2006-02-20 Thomas Schwinge <tschwinge@gnu.org>

Remove unused and unsupported code.  Consult the file
	`DEVELOPMENT' for details.  Partly based on suggestions by
	Gianluca Guida <glguida@gmail.com>.

	* i386/bogus/ns8390.h: Remove file.
	* i386/i386at/ds8390.h: Likewise.
	* i386/i386at/if_3c503.h: Likewise.
	* i386/i386at/if_ns8390.c: Likewise.
	* i386/i386at/if_ns8390.h: Likewise.
	* i386/i386at/if_wd8003.h: Likewise.
	* i386/i386at/autoconf.c: Don't include <ns8390.h> anymore and adopt
	all users of NNS8390 as if it were always defined to `0'.
	* i386/i386at/conf.c: Likewise.

8 files changed, 0 insertions, 3426 deletions

diff --git a/i386/bogus/ns8390.h b/i386/bogus/ns8390.h
deleted file mode 100644
index 34d585a..0000000
--- a/i386/bogus/ns8390.h
+++ /dev/null
@@ -1 +0,0 @@
-#define NNS8390 1
diff --git a/i386/i386at/autoconf.c b/i386/i386at/autoconf.c
index 5f49361..bd0cddc 100644
--- a/i386/i386at/autoconf.c
+++ b/i386/i386at/autoconf.c
@@ -59,12 +59,6 @@ extern struct	bus_driver	eaha_driver;
 extern int	eaha_intr();
 #endif /* NEAHA */
 
-#include <ns8390.h>
-#if NNS8390 > 0
-extern	struct	bus_driver	ns8390driver;
-extern int			ns8390intr();
-#endif /* NNS8390 */
-
 #include <at3c501.h>
 #if NAT3C501 > 0
 extern struct	bus_driver	at3c501driver;
@@ -251,26 +245,6 @@ struct	bus_device	bus_device_init[] = {
 { &eaha_driver,	"tz",   7,  0,  0x0,0,	0,    '?',     0,   0,   7,    0, },
 #endif	/* NEAHA > 0*/
 
-#if NNS8390 > 0
-	/* "wd" and "el" */
-  {&ns8390driver, "wd", 0, ns8390intr, 0x280,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 9},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x2a0,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 9},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x2e0,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 5},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x300,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 5},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x250,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 5},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x350,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 5},
-  {&ns8390driver, "wd", 0, ns8390intr, 0x240,0x2000,0xd0000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 11},
-  {&ns8390driver, "wd", 1, ns8390intr, 0x340,0x2000,0xe8000,
-     '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 15},
-#endif /* NNS8390 > 0 */
-
 #if NAT3C501 > 0
   {&at3c501driver, "et", 0, at3c501intr, 0x300, 0,0x300,
      '?',    0,   -1,    -1,    0,   0,        0,   SPL_SIX, 9},
diff --git a/i386/i386at/conf.c b/i386/i386at/conf.c
index 3090aa3..446744b 100644
--- a/i386/i386at/conf.c
+++ b/i386/i386at/conf.c
@@ -54,15 +54,6 @@ extern int	wtopen(), wtread(), wtwrite(), wtclose();
 #define	wtname			"wt"
 #endif	/* NWT > 0 */
 
-#include <ns8390.h>
-#if	NNS8390 > 0
-extern int	wd8003open(), eliiopen();
-extern int	ns8390output(), ns8390getstat(), ns8390setstat(),
-		ns8390setinput();
-#define	ns8390wdname		"wd"
-#define	ns8390elname		"el"
-#endif /* NNS8390 > 0 */
-
 #include <at3c501.h>
 #if	NAT3C501 > 0
 extern int	at3c501open(), at3c501output(),
@@ -215,18 +206,6 @@ struct dev_ops	dev_name_list[] =
 	  nodev },
 #endif
 
-#if	NNS8390 > 0
-	{ ns8390wdname,	wd8003open,	nulldev,	nulldev,
-	  ns8390output, ns8390getstat,	ns8390setstat,	nomap,
-	  ns8390setinput, nulldev,	nulldev,	0,
-	  nodev },
-
-	{ ns8390elname,	eliiopen,	nulldev,	nulldev,
-	  ns8390output, ns8390getstat,	ns8390setstat,	nomap,
-	  ns8390setinput, nulldev,	nulldev,	0,
-	  nodev },
-#endif
-
 #if   	NUL > 0
         { ulname,       ulopen,         nulldev,        nulldev,
           uloutput,     ulgetstat,      ulsetstat,      nulldev,
diff --git a/i386/i386at/ds8390.h b/i386/i386at/ds8390.h
deleted file mode 100644
index a91e642..0000000
--- a/i386/i386at/ds8390.h
+++ /dev/null
@@ -1,166 +0,0 @@
-/*-
- * Copyright (c) 1991 The Regents of the University of California.
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without
- * modification, are permitted provided that the following conditions
- * are met:
- * 1. Redistributions of source code must retain the above copyright
- *    notice, this list of conditions and the following disclaimer.
- * 2. Redistributions in binary form must reproduce the above copyright
- *    notice, this list of conditions and the following disclaimer in the
- *    documentation and/or other materials provided with the distribution.
- * 3. All advertising materials mentioning features or use of this software
- *    must display the following acknowledgement:
- *	This product includes software developed by the University of
- *	California, Berkeley and its contributors.
- * 4. Neither the name of the University nor the names of its contributors
- *    may be used to endorse or promote products derived from this software
- *    without specific prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
- * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
- * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS 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.
- *
- *	@(#)ds8390.h	7.1 (Berkeley) 5/9/91
- */
-
-/*
- * Nominal Semidestructor DS8390 Ethernet Chip
- * Register and bit definitions
- */
-
-/*
- * Page register offset values
- */
-#define ds_cmd		0x00		/* Command register: 		*/
-#define  DSCM_STOP	 0x01		/*	Stop controller		*/
-#define  DSCM_START	 0x02		/*	Start controller	*/
-#define  DSCM_TRANS	 0x04		/*	Transmit packet		*/
-#define  DSCM_RREAD	 0x08		/*	Remote read 		*/
-#define  DSCM_RWRITE	 0x10		/*	Remote write 		*/
-#define  DSCM_NODMA	 0x20		/*	No Remote DMA present	*/
-#define  DSCM_PG0	 0x00		/*	Select Page 0		*/
-#define  DSCM_PG1	 0x40		/*	Select Page 1		*/
-#define  DSCM_PG2	 0x80		/*	Select Page 2?		*/
-
-#define ds0_pstart	0x01		/* Page Start register		*/
-#define ds0_pstop	0x02		/* Page Stop register		*/
-#define ds0_bnry	0x03		/* Boundary Pointer 		*/
-#define ds0_bndy	ds0_bnry	/* Boundary Pointer 		*/
-
-#define ds0_tsr		0x04		/* Transmit Status (read-only)	*/
-#define	 DSTS_PTX	 0x01		/*  Successful packet transmit  */ 
-#define	 DSTS_COLL	 0x04		/*  Packet transmit w/ collision*/ 
-#define	 DSTS_COLL16	 0x04		/*  Packet had >16 collisions & fail */ 
-#define  DSTS_ABT	 0x08		/*  Transmit aborted 		*/
-#define  DSTS_CRS	 0x10		/*  Carrier sense lost/xmit !aborted */
-#define	 DSTS_UND	 0x20		/*  FIFO Underrun on transmission*/ 
-#define  DSTS_CDH	 0x40		/*  CD heartbeat		*/
-#define  DSTS_OWC	 0x80		/*  Out of window collision -   */
-					/*  transmit not aborted	*/
-
-#define ds0_tpsr	ds0_tsr		/* Transmit Page (write-only)	*/
-#define ds0_tbcr0	0x05		/* Transmit Byte count, low  WO	*/
-#define ds0_tbcr1	0x06		/* Transmit Byte count, high WO	*/
-
-#define ds0_isr		0x07		/* Interrupt status register	*/
-#define	 DSIS_RX	 0x01		/*  Successful packet reception */ 
-#define	 DSIS_TX	 0x02		/*  Successful packet transmission  */ 
-#define	 DSIS_RXE	 0x04		/*  Packet reception  w/error   */ 
-#define	 DSIS_TXE	 0x08		/*  Packet transmission  w/error*/ 
-#define	 DSIS_ROVRN	 0x10		/*  Receiver overrun in the ring*/
-#define	 DSIS_CTRS	 0x20		/*  Diagnostic counters need attn */
-#define	 DSIS_RDC	 0x40		/*  Remote DMA Complete         */
-#define	 DSIS_RESET	 0x80		/*  Reset Complete              */
-
-#define ds0_rsar0	0x08		/* Remote start address low  WO	*/
-#define ds0_rsar1	0x09		/* Remote start address high WO	*/
-#define ds0_rbcr0	0x0A		/* Remote byte count low     WO	*/
-#define ds0_rbcr1	0x0B		/* Remote byte count high    WO	*/
-
-#define ds0_rsr		0x0C		/* Receive status            RO	*/
-#define ds0_cntr0	0x0D		/* Receive status            RO	*/
-#define ds0_cntr1	0x0E		/* Receive status            RO	*/
-#define ds0_cntr2	0x0F		/* Receive status            RO	*/
-#define	 DSRS_RPC	 0x01		/*  Received Packet Complete    */
-#define  DSRS_CRC	 0x02		/*  CRC error			*/
-#define  DSRS_FAE	 0x04		/*  Frame alignment error	*/
-#define  DSRS_FO	 0x08		/*  FIFO Overrun		*/
-#define  DSRS_MPA	 0x10		/*  Missed packet		*/
-#define  DSRS_PHY	 0x20		/*  Physical/multicast address  */
-#define  DSRS_DIS	 0x40		/*  Receiver disable		*/
-#define  DSRS_DFR	 0x80		/*  Deferring			*/
-
-#define ds0_rcr		ds0_rsr		/* Receive configuration     WO */
-#define  DSRC_SEP	 0x01		/* Save error packets		*/
-#define  DSRC_AR	 0x02		/* Accept Runt packets		*/
-#define  DSRC_AB	 0x04		/* Accept Broadcast packets	*/
-#define  DSRC_AM	 0x08		/* Accept Multicast packets	*/
-#define  DSRC_PRO	 0x10		/* Promiscuous physical		*/
-#define  DSRC_MON	 0x20		/* Monitor mode			*/
-
-#define ds0_tcr		0x0D		/* Transmit configuration    WO */
-#define  DSTC_CRC	0x01		/* Inhibit CRC			*/
-#define  DSTC_LB0	0x02		/* Encoded Loopback Control	*/
-#define  DSTC_LB1	0x04		/* Encoded Loopback Control	*/
-#define  DSTC_ATD	0x08		/* Auto Transmit Disable	*/
-#define  DSTC_OFST	0x10		/* Collision Offset Enable	*/
-
-#define ds0_rcvalctr	ds0_tcr		/* Receive alignment err ctr RO */
-
-#define ds0_dcr		0x0E		/* Data configuration	     WO */
-#define  DSDC_WTS	 0x01		/* Word Transfer Select		*/
-#define  DSDC_BOS	 0x02		/* Byte Order Select		*/
-#define  DSDC_LAS	 0x04		/* Long Address Select		*/
-#define  DSDC_BMS	 0x08		/* Burst Mode Select		*/
-#define  DSDC_AR	 0x10		/* Autoinitialize Remote	*/
-#define  DSDC_FT0	 0x20		/* Fifo Threshold Select	*/
-#define  DSDC_FT1	 0x40		/* Fifo Threshold Select	*/
-
-#define ds0_rcvcrcctr	ds0_dcr		/* Receive CRC error counter RO */
-
-#define ds0_imr		0x0F		/* Interrupt mask register   WO	*/
-#define  DSIM_PRXE	 0x01		/*  Packet received enable	*/
-#define  DSIM_PTXE	 0x02		/*  Packet transmitted enable	*/
-#define  DSIM_RXEE	 0x04		/*  Receive error enable	*/
-#define  DSIM_TXEE	 0x08		/*  Transmit error enable	*/
-#define  DSIM_OVWE	 0x10		/*  Overwrite warning enable	*/
-#define  DSIM_CNTE	 0x20		/*  Counter overflow enable	*/
-#define  DSIM_RDCE	 0x40		/*  Dma complete enable		*/
-
-
-/* We DON'T enable Counter Overflow and Remote DMA complete. */
-#define  IMR_ENABLE   (DSIM_PRXE|DSIM_PTXE|DSIM_RXEE|DSIM_TXEE|DSIM_OVWE)
-
-#define ds0_rcvfrmctr	ds0_imr		/* Receive Frame error cntr  RO */
-
-
-#define ds1_par0	ds0_pstart	/* Physical address register 0	*/
-				/* Physical address registers 1-4 	*/
-#define ds1_par5	ds0_tbcr1	/* Physical address register 5	*/
-#define ds1_curr	ds0_isr		/* Current page (receive unit)  */
-#define ds1_mar0	ds0_rsar0	/* Multicast address register 0	*/
-				/* Multicast address registers 1-6 	*/
-#define ds1_mar7	ds0_imr		/* Multicast address register 7	*/
-#define ds1_curr	ds0_isr		/* Current page (receive unit)  */
-
-#define DS_PGSIZE	256		/* Size of RAM pages in bytes	*/
-
-/*
- * Packet receive header, 1 per each buffer page used in receive packet
- */
-struct prhdr {
-	u_char	pr_status;	/* is this a good packet, same as ds0_rsr */
-	u_char	pr_nxtpg;	/* next page of packet or next packet */
-	u_char	pr_sz0;
-	u_char	pr_sz1;
-};
diff --git a/i386/i386at/if_3c503.h b/i386/i386at/if_3c503.h
deleted file mode 100644
index 865882c..0000000
--- a/i386/i386at/if_3c503.h
+++ /dev/null
@@ -1,116 +0,0 @@
-/* 
- * Mach Operating System
- * Copyright (c) 1991 Carnegie-Mellon University
- * All Rights Reserved.
- * 
- * Permission to use, copy, modify and distribute this software and its
- * documentation is hereby granted, provided that both the copyright
- * notice and this permission notice appear in all copies of the
- * software, derivative works or modified versions, and any portions
- * thereof, and that both notices appear in supporting documentation.
- * 
- * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
- * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
- * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
- * 
- * Carnegie Mellon requests users of this software to return to
- * 
- *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
- *  School of Computer Science
- *  Carnegie Mellon University
- *  Pittsburgh PA 15213-3890
- * 
- * any improvements or extensions that they make and grant Carnegie Mellon
- * the rights to redistribute these changes.
- */
-
-/* Vendor unique hardware addr. prefix. 3Com has 2 because they ran
-   out of available addresses on the first one... */
-
-#define OLD_3COM_ID     0x02608c
-#define NEW_3COM_ID     0x0020af
-
-/* Gate Array Description */
-
-#define	PSTR	0x400
-#define	PSPR	0x401
-#define	DQTR	0x402
-#define	BCFR	0x403
-#define	PCFR	0x404
-#define	GACFR	0x405
-#define	CTLR	0x406
-#define	STREG	0x407
-#define	IDCFR	0x408
-#define	DAMSB	0x409
-#define	DALSB	0x40A
-#define	VPTR2	0x40B
-#define	VPTR1	0x40C
-#define	VPTR0	0x40D
-#define	RFMSB	0x40E
-#define	RFLSB	0x40F
-
-		/*	PSTR	400	*/
-/* int */
-		/*	PSPR	401	*/
-/* int */
-		/*	DQTR	402	*/
-/* dma only */
-		/*	BCFR	403	*/
-#define	B7_300	0x300
-#define	B6_310	0x310
-#define	B5_330	0x330
-#define	B4_350	0x350
-#define	B3_250	0x250
-#define	B2_280	0x280
-#define	B1_2A0	0x2a0
-#define	B0_2E0	0x2e0
-		/*	PCFR	404	*/
-
-		/*	GACFR	405	*/
-#define	GACFR_NIM	0x80
-#define	GACFR_TCM	0x40
-#define	GACFR_OWS	0x20
-#define	GACFR_TEST	0x10
-#define	GACFR_RSEL	0x08
-#define	GACFR_MBS2	0x04
-#define	GACFR_MBS1	0x02
-#define	GACFR_MBS0	0x01
-	/*
-	 * This definition is only for the std 8k window on an 8k board.
-	 * It is incorrect for a 32K board.  But they do not exists yet
-	 * and I don't even know how to tell I am looking at one.
-	 */
-#define	GACFR_8K	(GACFR_RSEL|0x1)
-		/*	CTLR	406	*/
-#define	CTLR_START	0x80
-#define	CTLR_DDIR	0x40
-#define	CTLR_DBSEL	0x20
-#define	CTLR_SHARE	0x10
-#define	CTLR_EAHI	0x08
-#define	CTLR_EALO	0x04
-#define	CTLR_XSEL	0x02
-#define	CTLR_RST	0x01
-#define	CTLR_EA		0x0c
-#define CTLR_STA_ADDR	0x04
-#define CTLR_THIN	0x02
-#define CTLR_THICK	0x00
-		/*	STREG	407	*/
-/* DMA */
-		/*	IDCFR	408	*/
-#define	IDCFR_IRQ5	0x80
-#define	IDCFR_IRQ4	0x40
-#define	IDCFR_IRQ3	0x20
-#define	IDCFR_IRQ2	0x10
-#define	IDCFR_DRQ3	0x04
-#define	IDCFR_DRQ2	0x02
-#define	IDCFR_DRQ1	0x01
-		/*	DAMSB	409	*/
-/* int & dma */
-		/*	DALSB	40A	*/
-/* int & dma */
-		/*	VPTR2	40B	*/
-		/*	VPTR1	40C	*/
-		/*	VPTR0	40D	*/
-		/*	RFMSB	40E	*/
-/* what's a register file */
-		/*	RFLSB	40F	*/
diff --git a/i386/i386at/if_ns8390.c b/i386/i386at/if_ns8390.c
deleted file mode 100644
index 15c9440..0000000
--- a/i386/i386at/if_ns8390.c
+++ /dev/null
@@ -1,2578 +0,0 @@
-/*
- * Mach Operating System
- * Copyright (c) 1991,1990,1989 Carnegie Mellon University
- * All Rights Reserved.
- * 
- * Permission to use, copy, modify and distribute this software and its
- * documentation is hereby granted, provided that both the copyright
- * notice and this permission notice appear in all copies of the
- * software, derivative works or modified versions, and any portions
- * thereof, and that both notices appear in supporting documentation.
- * 
- * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
- * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
- * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
- * 
- * Carnegie Mellon requests users of this software to return to
- * 
- *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
- *  School of Computer Science
- *  Carnegie Mellon University
- *  Pittsburgh PA 15213-3890
- * 
- * any improvements or extensions that they make and grant Carnegie Mellon
- * the rights to redistribute these changes.
- */
-/* NOTE:
- *	There are three outstanding bug/features in this implementation.
- * They may even be hardware misfeatures.  The conditions are registered
- * by counters maintained by the software.
- *	1: over_write is a condition that means that the board wants to store
- * packets, but there is no room.  So new packets are lost.  What seems to
- * be happening is that we get an over_write condition, but there are no
- * or just a few packets in the board's ram.  Also it seems that we get
- * several over_writes in a row.
- *	2: Since there is only one transmit buffer, we need a lock to indicate
- * whether it is in use.  We clear this lock when we get a transmit interrupt.
- * Sometimes we go to transmit and although there is no transmit in progress,
- * the lock is set.  (In this case, we just ignore the lock.)  It would look
- * like we can miss transmit interrupts?
- *	3: We tried to clean up the unnecessary switches to bank 0.  
- * Unfortunately, when you do an ifconfig "down", the system tend to lock up
- * a few seconds later (this was when DSF_RUNNING) was not being set before.
- * But even with DSF_RUNNING, on an EISA bus machine we ALWAYS lock up after
- * a few seconds. 
- */
-
-/*
- * Western Digital 8003E Mach Ethernet driver (for intel 80386)
- * Copyright (c) 1990 by Open Software Foundation (OSF).
- */
-
-/*
-  Copyright 1990 by Open Software Foundation,
-Cambridge, MA.
-
-		All Rights Reserved
-
-  Permission to use, copy, modify, and distribute this software and
-its documentation for any purpose and without fee is hereby granted,
-provided that the above copyright notice appears in all copies and
-that both the copyright notice and this permission notice appear in
-supporting documentation, and that the name of OSF or Open Software
-Foundation not be used in advertising or publicity pertaining to
-distribution of the software without specific, written prior
-permission.
-
-  OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE
-<INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS,
-IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR
-CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT,
-NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
-WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-*/
-
-#define IF_CNTRS	MACH
-
-#include	<ns8390.h>
-#if NNS8390 > 0
-
-#include	<mach_ttd.h>
-#include	<kern/time_out.h>
-#include	<device/device_types.h>
-#include	<device/errno.h>
-#include	<device/io_req.h>
-#include	<device/if_hdr.h>
-#include	<device/if_ether.h>
-#include	<device/net_status.h>
-#include	<device/net_io.h>
-#include	"vm_param.h"
-#include	<i386/ipl.h>
-#include	<chips/busses.h>
-#include	<i386at/ds8390.h>
-#include	<i386at/if_wd8003.h>
-#include	<i386at/if_3c503.h>
-
-#if	MACH_TTD
-#include <ttd/ttd_stub.h>
-#endif	/* MACH_TTD */
-
-
-#define	SPLNET	spl6
-
-int wd_debug = 0;
-  
-int	ns8390probe();
-void	ns8390attach();
-int	ns8390intr();
-int	ns8390init();
-int	ns8390output();
-int	ns8390ioctl();
-int	ns8390reset();
-int     ns8390rcv();
-int	ns8390watch();
-int     ns8390get_CURR();
-int     ns8390over_write();
-
-struct	bus_device	*ns8390info[NNS8390];	/* ???? */
-
-static vm_offset_t ns8390_std[NNS8390] = { 0 };
-static struct bus_device *ns8390_info[NNS8390];
-struct	bus_driver	ns8390driver =
-	{ns8390probe, 0, ns8390attach, 0, ns8390_std, "ns8390", ns8390_info, 0, 0, 0};
-
-int	watchdog_id;
-
-char *wd8003_card = "wd";
-char *elii_card = "el";
-/*		  2e0, 2a0, 280,  250,   350,   330,   310, 300*/
-int elii_irq[8] = {5,   2,   2,     5,     5, 0x711, 0x711,  5};
-int elii_bnc[8] = {1,   0,   1,     1,     0, 0x711, 0x711,  0};
-/*int elii_bnc[8] = {0, 1,   1,     1,     1,     1,     0,  1}; */
-
-typedef struct {
-#ifdef	MACH_KERNEL
-	struct	ifnet	ds_if;		/* generic interface header */
-	u_char	ds_addr[6];		/* Ethernet hardware address */
-#else	MACH_KERNEL
-	struct	arpcom	ns8390_ac;
-#define	ds_if	ns8390_ac.ac_if
-#define	ds_addr	ns8390_ac.ac_enaddr
-#endif	MACH_KERNEL
-	int	flags;
-	int     timer;
-	int     interrupt;
-	char 	*nic;
-	u_char   address[ETHER_ADDR_SIZE];
-	short	mode;
-	int     tbusy;
-	char    *sram;		/* beginning of the shared memory RAM buffer */
-	int     read_nxtpkt_ptr;/* pointer to next packet available */
-	int     pstart;		/* page start hold */
-	int     pstop;		/* page stop hold */
-	int     tpsr;		/* transmit page start hold */
-	int     fifo_depth;	/* NIC fifo threshold */
-	char	*card;
-	int     board_id;
-}
-ns8390_softc_t;
-
-ns8390_softc_t	ns8390_softc[NNS8390];
-
-struct ns8390_cntrs {
-u_int	ovw,
-	jabber,
-	crc,
-	frame,
-	miss,
-	fifo,
-	rcv;
-u_int	xmt,
-	xmti,
-	busy,
-	heart;
-} ns8390_cntrs[NNS8390];
-
-#if	MACH_TTD	
-boolean_t ttd_poll_loop;
-
-int ns8390poll_receive();
-int ns8390transmit_ttd();
-#endif	/* MACH_TTD */
-
-#ifdef	IF_CNTRS
-int ns_narp = 1, ns_arp = 0;
-int ns_ein[32], ns_eout[32]; 
-int ns_lin[128/8], ns_lout[128/8]; 
-static
-log_2(no)
-unsigned long no;
-{
-	return ({ unsigned long _temp__;
-		asm("bsr %1, %0; jne 0f; xorl %0, %0; 0:" :
-		    "=r" (_temp__) : "a" (no));
-		_temp__;});
-}
-#endif	IF_CNTRS
-
-/* Interrupts mask bits */
-int  imr_hold = DSIM_PRXE|DSIM_PTXE|DSIM_RXEE|DSIM_TXEE|DSIM_OVWE|DSIM_CNTE; 
-
-/*
- * ns8390probe:
- *
- *	This function "probes" or checks for the wd8003 board on the bus to see
- *	if it is there.  As far as I can tell, the best break between this
- *	routine and the attach code is to simply determine whether the board
- *      is configured in properly. Currently my approach to this is to test the
- *      base I/O special offset for the Western Digital unique byte sequence
- *      identifier.  If the bytes match we assume board is there.
- *	The config code expects to see a successful return from the probe
- *	routine before attach will be called.
- *
- * input	: address device is mapped to, and unit # being checked
- * output	: a '1' is returned if the board exists, and a 0 otherwise
- *
- */
-
-ns8390probe(port, dev)
-struct bus_device	*dev;
-{
-	caddr_t		hdwbase = (caddr_t)dev->address;
-	int		unit = dev->unit;
-	ns8390_softc_t	*sp = &ns8390_softc[unit];
-	int		tmp;
-	int 		vendor_id;
-
-	if ((unit < 0) || (unit > NNS8390)) {
-		printf("ns8390 ethernet unit %d out of range\n", unit);
-		return(0);
-	}
-	if (((u_char) inb(hdwbase+IFWD_LAR_0) == (u_char) WD_NODE_ADDR_0) &&
-	    ((u_char) inb(hdwbase+IFWD_LAR_1) == (u_char) WD_NODE_ADDR_1) &&
-	    ((u_char) inb(hdwbase+IFWD_LAR_2) == (u_char) WD_NODE_ADDR_2)) {
-			ns8390info[unit] = dev;
-			sp->card = wd8003_card;
-			dev->name = wd8003_card;
-			sp->nic = hdwbase + OFF_8390;
-				/* enable mem access to board */
-			sp->board_id = wd80xxget_board_id(dev);
-
-			*(sp->address)      = inb(hdwbase+IFWD_LAR_0);
-			*(sp->address + 1)  = inb(hdwbase+IFWD_LAR_1);
-			*(sp->address + 2)  = inb(hdwbase+IFWD_LAR_2);
-			*(sp->address + 3)  = inb(hdwbase+IFWD_LAR_3);
-			*(sp->address + 4)  = inb(hdwbase+IFWD_LAR_4);
-			*(sp->address + 5)  = inb(hdwbase+IFWD_LAR_5);
-			return (1);
-		}  /* checks the address of the board to verify that it is a WD */
-	
-	/* try to avoid any NE2000 pretending to be an el II */
-	if (inb(hdwbase + 0x408) == 0xff) 
-		return 0;
-
-	/* check vendor id */
-	tmp = inb(hdwbase + CTLR);
-
-	outb(hdwbase + CTLR, CTLR_RST|CTLR_THIN); /* Reset it... */
-	outb(hdwbase + CTLR, CTLR_THIN);
-	/* 
-	 * Map the station addr PROM into the lower I/O ports. We now
-	 * check for both the old and new 3Com prefix 
-	 */
-	outb(hdwbase + CTLR, CTLR_STA_ADDR|CTLR_THIN);
-	vendor_id = inb(hdwbase)*0x10000 + inb(hdwbase + 1)*0x100 + 
-		inb(hdwbase + 2);
-	/* Restore the register we frobbed. */
-	outb(hdwbase + CTLR, tmp);
-	if ((vendor_id != OLD_3COM_ID) && (vendor_id != NEW_3COM_ID)) 
-		return 0;
-
-	if ((tmp = inb(hdwbase+BCFR))) {
-		switch(tmp) {
-	        case (1<<7):	sp->board_id = 7; break;	/*irq5 xvcr*/
-#ifdef	not_currently_possible
-		case (1<<6):	sp->board_id = 6; break;
-		case (1<<5):	sp->board_id = 5; break;
-#endif	not_currently_possible
-		case (1<<4):	sp->board_id = 4; break;
-		case (1<<3):	sp->board_id = 3; break;
-		case (1<<2):	sp->board_id = 2; break;	/*irq2 bnc*/
-		case (1<<1):	sp->board_id = 1; break;	/*irq2 xvcr*/
-		case (1<<0):	sp->board_id = 0; break;	/*irq5 bnc*/
-	        default:	return 0;
-		}
-		switch (inb(hdwbase+PCFR)) {
-	        case (1<<7):	dev->phys_address = 0xDC000; break;
-		case (1<<6):	dev->phys_address = 0xD8000; break;
-#ifdef	not_currently_possible
-		case (1<<5):	dev->phys_address = 0xCC000; break;
-		case (1<<4):	dev->phys_address = 0xC8000; break;
-#endif	not_currently_possible
-		default:
-			printf("EtherLink II with NO memory configured\n");
-			return 0;
-		}
-		ns8390info[unit] = dev;
-		dev->sysdep1 = elii_irq[sp->board_id];
-		if (dev->sysdep1 == 2)
-			dev->sysdep1 = 9;
-		sp->card = elii_card;
-		dev->name = elii_card;
-		sp->nic = hdwbase;
-		return 1;
-        }
-
-	return(0);
-}
-
-/*
- * ns8390attach:
- *
- *	This function attaches a ns8390 board to the "system".  The rest of
- *	runtime structures are initialized here (this routine is called after
- *	a successful probe of the board).  Once the ethernet address is read
- *	and stored, the board's ifnet structure is attached and readied.
- *
- * input	: bus_device structure setup in autoconfig
- * output	: board structs and ifnet is setup
- *
- */
-
-void ns8390attach(dev)
-struct bus_device	*dev;
-{
-	ns8390_softc_t	*sp;
-	struct	ifnet	*ifp;
-	u_char		unit;
-	int             temp;
-
-	take_dev_irq(dev);
-	unit = (u_char)dev->unit;
-	sp = &ns8390_softc[unit];
-	printf(", port = %x, spl = %d, pic = %d. ",
-		dev->address, dev->sysdep, dev->sysdep1);
-
-	if (sp->card == elii_card) {
-		if (elii_bnc[sp->board_id])
-			printf("cheapernet ");
-		else
-			printf("ethernet ");
-	} else
-		printf("ethernet ");
-
-	(volatile char *)sp->sram =
-	    (volatile char *) phystokv(dev->phys_address);
-	dev->address = (vm_offset_t) phystokv(dev->address);
-	sp->timer = -1;
-	sp->flags = 0;
-	sp->mode  = 0;
-
-	if (!ns8390hwrst(unit)) {
-		printf("%s%d: attach(): reset failed.\n",
-			sp->card, unit);
-		return;
-	}
-		/* N.B. sp->address is not determined till
-		 * hwrst time. */
-	*(sp->ds_addr)      = *(sp->address);
-	*(sp->ds_addr + 1)  = *(sp->address + 1);
-	*(sp->ds_addr + 2)  = *(sp->address + 2);
-	*(sp->ds_addr + 3)  = *(sp->address + 3);
-	*(sp->ds_addr + 4)  = *(sp->address + 4);
-	*(sp->ds_addr + 5)  = *(sp->address + 5);
-
-	printf("id [%x:%x:%x:%x:%x:%x]",
-		sp->address[0],sp->address[1],sp->address[2],
-		sp->address[3],sp->address[4],sp->address[5]);
-	ifp = &(sp->ds_if);
-	ifp->if_unit = unit;
-	ifp->if_mtu = ETHERMTU;
-	ifp->if_flags = IFF_BROADCAST;
-#ifdef	MACH_KERNEL
-	ifp->if_header_size = sizeof(struct ether_header);
-	ifp->if_header_format = HDR_ETHERNET;
-	ifp->if_address_size = 6;
-	ifp->if_address = (char *)&sp->address[0];
-	if_init_queues(ifp);
-#else	MACH_KERNEL
-	ifp->if_name = sp->card;
-	ifp->if_init = ns8390init;
-	ifp->if_output = ns8390output;
-	ifp->if_ioctl = ns8390ioctl;
-	ifp->if_reset = ns8390reset;
-	ifp->if_next = NULL;
-	if_attach(ifp);
-#ifdef notdef
-	watchdog_id = timeout(ns8390watch, &(ifp->if_unit), 20*HZ);
-#endif
-#endif	MACH_KERNEL
-
-#ifdef	MACH_KERNEL
-#if	MACH_TTD
-	if (!ttd_get_packet) {
-		ttd_device_unit = unit;
-		ttd_get_packet = ns8390poll_receive;
-		ttd_send_packet = ns8390transmit_ttd;
-		ttd_host_ether_id.array[0] = *(sp->address);
-		ttd_host_ether_id.array[1] = *(sp->address + 1);
-		ttd_host_ether_id.array[2] = *(sp->address + 2);
-		ttd_host_ether_id.array[3] = *(sp->address + 3);
-		ttd_host_ether_id.array[4] = *(sp->address + 4);
-		ttd_host_ether_id.array[5] = *(sp->address + 5);
-	}
-#endif	/* MACH_TTD */
-#endif	/* MACH_KERNEL */
-}
-
-/*
- * ns8390watch():
- *
- */
-
-int
-ns8390watch(b_ptr)
-caddr_t	b_ptr;
-{
-	int	x,
-		y,
-		opri,
-		unit;
-	int     temp_cr;
-	caddr_t nic;
-
-	unit = *b_ptr;
-#ifdef	MACH_KERNEL
-	timeout(ns8390watch,b_ptr,20*HZ);
-#else	MACH_KERNEL
-	watchdog_id = timeout(ns8390watch,b_ptr,20*HZ);
-#endif	MACH_KERNEL
-	nic = ns8390_softc[unit].nic;
-	temp_cr = inb(nic+ds_cmd);
-	outb(nic + ds_cmd, (temp_cr & 0x3f) | DSCM_PG0);
-	printf("<<< ISR=%x CURR=%x rdnxt=%x BNDY=%x>>> ",
-		inb(nic + ds0_isr),
-		ns8390get_CURR(unit), ns8390_softc[unit].read_nxtpkt_ptr,
-		inb(nic+ds0_bndy));
-	outb(nic+ds_cmd,temp_cr);
-}
-
-#ifdef	MACH_KERNEL
-int ns8390start();	/* forward */
-
-/*ARGSUSED*/
-wd8003open(dev, flag)
-	dev_t	dev;
-	int	flag;
-{
-	register int	unit = minor(dev);
-
-	if (ns8390_softc[unit].card != wd8003_card)
-		return (ENXIO);
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-
-	ns8390_softc[unit].ds_if.if_flags |= IFF_UP;
-	ns8390init(unit);
-	return(0);
-}
-
-eliiopen(dev, flag)
-	dev_t	dev;
-	int	flag;
-{
-	register int	unit = minor(dev);
-
-	if (ns8390_softc[unit].card != elii_card)
-		return (ENXIO);
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-
-	ns8390_softc[unit].ds_if.if_flags |= IFF_UP;
-	ns8390init(unit);
-	return(0);
-}
-
-ns8390output(dev, ior)
-	dev_t		dev;
-	io_req_t	ior;
-{
-	register int	unit = minor(dev);
-
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-	return (net_write(&ns8390_softc[unit].ds_if, ns8390start, ior));
-}
-
-ns8390setinput(dev, receive_port, priority, filter, filter_count)
-	dev_t		dev;
-	mach_port_t	receive_port;
-	int		priority;
-	filter_t	filter[];
-	unsigned int	filter_count;
-{
-	register int unit = minor(dev);
-
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-
-	return (net_set_filter(&ns8390_softc[unit].ds_if,
-			receive_port, priority,
-			filter, filter_count));
-}
-
-#else	MACH_KERNEL
-/*
- * ns8390output:
- *
- *	This routine is called by the "if" layer to output a packet to
- *	the network.  This code resolves the local ethernet address, and
- *	puts it into the mbuf if there is room.  If not, then a new mbuf
- *	is allocated with the header information and precedes the data
- *	to be transmitted.  The routine ns8390xmt() which actually
- *      transmits the data expects the ethernet header to precede the
- *      data in the mbuf.
- *
- * input:	ifnet structure pointer, an mbuf with data, and address
- *		to be resolved
- * output:	mbuf is updated to hold enet address, or a new mbuf
- *	  	with the address is added
- *
- */
-
-ns8390output(ifp, m0, dst)
-struct ifnet	*ifp;
-struct mbuf	*m0;
-struct sockaddr *dst;
-{
-	register ns8390_softc_t		*is = &ns8390_softc[ifp->if_unit];
-	u_char				edst[6];
-	struct in_addr 			idst;
-	register struct mbuf		*m = m0;
-	register struct ether_header	*eh;
-	register int 			off;
-	int				usetrailers;
-	int 				type, error;
-	spl_t				opri;
-
-	if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) {
-		printf("%s%d output(): Turning off board %d\n",
-			is->card, ifp->if_unit);
-		ns8390intoff(ifp->if_unit);
-		error = ENETDOWN;
-		goto bad;
-	}
-	switch (dst->sa_family) {
-#ifdef INET
-	case AF_INET:
-		idst = ((struct sockaddr_in *)dst)->sin_addr;
-		if (!arpresolve(&is->ns8390_ac, m, &idst, edst, &usetrailers)){
-			return (0);	/* if not yet resolved */
-		}
-		off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len;
-		if (usetrailers && off > 0 && (off & 0x1ff) == 0 &&
-		    m->m_off >= MMINOFF + 2 * sizeof (u_short)) {
-			type = ETHERTYPE_TRAIL + (off>>9);
-			m->m_off -= 2 * sizeof (u_short);
-			m->m_len += 2 * sizeof (u_short);
-			*mtod(m, u_short *) = htons((u_short)ETHERTYPE_IP);
-			*(mtod(m, u_short *) + 1) = htons((u_short)m->m_len);
-			goto gottrailertype;
-		}
-		type = ETHERTYPE_IP;
-		off = 0;
-		goto gottype;
-#endif
-#ifdef NS
-	case AF_NS:
-		type = ETHERTYPE_NS;
-		bcopy((caddr_t)&(((struct sockaddr_ns *)dst)->sns_addr.x_host),
-		      (caddr_t)edst,
-		      sizeof (edst));
-		off = 0;
-		goto gottype;
-#endif
-	case AF_UNSPEC:
-		eh = (struct ether_header *)dst->sa_data;
-		bcopy((caddr_t)eh->ether_dhost, (caddr_t)edst, sizeof (edst));
-		type = eh->ether_type;
-		goto gottype;
-	default:
-		printf("%s%d output(): can't handle af%d\n",
-			is->card, ifp->if_unit,
-			dst->sa_family);
-		error = EAFNOSUPPORT;
-		goto bad;
-	}
-gottrailertype:
-	/*
-	 * Packet to be sent as trailer: move first packet
-	 * (control information) to end of chain.
-	 */
-	while (m->m_next)
-		m = m->m_next;
-	m->m_next = m0;
-	m = m0->m_next;
-	m0->m_next = 0;
-	m0 = m;
-gottype:
-	/*
-	 * Add local net header.  If no space in first mbuf,
-	 * allocate another.
-	 */
-	if (m->m_off > MMAXOFF ||
-	    MMINOFF + sizeof (struct ether_header) > m->m_off) {
-		m = m_get(M_DONTWAIT, MT_HEADER);
-		if (m == 0) {
-			error = ENOBUFS;
-			goto bad;
-		}
-		m->m_next = m0;
-		m->m_off = MMINOFF;
-		m->m_len = sizeof (struct ether_header);
-	} else {
-		m->m_off -= sizeof (struct ether_header);
-		m->m_len += sizeof (struct ether_header);
-	}
-	eh = mtod(m, struct ether_header *);
-	eh->ether_type = htons((u_short)type);
-	bcopy((caddr_t)edst, (caddr_t)eh->ether_dhost, sizeof (edst));
-	bcopy((caddr_t)is->address,
-	      (caddr_t)eh->ether_shost,
-	      sizeof(edst));
-	/*
-	 * Queue message on interface, and start output if interface
-	 * not yet active.
-	 */
-	opri = SPLNET();
-	if (IF_QFULL(&ifp->if_snd)) {
-		IF_DROP(&ifp->if_snd);
-		splx(opri);
-		m_freem(m);
-		return (ENOBUFS);
-	}
-	IF_ENQUEUE(&ifp->if_snd, m);
-	/*
- 	 * Some action needs to be added here for checking whether the
-	 * board is already transmitting.  If it is, we don't want to
- 	 * start it up (ie call ns8390start()).  We will attempt to send
- 	 * packets that are queued up after an interrupt occurs.  Some
- 	 * flag checking action has to happen here and/or in the start
- 	 * routine.  This note is here to remind me that some thought
- 	 * is needed and there is a potential problem here.
-	 *
-	 */
-	ns8390start(ifp->if_unit);
-	splx(opri);
-	return (0);
-bad:
-	m_freem(m0);
-	return (error);
-}
-#endif MACH_KERNEL
-
-/*
- * ns8390reset:
- *
- *	This routine is in part an entry point for the "if" code.  Since most
- *	of the actual initialization has already (we hope already) been done
- *	by calling ns8390attach().
- *
- * input	: unit number or board number to reset
- * output	: board is reset
- *
- */
-
-int
-ns8390reset(unit)
-int	unit;
-{
-
-	ns8390_softc[unit].ds_if.if_flags &= ~IFF_RUNNING;
-	return(ns8390init(unit));
-}
-
-/*
- * ns8390init:
- *
- *	Another routine that interfaces the "if" layer to this driver.
- *	Simply resets the structures that are used by "upper layers".
- *	As well as calling ns8390hwrst that does reset the ns8390 board.
- *
- * input	: board number
- * output	: structures (if structs) and board are reset
- *
- */
-
-int
-ns8390init(unit)
-int	unit;
-{
-	struct	ifnet	*ifp;
-	int		stat;
-	spl_t		oldpri;
-
-	ifp = &(ns8390_softc[unit].ds_if);
-#ifdef	MACH_KERNEL
-#else	MACH_KERNEL
-	if (ifp->if_addrlist == (struct ifaddr *)0) {
-		return;
-	}
-#endif	MACH_KERNEL
-	oldpri = SPLNET();
-	if ((stat = ns8390hwrst(unit)) == TRUE) {
-		ns8390_softc[unit].ds_if.if_flags |= IFF_RUNNING;
-		ns8390_softc[unit].flags |= DSF_RUNNING;
-		ns8390_softc[unit].tbusy = 0;
-		ns8390start(unit);
-	} else
-		printf("%s%d init(): trouble resetting board %d\n",
-			ns8390_softc[unit].card, unit);
-	ns8390_softc[unit].timer = 5;
-	splx(oldpri);
-	return(stat);
-}
-
-/*
- * ns8390start:
- *
- *	This is yet another interface routine that simply tries to output a
- *	in an mbuf after a reset.
- *
- * input	: board number
- * output	: stuff sent to board if any there
- *
- */
-
-ns8390start(unit)
-int	unit;
-{
-	register ns8390_softc_t *is = &ns8390_softc[unit];
-	struct	ifnet		*ifp;
-#ifdef	MACH_KERNEL
-	io_req_t	m;
-#else	MACH_KERNEL
-	struct	mbuf	*m;
-#endif	MACH_KERNEL
-
-	if (is->tbusy) {
-		caddr_t nic = ns8390_softc[unit].nic;
-		if (!(inb(nic+ds_cmd) & DSCM_TRANS)) {
-			is->tbusy = 0;
-			ns8390_cntrs[unit].busy++;
-		} else
-			return;
-	}
-
-	ifp = &(ns8390_softc[unit].ds_if);
-
-	IF_DEQUEUE(&ifp->if_snd, m);
-#ifdef	MACH_KERNEL
-	if (m != 0)
-#else	MACH_KERNEL
-	if (m != (struct mbuf *)0)
-#endif	MACH_KERNEL
-	{
-		is->tbusy++;
-		ns8390_cntrs[unit].xmt++;
-		ns8390xmt(unit, m);
-	}
-}
-
-#ifdef	MACH_KERNEL
-/*ARGSUSED*/
-ns8390getstat(dev, flavor, status, count)
-	dev_t		dev;
-	int		flavor;
-	dev_status_t	status;		/* pointer to OUT array */
-	unsigned int	*count;		/* out */
-{
-	register int	unit = minor(dev);
-
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-
-	return (net_getstat(&ns8390_softc[unit].ds_if,
-			    flavor,
-			    status,
-			    count));
-}
-ns8390setstat(dev, flavor, status, count)
-	dev_t		dev;
-	int		flavor;
-	dev_status_t	status;
-	unsigned int	count;
-{
-	register int	unit = minor(dev);
-	register ns8390_softc_t *sp;
-
-	if (unit < 0 || unit >= NNS8390 ||
-		ns8390_softc[unit].nic == 0)
-	    return (ENXIO);
-
-	sp = &ns8390_softc[unit];
-
-	switch (flavor) {
-	    case NET_STATUS:
-	    {
-		/*
-		 * All we can change are flags, and not many of those.
-		 */
-		register struct net_status *ns = (struct net_status *)status;
-		int	mode = 0;
-
-		if (count < NET_STATUS_COUNT)
-		    return (D_INVALID_SIZE);
-
-		if (ns->flags & IFF_ALLMULTI)
-		    mode |= MOD_ENAL;
-		if (ns->flags & IFF_PROMISC)
-		    mode |= MOD_PROM;
-
-		/*
-		 * Force a complete reset if the receive mode changes
-		 * so that these take effect immediately.
-		 */
-		if (sp->mode != mode) {
-		    sp->mode = mode;
-		    if (sp->flags & DSF_RUNNING) {
-			sp->flags &= ~(DSF_LOCK | DSF_RUNNING);
-			ns8390init(unit);
-		    }
-		}
-		break;
-	    }
-
-	    default:
-		return (D_INVALID_OPERATION);
-	}
-	return (D_SUCCESS);
-}
-#else	MACH_KERNEL
-/*
- * ns8390ioctl:
- *
- *	This routine processes an ioctl request from the "if" layer
- *	above.
- *
- * input	: pointer the appropriate "if" struct, command, and data
- * output	: based on command appropriate action is taken on the
- *	 	  ns8390 board(s) or related structures
- * return	: error is returned containing exit conditions
- *
- */
-
-int
-ns8390ioctl(ifp, cmd, data)
-struct ifnet	*ifp;
-int	cmd;
-caddr_t	data;
-{
-	register struct ifaddr	*ifa = (struct ifaddr *)data;
-	register ns8390_softc_t *is;
-	int			error;
-	spl_t			opri;
-	short			 mode = 0;
-
-	is = &ns8390_softc[ifp->if_unit];
-	opri = SPLNET();
-	error = 0;
-	switch (cmd) {
-	case SIOCSIFADDR:
-		ifp->if_flags |= IFF_UP;
-		ns8390init(ifp->if_unit);
-		switch (ifa->ifa_addr.sa_family) {
-#ifdef INET
-		case AF_INET:
-			((struct arpcom *)ifp)->ac_ipaddr =
-			    IA_SIN(ifa)->sin_addr;
-			arpwhohas((struct arpcom *)ifp, &IA_SIN(ifa)->sin_addr);
-			break;
-#endif
-#ifdef NS
-		case AF_NS:
-			{
-				register struct ns_addr *ina =
-				    &(IA_SNS(ifa)->sns_addr);
-				if (ns_nullhost(*ina))
-					ina->x_host =
-					    *(union ns_host *)(ds->ds_addr);
-				else
-????
-					ns8390seteh(ina->x_host.c_host,
-						    ns8390_softc[ifp->if_unit].base);
-				break;
-			}
-#endif
-		}
-		break;
-	case SIOCSIFFLAGS:
-		if (ifp->if_flags & IFF_ALLMULTI)
-			mode |= MOD_ENAL;
-		if (ifp->if_flags & IFF_PROMISC)
-			mode |= MOD_PROM;
-		/*
-		 * force a complete reset if the receive multicast/
-		 * promiscuous mode changes so that these take
-		 * effect immediately.
-		 *
-		 */
-		if (is->mode != mode) {
-			is->mode = mode;
-			if (is->flags & DSF_RUNNING) {
-				is->flags &=
-				    ~(DSF_LOCK|DSF_RUNNING);
-				ns8390init(ifp->if_unit);
-			}
-		}
-		if ((ifp->if_flags & IFF_UP) == 0 &&
-		    is->flags & DSF_RUNNING) {
-			printf("%s%d ioctl(): turning off board %d\n",
-				is->card, ifp->if_unit);
-			is->flags &= ~(DSF_LOCK | DSF_RUNNING);
-			is->timer = -1;
-			ns8390intoff(ifp->if_unit);
-			ns8390over_write(ifp->if_unit);
-		} else
-		    if (ifp->if_flags & IFF_UP &&
-		    (is->flags & DSF_RUNNING) == 0)
-			ns8390init(ifp->if_unit);
-		break;
-#ifdef	IF_CNTRS
-	case SIOCCIFCNTRS:
-		if (!suser()) {
-			error = EPERM;
-			break;
-		}
-		bzero((caddr_t)ns_ein, sizeof (ns_ein));
-		bzero((caddr_t)ns_eout, sizeof (ns_eout));
-		bzero((caddr_t)ns_lin, sizeof (ns_lin));
-		bzero((caddr_t)ns_lout, sizeof (ns_lout));
-		bzero((caddr_t)&ns_arp, sizeof (int));
-		bzero((caddr_t)&ns8390_cntrs, sizeof (ns8390_cntrs));
-		break;
-#endif	IF_CNTRS
-	default:
-		error = EINVAL;
-	}
-	splx(opri);
-	return (error);
-}
-#endif	MACH_KERNEL
-
-/*
- * ns8390hwrst:
- *
- *	This routine resets the ns8390 board that corresponds to the
- *	board number passed in.
- *
- * input	: board number to do a hardware reset
- * output	: board is reset
- *
- */
-
-int
-ns8390hwrst(unit)
-int unit;
-{
-	caddr_t nic = ns8390_softc[unit].nic;
-	int	count;
-	u_char	stat;
-	spl_t	spl = SPLNET();
-
-	if (ns8390_softc[unit].card == wd8003_card && 
-	    config_wd8003(unit) == FALSE) {
-		printf("%s%d hwrst(): config_wd8003 failed.\n",
-			ns8390_softc[unit].card, unit);
-		splx(spl);
-		return(FALSE);
-	}
-	if (ns8390_softc[unit].card == elii_card && 
-	    config_3c503(unit) == FALSE) {
-		printf("%s%d hwrst(): config_3c503 failed.\n",
-			ns8390_softc[unit].card, unit);
-		splx(spl);
-		return(FALSE);
-	}
-	if (config_nic(unit) == FALSE) {
-		printf("%s%d hwrst(): config_nic failed.\n",
-			ns8390_softc[unit].card, unit);
-		splx(spl);
-		return(FALSE);
-	}
-	splx(spl);
-	return(TRUE);
-}
-
-/*
- * ns8390intr:
- *
- *	This function is the interrupt handler for the ns8390 ethernet
- *	board.  This routine will be called whenever either a packet
- *	is received, or a packet has successfully been transfered and
- *	the unit is ready to transmit another packet.
- *
- * input	: board number that interrupted
- * output	: either a packet is received, or a packet is transfered
- *
- */
-int
-ns8390intr(unit)
-{
-	int	opri, i;
-	int     isr_status;
-	int     temp_cr;
-	caddr_t nic = ns8390_softc[unit].nic;
-
-	temp_cr = inb(nic+ds_cmd);
-	outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0);
-	outb(nic+ds0_imr, 0);                   /* stop board interrupts */
-	outb(nic+ds_cmd, temp_cr);
-	while (isr_status = inb(nic+ds0_isr)) {
-		outb(nic+ds0_isr, isr_status);          /* clear interrupt status */
-
-		if ((isr_status & (DSIS_ROVRN|DSIS_RXE)) == DSIS_RXE) {
-			int rsr = inb(nic+ds0_rsr);
-			if (rsr & DSRS_DFR) ns8390_cntrs[unit].jabber++;
-			if (rsr & ~(DSRS_DFR|DSRS_PHY|DSRS_FAE|DSRS_CRC|DSIS_RX))
-				printf("%s%d intr(): isr = %x, RSR = %x\n",
-					ns8390_softc[unit].card, unit,
-					isr_status, rsr);
-		} else if (isr_status & DSIS_ROVRN) {
-			ns8390_cntrs[unit].ovw++;
-			ns8390over_write(unit);
-		}
-		if (isr_status & DSIS_RX) {	/* DFR & PRX is possible */
-		 	ns8390rcv(unit);
-
-#if	MACH_TTD
-			if (kttd_active)
-				ttd_poll_loop = FALSE;
-#endif	/* MACH_TTD */
-		}
-
-	        if (isr_status & DSIS_TXE) {
-			int tsr = inb(nic+ds0_tsr);
-			tsr &= ~0x2;		/* unadvertised special */
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{
-				if (tsr == (DSTS_CDH|DSTS_ABT))
-					ns8390_cntrs[unit].heart++;
-				else
-					printf("%s%d intr(): isr = %x, TSR = %x\n",
-					       ns8390_softc[unit].card, unit,
-					       isr_status, tsr);
-				ns8390_softc[unit].tbusy = 0;
-				ns8390start(unit);
-			}
-	        } else if (isr_status & DSIS_TX) {
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{
-				ns8390_cntrs[unit].xmti++;
-				ns8390_softc[unit].tbusy = 0;
-				ns8390start(unit);
-			}
-		}
-
-		if (isr_status & DSIS_CTRS) {
-			int c0 = inb(nic+ds0_cntr0);
-			int c1 = inb(nic+ds0_cntr1);
-			int c2 = inb(nic+ds0_cntr2);
-			ns8390_cntrs[unit].frame += c0;
-			ns8390_cntrs[unit].crc += c1;
-			ns8390_cntrs[unit].miss += c2;
-#ifdef	COUNTERS
-			printf("%s%d intr(): isr = %x, FRAME %x, CRC %x, MISS %x\n",
-				ns8390_softc[unit].card, unit,
-				isr_status, c0, c1, c2);
-			printf("%s%d intr(): TOTAL   , FRAME %x, CRC %x, MISS %x\n",
-				ns8390_softc[unit].card, unit,
-				ns8390_cntrs[unit].frame,
-				ns8390_cntrs[unit].crc,
-				ns8390_cntrs[unit].miss);
-#endif	COUNTERS
-			outb(nic+ds0_isr, isr_status);	/* clear interrupt status again */
-		}
-	}
-	temp_cr=inb(nic+ds_cmd);
-	outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0);
-	outb(nic+ds0_imr, imr_hold);
-	outb(nic+ds_cmd, temp_cr);
-	return(0);
-}
-
-/*
- *  Called if on board buffer has been completely filled by ns8390intr.  It stops
- *  the board, reads in all the buffers that are currently in the buffer, and
- *  then restart board.
- */
-ns8390over_write(unit)
-int unit;
-{
-	caddr_t	nic = ns8390_softc[unit].nic;
-	int	no;
-	int	count = 0;
-
-	outb(nic+ds_cmd, DSCM_NODMA|DSCM_STOP|DSCM_PG0);        /* clear the receive buffer */
-	outb(nic+ds0_rbcr0, 0);
-	outb(nic+ds0_rbcr1, 0);  
-	while ((!(inb (nic + ds0_isr) & DSIS_RESET)) && (count < 10000))
-		count++;
-	if (count == 10000) {
-		printf("%s%d: over_write(): would not reset.\n",
-			ns8390_softc[unit].card, unit);
-	}
-	no = ns8390rcv(unit);
-#ifdef	OVWBUG
-	printf("%s%d over_write(): ns8390 OVW ... %d.\n",
-		ns8390_softc[unit].card, unit, no);
-#endif	OVWBUG
-	outb(nic+ds0_tcr, DSTC_LB0); 	/* External loopback mode */
-	outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0);
-	outb(nic+ds0_tcr, 0);
-	return;
-}
-
-/*
- * ns8390rcv:
- *
- *	This routine is called by the interrupt handler to initiate a
- *	packet transfer from the board to the "if" layer above this
- *	driver.  This routine checks if a buffer has been successfully
- *	received by the ns8390.  If so, it does the actual transfer of the
- *      board data (including the ethernet header) into a packet (consisting
- *      of an mbuf chain) and enqueues it to a higher level.
- *      Then check again whether there are any packets in the receive ring,
- *      if so, read the next packet, until there are no more.
- *
- * input	: number of the board to check
- * output	: if a packet is available, it is "sent up"
- */
-ns8390rcv(unit)
-int unit;
-{
-	register ns8390_softc_t	*is = &ns8390_softc[unit];
-	register struct ifnet	*ifp = &is->ds_if;
-	caddr_t			nic = is->nic;
-	int			packets = 0;
-	struct ether_header	eh;
-	u_short			mlen, len, bytes_in_mbuf, bytes;
-	u_short			remaining;
-	int			temp_cr;
-	u_char			*mb_p;
-	int                     board_id = is->board_id;
-	vm_offset_t             hdwbase = ns8390info[unit]->address;
-	spl_t			s;
-
-	/* calculation of pkt size */
-	int nic_overcount;         /* NIC says 1 or 2 more than we need */
-	int pkt_size;              /* calculated size of received data */
-	int wrap_size;             /* size of data before wrapping it */
-	int header_nxtpkt_ptr;     /* NIC's next pkt ptr in rcv header */
-	int low_byte_count;        /* low byte count of read from rcv header */
-	int high_byte_count;       /* calculated high byte count */
-
-
-	volatile char *sram_nxtpkt_ptr;   /* mem location of next packet */
-	volatile char *sram_getdata_ptr;  /* next location to be read */
-#ifdef	MACH_KERNEL
-	ipc_kmsg_t	new_kmsg;
-	struct ether_header *ehp;
-	struct packet_header *pkt;
-#else	MACH_KERNEL
-	struct mbuf *m, *tm;              /* initial allocation of mem; temp */
-#endif	MACH_KERNEL
-
-
-#if	MACH_TTD
-	if (((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) &&
-	    !kttd_active) {
-#else
-	if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) {
-#endif	/* MACH_TTD */
-		temp_cr = inb(nic+ds_cmd); /* get current CR value */
-		outb(nic+ds_cmd,((temp_cr & 0x3F)|DSCM_PG0|DSCM_STOP));
-		outb(nic+ds0_imr, 0);      /* Interrupt Mask Register  */
-		outb(nic+ds_cmd, temp_cr);
-		return -1;
-	}
-
-	while(is->read_nxtpkt_ptr != ns8390get_CURR(unit))   {
-
-		/* while there is a packet to read from the buffer */
-
-		if ((is->read_nxtpkt_ptr < is->pstart) ||
-		    (is->read_nxtpkt_ptr >= is->pstop)) {
-			ns8390hwrst(unit);
-			return -1;
-		}    /* if next packet pointer is out of receive ring bounds */
-
-#if	MACH_TTD
-		if (!kttd_active)
-#endif	/* MACH_TTD */
-		{
-			packets++;
-			ns8390_cntrs[unit].rcv++;
-		}
-
-		sram_nxtpkt_ptr = (char *) (is->sram + (is->read_nxtpkt_ptr << 8));
-
-		/* get packet size and location of next packet */
-		header_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1);
-		header_nxtpkt_ptr &= 0xFF;
-		low_byte_count = *(sram_nxtpkt_ptr + 2);
-		low_byte_count &= 0xFF;
-
-		if ((low_byte_count + NIC_HEADER_SIZE) > NIC_PAGE_SIZE)
-			nic_overcount = 2;
-		else
-			nic_overcount = 1;
-		if (header_nxtpkt_ptr > is->read_nxtpkt_ptr) {
-			wrap_size = 0;
-			high_byte_count = header_nxtpkt_ptr - is->read_nxtpkt_ptr -
-			    nic_overcount;
-		} else {
-			wrap_size = (int) (is->pstop - is->read_nxtpkt_ptr - nic_overcount);
-			high_byte_count = is->pstop - is->read_nxtpkt_ptr +
-			    header_nxtpkt_ptr - is->pstart - nic_overcount;
-		}
-		pkt_size = (high_byte_count << 8) | (low_byte_count & 0xFF);
-		/* does not seem to include NIC_HEADER_SIZE */
-		if (!pkt_size) {
-			printf("%s%d rcv(): zero length.\n",
-				ns8390_softc[unit].card, unit);
-			goto next_pkt;
-		}
-		len = pkt_size;
-
-		sram_getdata_ptr = sram_nxtpkt_ptr + NIC_HEADER_SIZE;
-		if (board_id & IFWD_SLOT_16BIT) {
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{ s = splhi(); }
-
-			en_16bit_access(hdwbase, board_id);
-			bcopy16 (sram_getdata_ptr,
-				 &eh,
-				 sizeof(struct ether_header));
-			dis_16bit_access (hdwbase, board_id);
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{ splx(s); }
-
-		} else {
-			bcopy16 (sram_getdata_ptr,
-				 &eh,
-				 sizeof(struct ether_header));
-		}		    
-		sram_getdata_ptr += sizeof(struct ether_header);
-		len -= (sizeof(struct ether_header) + 4);	/* crc size */
-#ifdef	MACH_KERNEL
-#if	MACH_TTD
-		if (kttd_active) {
-			new_kmsg = (ipc_kmsg_t)ttd_request_msg;
-		}else
-#endif	/* MACH_TTD */
-		{
-			new_kmsg = net_kmsg_get();
-			if (new_kmsg == IKM_NULL) {
-				/*
-				 * Drop the packet.
-				 */
-				is->ds_if.if_rcvdrops++;    
-				/*
-				 * not only do we want to return, we need to drop
-				 * the packet on the floor to clear the interrupt.
-				 */
-				ns8390lost_frame(unit);
-				return;/* packets;*/
-			}
-		}
-
-#if	DEBUG_TTD
-		dump_ether_header("ns8390wire",&eh);
-#endif	/* DEBUG_TTD */
-
-		ehp = (struct ether_header *) (&net_kmsg(new_kmsg)->header[0]);
-		pkt = (struct packet_header *) (&net_kmsg(new_kmsg)->packet[0]);
-
-#if	DEBUG_TTD
-		printf("!ehp = 0x%x, pkt = 0x%x!",ehp, pkt);
-#endif	/* DEBUG_TTD */
-
-		*ehp = eh;
-		if (len >
-		    (wrap_size = (is->sram + (is->pstop << 8) - sram_getdata_ptr))) {
-			/* if needs to wrap */
-			if (board_id & IFWD_SLOT_16BIT) {
-#if	MACH_TTD
-				if (!kttd_active)
-#endif	/* MACH_TTD */
-				{ s = splhi(); }
-
-				en_16bit_access(hdwbase, board_id);
-				bcopy16 (sram_getdata_ptr, (char *) (pkt + 1),
-					 wrap_size);
-				dis_16bit_access (hdwbase, board_id);
-#if	MACH_TTD
-				if (!kttd_active)
-#endif	/* MACH_TTD */
-				{ splx(s); }
-			} else {
-				bcopy (sram_getdata_ptr, (char *) (pkt + 1),
-				       wrap_size);
-			}
-			sram_getdata_ptr = (volatile char *)
-			    (is->sram + (is->pstart << 8));
-		} else {   /* normal getting data from buffer */
-			wrap_size = 0;
-		}
-		if (board_id & IFWD_SLOT_16BIT) {
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{ s = splhi(); }
-			en_16bit_access(hdwbase, board_id);
-			bcopy16 (sram_getdata_ptr,
-				 (char *) (pkt + 1) + wrap_size,
-				 len - wrap_size);
-			dis_16bit_access (hdwbase, board_id);
-#if	MACH_TTD
-			if (!kttd_active)
-#endif	/* MACH_TTD */
-			{ splx(s); }
-		} else {
-			bcopy (sram_getdata_ptr,
-			       (char *) (pkt + 1) + wrap_size,
-			       len - wrap_size);
-		}
-
-		pkt->type = ehp->ether_type;
-		pkt->length = len + sizeof(struct packet_header);
-
-#if	MACH_TTD
-		/*
-		 * Don't want to call net_packet if we are polling
-		 * for a packet.
-		 */
-		if (!kttd_active)
-#endif	/* MACH_TTD */
-		{
-			/*
-			 * Hand the packet to the network module.
-			 */
-			net_packet(ifp, new_kmsg, pkt->length,
-				   ethernet_priority(new_kmsg));
-		}
-
-#else	MACH_KERNEL
-#define NEW
-#ifdef	NEW
-		m = (struct mbuf *) 0;
-		eh.ether_type = ntohs(eh.ether_type);
-		MGET(m, M_DONTWAIT, MT_DATA);
-		if (m == (struct mbuf *) 0) {
-			printf("%s%d rcv(): Lost frame\n",
-				ns8390_softc[unit].card, unit);
-			ns8390lost_frame(unit); /* update NIC pointers and registers */
-			return packets;
-		}
-		m->m_next = (struct mbuf *) 0;
-		tm = m;
-		m->m_len = MLEN;
-		if (len > 2 * MLEN - sizeof (struct ifnet **)) {
-			MCLGET(m);
-		}
-		*(mtod(tm, struct ifnet **)) = ifp;
-		mlen = sizeof (struct ifnet **);
-		bytes_in_mbuf = m->m_len - sizeof(struct ifnet **);
-		mb_p = mtod(tm, u_char *) + sizeof (struct ifnet **);
-		bytes = min(bytes_in_mbuf, len);
-		remaining =  (int) (is->sram + (is->pstop << 8) -
-				    sram_getdata_ptr);
-		bytes = min(bytes, remaining);
-		do {
-		        if (board_id & IFWD_SLOT_16BIT) {
-				s = splhi();
-				en_16bit_access(hdwbase, board_id);
-				bcopy16 (sram_getdata_ptr, mb_p, bytes);
-				dis_16bit_access (hdwbase, board_id);
-				splx(s);
-			} else {
-				bcopy16 (sram_getdata_ptr, mb_p, bytes);
-			}
-			
-			mlen += bytes;
-
-			if (!(bytes_in_mbuf -= bytes)) {
-				MGET(tm->m_next, M_DONTWAIT, MT_DATA);
-				tm = tm->m_next;
-				if (tm == (struct mbuf *)0) {
-					printf("%s%d rcv(): No mbufs, lost frame\n",
-						ns8390_softc[unit].card, unit);
-					m_freem(m);              /* free the mbuf chain */
-					ns8390lost_frame(unit);  /* update NIC pointers and registers */
-					return;
-				}
-				mlen = 0;
-				tm->m_len = MLEN;
-				bytes_in_mbuf = MLEN;
-				mb_p = mtod(tm, u_char *);
-			} else
-				mb_p += bytes;
-
-			if (!(len  -= bytes)) {
-				tm->m_len = mlen;
-				break;
-			} else if (bytes == remaining) {
-				sram_getdata_ptr = (volatile char *) (is->sram +
-				    (is->pstart << 8));
-				bytes = len;
-				remaining = ETHERMTU;
-			} else {
-				sram_getdata_ptr += bytes;
-				remaining -= bytes;
-			}
-
-			bytes = min(bytes_in_mbuf, len);
-			bytes = min(bytes, remaining);
-		} while(1);
-#else	NEW
-		m = (struct mbuf *) 0;
-		eh.ether_type = ntohs(eh.ether_type);
-
-		while ( len ) {
-			if (m == (struct mbuf *) 0) {
-				m = m_get(M_DONTWAIT, MT_DATA);
-				if (m == (struct mbuf *) 0) {
-					printf("%s%d rcv(): Lost frame\n",
-					ns8390_softc[unit].card, unit);
-					ns8390lost_frame(unit); /* update NIC pointers and registers */
-					return packets;
-				}
-				tm = m;
-				tm->m_off = MMINOFF;
-
-
-				/*
-				 * first mbuf in the packet must contain a pointer to the
-				 * ifnet structure.  other mbufs that follow and make up
-				 * the packet do not need this pointer in the mbuf.
-				 *
-				 */
-
-				*(mtod(tm, struct ifnet **)) = ifp;
-				tm->m_len = sizeof(struct ifnet **);
-
-		        /* end of first buffer of packet */
-			} else {
-				tm->m_next = m_get(M_DONTWAIT, MT_DATA);
-				tm = tm->m_next;
-				if (tm == (struct mbuf *) 0) {
-					printf("%s%d rcv(): No mbufs, lost frame\n",
-						ns8390_softc[unit].card, unit);
-					m_freem(m);              /* free the mbuf chain */
-					ns8390lost_frame(unit);  /* update NIC pointers and registers */
-					return packets;
-				}
-				tm->m_off = MMINOFF;
-				tm->m_len = 0;
-			}
-
-			tlen = MIN( MLEN - tm->m_len, len);
-			/* size of mbuf so you know how much you can copy from board */
-			tm->m_next = (struct mbuf *) 0;
-			if (sram_getdata_ptr + tlen >=
-			    (volatile char *) (is->sram + (is->pstop << 8))) {
-				/* if needs to wrap */
-				wrap_size = (int) (is->sram + (is->pstop << 8) -
-				    sram_getdata_ptr);
-				if (board_id & IFWD_SLOT_16BIT) {
-					s = splhi();
-					en_16bit_access(hdwbase, board_id);
-					bcopy16 (sram_getdata_ptr,
-						 mtod(tm, char*) + tm->m_len,
-						 wrap_size);
-					dis_16bit_access (hdwbase, board_id);
-					splx(s);
-				} else {
-					bcopy16 (sram_getdata_ptr,
-						 mtod(tm, char*) + tm->m_len,
-						 wrap_size);
-				}
-				tm->m_len += wrap_size;
-				len -= wrap_size;
-
-				sram_getdata_ptr = (volatile char *) (is->sram +
-				    (is->pstart << 8));
-			} else {   /* normal getting data from buffer */
-				if (board_id & IFWD_SLOT_16BIT) {
-					s = splhi();
-					en_16bit_access(hdwbase, board_id);
-					bcopy16 (sram_getdata_ptr,
-						 mtod(tm, char*) + tm->m_len,
-						 tlen);
-					dis_16bit_access (hdwbase, board_id);
-					splx(s);
-				} else {
-					bcopy16 (sram_getdata_ptr,
-						 mtod(tm, char*) + tm->m_len,
-						 tlen);
-				}
-				sram_getdata_ptr += tlen;
-				tm->m_len += tlen;
-				len -= tlen;
-
-			      }
-		}
-
-#endif	NEW
-		if (!ns8390send_packet_up(m, &eh, is))
-			m_freem(m);
-#ifdef	IF_CNTRS
-		ns_ein[log_2(pkt_size)]++;
-		if (pkt_size < 128) ns_lin[(pkt_size)>>3]++;
-
-		if (eh.ether_type == ETHERTYPE_ARP) {
-			ns_arp++;
-			if (ns_narp) {
-				ns_ein[log_2(pkt_size)]--;
-				if (pkt_size < 128) ns_lin[(pkt_size)>>3]--;
-			}
-		}
-#endif	IF_CNTRS
-#endif	MACH_KERNEL
-
-next_pkt:
-		is->read_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1);
-		is->read_nxtpkt_ptr &= 0xFF;
-
-#if	MACH_TTD
-		if (!kttd_active)
-#endif	/* MACH_TTD */
-		{
-			temp_cr = inb(nic+ds_cmd);
-			outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0);
-		}
-
-		if (is->read_nxtpkt_ptr == ns8390get_CURR(unit))
-			if (is->read_nxtpkt_ptr == is->pstart)
-				outb(nic+ds0_bndy, is->pstop - 1);
-			else
-				outb(nic+ds0_bndy, is->read_nxtpkt_ptr - 1);
-		else
-			outb(nic+ds0_bndy, is->read_nxtpkt_ptr);
-
-#if	MACH_TTD
-		if (!kttd_active)
-#endif	/* MACH_TTD */
-		{ outb(nic+ds_cmd, temp_cr); }
-
-#if	MACH_TTD
-		/*
-		 * Hand the packet back to the TTD server, if active.
-		 */
-		if (kttd_active && pkt_size)
-			return 1;
-#endif	/* MACH_TTD */
-
-
-	}
-	return packets;
-
-}
-
-#ifdef	MACH_KERNEL
-#if	MACH_TTD
-/*
- * Polling routines for the TTD debugger.
- */
-int ns8390poll_receive(unit)
-	int	unit;
-{
-	int s;
-	int orig_cr;
-	int orig_imr;
-	int isr_status;
-	int pkts;
-	
-	ttd_poll_loop = TRUE;
-
-	
-	/*
-	 * Should already in at splhigh.  Is this necessary? XXX
-	 */
-	s = splhigh();
-
-#if	0
-	if (kttd_debug)
-		printf("ns8390poll_receive: beginning polling loop\n");
-#endif	/* DEBUG_TTD */
-
-	/*
-	 * Loop until packet arrives.
-	 */
-	while(ttd_poll_loop) {
-
-		/*
-		 * Call intr routine
-		 */
-
-		ns8390intr(unit);
-	}
-
-#if	0
-	if (kttd_debug)
-		printf("ns8390poll_receive: got packet exiting loop\n");
-#endif	/* DEBUG_TTD */
-
-	splx(s);
-}
-
-int ns8390transmit_ttd(unit, packet, len)
-	int unit;
-	char * packet;
-	int len;
-{
-	ns8390_softc_t	*is = &ns8390_softc[unit];
-	caddr_t		nic = is->nic;
-	u_short		count = 0;	/* amount of data already copied */
-	volatile char	*sram_write_pkt;
-	int     	board_id = is->board_id;
-	caddr_t		hdwbase = ns8390info[unit]->address;
-	int		s;
-	int 		orig_cr;
-	int 		orig_imr;
-	int 		isr_status;
-	boolean_t	loop = TRUE;
-
-#if	0
-	dump_ipudpbootp("Beg of xmit",packet);
-#endif
-
-	s = splhigh();
-
-	/* begining of physical address of transmition buffer */
-
-	sram_write_pkt = is->sram + is->tpsr * 0x100; 
-
-	count = len;
-	if (board_id & IFWD_SLOT_16BIT) {
-		en_16bit_access(hdwbase, board_id);
-		bcopy16 (packet, sram_write_pkt,  count);
-		dis_16bit_access (hdwbase, board_id);
-	} else {
-		bcopy (packet, sram_write_pkt,  count);
-	}
-
-	while (count < ETHERMIN+sizeof(struct ether_header)) {
-		*(sram_write_pkt + count) = 0;
-		count++;
-	}
-	outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0);		/* select page 0 */
-	outb(nic+ds0_tpsr, is->tpsr);		/* xmt page start at 0 of RAM */
-	outb(nic+ds0_tbcr1, count >> 8);		/* upper byte of count */
-	outb(nic+ds0_tbcr0, count & 0xFF);		/* lower byte of count */
-	outb(nic+ds_cmd, DSCM_TRANS|DSCM_NODMA|DSCM_START);		/* start transmission */
-
-	ns8390intr(unit);
-
-	splx(s);
-}
-#endif	/* MACH_TTD */
-#endif	/* MACH_KERNEL */
-
-#ifdef	MACH_KERNEL
-#else	MACH_KERNEL
-/*
- * Send a packet composed of an mbuf chain to the higher levels
- *
- */
-ns8390send_packet_up(m, eh, is)
-struct mbuf *m;
-struct ether_header *eh;
-ns8390_softc_t *is;
-{
-	register struct ifqueue	*inq;
-	spl_t			opri;
-
-	switch (eh->ether_type) {
-#ifdef INET
-	case ETHERTYPE_IP:
-		schednetisr(NETISR_IP);
-		inq = &ipintrq;
-		break;
-	case ETHERTYPE_ARP:
-		arpinput(&is->ns8390_ac, m);
-		return(TRUE);
-#endif
-#ifdef NS
-	case ETHERTYPE_NS:
-		schednetisr(NETISR_NS);
-		inq = &nsintrq;
-		break;
-#endif
-	default:
-		return(FALSE);
-	}
-	opri = SPLNET();
-	if (IF_QFULL(inq)) {
-		IF_DROP(inq);
-		splx(opri);
-		return(FALSE);
-	}
-	IF_ENQUEUE(inq, m);
-	splx(opri);
-	return(TRUE);
-}
-#endif	MACH_KERNEL
-
-/*
- *  ns8390lost_frame:
- *  this routine called by ns8390read after memory for mbufs could not be
- *  allocated.  It sets the boundary pointers and registers to the next
- *  packet location.
- */
-
-ns8390lost_frame(unit)
-int unit;
-{
-	ns8390_softc_t *is = &ns8390_softc[unit];
-	caddr_t        nic = is->nic;
-	volatile char  *sram_nxtpkt_ptr;
-	int            temp_cr;
-
-
-
-	sram_nxtpkt_ptr = (volatile char *) (is->sram +
-	    (is->read_nxtpkt_ptr << 8));
-
-	is->read_nxtpkt_ptr = *(sram_nxtpkt_ptr + 1);
-	is->read_nxtpkt_ptr &= 0xFF;
-
-	temp_cr = inb(nic+ds_cmd);
-	outb(nic+ds_cmd, (temp_cr & 0x3f) | DSCM_PG0);
-
-	/* update boundary register */
-	if (is->read_nxtpkt_ptr == ns8390get_CURR(unit))
-		if (is->read_nxtpkt_ptr == is->pstart)
-			outb(nic+ds0_bndy, is->pstop - 1);
-		else
-			outb(nic+ds0_bndy, is->read_nxtpkt_ptr - 1);
-	else
-		outb(nic+ds0_bndy, is->read_nxtpkt_ptr);
-
-	outb(nic+ds_cmd, temp_cr);
-
-	return;
-}
-
-/*
- * ns8390get_CURR():
- *
- * Returns the value of the register CURR, which points to the next
- * available space for NIC to receive from network unto receive ring.
- *
- */
-
-int
-ns8390get_CURR(unit)
-int unit;
-{
-	caddr_t nic = ns8390_softc[unit].nic;
-	int	temp_cr;
-	int	ret_val;
-	spl_t   s;
-  
-	s = SPLNET();
-
-	temp_cr = inb(nic+ds_cmd);                  /* get current CR value */
-	outb(nic+ds_cmd, ((temp_cr & 0x3F) | DSCM_PG1)); /* select page 1 registers */
-	ret_val = inb(nic+ds1_curr);                /* read CURR value */
-	outb(nic+ds_cmd, temp_cr);
-	splx(s);
-	return (ret_val & 0xFF);
-}
-
-/*
- * ns8390xmt:
- *
- *	This routine fills in the appropriate registers and memory
- *	locations on the ns8390 board and starts the board off on
- *	the transmit.
- *
- * input	: board number of interest, and a pointer to the mbuf
- * output	: board memory and registers are set for xfer and attention
- *
- */
-
-ns8390xmt(unit, m)
-int	unit;
-#ifdef	MACH_KERNEL
-io_req_t	m;
-#else	MACH_KERNEL
-struct	mbuf	*m;
-#endif	MACH_KERNEL
-{
-	ns8390_softc_t		*is = &ns8390_softc[unit];
-	caddr_t			nic = is->nic;
-	struct ether_header	*eh;
-	int			i;
-	int			opri;
-	u_short			count = 0;	/* amount of data already copied */
-	volatile char		*sram_write_pkt;
-	int			board_id = is->board_id;
-	vm_offset_t		hdwbase = ns8390info[unit]->address;
-	spl_t     s;
-
-#ifdef	MACH_KERNEL
-#else	MACH_KERNEL
-	register struct	mbuf	*tm_p;
-#endif	MACH_KERNEL
-	/* begining of physical address of transmition buffer */
-
-	sram_write_pkt = is->sram + is->tpsr * 0x100; 
-
-#ifdef	MACH_KERNEL
-	count = m->io_count;
-	if (board_id & IFWD_SLOT_16BIT) {
-		s = splhi();
-		en_16bit_access(hdwbase, board_id);
-		bcopy16 (m->io_data, sram_write_pkt,  count);
-		dis_16bit_access (hdwbase, board_id);
-		splx(s);
-	} else {
-		bcopy (m->io_data, sram_write_pkt,  count);
-	}
-#else	MACH_KERNEL
-	for(tm_p = m; tm_p != (struct mbuf *)0; tm_p = tm_p->m_next)  {
-		if (count + tm_p->m_len > ETHERMTU + sizeof (struct ether_header))
-			break;
-		if (tm_p->m_len == 0)
-			continue;
-		if (board_id & IFWD_SLOT_16BIT) {
-			s = splhi();
-			en_16bit_access(hdwbase, board_id);
-			bcopy16 (mtod(tm_p, caddr_t),
-				 sram_write_pkt + count,
-				 tm_p->m_len);
-			dis_16bit_access (hdwbase, board_id);
-			splx(s);
-		} else {
-			bcopy16 (mtod(tm_p, caddr_t),
-				 sram_write_pkt + count,
-				 tm_p->m_len);
-		}
-		count += tm_p->m_len;
-	}
-#ifdef	IF_CNTRS
-	ns_eout[log_2(count+4/*crc*/)]++;
-	if (count < 128)  ns_lout[(count+4/*crc*/)>>3]++;
-#endif	IF_CNTRS
-#endif	MACH_KERNEL
-	while (count < ETHERMIN+sizeof(struct ether_header)) {
-		*(sram_write_pkt + count) = 0;
-		count++;
-	}
-
-	/* select page 0 */
-	outb(nic+ds_cmd, DSCM_NODMA|DSCM_START|DSCM_PG0);
-	outb(nic+ds0_tpsr, is->tpsr);	/* xmt page start at 0 of RAM */
-	outb(nic+ds0_tbcr1, count >> 8);	/* upper byte of count */
-	outb(nic+ds0_tbcr0, count & 0xFF);	/* lower byte of count */
-	/* start transmission */
-	outb(nic+ds_cmd, DSCM_TRANS|DSCM_NODMA|DSCM_START);	
-
-#ifdef	MACH_KERNEL
-	iodone(m);
-	m=0;
-#else	MACH_KERNEL
-	/* If this is a broadcast packet, loop it back to rcv.  */
-	eh = mtod( m, struct ether_header *);
-	for (i=0; ((i < 6) && (eh->ether_dhost[i] == 0xff)); i++)  ;
-	if (i == 6) {
-		if (!ns8390send_packet_up(m, eh, is))
-			m_freem(m);
-	} else
-		m_freem(m);
-#endif	MACH_KERNEL
-	return;
-}
-
-config_nic(unit)
-int unit;
-{
-	ns8390_softc_t *is = &ns8390_softc[unit];
-	caddr_t   nic = is->nic;
-	int       i;
-	int       temp;
-	int       count = 0;
-	spl_t     s;
-
-	/* soft reset and page 0 */
-	outb (nic+ds_cmd, DSCM_PG0|DSCM_NODMA|DSCM_STOP);             
-
-	while ((!(inb (nic + ds0_isr) & DSIS_RESET)) && (count < 10000))
-		count++;
-	if (count == 10000) {
-		printf("%s%d: config_nic(): would not reset.\n",
-			ns8390_softc[unit].card, unit);
-	}
-
-	/* fifo depth | not loopback */
-	temp = ((is->fifo_depth & 0x0c) << 3) | DSDC_BMS;    
-
-	/* word xfer select (16 bit cards ) */
-	if (is->board_id & IFWD_SLOT_16BIT)
-		temp |= DSDC_WTS;			
-
-	outb (nic+ds0_dcr, temp);
-	outb (nic+ds0_tcr, 0);
-	outb (nic+ds0_rcr, DSRC_MON);	/* receive configuration register */
-	/* recieve ring starts 2k into RAM */
-	outb (nic+ds0_pstart, is->pstart);	
-	/* stop at last RAM buffer rcv location */
-	outb (nic+ds0_pstop, is->pstop);	
-
-	/* boundary pointer for page 0 */
-	outb (nic+ds0_bndy, is->pstart);	
-	s = SPLNET();
-
-	/* maintain rst | sel page 1 */
-	outb (nic+ds_cmd, DSCM_PG1|DSCM_NODMA|DSCM_STOP);	
-
-	/* internal next packet pointer */
-	is->read_nxtpkt_ptr = is->pstart + 1;	
-
-	outb (nic+ds1_curr, is->read_nxtpkt_ptr);	/* Current page register */
-	for(i=0; i<ETHER_ADDR_SIZE; i++)
-		outb (nic+ds1_par0+i, is->address[i]);
-	for(i=0; i<8; i++)
-		outb (nic+ds1_mar0+i, 0);
-
-	outb (nic+ds_cmd, DSCM_PG0|DSCM_STOP|DSCM_NODMA);
-	splx(s);
-	outb (nic+ds0_isr, 0xff);		/* clear all interrupt status bits */
-	outb (nic+ds0_imr, imr_hold);	/* Enable interrupts */
-	outb (nic+ds0_rbcr0, 0);	/* clear remote byte count */
-	outb (nic+ds0_rbcr1, 0);
-
-	/* start NIC | select page 0 */
-	outb (nic+ds_cmd, DSCM_PG0|DSCM_START|DSCM_NODMA); 
-
-	outb (nic+ds0_rcr, DSRC_AB);		/* receive configuration register */
-
-	return TRUE;
-}
-
-/*
- * config_ns8390:
- *
- *	This routine does a standard config of a wd8003 family board, with
- *      the proper modifications to different boards within this family.
- *
- */
-config_wd8003(unit)
-int	unit;
-{
-	ns8390_softc_t *is = &ns8390_softc[unit];
-	vm_offset_t   hdwbase = ns8390info[unit]->address;
-	int       i;
-	int       RAMsize;
-	volatile char  *RAMbase;
-	int       addr_temp;
-
-	is->tpsr = 0;			/* transmit page start hold */
-	is->pstart = 0x06;		/* receive page start hold */
-	is->read_nxtpkt_ptr = is->pstart + 1; /* internal next packet pointer */
-	is->fifo_depth = 0x08;		/* NIC fifo threshold */
-	switch (is->board_id & IFWD_RAM_SIZE_MASK) {
-	      case IFWD_RAM_SIZE_8K:  
-		RAMsize =  0x2000;	break;
-	      case IFWD_RAM_SIZE_16K: 
-		RAMsize =  0x4000;	break;
-	      case IFWD_RAM_SIZE_32K: 
-		RAMsize =  0x8000;	break;
-	      case IFWD_RAM_SIZE_64K: 
-		RAMsize = 0x10000;	break;
-	      default:           
-		RAMsize =  0x2000;	break;
-	}
-	is->pstop = (((int)RAMsize >> 8) & 0x0ff);      /* rcv page stop hold */
-	RAMbase = (volatile char *)ns8390info[unit]->phys_address;
-	addr_temp = ((int)(RAMbase) >> 13) & 0x3f; /* convert to be written to MSR */
-	outb(hdwbase+IFWD_MSR, addr_temp | IFWD_MENB); /* initialize MSR */
-	/* enable 16 bit access from lan controller */
-	if (is->board_id & IFWD_SLOT_16BIT) {
-		if (is->board_id & IFWD_INTERFACE_CHIP) {
-			outb(hdwbase+IFWD_REG_5,
-			     (inb(hdwbase + IFWD_REG_5) & IFWD_REG5_MEM_MASK) |
-			     IFWD_LAN16ENB);
-		} else {
-			outb(hdwbase+IFWD_REG_5, (IFWD_LAN16ENB | IFWD_LA19));
-		}
-	}
-	/*
-	  outb(hdwbase+LAAR, LAN16ENB | LA19| MEM16ENB | SOFTINT);
-	  */
-	
-	return TRUE;
-}
-
-/*
- * config_ns8390:
- *
- *	This routine does a standard config of a 3 com etherlink II board.
- *
- */
-int
-config_3c503(unit)
-int	unit;
-{
-	ns8390_softc_t	*is = &ns8390_softc[unit];
-	struct bus_device	*dev = ns8390info[unit];
-	vm_offset_t		hdwbase = dev->address;
-	int		RAMsize = dev->am;
-	int		i;
-
-	is->tpsr =   0x20;		/* transmit page start hold */
-	is->sram = (char *)phystokv(dev->phys_address) - is->tpsr * 0x100;
-					/* When NIC says page 20, this means go to
-					   the beginning of the sram range */
-	is->pstart = 0x26;		/* receive page start hold */
-	is->read_nxtpkt_ptr = is->pstart + 1; /* internal next packet pointer */
-	is->fifo_depth = 0x08;		/* NIC fifo threshold */
-	is->pstop = is->tpsr + ((RAMsize >> 8) & 0x0ff);      /* rcv page stop hold */
-
-	outb(hdwbase+CTLR, CTLR_RST|CTLR_THIN);
-	outb(hdwbase+CTLR, CTLR_THIN);
-	outb(hdwbase+CTLR, CTLR_STA_ADDR|CTLR_THIN);
-	for (i = 0; i < 6; i++)
-		is->address[i] = inb(hdwbase+i);
-	outb(hdwbase+CTLR, elii_bnc[is->board_id]?CTLR_THIN:CTLR_THICK);
-	outb(hdwbase+PSTR, is->pstart);
-	outb(hdwbase+PSPR, is->pstop);
-	outb(hdwbase+IDCFR, IDCFR_IRQ2 << (elii_irq[is->board_id] - 2));
-	outb(hdwbase+GACFR, GACFR_TCM|GACFR_8K);
-	/* BCFR & PCRFR ro */
-	/* STREG ro & dma */
-	outb(hdwbase+DQTR, 0);
-	outb(hdwbase+DAMSB, 0);
-	outb(hdwbase+DALSB, 0);
-	outb(hdwbase+VPTR2, 0);
-	outb(hdwbase+VPTR1, 0);
-	outb(hdwbase+VPTR0, 0);
-	outb(hdwbase+RFMSB, 0);
-	outb(hdwbase+RFLSB, 0);
-	return TRUE;
-}
-
-/*
- * ns8390intoff:
- *
- *	This function turns interrupts off for the ns8390 board indicated.
- *
- */
-void
-ns8390intoff(unit)
-int unit;
-{
-	caddr_t nic = ns8390_softc[unit].nic;
-	int temp_cr = inb(nic+ds_cmd);	/* get current CR value */
-
-	outb(nic+ds_cmd,((temp_cr & 0x3F)|DSCM_PG0|DSCM_STOP));
-	outb(nic+ds0_imr, 0);                	/* Interrupt Mask Register  */
-	outb(nic+ds_cmd, temp_cr|DSCM_STOP);
-
-}
-
-
-/*
- *   wd80xxget_board_id:
- *
- *   determine which board is being used.
- *   Currently supports:
- *    wd8003E (tested)
- *    wd8003EBT
- *    wd8003EP (tested)
- *    wd8013EP (tested)
- *
- */
-wd80xxget_board_id(dev)
-struct bus_device	*dev;
-{
-	vm_offset_t    hdwbase = dev->address;
-	long           unit = dev->unit;
-	long           board_id = 0;
-	int            reg_temp;
-	int            rev_num;			/* revision number */
-	int            ram_flag;
-	int            intr_temp;
-	int	       i;
-	boolean_t      register_aliasing;
-
-	rev_num = (inb(hdwbase + IFWD_BOARD_ID) & IFWD_BOARD_REV_MASK) >> 1;
-	printf("%s%d: ", ns8390_softc[unit].card, unit);
-	
-	if (rev_num == 0) {
-		printf("rev 0x00\n");
-		/* It must be 8000 board */
-		return 0;
-	}
-	
-	/* Check if register aliasing is true, that is reading from register
-	   offsets 0-7 will return the contents of register offsets 8-f */
-	
-	register_aliasing = TRUE;
-	for (i = 1; i < 5; i++) {
-		if (inb(hdwbase + IFWD_REG_0 + i) !=
-		    inb(hdwbase + IFWD_LAR_0 + i))
-		    register_aliasing = FALSE;
-	}
-	if (inb(hdwbase + IFWD_REG_7) != inb(hdwbase + IFWD_CHKSUM))
-	    register_aliasing = FALSE;
-	
-	
-	if (register_aliasing == FALSE) {
-		/* Check if board has interface chip */
-		
-		reg_temp = inb(hdwbase + IFWD_REG_7);   /* save old */
-		outb(hdwbase + IFWD_REG_7, 0x35);	/* write value */
-		inb(hdwbase + IFWD_REG_0);		/* dummy read */
-		if ((inb(hdwbase + IFWD_REG_7) & 0xff) == 0x35) {
-			outb(hdwbase + IFWD_REG_7, 0x3a);/* Try another value*/
-			inb(hdwbase + IFWD_REG_0);	/* dummy read */
-			if ((inb(hdwbase + IFWD_REG_7) & 0xff) == 0x3a) {
-				board_id |= IFWD_INTERFACE_CHIP;
-				outb(hdwbase + IFWD_REG_7, reg_temp);
-				/* restore old value */
-			}
-		}
-		
-		/* Check if board is 16 bit by testing if bit zero in
-		   register 1 is unchangeable by software. If so then
-		   card has 16 bit capability */
-		reg_temp = inb(hdwbase + IFWD_REG_1);
-		outb(hdwbase + IFWD_REG_1, reg_temp ^ IFWD_16BIT);
-		inb(hdwbase + IFWD_REG_0);		     /* dummy read */
-		if ((inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) ==
-		    (reg_temp & IFWD_16BIT)) {        /* Is bit unchanged */
-			board_id |= IFWD_BOARD_16BIT; /* Yes == 16 bit */
-			reg_temp &= 0xfe;	      /* For 16 bit board
-							 always reset bit 0 */
-		}
-		outb(hdwbase + IFWD_REG_1, reg_temp);    /* write value back */
-		
-		/* Test if 16 bit card is in 16 bit slot by reading bit zero in
-		   register 1. */
-		if (board_id & IFWD_BOARD_16BIT) {
-			if (inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) {
-				board_id |= IFWD_SLOT_16BIT;
-			}
-		}
-	}
-	
-	/* Get media type */
-	
-	if (inb(hdwbase + IFWD_BOARD_ID) & IFWD_MEDIA_TYPE) {
-		board_id |= IFWD_ETHERNET_MEDIA;
-	} else if (rev_num == 1) {
-		board_id |= IFWD_STARLAN_MEDIA;
-	} else {
-		board_id |= IFWD_TWISTED_PAIR_MEDIA;
-	}
-
-	if (rev_num == 2) {
-		if (inb(hdwbase + IFWD_BOARD_ID) & IFWD_SOFT_CONFIG) {
-			if ((board_id & IFWD_STATIC_ID_MASK) == WD8003EB ||
-			    (board_id & IFWD_STATIC_ID_MASK) == WD8003W) {
-				board_id |= IFWD_ALTERNATE_IRQ_BIT;
-			}
-		}
-		/* Check for memory size */
-		
-		ram_flag = inb(hdwbase + IFWD_BOARD_ID) & IFWD_MEMSIZE;
-	    
-		switch (board_id & IFWD_STATIC_ID_MASK) {
-		      case WD8003E: /* same as WD8003EBT */
-		      case WD8003S: /* same as WD8003SH */
-		      case WD8003WT:
-		      case WD8003W:
-		      case WD8003EB: /* same as WD8003EP */
-			if (ram_flag)
-			    board_id |= IFWD_RAM_SIZE_32K;
-			else
-			    board_id |= IFWD_RAM_SIZE_8K;
-			break;
-		      case WD8003ETA:
-		      case WD8003STA:
-		      case WD8003EA:
-		      case WD8003SHA:
-		      case WD8003WA:
-			board_id |= IFWD_RAM_SIZE_16K;
-			break;
-		      case WD8013EBT:
-			if (board_id & IFWD_SLOT_16BIT) {
-				if (ram_flag)
-				    board_id |= IFWD_RAM_SIZE_64K;
-				else
-				    board_id |= IFWD_RAM_SIZE_16K;
-			} else {
-				if (ram_flag)
-				    board_id |= IFWD_RAM_SIZE_32K;
-				else
-				    board_id |= IFWD_RAM_SIZE_8K;
-			}
-			break;
-		      default:
-			board_id |= IFWD_RAM_SIZE_UNKNOWN;
-			break;
-		}
-	} else if (rev_num >= 3) {
-		board_id &= (long) ~IFWD_MEDIA_MASK;   /* remove media info */
-		board_id |= IFWD_INTERFACE_584_CHIP;
-		board_id |= wd80xxget_eeprom_info(hdwbase, board_id);
-	} else {
-		/* Check for memory size */
-		if (board_id & IFWD_BOARD_16BIT) {
-			if (board_id & IFWD_SLOT_16BIT)
-			    board_id |= IFWD_RAM_SIZE_16K;
-			else
-			    board_id |= IFWD_RAM_SIZE_8K;
-		} else if (board_id & IFWD_MICROCHANNEL)
-		    board_id |= IFWD_RAM_SIZE_16K;
-		else if (board_id & IFWD_INTERFACE_CHIP) {
-			if (inb(hdwbase + IFWD_REG_1) & IFWD_MEMSIZE)
-			    board_id |= IFWD_RAM_SIZE_32K;
-			else
-			    board_id |= IFWD_RAM_SIZE_8K;
-		} else
-		    board_id |= IFWD_RAM_SIZE_UNKNOWN;
-		
-		/* No support for 690 chip yet. It should be checked here */
-	}
-	
-	switch (board_id & IFWD_STATIC_ID_MASK) {
-	      case WD8003E: printf("WD8003E or WD8003EBT"); break;
-	      case WD8003S: printf("WD8003S or WD8003SH"); break;
-	      case WD8003WT: printf("WD8003WT"); break;
-	      case WD8003W: printf("WD8003W"); break;
-	      case WD8003EB:
-		if (board_id & IFWD_INTERFACE_584_CHIP)
-		    printf("WD8003EP");
-		else
-		    printf("WD8003EB");
-		break;
-	      case WD8003EW: printf("WD8003EW"); break;
-	      case WD8003ETA: printf("WD8003ETA"); break;
-	      case WD8003STA: printf("WD8003STA"); break;
-	      case WD8003EA: printf("WD8003EA"); break;
-	      case WD8003SHA: printf("WD8003SHA"); break;
-	      case WD8003WA: printf("WD8003WA"); break;
-	      case WD8013EBT: printf("WD8013EBT"); break;
-	      case WD8013EB:
-		if (board_id & IFWD_INTERFACE_584_CHIP)
-		    printf("WD8013EP");
-		else
-		    printf("WD8013EB");
-		break;
-	      case WD8013W: printf("WD8013W"); break;
-	      case WD8013EW: printf("WD8013EW"); break;
-	      default: printf("unknown"); break;
-	}
-	printf(" rev 0x%02x", rev_num);
-	switch(board_id & IFWD_RAM_SIZE_RES_7) {
-	      case IFWD_RAM_SIZE_UNKNOWN:
-		break;
-	      case IFWD_RAM_SIZE_8K:
-		printf(" 8 kB ram");
-		break;
-	      case IFWD_RAM_SIZE_16K:
-		printf(" 16 kB ram");
-		break;
-	      case IFWD_RAM_SIZE_32K:
-		printf(" 32 kB ram");
-		break;
-	      case IFWD_RAM_SIZE_64K:
-		printf(" 64 kB ram");
-		break;
-	      default:
-		printf("wd: Internal error ram size value invalid %d\n",
-		       (board_id & IFWD_RAM_SIZE_RES_7)>>16);
-	}
-	
-	if (board_id & IFWD_BOARD_16BIT) {
-		if (board_id & IFWD_SLOT_16BIT) {
-			printf(", in 16 bit slot");
-		} else {
-			printf(", 16 bit board in 8 bit slot");
-		}
-	}
-	if (board_id & IFWD_INTERFACE_CHIP) {
-		if (board_id & IFWD_INTERFACE_584_CHIP) {
-			printf(", 584 chip");
-		} else {
-			printf(", 583 chip");
-		}
-	}
-	if ((board_id & IFWD_INTERFACE_CHIP) == IFWD_INTERFACE_CHIP) {
-		/* program the WD83C583 EEPROM registers */
-		int irr_temp, icr_temp;
-		
-		icr_temp = inb(hdwbase + IFWD_ICR);
-		irr_temp = inb(hdwbase + IFWD_IRR);
-		
-		irr_temp &= ~(IFWD_IR0 | IFWD_IR1);
-		irr_temp |= IFWD_IEN;
-		
-		icr_temp &= IFWD_WTS;
-		
-		if (!(board_id & IFWD_INTERFACE_584_CHIP)) {
-			icr_temp |= IFWD_DMAE | IFWD_IOPE;
-			if (ram_flag)
-			    icr_temp |= IFWD_MSZ;
-		}
-		
-		if (board_id & IFWD_INTERFACE_584_CHIP) {
-			switch(ns8390info[unit]->sysdep1) {
-			      case 10:
-				icr_temp |= IFWD_DMAE;
-				break;
-			      case 2:
-			      case 9: /* Same as 2 */
-				break;
-			      case 11:
-				icr_temp |= IFWD_DMAE;
-				/*FALLTHROUGH*/
-			      case 3:
-				irr_temp |= IFWD_IR0;
-				break;
-			      case 15:
-				icr_temp |= IFWD_DMAE;
-				/*FALLTHROUGH*/
-			      case 5:
-				irr_temp |= IFWD_IR1;
-				break;
-			      case 4:
-				icr_temp |= IFWD_DMAE;
-				/*FALLTHROUGH*/
-			      case 7:
-				irr_temp |= IFWD_IR0 | IFWD_IR1;
-				break;
-			      default:
-				printf("%s%d: wd80xx_get_board_id(): Could not set Interrupt Request Register according to pic(%d).\n",
-				       ns8390_softc[unit].card, unit,
-				       ns8390info[unit]->sysdep1);
-				break;
-			}
-		} else {
-			switch(ns8390info[unit]->sysdep1) {
-				/* attempt to set interrupt according to assigned pic */
-			      case 2:
-			      case 9: /* Same as 2 */
-				break;
-			      case 3:
-				irr_temp |= IFWD_IR0;
-				break;
-			      case 4:
-				irr_temp |= IFWD_IR1;
-				break;
-			      case 5:
-				irr_temp |= IFWD_IR1 | IFWD_AINT;
-				break;
-			      case 7: 
-				irr_temp |= IFWD_IR0 | IFWD_IR1;
-				break;
-			      default: 
-				printf("%s%d: wd80xx_get_board_id(): Could not set Interrupt Request Register according to pic(%d).\n",
-				       ns8390_softc[unit].card, unit,
-				       ns8390info[unit]->sysdep1);
-			}
-		}
-		outb(hdwbase + IFWD_IRR, irr_temp);
-		outb(hdwbase + IFWD_ICR, icr_temp);
-	}
-	printf("\n");
-	return (board_id);
-}
-
-wd80xxget_eeprom_info(hdwbase, board_id)
-     caddr_t	hdwbase;
-     long	board_id;
-{
-  unsigned long new_bits = 0;
-  int 		reg_temp;
-  
-  outb(hdwbase + IFWD_REG_1,
-       ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_OTHER_BIT));
-  outb(hdwbase + IFWD_REG_3,
-       ((inb(hdwbase + IFWD_REG_3) & IFWD_EAR_MASK) | IFWD_ENGR_PAGE));
-  outb(hdwbase + IFWD_REG_1,
-       ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) |
-	(IFWD_RLA | IFWD_OTHER_BIT)));
-  while (inb(hdwbase + IFWD_REG_1) & IFWD_RECALL_DONE_MASK)
-      ;
-  
-  reg_temp = inb(hdwbase + IFWD_EEPROM_1);
-  switch (reg_temp & IFWD_EEPROM_BUS_TYPE_MASK) {
-	case IFWD_EEPROM_BUS_TYPE_AT:
-	  if (wd_debug & 1) printf("wd: AT bus, ");
-	  break;
-	case IFWD_EEPROM_BUS_TYPE_MCA:
-	  if (wd_debug & 1) printf("wd: MICROCHANNEL, ");
-	  new_bits |= IFWD_MICROCHANNEL;
-	  break;
-	default:
-	  break;
-  }
-  switch (reg_temp & IFWD_EEPROM_BUS_SIZE_MASK) {
-	case IFWD_EEPROM_BUS_SIZE_8BIT:
-	  if (wd_debug & 1) printf("8 bit bus size, ");
-	  break;
-	case IFWD_EEPROM_BUS_SIZE_16BIT:
-	  if (wd_debug & 1) printf("16 bit bus size ");
-	  new_bits |= IFWD_BOARD_16BIT;
-	  if (inb(hdwbase + IFWD_REG_1) & IFWD_16BIT) {
-		  new_bits |= IFWD_SLOT_16BIT;
-		  if (wd_debug & 1)
-		      printf("in 16 bit slot, ");
-	  } else {
-		  if (wd_debug & 1)
-		      printf("in 8 bit slot (why?), ");
-	  }
-	  break;
-	default:
-	  if (wd_debug & 1) printf("bus size other than 8 or 16 bit, ");
-	  break;
-  }
-  reg_temp = inb(hdwbase + IFWD_EEPROM_0);
-  switch (reg_temp & IFWD_EEPROM_MEDIA_MASK) {
-	case IFWD_STARLAN_TYPE:
-	  if (wd_debug & 1) printf("Starlan media, ");
-	  new_bits |= IFWD_STARLAN_MEDIA;
-	  break;
-	case IFWD_TP_TYPE:
-	  if (wd_debug & 1) printf("Twisted pair media, ");
-	  new_bits |= IFWD_TWISTED_PAIR_MEDIA;
-	  break;
-	case IFWD_EW_TYPE:
-	  if (wd_debug & 1) printf("Ethernet and twisted pair media, ");
-	  new_bits |= IFWD_EW_MEDIA;
-	  break;
-	case IFWD_ETHERNET_TYPE: /*FALLTHROUGH*/
-	default:
-	  if (wd_debug & 1) printf("ethernet media, ");
-	  new_bits |= IFWD_ETHERNET_MEDIA;
-	  break;
-  }
-  switch (reg_temp & IFWD_EEPROM_IRQ_MASK) {
-	case IFWD_ALTERNATE_IRQ_1:
-	  if (wd_debug & 1) printf("Alternate irq 1\n");
-	  new_bits |= IFWD_ALTERNATE_IRQ_BIT;
-	  break;
-	default:
-	  if (wd_debug & 1) printf("\n");
-	  break;
-  }
-  switch (reg_temp & IFWD_EEPROM_RAM_SIZE_MASK) {
-	case IFWD_EEPROM_RAM_SIZE_8K:
-	  new_bits |= IFWD_RAM_SIZE_8K;
-	  break;
-	case IFWD_EEPROM_RAM_SIZE_16K:
-	  if ((new_bits & IFWD_BOARD_16BIT) && (new_bits & IFWD_SLOT_16BIT))
-	      new_bits |= IFWD_RAM_SIZE_16K;
-	  else
-	      new_bits |= IFWD_RAM_SIZE_8K;
-	  break;
-	case IFWD_EEPROM_RAM_SIZE_32K:
-	  new_bits |= IFWD_RAM_SIZE_32K;
-	  break;
-	case IFWD_EEPROM_RAM_SIZE_64K:
-	  if ((new_bits & IFWD_BOARD_16BIT) && (new_bits & IFWD_SLOT_16BIT))
-	      new_bits |= IFWD_RAM_SIZE_64K;
-	  else
-	      new_bits |= IFWD_RAM_SIZE_32K;
-	  break;
-	default:
-	  new_bits |= IFWD_RAM_SIZE_UNKNOWN;
-	  break;
-  }
-  outb(hdwbase + IFWD_REG_1,
-       ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_OTHER_BIT));
-  outb(hdwbase + IFWD_REG_3,
-       ((inb(hdwbase + IFWD_REG_3) & IFWD_EAR_MASK) | IFWD_EA6));
-  outb(hdwbase + IFWD_REG_1,
-       ((inb(hdwbase + IFWD_REG_1) & IFWD_ICR_MASK) | IFWD_RLA));
-  return (new_bits);
-}
-
-wdpr(unit)
-{
-	caddr_t nic = ns8390_softc[unit].nic;
-	spl_t	s;
-	int	temp_cr;
-
-	s = SPLNET();
-	temp_cr = inb(nic+ds_cmd);	/* get current CR value */
-
-	printf("CR %x, BNDRY %x, TSR %x, NCR %x, FIFO %x, ISR %x, RSR %x\n",
-		inb(nic+0x0), inb(nic+0x3), inb(nic+0x4), inb(nic+0x5),
-		inb(nic+0x6), inb(nic+0x7), inb(nic+0xc));
-	printf("CLD %x:%x, CRD %x:%x, FR %x, CRC %x, Miss %x\n",
-		inb(nic+0x1), inb(nic+0x2),
-		inb(nic+0x8), inb(nic+0x9),
-		inb(nic+0xd), inb(nic+0xe), inb(nic+0xf));
-
-	
-	outb(nic, (temp_cr&0x3f)|DSCM_PG1);		/* page 1 CR value */
-	printf("PHYS %x:%x:%x:%x:%x CUR %x\n",
-		inb(nic+0x1), inb(nic+0x2), inb(nic+0x3),
-		inb(nic+0x4), inb(nic+0x5), inb(nic+0x6),
-		inb(nic+0x7));
-	printf("MAR %x:%x:%x:%x:%x:%x:%x:%x\n",
-		inb(nic+0x8), inb(nic+0x9), inb(nic+0xa), inb(nic+0xb),
-		inb(nic+0xc), inb(nic+0xd), inb(nic+0xe), inb(nic+0xf));
-	outb(nic, temp_cr);			/* restore current CR value */
-	splx(s);
-}
-
-
-/*
-  This sets bit 7 (0 justified) of register offset 0x05. It will enable
-  the host to access shared RAM 16 bits at a time. It will also maintain
-  the LAN16BIT bit high in addition, this routine maintains address bit 19
-  (previous cards assumed this bit high...we must do it manually)
-  
-  note 1: this is a write only register
-  note 2: this routine should be called only after interrupts are disabled
-    and they should remain disabled until after the routine 'dis_16bit_access'
-    is called
-*/
-
-en_16bit_access (hdwbase, board_id)
-	caddr_t hdwbase;
-	long	board_id;
-{
-	if (board_id & IFWD_INTERFACE_CHIP)
-	    outb(hdwbase+IFWD_REG_5,
-		 (inb(hdwbase+IFWD_REG_5) & IFWD_REG5_MEM_MASK)
-		 | IFWD_MEM16ENB | IFWD_LAN16ENB);
-        else
-            outb(hdwbase+IFWD_REG_5, (IFWD_MEM16ENB | IFWD_LAN16ENB |
-				      IFWD_LA19));
-}
-
-/*
-  This resets bit 7 (0 justified) of register offset 0x05. It will disable
-  the host from accessing shared RAM 16 bits at a time. It will maintain the
-  LAN16BIT bit high in addition, this routine maintains address bit 19
-  (previous cards assumed this bit high...we must do it manually)
-
-  note: this is a write only register
-*/
-
-dis_16bit_access (hdwbase, board_id)
-	caddr_t hdwbase;
-	long board_id;
-{
-	if (board_id & IFWD_INTERFACE_CHIP)
-	    outb(hdwbase+IFWD_REG_5,
-		 ((inb(hdwbase+IFWD_REG_5) & IFWD_REG5_MEM_MASK) |
-		  IFWD_LAN16ENB));
-	else
-	    outb(hdwbase+IFWD_REG_5, (IFWD_LAN16ENB | IFWD_LA19));
-}
-
-#endif
diff --git a/i386/i386at/if_ns8390.h b/i386/i386at/if_ns8390.h
deleted file mode 100644
index 9466c36..0000000
--- a/i386/i386at/if_ns8390.h
+++ /dev/null
@@ -1,203 +0,0 @@
-/* 
- * Mach Operating System
- * Copyright (c) 1991,1990,1989 Carnegie Mellon University
- * All Rights Reserved.
- * 
- * Permission to use, copy, modify and distribute this software and its
- * documentation is hereby granted, provided that both the copyright
- * notice and this permission notice appear in all copies of the
- * software, derivative works or modified versions, and any portions
- * thereof, and that both notices appear in supporting documentation.
- * 
- * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
- * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
- * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
- * 
- * Carnegie Mellon requests users of this software to return to
- * 
- *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
- *  School of Computer Science
- *  Carnegie Mellon University
- *  Pittsburgh PA 15213-3890
- * 
- * any improvements or extensions that they make and grant Carnegie Mellon
- * the rights to redistribute these changes.
- */
-/*
- * Western Digital Mach Ethernet driver
- * Copyright (c) 1990 OSF Research Institute 
- */
-/*
-  Copyright 1990 by Open Software Foundation,
-Cambridge, MA.
-
-		All Rights Reserved
-
-  Permission to use, copy, modify, and distribute this software and
-its documentation for any purpose and without fee is hereby granted,
-provided that the above copyright notice appears in all copies and
-that both the copyright notice and this permission notice appear in
-supporting documentation, and that the name of OSF or Open Software
-Foundation not be used in advertising or publicity pertaining to
-distribution of the software without specific, written prior
-permission.
-
-  OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE
-INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS,
-IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR
-CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT,
-NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
-WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-*/
-
-/********************************************/
-/* Defines for the NIC 8390 Lan Controller  */
-/********************************************/
-
-
-/*--  page 0, rd --*/
-#define CR		0x00		/* Command Register	*/
-#define CLDA0		0x01		/* Current Local DMA Address 0 */
-#define CLDA1		0x02		/* Current Local DMA Address 1 */
-#define BNRY		0x03		/* Boundary Pointer */
-#define TSR		0x04		/* Transmit Status Register */
-#define NCR		0x05		/* Number of Collisions Register */
-#define FIFO		0x06		/* FIFO */
-#define ISR		0x07		/* Interrupt Status Register */
-#define CRDA0		0x08		/* Current Remote DMA Address 0 */
-#define CRDA1		0x09		/* Current Remote DMA Address 1 */
-/* 	0x0A is reserved */
-/* 	0x0B is reserved */
-#define RSR		0x0C		/* Receive Status Register */
-#define CNTR0		0x0D		/* Frame Alignment Errors */
-#define CNTR1		0x0E		/* CRC Errors */
-#define CNTR2		0x0F		/* Missed Packet Errors */
-
-/*-- page 0, wr --*/
-/*	CR		0x00		   Command Register	*/
-#define PSTART		0x01		/* Page Start Register */
-#define PSTOP		0x02		/* Page Stop Register */
-#define	BNDY		0x03		/* Boundary Pointer	*/
-#define TPSR		0x04		/* Transmit Page Start Register */
-#define TBCR0		0x05		/* Transmit Byte Count Register 0*/
-#define TBCR1		0x06		/* Transmit Byte Count Register 1*/
-/*	ISR		0x07		   Interrupt Status Register	*/
-#define RSAR0		0x08		/* Remote Start Address Register 0 */
-#define RSAR1		0x09		/* Remote Start Address Register 1 */
-#define RBCR0		0x0A		/* Remote Byte Count Register 0 */
-#define RBCR1		0x0B		/* Remote Byte Count Register 1 */
-#define RCR		0x0C		/* Receive Configuration Register */
-#define TCR		0x0D		/* Transmit Configuration Register */
-#define DCR		0x0E		/* Data Configuration Register */
-#define IMR		0x0F		/* Interrupt Mask Register */
-
-/*-- page 1, rd and wr */
-/*	CR		0x00		   Control Register	*/
-#define PAR0		0x01		/* Physical Address Register 0 */
-#define PAR1		0x02		/*			     1 */
-#define PAR2		0x03		/*			     2 */
-#define PAR3		0x04		/*			     3 */
-#define PAR4		0x05		/*			     4 */
-#define PAR5		0x06		/*			     5 */
-#define CURR		0x07		/* Current Page Register */
-#define	MAR0		0x08		/* Multicast Address Register 0	*/
-#define MAR1		0x09		/* 			      1	*/
-#define MAR2		0x0A		/*			      2 */
-#define	MAR3		0x0B		/*			      3 */
-#define	MAR4		0x0C		/*			      4 */
-#define MAR5		0x0D		/*			      5 */
-#define MAR6		0x0E		/*			      6 */
-#define MAR7		0x0F		/*			      7 */
-
-/*-- page 2, rd --*/
-
-/*-- page 2, wr --*/
-
-/*-- Command Register CR description */
-#define STP		0x01	/* stop; software reset */
-#define STA		0x02	/* start */
-#define TXP		0x04	/* transmit packet */
-#define	RD0		0x08
-#define	RD1		0x10
-#define	RD2		0x20
-#define RRD		0x08	/* remote DMA command - remote read */
-
-#define RWR		0x10	/* remote DMA command - remote write */
-#define SPK		0x18	/* remote DMA command - send packet */
-#define ABR		0x20	/* remote DMA command - abrt/cmplt remote DMA */
-
-#define PS0		0x00	/* register page select - 0 */
-#define PS1		0x40	/* register page select - 1 */
-#define PS2		0x80	/* register page select - 2 */
-
-#define	PS0_STA		0x22	/* page select 0 with start bit maintained */
-#define	PS1_STA		0x62	/* page select 1 with start bit maintained */
-#define	PS2_STA		0x0A2	/* page select 2 with start bit maintained */
-
-/*-- Interrupt Status Register ISR description */
-#define PRX		0x01	/* packet received no error */
-#define PTX		0x02	/* packet transmitted no error */
-#define RXE		0x04	/* receive error */
-#define TXE		0x08	/* transmit error */
-#define OVW		0x10	/* overwrite warning */
-#define CNT		0x20	/* counter overflow */
-#define RDC		0x40	/* remote DMA complete */
-#define RST		0x80	/* reset status */
-
-/*-- Interrupt Mask Register IMR description */
-#define PRXE		0x01	/* packet received interrupt enable */
-#define PTXE		0x02	/* packet transmitted interrupt enable */
-#define RXEE		0x04	/* receive error interrupt enable */
-#define TXEE		0x08	/* transmit error interrupt enable */
-#define OVWE		0x10	/* overwrite warning interrupt enable */
-#define CNTE		0x20	/* counter overflow interrupt enable */
-#define RDCE		0x40	/* DMA complete interrupt enable */
-
-/*-- Data Configuration Register DCR description */
-#define WTS		0x01	/* word transfer select */
-#define BOS		0x02	/* byte order select */
-#define LAS		0x04	/* long address select */
-#define BMS		0x08	/* burst DMA select */
-#define AINIT		0x10	/* autoinitialize remote */
-
-#define FTB2		0x00	/* receive FIFO threshold select - 2 bytes */
-#define FTB4		0x20	/* receive FIFO threshold select - 4 bytes */
-#define FTB8		0x40	/* receive FIFO threshold select - 8 bytes */
-#define FTB12		0x60	/* receive FIFO threshold select - 12 bytes */
-
-/*-- Transmit Configuration Register TCR description */
-#define MCRC		0x01	/* manual crc generation */
-#define LB1		0x02	/* mode 1; internal loopback LPBK=0 */
-#define LB2		0x04	/* mode 2; internal loopback LPBK=1 */
-#define LB3		0x06	/* mode 3; internal loopback LPBK=0 */
-
-#define ATD		0x08	/* auto transmit disable */
-#define OFST		0x10	/* collision offset enable */
-
-/*-- Transmit Status Register TSR description --*/
-#define XMT		0x01	/* packet transmitted without error */
-#define COL		0x04	/* transmit collided */
-#define ABT		0x08	/* transmit aborted */
-#define CRS		0x10	/* carrier sense lost - xmit not aborted */
-#define FU		0x20	/* FIFO underrun */
-#define CDH		0x40	/* CD heartbeat */
-#define OWC		0x80	/* out of window collision - xmit not aborted */
-
-/*-- Receive Configuration Register RCR description --*/
-#define SEP		0x01	/* save error packets */
-#define AR		0x02	/* accept runt packet */
-#define AB		0x04	/* accept broadcast */
-#define AM		0x08	/* accept multicast */
-#define PRO		0x10	/* promiscuous physical */
-#define MON		0x20	/* monitor mode */
-
-/*--Receive Status Register RSR description --*/
-#define RCV		0x01	/* packet received intact */
-#define CRC		0x02	/* CRC error */
-#define FAE		0x04	/* frame alignment error */
-#define FO		0x08	/* FIFO overrun */
-#define MPA		0x10	/* missed packet */
-#define PHY		0x20	/* physical/multicast address */
-#define DIS		0x40	/* receiver disable */
-#define DFR		0x80	/* deferring */
diff --git a/i386/i386at/if_wd8003.h b/i386/i386at/if_wd8003.h
deleted file mode 100644
index 3fa35dd..0000000
--- a/i386/i386at/if_wd8003.h
+++ /dev/null
@@ -1,315 +0,0 @@
-/* 
- * Mach Operating System
- * Copyright (c) 1991,1990,1989 Carnegie Mellon University
- * All Rights Reserved.
- * 
- * Permission to use, copy, modify and distribute this software and its
- * documentation is hereby granted, provided that both the copyright
- * notice and this permission notice appear in all copies of the
- * software, derivative works or modified versions, and any portions
- * thereof, and that both notices appear in supporting documentation.
- * 
- * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS"
- * CONDITION.  CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR
- * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE.
- * 
- * Carnegie Mellon requests users of this software to return to
- * 
- *  Software Distribution Coordinator  or  Software.Distribution@CS.CMU.EDU
- *  School of Computer Science
- *  Carnegie Mellon University
- *  Pittsburgh PA 15213-3890
- * 
- * any improvements or extensions that they make and grant Carnegie Mellon
- * the rights to redistribute these changes.
- */
-/*
- * Western Digital Mach Ethernet driver
- * Copyright (c) 1990 OSF Research Institute 
- */
-/*
-  Copyright 1990 by Open Software Foundation,
-Cambridge, MA.
-
-		All Rights Reserved
-
-  Permission to use, copy, modify, and distribute this software and
-its documentation for any purpose and without fee is hereby granted,
-provided that the above copyright notice appears in all copies and
-that both the copyright notice and this permission notice appear in
-supporting documentation, and that the name of OSF or Open Software
-Foundation not be used in advertising or publicity pertaining to
-distribution of the software without specific, written prior
-permission.
-
-  OSF DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE
-INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS,
-IN NO EVENT SHALL OSF BE LIABLE FOR ANY SPECIAL, INDIRECT, OR
-CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
-LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT,
-NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
-WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
-*/
-
-/***********************************************************/
-/*  Defines for the 583 chip.                              */
-/***********************************************************/
-
-/*--- 8390 Registers ---*/
-#define OFF_8390	0x10	/* offset of the 8390 chip */
-
-/* Register offsets */
-
-#define IFWD_REG_0	0x00
-#define IFWD_REG_1	0x01
-#define IFWD_REG_2	0x02
-#define IFWD_REG_3	0x03
-#define IFWD_REG_4	0x04
-#define IFWD_REG_5	0x05
-#define IFWD_REG_6	0x06
-#define IFWD_REG_7	0x07
-
-/* Register offset definitions for all boards */
-
-#define IFWD_LAR_0	0x08
-#define IFWD_LAR_1	0x09
-#define IFWD_LAR_2	0x0a
-#define IFWD_LAR_3	0x0b
-#define IFWD_LAR_4	0x0c
-#define IFWD_LAR_5	0x0d
-#define IFWD_BOARD_ID	0x0e
-#define IFWD_CHKSUM	0x0f
-
-/* revision number mask for BOARD_ID */
-#define IFWD_BOARD_REV_MASK	0x1e
-
-/* REG 1 */
-#define IFWD_MEMSIZE	0x08
-#define IFWD_16BIT	0x01
-
-/* REG 5 */
-#define IFWD_REG5_MEM_MASK	0x3f /* B23-B19 of address of the memory */
-#define IFWD_LA19		0x01 /* B19 of address of the memory */
-#define IFWD_MEM16ENB		0x80 /* Enable 16 bit memory access from bus */
-#define IFWD_LAN16ENB		0x40 /* Enable 16 bit memory access from chip*/
-#define IFWD_INIT_LAAR		IFWD_LA19
-#define IFWD_SOFTINT            0x20 /* Enable interrupt from pc */
-
-/* Defs for board rev numbers > 1 */
-#define IFWD_MEDIA_TYPE		0x01
-#define IFWD_SOFT_CONFIG	0x20
-#define IFWD_RAM_SIZE		0x40
-#define IFWD_BUS_TYPE		0x80
-
-/* Register offsets for reading the EEPROM in the 584 chip */
-#define IFWD_EEPROM_0		0x08
-#define IFWD_EEPROM_1		0x09
-#define IFWD_EEPROM_2		0x0A
-#define IFWD_EEPROM_3		0x0B
-#define IFWD_EEPROM_4		0x0C
-#define IFWD_EEPROM_5		0x0D
-#define IFWD_EEPROM_6		0x0E
-#define IFWD_EEPROM_7		0x0F
-
-/**** defs for manipulating the 584 ****/
-#define IFWD_OTHER_BIT			0x02
-#define IFWD_ICR_MASK			0x0C
-#define IFWD_EAR_MASK			0x0F
-#define IFWD_ENGR_PAGE			0xA0
-/* #define IFWD_RLA			0x10  defined in ICR defs */
-#define IFWD_EA6			0x80
-#define IFWD_RECALL_DONE_MASK		0x10
-#define IFWD_EEPROM_MEDIA_MASK		0x07
-#define IFWD_STARLAN_TYPE		0x00
-#define IFWD_ETHERNET_TYPE		0x01
-#define IFWD_TP_TYPE			0x02
-#define IFWD_EW_TYPE			0x03
-#define IFWD_EEPROM_IRQ_MASK		0x18
-#define IFWD_PRIMARY_IRQ		0x00
-#define IFWD_ALTERNATE_IRQ_1		0x08
-#define IFWD_ALTERNATE_IRQ_2		0x10
-#define IFWD_ALTERNATE_IRQ_3		0x18
-#define IFWD_EEPROM_RAM_SIZE_MASK	0xE0
-#define IFWD_EEPROM_RAM_SIZE_RES1	0x00
-#define IFWD_EEPROM_RAM_SIZE_RES2	0x20
-#define IFWD_EEPROM_RAM_SIZE_8K		0x40
-#define IFWD_EEPROM_RAM_SIZE_16K	0x60
-#define IFWD_EEPROM_RAM_SIZE_32K	0x80
-#define IFWD_EEPROM_RAM_SIZE_64K	0xA0
-#define IFWD_EEPROM_RAM_SIZE_RES3	0xC0
-#define IFWD_EEPROM_RAM_SIZE_RES4	0xE0
-#define IFWD_EEPROM_BUS_TYPE_MASK	0x07
-#define IFWD_EEPROM_BUS_TYPE_AT		0x00
-#define IFWD_EEPROM_BUS_TYPE_MCA	0x01
-#define IFWD_EEPROM_BUS_TYPE_EISA	0x02
-#define IFWD_EEPROM_BUS_SIZE_MASK	0x18
-#define IFWD_EEPROM_BUS_SIZE_8BIT	0x00
-#define IFWD_EEPROM_BUS_SIZE_16BIT	0x08
-#define IFWD_EEPROM_BUS_SIZE_32BIT	0x10
-#define IFWD_EEPROM_BUS_SIZE_64BIT	0x18
-
-/*****************************************************************************
- *                                                                           *
- *   Definitions for board ID.                                               *
- *                                                                           *
- *   note: board ID should be ANDed with the STATIC_ID_MASK                  *
- *         before comparing to a specific board ID                           *
- *	   The high order 16 bits correspond to the Extra Bits which do not  *
- *         change the boards ID.                                             *
- *                                                                           *
- *   Note: not all are implemented.  Rest are here for future enhancements...*
- *                                                                           *
- *****************************************************************************/
-
-#define IFWD_STARLAN_MEDIA	0x00000001	/* StarLAN */
-#define IFWD_ETHERNET_MEDIA	0x00000002	/* Ethernet */
-#define IFWD_TWISTED_PAIR_MEDIA	0x00000003	/* Twisted Pair */
-#define IFWD_EW_MEDIA		0x00000004	/* Ethernet and Twisted Pair */
-#define IFWD_MICROCHANNEL	0x00000008	/* MicroChannel Adapter */
-#define IFWD_INTERFACE_CHIP	0x00000010	/* Soft Config Adapter */
-/* #define IFWD_UNUSED	        0x00000020 */	/* used to be INTELLIGENT */
-#define IFWD_BOARD_16BIT	0x00000040	/* 16 bit capability */
-#define IFWD_RAM_SIZE_UNKNOWN	0x00000000	/* 000 => Unknown RAM Size */
-#define IFWD_RAM_SIZE_RES_1	0x00010000	/* 001 => Reserved */
-#define IFWD_RAM_SIZE_8K	0x00020000	/* 010 => 8k RAM */
-#define IFWD_RAM_SIZE_16K	0x00030000	/* 011 => 16k RAM */
-#define IFWD_RAM_SIZE_32K	0x00040000	/* 100 => 32k RAM */
-#define IFWD_RAM_SIZE_64K	0x00050000	/* 101 => 64k RAM */
-#define IFWD_RAM_SIZE_RES_6	0x00060000	/* 110 => Reserved */
-#define IFWD_RAM_SIZE_RES_7	0x00070000	/* 111 => Reserved */
-#define IFWD_SLOT_16BIT		0x00080000	/* 16 bit board - 16 bit slot*/
-#define IFWD_NIC_690_BIT	0x00100000	/* NIC is 690 */
-#define IFWD_ALTERNATE_IRQ_BIT	0x00200000	/* Alternate IRQ is used */
-#define IFWD_INTERFACE_584_CHIP	0x00400000	/* Interface chip is a 584 */
-
-#define IFWD_MEDIA_MASK		0x00000007	/* Isolates Media Type */
-#define IFWD_RAM_SIZE_MASK	0x00070000	/* Isolates RAM Size */
-#define IFWD_STATIC_ID_MASK	0x0000FFFF	/* Isolates Board ID */
-
-/* Word definitions for board types */
-#define WD8003E		IFWD_ETHERNET_MEDIA
-#define WD8003EBT	WD8003E		/* functionally identical to WD8003E */
-#define WD8003S		IFWD_STARLAN_MEDIA
-#define WD8003SH	WD8003S		/* functionally identical to WD8003S */
-#define WD8003WT	IFWD_TWISTED_PAIR_MEDIA
-#define WD8003W		(IFWD_TWISTED_PAIR_MEDIA | IFWD_INTERFACE_CHIP)
-#define WD8003EB	(IFWD_ETHERNET_MEDIA | IFWD_INTERFACE_CHIP)
-#define WD8003EP	WD8003EB    /* with IFWD_INTERFACE_584_CHIP bit set */a
-#define WD8003EW	(IFWD_EW_MEDIA | IFWD_INTERFACE_CHIP)
-#define WD8003ETA	(IFWD_ETHERNET_MEDIA | IFWD_MICROCHANNEL)
-#define WD8003STA	(IFWD_STARLAN_MEDIA | IFWD_MICROCHANNEL)
-#define WD8003EA	(IFWD_ETHERNET_MEDIA | IFWD_MICROCHANNEL | \
-			 IFWD_INTERFACE_CHIP)
-#define WD8003SHA	(IFWD_STARLAN_MEDIA | IFWD_MICROCHANNEL | \
-			 IFWD_INTERFACE_CHIP)
-#define WD8003WA	(IFWD_TWISTED_PAIR_MEDIA | IFWD_MICROCHANNEL | \
-			 IFWD_INTERFACE_CHIP)
-#define WD8013EBT	(IFWD_ETHERNET_MEDIA | IFWD_BOARD_16BIT)
-#define WD8013EB	(IFWD_ETHERNET_MEDIA | IFWD_BOARD_16BIT | \
-			 IFWD_INTERFACE_CHIP)
-#define WD8013EP	WD8013EB    /* with IFWD_INTERFACE_584_CHIP bit set */
-#define WD8013W		(IFWD_TWISTED_PAIR_MEDIA | IFWD_BOARD_16BIT | \
-			 IFWD_INTERFACE_CHIP)
-#define WD8013EW	(IFWD_EW_MEDIA | IFWD_BOARD_16BIT | \
-			 IFWD_INTERFACE_CHIP)
-
-
-/**** Western digital node bytes ****/
-#define	WD_NODE_ADDR_0	0x00
-#define	WD_NODE_ADDR_1	0x00
-#define	WD_NODE_ADDR_2	0xC0
-
-/*--- 83c583 registers ---*/
-#define IFWD_MSR	0x00		/* memory select register */
-				        /* In 584 Board's command register */
-#define IFWD_ICR	0x01		/* interface configuration register */
-                                        /* In 584 8013 bus size register */
-#define IFWD_IAR	0x02		/* io address register */
-#define IFWD_BIO	0x03		/* bios ROM address register */
-#define IFWD_IRR	0x04		/* interrupt request register */
-#define IFWD_GP1	0x05		/* general purpose register 1 */
-#define IFWD_IOD	0x06		/* io data latch */
-#define IFWD_GP2	0x07		/* general purpose register 2 */
-#define IFWD_LAR	0x08		/* LAN address register	*/
-#define IFWD_LAR2	0x09		/*			*/
-#define IFWD_LAR3	0x0A		/*			*/
-#define IFWD_LAR4	0x0B		/*			*/
-#define IFWD_LAR5	0x0C		/*			*/
-#define IFWD_LAR6	0x0D		/*			*/
-#define IFWD_LAR7	0x0E		/*			*/
-#define IFWD_LAR8	0x0F		/* LAN address register */
-
-/********************* Register Bit Definitions **************************/
-/* MSR definitions */
-#define IFWD_RST	0x80	        /* 1 => reset */
-#define IFWD_MENB	0x40		/* 1 => memory enable */
-#define IFWD_SA18	0x20		/* Memory enable bits	*/
-#define	IFWD_SA17	0x10		/*	telling where shared	*/
-#define	IFWD_SA16	0x08		/*	mem is to start.	*/
-#define IFWD_SA15	0x04		/*	Assume SA19 = 1		*/
-#define IFWD_SA14	0x02		/*				*/
-#define	IFWD_SA13	0x01		/*				*/
-
-/* ICR definitions */
-#define	IFWD_STR	0x80		/* Non-volatile EEPROM store	*/
-#define	IFWD_RCL	0x40		/* Recall I/O Address from EEPROM */
-#define	IFWD_RX7	0x20		/* Recall all but I/O and LAN address*/
-#define IFWD_RLA	0x10		/* Recall LAN Address	*/
-#define	IFWD_MSZ	0x08		/* Shared Memory Size	*/
-#define	IFWD_DMAE	0x04		/* DMA Enable	*/
-#define	IFWD_IOPE	0x02		/* I/O Port Enable */
-#define IFWD_WTS	0x01		/* Word Transfer Select */
-
-/* IAR definitions */
-#define	IFWD_IA15	0x80		/* I/O Address Bits	*/
-/*	.		*/
-/*	.		*/
-/*	.		*/
-#define	IFWD_IA5	0x01		/*			*/
-
-/* BIO definitions */
-#define	IFWD_RS1	0x80		/* BIOS size bit 1 */
-#define	IFWD_RS0	0x40		/* BIOS size bit 0 */
-#define	IFWD_BA18	0x20		/* BIOS ROM Memory Address Bits */
-#define	IFWD_BA17	0x10		/*				*/
-#define	IFWD_BA16	0x08		/*				*/
-#define	IFWD_BA15	0x04		/*				*/
-#define IFWD_BA14	0x02		/* BIOS ROM Memory Address Bits */
-#define	IFWD_WINT	0x01		/* W8003 interrupt	*/
-
-/* IRR definitions */
-#define	IFWD_IEN	0x80	/* Interrupt Enable	*/
-#define	IFWD_IR1	0x40	/* Interrupt request bit 1	*/
-#define	IFWD_IR0	0x20	/* Interrupt request bit 0	*/
-#define	IFWD_AMD	0x10	/* Alternate mode	*/
-#define IFWD_AINT	0x08	/* Alternate interrupt	*/
-#define IFWD_BW1	0x04	/* BIOS Wait State Control bit 1	*/
-#define IFWD_BW0	0x02	/* BIOS Wait State Control bit 0	*/
-#define IFWD_OWS	0x01	/* Zero Wait State Enable	*/
-
-/* GP1 definitions */
-
-/* IOD definitions */
-
-/* GP2 definitions */
-
-/*************************************************************/
-/*   Shared RAM buffer definitions                           */
-/*************************************************************/
-
-/**** NIC definitions ****/
-#define NIC_8003_SRAM_SIZE 0x2000       /* size of shared RAM buffer */
-#define	NIC_HEADER_SIZE	4		/* size of receive header */
-#define	NIC_PAGE_SIZE	0x100		/* each page of rcv ring is 256 byte */
-
-#define ETHER_ADDR_SIZE	6	/* size of a MAC address */
-
-#ifdef MACH
-#define	HZ		100
-#endif
-
-#define	DSF_LOCK	1
-#define DSF_RUNNING	2
-
-#define MOD_ENAL 1
-#define MOD_PROM 2