This commit was generated by cvs2svn to compensate for changes in r25603,

which included commits to RCS files with non-trunk default branches.

3 files changed, 3717 insertions, 0 deletions

diff --git a/sys/dev/en/midway.c b/sys/dev/en/midway.c
new file mode 100644
index 0000000..e7d5e30
--- /dev/null
+++ b/sys/dev/en/midway.c
@@ -0,0 +1,3208 @@
+/*	$NetBSD: midway.c,v 1.25 1997/03/20 21:34:42 chuck Exp $	*/
+/*	(sync'd to midway.c 1.67)	*/
+
+/*
+ *
+ * Copyright (c) 1996 Charles D. Cranor and Washington University.
+ * 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 Charles D. Cranor and
+ *	Washington University.
+ * 4. The name of the author may not be used to endorse or promote products
+ *    derived from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
+ * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
+ * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
+ * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
+ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+/*
+ *
+ * m i d w a y . c   e n i 1 5 5   d r i v e r 
+ *
+ * author: Chuck Cranor <chuck@ccrc.wustl.edu>
+ * started: spring, 1996 (written from scratch).
+ *
+ * notes from the author:
+ *   Extra special thanks go to Werner Almesberger, EPFL LRC.   Werner's
+ *   ENI driver was especially useful in figuring out how this card works.
+ *   I would also like to thank Werner for promptly answering email and being
+ *   generally helpful.
+ */
+
+
+#undef	EN_DEBUG
+#undef	EN_DEBUG_RANGE		/* check ranges on en_read/en_write's? */
+#define	EN_MBUF_OPT		/* try and put more stuff in mbuf? */
+#define	EN_DIAG
+#define	EN_STAT
+#ifndef EN_DMA
+#define EN_DMA		1	/* use dma? */
+#endif
+#define EN_NOTXDMA	0	/* hook to disable tx dma only */
+#define EN_NORXDMA	0	/* hook to disable rx dma only */
+#define EN_NOWMAYBE	1	/* hook to disable word maybe DMA */
+				/* XXX: WMAYBE doesn't work, needs debugging */
+#define EN_DDBHOOK	1	/* compile in ddb functions */
+#ifdef __FreeBSD__
+/* somehow, misaligned DMA doesn't work on FreeBSD with ENI card.
+ * not sure if this is specific to FreeBSD.
+ * anyway, always fix unaligned or word fragmented mbufs.  --kjc */
+#define EN_FIXMBUF
+#endif
+
+#if defined(DIAGNOSTIC) && !defined(EN_DIAG)
+#define EN_DIAG			/* link in with master DIAG option */
+#endif
+#ifdef EN_STAT
+#define EN_COUNT(X) (X)++
+#else
+#define EN_COUNT(X) /* nothing */
+#endif
+
+#ifdef EN_DEBUG
+#undef	EN_DDBHOOK
+#define	EN_DDBHOOK	1
+#define STATIC /* nothing */
+#define INLINE /* nothing */
+#else /* EN_DEBUG */
+#define STATIC static
+#define INLINE inline
+#endif /* EN_DEBUG */
+
+#ifdef __FreeBSD__
+#include "en.h"
+#endif
+
+#if NEN > 0 || !defined(__FreeBSD__)
+
+#include <sys/param.h>
+#include <sys/systm.h>
+#include <sys/types.h>
+#if defined(__NetBSD__) || defined(__OpenBSD__) || defined(__bsdi__)
+#include <sys/device.h>
+#endif
+#if defined(__FreeBSD__)
+#include <sys/sockio.h>
+#else
+#include <sys/ioctl.h>
+#endif
+#include <sys/mbuf.h>
+#include <sys/socket.h>
+#include <sys/socketvar.h>
+
+#include <net/if.h>
+#include <net/if_atm.h>
+
+#include <vm/vm.h>
+
+#ifdef INET
+#include <netinet/if_atm.h>
+#endif
+
+#ifdef NATM
+#include <netinet/in.h>
+#include <netnatm/natm.h>
+#endif
+
+
+#if !defined(sparc) && !defined(__FreeBSD__)
+#include <machine/bus.h>
+#endif
+
+#if defined(__NetBSD__) || defined(__OpenBSD__)
+#include <dev/ic/midwayreg.h>
+#include <dev/ic/midwayvar.h>
+#if defined(__alpha__)
+/* XXX XXX NEED REAL DMA MAPPING SUPPORT XXX XXX */
+#undef vtophys
+#define	vtophys(va)	alpha_XXX_dmamap((vm_offset_t)(va))
+#endif
+#elif defined(__FreeBSD__)
+#include <machine/cpufunc.h>            /* for rdtsc proto for clock.h below */
+#include <machine/clock.h>              /* for DELAY */
+#include <dev/en/midwayreg.h>
+#include <dev/en/midwayvar.h>
+#include <vm/pmap.h>			/* for vtophys proto */
+
+/* 
+ * 2.1.x does not have if_softc.   detect this by seeing if IFF_NOTRAILERS
+ * is defined, as per kjc.
+ */
+#ifdef IFF_NOTRAILERS
+#define MISSING_IF_SOFTC
+#else
+#define IFF_NOTRAILERS 0
+#endif
+
+#endif	/* __FreeBSD__ */
+
+/*
+ * params
+ */
+
+#ifndef EN_TXHIWAT
+#define EN_TXHIWAT	(64*1024)	/* max 64 KB waiting to be DMAd out */
+#endif
+
+#ifndef EN_MINDMA
+#define EN_MINDMA	32	/* don't DMA anything less than this (bytes) */
+#endif
+
+#define RX_NONE		0xffff	/* recv VC not in use */
+
+#define EN_OBHDR	ATM_PH_DRIVER7  /* TBD in first mbuf ! */
+#define EN_OBTRL	ATM_PH_DRIVER8  /* PDU trailier in last mbuf ! */
+
+#define ENOTHER_FREE	0x01		/* free rxslot */
+#define ENOTHER_DRAIN	0x02		/* almost free (drain DRQ dma) */
+#define ENOTHER_RAW	0x04		/* 'raw' access  (aka boodi mode) */
+#define ENOTHER_SWSL	0x08		/* in software service list */
+
+int en_dma = EN_DMA;			/* use DMA (switch off for dbg) */
+
+/*
+ * autoconfig attachments
+ */
+
+struct cfdriver en_cd = {
+    0, "en", DV_IFNET,
+};
+
+/*
+ * local structures
+ */
+
+/*
+ * params to en_txlaunch() function
+ */
+
+struct en_launch {
+  u_int32_t tbd1;		/* TBD 1 */
+  u_int32_t tbd2;		/* TBD 2 */
+  u_int32_t pdu1;		/* PDU 1 (aal5) */
+  int nodma;			/* don't use DMA */
+  int need;			/* total space we need (pad out if less data) */
+  int mlen;			/* length of mbuf (for dtq) */
+  struct mbuf *t;		/* data */
+  u_int32_t aal;		/* aal code */
+  u_int32_t atm_vci;		/* vci */
+  u_int8_t atm_flags;		/* flags */
+};
+
+
+/*
+ * dma table (index by # of words)
+ *
+ * plan A: use WMAYBE
+ * plan B: avoid WMAYBE
+ */
+
+struct en_dmatab {
+  u_int8_t bcode;		/* code */
+  u_int8_t divshift;		/* byte divisor */
+};
+
+static struct en_dmatab en_dma_planA[] = {
+  { 0, 0 },		/* 0 */		{ MIDDMA_WORD, 2 },	/* 1 */
+  { MIDDMA_2WORD, 3},	/* 2 */		{ MIDDMA_4WMAYBE, 2},	/* 3 */
+  { MIDDMA_4WORD, 4},	/* 4 */		{ MIDDMA_8WMAYBE, 2},	/* 5 */
+  { MIDDMA_8WMAYBE, 2},	/* 6 */		{ MIDDMA_8WMAYBE, 2},	/* 7 */
+  { MIDDMA_8WORD, 5},   /* 8 */		{ MIDDMA_16WMAYBE, 2},	/* 9 */
+  { MIDDMA_16WMAYBE,2},	/* 10 */	{ MIDDMA_16WMAYBE, 2},	/* 11 */
+  { MIDDMA_16WMAYBE,2},	/* 12 */	{ MIDDMA_16WMAYBE, 2},	/* 13 */
+  { MIDDMA_16WMAYBE,2},	/* 14 */	{ MIDDMA_16WMAYBE, 2},	/* 15 */
+  { MIDDMA_16WORD, 6},  /* 16 */
+};
+
+static struct en_dmatab en_dma_planB[] = {
+  { 0, 0 },		/* 0 */		{ MIDDMA_WORD, 2},	/* 1 */
+  { MIDDMA_2WORD, 3},	/* 2 */		{ MIDDMA_WORD, 2},	/* 3 */
+  { MIDDMA_4WORD, 4},	/* 4 */		{ MIDDMA_WORD, 2},	/* 5 */
+  { MIDDMA_2WORD, 3},	/* 6 */		{ MIDDMA_WORD, 2},	/* 7 */
+  { MIDDMA_8WORD, 5},   /* 8 */		{ MIDDMA_WORD, 2},	/* 9 */
+  { MIDDMA_2WORD, 3},	/* 10 */	{ MIDDMA_WORD, 2},	/* 11 */
+  { MIDDMA_4WORD, 4},	/* 12 */	{ MIDDMA_WORD, 2},	/* 13 */
+  { MIDDMA_2WORD, 3},	/* 14 */	{ MIDDMA_WORD, 2},	/* 15 */
+  { MIDDMA_16WORD, 6},  /* 16 */
+};
+
+static struct en_dmatab *en_dmaplan = en_dma_planA;
+  
+/*
+ * prototypes
+ */
+
+STATIC	int en_b2sz __P((int));
+#ifdef EN_DDBHOOK
+int	en_dump __P((int,int));
+int	en_dumpmem __P((int,int,int));
+#endif
+STATIC	void en_dmaprobe __P((struct en_softc *));
+STATIC	int en_dmaprobe_doit __P((struct en_softc *, u_int8_t *, 
+							u_int8_t *, int));
+STATIC	int en_dqneed __P((struct en_softc *, caddr_t, u_int, u_int));
+STATIC	void en_init __P((struct en_softc *));
+STATIC	int en_ioctl __P((struct ifnet *, EN_IOCTL_CMDT, caddr_t));
+STATIC	int en_k2sz __P((int));
+STATIC	void en_loadvc __P((struct en_softc *, int));
+STATIC	int en_mfix __P((struct en_softc *, struct mbuf **, struct mbuf *));
+STATIC	struct mbuf *en_mget __P((struct en_softc *, u_int, u_int *));
+STATIC	u_int32_t en_read __P((struct en_softc *, u_int32_t));
+STATIC	int en_rxctl __P((struct en_softc *, struct atm_pseudoioctl *, int));
+STATIC	void en_txdma __P((struct en_softc *, int));
+STATIC	void en_txlaunch __P((struct en_softc *, int, struct en_launch *));
+STATIC	void en_service __P((struct en_softc *));
+STATIC	void en_start __P((struct ifnet *));
+STATIC	int en_sz2b __P((int));
+STATIC	void en_write __P((struct en_softc *, u_int32_t, u_int32_t));
+
+/*
+ * macros/inline
+ */
+
+/*
+ * raw read/write macros
+ */
+
+#define EN_READDAT(SC,R) en_read(SC,R)
+#define EN_WRITEDAT(SC,R,V) en_write(SC,R,V)
+
+/*
+ * cooked read/write macros
+ */
+
+#define EN_READ(SC,R) ntohl(en_read(SC,R))
+#define EN_WRITE(SC,R,V) en_write(SC,R, htonl(V))
+
+#define EN_WRAPADD(START,STOP,CUR,VAL) { \
+	(CUR) = (CUR) + (VAL); \
+	if ((CUR) >= (STOP)) \
+		(CUR) = (START) + ((CUR) - (STOP)); \
+	}
+
+#define WORD_IDX(START, X) (((X) - (START)) / sizeof(u_int32_t))
+
+/* we store sc->dtq and sc->drq data in the following format... */
+#define EN_DQ_MK(SLOT,LEN) (((SLOT) << 20)|(LEN)|(0x80000))
+					/* the 0x80000 ensures we != 0 */
+#define EN_DQ_SLOT(X) ((X) >> 20)
+#define EN_DQ_LEN(X) ((X) & 0x3ffff)
+
+/* format of DTQ/DRQ word 1 differs between ENI and ADP */
+#if defined(MIDWAY_ENIONLY)
+
+#define MID_MK_TXQ(SC,CNT,CHAN,END,BCODE) \
+	EN_WRITE((SC), (SC)->dtq_us, \
+		MID_MK_TXQ_ENI((CNT), (CHAN), (END), (BCODE))); 
+
+#define MID_MK_RXQ(SC,CNT,VCI,END,BCODE) \
+	EN_WRITE((SC), (SC)->drq_us, \
+		MID_MK_RXQ_ENI((CNT), (VCI), (END), (BCODE))); 
+
+#elif defined(MIDWAY_ADPONLY)
+
+#define MID_MK_TXQ(SC,CNT,CHAN,END,JK) \
+	EN_WRITE((SC), (SC)->dtq_us, \
+		MID_MK_TXQ_ADP((CNT), (CHAN), (END), (JK))); 
+
+#define MID_MK_RXQ(SC,CNT,VCI,END,JK) \
+	EN_WRITE((SC), (SC)->drq_us, \
+		MID_MK_RXQ_ADP((CNT), (VCI), (END), (JK))); 
+
+#else
+
+#define MID_MK_TXQ(SC,CNT,CHAN,END,JK_OR_BCODE) { \
+	if ((SC)->is_adaptec) \
+	  EN_WRITE((SC), (SC)->dtq_us, \
+		  MID_MK_TXQ_ADP((CNT), (CHAN), (END), (JK_OR_BCODE))); \
+	else \
+	  EN_WRITE((SC), (SC)->dtq_us, \
+		  MID_MK_TXQ_ENI((CNT), (CHAN), (END), (JK_OR_BCODE))); \
+	}
+
+#define MID_MK_RXQ(SC,CNT,VCI,END,JK_OR_BCODE) { \
+	if ((SC)->is_adaptec) \
+	  EN_WRITE((SC), (SC)->drq_us, \
+		  MID_MK_RXQ_ADP((CNT), (VCI), (END), (JK_OR_BCODE))); \
+	else \
+	  EN_WRITE((SC), (SC)->drq_us, \
+		   MID_MK_RXQ_ENI((CNT), (VCI), (END), (JK_OR_BCODE))); \
+	}
+
+#endif
+
+/* add an item to the DTQ */
+#define EN_DTQADD(SC,CNT,CHAN,JK_OR_BCODE,ADDR,LEN,END) { \
+	if (END) \
+	  (SC)->dtq[MID_DTQ_A2REG((SC)->dtq_us)] = EN_DQ_MK(CHAN,LEN); \
+	MID_MK_TXQ(SC,CNT,CHAN,END,JK_OR_BCODE); \
+	(SC)->dtq_us += 4; \
+	EN_WRITE((SC), (SC)->dtq_us, (ADDR)); \
+	EN_WRAPADD(MID_DTQOFF, MID_DTQEND, (SC)->dtq_us, 4); \
+	(SC)->dtq_free--; \
+	if (END) \
+	  EN_WRITE((SC), MID_DMA_WRTX, MID_DTQ_A2REG((SC)->dtq_us)); \
+}
+
+/* DRQ add macro */
+#define EN_DRQADD(SC,CNT,VCI,JK_OR_BCODE,ADDR,LEN,SLOT,END) { \
+	if (END) \
+	  (SC)->drq[MID_DRQ_A2REG((SC)->drq_us)] = EN_DQ_MK(SLOT,LEN); \
+	MID_MK_RXQ(SC,CNT,VCI,END,JK_OR_BCODE); \
+	(SC)->drq_us += 4; \
+	EN_WRITE((SC), (SC)->drq_us, (ADDR)); \
+	EN_WRAPADD(MID_DRQOFF, MID_DRQEND, (SC)->drq_us, 4); \
+	(SC)->drq_free--; \
+	if (END) \
+	  EN_WRITE((SC), MID_DMA_WRRX, MID_DRQ_A2REG((SC)->drq_us)); \
+}
+
+/*
+ * the driver code
+ *
+ * the code is arranged in a specific way:
+ * [1] short/inline functions
+ * [2] autoconfig stuff
+ * [3] ioctl stuff
+ * [4] reset -> init -> trasmit -> intr -> receive functions
+ *
+ */
+
+/***********************************************************************/
+
+/*
+ * en_read: read a word from the card.   this is the only function
+ * that reads from the card.
+ */
+
+STATIC INLINE u_int32_t en_read(sc, r)
+
+struct en_softc *sc;
+u_int32_t r;
+
+{
+
+#ifdef EN_DEBUG_RANGE
+  if (r > MID_MAXOFF || (r % 4)) {
+    printf("en_read out of range, r=0x%x\n", r);
+    panic("en_read");
+  }
+#endif
+
+  return(bus_space_read_4(sc->en_memt, sc->en_base, r));
+}
+
+/*
+ * en_write: write a word to the card.   this is the only function that
+ * writes to the card.
+ */
+
+STATIC INLINE void en_write(sc, r, v)
+
+struct en_softc *sc;
+u_int32_t r, v;
+
+{
+#ifdef EN_DEBUG_RANGE
+  if (r > MID_MAXOFF || (r % 4)) {
+    printf("en_write out of range, r=0x%x\n", r);
+    panic("en_write");
+  }
+#endif
+
+  bus_space_write_4(sc->en_memt, sc->en_base, r, v);
+}
+
+/*
+ * en_k2sz: convert KBytes to a size parameter (a log2)
+ */
+
+STATIC INLINE int en_k2sz(k)
+
+int k;
+
+{
+  switch(k) {
+    case 1:   return(0);
+    case 2:   return(1);
+    case 4:   return(2);
+    case 8:   return(3);
+    case 16:  return(4);
+    case 32:  return(5);
+    case 64:  return(6);
+    case 128: return(7);
+    default: panic("en_k2sz");
+  }
+  return(0);
+}
+#define en_log2(X) en_k2sz(X)
+
+
+/*
+ * en_b2sz: convert a DMA burst code to its byte size
+ */
+
+STATIC INLINE int en_b2sz(b)
+
+int b;
+
+{
+  switch (b) {
+    case MIDDMA_WORD:   return(1*4);
+    case MIDDMA_2WMAYBE:
+    case MIDDMA_2WORD:  return(2*4);
+    case MIDDMA_4WMAYBE:
+    case MIDDMA_4WORD:  return(4*4);
+    case MIDDMA_8WMAYBE:
+    case MIDDMA_8WORD:  return(8*4);
+    case MIDDMA_16WMAYBE:
+    case MIDDMA_16WORD: return(16*4);
+    default: panic("en_b2sz");
+  }
+  return(0);
+}
+
+
+/*
+ * en_sz2b: convert a burst size (bytes) to DMA burst code
+ */
+
+STATIC INLINE int en_sz2b(sz)
+
+int sz;
+
+{
+  switch (sz) {
+    case 1*4:  return(MIDDMA_WORD);
+    case 2*4:  return(MIDDMA_2WORD);
+    case 4*4:  return(MIDDMA_4WORD);
+    case 8*4:  return(MIDDMA_8WORD);
+    case 16*4: return(MIDDMA_16WORD);
+    default: panic("en_sz2b");
+  }
+  return(0);
+}
+
+
+/*
+ * en_dqneed: calculate number of DTQ/DRQ's needed for a buffer
+ */
+
+STATIC INLINE int en_dqneed(sc, data, len, tx)
+
+struct en_softc *sc;
+caddr_t data;
+u_int len, tx;
+
+{
+  int result, needalign, sz;
+
+#if !defined(MIDWAY_ENIONLY)
+#if !defined(MIDWAY_ADPONLY)
+    if (sc->is_adaptec)
+#endif /* !MIDWAY_ADPONLY */
+      return(1);	/* adaptec can DMA anything in one go */
+#endif
+    
+#if !defined(MIDWAY_ADPONLY)
+    result = 0;
+    if (len < EN_MINDMA) {
+      if (!tx)			/* XXX: conservative */
+        return(1);		/* will copy/DMA_JK */
+    }
+
+    if (tx) {			/* byte burst? */
+      needalign = (((unsigned long) data) % sizeof(u_int32_t));
+      if (needalign) {
+        result++;
+        sz = min(len, sizeof(u_int32_t) - needalign);
+        len -= sz;
+        data += sz;
+      }
+    }
+
+    if (sc->alburst && len) {
+      needalign = (((unsigned long) data) & sc->bestburstmask);
+      if (needalign) {
+	result++;		/* alburst */
+        sz = min(len, sc->bestburstlen - needalign);
+        len -= sz;
+      }
+    }
+
+    if (len >= sc->bestburstlen) {
+      sz = len / sc->bestburstlen;
+      sz = sz * sc->bestburstlen;
+      len -= sz;
+      result++;			/* best shot */
+    }
+    
+    if (len) {
+      result++;			/* clean up */
+      if (tx && (len % sizeof(u_int32_t)) != 0)
+        result++;		/* byte cleanup */
+    }
+
+    return(result);
+#endif	/* !MIDWAY_ADPONLY */
+}
+
+
+/*
+ * en_mget: get an mbuf chain that can hold totlen bytes and return it
+ * (for recv)   [based on am7990_get from if_le and ieget from if_ie]
+ * after this call the sum of all the m_len's in the chain will be totlen.
+ */
+
+STATIC INLINE struct mbuf *en_mget(sc, totlen, drqneed)
+
+struct en_softc *sc;
+u_int totlen, *drqneed;
+
+{
+  struct mbuf *m;
+  struct mbuf *top, **mp;
+  *drqneed = 0;
+
+  MGETHDR(m, M_DONTWAIT, MT_DATA);
+  if (m == NULL)
+    return(NULL);
+  m->m_pkthdr.rcvif = &sc->enif;
+  m->m_pkthdr.len = totlen;
+  m->m_len = MHLEN;
+  top = NULL;
+  mp = &top;
+  
+  /* if (top != NULL) then we've already got 1 mbuf on the chain */
+  while (totlen > 0) {
+    if (top) {
+      MGET(m, M_DONTWAIT, MT_DATA);
+      if (!m) {
+	m_freem(top);	
+	return(NULL);	/* out of mbufs */
+      }
+      m->m_len = MLEN;
+    }
+    if (top && totlen >= MINCLSIZE) {
+      MCLGET(m, M_DONTWAIT);
+      if (m->m_flags & M_EXT)
+	m->m_len = MCLBYTES;
+    }
+    m->m_len = min(totlen, m->m_len);
+    totlen -= m->m_len;
+    *mp = m;
+    mp = &m->m_next;
+
+    *drqneed += en_dqneed(sc, m->m_data, m->m_len, 0);
+
+  }
+  return(top);
+}
+
+/***********************************************************************/
+
+/*
+ * autoconfig stuff
+ */
+
+void en_attach(sc)
+
+struct en_softc *sc;
+
+{
+  struct ifnet *ifp = &sc->enif;
+  int sz;
+  u_int32_t reg, lcv, check, ptr, sav, midvloc;
+
+  /*
+   * probe card to determine memory size.   the stupid ENI card always
+   * reports to PCI that it needs 4MB of space (2MB regs and 2MB RAM).
+   * if it has less than 2MB RAM the addresses wrap in the RAM address space.
+   * (i.e. on a 512KB card addresses 0x3ffffc, 0x37fffc, and 0x2ffffc
+   * are aliases for 0x27fffc  [note that RAM starts at offset 0x200000]).
+   */
+
+  if (sc->en_busreset)
+    sc->en_busreset(sc);
+  EN_WRITE(sc, MID_RESID, 0x0);	/* reset card before touching RAM */
+  for (lcv = MID_PROBEOFF; lcv <= MID_MAXOFF ; lcv += MID_PROBSIZE) {
+    EN_WRITE(sc, lcv, lcv);	/* data[address] = address */
+    for (check = MID_PROBEOFF ; check < lcv ; check += MID_PROBSIZE) {
+      reg = EN_READ(sc, check);
+      if (reg != check) {		/* found an alias! */
+	goto done_probe;		/* and quit */
+      }
+    }
+  }
+done_probe:
+  lcv -= MID_PROBSIZE;			/* take one step back */
+  sc->en_obmemsz = (lcv + 4) - MID_RAMOFF;
+
+  /*
+   * determine the largest DMA burst supported
+   */
+
+  en_dmaprobe(sc);
+
+  /*
+   * "hello world"
+   */
+
+  if (sc->en_busreset)
+    sc->en_busreset(sc);
+  EN_WRITE(sc, MID_RESID, 0x0);		/* reset */
+  for (lcv = MID_RAMOFF ; lcv < MID_RAMOFF + sc->en_obmemsz ; lcv += 4)
+    EN_WRITE(sc, lcv, 0);	/* zero memory */
+
+  reg = EN_READ(sc, MID_RESID);
+
+  printf("%s: ATM midway v%d, board IDs %d.%d, %s%s%s, %ldKB on-board RAM\n",
+	sc->sc_dev.dv_xname, MID_VER(reg), MID_MID(reg), MID_DID(reg), 
+	(MID_IS_SABRE(reg)) ? "sabre controller, " : "",
+	(MID_IS_SUNI(reg)) ? "SUNI" : "Utopia",
+	(!MID_IS_SUNI(reg) && MID_IS_UPIPE(reg)) ? " (pipelined)" : "",
+	sc->en_obmemsz / 1024);
+
+  if (sc->is_adaptec) {
+    if (sc->bestburstlen == 64 && sc->alburst == 0)
+      printf("%s: passed 64 byte DMA test\n", sc->sc_dev.dv_xname);
+    else
+      printf("%s: FAILED DMA TEST: burst=%d, alburst=%d\n", 
+	    sc->sc_dev.dv_xname, sc->bestburstlen, sc->alburst);
+  } else {
+    printf("%s: maximum DMA burst length = %d bytes%s\n", sc->sc_dev.dv_xname,
+	  sc->bestburstlen, (sc->alburst) ? " (must align)" : "");
+  }
+
+#if 0		/* WMAYBE doesn't work, don't complain about it */
+  /* check if en_dmaprobe disabled wmaybe */
+  if (en_dmaplan == en_dma_planB)
+    printf("%s: note: WMAYBE DMA has been disabled\n", sc->sc_dev.dv_xname);
+#endif
+
+  /*
+   * link into network subsystem and prepare card
+   */
+
+#if defined(__NetBSD__) || defined(__OpenBSD__)
+  bcopy(sc->sc_dev.dv_xname, sc->enif.if_xname, IFNAMSIZ);
+#endif
+#if !defined(MISSING_IF_SOFTC)
+  sc->enif.if_softc = sc;
+#endif
+  ifp->if_flags = IFF_SIMPLEX|IFF_NOTRAILERS;
+  ifp->if_ioctl = en_ioctl;
+  ifp->if_output = atm_output;
+  ifp->if_start = en_start;
+
+  /*
+   * init softc
+   */
+
+  for (lcv = 0 ; lcv < MID_N_VC ; lcv++) {
+    sc->rxvc2slot[lcv] = RX_NONE;
+    sc->txspeed[lcv] = 0;	/* full */
+    sc->txvc2slot[lcv] = 0;	/* full speed == slot 0 */
+  }
+
+  sz = sc->en_obmemsz - (MID_BUFOFF - MID_RAMOFF);
+  ptr = sav = MID_BUFOFF;
+  ptr = roundup(ptr, EN_TXSZ * 1024);	/* align */
+  sz = sz - (ptr - sav);
+  if (EN_TXSZ*1024 * EN_NTX > sz) {
+    printf("%s: EN_NTX/EN_TXSZ too big\n", sc->sc_dev.dv_xname);
+    return;
+  }
+  for (lcv = 0 ; lcv < EN_NTX ; lcv++) {
+    sc->txslot[lcv].mbsize = 0;
+    sc->txslot[lcv].start = ptr;
+    ptr += (EN_TXSZ * 1024);
+    sz -= (EN_TXSZ * 1024);
+    sc->txslot[lcv].stop = ptr;
+    sc->txslot[lcv].nref = 0;
+    bzero(&sc->txslot[lcv].indma, sizeof(sc->txslot[lcv].indma));
+    bzero(&sc->txslot[lcv].q, sizeof(sc->txslot[lcv].q));
+#ifdef EN_DEBUG
+    printf("%s: tx%d: start 0x%x, stop 0x%x\n", sc->sc_dev.dv_xname, lcv,
+		sc->txslot[lcv].start, sc->txslot[lcv].stop);
+#endif
+  }
+
+  sav = ptr;
+  ptr = roundup(ptr, EN_RXSZ * 1024);	/* align */
+  sz = sz - (ptr - sav);
+  sc->en_nrx = sz / (EN_RXSZ * 1024);
+  if (sc->en_nrx <= 0) {
+    printf("%s: EN_NTX/EN_TXSZ/EN_RXSZ too big\n", sc->sc_dev.dv_xname);
+    return;
+  }
+#if 1
+  /* leave one entry in the ringbuf unused to avoid wraparound */
+  if (sc->en_nrx >= MID_N_VC)
+      sc->en_nrx = MID_N_VC - 1;
+#endif
+  for (lcv = 0 ; lcv < sc->en_nrx ; lcv++) {
+    sc->rxslot[lcv].rxhand = NULL;
+    sc->rxslot[lcv].oth_flags = ENOTHER_FREE;
+    bzero(&sc->rxslot[lcv].indma, sizeof(sc->rxslot[lcv].indma));
+    bzero(&sc->rxslot[lcv].q, sizeof(sc->rxslot[lcv].q));
+    midvloc = sc->rxslot[lcv].start = ptr;
+    ptr += (EN_RXSZ * 1024);
+    sz -= (EN_RXSZ * 1024);
+    sc->rxslot[lcv].stop = ptr;
+    midvloc = midvloc - MID_RAMOFF;
+    midvloc = (midvloc & ~((EN_RXSZ*1024) - 1)) >> 2; /* mask, cvt to words */
+    midvloc = midvloc >> MIDV_LOCTOPSHFT;  /* we only want the top 11 bits */
+    midvloc = (midvloc & MIDV_LOCMASK) << MIDV_LOCSHIFT;
+    sc->rxslot[lcv].mode = midvloc | 
+	(en_k2sz(EN_RXSZ) << MIDV_SZSHIFT) | MIDV_TRASH;
+
+#ifdef EN_DEBUG
+    printf("%s: rx%d: start 0x%x, stop 0x%x, mode 0x%x\n", sc->sc_dev.dv_xname,
+	lcv, sc->rxslot[lcv].start, sc->rxslot[lcv].stop, sc->rxslot[lcv].mode);
+#endif
+  }
+
+#ifdef EN_STAT
+  sc->vtrash = sc->otrash = sc->mfix = sc->txmbovr = sc->dmaovr = 0;
+  sc->txoutspace = sc->txdtqout = sc->launch = sc->lheader = sc->ltail = 0;
+  sc->hwpull = sc->swadd = sc->rxqnotus = sc->rxqus = sc->rxoutboth = 0;
+  sc->rxdrqout = sc->ttrash = sc->rxmbufout = sc->mfixfail = 0;
+  sc->headbyte = sc->tailbyte = sc->tailflush = 0;
+#endif
+  sc->need_drqs = sc->need_dtqs = 0;
+
+  printf("%s: %d %dKB receive buffers, %d %dKB transmit buffers allocated\n",
+	sc->sc_dev.dv_xname, sc->en_nrx, EN_RXSZ, EN_NTX, EN_TXSZ);
+
+  /*
+   * final commit
+   */
+
+  if_attach(ifp);
+  atm_ifattach(ifp); 
+
+}
+
+
+/*
+ * en_dmaprobe: helper function for en_attach.
+ *
+ * see how the card handles DMA by running a few DMA tests.   we need
+ * to figure out the largest number of bytes we can DMA in one burst
+ * ("bestburstlen"), and if the starting address for a burst needs to
+ * be aligned on any sort of boundary or not ("alburst").
+ *
+ * typical findings:
+ * sparc1: bestburstlen=4, alburst=0 (ick, broken DMA!)
+ * sparc2: bestburstlen=64, alburst=1
+ * p166:   bestburstlen=64, alburst=0 
+ */
+
+STATIC void en_dmaprobe(sc)
+
+struct en_softc *sc;
+
+{
+  u_int32_t srcbuf[64], dstbuf[64];
+  u_int8_t *sp, *dp;
+  int bestalgn, bestnotalgn, lcv, try, fail;
+
+  sc->alburst = 0;
+
+  sp = (u_int8_t *) srcbuf;
+  while ((((unsigned long) sp) % MIDDMA_MAXBURST) != 0)
+    sp += 4;
+  dp = (u_int8_t *) dstbuf;
+  while ((((unsigned long) dp) % MIDDMA_MAXBURST) != 0)
+    dp += 4;
+
+  bestalgn = bestnotalgn = en_dmaprobe_doit(sc, sp, dp, 0);
+
+  for (lcv = 4 ; lcv < MIDDMA_MAXBURST ; lcv += 4) {
+    try = en_dmaprobe_doit(sc, sp+lcv, dp+lcv, 0);
+    if (try < bestnotalgn)
+      bestnotalgn = try;
+  }
+
+  if (bestalgn != bestnotalgn) 		/* need bursts aligned */
+    sc->alburst = 1;
+
+  sc->bestburstlen = bestalgn;
+  sc->bestburstshift = en_log2(bestalgn);
+  sc->bestburstmask = sc->bestburstlen - 1; /* must be power of 2 */
+  sc->bestburstcode = en_sz2b(bestalgn);
+
+  if (sc->bestburstlen <= 2*sizeof(u_int32_t))
+    return;				/* won't be using WMAYBE */
+
+  /*
+   * adaptec does not have (or need) wmaybe.   do not bother testing
+   * for it.
+   */
+  if (sc->is_adaptec) {
+    /* XXX, actually don't need a DMA plan: adaptec is smarter than that */
+    en_dmaplan = en_dma_planB; 
+    return;
+  }
+
+  /*
+   * test that WMAYBE dma works like we think it should 
+   * (i.e. no alignment restrictions on host address other than alburst)
+   */
+
+  try = sc->bestburstlen - 4;
+  fail = 0;
+  fail += en_dmaprobe_doit(sc, sp, dp, try);
+  for (lcv = 4 ; lcv < sc->bestburstlen ; lcv += 4) {
+    fail += en_dmaprobe_doit(sc, sp+lcv, dp+lcv, try);
+    if (sc->alburst)
+      try -= 4;
+  }
+  if (EN_NOWMAYBE || fail) {
+    if (fail)
+      printf("%s: WARNING: WMAYBE DMA test failed %d time(s)\n", 
+	sc->sc_dev.dv_xname, fail);
+    en_dmaplan = en_dma_planB;		/* fall back to plan B */
+  }
+
+}
+
+
+/*
+ * en_dmaprobe_doit: do actual testing
+ */
+
+int
+en_dmaprobe_doit(sc, sp, dp, wmtry)
+
+struct en_softc *sc;
+u_int8_t *sp, *dp;
+int wmtry;
+
+{
+  int lcv, retval = 4, cnt, count;
+  u_int32_t reg, bcode, midvloc;
+
+  /*
+   * set up a 1k buffer at MID_BUFOFF
+   */
+
+  if (sc->en_busreset)
+    sc->en_busreset(sc);
+  EN_WRITE(sc, MID_RESID, 0x0);	/* reset card before touching RAM */
+
+  midvloc = ((MID_BUFOFF - MID_RAMOFF) / sizeof(u_int32_t)) >> MIDV_LOCTOPSHFT;
+  EN_WRITE(sc, MIDX_PLACE(0), MIDX_MKPLACE(en_k2sz(1), midvloc));
+  EN_WRITE(sc, MID_VC(0), (midvloc << MIDV_LOCSHIFT) 
+		| (en_k2sz(1) << MIDV_SZSHIFT) | MIDV_TRASH);
+  EN_WRITE(sc, MID_DST_RP(0), 0);
+  EN_WRITE(sc, MID_WP_ST_CNT(0), 0);
+
+  for (lcv = 0 ; lcv < 68 ; lcv++) 		/* set up sample data */
+    sp[lcv] = lcv+1;
+  EN_WRITE(sc, MID_MAST_CSR, MID_MCSR_ENDMA);	/* enable DMA (only) */
+
+  sc->drq_chip = MID_DRQ_REG2A(EN_READ(sc, MID_DMA_RDRX));
+  sc->dtq_chip = MID_DTQ_REG2A(EN_READ(sc, MID_DMA_RDTX));
+
+  /*
+   * try it now . . .  DMA it out, then DMA it back in and compare
+   *
+   * note: in order to get the dma stuff to reverse directions it wants
+   * the "end" flag set!   since we are not dma'ing valid data we may
+   * get an ident mismatch interrupt (which we will ignore).
+   *
+   * note: we've got two different tests rolled up in the same loop
+   * if (wmtry) 
+   *   then we are doing a wmaybe test and wmtry is a byte count
+   *   else we are doing a burst test
+   */
+
+  for (lcv = 8 ; lcv <= MIDDMA_MAXBURST ; lcv = lcv * 2) {
+
+    /* zero SRAM and dest buffer */
+    for (cnt = 0 ; cnt < 1024; cnt += 4) 
+      EN_WRITE(sc, MID_BUFOFF+cnt, 0);	/* zero memory */
+    for (cnt = 0 ; cnt < 68  ; cnt++) 
+      dp[cnt] = 0;
+
+    if (wmtry) {
+      count = (sc->bestburstlen - sizeof(u_int32_t)) / sizeof(u_int32_t);
+      bcode = en_dmaplan[count].bcode;
+      count = wmtry >> en_dmaplan[count].divshift;
+    } else {
+      bcode = en_sz2b(lcv);
+      count = 1;
+    }
+    if (sc->is_adaptec)
+      EN_WRITE(sc, sc->dtq_chip, MID_MK_TXQ_ADP(lcv, 0, MID_DMA_END, 0));
+    else
+      EN_WRITE(sc, sc->dtq_chip, MID_MK_TXQ_ENI(count, 0, MID_DMA_END, bcode));
+    EN_WRITE(sc, sc->dtq_chip+4, vtophys(sp));
+    EN_WRITE(sc, MID_DMA_WRTX, MID_DTQ_A2REG(sc->dtq_chip+8));
+    cnt = 1000;
+    while (EN_READ(sc, MID_DMA_RDTX) == MID_DTQ_A2REG(sc->dtq_chip)) {
+      DELAY(1);
+      cnt--;
+      if (cnt == 0) {
+	printf("%s: unexpected timeout in tx DMA test\n", sc->sc_dev.dv_xname);
+	return(retval);		/* timeout, give up */
+      }
+    }
+    EN_WRAPADD(MID_DTQOFF, MID_DTQEND, sc->dtq_chip, 8);
+    reg = EN_READ(sc, MID_INTACK); 
+    if ((reg & MID_INT_DMA_TX) != MID_INT_DMA_TX) {
+      printf("%s: unexpected status in tx DMA test: 0x%x\n", 
+		sc->sc_dev.dv_xname, reg);
+      return(retval);
+    }
+    EN_WRITE(sc, MID_MAST_CSR, MID_MCSR_ENDMA);   /* re-enable DMA (only) */
+
+    /* "return to sender..."  address is known ... */
+
+    if (sc->is_adaptec)
+      EN_WRITE(sc, sc->drq_chip, MID_MK_RXQ_ADP(lcv, 0, MID_DMA_END, 0));
+    else
+      EN_WRITE(sc, sc->drq_chip, MID_MK_RXQ_ENI(count, 0, MID_DMA_END, bcode));
+    EN_WRITE(sc, sc->drq_chip+4, vtophys(dp));
+    EN_WRITE(sc, MID_DMA_WRRX, MID_DRQ_A2REG(sc->drq_chip+8));
+    cnt = 1000;
+    while (EN_READ(sc, MID_DMA_RDRX) == MID_DRQ_A2REG(sc->drq_chip)) {
+      DELAY(1);
+      cnt--;
+      if (cnt == 0) {
+	printf("%s: unexpected timeout in rx DMA test\n", sc->sc_dev.dv_xname);
+	return(retval);		/* timeout, give up */
+      }
+    }
+    EN_WRAPADD(MID_DRQOFF, MID_DRQEND, sc->drq_chip, 8);
+    reg = EN_READ(sc, MID_INTACK); 
+    if ((reg & MID_INT_DMA_RX) != MID_INT_DMA_RX) {
+      printf("%s: unexpected status in rx DMA test: 0x%x\n", 
+		sc->sc_dev.dv_xname, reg);
+      return(retval);
+    }
+    EN_WRITE(sc, MID_MAST_CSR, MID_MCSR_ENDMA);   /* re-enable DMA (only) */
+
+    if (wmtry) {
+      return(bcmp(sp, dp, wmtry));  /* wmtry always exits here, no looping */
+    }
+  
+    if (bcmp(sp, dp, lcv))
+      return(retval);		/* failed, use last value */
+
+    retval = lcv;
+
+  }
+  return(retval);		/* studly 64 byte DMA present!  oh baby!! */
+}
+
+/***********************************************************************/
+
+/*
+ * en_ioctl: handle ioctl requests
+ *
+ * NOTE: if you add an ioctl to set txspeed, you should choose a new
+ * TX channel/slot.   Choose the one with the lowest sc->txslot[slot].nref
+ * value, subtract one from sc->txslot[0].nref, add one to the
+ * sc->txslot[slot].nref, set sc->txvc2slot[vci] = slot, and then set
+ * txspeed[vci].
+ */
+
+STATIC int en_ioctl(ifp, cmd, data)
+
+struct ifnet *ifp;
+EN_IOCTL_CMDT cmd;
+caddr_t data;
+
+{
+#ifdef MISSING_IF_SOFTC
+    struct en_softc *sc = (struct en_softc *) en_cd.cd_devs[ifp->if_unit];
+#else
+    struct en_softc *sc = (struct en_softc *) ifp->if_softc;
+#endif
+    struct ifaddr *ifa = (struct ifaddr *) data;
+    struct ifreq *ifr = (struct ifreq *) data;
+    struct atm_pseudoioctl *api = (struct atm_pseudoioctl *)data;
+#ifdef NATM
+    struct atm_rawioctl *ario = (struct atm_rawioctl *)data;
+    int slot;
+#endif
+    int s, error = 0;
+
+    s = splnet();
+
+    switch (cmd) {
+	case SIOCATMENA:		/* enable circuit for recv */
+		error = en_rxctl(sc, api, 1);
+		break;
+
+	case SIOCATMDIS: 		/* disable circuit for recv */
+		error = en_rxctl(sc, api, 0);
+		break;
+
+#ifdef NATM
+	case SIOCXRAWATM:
+		if ((slot = sc->rxvc2slot[ario->npcb->npcb_vci]) == RX_NONE) {
+			error = EINVAL;
+			break;
+		}
+		if (ario->rawvalue > EN_RXSZ*1024)
+			ario->rawvalue = EN_RXSZ*1024;
+		if (ario->rawvalue) {
+			sc->rxslot[slot].oth_flags |= ENOTHER_RAW;
+			sc->rxslot[slot].raw_threshold = ario->rawvalue;
+		} else {
+			sc->rxslot[slot].oth_flags &= (~ENOTHER_RAW);
+			sc->rxslot[slot].raw_threshold = 0;
+		}
+#ifdef EN_DEBUG
+		printf("%s: rxvci%d: turn %s raw (boodi) mode\n",
+			sc->sc_dev.dv_xname, ario->npcb->npcb_vci,
+			(ario->rawvalue) ? "on" : "off");
+#endif
+		break;
+#endif
+	case SIOCSIFADDR: 
+		ifp->if_flags |= IFF_UP;
+#ifdef INET
+		if (ifa->ifa_addr->sa_family == AF_INET) {
+			en_reset(sc);
+			en_init(sc);
+			ifa->ifa_rtrequest = atm_rtrequest; /* ??? */
+			break;
+		}
+#endif /* INET */
+		/* what to do if not INET? */
+		en_reset(sc);
+		en_init(sc);
+		break;
+
+	case SIOCGIFADDR: 
+		error = EINVAL;
+		break;
+
+	case SIOCSIFFLAGS: 
+		error = EINVAL;
+		break;
+
+#if defined(SIOCSIFMTU)		/* ??? copied from if_de */
+#if !defined(ifr_mtu)
+#define ifr_mtu ifr_metric
+#endif
+	case SIOCSIFMTU:
+	    /*
+	     * Set the interface MTU.
+	     */
+#ifdef notsure
+	    if (ifr->ifr_mtu > ATMMTU) {
+		error = EINVAL;
+		break;
+	    }
+#endif
+	    ifp->if_mtu = ifr->ifr_mtu;
+		/* XXXCDC: do we really need to reset on MTU size change? */
+	    en_reset(sc);
+	    en_init(sc);
+	    break;
+#endif /* SIOCSIFMTU */
+
+	default: 
+	    error = EINVAL;
+	    break;
+    }
+    splx(s);
+    return error;
+}
+
+
+/*
+ * en_rxctl: turn on and off VCs for recv.
+ */
+
+STATIC int en_rxctl(sc, pi, on)
+
+struct en_softc *sc;
+struct atm_pseudoioctl *pi;
+int on;
+
+{
+  u_int s, vci, flags, slot;
+  u_int32_t oldmode, newmode;
+
+  vci = ATM_PH_VCI(&pi->aph);
+  flags = ATM_PH_FLAGS(&pi->aph);
+
+#ifdef EN_DEBUG
+  printf("%s: %s vpi=%d, vci=%d, flags=%d\n", sc->sc_dev.dv_xname,
+	(on) ? "enable" : "disable", ATM_PH_VPI(&pi->aph), vci, flags);
+#endif
+
+  if (ATM_PH_VPI(&pi->aph) || vci >= MID_N_VC)
+    return(EINVAL);
+
+  /*
+   * turn on VCI!
+   */
+
+  if (on) {
+    if (sc->rxvc2slot[vci] != RX_NONE)
+      return(EINVAL);
+    for (slot = 0 ; slot < sc->en_nrx ; slot++)
+      if (sc->rxslot[slot].oth_flags & ENOTHER_FREE)
+	break;
+    if (slot == sc->en_nrx)
+      return(ENOSPC);
+    sc->rxvc2slot[vci] = slot;
+    sc->rxslot[slot].rxhand = NULL;
+    oldmode = sc->rxslot[slot].mode;
+    newmode = (flags & ATM_PH_AAL5) ? MIDV_AAL5 : MIDV_NOAAL;
+    sc->rxslot[slot].mode = MIDV_SETMODE(oldmode, newmode);
+    sc->rxslot[slot].atm_vci = vci;
+    sc->rxslot[slot].atm_flags = flags;
+    sc->rxslot[slot].oth_flags = 0;
+    sc->rxslot[slot].rxhand = pi->rxhand;
+    if (sc->rxslot[slot].indma.ifq_head || sc->rxslot[slot].q.ifq_head)
+      panic("en_rxctl: left over mbufs on enable");
+    sc->txspeed[vci] = 0;	/* full speed to start */
+    sc->txvc2slot[vci] = 0;	/* init value */
+    sc->txslot[0].nref++;	/* bump reference count */
+    en_loadvc(sc, vci);		/* does debug printf for us */
+    return(0);
+  }
+
+  /*
+   * turn off VCI
+   */
+
+  if (sc->rxvc2slot[vci] == RX_NONE)
+    return(EINVAL);
+  slot = sc->rxvc2slot[vci];
+  if ((sc->rxslot[slot].oth_flags & (ENOTHER_FREE|ENOTHER_DRAIN)) != 0)
+    return(EINVAL);
+  s = splimp();		/* block out enintr() */
+  oldmode = EN_READ(sc, MID_VC(vci));
+  newmode = MIDV_SETMODE(oldmode, MIDV_TRASH) & ~MIDV_INSERVICE;
+  EN_WRITE(sc, MID_VC(vci), (newmode | (oldmode & MIDV_INSERVICE)));
+		/* halt in tracks, be careful to preserve inserivce bit */
+  DELAY(27);
+  sc->rxslot[slot].rxhand = NULL;
+  sc->rxslot[slot].mode = newmode;
+
+  sc->txslot[sc->txvc2slot[vci]].nref--;
+  sc->txspeed[vci] = 0;
+  sc->txvc2slot[vci] = 0;
+
+  /* if stuff is still going on we are going to have to drain it out */
+  if (sc->rxslot[slot].indma.ifq_head || 
+		sc->rxslot[slot].q.ifq_head ||
+		(sc->rxslot[slot].oth_flags & ENOTHER_SWSL) != 0) {
+    sc->rxslot[slot].oth_flags |= ENOTHER_DRAIN;
+  } else {
+    sc->rxslot[slot].oth_flags = ENOTHER_FREE;
+    sc->rxslot[slot].atm_vci = RX_NONE;
+    sc->rxvc2slot[vci] = RX_NONE;
+  }
+  splx(s);		/* enable enintr() */
+#ifdef EN_DEBUG
+  printf("%s: rx%d: VCI %d is now %s\n", sc->sc_dev.dv_xname, slot, vci,
+	(sc->rxslot[slot].oth_flags & ENOTHER_DRAIN) ? "draining" : "free");
+#endif
+  return(0);
+}
+
+/***********************************************************************/
+
+/*
+ * en_reset: reset the board, throw away work in progress.
+ * must en_init to recover.
+ */
+
+void en_reset(sc)
+
+struct en_softc *sc;
+
+{
+  struct mbuf *m;
+  int lcv, slot;
+
+#ifdef EN_DEBUG
+  printf("%s: reset\n", sc->sc_dev.dv_xname);
+#endif
+
+  if (sc->en_busreset)
+    sc->en_busreset(sc);
+  EN_WRITE(sc, MID_RESID, 0x0);	/* reset hardware */
+
+  /*
+   * recv: dump any mbufs we are dma'ing into, if DRAINing, then a reset
+   * will free us!
+   */
+
+  for (lcv = 0 ; lcv < MID_N_VC ; lcv++) {
+    if (sc->rxvc2slot[lcv] == RX_NONE)
+      continue;
+    slot = sc->rxvc2slot[lcv];
+    while (1) {
+      IF_DEQUEUE(&sc->rxslot[slot].indma, m);
+      if (m == NULL) 
+	break;		/* >>> exit 'while(1)' here <<< */
+      m_freem(m);
+    }
+    while (1) {
+      IF_DEQUEUE(&sc->rxslot[slot].q, m);
+      if (m == NULL) 
+	break;		/* >>> exit 'while(1)' here <<< */
+      m_freem(m);
+    }
+    sc->rxslot[slot].oth_flags &= ~ENOTHER_SWSL;
+    if (sc->rxslot[slot].oth_flags & ENOTHER_DRAIN) {
+      sc->rxslot[slot].oth_flags = ENOTHER_FREE;
+      sc->rxvc2slot[lcv] = RX_NONE;
+#ifdef EN_DEBUG
+  printf("%s: rx%d: VCI %d is now free\n", sc->sc_dev.dv_xname, slot, lcv);
+#endif
+    }
+  }
+
+  /*
+   * xmit: dump everything
+   */
+
+  for (lcv = 0 ; lcv < EN_NTX ; lcv++) {
+    while (1) {
+      IF_DEQUEUE(&sc->txslot[lcv].indma, m);
+      if (m == NULL) 
+	break;		/* >>> exit 'while(1)' here <<< */
+      m_freem(m);
+    }
+    while (1) {
+      IF_DEQUEUE(&sc->txslot[lcv].q, m);
+      if (m == NULL) 
+	break;		/* >>> exit 'while(1)' here <<< */
+      m_freem(m);
+    }
+    sc->txslot[lcv].mbsize = 0;
+  }
+
+  return;
+}
+
+
+/*
+ * en_init: init board and sync the card with the data in the softc.
+ */
+
+STATIC void en_init(sc)
+
+struct en_softc *sc;
+
+{
+  int vc, slot;
+  u_int32_t loc;
+
+  if ((sc->enif.if_flags & IFF_UP) == 0) {
+#ifdef EN_DEBUG
+    printf("%s: going down\n", sc->sc_dev.dv_xname);
+#endif
+    en_reset(sc);			/* to be safe */
+    sc->enif.if_flags &= ~IFF_RUNNING;	/* disable */
+    return;
+  }
+
+#ifdef EN_DEBUG
+  printf("%s: going up\n", sc->sc_dev.dv_xname);
+#endif
+  sc->enif.if_flags |= IFF_RUNNING;	/* enable */
+
+  if (sc->en_busreset)
+    sc->en_busreset(sc);
+  EN_WRITE(sc, MID_RESID, 0x0);		/* reset */
+
+  /*
+   * init obmem data structures: vc tab, dma q's, slist.
+   */
+
+  for (vc = 0 ; vc < MID_N_VC ; vc++) 
+    en_loadvc(sc, vc);
+
+  bzero(&sc->drq, sizeof(sc->drq));
+#if 1
+  /* leave one entry in the ringbuf unused to avoid wraparound */
+  sc->drq_free = MID_DRQ_N - 1;
+#else
+  sc->drq_free = MID_DRQ_N;
+#endif
+  sc->drq_chip = MID_DRQ_REG2A(EN_READ(sc, MID_DMA_RDRX));
+  EN_WRITE(sc, MID_DMA_WRRX, MID_DRQ_A2REG(sc->drq_chip)); 
+						/* ensure zero queue */
+  sc->drq_us = sc->drq_chip;
+
+  bzero(&sc->dtq, sizeof(sc->dtq));
+#if 1
+  /* leave one entry in the ringbuf unused to avoid wraparound */
+  sc->dtq_free = MID_DTQ_N - 1;
+#else
+  sc->dtq_free = MID_DTQ_N;
+#endif
+  sc->dtq_chip = MID_DTQ_REG2A(EN_READ(sc, MID_DMA_RDTX));
+  EN_WRITE(sc, MID_DMA_WRTX, MID_DRQ_A2REG(sc->dtq_chip)); 
+						/* ensure zero queue */
+  sc->dtq_us = sc->dtq_chip;
+
+  sc->hwslistp = MID_SL_REG2A(EN_READ(sc, MID_SERV_WRITE));
+  sc->swsl_size = sc->swsl_head = sc->swsl_tail = 0;
+
+#ifdef EN_DEBUG
+  printf("%s: drq free/chip: %d/0x%x, dtq free/chip: %d/0x%x, hwslist: 0x%x\n", 
+    sc->sc_dev.dv_xname, sc->drq_free, sc->drq_chip, 
+    sc->dtq_free, sc->dtq_chip, sc->hwslistp);
+#endif
+
+  for (slot = 0 ; slot < EN_NTX ; slot++) {
+    sc->txslot[slot].bfree = EN_TXSZ * 1024;
+    EN_WRITE(sc, MIDX_READPTR(slot), 0);
+    EN_WRITE(sc, MIDX_DESCSTART(slot), 0);
+    loc = sc->txslot[slot].cur = sc->txslot[slot].start;
+    loc = loc - MID_RAMOFF;
+    loc = (loc & ~((EN_TXSZ*1024) - 1)) >> 2; /* mask, cvt to words */
+    loc = loc >> MIDV_LOCTOPSHFT;	/* top 11 bits */
+    EN_WRITE(sc, MIDX_PLACE(slot), MIDX_MKPLACE(en_k2sz(EN_TXSZ), loc));
+#ifdef EN_DEBUG
+    printf("%s: tx%d: place 0x%x\n", sc->sc_dev.dv_xname,  slot,
+	EN_READ(sc, MIDX_PLACE(slot)));
+#endif
+  }
+
+  /*
+   * enable!
+   */
+
+  EN_WRITE(sc, MID_INTENA, MID_INT_TX|MID_INT_DMA_OVR|MID_INT_IDENT|
+	MID_INT_LERR|MID_INT_DMA_ERR|MID_INT_DMA_RX|MID_INT_DMA_TX|
+	MID_INT_SERVICE| /* >>> MID_INT_SUNI| XXXCDC<<< */ MID_INT_STATS);
+  EN_WRITE(sc, MID_MAST_CSR, MID_SETIPL(sc->ipl)|MID_MCSR_ENDMA|
+	MID_MCSR_ENTX|MID_MCSR_ENRX);
+
+}
+
+
+/*
+ * en_loadvc: load a vc tab entry from a slot
+ */
+
+STATIC void en_loadvc(sc, vc)
+
+struct en_softc *sc;
+int vc;
+
+{
+  int slot;
+  u_int32_t reg = EN_READ(sc, MID_VC(vc));
+  
+  reg = MIDV_SETMODE(reg, MIDV_TRASH);
+  EN_WRITE(sc, MID_VC(vc), reg);
+  DELAY(27);
+
+  if ((slot = sc->rxvc2slot[vc]) == RX_NONE)
+    return;
+
+  /* no need to set CRC */
+  EN_WRITE(sc, MID_DST_RP(vc), 0);	/* read pointer = 0, desc. start = 0 */
+  EN_WRITE(sc, MID_WP_ST_CNT(vc), 0);	/* write pointer = 0 */
+  EN_WRITE(sc, MID_VC(vc), sc->rxslot[slot].mode);  /* set mode, size, loc */
+  sc->rxslot[slot].cur = sc->rxslot[slot].start;
+
+#ifdef EN_DEBUG
+    printf("%s: rx%d: assigned to VCI %d\n", sc->sc_dev.dv_xname, slot, vc);
+#endif
+}
+
+
+/*
+ * en_start: start transmitting the next packet that needs to go out
+ * if there is one.    note that atm_output() has already splimp()'d us.
+ */
+
+STATIC void en_start(ifp)
+
+struct ifnet *ifp;
+
+{
+#ifdef MISSING_IF_SOFTC
+    struct en_softc *sc = (struct en_softc *) en_cd.cd_devs[ifp->if_unit];
+#else
+    struct en_softc *sc = (struct en_softc *) ifp->if_softc;
+#endif
+    struct ifqueue *ifq = &ifp->if_snd; /* if INPUT QUEUE */
+    struct mbuf *m, *lastm, *prev;
+    struct atm_pseudohdr *ap, *new_ap;
+    int txchan, mlen, got, need, toadd, cellcnt, first;
+    u_int32_t atm_vpi, atm_vci, atm_flags, *dat, aal;
+    u_int8_t *cp;
+
+    if ((ifp->if_flags & IFF_RUNNING) == 0)
+	return;
+
+    /*
+     * remove everything from interface queue since we handle all queueing
+     * locally ... 
+     */
+
+    while (1) {
+
+      IF_DEQUEUE(ifq, m);
+      if (m == NULL)
+	return;		/* EMPTY: >>> exit here <<< */
+    
+      /*
+       * calculate size of packet (in bytes)
+       * also, if we are not doing transmit DMA we eliminate all stupid
+       * (non-word) alignments here using en_mfix().   calls to en_mfix()
+       * seem to be due to tcp retransmits for the most part.
+       *
+       * after this loop mlen total length of mbuf chain (including atm_ph),
+       * and lastm is a pointer to the last mbuf on the chain.
+       */
+
+      lastm = m;
+      mlen = 0;
+      prev = NULL;
+      while (1) {
+#ifdef EN_FIXMBUF
+	/* if eni, always fix misaligned mbuf */
+	if (!sc->is_adaptec || EN_NOTXDMA || !en_dma) {
+#else
+        if (EN_NOTXDMA || !en_dma) {		/* no DMA? */
+#endif
+	  if ( (mtod(lastm, unsigned long) % sizeof(u_int32_t)) != 0 ||
+	    ((lastm->m_len % sizeof(u_int32_t)) != 0 && lastm->m_next)) {
+	    first = (lastm == m);
+	    if (en_mfix(sc, &lastm, prev) == 0) {	/* failed? */
+	      m_freem(m);
+	      m = NULL;
+              break;
+            }
+	    if (first)
+	      m = lastm;		/* update */
+          }
+          prev = lastm;
+        }
+	mlen += lastm->m_len;
+	if (lastm->m_next == NULL)
+	  break;
+	lastm = lastm->m_next;
+      }
+
+      if (m == NULL)		/* happens only if mfix fails */
+        continue;
+
+      ap = mtod(m, struct atm_pseudohdr *);
+
+      atm_vpi = ATM_PH_VPI(ap);
+      atm_vci = ATM_PH_VCI(ap);
+      atm_flags = ATM_PH_FLAGS(ap) & ~(EN_OBHDR|EN_OBTRL);
+      aal = ((atm_flags & ATM_PH_AAL5) != 0) 
+			? MID_TBD_AAL5 : MID_TBD_NOAAL5;
+
+      /*
+       * check that vpi/vci is one we can use
+       */
+
+      if (atm_vpi || atm_vci > MID_N_VC) {
+	printf("%s: output vpi=%d, vci=%d out of card range, dropping...\n", 
+		sc->sc_dev.dv_xname, atm_vpi, atm_vci);
+	m_freem(m);
+	continue;
+      }
+
+      /*
+       * computing how much padding we need on the end of the mbuf, then
+       * see if we can put the TBD at the front of the mbuf where the
+       * link header goes (well behaved protocols will reserve room for us).
+       * last, check if room for PDU tail.
+       *
+       * got = number of bytes of data we have
+       * cellcnt = number of cells in this mbuf
+       * need = number of bytes of data + padding we need (excludes TBD)
+       * toadd = number of bytes of data we need to add to end of mbuf,
+       *	[including AAL5 PDU, if AAL5]
+       */
+
+      got = mlen - sizeof(struct atm_pseudohdr *);
+      toadd = (aal == MID_TBD_AAL5) ? MID_PDU_SIZE : 0;	/* PDU */
+      cellcnt = (got + toadd + (MID_ATMDATASZ - 1)) / MID_ATMDATASZ;
+      need = cellcnt * MID_ATMDATASZ;
+      toadd = need - got;		/* recompute, including zero padding */
+
+#ifdef EN_DEBUG
+      printf("%s: txvci%d: mlen=%d, got=%d, need=%d, toadd=%d, cell#=%d\n",
+	sc->sc_dev.dv_xname, atm_vci, mlen, got, need, toadd, cellcnt);
+      printf("     leading_space=%d, trailing_space=%d\n", 
+	M_LEADINGSPACE(m), M_TRAILINGSPACE(lastm));
+#endif
+
+#ifdef EN_MBUF_OPT
+
+      /*
+       * note: external storage (M_EXT) can be shared between mbufs
+       * to avoid copying (see m_copym()).    this means that the same
+       * data buffer could be shared by several mbufs, and thus it isn't
+       * a good idea to try and write TBDs or PDUs to M_EXT data areas.
+       */
+
+      if (M_LEADINGSPACE(m) >= MID_TBD_SIZE && (m->m_flags & M_EXT) == 0) {
+	m->m_data -= MID_TBD_SIZE;
+	m->m_len += MID_TBD_SIZE;
+	mlen += MID_TBD_SIZE;
+	new_ap = mtod(m, struct atm_pseudohdr *);
+	*new_ap = *ap;			/* move it back */
+	ap = new_ap;
+	dat = ((u_int32_t *) ap) + 1;
+	/* make sure the TBD is in proper byte order */
+	*dat++ = htonl(MID_TBD_MK1(aal, sc->txspeed[atm_vci], cellcnt));
+	*dat = htonl(MID_TBD_MK2(atm_vci, 0, 0));
+	atm_flags |= EN_OBHDR;
+      }
+
+      if (toadd && (lastm->m_flags & M_EXT) == 0 && 
+					M_TRAILINGSPACE(lastm) >= toadd) {
+	cp = mtod(lastm, u_int8_t *) + lastm->m_len;
+	lastm->m_len += toadd;
+	mlen += toadd;
+	if (aal == MID_TBD_AAL5) {
+	  bzero(cp, toadd - MID_PDU_SIZE);
+	  dat = (u_int32_t *)(cp + toadd - MID_PDU_SIZE);
+	  /* make sure the PDU is in proper byte order */
+	  *dat = htonl(MID_PDU_MK1(0, 0, got));
+	} else {
+	  bzero(cp, toadd);
+	}
+	atm_flags |= EN_OBTRL;
+      }
+      ATM_PH_FLAGS(ap) = atm_flags;	/* update EN_OBHDR/EN_OBTRL bits */
+#endif	/* EN_MBUF_OPT */
+
+      /*
+       * get assigned channel (will be zero unless txspeed[atm_vci] is set)
+       */
+
+      txchan = sc->txvc2slot[atm_vci];
+
+      if (sc->txslot[txchan].mbsize > EN_TXHIWAT) {
+	EN_COUNT(sc->txmbovr);
+	m_freem(m);
+#ifdef EN_DEBUG
+	printf("%s: tx%d: buffer space shortage\n", sc->sc_dev.dv_xname,
+		txchan);
+#endif
+	continue;
+      }
+
+      sc->txslot[txchan].mbsize += mlen;
+
+#ifdef EN_DEBUG
+      printf("%s: tx%d: VPI=%d, VCI=%d, FLAGS=0x%x, speed=0x%x\n",
+	sc->sc_dev.dv_xname, txchan, atm_vpi, atm_vci, atm_flags, 
+	sc->txspeed[atm_vci]);
+      printf("     adjusted mlen=%d, mbsize=%d\n", mlen, 
+		sc->txslot[txchan].mbsize);
+#endif
+
+      IF_ENQUEUE(&sc->txslot[txchan].q, m);
+      en_txdma(sc, txchan);
+
+  }
+  /*NOTREACHED*/
+}
+
+
+/*
+ * en_mfix: fix a stupid mbuf
+ */
+STATIC int en_makeexclusive(struct en_softc *, struct mbuf **, struct mbuf *);
+
+STATIC int en_makeexclusive(sc, mm, prev)
+    struct en_softc *sc;
+    struct mbuf **mm, *prev;
+{
+    struct mbuf *m, *new;
+
+    m = *mm;
+    
+    if (m->m_flags & M_EXT) {
+	if (m->m_ext.ext_free) {
+	    /* external buffer isn't an ordinary mbuf cluster! */
+	    printf("%s: mfix: special buffer! can't make a copy!\n",
+		   sc->sc_dev.dv_xname);
+	    return (0);
+	}
+	
+	if (mclrefcnt[mtocl(m->m_ext.ext_buf)] > 1) {
+	    /* make a real copy of the M_EXT mbuf since it is shared */
+	    MGET(new, M_DONTWAIT, MT_DATA);
+	    if (!new) {
+		EN_COUNT(sc->mfixfail);
+		return(0);
+	    }
+	    if (m->m_flags & M_PKTHDR)
+		M_COPY_PKTHDR(new, m);
+	    MCLGET(new, M_DONTWAIT);
+	    if ((new->m_flags & M_EXT) == 0) {
+		m_free(new);
+		EN_COUNT(sc->mfixfail);
+		return(0);
+	    }
+	    bcopy(m->m_data, new->m_data, m->m_len);	
+	    new->m_len = m->m_len;
+	    new->m_next = m->m_next;
+	    if (prev)
+		prev->m_next = new;
+	    m_free(m);
+	    *mm = new;
+	}
+	else {
+	    /* the buffer is not shared, align the data offset using
+	       this buffer. */
+	    u_char *d = mtod(m, u_char *);
+	    int off = ((u_long)d) % sizeof(u_int32_t);
+
+	    if (off > 0) {
+		bcopy(d, d - off, m->m_len);
+		m->m_data = (caddr_t)d - off;
+	    }
+	}
+    }
+    return (1);
+}
+
+STATIC int en_mfix(sc, mm, prev)
+
+struct en_softc *sc;
+struct mbuf **mm, *prev;
+
+{
+  struct mbuf *m;
+  u_char *d, *cp;
+  int off;
+  struct mbuf *nxt;
+
+  m = *mm;
+
+  EN_COUNT(sc->mfix);			/* count # of calls */
+#ifdef EN_DEBUG
+  printf("%s: mfix mbuf m_data=0x%x, m_len=%d\n", sc->sc_dev.dv_xname,
+	m->m_data, m->m_len);
+#endif
+
+  d = mtod(m, u_char *);
+  off = ((unsigned long) d) % sizeof(u_int32_t);
+
+  if (off) {
+    if ((m->m_flags & M_EXT) == 0) {
+      bcopy(d, d - off, m->m_len);   /* ALIGN! (with costly data copy...) */
+      d -= off;
+      m->m_data = (caddr_t)d;
+    } else {
+      /* can't write to an M_EXT mbuf since it may be shared */
+      if (en_makeexclusive(sc, &m, prev) == 0)
+	  return (0);
+      *mm = m;	/* note: 'd' now invalid */
+    }
+  }
+
+  off = m->m_len % sizeof(u_int32_t);
+  if (off == 0)
+    return(1);
+
+  if (m->m_flags & M_EXT) {
+      /* can't write to an M_EXT mbuf since it may be shared */
+      if (en_makeexclusive(sc, &m, prev) == 0)
+	  return (0);
+      *mm = m;	/* note: 'd' now invalid */
+  }
+
+  d = mtod(m, u_char *) + m->m_len;
+  off = sizeof(u_int32_t) - off;
+  
+  nxt = m->m_next;
+  while (off--) {
+    if (nxt != NULL && nxt->m_len == 0) {
+	/* remove an empty mbuf.  this avoids odd byte padding to an empty
+	   last mbuf.  */
+	m->m_next = nxt = m_free(nxt);
+    }
+    if (nxt == NULL) {		/* out of data, zero fill */
+      *d++ = 0;
+      continue;			/* next "off" */
+    }
+    cp = mtod(nxt, u_char *);
+    *d++ = *cp++;
+    m->m_len++;
+    nxt->m_len--; 
+    nxt->m_data = (caddr_t)cp;
+  }
+  if (nxt != NULL && nxt->m_len == 0)
+      m->m_next = m_free(nxt);
+  return(1);
+}
+
+
+/*
+ * en_txdma: start trasmit DMA, if possible
+ */
+
+STATIC void en_txdma(sc, chan)
+
+struct en_softc *sc;
+int chan;
+
+{
+  struct mbuf *tmp;
+  struct atm_pseudohdr *ap;
+  struct en_launch launch;
+  int datalen = 0, dtqneed, len, ncells;
+  u_int8_t *cp;
+
+#ifdef EN_DEBUG
+  printf("%s: tx%d: starting...\n", sc->sc_dev.dv_xname, chan);
+#endif
+
+  /*
+   * note: now that txlaunch handles non-word aligned/sized requests
+   * the only time you can safely set launch.nodma is if you've en_mfix()'d
+   * the mbuf chain.    this happens only if EN_NOTXDMA || !en_dma.
+   */
+
+  launch.nodma = (EN_NOTXDMA || !en_dma);
+
+again:
+
+  /*
+   * get an mbuf waiting for DMA
+   */
+
+  launch.t = sc->txslot[chan].q.ifq_head; /* peek at head of queue */
+
+  if (launch.t == NULL) {
+#ifdef EN_DEBUG
+    printf("%s: tx%d: ...done!\n", sc->sc_dev.dv_xname, chan);
+#endif
+    return;	/* >>> exit here if no data waiting for DMA <<< */
+  }
+
+  /*
+   * get flags, vci
+   * 
+   * note: launch.need = # bytes we need to get on the card
+   *	   dtqneed = # of DTQs we need for this packet
+   *       launch.mlen = # of bytes in in mbuf chain (<= launch.need)
+   */
+
+  ap = mtod(launch.t, struct atm_pseudohdr *);
+  launch.atm_vci = ATM_PH_VCI(ap);
+  launch.atm_flags = ATM_PH_FLAGS(ap);
+  launch.aal = ((launch.atm_flags & ATM_PH_AAL5) != 0) ? 
+		MID_TBD_AAL5 : MID_TBD_NOAAL5;
+
+  /*
+   * XXX: have to recompute the length again, even though we already did
+   * it in en_start().   might as well compute dtqneed here as well, so 
+   * this isn't that bad.
+   */
+
+  if ((launch.atm_flags & EN_OBHDR) == 0) {
+    dtqneed = 1;		/* header still needs to be added */
+    launch.need = MID_TBD_SIZE;	/* not includeded with mbuf */
+  } else {
+    dtqneed = 0;		/* header on-board, dma with mbuf */
+    launch.need = 0;
+  }
+
+  launch.mlen = 0;
+  for (tmp = launch.t ; tmp != NULL ; tmp = tmp->m_next) {
+    len = tmp->m_len;
+    launch.mlen += len;
+    cp = mtod(tmp, u_int8_t *);
+    if (tmp == launch.t) {
+      len -= sizeof(struct atm_pseudohdr); /* don't count this! */
+      cp += sizeof(struct atm_pseudohdr);
+    }
+    launch.need += len;
+    if (len == 0)
+      continue;			/* atm_pseudohdr alone in first mbuf */
+
+    dtqneed += en_dqneed(sc, (caddr_t) cp, len, 1);
+  }
+
+  if ((launch.need % sizeof(u_int32_t)) != 0) 
+    dtqneed++;			/* need DTQ to FLUSH internal buffer */
+
+  if ((launch.atm_flags & EN_OBTRL) == 0) {
+    if (launch.aal == MID_TBD_AAL5) {
+      datalen = launch.need - MID_TBD_SIZE;
+      launch.need += MID_PDU_SIZE;		/* AAL5: need PDU tail */
+    }
+    dtqneed++;			/* need to work on the end a bit */
+  }
+
+  /*
+   * finish calculation of launch.need (need to figure out how much padding
+   * we will need).   launch.need includes MID_TBD_SIZE, but we need to
+   * remove that to so we can round off properly.     we have to add 
+   * MID_TBD_SIZE back in after calculating ncells.
+   */
+
+  launch.need = roundup(launch.need - MID_TBD_SIZE, MID_ATMDATASZ);
+  ncells = launch.need / MID_ATMDATASZ;
+  launch.need += MID_TBD_SIZE;
+
+  if (launch.need > EN_TXSZ * 1024) {
+    printf("%s: tx%d: packet larger than xmit buffer (%d > %d)\n",
+      sc->sc_dev.dv_xname, chan, launch.need, EN_TXSZ * 1024);
+    goto dequeue_drop;
+  }
+
+  if (launch.need > sc->txslot[chan].bfree) {
+    EN_COUNT(sc->txoutspace);
+#ifdef EN_DEBUG
+    printf("%s: tx%d: out of transmit space\n", sc->sc_dev.dv_xname, chan);
+#endif
+    return;		/* >>> exit here if out of obmem buffer space <<< */
+  }
+  
+  /*
+   * ensure we have enough dtqs to go, if not, wait for more.
+   */
+
+  if (launch.nodma) {
+    dtqneed = 1;
+  }
+  if (dtqneed > sc->dtq_free) {
+    sc->need_dtqs = 1;
+    EN_COUNT(sc->txdtqout);
+#ifdef EN_DEBUG
+    printf("%s: tx%d: out of transmit DTQs\n", sc->sc_dev.dv_xname, chan);
+#endif
+    return;		/* >>> exit here if out of dtqs <<< */
+  }
+
+  /*
+   * it is a go, commit!  dequeue mbuf start working on the xfer.
+   */
+
+  IF_DEQUEUE(&sc->txslot[chan].q, tmp);
+#ifdef EN_DIAG
+  if (launch.t != tmp)
+    panic("en dequeue");
+#endif /* EN_DIAG */
+
+  /*
+   * launch!
+   */
+
+  EN_COUNT(sc->launch);
+  sc->enif.if_opackets++;
+  if ((launch.atm_flags & EN_OBHDR) == 0) {
+    EN_COUNT(sc->lheader);
+    /* store tbd1/tbd2 in host byte order */
+    launch.tbd1 = MID_TBD_MK1(launch.aal, sc->txspeed[launch.atm_vci], ncells);
+    launch.tbd2 = MID_TBD_MK2(launch.atm_vci, 0, 0);
+  }
+  if ((launch.atm_flags & EN_OBTRL) == 0 && launch.aal == MID_TBD_AAL5) {
+    EN_COUNT(sc->ltail);
+    launch.pdu1 = MID_PDU_MK1(0, 0, datalen);  /* host byte order */
+  }
+
+  en_txlaunch(sc, chan, &launch);
+  
+  /*
+   * do some housekeeping and get the next packet
+   */
+
+  sc->txslot[chan].bfree -= launch.need;
+  IF_ENQUEUE(&sc->txslot[chan].indma, launch.t);
+  goto again;
+
+  /*
+   * END of txdma loop!
+   */
+
+  /*
+   * error handles
+   */
+
+dequeue_drop:
+  IF_DEQUEUE(&sc->txslot[chan].q, tmp);
+  if (launch.t != tmp)
+    panic("en dequeue drop");
+  m_freem(launch.t);
+  sc->txslot[chan].mbsize -= launch.mlen;
+  goto again;
+}
+
+
+/*
+ * en_txlaunch: launch an mbuf into the dma pool!
+ */
+
+STATIC void en_txlaunch(sc, chan, l)
+
+struct en_softc *sc;
+int chan;
+struct en_launch *l;
+
+{
+  struct mbuf *tmp;
+  u_int32_t cur = sc->txslot[chan].cur,
+	    start = sc->txslot[chan].start,
+	    stop = sc->txslot[chan].stop,
+	    dma, *data, *datastop, count, bcode;
+  int pad, addtail, need, len, needalign, cnt, end, mx;
+
+
+ /*
+  * vars:
+  *   need = # bytes card still needs (decr. to zero)
+  *   len = # of bytes left in current mbuf
+  *   cur = our current pointer
+  *   dma = last place we programmed into the DMA
+  *   data = pointer into data area of mbuf that needs to go next
+  *   cnt = # of bytes to transfer in this DTQ
+  *   bcode/count = DMA burst code, and chip's version of cnt
+  *
+  *   a single buffer can require up to 5 DTQs depending on its size
+  *   and alignment requirements.   the 5 possible requests are:
+  *   [1] 1, 2, or 3 byte DMA to align src data pointer to word boundary
+  *   [2] alburst DMA to align src data pointer to bestburstlen
+  *   [3] 1 or more bestburstlen DMAs
+  *   [4] clean up burst (to last word boundary)
+  *   [5] 1, 2, or 3 byte final clean up DMA
+  */
+
+ need = l->need;
+ dma = cur;
+ addtail = (l->atm_flags & EN_OBTRL) == 0;	/* add a tail? */
+
+#ifdef EN_DIAG
+  if ((need - MID_TBD_SIZE) % MID_ATMDATASZ) 
+    printf("%s: tx%d: bogus trasmit needs (%d)\n", sc->sc_dev.dv_xname, chan,
+		need);
+#endif
+#ifdef EN_DEBUG
+  printf("%s: tx%d: launch mbuf %p!   cur=0x%x[%d], need=%d, addtail=%d\n",
+	sc->sc_dev.dv_xname, chan, l->t, cur, (cur-start)/4, need, addtail);
+  count = EN_READ(sc, MIDX_PLACE(chan));
+  printf("     HW: base_address=0x%x, size=%d, read=%d, descstart=%d\n",
+	MIDX_BASE(count), MIDX_SZ(count), EN_READ(sc, MIDX_READPTR(chan)), 
+	EN_READ(sc, MIDX_DESCSTART(chan)));
+#endif
+
+ /*
+  * do we need to insert the TBD by hand?
+  * note that tbd1/tbd2/pdu1 are in host byte order.
+  */
+
+  if ((l->atm_flags & EN_OBHDR) == 0) {
+#ifdef EN_DEBUG
+    printf("%s: tx%d: insert header 0x%x 0x%x\n", sc->sc_dev.dv_xname,
+	chan, l->tbd1, l->tbd2);
+#endif
+    EN_WRITE(sc, cur, l->tbd1);
+    EN_WRAPADD(start, stop, cur, 4);
+    EN_WRITE(sc, cur, l->tbd2);
+    EN_WRAPADD(start, stop, cur, 4);
+    need -= 8;
+  }
+
+  /*
+   * now do the mbufs...
+   */
+
+  for (tmp = l->t ; tmp != NULL ; tmp = tmp->m_next) {
+
+    /* get pointer to data and length */
+    data = mtod(tmp, u_int32_t *);
+    len = tmp->m_len;
+    if (tmp == l->t) {
+      data += sizeof(struct atm_pseudohdr)/sizeof(u_int32_t);
+      len -= sizeof(struct atm_pseudohdr);
+    }
+
+    /* now, determine if we should copy it */
+    if (l->nodma || (len < EN_MINDMA &&
+       (len % 4) == 0 && ((unsigned long) data % 4) == 0 && (cur % 4) == 0)) {
+
+      /* 
+       * roundup len: the only time this will change the value of len
+       * is when l->nodma is true, tmp is the last mbuf, and there is
+       * a non-word number of bytes to transmit.   in this case it is
+       * safe to round up because we've en_mfix'd the mbuf (so the first
+       * byte is word aligned there must be enough free bytes at the end
+       * to round off to the next word boundary)...
+       */
+      len = roundup(len, sizeof(u_int32_t));
+      datastop = data + (len / sizeof(u_int32_t));
+      /* copy loop: preserve byte order!!!  use WRITEDAT */
+      while (data != datastop) {
+	EN_WRITEDAT(sc, cur, *data);
+	data++;
+	EN_WRAPADD(start, stop, cur, 4);
+      }
+      need -= len;
+#ifdef EN_DEBUG
+      printf("%s: tx%d: copied %d bytes (%d left, cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, len, need, cur);
+#endif
+      continue;		/* continue on to next mbuf */
+    }
+
+    /* going to do DMA, first make sure the dtq is in sync. */
+    if (dma != cur) {
+      EN_DTQADD(sc, WORD_IDX(start,cur), chan, MIDDMA_JK, 0, 0, 0);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: dtq_sync: advance pointer to %d\n",
+		sc->sc_dev.dv_xname, chan, cur);
+#endif
+    }
+
+    /*
+     * if this is the last buffer, and it looks like we are going to need to
+     * flush the internal buffer, can we extend the length of this mbuf to
+     * avoid the FLUSH?
+     */
+
+    if (tmp->m_next == NULL) {
+      cnt = (need - len) % sizeof(u_int32_t);
+      if (cnt && M_TRAILINGSPACE(tmp) >= cnt)
+        len += cnt;			/* pad for FLUSH */
+    }
+      
+#if !defined(MIDWAY_ENIONLY)
+
+    /*
+     * the adaptec DMA engine is smart and handles everything for us.
+     */
+
+    if (sc->is_adaptec) {
+      /* need to DMA "len" bytes out to card */
+      need -= len;
+      EN_WRAPADD(start, stop, cur, len);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: adp_dma %d bytes (%d left, cur now 0x%x)\n",
+              sc->sc_dev.dv_xname, chan, len, need, cur);
+#endif
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, len, chan, 0, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+      dma = cur;	/* update dma pointer */
+      continue;
+    }
+#endif /* !MIDWAY_ENIONLY */
+
+#if !defined(MIDWAY_ADPONLY)
+
+    /*
+     * the ENI DMA engine is not so smart and need more help from us
+     */
+
+    /* do we need to do a DMA op to align to word boundary? */
+    needalign = (unsigned long) data % sizeof(u_int32_t);
+    if (needalign) {
+      EN_COUNT(sc->headbyte);
+      cnt = sizeof(u_int32_t) - needalign;
+      if (cnt == 2 && len >= cnt) {
+        count = 1;
+        bcode = MIDDMA_2BYTE;
+      } else {
+        cnt = min(cnt, len);		/* prevent overflow */
+        count = cnt;
+        bcode = MIDDMA_BYTE;
+      }
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: small al_dma %d bytes (%d left, cur now 0x%x)\n",
+              sc->sc_dev.dv_xname, chan, cnt, need, cur);
+#endif
+      len -= cnt;
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, count, chan, bcode, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *) ((u_char *)data + cnt);
+    }
+
+    /* do we need to do a DMA op to align? */
+    if (sc->alburst && 
+	(needalign = (((unsigned long) data) & sc->bestburstmask)) != 0
+	&& len >= sizeof(u_int32_t)) {
+      cnt = sc->bestburstlen - needalign;
+      mx = len & ~(sizeof(u_int32_t)-1);	/* don't go past end */
+      if (cnt > mx) {
+        cnt = mx;
+        count = cnt / sizeof(u_int32_t);
+        bcode = MIDDMA_WORD;
+      } else {
+        count = cnt / sizeof(u_int32_t);
+        bcode = en_dmaplan[count].bcode;
+        count = cnt >> en_dmaplan[count].divshift;
+      }
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: al_dma %d bytes (%d left, cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, cnt, need, cur);
+#endif
+      len -= cnt;
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, count, chan, bcode, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *) ((u_char *)data + cnt);
+    }
+
+    /* do we need to do a max-sized burst? */
+    if (len >= sc->bestburstlen) {
+      count = len >> sc->bestburstshift;
+      cnt = count << sc->bestburstshift;
+      bcode = sc->bestburstcode;
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: best_dma %d bytes (%d left, cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, cnt, need, cur);
+#endif
+      len -= cnt;
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, count, chan, bcode, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *) ((u_char *)data + cnt);
+    }
+
+    /* do we need to do a cleanup burst? */
+    cnt = len & ~(sizeof(u_int32_t)-1);
+    if (cnt) {
+      count = cnt / sizeof(u_int32_t);
+      bcode = en_dmaplan[count].bcode;
+      count = cnt >> en_dmaplan[count].divshift;
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: cleanup_dma %d bytes (%d left, cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, cnt, need, cur);
+#endif
+      len -= cnt;
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, count, chan, bcode, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *) ((u_char *)data + cnt);
+    }
+
+    /* any word fragments left? */
+    if (len) {
+      EN_COUNT(sc->tailbyte);
+      if (len == 2) {
+        count = 1;
+        bcode = MIDDMA_2BYTE;                 /* use 2byte mode */
+      } else {
+        count = len;
+        bcode = MIDDMA_BYTE;                  /* use 1 byte mode */
+      }
+      need -= len;
+      EN_WRAPADD(start, stop, cur, len);
+#ifdef EN_DEBUG
+      printf("%s: tx%d: byte cleanup_dma %d bytes (%d left, cur now 0x%x)\n",
+              sc->sc_dev.dv_xname, chan, len, need, cur);
+#endif
+      end = (need == 0) ? MID_DMA_END : 0;
+      EN_DTQADD(sc, count, chan, bcode, vtophys(data), l->mlen, end);
+      if (end)
+        goto done;
+    }
+
+    dma = cur;		/* update dma pointer */
+#endif /* !MIDWAY_ADPONLY */
+
+  } /* next mbuf, please */
+
+  /*
+   * all mbuf data has been copied out to the obmem (or set up to be DMAd).
+   * if the trailer or padding needs to be put in, do it now.  
+   *
+   * NOTE: experimental results reveal the following fact:
+   *   if you DMA "X" bytes to the card, where X is not a multiple of 4,
+   *   then the card will internally buffer the last (X % 4) bytes (in
+   *   hopes of getting (4 - (X % 4)) more bytes to make a complete word).
+   *   it is imporant to make sure we don't leave any important data in
+   *   this internal buffer because it is discarded on the last (end) DTQ.
+   *   one way to do this is to DMA in (4 - (X % 4)) more bytes to flush
+   *   the darn thing out.
+   */
+
+  if (addtail) {
+
+    pad = need % sizeof(u_int32_t);
+    if (pad) {
+      /*
+       * FLUSH internal data buffer.  pad out with random data from the front
+       * of the mbuf chain...
+       */
+      bcode = (sc->is_adaptec) ? 0 : MIDDMA_BYTE;
+      EN_COUNT(sc->tailflush);
+      EN_WRAPADD(start, stop, cur, pad);
+      EN_DTQADD(sc, pad, chan, bcode, vtophys(l->t->m_data), 0, 0);
+      need -= pad;
+#ifdef EN_DEBUG
+      printf("%s: tx%d: pad/FLUSH dma %d bytes (%d left, cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, pad, need, cur);
+#endif
+    }
+
+    /* copy data */
+    pad = need / sizeof(u_int32_t);	/* round *down* */
+    if (l->aal == MID_TBD_AAL5)
+      pad -= 2;
+#ifdef EN_DEBUG
+      printf("%s: tx%d: padding %d bytes (cur now 0x%x)\n", 
+		sc->sc_dev.dv_xname, chan, pad * sizeof(u_int32_t), cur);
+#endif
+    while (pad--) {
+      EN_WRITEDAT(sc, cur, 0);	/* no byte order issues with zero */
+      EN_WRAPADD(start, stop, cur, 4);
+    }
+    if (l->aal == MID_TBD_AAL5) {
+      EN_WRITE(sc, cur, l->pdu1); /* in host byte order */
+      EN_WRAPADD(start, stop, cur, 8);
+    }
+  }
+
+  if (addtail || dma != cur) {
+   /* write final descritor  */
+    EN_DTQADD(sc, WORD_IDX(start,cur), chan, MIDDMA_JK, 0, 
+				l->mlen, MID_DMA_END);
+    /* dma = cur; */ 	/* not necessary since we are done */
+  }
+
+done:
+  /* update current pointer */
+  sc->txslot[chan].cur = cur;
+#ifdef EN_DEBUG
+      printf("%s: tx%d: DONE!   cur now = 0x%x\n", 
+		sc->sc_dev.dv_xname, chan, cur);
+#endif
+
+  return;
+}
+
+
+/*
+ * interrupt handler
+ */
+
+EN_INTR_TYPE en_intr(arg)
+
+void *arg;
+
+{
+  struct en_softc *sc = (struct en_softc *) arg;
+  struct mbuf *m;
+  struct atm_pseudohdr ah;
+  u_int32_t reg, kick, val, mask, chip, vci, slot, dtq, drq;
+  int lcv, idx, need_softserv = 0;
+
+  reg = EN_READ(sc, MID_INTACK);
+
+  if ((reg & MID_INT_ANY) == 0) 
+    EN_INTR_RET(0); /* not us */
+
+#ifdef EN_DEBUG
+  printf("%s: interrupt=0x%b\n", sc->sc_dev.dv_xname, reg, MID_INTBITS);
+#endif
+
+  /*
+   * unexpected errors that need a reset
+   */
+
+  if ((reg & (MID_INT_IDENT|MID_INT_LERR|MID_INT_DMA_ERR|MID_INT_SUNI)) != 0) {
+    printf("%s: unexpected interrupt=0x%b, resetting card\n", 
+	sc->sc_dev.dv_xname, reg, MID_INTBITS);
+#ifdef EN_DEBUG
+#ifdef DDB
+    Debugger();
+#endif	/* DDB */
+    sc->enif.if_flags &= ~IFF_RUNNING; /* FREEZE! */
+#else
+    en_reset(sc);
+    en_init(sc);
+#endif
+    EN_INTR_RET(1); /* for us */
+  }
+
+  /*******************
+   * xmit interrupts *
+   ******************/
+
+  kick = 0;				/* bitmask of channels to kick */
+  if (reg & MID_INT_TX) {		/* TX done! */
+
+    /*
+     * check for tx complete, if detected then this means that some space
+     * has come free on the card.   we must account for it and arrange to
+     * kick the channel to life (in case it is stalled waiting on the card).
+     */
+    for (mask = 1, lcv = 0 ; lcv < EN_NTX ; lcv++, mask = mask * 2) {
+      if (reg & MID_TXCHAN(lcv)) {
+	kick = kick | mask;	/* want to kick later */
+	val = EN_READ(sc, MIDX_READPTR(lcv));	/* current read pointer */
+	val = (val * sizeof(u_int32_t)) + sc->txslot[lcv].start;
+						/* convert to offset */
+	if (val > sc->txslot[lcv].cur)
+	  sc->txslot[lcv].bfree = val - sc->txslot[lcv].cur;
+	else
+	  sc->txslot[lcv].bfree = (val + (EN_TXSZ*1024)) - sc->txslot[lcv].cur;
+#ifdef EN_DEBUG
+	printf("%s: tx%d: trasmit done.   %d bytes now free in buffer\n",
+		sc->sc_dev.dv_xname, lcv, sc->txslot[lcv].bfree);
+#endif
+      }
+    }
+  }
+
+  if (reg & MID_INT_DMA_TX) {		/* TX DMA done! */
+
+  /*
+   * check for TX DMA complete, if detected then this means that some DTQs
+   * are now free.   it also means some indma mbufs can be freed.
+   * if we needed DTQs, kick all channels.
+   */
+    val = EN_READ(sc, MID_DMA_RDTX);	/* chip's current location */
+    idx = MID_DTQ_A2REG(sc->dtq_chip);/* where we last saw chip */
+    if (sc->need_dtqs) {
+      kick = MID_NTX_CH - 1;		/* assume power of 2, kick all! */
+      sc->need_dtqs = 0;		/* recalculated in "kick" loop below */
+#ifdef EN_DEBUG
+      printf("%s: cleared need DTQ condition\n", sc->sc_dev.dv_xname);
+#endif
+    }
+    while (idx != val) {
+      sc->dtq_free++;
+      if ((dtq = sc->dtq[idx]) != 0) {
+        sc->dtq[idx] = 0;	/* don't forget to zero it out when done */
+	slot = EN_DQ_SLOT(dtq);
+	IF_DEQUEUE(&sc->txslot[slot].indma, m);
+	if (!m) panic("enintr: dtqsync");
+	sc->txslot[slot].mbsize -= EN_DQ_LEN(dtq);
+#ifdef EN_DEBUG
+	printf("%s: tx%d: free %d dma bytes, mbsize now %d\n",
+		sc->sc_dev.dv_xname, slot, EN_DQ_LEN(dtq), 
+		sc->txslot[slot].mbsize);
+#endif
+	m_freem(m);
+      }
+      EN_WRAPADD(0, MID_DTQ_N, idx, 1);
+    }
+    sc->dtq_chip = MID_DTQ_REG2A(val);	/* sync softc */
+  }
+
+
+  /*
+   * kick xmit channels as needed
+   */
+
+  if (kick) {
+#ifdef EN_DEBUG
+  printf("%s: tx kick mask = 0x%x\n", sc->sc_dev.dv_xname, kick);
+#endif
+    for (mask = 1, lcv = 0 ; lcv < EN_NTX ; lcv++, mask = mask * 2) {
+      if ((kick & mask) && sc->txslot[lcv].q.ifq_head) {
+	en_txdma(sc, lcv);		/* kick it! */
+      }
+    }		/* for each slot */
+  }		/* if kick */
+
+
+  /*******************
+   * recv interrupts *
+   ******************/
+
+  /*
+   * check for RX DMA complete, and pass the data "upstairs"
+   */
+
+  if (reg & MID_INT_DMA_RX) {
+    val = EN_READ(sc, MID_DMA_RDRX); /* chip's current location */
+    idx = MID_DRQ_A2REG(sc->drq_chip);/* where we last saw chip */
+    while (idx != val) {
+      sc->drq_free++;
+      if ((drq = sc->drq[idx]) != 0) {
+        sc->drq[idx] = 0;	/* don't forget to zero it out when done */
+	slot = EN_DQ_SLOT(drq);
+        if (EN_DQ_LEN(drq) == 0) {  /* "JK" trash DMA? */
+          m = NULL;
+        } else {
+	  IF_DEQUEUE(&sc->rxslot[slot].indma, m);
+	  if (!m) {
+	    printf("%s: lost mbuf in slot %d!\n", sc->sc_dev.dv_xname, slot);
+	    panic("enintr: drqsync");
+	  }
+        }
+	/* do something with this mbuf */
+	if (sc->rxslot[slot].oth_flags & ENOTHER_DRAIN) {  /* drain? */
+          if (m)
+	    m_freem(m);
+	  vci = sc->rxslot[slot].atm_vci;
+	  if (sc->rxslot[slot].indma.ifq_head == NULL &&
+		sc->rxslot[slot].q.ifq_head == NULL &&
+		(EN_READ(sc, MID_VC(vci)) & MIDV_INSERVICE) == 0 &&
+		(sc->rxslot[slot].oth_flags & ENOTHER_SWSL) == 0) {
+	    sc->rxslot[slot].oth_flags = ENOTHER_FREE; /* done drain */
+	    sc->rxslot[slot].atm_vci = RX_NONE;
+	    sc->rxvc2slot[vci] = RX_NONE;
+#ifdef EN_DEBUG
+	    printf("%s: rx%d: VCI %d now free\n", sc->sc_dev.dv_xname,
+			slot, vci);
+#endif
+	  }
+	} else if (m != NULL) {
+	  ATM_PH_FLAGS(&ah) = sc->rxslot[slot].atm_flags;
+	  ATM_PH_VPI(&ah) = 0;
+	  ATM_PH_SETVCI(&ah, sc->rxslot[slot].atm_vci);
+#ifdef EN_DEBUG
+	  printf("%s: rx%d: rxvci%d: atm_input, mbuf %p, len %d, hand %p\n",
+		sc->sc_dev.dv_xname, slot, sc->rxslot[slot].atm_vci, m,
+		EN_DQ_LEN(drq), sc->rxslot[slot].rxhand);
+#endif
+	  sc->enif.if_ipackets++;
+
+	  atm_input(&sc->enif, &ah, m, sc->rxslot[slot].rxhand);
+	}
+
+      }
+      EN_WRAPADD(0, MID_DRQ_N, idx, 1);
+    }
+    sc->drq_chip = MID_DRQ_REG2A(val);	/* sync softc */
+
+    if (sc->need_drqs) {	/* true if we had a DRQ shortage */
+      need_softserv = 1;
+      sc->need_drqs = 0;
+#ifdef EN_DEBUG
+	printf("%s: cleared need DRQ condition\n", sc->sc_dev.dv_xname);
+#endif
+    }
+  }
+
+  /*
+   * handle service interrupts
+   */
+
+  if (reg & MID_INT_SERVICE) {
+    chip = MID_SL_REG2A(EN_READ(sc, MID_SERV_WRITE));
+
+    while (sc->hwslistp != chip) {
+
+      /* fetch and remove it from hardware service list */
+      vci = EN_READ(sc, sc->hwslistp);
+      EN_WRAPADD(MID_SLOFF, MID_SLEND, sc->hwslistp, 4);/* advance hw ptr */
+      slot = sc->rxvc2slot[vci];
+      if (slot == RX_NONE) {
+#ifdef EN_DEBUG
+	printf("%s: unexpected rx interrupt on VCI %d\n", 
+		sc->sc_dev.dv_xname, vci);
+#endif
+	EN_WRITE(sc, MID_VC(vci), MIDV_TRASH);  /* rx off, damn it! */
+	continue;				/* next */
+      }
+      EN_WRITE(sc, MID_VC(vci), sc->rxslot[slot].mode); /* remove from hwsl */
+      EN_COUNT(sc->hwpull);
+
+#ifdef EN_DEBUG
+      printf("%s: pulled VCI %d off hwslist\n", sc->sc_dev.dv_xname, vci);
+#endif
+
+      /* add it to the software service list (if needed) */
+      if ((sc->rxslot[slot].oth_flags & ENOTHER_SWSL) == 0) {
+	EN_COUNT(sc->swadd);
+	need_softserv = 1;
+	sc->rxslot[slot].oth_flags |= ENOTHER_SWSL;
+	sc->swslist[sc->swsl_tail] = slot;
+	EN_WRAPADD(0, MID_SL_N, sc->swsl_tail, 1);
+	sc->swsl_size++;
+#ifdef EN_DEBUG
+      printf("%s: added VCI %d to swslist\n", sc->sc_dev.dv_xname, vci);
+#endif
+      }
+    }
+  }
+
+  /*
+   * now service (function too big to include here)
+   */
+
+  if (need_softserv)
+    en_service(sc);
+
+  /*
+   * keep our stats
+   */
+
+  if (reg & MID_INT_DMA_OVR) {
+    EN_COUNT(sc->dmaovr);
+#ifdef EN_DEBUG
+    printf("%s: MID_INT_DMA_OVR\n", sc->sc_dev.dv_xname);
+#endif
+  }
+  reg = EN_READ(sc, MID_STAT);
+#ifdef EN_STAT
+  sc->otrash += MID_OTRASH(reg);
+  sc->vtrash += MID_VTRASH(reg);
+#endif
+
+  EN_INTR_RET(1); /* for us */
+}
+
+
+/*
+ * en_service: handle a service interrupt
+ *
+ * Q: why do we need a software service list?
+ *
+ * A: if we remove a VCI from the hardware list and we find that we are
+ *    out of DRQs we must defer processing until some DRQs become free.
+ *    so we must remember to look at this RX VCI/slot later, but we can't
+ *    put it back on the hardware service list (since that isn't allowed).
+ *    so we instead save it on the software service list.   it would be nice 
+ *    if we could peek at the VCI on top of the hwservice list without removing
+ *    it, however this leads to a race condition: if we peek at it and
+ *    decide we are done with it new data could come in before we have a 
+ *    chance to remove it from the hwslist.   by the time we get it out of
+ *    the list the interrupt for the new data will be lost.   oops!
+ *
+ */
+
+STATIC void en_service(sc)
+
+struct en_softc *sc;
+
+{
+  struct mbuf *m, *tmp;
+  u_int32_t cur, dstart, rbd, pdu, *sav, dma, bcode, count, *data, *datastop;
+  u_int32_t start, stop, cnt, needalign;
+  int slot, raw, aal5, llc, vci, fill, mlen, tlen, drqneed, need, needfill, end;
+
+  aal5 = 0;		/* Silence gcc */
+next_vci:
+  if (sc->swsl_size == 0) {
+#ifdef EN_DEBUG
+    printf("%s: en_service done\n", sc->sc_dev.dv_xname);
+#endif
+    return;		/* >>> exit here if swsl now empty <<< */
+  }
+
+  /*
+   * get slot/vci to service
+   */
+
+  slot = sc->swslist[sc->swsl_head];
+  vci = sc->rxslot[slot].atm_vci;
+#ifdef EN_DIAG
+  if (sc->rxvc2slot[vci] != slot) panic("en_service rx slot/vci sync");
+#endif
+
+  /*
+   * determine our mode and if we've got any work to do
+   */
+
+  raw = sc->rxslot[slot].oth_flags & ENOTHER_RAW;
+  start= sc->rxslot[slot].start;
+  stop= sc->rxslot[slot].stop;
+  cur = sc->rxslot[slot].cur;
+
+#ifdef EN_DEBUG
+  printf("%s: rx%d: service vci=%d raw=%d start/stop/cur=0x%x 0x%x 0x%x\n",
+	sc->sc_dev.dv_xname, slot, vci, raw, start, stop, cur);
+#endif
+
+same_vci:
+  dstart = MIDV_DSTART(EN_READ(sc, MID_DST_RP(vci)));
+  dstart = (dstart * sizeof(u_int32_t)) + start;
+
+  /* check to see if there is any data at all */
+  if (dstart == cur) {
+defer:					/* defer processing */
+    EN_WRAPADD(0, MID_SL_N, sc->swsl_head, 1); 
+    sc->rxslot[slot].oth_flags &= ~ENOTHER_SWSL;
+    sc->swsl_size--;
+					/* >>> remove from swslist <<< */
+#ifdef EN_DEBUG
+    printf("%s: rx%d: remove vci %d from swslist\n", 
+		sc->sc_dev.dv_xname, slot, vci);
+#endif
+    goto next_vci;
+  }
+
+  /*
+   * figure out how many bytes we need
+   * [mlen = # bytes to go in mbufs, fill = # bytes to dump (MIDDMA_JK)]
+   */
+
+  if (raw) {
+
+    /* raw mode (aka boodi mode) */
+    fill = 0;
+    if (dstart > cur)
+      mlen = dstart - cur;
+    else
+      mlen = (dstart + (EN_RXSZ*1024)) - cur;
+
+    if (mlen < sc->rxslot[slot].raw_threshold)
+      goto defer; 		/* too little data to deal with */
+
+  } else {
+
+    /* normal mode */
+    aal5 = (sc->rxslot[slot].atm_flags & ATM_PH_AAL5);
+    llc = (aal5 && (sc->rxslot[slot].atm_flags & ATM_PH_LLCSNAP)) ? 1 : 0;
+    rbd = EN_READ(sc, cur);
+    if (MID_RBD_ID(rbd) != MID_RBD_STDID) 
+      panic("en_service: id mismatch\n");
+
+    if (rbd & MID_RBD_T) {
+      mlen = 0;			/* we've got trash */
+      fill = MID_RBD_SIZE;
+      EN_COUNT(sc->ttrash);
+    } else if (!aal5) {
+      mlen = MID_RBD_SIZE + MID_CHDR_SIZE + MID_ATMDATASZ; /* 1 cell (ick!) */
+      fill = 0;
+    } else {
+      tlen = (MID_RBD_CNT(rbd) * MID_ATMDATASZ) + MID_RBD_SIZE;
+      pdu = cur + tlen - MID_PDU_SIZE;
+      if (pdu >= stop)
+	pdu -= (EN_RXSZ*1024);
+      pdu = EN_READ(sc, pdu);	/* get PDU in correct byte order */
+      fill = tlen - MID_RBD_SIZE - MID_PDU_LEN(pdu);
+      if (fill < 0 || (rbd & MID_RBD_CRCERR) != 0) {
+        printf("%s: invalid AAL5 PDU length or CRC detected, dropping frame\n", 
+						sc->sc_dev.dv_xname);
+        printf("%s: got %d cells (%d bytes), AAL5 len is %d bytes (pdu=0x%x) CRCERR=%d\n",
+	  sc->sc_dev.dv_xname, MID_RBD_CNT(rbd), tlen - MID_RBD_SIZE,
+		MID_PDU_LEN(pdu), pdu, (rbd & MID_RBD_CRCERR)?1:0);
+	fill = tlen;
+      }
+      mlen = tlen - fill;
+    }
+
+  }
+
+  /*
+   * now allocate mbufs for mlen bytes of data, if out of mbufs, trash all
+   *
+   * notes:
+   *  1. it is possible that we've already allocated an mbuf for this pkt
+   *	 but ran out of DRQs, in which case we saved the allocated mbuf on
+   *	 "q".
+   *  2. if we save an mbuf in "q" we store the "cur" (pointer) in the front 
+   *     of the mbuf as an identity (that we can check later), and we also
+   *     store drqneed (so we don't have to recompute it).
+   *  3. after this block of code, if m is still NULL then we ran out of mbufs
+   */
+  
+  m = sc->rxslot[slot].q.ifq_head;
+  drqneed = 1;
+  if (m) {
+    sav = mtod(m, u_int32_t *);
+    if (sav[0] != cur) {
+#ifdef EN_DEBUG
+      printf("%s: rx%d: q'ed mbuf %p not ours\n", 
+		sc->sc_dev.dv_xname, slot, m);
+#endif
+      m = NULL;			/* wasn't ours */
+      EN_COUNT(sc->rxqnotus);
+    } else {
+      EN_COUNT(sc->rxqus);
+      IF_DEQUEUE(&sc->rxslot[slot].q, m);
+      drqneed = sav[1];
+#ifdef EN_DEBUG
+      printf("%s: rx%d: recovered q'ed mbuf %p (drqneed=%d)\n", 
+	sc->sc_dev.dv_xname, slot, m, drqneed);
+#endif
+    }
+  }
+
+  if (mlen != 0 && m == NULL) {
+    m = en_mget(sc, mlen, &drqneed);		/* allocate! */
+    if (m == NULL) {
+      fill += mlen;
+      mlen = 0;
+      EN_COUNT(sc->rxmbufout);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: out of mbufs\n", sc->sc_dev.dv_xname, slot);
+#endif
+    }
+#ifdef EN_DEBUG
+    printf("%s: rx%d: allocate mbuf %p, mlen=%d, drqneed=%d\n", 
+	sc->sc_dev.dv_xname, slot, m, mlen, drqneed);
+#endif
+  }
+
+#ifdef EN_DEBUG
+  printf("%s: rx%d: VCI %d, mbuf_chain %p, mlen %d, fill %d\n",
+	sc->sc_dev.dv_xname, slot, vci, m, mlen, fill);
+#endif
+
+  /*
+   * now check to see if we've got the DRQs needed.    if we are out of 
+   * DRQs we must quit (saving our mbuf, if we've got one).
+   */
+
+  needfill = (fill) ? 1 : 0;
+  if (drqneed + needfill > sc->drq_free) {
+    sc->need_drqs = 1;	/* flag condition */
+    if (m == NULL) {
+      EN_COUNT(sc->rxoutboth);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: out of DRQs *and* mbufs!\n", sc->sc_dev.dv_xname, slot);
+#endif
+      return;		/* >>> exit here if out of both mbufs and DRQs <<< */
+    }
+    sav = mtod(m, u_int32_t *);
+    sav[0] = cur;
+    sav[1] = drqneed;
+    IF_ENQUEUE(&sc->rxslot[slot].q, m);
+    EN_COUNT(sc->rxdrqout);
+#ifdef EN_DEBUG
+    printf("%s: rx%d: out of DRQs\n", sc->sc_dev.dv_xname, slot);
+#endif
+    return;		/* >>> exit here if out of DRQs <<< */
+  }
+
+  /*
+   * at this point all resources have been allocated and we are commited 
+   * to servicing this slot.
+   *
+   * dma = last location we told chip about
+   * cur = current location
+   * mlen = space in the mbuf we want
+   * need = bytes to xfer in (decrs to zero)
+   * fill = how much fill we need
+   * tlen = how much data to transfer to this mbuf
+   * cnt/bcode/count = <same as xmit>
+   *
+   * 'needfill' not used after this point
+   */
+
+  dma = cur;		/* dma = last location we told chip about */
+  need = roundup(mlen, sizeof(u_int32_t));
+  fill = fill - (need - mlen);  /* note: may invalidate 'needfill' */
+
+  for (tmp = m ; tmp != NULL && need > 0 ; tmp = tmp->m_next) {
+    tlen = roundup(tmp->m_len, sizeof(u_int32_t)); /* m_len set by en_mget */
+    data = mtod(tmp, u_int32_t *);
+
+#ifdef EN_DEBUG
+    printf("%s: rx%d: load mbuf %p, m_len=%d, m_data=%p, tlen=%d\n",
+	sc->sc_dev.dv_xname, slot, tmp, tmp->m_len, tmp->m_data, tlen);
+#endif
+    
+    /* copy data */
+    if (EN_NORXDMA || !en_dma || tlen < EN_MINDMA) {
+      datastop = (u_int32_t *)((u_char *) data + tlen);
+      /* copy loop: preserve byte order!!!  use READDAT */
+      while (data != datastop) {
+	*data = EN_READDAT(sc, cur);
+	data++;
+	EN_WRAPADD(start, stop, cur, 4);
+      }
+      need -= tlen;
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: copied %d bytes (%d left)\n",
+		sc->sc_dev.dv_xname, slot, vci, tlen, need);
+#endif
+      continue;
+    }
+
+    /* DMA data (check to see if we need to sync DRQ first) */
+    if (dma != cur) {
+      EN_DRQADD(sc, WORD_IDX(start,cur), vci, MIDDMA_JK, 0, 0, 0, 0);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: drq_sync: advance pointer to %d\n",
+		sc->sc_dev.dv_xname, slot, vci, cur);
+#endif
+    }
+
+#if !defined(MIDWAY_ENIONLY)
+     
+    /*
+     * the adaptec DMA engine is smart and handles everything for us.
+     */ 
+  
+    if (sc->is_adaptec) {
+      need -= tlen;
+      EN_WRAPADD(start, stop, cur, tlen);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: adp_dma %d bytes (%d left)\n",
+		sc->sc_dev.dv_xname, slot, vci, tlen, need);
+#endif
+      end = (need == 0 && !fill) ? MID_DMA_END : 0;
+      EN_DRQADD(sc, tlen, vci, 0, vtophys(data), mlen, slot, end);
+      if (end)
+        goto done;
+      dma = cur;	/* update dma pointer */
+      continue;
+    }
+#endif /* !MIDWAY_ENIONLY */
+
+
+#if !defined(MIDWAY_ADPONLY)
+
+    /*
+     * the ENI DMA engine is not so smart and need more help from us
+     */
+
+    /* do we need to do a DMA op to align? */
+    if (sc->alburst &&
+      (needalign = (((unsigned long) data) & sc->bestburstmask)) != 0) {
+      cnt = sc->bestburstlen - needalign;
+      if (cnt > tlen) {
+        cnt = tlen;
+        count = cnt / sizeof(u_int32_t);
+        bcode = MIDDMA_WORD;
+      } else {
+        count = cnt / sizeof(u_int32_t);
+        bcode = en_dmaplan[count].bcode;
+        count = cnt >> en_dmaplan[count].divshift;
+      }
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: al_dma %d bytes (%d left)\n",
+		sc->sc_dev.dv_xname, slot, vci, cnt, need);
+#endif
+      tlen -= cnt;
+      end = (need == 0 && !fill) ? MID_DMA_END : 0;
+      EN_DRQADD(sc, count, vci, bcode, vtophys(data), mlen, slot, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *)((u_char *) data + cnt);   
+    }
+
+    /* do we need a max-sized burst? */
+    if (tlen >= sc->bestburstlen) {
+      count = tlen >> sc->bestburstshift;
+      cnt = count << sc->bestburstshift;
+      bcode = sc->bestburstcode;
+      need -= cnt;
+      EN_WRAPADD(start, stop, cur, cnt);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: best_dma %d bytes (%d left)\n",
+		sc->sc_dev.dv_xname, slot, vci, cnt, need);
+#endif
+      tlen -= cnt;
+      end = (need == 0 && !fill) ? MID_DMA_END : 0;
+      EN_DRQADD(sc, count, vci, bcode, vtophys(data), mlen, slot, end);
+      if (end)
+        goto done;
+      data = (u_int32_t *)((u_char *) data + cnt);   
+    }
+
+    /* do we need to do a cleanup burst? */
+    if (tlen) {
+      count = tlen / sizeof(u_int32_t);
+      bcode = en_dmaplan[count].bcode;
+      count = tlen >> en_dmaplan[count].divshift;
+      need -= tlen;
+      EN_WRAPADD(start, stop, cur, tlen);
+#ifdef EN_DEBUG
+      printf("%s: rx%d: vci%d: cleanup_dma %d bytes (%d left)\n",
+		sc->sc_dev.dv_xname, slot, vci, tlen, need);
+#endif
+      end = (need == 0 && !fill) ? MID_DMA_END : 0;
+      EN_DRQADD(sc, count, vci, bcode, vtophys(data), mlen, slot, end);
+      if (end)
+        goto done;
+    }
+
+    dma = cur;		/* update dma pointer */
+
+#endif /* !MIDWAY_ADPONLY */
+
+  }
+
+  /* skip the end */
+  if (fill || dma != cur) {
+#ifdef EN_DEBUG
+      if (fill)
+        printf("%s: rx%d: vci%d: skipping %d bytes of fill\n",
+		sc->sc_dev.dv_xname, slot, vci, fill);
+      else
+        printf("%s: rx%d: vci%d: syncing chip from 0x%x to 0x%x [cur]\n",
+		sc->sc_dev.dv_xname, slot, vci, dma, cur);
+#endif
+    EN_WRAPADD(start, stop, cur, fill);
+    EN_DRQADD(sc, WORD_IDX(start,cur), vci, MIDDMA_JK, 0, mlen,
+					slot, MID_DMA_END);
+    /* dma = cur; */	/* not necessary since we are done */
+  }
+
+  /*
+   * done, remove stuff we don't want to pass up:
+   *   raw mode (boodi mode): pass everything up for later processing
+   *   aal5: remove RBD
+   *   aal0: remove RBD + cell header
+   */
+
+done:
+  if (m) {
+    if (!raw) {
+      cnt = MID_RBD_SIZE;
+      if (!aal5) cnt += MID_CHDR_SIZE;
+      m->m_len -= cnt;				/* chop! */
+      m->m_pkthdr.len -= cnt;
+      m->m_data += cnt;
+    }
+    IF_ENQUEUE(&sc->rxslot[slot].indma, m);
+  }
+  sc->rxslot[slot].cur = cur;		/* update master copy of 'cur' */
+
+#ifdef EN_DEBUG
+  printf("%s: rx%d: vci%d: DONE!   cur now =0x%x\n", 
+	sc->sc_dev.dv_xname, slot, vci, cur);
+#endif
+
+  goto same_vci;	/* get next packet in this slot */
+}
+
+
+#ifdef EN_DDBHOOK
+/*
+ * functions we can call from ddb
+ */
+
+/*
+ * en_dump: dump the state
+ */
+
+#define END_SWSL	0x00000040		/* swsl state */
+#define END_DRQ		0x00000020		/* drq state */
+#define END_DTQ		0x00000010		/* dtq state */
+#define END_RX		0x00000008		/* rx state */
+#define END_TX		0x00000004		/* tx state */
+#define END_MREGS	0x00000002		/* registers */
+#define END_STATS	0x00000001		/* dump stats */
+
+#define END_BITS "\20\7SWSL\6DRQ\5DTQ\4RX\3TX\2MREGS\1STATS"
+
+int en_dump(unit, level)
+
+int unit, level;
+
+{
+  struct en_softc *sc;
+  int lcv, cnt, slot;
+  u_int32_t ptr, reg;
+
+  for (lcv = 0 ; lcv < en_cd.cd_ndevs ; lcv++) {
+    sc = (struct en_softc *) en_cd.cd_devs[lcv];
+    if (sc == NULL) continue;
+    if (unit != -1 && unit != lcv)
+      continue;
+
+    printf("dumping device %s at level 0x%b\n", sc->sc_dev.dv_xname, level,
+			END_BITS);
+
+    if (sc->dtq_us == 0) {
+      printf("<hasn't been en_init'd yet>\n");
+      continue;
+    }
+
+    if (level & END_STATS) {
+      printf("  en_stats:\n");
+      printf("    %d mfix (%d failed); %d/%d head/tail byte DMAs, %d flushes\n",
+	   sc->mfix, sc->mfixfail, sc->headbyte, sc->tailbyte, sc->tailflush);
+      printf("    %d rx dma overflow interrupts\n", sc->dmaovr);
+      printf("    %d times we ran out of TX space and stalled\n", 
+							sc->txoutspace);
+      printf("    %d times we ran out of DTQs\n", sc->txdtqout);
+      printf("    %d times we launched a packet\n", sc->launch);
+      printf("    %d times we launched without on-board header\n", sc->lheader);
+      printf("    %d times we launched without on-board tail\n", sc->ltail);
+      printf("    %d times we pulled the hw service list\n", sc->hwpull);
+      printf("    %d times we pushed a vci on the sw service list\n", 
+								sc->swadd);
+      printf("    %d times RX pulled an mbuf from Q that wasn't ours\n", 
+							 sc->rxqnotus);
+      printf("    %d times RX pulled a good mbuf from Q\n", sc->rxqus);
+      printf("    %d times we ran out of mbufs *and* DRQs\n", sc->rxoutboth);
+      printf("    %d times we ran out of DRQs\n", sc->rxdrqout);
+
+      printf("    %d trasmit packets dropped due to mbsize\n", sc->txmbovr);
+      printf("    %d cells trashed due to turned off rxvc\n", sc->vtrash);
+      printf("    %d cells trashed due to totally full buffer\n", sc->otrash);
+      printf("    %d cells trashed due almost full buffer\n", sc->ttrash);
+      printf("    %d rx mbuf allocation failures\n", sc->rxmbufout);
+#ifdef NATM
+      printf("    %d drops at natmintrq\n", natmintrq.ifq_drops);
+#ifdef NATM_STAT
+      printf("    natmintr so_rcv: ok/drop cnt: %d/%d, ok/drop bytes: %d/%d\n",
+	natm_sookcnt, natm_sodropcnt, natm_sookbytes, natm_sodropbytes);
+#endif
+#endif
+    }
+
+    if (level & END_MREGS) {
+      printf("mregs:\n");
+      printf("resid = 0x%x\n", EN_READ(sc, MID_RESID));
+      printf("interrupt status = 0x%b\n", 
+				EN_READ(sc, MID_INTSTAT), MID_INTBITS);
+      printf("interrupt enable = 0x%b\n", 
+				EN_READ(sc, MID_INTENA), MID_INTBITS);
+      printf("mcsr = 0x%b\n", EN_READ(sc, MID_MAST_CSR), MID_MCSRBITS);
+      printf("serv_write = [chip=%d] [us=%d]\n", EN_READ(sc, MID_SERV_WRITE),
+			MID_SL_A2REG(sc->hwslistp));
+      printf("dma addr = 0x%x\n", EN_READ(sc, MID_DMA_ADDR));
+      printf("DRQ: chip[rd=0x%x,wr=0x%x], sc[chip=0x%x,us=0x%x]\n",
+	MID_DRQ_REG2A(EN_READ(sc, MID_DMA_RDRX)), 
+	MID_DRQ_REG2A(EN_READ(sc, MID_DMA_WRRX)), sc->drq_chip, sc->drq_us);
+      printf("DTQ: chip[rd=0x%x,wr=0x%x], sc[chip=0x%x,us=0x%x]\n",
+	MID_DTQ_REG2A(EN_READ(sc, MID_DMA_RDTX)), 
+	MID_DTQ_REG2A(EN_READ(sc, MID_DMA_WRTX)), sc->dtq_chip, sc->dtq_us);
+
+      printf("  unusal txspeeds: ");
+      for (cnt = 0 ; cnt < MID_N_VC ; cnt++)
+	if (sc->txspeed[cnt])
+	  printf(" vci%d=0x%x", cnt, sc->txspeed[cnt]);
+      printf("\n");
+
+      printf("  rxvc slot mappings: ");
+      for (cnt = 0 ; cnt < MID_N_VC ; cnt++)
+	if (sc->rxvc2slot[cnt] != RX_NONE)
+	  printf("  %d->%d", cnt, sc->rxvc2slot[cnt]);
+      printf("\n");
+
+    }
+
+    if (level & END_TX) {
+      printf("tx:\n");
+      for (slot = 0 ; slot < EN_NTX; slot++) {
+	printf("tx%d: start/stop/cur=0x%x/0x%x/0x%x [%d]  ", slot,
+	  sc->txslot[slot].start, sc->txslot[slot].stop, sc->txslot[slot].cur,
+		(sc->txslot[slot].cur - sc->txslot[slot].start)/4);
+	printf("mbsize=%d, bfree=%d\n", sc->txslot[slot].mbsize,
+		sc->txslot[slot].bfree);
+        printf("txhw: base_address=0x%x, size=%d, read=%d, descstart=%d\n",
+	  MIDX_BASE(EN_READ(sc, MIDX_PLACE(slot))), 
+	  MIDX_SZ(EN_READ(sc, MIDX_PLACE(slot))),
+	  EN_READ(sc, MIDX_READPTR(slot)), EN_READ(sc, MIDX_DESCSTART(slot)));
+      }
+    }
+
+    if (level & END_RX) {
+      printf("  recv slots:\n");
+      for (slot = 0 ; slot < sc->en_nrx; slot++) {
+	printf("rx%d: vci=%d: start/stop/cur=0x%x/0x%x/0x%x ", slot,
+	  sc->rxslot[slot].atm_vci, sc->rxslot[slot].start, 
+	  sc->rxslot[slot].stop, sc->rxslot[slot].cur);
+	printf("mode=0x%x, atm_flags=0x%x, oth_flags=0x%x\n", 
+	sc->rxslot[slot].mode, sc->rxslot[slot].atm_flags, 
+		sc->rxslot[slot].oth_flags);
+        printf("RXHW: mode=0x%x, DST_RP=0x%x, WP_ST_CNT=0x%x\n",
+	  EN_READ(sc, MID_VC(sc->rxslot[slot].atm_vci)),
+	  EN_READ(sc, MID_DST_RP(sc->rxslot[slot].atm_vci)),
+	  EN_READ(sc, MID_WP_ST_CNT(sc->rxslot[slot].atm_vci)));
+      }
+    }
+
+    if (level & END_DTQ) {
+      printf("  dtq [need_dtqs=%d,dtq_free=%d]:\n", 
+					sc->need_dtqs, sc->dtq_free);
+      ptr = sc->dtq_chip;
+      while (ptr != sc->dtq_us) {
+        reg = EN_READ(sc, ptr);
+        printf("\t0x%x=[cnt=%d, chan=%d, end=%d, type=%d @ 0x%x]\n", 
+	    sc->dtq[MID_DTQ_A2REG(ptr)], MID_DMA_CNT(reg), MID_DMA_TXCHAN(reg),
+	    (reg & MID_DMA_END) != 0, MID_DMA_TYPE(reg), EN_READ(sc, ptr+4));
+        EN_WRAPADD(MID_DTQOFF, MID_DTQEND, ptr, 8);
+      }
+    }
+
+    if (level & END_DRQ) {
+      printf("  drq [need_drqs=%d,drq_free=%d]:\n", 
+					sc->need_drqs, sc->drq_free);
+      ptr = sc->drq_chip;
+      while (ptr != sc->drq_us) {
+        reg = EN_READ(sc, ptr);
+	printf("\t0x%x=[cnt=%d, chan=%d, end=%d, type=%d @ 0x%x]\n", 
+	  sc->drq[MID_DRQ_A2REG(ptr)], MID_DMA_CNT(reg), MID_DMA_RXVCI(reg),
+	  (reg & MID_DMA_END) != 0, MID_DMA_TYPE(reg), EN_READ(sc, ptr+4));
+	EN_WRAPADD(MID_DRQOFF, MID_DRQEND, ptr, 8);
+      }
+    }
+
+    if (level & END_SWSL) {
+      printf(" swslist [size=%d]: ", sc->swsl_size);
+      for (cnt = sc->swsl_head ; cnt != sc->swsl_tail ; 
+			cnt = (cnt + 1) % MID_SL_N)
+        printf("0x%x ", sc->swslist[cnt]);
+      printf("\n");
+    }
+
+  }
+  return(0);
+}
+
+/*
+ * en_dumpmem: dump the memory
+ */
+
+int en_dumpmem(unit, addr, len)
+
+int unit, addr, len;
+
+{
+  struct en_softc *sc;
+  u_int32_t reg;
+
+  if (unit < 0 || unit > en_cd.cd_ndevs ||
+	(sc = (struct en_softc *) en_cd.cd_devs[unit]) == NULL) {
+    printf("invalid unit number: %d\n", unit);
+    return(0);
+  }
+  addr = addr & ~3;
+  if (addr < MID_RAMOFF || addr + len*4 > MID_MAXOFF || len <= 0) {
+    printf("invalid addr/len number: %d, %d\n", addr, len);
+    return(0);
+  }
+  printf("dumping %d words starting at offset 0x%x\n", len, addr);
+  while (len--) {
+    reg = EN_READ(sc, addr);
+    printf("mem[0x%x] = 0x%x\n", addr, reg);
+    addr += 4;
+  }
+  return(0);
+}
+#endif
+
+
+#endif /* NEN > 0 || !defined(__FreeBSD__) */
diff --git a/sys/dev/en/midwayreg.h b/sys/dev/en/midwayreg.h
new file mode 100644
index 0000000..3951ade
--- /dev/null
+++ b/sys/dev/en/midwayreg.h
@@ -0,0 +1,304 @@
+/*	$NetBSD: midwayreg.h,v 1.6 1997/03/20 21:34:47 chuck Exp $	*/
+
+/*
+ * m i d w a y r e g . h
+ *
+ * this file contains the description of the ENI ATM midway chip
+ * data structures.   see midway.c for more details.
+ *
+ */
+
+#if defined(sparc) || defined(__FreeBSD__)
+/* XXX: gross.   netbsd/sparc doesn't have machine/bus.h yet. */
+typedef void * bus_space_tag_t;
+typedef u_int32_t pci_chipset_tag_t;
+typedef caddr_t bus_space_handle_t;
+typedef u_int32_t bus_size_t;
+typedef caddr_t bus_addr_t;
+
+#define bus_space_read_4(t, h, o) ((void) t,                            \
+    (*(volatile u_int32_t *)((h) + (o))))
+#define bus_space_write_4(t, h, o, v)                                   \
+    ((void) t, ((void)(*(volatile u_int32_t *)((h) + (o)) = (v))))
+
+#if defined(sparc)
+#define vtophys(x) ((u_int32_t)(x))	/* sun4c dvma */
+#endif
+
+#endif
+
+
+#define MID_SZTOB(X) 	((X) * 256 * 4) /* size to bytes */
+#define MID_BTOSZ(X)	((X) / 256 / 4)	/* bytes to "size" */
+
+#define MID_N_VC	1024		/* # of VCs we can use */
+#define MID_NTX_CH	8		/* 8 transmit channels (shared) */
+#define MID_ATMDATASZ	48		/* need data in 48 byte blocks */
+
+/*
+ * card data structures, top down
+ *
+ * in order to have a portable driver, the netbsd guys will not let us
+ * use structs.   we have a bus_space_handle_t which is the en_base address.
+ * everything else is an offset from that base.   all card data must be 
+ * accessed with bus_space_read_4()/bus_space_write_4():
+ *
+ * rv = bus_space_read_4(sc->en_memt, sc->en_base, BYTE_OFFSET);
+ * bus_space_write_4(sc->en_memt, sc->en_base, BYTE_OFFSET, VALUE);
+ *
+ * en_card: the whole card (prom + phy + midway + obmem)
+ * 	obmem contains: vci tab + dma queues (rx & tx) + service list + bufs
+ */
+
+/* byte offsets from en_base of various items */
+#define MID_PHYOFF	0x030000	/* PHY offset */
+#define MID_MIDOFF	0x040000	/* midway regs offset */
+#define MID_RAMOFF	0x200000	/* RAM offset */
+#define MID_DRQOFF	0x204000	/* DRQ offset */
+#define MID_DRQEND	MID_DTQOFF	/* DRQ end */
+#define MID_DTQOFF	0x205000	/* DTQ offset */
+#define MID_DTQEND	MID_SLOFF	/* DTQ end */
+#define MID_SLOFF	0x206000	/* service list */
+#define MID_SLEND	MID_BUFOFF	/* service list end */
+#define MID_BUFOFF	0x207000	/* buffer area */
+#define MID_PROBEOFF	0x21fffc	/* start probe here */
+#define MID_PROBSIZE	0x020000	/* 128 KB */
+#define MID_MAXOFF	0x3ffffc	/* max offset */
+
+/*
+ * prom & phy: not defined here
+ */
+
+/*
+ * midway regs  (byte offsets from en_base)
+ */
+
+#define MID_RESID	0x40000		/* write=reset reg, read=ID reg */
+
+#define MID_VER(X)	(((X) & 0xf0000000) >> 28) /* midway version # */
+#define MID_MID(X)	(((X) & 0x700) >> 8) 	/* motherboard ID */
+#define MID_IS_SABRE(X) ((X) & 0x80)		/* sabre controller? */
+#define MID_IS_SUNI(X)	((X) & 0x40)		/* SUNI? vs utopia */
+#define MID_IS_UPIPE(X)	((X) & 0x20)		/* utopia pipeline? */
+#define MID_DID(X)	((X) & 0x1f)		/* daughterboard ID */
+
+#define MID_INTACK	0x40004		/* interrupt ACK */
+#define MID_INTSTAT	0x40008		/* interrupt status */
+#define MID_INTENA	0x4000c		/* interrupt enable */
+
+#define MID_TXCHAN(N) (1 << ((N) + 9))	/* ack/status/enable xmit channel bit*/
+#define MID_INT_TX	0x1fe00		/* mask for any xmit interrupt */
+#define MID_INT_DMA_OVR 0x00100		/* DMA overflow interrupt */
+#define MID_INT_IDENT   0x00080		/* ident match error interrupt */
+#define MID_INT_LERR    0x00040		/* LERR interrupt (sbus?) */
+#define MID_INT_DMA_ERR 0x00020		/* DMA error interrupt */
+#define MID_INT_DMA_RX  0x00010		/* DMA recv interrupt */
+#define MID_INT_DMA_TX	0x00008		/* DMA xmit interrupt */
+#define MID_INT_SERVICE 0x00004		/* service list interrupt */
+#define MID_INT_SUNI	0x00002		/* SUNI interrupt */
+#define MID_INT_STATS	0x00001		/* stats overflow interrupt */
+
+#define MID_INT_ANY	0x1ffff		/* any interrupt? */
+
+#define MID_INTBITS "\20\21T7\20T6\17T5\16T4\15T3\14T2\13T1\12T0\11DMAOVR\10ID\7LERR\6DMAERR\5RXDMA\4TXDMA\3SERV\2SUNI\1STAT"
+
+#define MID_MAST_CSR	0x40010		/* master CSR */
+
+#define MID_IPL(X)	(((X) & 0x1c0) >> 6) /* IPL */
+#define MID_SETIPL(I)	((I) << 6)
+#define MID_MCSR_TXLOCK	0x20		/* lock on xmit overflow mode */
+/* NOTE: next 5 bits: write 1 means enable, write 0 means no change */
+#define MID_MCSR_ENDMA	0x10		/* DMA enable */
+#define MID_MCSR_ENTX	0x08		/* TX enable */
+#define MID_MCSR_ENRX	0x04		/* RX enable */
+#define MID_MCSR_W1MS	0x02		/* wait 1 msec */
+#define MID_MCSR_W500US	0x01		/* wait 500 usec */
+
+#define MID_MCSRBITS "\20\6LCK\5DMAON\4TXON\3RXON\2W1MS\1W500US"
+
+#define MID_STAT	0x40014		/* stat register, clear on read */
+
+#define MID_VTRASH(X) (((X) >> 16) & 0xffff)
+					/* # cells trashed due to VCI's mode */
+#define MID_OTRASH(X) ((X) & 0xffff)	/* # cells trashed due to overflow */
+
+#define MID_SERV_WRITE	0x40018		/* 10 bit service write pointer (r/o) */
+#define MID_DMA_ADDR	0x4001c		/* VA of DMA (r/o) */
+
+  /* DMA queue pointers (bits 0 to 8) */
+#define MID_DMA_WRRX	0x40020		/* write ptr. for DMA recv queue */
+					/* (for adaptor -> host xfers) */
+#define MID_DMA_RDRX	0x40024		/* read ptr for DMA recv queue (r/o) */
+					/* (i.e. current adaptor->host xfer) */
+#define MID_DMA_WRTX	0x40028		/* write ptr for DMA xmit queue */
+					/* (for host -> adaptor xfers) */
+#define MID_DMA_RDTX	0x4002c		/* read ptr for DMA xmit queue (r/o) */
+					/* (i.e. current host->adaptor xfer) */
+
+	/* xmit channel regs (1 per channel, MID_NTX_CH max channels) */
+
+#define MIDX_PLACE(N)	(0x40040+((N)*0x10))	/* xmit place */
+
+#define MIDX_MKPLACE(SZ,LOC) ( ((SZ) << 11) | (LOC) )
+#define MIDX_LOC(X)	((X) & 0x7ff)	/* location in obmem */
+#define MIDX_SZ(X)	((X) >> 11)	/* (size of block / 256) in int32_t's*/
+#define MIDX_BASE(X)	\
+	(((MIDX_LOC(X) << MIDV_LOCTOPSHFT) * sizeof(u_int32_t)) + MID_RAMOFF)
+
+  /* the following two regs are word offsets in the block */
+#define MIDX_READPTR(N)	(0x40044+((N)*0x10))	/* xmit read pointer (r/o) */
+#define MIDX_DESCSTART(N) (0x40048+((N)*0x10))	/* seg currently in DMA (r/o) */
+
+
+/*
+ * obmem items
+ */
+
+/* 
+ * vci table in obmem (offset from MID_VCTOFF)
+ */
+
+#define MID_VC(N)	(MID_RAMOFF+((N)*0x10))
+
+#define MIDV_TRASH	0x00000000	/* ignore VC */
+#define MIDV_AAL5	0x80000000	/* do AAL5 on it */
+#define MIDV_NOAAL	0x40000000	/* do per-cell stuff on it */
+#define MIDV_MASK	0xc0000000	/* mode mask */
+#define MIDV_SETMODE(VC,M) (((VC) & ~(MIDV_MASK)) | (M))  /* new mode */
+#define MIDV_PTI	0x20000000	/* save PTI cells? */
+#define MIDV_LOCTOPSHFT	8		/* shift to get top 11 bits of 19 */
+#define MIDV_LOCSHIFT	18
+#define MIDV_LOCMASK	0x7ff
+#define MIDV_LOC(X)	(((X) >> MIDV_LOCSHIFT) & MIDV_LOCMASK) 
+					/* 11 most sig bits of addr */
+#define MIDV_SZSHIFT	15
+#define MIDV_SZ(X)	(((X) >> MIDV_SZSHIFT) & 7) 
+					/* size encoded the usual way */
+#define MIDV_INSERVICE	0x1		/* in service list */
+
+#define MID_DST_RP(N)	(MID_VC(N)|0x4)
+
+#define MIDV_DSTART_SHIFT	16		/* shift */
+#define MIDV_DSTART(X) (((X) >> MIDV_DSTART_SHIFT) & 0x7fff)
+#define MIDV_READP_MASK		0x7fff		/* valid bits, (shift = 0) */
+
+#define MID_WP_ST_CNT(N) (MID_VC(N)|0x8)      /* write pointer/state/count */
+
+#define MIDV_WRITEP_MASK	0x7fff0000	/* mask for write ptr. */
+#define MIDV_WRITEP_SHIFT	16
+#define MIDV_ST_IDLE		0x0000
+#define MIDV_ST_TRASH		0xc000
+#define MIDV_ST_REASS		0x4000
+#define MIDV_CCOUNT		0x7ff		/* cell count */
+
+#define MID_CRC(N)	(MID_VC(N)|0xc)		/* CRC */
+
+/*
+ * dma recv q.
+ */
+
+#define MID_DMA_END	(1 << 5)	/* for both tx and rx */
+#define MID_DMA_CNT(X)	(((X) >> 16) & 0xffff)
+#define MID_DMA_TXCHAN(X) (((X) >> 6) & 0x7)
+#define MID_DMA_RXVCI(X)  (((X) >> 6) & 0x3ff)
+#define MID_DMA_TYPE(X)	((X) & 0xf)
+
+#define MID_DRQ_N	512			/* # of descriptors */
+#define MID_DRQ_A2REG(N)	(((N) - MID_DRQOFF) >> 3)
+				/* convert byte offset to reg value */
+#define MID_DRQ_REG2A(N)	(((N) << 3) + MID_DRQOFF) /* and back */
+
+/* note: format of word 1 of RXQ is different beween ENI and ADP cards */
+#define MID_MK_RXQ_ENI(CNT,VC,END,TYPE) \
+	( ((CNT) << 16)|((VC) << 6)|(END)|(TYPE) )
+
+#define MID_MK_RXQ_ADP(CNT,VC,END,JK) \
+	( ((CNT) << 12)|((VC) << 2)|((END) >> 4)|(((JK) != 0) ? 1 : 0))
+/*
+ * dma xmit q.
+ */
+
+#define MID_DTQ_N	512			/* # of descriptors */
+#define MID_DTQ_A2REG(N)	(((N) - MID_DTQOFF) >> 3)
+				/* convert byte offset to reg value */
+#define MID_DTQ_REG2A(N)	(((N) << 3) + MID_DTQOFF) /* and back */
+
+
+/* note: format of word 1 of TXQ is different beween ENI and ADP cards */
+#define MID_MK_TXQ_ENI(CNT,CHN,END,TYPE) \
+	( ((CNT) << 16)|((CHN) << 6)|(END)|(TYPE) )
+
+#define MID_MK_TXQ_ADP(CNT,CHN,END,JK) \
+	( ((CNT) << 12)|((CHN) << 2)|((END) >> 4)|(((JK) != 0) ? 1 : 0) )
+
+/*
+ * dma types
+ */
+
+#define MIDDMA_JK	0x3	/* just kidding */
+#define MIDDMA_BYTE	0x1	/* byte */
+#define MIDDMA_2BYTE	0x2	/* 2 bytes */
+#define MIDDMA_WORD	0x0	/* word */
+#define MIDDMA_2WORD	0x7	/* 2 words */
+#define MIDDMA_4WORD	0x4	/* 4 words */
+#define MIDDMA_8WORD	0x5	/* 8 words */
+#define MIDDMA_16WORD	0x6	/* 16 words!!! */
+#define MIDDMA_2WMAYBE	0xf	/* 2 words, maybe */
+#define MIDDMA_4WMAYBE	0xc	/* 4 words, maybe */
+#define MIDDMA_8WMAYBE	0xd	/* 8 words, maybe */
+#define MIDDMA_16WMAYBE	0xe	/* 16 words, maybe */
+
+#define MIDDMA_MAYBE	0xc	/* mask to detect WMAYBE dma code */
+#define MIDDMA_MAXBURST	(16 * sizeof(u_int32_t))	/* largest burst */
+
+/*
+ * service list
+ */
+
+#define MID_SL_N	1024	/* max # entries on slist */
+#define MID_SL_A2REG(N)	(((N) - MID_SLOFF) >> 2)
+				/* convert byte offset to reg value */
+#define MID_SL_REG2A(N)	(((N) << 2) + MID_SLOFF) /* and back */
+
+/*
+ * data in the buffer area of obmem
+ */
+
+/*
+ * recv buffer desc. (1 u_int32_t at start of buffer)
+ */
+
+#define MID_RBD_SIZE	4			/* RBD size */
+#define MID_CHDR_SIZE	4			/* on aal0, cell header size */
+#define MID_RBD_ID(X)	((X) & 0xfe000000)	/* get ID */
+#define MID_RBD_STDID	0x36000000		/* standard ID */
+#define MID_RBD_CLP	0x01000000		/* CLP: cell loss priority */
+#define MID_RBD_CE	0x00010000		/* CE: congestion experienced */
+#define MID_RBD_T	0x00001000		/* T: trashed due to overflow */
+#define MID_RBD_CRCERR	0x00000800		/* CRC error */
+#define MID_RBD_CNT(X)	((X) & 0x7ff)		/* cell count */
+
+/*
+ * xmit buffer desc. (2 u_int32_t's at start of buffer)
+ * (note we treat the PR & RATE as a single u_int8_t)
+ */
+
+#define MID_TBD_SIZE	8
+#define MID_TBD_MK1(AAL,PR_RATE,CNT) \
+	(MID_TBD_STDID|(AAL)|((PR_RATE) << 19)|(CNT))
+#define MID_TBD_STDID	0xb0000000	/* standard ID */
+#define MID_TBD_AAL5 	0x08000000	/* AAL 5 */
+#define MID_TBD_NOAAL5	0x00000000	/* not AAL 5 */
+
+#define MID_TBD_MK2(VCI,PTI,CLP) \
+	(((VCI) << 4)|((PTI) << 1)|(CLP))
+
+/*
+ * aal5 pdu tail, last 2 words of last cell of AAL5 frame
+ * (word 2 is CRC .. handled by hw)
+ */
+
+#define MID_PDU_SIZE	8
+#define MID_PDU_MK1(UU,CPI,LEN) \
+	(((UU) << 24)|((CPI) << 16)|(LEN))
+#define MID_PDU_LEN(X) ((X) & 0xffff)
diff --git a/sys/dev/en/midwayvar.h b/sys/dev/en/midwayvar.h
new file mode 100644
index 0000000..c17db92
--- /dev/null
+++ b/sys/dev/en/midwayvar.h
@@ -0,0 +1,205 @@
+/*	$NetBSD: midwayvar.h,v 1.10 1997/03/20 21:34:46 chuck Exp $	*/
+
+/*
+ *
+ * Copyright (c) 1996 Charles D. Cranor and Washington University.
+ * 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 Charles D. Cranor and
+ *	Washington University.
+ * 4. The name of the author may not be used to endorse or promote products
+ *    derived from this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
+ * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
+ * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
+ * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
+ * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
+ * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+ * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+ * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+ * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
+ * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+/*
+ * m i d w a y v a r . h
+ *
+ * we define the en_softc here so that bus specific modules can allocate
+ * it as the first item in their softc.   note that BSD-required 
+ * "struct device" is in the mid_softc!
+ *
+ * author: Chuck Cranor <chuck@ccrc.wustl.edu>
+ */
+
+/*
+ * params needed to determine softc size
+ */
+
+#ifndef EN_NTX
+#define EN_NTX          8       /* number of tx bufs to use */
+#endif
+#ifndef EN_TXSZ
+#define EN_TXSZ         32      /* trasmit buf size in KB */
+#endif
+#ifndef EN_RXSZ
+#define EN_RXSZ         32      /* recv buf size in KB */
+#endif
+#define EN_MAXNRX       ((2048-(EN_NTX*EN_TXSZ))/EN_RXSZ)
+				/* largest possible NRX (depends on RAM size) */
+
+
+#if defined(__NetBSD__) || defined(__OpenBSD__) || defined(__bsdi__)
+#define EN_INTR_TYPE int
+#define EN_INTR_RET(X) return(X)
+#if defined(__NetBSD__) || defined(__OpenBSD__)
+#define EN_IOCTL_CMDT u_long
+#elif defined(__bsdi__)
+#define EN_IOCTL_CMDT int
+#endif
+
+#elif defined(__FreeBSD__)
+
+#define EN_INTR_TYPE void
+#define EN_INTR_RET(X) return
+#define EN_IOCTL_CMDT int
+
+struct device {
+  char dv_xname[IFNAMSIZ];
+};
+
+#define DV_IFNET 1
+
+struct cfdriver {
+  int zero;
+  char *name;
+  int one;
+  int cd_ndevs;
+  void *cd_devs[NEN];
+};
+
+#endif
+
+
+/*
+ * softc
+ */
+
+struct en_softc {
+  /* bsd glue */
+  struct device sc_dev;		/* system device */
+  struct ifnet enif;		/* network ifnet handle */
+
+  /* bus glue */
+  bus_space_tag_t en_memt;	/* for EN_READ/EN_WRITE */
+  bus_space_handle_t en_base;	/* base of en card */
+  bus_size_t en_obmemsz;	/* size of en card (bytes) */
+  void (*en_busreset) __P((void *));
+				/* bus specific reset function */
+
+  /* serv list */
+  u_int32_t hwslistp;		/* hw pointer to service list (byte offset) */
+  u_int16_t swslist[MID_SL_N];	/* software service list (see en_service()) */
+  u_int16_t swsl_head, 		/* ends of swslist (index into swslist) */
+	    swsl_tail;
+  u_int32_t swsl_size;		/* # of items in swsl */
+  
+
+  /* xmit dma */
+  u_int32_t dtq[MID_DTQ_N];	/* sw copy of dma q (see ENIDQ macros) */
+  u_int32_t dtq_free;		/* # of dtq's free */
+  u_int32_t dtq_us;		/* software copy of our pointer (byte offset) */
+  u_int32_t dtq_chip;		/* chip's pointer (byte offset) */
+  u_int32_t need_dtqs;		/* true if we ran out of DTQs */
+
+  /* recv dma */
+  u_int32_t drq[MID_DRQ_N];	/* sw copy of dma q (see ENIDQ macros) */
+  u_int32_t drq_free;		/* # of drq's free */
+  u_int32_t drq_us;		/* software copy of our pointer (byte offset) */
+  u_int32_t drq_chip;		/* chip's pointer (byte offset) */
+  u_int32_t need_drqs;		/* true if we ran out of DRQs */
+
+  /* xmit buf ctrl. (per channel) */
+  struct {
+    u_int32_t mbsize;		/* # mbuf bytes we are using (max=TXHIWAT) */
+    u_int32_t bfree;		/* # free bytes in buffer (not dma or xmit) */
+    u_int32_t start, stop;	/* ends of buffer area (byte offset) */
+    u_int32_t cur;		/* next free area (byte offset) */
+    u_int32_t nref;		/* # of VCs using this channel */
+    struct ifqueue indma;	/* mbufs being dma'd now */
+    struct ifqueue q;		/* mbufs waiting for dma now */
+  } txslot[MID_NTX_CH];
+
+  /* xmit vc ctrl. (per vc) */
+  u_int8_t txspeed[MID_N_VC];	/* speed of tx on a VC */
+  u_int8_t txvc2slot[MID_N_VC]; /* map VC to slot */
+
+  /* recv vc ctrl. (per vc).   maps VC number to recv slot */
+  u_int16_t rxvc2slot[MID_N_VC];
+  int en_nrx;			/* # of active rx slots */
+
+  /* recv buf ctrl. (per recv slot) */
+  struct {
+    void *rxhand;		/* recv. handle if doing direct delivery */
+    u_int32_t mode;		/* saved copy of mode info */
+    u_int32_t start, stop;	/* ends of my buffer area */
+    u_int32_t cur;		/* where I am at */
+    u_int16_t atm_vci;		/* backpointer to VCI */
+    u_int8_t atm_flags;		/* copy of atm_flags from atm_ph */
+    u_int8_t oth_flags;		/* other flags */
+    u_int32_t raw_threshold;	/* for raw mode */
+    struct ifqueue indma;	/* mbufs being dma'd now */
+    struct ifqueue q;		/* mbufs waiting for dma now */
+  } rxslot[EN_MAXNRX];		/* recv info */
+
+  /* stats */
+  u_int32_t vtrash;		/* sw copy of counter */
+  u_int32_t otrash;		/* sw copy of counter */
+  u_int32_t ttrash;		/* # of RBD's with T bit set */
+  u_int32_t mfix;		/* # of times we had to call mfix */
+  u_int32_t mfixfail;		/* # of times mfix failed */
+  u_int32_t headbyte;		/* # of times we used BYTE DMA at front */
+  u_int32_t tailbyte;		/* # of times we used BYTE DMA at end */
+  u_int32_t tailflush;		/* # of times we had to FLUSH out DMA bytes */
+  u_int32_t txmbovr;		/* # of times we dropped due to mbsize */
+  u_int32_t dmaovr;		/* tx dma overflow count */
+  u_int32_t txoutspace;		/* out of space in xmit buffer */
+  u_int32_t txdtqout;		/* out of DTQs */
+  u_int32_t launch;		/* total # of launches */
+  u_int32_t lheader;		/* # of launches without OB header */
+  u_int32_t ltail;		/* # of launches without OB tail */
+  u_int32_t hwpull;		/* # of pulls off hardware service list */
+  u_int32_t swadd;		/* # of pushes on sw service list */
+  u_int32_t rxqnotus;		/* # of times we pull from rx q, but fail */
+  u_int32_t rxqus;		/* # of good pulls from rx q */
+  u_int32_t rxoutboth;		/* # of times out of mbufs and DRQs */
+  u_int32_t rxdrqout;		/* # of times out of DRQs */
+  u_int32_t rxmbufout;		/* # of time out of mbufs */
+
+  /* random stuff */
+  u_int32_t ipl;		/* sbus interrupt lvl (1 on pci?) */
+  u_int8_t bestburstcode;	/* code of best burst we can use */
+  u_int8_t bestburstlen;	/* length of best burst (bytes) */
+  u_int8_t bestburstshift;	/* (x >> shift) == (x / bestburstlen) */
+  u_int8_t bestburstmask;	/* bits to check if not multiple of burst */
+  u_int8_t alburst;		/* align dma bursts? */
+  u_int8_t is_adaptec;		/* adaptec version of midway? */
+};
+
+/*
+ * exported functions
+ */
+
+void	en_attach __P((struct en_softc *));
+EN_INTR_TYPE	en_intr __P((void *));
+void	en_reset __P((struct en_softc *));