vax/if/if_en.c

23290Smckusick/*
*29362Smckusick * Copyright (c) 1982, 1986 Regents of the University of California.
23290Smckusick * All rights reserved.  The Berkeley software License Agreement
23290Smckusick * specifies the terms and conditions for redistribution.
23290Smckusick *
*29362Smckusick *	@(#)if_en.c	7.1 (Berkeley) 06/05/86
23290Smckusick */
4686Swnj
4686Swnj#include "en.h"
25272Sbloom#if NEN > 0
5105Swnj
4686Swnj/*
5105Swnj * Xerox prototype (3 Mb) Ethernet interface driver.
4686Swnj */
9796Ssam#include "../machine/pte.h"
4686Swnj
17113Sbloom#include "param.h"
17113Sbloom#include "systm.h"
17113Sbloom#include "mbuf.h"
17113Sbloom#include "buf.h"
17113Sbloom#include "protosw.h"
17113Sbloom#include "socket.h"
17113Sbloom#include "vmmac.h"
17113Sbloom#include "errno.h"
17113Sbloom#include "ioctl.h"
8462Sroot
8462Sroot#include "../net/if.h"
8462Sroot#include "../net/netisr.h"
8462Sroot#include "../net/route.h"
24790Skarels
24790Skarels#ifdef	INET
8418Swnj#include "../netinet/in.h"
8418Swnj#include "../netinet/in_systm.h"
19864Skarels#include "../netinet/in_var.h"
8418Swnj#include "../netinet/ip.h"
24790Skarels#endif
24790Skarels
19950Sbloom#ifdef PUP
8418Swnj#include "../netpup/pup.h"
13458Ssam#include "../netpup/ether.h"
19950Sbloom#endif
4686Swnj
25610Ssklower#ifdef NS
25610Ssklower#include "../netns/ns.h"
25610Ssklower#include "../netns/ns_if.h"
25610Ssklower#endif
25610Ssklower
8462Sroot#include "../vax/cpu.h"
8462Sroot#include "../vax/mtpr.h"
17113Sbloom#include "if_en.h"
17113Sbloom#include "if_enreg.h"
17113Sbloom#include "if_uba.h"
8462Sroot#include "../vaxuba/ubareg.h"
8462Sroot#include "../vaxuba/ubavar.h"
8462Sroot
5213Swnj#define	ENMTU	(1024+512)
6925Swnj#define	ENMRU	(1024+512+16)		/* 16 is enough to receive trailer */
5083Swnj
4686Swnjint	enprobe(), enattach(), enrint(), enxint(), encollide();
4686Swnjstruct	uba_device *eninfo[NEN];
4686Swnju_short enstd[] = { 0 };
4686Swnjstruct	uba_driver endriver =
5171Swnj	{ enprobe, 0, enattach, 0, enstd, "en", eninfo };
4686Swnj#define	ENUNIT(x)	minor(x)
4686Swnj
13054Ssamint	eninit(),enoutput(),enreset(),enioctl();
5105Swnj
13293Ssam#ifdef notdef
5105Swnj/*
13293Ssam * If you need to byte swap IP's in the system, define
13293Ssam * this and do a SIOCSIFFLAGS at boot time.
13293Ssam */
19864Skarels#define	ENF_SWABIPS	0x1000
13293Ssam#endif
13293Ssam
13293Ssam/*
5105Swnj * Ethernet software status per interface.
5105Swnj *
5105Swnj * Each interface is referenced by a network interface structure,
5105Swnj * es_if, which the routing code uses to locate the interface.
5105Swnj * This structure contains the output queue for the interface, its address, ...
5105Swnj * We also have, for each interface, a UBA interface structure, which
5105Swnj * contains information about the UNIBUS resources held by the interface:
5105Swnj * map registers, buffered data paths, etc.  Information is cached in this
5105Swnj * structure for use by the if_uba.c routines in running the interface
5105Swnj * efficiently.
5105Swnj */
5083Swnjstruct	en_softc {
5105Swnj	struct	ifnet es_if;		/* network-visible interface */
5105Swnj	struct	ifuba es_ifuba;		/* UNIBUS resources */
16380Skarels	short	es_host;		/* hardware host number */
5105Swnj	short	es_delay;		/* current output delay */
5105Swnj	short	es_mask;		/* mask for current output delay */
6471Sroot	short	es_lastx;		/* host last transmitted to */
5105Swnj	short	es_oactive;		/* is output active? */
5105Swnj	short	es_olen;		/* length of last output */
25610Ssklower	short	es_nsactive;		/* is interface enabled for ns? */
5083Swnj} en_softc[NEN];
4686Swnj
5105Swnj/*
5105Swnj * Do output DMA to determine interface presence and
5105Swnj * interrupt vector.  DMA is too short to disturb other hosts.
5105Swnj */
4686Swnjenprobe(reg)
4686Swnj	caddr_t reg;
4686Swnj{
5171Swnj	register int br, cvec;		/* r11, r10 value-result */
4686Swnj	register struct endevice *addr = (struct endevice *)reg;
4686Swnj
4686Swnj#ifdef lint
4686Swnj	br = 0; cvec = br; br = cvec;
4922Swnj	enrint(0); enxint(0); encollide(0);
4686Swnj#endif
4686Swnj	addr->en_istat = 0;
4686Swnj	addr->en_owc = -1;
4686Swnj	addr->en_oba = 0;
4771Swnj	addr->en_ostat = EN_IEN|EN_GO;
4686Swnj	DELAY(100000);
4686Swnj	addr->en_ostat = 0;
4686Swnj	return (1);
4686Swnj}
4686Swnj
5105Swnj/*
5105Swnj * Interface exists: make available by filling in network interface
5105Swnj * record.  System will initialize the interface when it is ready
5105Swnj * to accept packets.
5105Swnj */
4686Swnjenattach(ui)
4686Swnj	struct uba_device *ui;
4686Swnj{
5105Swnj	register struct en_softc *es = &en_softc[ui->ui_unit];
4688Swnj
5105Swnj	es->es_if.if_unit = ui->ui_unit;
5171Swnj	es->es_if.if_name = "en";
5105Swnj	es->es_if.if_mtu = ENMTU;
19864Skarels	es->es_if.if_flags = IFF_BROADCAST;
5171Swnj	es->es_if.if_init = eninit;
5105Swnj	es->es_if.if_output = enoutput;
13054Ssam	es->es_if.if_ioctl = enioctl;
8978Sroot	es->es_if.if_reset = enreset;
6554Ssam	es->es_ifuba.ifu_flags = UBA_NEEDBDP | UBA_NEED16 | UBA_CANTWAIT;
9271Ssam#if defined(VAX750)
9271Ssam	/* don't chew up 750 bdp's */
9271Ssam	if (cpu == VAX_750 && ui->ui_unit > 0)
9271Ssam		es->es_ifuba.ifu_flags &= ~UBA_NEEDBDP;
9271Ssam#endif
5160Swnj	if_attach(&es->es_if);
4686Swnj}
4686Swnj
5105Swnj/*
5105Swnj * Reset of interface after UNIBUS reset.
5105Swnj * If interface is on specified uba, reset its state.
5105Swnj */
5105Swnjenreset(unit, uban)
5105Swnj	int unit, uban;
5105Swnj{
5105Swnj	register struct uba_device *ui;
5105Swnj
5171Swnj	if (unit >= NEN || (ui = eninfo[unit]) == 0 || ui->ui_alive == 0 ||
5171Swnj	    ui->ui_ubanum != uban)
5105Swnj		return;
5171Swnj	printf(" en%d", unit);
5105Swnj	eninit(unit);
5105Swnj}
5105Swnj
5105Swnj/*
5105Swnj * Initialization of interface; clear recorded pending
5105Swnj * operations, and reinitialize UNIBUS usage.
5105Swnj */
4688Swnjeninit(unit)
4686Swnj	int unit;
5083Swnj{
5171Swnj	register struct en_softc *es = &en_softc[unit];
5171Swnj	register struct uba_device *ui = eninfo[unit];
4686Swnj	register struct endevice *addr;
13054Ssam	int s;
4686Swnj
19864Skarels	if (es->es_if.if_addrlist == (struct ifaddr *)0)
12349Ssam		return;
5105Swnj	if (if_ubainit(&es->es_ifuba, ui->ui_ubanum,
6925Swnj	    sizeof (struct en_header), (int)btoc(ENMRU)) == 0) {
5171Swnj		printf("en%d: can't initialize\n", unit);
6335Ssam		es->es_if.if_flags &= ~IFF_UP;
5083Swnj		return;
4686Swnj	}
4686Swnj	addr = (struct endevice *)ui->ui_addr;
5083Swnj	addr->en_istat = addr->en_ostat = 0;
4686Swnj
5105Swnj	/*
5171Swnj	 * Hang a receive and start any
5171Swnj	 * pending writes by faking a transmit complete.
5105Swnj	 */
5105Swnj	s = splimp();
5171Swnj	addr->en_iba = es->es_ifuba.ifu_r.ifrw_info;
6925Swnj	addr->en_iwc = -(sizeof (struct en_header) + ENMRU) >> 1;
5171Swnj	addr->en_istat = EN_IEN|EN_GO;
5171Swnj	es->es_oactive = 1;
19864Skarels	es->es_if.if_flags |= IFF_RUNNING;
5105Swnj	enxint(unit);
5105Swnj	splx(s);
4686Swnj}
4686Swnj
6471Srootint	enalldelay = 0;
6951Swnjint	enlastdel = 50;
6471Srootint	enlastmask = (~0) << 5;
5083Swnj
5105Swnj/*
5105Swnj * Start or restart output on interface.
5105Swnj * If interface is already active, then this is a retransmit
5105Swnj * after a collision, and just restuff registers and delay.
5105Swnj * If interface is not already active, get another datagram
5105Swnj * to send off of the interface queue, and map it to the interface
5105Swnj * before starting the output.
5105Swnj */
4688Swnjenstart(dev)
4686Swnj	dev_t dev;
4686Swnj{
5171Swnj        int unit = ENUNIT(dev);
5171Swnj	struct uba_device *ui = eninfo[unit];
5171Swnj	register struct en_softc *es = &en_softc[unit];
5083Swnj	register struct endevice *addr;
16380Skarels	register struct en_header *en;
5083Swnj	struct mbuf *m;
5083Swnj	int dest;
4686Swnj
5083Swnj	if (es->es_oactive)
5083Swnj		goto restart;
5105Swnj
5105Swnj	/*
5105Swnj	 * Not already active: dequeue another request
5105Swnj	 * and map it to the UNIBUS.  If no more requests,
5105Swnj	 * just return.
5105Swnj	 */
5105Swnj	IF_DEQUEUE(&es->es_if.if_snd, m);
5083Swnj	if (m == 0) {
5083Swnj		es->es_oactive = 0;
4686Swnj		return;
4686Swnj	}
16380Skarels	en = mtod(m, struct en_header *);
16380Skarels	dest = en->en_dhost;
16380Skarels	en->en_shost = es->es_host;
5105Swnj	es->es_olen = if_wubaput(&es->es_ifuba, m);
13293Ssam#ifdef ENF_SWABIPS
13293Ssam	/*
13293Ssam	 * The Xerox interface does word at a time DMA, so
13293Ssam	 * someone must do byte swapping of user data if high
13293Ssam	 * and low ender machines are to communicate.  It doesn't
13293Ssam	 * belong here, but certain people depend on it, so...
13293Ssam	 *
13293Ssam	 * Should swab everybody, but this is a kludge anyway.
13293Ssam	 */
13293Ssam	if (es->es_if.if_flags & ENF_SWABIPS) {
13293Ssam		en = (struct en_header *)es->es_ifuba.ifu_w.ifrw_addr;
13293Ssam		if (en->en_type == ENTYPE_IP)
13293Ssam			enswab((caddr_t)(en + 1), (caddr_t)(en + 1),
13293Ssam			    es->es_olen - sizeof (struct en_header) + 1);
13293Ssam	}
13293Ssam#endif
13293Ssam
5105Swnj	/*
5105Swnj	 * Ethernet cannot take back-to-back packets (no
6471Sroot	 * buffering in interface.  To help avoid overrunning
6471Sroot	 * receivers, enforce a small delay (about 1ms) in interface:
6471Sroot	 *	* between all packets when enalldelay
6471Sroot	 *	* whenever last packet was broadcast
6471Sroot	 *	* whenever this packet is to same host as last packet
5105Swnj	 */
6471Sroot	if (enalldelay || es->es_lastx == 0 || es->es_lastx == dest) {
5083Swnj		es->es_delay = enlastdel;
6471Sroot		es->es_mask = enlastmask;
6471Sroot	}
6471Sroot	es->es_lastx = dest;
5105Swnj
5083Swnjrestart:
5105Swnj	/*
5105Swnj	 * Have request mapped to UNIBUS for transmission.
5105Swnj	 * Purge any stale data from this BDP, and start the otput.
5105Swnj	 */
6335Ssam	if (es->es_ifuba.ifu_flags & UBA_NEEDBDP)
6335Ssam		UBAPURGE(es->es_ifuba.ifu_uba, es->es_ifuba.ifu_w.ifrw_bdp);
4686Swnj	addr = (struct endevice *)ui->ui_addr;
5160Swnj	addr->en_oba = (int)es->es_ifuba.ifu_w.ifrw_info;
5083Swnj	addr->en_odelay = es->es_delay;
5083Swnj	addr->en_owc = -((es->es_olen + 1) >> 1);
4771Swnj	addr->en_ostat = EN_IEN|EN_GO;
5083Swnj	es->es_oactive = 1;
4686Swnj}
4686Swnj
5105Swnj/*
5105Swnj * Ethernet interface transmitter interrupt.
5105Swnj * Start another output if more data to send.
5105Swnj */
4686Swnjenxint(unit)
4686Swnj	int unit;
4686Swnj{
5171Swnj	register struct uba_device *ui = eninfo[unit];
5171Swnj	register struct en_softc *es = &en_softc[unit];
6242Sroot	register struct endevice *addr = (struct endevice *)ui->ui_addr;
4686Swnj
5083Swnj	if (es->es_oactive == 0)
5083Swnj		return;
6242Sroot	if (es->es_mask && (addr->en_ostat&EN_OERROR)) {
6242Sroot		es->es_if.if_oerrors++;
6242Sroot		endocoll(unit);
6242Sroot		return;
6242Sroot	}
5171Swnj	es->es_if.if_opackets++;
5083Swnj	es->es_oactive = 0;
5083Swnj	es->es_delay = 0;
5083Swnj	es->es_mask = ~0;
5696Sroot	if (es->es_ifuba.ifu_xtofree) {
5696Sroot		m_freem(es->es_ifuba.ifu_xtofree);
5696Sroot		es->es_ifuba.ifu_xtofree = 0;
5696Sroot	}
5105Swnj	if (es->es_if.if_snd.ifq_head == 0) {
6471Sroot		es->es_lastx = 256;		/* putatively illegal */
4686Swnj		return;
4686Swnj	}
5083Swnj	enstart(unit);
4686Swnj}
4686Swnj
5105Swnj/*
5105Swnj * Collision on ethernet interface.  Do exponential
5105Swnj * backoff, and retransmit.  If have backed off all
6335Ssam * the way print warning diagnostic, and drop packet.
5105Swnj */
4686Swnjencollide(unit)
4686Swnj	int unit;
4686Swnj{
6242Sroot	struct en_softc *es = &en_softc[unit];
4686Swnj
5105Swnj	es->es_if.if_collisions++;
5083Swnj	if (es->es_oactive == 0)
4686Swnj		return;
6242Sroot	endocoll(unit);
6242Sroot}
6242Sroot
6242Srootendocoll(unit)
6242Sroot	int unit;
6242Sroot{
6242Sroot	register struct en_softc *es = &en_softc[unit];
6242Sroot
5171Swnj	/*
5171Swnj	 * Es_mask is a 16 bit number with n low zero bits, with
5171Swnj	 * n the number of backoffs.  When es_mask is 0 we have
5171Swnj	 * backed off 16 times, and give up.
5171Swnj	 */
5083Swnj	if (es->es_mask == 0) {
5213Swnj		printf("en%d: send error\n", unit);
5083Swnj		enxint(unit);
5171Swnj		return;
4686Swnj	}
5171Swnj	/*
5171Swnj	 * Another backoff.  Restart with delay based on n low bits
5171Swnj	 * of the interval timer.
5171Swnj	 */
5171Swnj	es->es_mask <<= 1;
5171Swnj	es->es_delay = mfpr(ICR) &~ es->es_mask;
5171Swnj	enstart(unit);
4686Swnj}
4686Swnj
13458Ssam#ifdef notdef
13458Ssamstruct	sockproto enproto = { AF_ETHERLINK };
13458Ssamstruct	sockaddr_en endst = { AF_ETHERLINK };
13458Ssamstruct	sockaddr_en ensrc = { AF_ETHERLINK };
13458Ssam#endif
5105Swnj/*
5105Swnj * Ethernet interface receiver interrupt.
5105Swnj * If input error just drop packet.
5105Swnj * Otherwise purge input buffered data path and examine
5105Swnj * packet to determine type.  If can't determine length
5105Swnj * from type, then have to drop packet.  Othewise decapsulate
5105Swnj * packet based on type and pass to type specific higher-level
5105Swnj * input routine.
5105Swnj */
4686Swnjenrint(unit)
4686Swnj	int unit;
4686Swnj{
5171Swnj	register struct en_softc *es = &en_softc[unit];
5171Swnj	struct endevice *addr = (struct endevice *)eninfo[unit]->ui_addr;
5171Swnj	register struct en_header *en;
5083Swnj    	struct mbuf *m;
8603Sroot	int len; short resid;
5171Swnj	register struct ifqueue *inq;
16511Skarels	int off, s;
4686Swnj
5171Swnj	es->es_if.if_ipackets++;
5105Swnj
5105Swnj	/*
5171Swnj	 * Purge BDP; drop if input error indicated.
5105Swnj	 */
6335Ssam	if (es->es_ifuba.ifu_flags & UBA_NEEDBDP)
6335Ssam		UBAPURGE(es->es_ifuba.ifu_uba, es->es_ifuba.ifu_r.ifrw_bdp);
4771Swnj	if (addr->en_istat&EN_IERROR) {
5105Swnj		es->es_if.if_ierrors++;
5083Swnj		goto setup;
4686Swnj	}
5105Swnj
5105Swnj	/*
6471Sroot	 * Calculate input data length.
5105Swnj	 * Get pointer to ethernet header (in input buffer).
5105Swnj	 * Deal with trailer protocol: if type is PUP trailer
5105Swnj	 * get true type from first 16-bit word past data.
5105Swnj	 * Remember that type was trailer by setting off.
5105Swnj	 */
6471Sroot	resid = addr->en_iwc;
6471Sroot	if (resid)
6471Sroot		resid |= 0176000;
6925Swnj	len = (((sizeof (struct en_header) + ENMRU) >> 1) + resid) << 1;
6471Sroot	len -= sizeof (struct en_header);
6925Swnj	if (len > ENMRU)
6471Sroot		goto setup;			/* sanity */
5105Swnj	en = (struct en_header *)(es->es_ifuba.ifu_r.ifrw_addr);
12352Ssam	en->en_type = ntohs(en->en_type);
5083Swnj#define	endataaddr(en, off, type)	((type)(((caddr_t)((en)+1)+(off))))
12352Ssam	if (en->en_type >= ENTYPE_TRAIL &&
12352Ssam	    en->en_type < ENTYPE_TRAIL+ENTYPE_NTRAILER) {
12352Ssam		off = (en->en_type - ENTYPE_TRAIL) * 512;
6925Swnj		if (off > ENMTU)
5171Swnj			goto setup;		/* sanity */
12352Ssam		en->en_type = ntohs(*endataaddr(en, off, u_short *));
12352Ssam		resid = ntohs(*(endataaddr(en, off+2, u_short *)));
6471Sroot		if (off + resid > len)
6471Sroot			goto setup;		/* sanity */
6471Sroot		len = off + resid;
5083Swnj	} else
5083Swnj		off = 0;
5083Swnj	if (len == 0)
5083Swnj		goto setup;
13293Ssam#ifdef ENF_SWABIPS
13293Ssam	if (es->es_if.if_flags & ENF_SWABIPS && en->en_type == ENTYPE_IP)
13293Ssam		enswab((caddr_t)(en + 1), (caddr_t)(en + 1), len);
13293Ssam#endif
5105Swnj	/*
5105Swnj	 * Pull packet off interface.  Off is nonzero if packet
5105Swnj	 * has trailing header; if_rubaget will then force this header
5105Swnj	 * information to be at the front, but we still have to drop
6471Sroot	 * the type and length which are at the front of any trailer data.
5105Swnj	 */
24790Skarels	m = if_rubaget(&es->es_ifuba, len, off, &es->es_if);
5213Swnj	if (m == 0)
5213Swnj		goto setup;
5105Swnj	if (off) {
24790Skarels		struct ifnet *ifp;
24790Skarels
24790Skarels		ifp = *(mtod(m, struct ifnet **));
6471Sroot		m->m_off += 2 * sizeof (u_short);
6471Sroot		m->m_len -= 2 * sizeof (u_short);
24790Skarels		*(mtod(m, struct ifnet **)) = ifp;
5105Swnj	}
6027Ssam	switch (en->en_type) {
6027Ssam
6027Ssam#ifdef INET
12352Ssam	case ENTYPE_IP:
6260Swnj		schednetisr(NETISR_IP);
6027Ssam		inq = &ipintrq;
6027Ssam		break;
6027Ssam#endif
6335Ssam#ifdef PUP
13458Ssam	case ENTYPE_PUP:
13458Ssam		rpup_input(m);
6027Ssam		goto setup;
6335Ssam#endif
25610Ssklower#ifdef NS
25610Ssklower	case ETHERTYPE_NS:
25610Ssklower		if (es->es_nsactive) {
25610Ssklower			schednetisr(NETISR_NS);
25610Ssklower			inq = &nsintrq;
25610Ssklower		} else {
25610Ssklower			m_freem(m);
25610Ssklower			goto setup;
25610Ssklower		}
25610Ssklower		break;
25610Ssklower#endif
25610Ssklower
6476Swnj	default:
13458Ssam#ifdef notdef
13458Ssam		enproto.sp_protocol = en->en_type;
13458Ssam		endst.sen_host = en->en_dhost;
13458Ssam		endst.sen_net = ensrc.sen_net = es->es_if.if_net;
13458Ssam		ensrc.sen_host = en->en_shost;
13458Ssam		raw_input(m, &enproto,
13458Ssam		    (struct sockaddr *)&ensrc, (struct sockaddr *)&endst);
13458Ssam#else
6476Swnj		m_freem(m);
13458Ssam#endif
6476Swnj		goto setup;
6335Ssam	}
6335Ssam
16511Skarels	s = splimp();
6207Swnj	if (IF_QFULL(inq)) {
6207Swnj		IF_DROP(inq);
6335Ssam		m_freem(m);
6207Swnj	} else
6207Swnj		IF_ENQUEUE(inq, m);
16511Skarels	splx(s);
5105Swnj
4688Swnjsetup:
5105Swnj	/*
5105Swnj	 * Reset for next packet.
5105Swnj	 */
5105Swnj	addr->en_iba = es->es_ifuba.ifu_r.ifrw_info;
6925Swnj	addr->en_iwc = -(sizeof (struct en_header) + ENMRU) >> 1;
4771Swnj	addr->en_istat = EN_IEN|EN_GO;
4688Swnj}
4686Swnj
5083Swnj/*
5083Swnj * Ethernet output routine.
5083Swnj * Encapsulate a packet of type family for the local net.
5105Swnj * Use trailer local net encapsulation if enough data in first
5105Swnj * packet leaves a multiple of 512 bytes of data in remainder.
5083Swnj */
6335Ssamenoutput(ifp, m0, dst)
5083Swnj	struct ifnet *ifp;
5083Swnj	struct mbuf *m0;
6335Ssam	struct sockaddr *dst;
4686Swnj{
6503Ssam	int type, dest, s, error;
5105Swnj	register struct mbuf *m = m0;
5083Swnj	register struct en_header *en;
6335Ssam	register int off;
4686Swnj
25446Skarels	if ((ifp->if_flags & (IFF_UP|IFF_RUNNING)) != (IFF_UP|IFF_RUNNING)) {
25446Skarels		error = ENETDOWN;
25446Skarels		goto bad;
25446Skarels	}
6335Ssam	switch (dst->sa_family) {
5083Swnj
5083Swnj#ifdef INET
6335Ssam	case AF_INET:
19864Skarels		{
19864Skarels		struct in_addr in;
19864Skarels
19864Skarels		in = ((struct sockaddr_in *)dst)->sin_addr;
19864Skarels		if (in_broadcast(in))
19864Skarels			dest = EN_BROADCAST;
19864Skarels		else
19864Skarels			dest = in_lnaof(in);
19864Skarels		}
19864Skarels		if (dest >= 0x100) {
6503Ssam			error = EPERM;		/* ??? */
6486Swnj			goto bad;
6503Ssam		}
6335Ssam		off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len;
13054Ssam		/* need per host negotiation */
13054Ssam		if ((ifp->if_flags & IFF_NOTRAILERS) == 0)
6335Ssam		if (off > 0 && (off & 0x1ff) == 0 &&
6471Sroot		    m->m_off >= MMINOFF + 2 * sizeof (u_short)) {
12352Ssam			type = ENTYPE_TRAIL + (off>>9);
6471Sroot			m->m_off -= 2 * sizeof (u_short);
6471Sroot			m->m_len += 2 * sizeof (u_short);
12352Ssam			*mtod(m, u_short *) = htons((u_short)ENTYPE_IP);
12352Ssam			*(mtod(m, u_short *) + 1) = ntohs((u_short)m->m_len);
5105Swnj			goto gottrailertype;
5083Swnj		}
12352Ssam		type = ENTYPE_IP;
5105Swnj		off = 0;
5105Swnj		goto gottype;
5083Swnj#endif
25610Ssklower#ifdef NS
25610Ssklower	case AF_NS:
25610Ssklower	{
25610Ssklower		u_char *up;
25610Ssklower
25610Ssklower		type = ETHERTYPE_NS;
25610Ssklower		up = ((struct sockaddr_ns *)dst)->sns_addr.x_host.c_host;
25610Ssklower		if (*up & 1)
25610Ssklower			dest = EN_BROADCAST;
25610Ssklower		else
25610Ssklower			dest = up[5];
25610Ssklower
25610Ssklower		off = 0;
25610Ssklower		goto gottype;
25610Ssklower	}
25610Ssklower#endif
6027Ssam#ifdef PUP
6335Ssam	case AF_PUP:
12833Ssam		dest = ((struct sockaddr_pup *)dst)->spup_host;
12352Ssam		type = ENTYPE_PUP;
6027Ssam		off = 0;
6027Ssam		goto gottype;
6027Ssam#endif
6027Ssam
13458Ssam#ifdef notdef
13458Ssam	case AF_ETHERLINK:
13458Ssam		goto gotheader;
13458Ssam#endif
13458Ssam
5083Swnj	default:
6335Ssam		printf("en%d: can't handle af%d\n", ifp->if_unit,
6335Ssam			dst->sa_family);
6503Ssam		error = EAFNOSUPPORT;
6503Ssam		goto bad;
4686Swnj	}
5105Swnj
5171Swnjgottrailertype:
5105Swnj	/*
5105Swnj	 * Packet to be sent as trailer: move first packet
5105Swnj	 * (control information) to end of chain.
5105Swnj	 */
5105Swnj	while (m->m_next)
5105Swnj		m = m->m_next;
5105Swnj	m->m_next = m0;
5105Swnj	m = m0->m_next;
5105Swnj	m0->m_next = 0;
5171Swnj	m0 = m;
5105Swnj
5171Swnjgottype:
5105Swnj	/*
5105Swnj	 * Add local net header.  If no space in first mbuf,
5105Swnj	 * allocate another.
5105Swnj	 */
5213Swnj	if (m->m_off > MMAXOFF ||
5213Swnj	    MMINOFF + sizeof (struct en_header) > m->m_off) {
17559Skarels		MGET(m, M_DONTWAIT, MT_HEADER);
5083Swnj		if (m == 0) {
6503Ssam			error = ENOBUFS;
6503Ssam			goto bad;
5083Swnj		}
5083Swnj		m->m_next = m0;
5083Swnj		m->m_off = MMINOFF;
5083Swnj		m->m_len = sizeof (struct en_header);
5083Swnj	} else {
5083Swnj		m->m_off -= sizeof (struct en_header);
5083Swnj		m->m_len += sizeof (struct en_header);
5083Swnj	}
5083Swnj	en = mtod(m, struct en_header *);
16380Skarels	/* add en_shost later */
5083Swnj	en->en_dhost = dest;
12352Ssam	en->en_type = htons((u_short)type);
5105Swnj
24790Skarels#ifdef notdef
13458Ssamgotheader:
24790Skarels#endif
5105Swnj	/*
5105Swnj	 * Queue message on interface, and start output if interface
5105Swnj	 * not yet active.
5105Swnj	 */
5083Swnj	s = splimp();
6207Swnj	if (IF_QFULL(&ifp->if_snd)) {
6207Swnj		IF_DROP(&ifp->if_snd);
6503Ssam		error = ENOBUFS;
6503Ssam		goto qfull;
6207Swnj	}
5083Swnj	IF_ENQUEUE(&ifp->if_snd, m);
5083Swnj	if (en_softc[ifp->if_unit].es_oactive == 0)
5083Swnj		enstart(ifp->if_unit);
5275Swnj	splx(s);
6503Ssam	return (0);
6503Ssamqfull:
6503Ssam	m0 = m;
6503Ssam	splx(s);
6484Swnjbad:
6503Ssam	m_freem(m0);
6503Ssam	return (error);
4686Swnj}
13054Ssam
13054Ssam/*
13054Ssam * Process an ioctl request.
13054Ssam */
13054Ssamenioctl(ifp, cmd, data)
13054Ssam	register struct ifnet *ifp;
13054Ssam	int cmd;
13054Ssam	caddr_t data;
13054Ssam{
19864Skarels	register struct en_softc *es = ((struct en_softc *)ifp);
19864Skarels	struct ifaddr *ifa = (struct ifaddr *) data;
13054Ssam	int s = splimp(), error = 0;
19864Skarels	struct endevice *enaddr;
13054Ssam
13054Ssam	switch (cmd) {
13054Ssam
13054Ssam	case SIOCSIFADDR:
19864Skarels		enaddr = (struct endevice *)eninfo[ifp->if_unit]->ui_addr;
19864Skarels		es->es_host = (~enaddr->en_addr) & 0xff;
19864Skarels		/*
19864Skarels		 * Attempt to check agreement of protocol address
19864Skarels		 * and board address.
19864Skarels		 */
19864Skarels		switch (ifa->ifa_addr.sa_family) {
19864Skarels		case AF_INET:
19864Skarels			if (in_lnaof(IA_SIN(ifa)->sin_addr) != es->es_host)
19864Skarels				return (EADDRNOTAVAIL);
19864Skarels			break;
25610Ssklower#ifdef NS
25610Ssklower		case AF_NS:
25610Ssklower			if (IA_SNS(ifa)->sns_addr.x_host.c_host[5]
25610Ssklower							!= es->es_host)
25610Ssklower				return (EADDRNOTAVAIL);
25610Ssklower			es->es_nsactive = 1;
25610Ssklower			break;
25610Ssklower#endif
19864Skarels		}
19864Skarels		ifp->if_flags |= IFF_UP;
19864Skarels		if ((ifp->if_flags & IFF_RUNNING) == 0)
13054Ssam			eninit(ifp->if_unit);
13054Ssam		break;
13054Ssam
13054Ssam	default:
13054Ssam		error = EINVAL;
24790Skarels		break;
13054Ssam	}
13054Ssam	splx(s);
13054Ssam	return (error);
13054Ssam}
13054Ssam
13293Ssam#ifdef ENF_SWABIPS
13293Ssam/*
13293Ssam * Swab bytes
13293Ssam * Jeffrey Mogul, Stanford
13293Ssam */
13293Ssamenswab(from, to, n)
19864Skarels	register unsigned char *from, *to;
13293Ssam	register int n;
13293Ssam{
13293Ssam	register unsigned long temp;
19864Skarels
19864Skarels	if ((n <= 0) || (n > 0xFFFF)) {
19864Skarels		printf("enswab: bad len %d\n", n);
19864Skarels		return;
19864Skarels	}
13293Ssam
13293Ssam	n >>= 1; n++;
19864Skarels#define	STEP	{temp = *from++;*to++ = *from++;*to++ = temp;}
13293Ssam	/* round to multiple of 8 */
13293Ssam	while ((--n) & 07)
13293Ssam		STEP;
13293Ssam	n >>= 3;
13293Ssam	while (--n >= 0) {
13293Ssam		STEP; STEP; STEP; STEP;
13293Ssam		STEP; STEP; STEP; STEP;
13293Ssam	}
13293Ssam}
13293Ssam#endif
25272Sbloom#endif