr
1.16  thorpej struct cfattach nubus_ca = {
1.19   briggs 	sizeof(struct nubus_softc), nubusmatch, nubusattach
1.16  thorpej };
1.16  thorpej
1.16  thorpej struct cfdriver nubus_cd = {
1.16  thorpej 	NULL, "nubus", DV_DULL, 1
1.11   briggs };
 1.1   briggs
1.19   briggs static int
1.19   briggs nubusmatch(parent, vcf, aux)
1.19   briggs 	struct device *parent;
1.19   briggs 	void *vcf, *aux;
1.19   briggs {
1.19   briggs 	struct confargs *ca = aux;
1.19   briggs
1.19   briggs 	if (ca->ca_bustype != BUS_NUBUS)
1.19   briggs 		return (0);
1.19   briggs 	return(1);
1.19   briggs }
1.19   briggs
1.11   briggs static void
1.11   briggs nubusattach(parent, self, aux)
1.11   briggs 	struct	device	*parent, *self;
1.11   briggs 	void		*aux;
1.11   briggs {
1.14   briggs 	nubus_slot		fmtblock;
1.14   briggs 	int			i;
 1.1   briggs
1.11   briggs 	printf("\n");
 1.1   briggs
1.19   briggs 	for (i = NUBUS_MIN_SLOT; i <= NUBUS_MAX_SLOT; i++) {
1.14   briggs 		if (probe_slot(i, &fmtblock)) {
1.19   briggs 			/*config_search(bus_scan, &fmtblock, nubusprint);*/
1.14   briggs 			config_found(self, &fmtblock, nubusprint);
1.14   briggs 		}
1.12   briggs 	}
 1.1   briggs }
 1.1   briggs
1.10   briggs static int
1.11   briggs nubusprint(aux, name)
1.11   briggs 	void	*aux;
1.11   briggs 	char	*name;
1.11   briggs {
1.11   briggs 	nubus_slot	*fmt;
 1.1   briggs
1.11   briggs 	fmt = (nubus_slot *) aux;
1.11   briggs 	if (name) {
1.12   briggs 		printf("%s: slot %x: %s ", name, fmt->slot,
1.11   briggs 				nubus_get_card_name(fmt));
1.12   briggs 		printf("(Vendor: %s, ",
1.11   briggs 				nubus_get_vendor(fmt, NUBUS_RSRC_VEND_ID));
1.12   briggs 		printf("Part: %s) ",
1.11   briggs 				nubus_get_vendor(fmt, NUBUS_RSRC_VEND_PART));
 1.1   briggs 	}
1.11   briggs 	return (UNCONF);
 1.1   briggs }
 1.1   briggs
1.11   briggs /*
1.11   briggs  * Probe a given nubus slot.  If a card is there and we can get the
1.11   briggs  * format block from it's clutching decl. ROMs, fill the format block
1.11   briggs  * and return non-zero.  If we can't find a card there with a valid
1.11   briggs  * decl. ROM, return 0.
1.11   briggs  *
1.11   briggs  * First, we check to see if we can access the memory at the tail
1.11   briggs  * end of the slot.  If so, then we check for a bytelanes byte.  We
1.11   briggs  * could probably just return a failure status if we bus error on
1.11   briggs  * the first try, but there really is little reason not to go ahead
1.11   briggs  * and check the other three locations in case there's a wierd card
1.11   briggs  * out there.
1.11   briggs  *
1.11   briggs  * Checking for a card involves locating the "bytelanes" byte which
1.11   briggs  * tells us how to interpret the declaration ROM's data.  The format
1.11   briggs  * block is at the top of the card's standard memory space and the
1.11   briggs  * bytelanes byte is at the end of that block.
1.11   briggs  *
1.11   briggs  * After some inspection of the bytelanes byte, it appears that it
1.11   briggs  * takes the form 0xXY where Y is a bitmask of the bytelanes in use
1.11   briggs  * and X is a bitmask of the lanes to ignore.  Hence, (X ^ Y) == 0
1.11   briggs  * and (less obviously), Y will have the upper N bits clear if it is
1.11   briggs  * found N bytes from the last possible location.  Both that and
1.11   briggs  * the exclusive-or check are made.
1.11   briggs  *
1.11   briggs  * If a valid
1.11   briggs  */
1.11   briggs static u_char	nbits[]={0,1,1,2,1,2,2,3,1,2,2,3,2,3,3,4};
1.11   briggs static int
1.11   briggs probe_slot(slot, fmt)
1.11   briggs 	int		slot;
1.11   briggs 	nubus_slot	*fmt;
 1.1   briggs {
1.11   briggs 	caddr_t		rom_probe;
1.19   briggs 	vm_offset_t	hdr;
1.19   briggs 	u_int		data;
1.11   briggs 	int		hdr_size, i;
1.10   briggs
1.11   briggs 	fmt->bytelanes = 0;
1.11   briggs 	fmt->slot = (u_long)slot;
1.10   briggs
1.19   briggs 	rom_probe = (caddr_t) (NUBUS_SLOT_TO_PADDR(fmt->slot) + NBMEMSIZE);
1.10   briggs
1.12   briggs #ifdef DEBUG
1.12   briggs 	if (nubus_debug & NDB_PROBE) {
1.15   briggs 		phys = pmap_extract(pmap_kernel(), (vm_offset_t)rom_probe-1);
1.12   briggs 		printf("probing slot %d, first probe at 0x%x (phys 0x%x).\n",
1.12   briggs 			slot, rom_probe-1, phys);
1.12   briggs 	}
1.12   briggs #endif
1.12   briggs
1.11   briggs 	for (i = 4; i && (fmt->bytelanes == 0); i--) {
1.10   briggs
1.11   briggs 		rom_probe--;
1.10   briggs
1.19   briggs 		data = bus_peek(BUS_NUBUS, (vm_offset_t) rom_probe, 1);
1.19   briggs 		if (data == -1)
1.11   briggs 			continue;
1.10   briggs
1.19   briggs 		if (data == 0)
1.11   briggs 			continue;
 1.1   briggs
1.11   briggs 		if (   ((((data & 0xf0) >> 4) ^ (data & 0x0f)) == 0x0f)
1.11   briggs 		    && ((data & 0x0f) < (1 << i)) ) {
1.11   briggs 			fmt->bytelanes = data;
1.11   briggs 			fmt->step = nbits[(data & 0x0f)];
1.11   briggs 		}
 1.1   briggs 	}
1.11   briggs #ifdef DEBUG
1.12   briggs 	if (nubus_debug & NDB_PROBE)
1.12   briggs 		if (fmt->bytelanes == 0)
1.12   briggs 			printf("bytelanes not found for slot 0x%x.\n", slot);
1.11   briggs #endif
1.11   briggs
1.11   briggs 	if (fmt->bytelanes == 0)
1.11   briggs 		return 0;
1.11   briggs
1.11   briggs #ifdef DEBUG
1.12   briggs 	if (nubus_debug & NDB_PROBE)
1.20   briggs 		printf("bytelanes of 0x%x found for slot 0x%x.\n",
1.20   briggs 			fmt->bytelanes, slot);
1.11   briggs #endif
 1.1   briggs
1.11   briggs 	hdr_size = 20;
1.10   briggs
1.11   briggs 	/*
1.11   briggs 	 * Go ahead and attempt to load format header.
1.11   briggs 	 * First, we need to find the first byte beyond memory that
1.11   briggs 	 * would be valid.  This is necessary for NUBUS_ROM_offset()
1.11   briggs 	 * to work.
1.11   briggs 	 */
1.19   briggs 	hdr = (vm_offset_t)
1.19   briggs 		bus_mapin(BUS_NUBUS,NUBUS_SLOT_TO_PADDR(fmt->slot),NBMEMSIZE);
1.19   briggs 	if (hdr == NULL) {
1.22   briggs 		printf("Failed to map %d bytes for NuBUS slot %d probe.  ",
1.22   briggs 			NBMEMSIZE, fmt->slot);
1.22   briggs 		printf("Physical slot address %x\n",
1.22   briggs 			(unsigned int) NUBUS_SLOT_TO_PADDR(fmt->slot));
1.19   briggs 	}
1.19   briggs 	fmt->virtual_base = hdr;
1.19   briggs 	hdr += NBMEMSIZE;
1.19   briggs
1.11   briggs 	i = 0x10 | (fmt->bytelanes & 0x0f);
1.11   briggs 	while ((i & 1) == 0) {
1.11   briggs 		hdr++;
1.11   briggs 		i >>= 1;
1.11   briggs 	}
1.11   briggs 	fmt->top = hdr;
1.11   briggs 	hdr = IncPtr(fmt, hdr, -hdr_size);
1.11   briggs #ifdef DEBUG
1.12   briggs 	if (nubus_debug & NDB_PROBE)
1.12   briggs 		printf("fmt->top is 0x%x, that minus 0x%x puts us at 0x%x.\n",
1.12   briggs 			fmt->top, hdr_size, hdr);
1.11   briggs #if 0
1.11   briggs 	for (i=1 ; i < 8 ; i++) {
1.11   briggs 		printf("0x%x - 0x%x = 0x%x, + 0x%x = 0x%x.\n",
1.11   briggs 			hdr, i, IncPtr(fmt, hdr, -i),
1.11   briggs 			     i, IncPtr(fmt, hdr,  i));
1.11   briggs 	}
1.11   briggs #endif
1.11   briggs #endif
1.11   briggs
1.11   briggs 	fmt->directory_offset = 0xff000000 | GetLong(fmt, hdr);
1.11   briggs 	hdr = IncPtr(fmt, hdr, 4);
1.11   briggs 	fmt->length = GetLong(fmt, hdr);
1.11   briggs 	hdr = IncPtr(fmt, hdr, 4);
1.11   briggs 	fmt->crc = GetLong(fmt, hdr);
1.11   briggs 	hdr = IncPtr(fmt, hdr, 4);
1.11   briggs 	fmt->revision_level = GetByte(fmt, hdr);
1.11   briggs 	hdr = IncPtr(fmt, hdr, 1);
1.11   briggs 	fmt->format = GetByte(fmt, hdr);
1.11   briggs 	hdr = IncPtr(fmt, hdr, 1);
1.11   briggs 	fmt->test_pattern = GetLong(fmt, hdr);
1.11   briggs
1.11   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_PROBE) {
1.12   briggs 		printf("Directory offset 0x%x\t", fmt->directory_offset);
1.12   briggs 		printf("Length 0x%x\t", fmt->length);
1.12   briggs 		printf("CRC 0x%x\n", fmt->crc);
1.12   briggs 		printf("Revision level 0x%x\t", fmt->revision_level);
1.12   briggs 		printf("Format 0x%x\t", fmt->format);
1.12   briggs 		printf("Test Pattern 0x%x\n", fmt->test_pattern);
1.12   briggs 	}
1.11   briggs #endif
1.11   briggs
1.12   briggs 	if ((fmt->directory_offset & 0x00ff0000) == 0) {
1.12   briggs 		printf("Invalid looking directory offset (0x%x)!\n",
1.12   briggs 			fmt->directory_offset);
1.12   briggs 		return 0;
1.12   briggs 	}
1.11   briggs 	if (fmt->test_pattern != NUBUS_ROM_TEST_PATTERN) {
1.11   briggs 		printf("Nubus--test pattern invalid:\n");
1.11   briggs 		printf("       slot 0x%x, bytelanes 0x%x?\n",
1.11   briggs 			fmt->slot, fmt->bytelanes);
1.11   briggs 		printf("       read test 0x%x, compare with 0x%x.\n",
1.11   briggs 			fmt->test_pattern, NUBUS_ROM_TEST_PATTERN);
1.11   briggs 		return 0;
1.11   briggs 	}
1.11   briggs
1.11   briggs 	/* Perform CRC */
1.11   briggs 	if (fmt->crc != nubus_calc_CRC(fmt)) {
1.11   briggs 		printf("Nubus--crc check failed, slot 0x%x.\n",
1.11   briggs 			fmt->slot);
1.11   briggs 		return 0;
 1.1   briggs 	}
1.10   briggs
1.11   briggs 	return 1;
 1.1   briggs }
 1.1   briggs
1.11   briggs /*
1.11   briggs  * Compute byte offset on card, taking into account bytelanes.
1.11   briggs  * Base must be on a valid bytelane for this function to work.
1.11   briggs  * Return the new address.
1.11   briggs  *
1.11   briggs  * XXX -- There has GOT to be a better way to do this.
1.11   briggs  */
1.11   briggs static u_long
1.11   briggs IncPtr(fmt, base, amt)
1.11   briggs 	nubus_slot	*fmt;
1.11   briggs 	u_long		base;
1.11   briggs 	long		amt;
1.11   briggs {
1.11   briggs 	u_char 	b, t;
1.11   briggs
1.11   briggs 	if (!amt)
1.11   briggs 		return base;
1.11   briggs
1.11   briggs 	if (amt < 0) {
1.11   briggs 		amt = -amt;
1.11   briggs 		b = fmt->bytelanes;
1.11   briggs 		t = (b << 4);
1.11   briggs 		b <<= (3 - (base & 0x3));
1.11   briggs 		while (amt) {
1.11   briggs 			b <<= 1;
1.11   briggs 			if (b == t)
1.11   briggs 				b = fmt->bytelanes;
1.11   briggs 			if (b & 0x08)
1.11   briggs 				amt--;
1.11   briggs 			base--;
1.11   briggs 		}
1.11   briggs 		return base;
1.11   briggs 	}
1.10   briggs
1.11   briggs 	t = (fmt->bytelanes & 0xf) | 0x10;
1.11   briggs 	b = t >> (base & 0x3);
1.11   briggs 	while (amt) {
1.11   briggs 		b >>= 1;
1.11   briggs 		if (b == 1)
1.11   briggs 			b = t;
1.11   briggs 		if (b & 1)
1.11   briggs 			amt--;
1.11   briggs 		base++;
1.11   briggs 	}
1.11   briggs
1.11   briggs 	return base;
1.11   briggs }
1.11   briggs
1.11   briggs static u_long
1.11   briggs nubus_calc_CRC(fmt)
1.11   briggs 	nubus_slot	*fmt;
1.11   briggs {
1.11   briggs #if 0
1.11   briggs 	u_long	base, ptr, crc_loc, sum;
1.11   briggs 	int	i;
1.11   briggs
1.11   briggs 	base = fmt->top;
1.11   briggs 	crc_loc = NUBUS_ROM_offset(fmt, base, -12);
1.11   briggs 	ptr = NUBUS_ROM_offset(fmt, base, -fmt->length);
1.11   briggs
1.11   briggs 	sum = 0;
1.11   briggs 	while (ptr < base)
1.11   briggs 		roll #1, sum
1.11   briggs 		if (ptr == crc_loc) {
1.11   briggs 			roll #3, sum
1.11   briggs 			ptr = IncPtr(fmt, ptr, 3);
1.11   briggs 		} else {
1.11   briggs 			sum += GetByte(fmt, ptr);
1.11   briggs 		}
1.11   briggs 		ptr = IncPtr(fmt, ptr, 1);
 1.1   briggs 	}
1.10   briggs
1.11   briggs 	return sum;
1.11   briggs #endif
1.11   briggs 	return fmt->crc;
 1.1   briggs }
 1.1   briggs
1.11   briggs static u_char
1.11   briggs GetByte(fmt, ptr)
1.11   briggs 	nubus_slot	*fmt;
1.11   briggs 	u_long		ptr;
 1.1   briggs {
1.11   briggs 	return *(caddr_t)ptr;
 1.1   briggs }
 1.1   briggs
1.17   briggs #ifdef notyet
1.17   briggs /* Nothing uses this, yet */
1.11   briggs static u_short
1.11   briggs GetWord(fmt, ptr)
1.11   briggs 	nubus_slot	*fmt;
1.11   briggs 	u_long		ptr;
 1.1   briggs {
1.11   briggs 	u_short	s;
1.10   briggs
1.11   briggs 	s = (GetByte(fmt, ptr) << 8);
1.11   briggs 	ptr = IncPtr(fmt, ptr, 1);
1.11   briggs 	s |= GetByte(fmt, ptr);
1.11   briggs 	return s;
1.11   briggs }
1.17   briggs #endif
 1.1   briggs
1.11   briggs static u_long
1.11   briggs GetLong(fmt, ptr)
1.11   briggs 	nubus_slot	*fmt;
1.11   briggs 	u_long		ptr;
1.11   briggs {
1.11   briggs 	register u_long l;
1.11   briggs 	register int	i;
1.10   briggs
1.11   briggs 	l = 0;
1.11   briggs 	for ( i = 0; i < 4; i++) {
1.11   briggs 		l = (l << 8) | GetByte(fmt, ptr);
1.11   briggs 		ptr = IncPtr(fmt, ptr, 1);
1.11   briggs 	}
1.11   briggs 	return l;
1.11   briggs }
1.10   briggs
1.11   briggs void
1.11   briggs nubus_get_main_dir(slot, dir_return)
1.11   briggs 	nubus_slot	*slot;
1.11   briggs 	nubus_dir	*dir_return;
1.11   briggs {
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_main_dir(0x%x, 0x%x)\n",
1.12   briggs 			(u_int) slot, (u_int) dir_return);
1.12   briggs #endif
1.11   briggs 	dir_return->dirbase = IncPtr(slot, slot->top,
1.11   briggs 					slot->directory_offset - 20);
1.11   briggs 	dir_return->curr_ent = dir_return->dirbase;
 1.1   briggs }
 1.1   briggs
1.11   briggs int
1.11   briggs nubus_find_rsrc(slot, dir, rsrcid, dirent_return)
1.11   briggs 	nubus_slot	*slot;
1.11   briggs 	nubus_dir	*dir;
1.11   briggs 	u_int8_t	rsrcid;
1.11   briggs 	nubus_dirent	*dirent_return;
 1.1   briggs {
1.11   briggs 	u_long		entry;
1.11   briggs 	u_char		byte;
1.10   briggs
1.11   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_find_rsrc(0x%x, 0x%x, 0x%x, 0x%x)\n",
1.12   briggs 			(u_int) slot, (u_int) dir, (u_int) rsrcid,
1.12   briggs 			(u_int) dirent_return);
1.11   briggs #endif
1.12   briggs 	if (slot->test_pattern != NUBUS_ROM_TEST_PATTERN)
1.12   briggs 		return -1;
1.12   briggs
1.12   briggs 	entry = dir->curr_ent;
1.11   briggs 	do {
1.11   briggs 		byte = GetByte(slot, entry);
1.11   briggs #if DEBUG
1.12   briggs 		if (nubus_debug & NDB_FOLLOW)
1.12   briggs 			printf("\tFound rsrc 0x%x.\n", byte);
1.11   briggs #endif
1.11   briggs 		if (byte == rsrcid) {
1.11   briggs 			dirent_return->myloc = entry;
1.11   briggs 			dirent_return->rsrc_id = rsrcid;
1.11   briggs 			entry = GetLong(slot, entry);
1.11   briggs 			dirent_return->offset = (entry & 0x00ffffff);
1.11   briggs 			return 1;
1.11   briggs 		}
1.11   briggs 		if (byte == 0xff) {
1.11   briggs 			entry = dir->dirbase;
1.11   briggs 		} else {
1.11   briggs 			entry = IncPtr(slot, entry, 4);
1.11   briggs 		}
1.11   briggs 	} while (entry != (u_long) dir->curr_ent);
1.11   briggs 	return 0;
 1.1   briggs }
 1.1   briggs
1.11   briggs void
1.11   briggs nubus_get_dir_from_rsrc(slot, dirent, dir_return)
1.11   briggs 	nubus_slot	*slot;
1.11   briggs 	nubus_dirent	*dirent;
1.11   briggs 	nubus_dir	*dir_return;
 1.1   briggs {
1.11   briggs 	u_long	loc;
1.10   briggs
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_dir_from_rsrc(0x%x, 0x%x, 0x%x).\n",
1.12   briggs 			(u_int) slot, (u_int) dirent, (u_int) dir_return);
1.12   briggs #endif
1.11   briggs 	if ((loc = dirent->offset) & 0x800000) {
1.11   briggs 		loc |= 0xff000000;
 1.1   briggs 	}
1.11   briggs 	dir_return->dirbase = IncPtr(slot, dirent->myloc, loc);
1.11   briggs 	dir_return->curr_ent = dir_return->dirbase;
 1.1   briggs }
 1.1   briggs
1.11   briggs int
1.11   briggs nubus_get_ind_data(slot, dirent, data_return, nbytes)
1.11   briggs 	nubus_slot *slot;
1.11   briggs 	nubus_dirent *dirent;
1.11   briggs 	caddr_t data_return;
1.11   briggs 	int nbytes;
1.11   briggs {
1.11   briggs 	u_long	loc;
 1.1   briggs
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_ind_data(0x%x, 0x%x, 0x%x, %d).\n",
1.12   briggs 			(u_int) slot, (u_int) dirent, (u_int) data_return,
1.12   briggs 			nbytes);
1.12   briggs #endif
1.11   briggs 	if ((loc = dirent->offset) & 0x800000) {
1.11   briggs 		loc |= 0xff000000;
1.11   briggs 	}
1.11   briggs 	loc = IncPtr(slot, dirent->myloc, loc);
 1.1   briggs
1.11   briggs 	while (nbytes--) {
1.11   briggs 		*data_return++ = GetByte(slot, loc);
1.11   briggs 		loc = IncPtr(slot, loc, 1);
 1.1   briggs 	}
1.11   briggs 	return 1;
 1.1   briggs }
 1.1   briggs
1.11   briggs int
1.11   briggs nubus_get_c_string(slot, dirent, data_return, max_bytes)
1.11   briggs 	nubus_slot *slot;
1.11   briggs 	nubus_dirent *dirent;
1.11   briggs 	caddr_t data_return;
1.11   briggs 	int max_bytes;
 1.1   briggs {
1.11   briggs 	u_long	loc;
1.10   briggs
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_c_string(0x%x, 0x%x, 0x%x, %d).\n",
1.12   briggs 			(u_int) slot, (u_int) dirent, (u_int) data_return,
1.12   briggs 			max_bytes);
1.12   briggs #endif
1.11   briggs 	if ((loc = dirent->offset) & 0x800000) {
1.11   briggs 		loc |= 0xff000000;
1.11   briggs 	}
1.11   briggs 	loc = IncPtr(slot, dirent->myloc, loc);
1.10   briggs
1.11   briggs 	*data_return = '\0';
1.11   briggs 	while (max_bytes--) {
1.11   briggs 		if ((*data_return++ = GetByte(slot, loc)) == 0)
1.11   briggs 			return 1;
1.11   briggs 		loc = IncPtr(slot, loc, 1);
1.11   briggs 	}
1.11   briggs 	return 0;
 1.1   briggs }
 1.2   briggs
1.11   briggs static char	*huh = "???";
 1.3   briggs
1.11   briggs char *
1.11   briggs nubus_get_vendor(slot, rsrc)
1.11   briggs 	nubus_slot	*slot;
1.11   briggs 	int		rsrc;
 1.3   briggs {
1.11   briggs static	char		str_ret[64];
1.11   briggs 	nubus_dir	dir;
1.11   briggs 	nubus_dirent	ent;
 1.3   briggs
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_vendor(0x%x, 0x%x).\n", (u_int) slot, rsrc);
1.12   briggs #endif
1.11   briggs 	nubus_get_main_dir(slot, &dir);
1.11   briggs 	if (nubus_find_rsrc(slot, &dir, 1, &ent) <= 0)
1.11   briggs 		return huh;
1.11   briggs 	nubus_get_dir_from_rsrc(slot, &ent, &dir);
 1.2   briggs
1.11   briggs 	if (nubus_find_rsrc(slot, &dir, NUBUS_RSRC_VENDORINFO, &ent) <= 0)
1.11   briggs 		return huh;
1.11   briggs 	nubus_get_dir_from_rsrc(slot, &ent, &dir);
1.10   briggs
1.11   briggs 	if (nubus_find_rsrc(slot, &dir, rsrc, &ent) <= 0)
1.11   briggs 		return huh;
1.10   briggs
1.11   briggs 	nubus_get_c_string(slot, &ent, str_ret, 64);
 1.2   briggs
1.11   briggs 	return str_ret;
 1.2   briggs }
 1.2   briggs
1.11   briggs char *
1.11   briggs nubus_get_card_name(slot)
1.11   briggs 	nubus_slot	*slot;
 1.2   briggs {
1.11   briggs static	char		name_ret[64];
1.11   briggs 	nubus_dir	dir;
1.11   briggs 	nubus_dirent	ent;
 1.2   briggs
1.12   briggs #if DEBUG
1.12   briggs 	if (nubus_debug & NDB_FOLLOW)
1.12   briggs 		printf("nubus_get_card_name(0x%x).\n", (u_long) slot);
1.12   briggs #endif
1.11   briggs 	nubus_get_main_dir(slot, &dir);
 1.2   briggs
1.11   briggs 	if (nubus_find_rsrc(slot, &dir, 1, &ent) <= 0)
1.11   briggs 		return huh;
 1.2   briggs
1.11   briggs 	nubus_get_dir_from_rsrc(slot, &ent, &dir);
 1.2   briggs
1.11   briggs 	if (nubus_find_rsrc(slot, &dir, NUBUS_RSRC_NAME, &ent) <= 0)
1.11   briggs 		return huh;
 1.2   briggs
1.11   briggs 	nubus_get_c_string(slot, &ent, name_ret, 64);
 1.2   briggs
1.11   briggs 	return name_ret;
 1.2   briggs }