vax/if/if_vv.c

23305Smckusick/*
23305Smckusick * Copyright (c) 1982 Regents of the University of California.
23305Smckusick * All rights reserved.  The Berkeley software License Agreement
23305Smckusick * specifies the terms and conditions for redistribution.
23305Smckusick *
*25194Skarels *	@(#)if_vv.c	6.12 (Berkeley) 10/14/85
23305Smckusick */
7024Ssam
9799Ssam#include "vv.h"
11192Ssam
7024Ssam/*
20997Skarels * Proteon proNET-10 and proNET-80 token ring driver.
20997Skarels * The name of this device driver derives from the old MIT
20997Skarels * name of V2LNI for the proNET hardware, would would abbreviate
20997Skarels * to "v2", but this won't work right. Thus the name is "vv".
11192Ssam *
20997Skarels * This driver is compatible with the proNET 10 meagbit and
20997Skarels * 80 megabit token ring interfaces (models p1000 and p1080).
20997Skarels *
20997Skarels * TRAILERS: You must turn off trailers via ifconfig if you want to share
20997Skarels * a ring with software using the following protocol types:
20997Skarels *  3: Address Resolution Protocol
20997Skarels *  4: HDLC (old Proteon drivers)
20997Skarels *  5: VAX Debugging Protocol (never used)
20997Skarels * This is because the protocol type values chosen for trailers
20997Skarels * conflict with these protocols. It's too late to change either now.
20997Skarels *
20997Skarels * HARDWARE COMPATABILITY: This driver requires that the HSBU (p1001)
20997Skarels * have a serial number >= 040, which is about March, 1982. Older
20997Skarels * HSBUs do not carry across 64kbyte boundaries. The old warning
20997Skarels * about use without Wire Centers applies only to CTL (p1002) cards with
20997Skarels * serial <= 057, which have not received ECO 176-743, which was
20997Skarels * implemented in March, 1982. Most such CTLs have received this ECO,
20997Skarels * but they are only compatible with the old HSBUs (<=039) anyways.
7024Ssam */
11209Ssam#include "../machine/pte.h"
9799Ssam
17117Sbloom#include "param.h"
17117Sbloom#include "systm.h"
17117Sbloom#include "mbuf.h"
17117Sbloom#include "buf.h"
17117Sbloom#include "protosw.h"
17117Sbloom#include "socket.h"
17117Sbloom#include "vmmac.h"
17117Sbloom#include "errno.h"
17117Sbloom#include "ioctl.h"
8465Sroot
8465Sroot#include "../net/if.h"
11209Ssam#include "../net/netisr.h"
8465Sroot#include "../net/route.h"
24793Skarels
24793Skarels#ifdef	BBNNET
24793Skarels#define	INET
24793Skarels#endif
24793Skarels#ifdef	INET
8421Swnj#include "../netinet/in.h"
8421Swnj#include "../netinet/in_systm.h"
21779Skarels#include "../netinet/in_var.h"
8421Swnj#include "../netinet/ip.h"
24793Skarels#endif
8465Sroot
15794Sleres#include "../vax/cpu.h"
11209Ssam#include "../vax/mtpr.h"
17117Sbloom#include "if_vv.h"
17117Sbloom#include "if_uba.h"
8465Sroot#include "../vaxuba/ubareg.h"
8465Sroot#include "../vaxuba/ubavar.h"
7024Ssam
7024Ssam/*
20997Skarels * 80 megabit configuration
20997Skarels * Uncomment the next line if you are using the 80 megabit system. The
20997Skarels * only change is the disposition of packets with parity/link_data_error
20997Skarels * indication.
7024Ssam */
20997Skarels/* #define PRONET80 */
7024Ssam
20997Skarels/*
20997Skarels *    maximum transmission unit definition --
20997Skarels *        you can set VVMTU at anything from 576 to 2024.
20997Skarels *        1536 is a popular "large" value, because it is a multiple
20997Skarels *	  of 512, which the trailer scheme likes.
20997Skarels *        The absolute maximum size is 2024, which is enforced.
20997Skarels */
20997Skarels
24793Skarels#define VVMTU (1536)
20997Skarels
20997Skarels#define VVMRU (VVMTU + 16)
20997Skarels#define VVBUFSIZE (VVMRU + sizeof(struct vv_header))
20997Skarels#if VVMTU>2024
20997Skarels#undef VVMTU
20997Skarels#undef VVMRU
20997Skarels#undef VVBUFSIZE
20997Skarels#define VVBUFSIZE (2046)
20997Skarels#define VVMRU (VVBUFSIZE - sizeof (struct vv_header))
20997Skarels#define VVMTU (VVMRU - 16)
7024Ssam#endif
7024Ssam
20997Skarels/*
20997Skarels *   debugging and tracing stuff
20997Skarels */
16581Skarelsint	vv_tracehdr = 0;	/* 1 => trace headers (slowly!!) */
7640Ssam
20997Skarels#define vvtracehdr  if (vv_tracehdr) vvprt_hdr
21779Skarels#define vvprintf    if (vs->vs_if.if_flags & IFF_DEBUG) printf
11192Ssam
20997Skarels/*
20997Skarels * externals, types, etc.
20997Skarels */
16581Skarelsint	vvprobe(), vvattach(), vvreset(), vvinit();
16581Skarelsint	vvidentify(), vvstart(), vvxint(), vvwatchdog();
16581Skarelsint	vvrint(), vvoutput(), vvioctl(), vvsetaddr();
7024Ssamstruct	uba_device *vvinfo[NVV];
7024Ssamu_short vvstd[] = { 0 };
7024Ssamstruct	uba_driver vvdriver =
7024Ssam	{ vvprobe, 0, vvattach, 0, vvstd, "vv", vvinfo };
7024Ssam#define	VVUNIT(x)	minor(x)
7024Ssam
20997Skarels#define LOOPBACK		/* use loopback for packets meant for us */
20997Skarels#ifdef	LOOPBACK
20997Skarelsextern struct ifnet loif;
20997Skarels#endif
20997Skarels
7024Ssam/*
7024Ssam * Software status of each interface.
7024Ssam *
7024Ssam * Each interface is referenced by a network interface structure,
7024Ssam * vs_if, which the routing code uses to locate the interface.
7024Ssam * This structure contains the output queue for the interface, its address, ...
7024Ssam * We also have, for each interface, a UBA interface structure, which
7024Ssam * contains information about the UNIBUS resources held by the interface:
7024Ssam * map registers, buffered data paths, etc.  Information is cached in this
7024Ssam * structure for use by the if_uba.c routines in running the interface
7024Ssam * efficiently.
7024Ssam */
7024Ssamstruct	vv_softc {
7024Ssam	struct	ifnet vs_if;		/* network-visible interface */
7024Ssam	struct	ifuba vs_ifuba;		/* UNIBUS resources */
21779Skarels	int	vs_host;
11192Ssam	short	vs_oactive;		/* is output active */
7024Ssam	short	vs_olen;		/* length of last output */
15794Sleres	u_short	vs_lastx;		/* address of last packet sent */
15794Sleres	u_short	vs_lastr;		/* address of last packet received */
11192Ssam	short	vs_tries;		/* transmit current retry count */
7024Ssam	short	vs_init;		/* number of ring inits */
20997Skarels	short	vs_refused;		/* number of packets refused */
15794Sleres	short	vs_timeouts;		/* number of transmit timeouts */
20997Skarels	short	vs_otimeout;		/* number of output timeouts */
20997Skarels	short	vs_ibadf;		/* number of input bad formats */
20997Skarels	short	vs_parity;		/* number of parity errors on 10 meg, */
20997Skarels					/* link data errors on 80 meg */
7024Ssam} vv_softc[NVV];
7024Ssam
20997Skarels/*
20997Skarels * probe the interface to see that the registers exist, and then
20997Skarels * cause an interrupt to find its vector
20997Skarels */
7024Ssamvvprobe(reg)
7024Ssam	caddr_t reg;
7024Ssam{
7024Ssam	register int br, cvec;
16581Skarels	register struct vvreg *addr;
7024Ssam
7024Ssam#ifdef lint
15764Sleres	br = 0; cvec = br; br = cvec;
7024Ssam#endif
16581Skarels	addr = (struct vvreg *)reg;
20997Skarels
7024Ssam	/* reset interface, enable, and wait till dust settles */
7024Ssam	addr->vvicsr = VV_RST;
7024Ssam	addr->vvocsr = VV_RST;
15764Sleres	DELAY(100000);
20997Skarels
7024Ssam	/* generate interrupt by doing 1 word DMA from 0 in uba space!! */
7024Ssam	addr->vvoba = 0;		/* low 16 bits */
7024Ssam	addr->vvoea = 0;		/* extended bits */
7024Ssam	addr->vvowc = -1;		/* for 1 word */
20997Skarels	addr->vvocsr = VV_IEN | VV_DEN;	/* start the DMA, with interrupt */
7024Ssam	DELAY(100000);
20997Skarels	addr->vvocsr = VV_RST;		/* clear out the CSR */
7024Ssam	if (cvec && cvec != 0x200)
15764Sleres		cvec -= 4;		/* backup so vector => receive */
7024Ssam	return(1);
7024Ssam}
7024Ssam
7024Ssam/*
7024Ssam * Interface exists: make available by filling in network interface
7024Ssam * record.  System will initialize the interface when it is ready
7024Ssam * to accept packets.
7024Ssam */
7024Ssamvvattach(ui)
7024Ssam	struct uba_device *ui;
7024Ssam{
15764Sleres	register struct vv_softc *vs;
7024Ssam
15764Sleres	vs = &vv_softc[ui->ui_unit];
7024Ssam	vs->vs_if.if_unit = ui->ui_unit;
7024Ssam	vs->vs_if.if_name = "vv";
7024Ssam	vs->vs_if.if_mtu = VVMTU;
21779Skarels	vs->vs_if.if_flags = IFF_BROADCAST;
7024Ssam	vs->vs_if.if_init = vvinit;
13057Ssam	vs->vs_if.if_ioctl = vvioctl;
7024Ssam	vs->vs_if.if_output = vvoutput;
11209Ssam	vs->vs_if.if_reset = vvreset;
15794Sleres	vs->vs_if.if_timer = 0;
15794Sleres	vs->vs_if.if_watchdog = vvwatchdog;
7640Ssam	vs->vs_ifuba.ifu_flags = UBA_CANTWAIT | UBA_NEEDBDP | UBA_NEED16;
12354Smo#if defined(VAX750)
12354Smo	/* don't chew up 750 bdp's */
12354Smo	if (cpu == VAX_750 && ui->ui_unit > 0)
12354Smo		vs->vs_ifuba.ifu_flags &= ~UBA_NEEDBDP;
12354Smo#endif
7024Ssam	if_attach(&vs->vs_if);
7024Ssam}
7024Ssam
7024Ssam/*
7024Ssam * Reset of interface after UNIBUS reset.
7024Ssam * If interface is on specified uba, reset its state.
7024Ssam */
7024Ssamvvreset(unit, uban)
7024Ssam	int unit, uban;
7024Ssam{
7024Ssam	register struct uba_device *ui;
7024Ssam
7024Ssam	if (unit >= NVV || (ui = vvinfo[unit]) == 0 || ui->ui_alive == 0 ||
7024Ssam	    ui->ui_ubanum != uban)
7024Ssam		return;
7024Ssam	printf(" vv%d", unit);
7024Ssam	vvinit(unit);
7024Ssam}
7024Ssam
7024Ssam/*
7024Ssam * Initialization of interface; clear recorded pending
7024Ssam * operations, and reinitialize UNIBUS usage.
7024Ssam */
7024Ssamvvinit(unit)
7024Ssam	int unit;
7024Ssam{
15764Sleres	register struct vv_softc *vs;
15764Sleres	register struct uba_device *ui;
7024Ssam	register struct vvreg *addr;
16581Skarels	register int ubainfo, s;
7024Ssam
15764Sleres	vs = &vv_softc[unit];
15764Sleres	ui = vvinfo[unit];
20997Skarels
21779Skarels	if (vs->vs_if.if_addrlist == (struct ifaddr *)0)
13057Ssam		return;
20997Skarels
7640Ssam	addr = (struct vvreg *)ui->ui_addr;
7024Ssam	if (if_ubainit(&vs->vs_ifuba, ui->ui_ubanum,
15764Sleres	    sizeof (struct vv_header), (int)btoc(VVMTU)) == 0) {
15794Sleres		printf("vv%d: can't initialize, if_ubainit() failed\n", unit);
7640Ssam		vs->vs_if.if_flags &= ~IFF_UP;
7024Ssam		return;
7024Ssam	}
20997Skarels
7024Ssam	/*
15764Sleres	 * Now that the uba is set up, figure out our address and
15764Sleres	 * update complete our host address.
7640Ssam	 */
21779Skarels	if ((vs->vs_host = vvidentify(unit)) == -1) {
15794Sleres		vs->vs_if.if_flags &= ~IFF_UP;
15794Sleres		return;
15794Sleres	}
21779Skarels	printf("vv%d: host %d\n", unit, vs->vs_host);
20997Skarels
7640Ssam	/*
20997Skarels	 * Reset the interface, and stay in the ring
7640Ssam	 */
20997Skarels	addr->vvocsr = VV_RST;			/* take over output */
20997Skarels	addr->vvocsr = VV_CPB;			/* clear packet buffer */
20997Skarels	addr->vvicsr = VV_RST | VV_HEN;		/* take over input, */
20997Skarels						/* keep relay closed */
12351Smo	DELAY(500000);				/* let contacts settle */
20997Skarels
20997Skarels	vs->vs_init = 0;			/* clear counters, etc. */
20997Skarels	vs->vs_refused = 0;
15794Sleres	vs->vs_timeouts = 0;
20997Skarels	vs->vs_otimeout = 0;
20997Skarels	vs->vs_ibadf = 0;
20997Skarels	vs->vs_parity = 0;
15794Sleres	vs->vs_lastx = 256;			/* an invalid address */
15794Sleres	vs->vs_lastr = 256;			/* an invalid address */
20997Skarels
7640Ssam	/*
7640Ssam	 * Hang a receive and start any
7640Ssam	 * pending writes by faking a transmit complete.
7640Ssam	 */
7640Ssam	s = splimp();
7640Ssam	ubainfo = vs->vs_ifuba.ifu_r.ifrw_info;
13057Ssam	addr->vviba = (u_short)ubainfo;
13057Ssam	addr->vviea = (u_short)(ubainfo >> 16);
20997Skarels	addr->vviwc = -(VVBUFSIZE) >> 1;
20997Skarels	addr->vvicsr = VV_IEN | VV_HEN | VV_DEN | VV_ENB;
7640Ssam	vs->vs_oactive = 1;
21779Skarels	vs->vs_if.if_flags |= IFF_RUNNING;
7640Ssam	vvxint(unit);
7640Ssam	splx(s);
7640Ssam}
7640Ssam
7640Ssam/*
20997Skarels * Do a moderately thorough self-test in all three modes. Mostly
20997Skarels * to keeps defective nodes off the ring, rather than to be especially
20997Skarels * thorough. The key issue is to detect any cable breaks before joining
20997Skarels * the ring. Return our node address on success, return -1 on failure.
20997Skarels *
7640Ssam */
20997Skarels
20997Skarels/* the three self-test modes */
20997Skarelsstatic u_short vv_modes[] = {
20997Skarels	VV_STE|VV_LPB,			/* digital loopback */
20997Skarels	VV_STE,				/* analog loopback */
20997Skarels	VV_HEN				/* network mode */
20997Skarels};
20997Skarels
11209Ssamvvidentify(unit)
13057Ssam	int unit;
11209Ssam{
15764Sleres	register struct vv_softc *vs;
15764Sleres	register struct uba_device *ui;
7640Ssam	register struct vvreg *addr;
16581Skarels	register struct mbuf *m;
16581Skarels	register struct vv_header *v;
20997Skarels	register int ubainfo;
20997Skarels	register int i, successes, failures, waitcount;
20997Skarels	u_short shost = -1;
7640Ssam
20997Skarels	vs = &vv_softc[unit];
20997Skarels	ui = vvinfo[unit];
20997Skarels	addr = (struct vvreg *)ui->ui_addr;
20997Skarels
7640Ssam	/*
7024Ssam	 * Build a multicast message to identify our address
20997Skarels	 * We need do this only once, since nobody else is about to use
20997Skarels	 * the intermediate transmit buffer (ifu_w.ifrw_addr) that
20997Skarels	 * if_ubainit() aquired for us.
7024Ssam	 */
11209Ssam	m = m_get(M_DONTWAIT, MT_HEADER);
15794Sleres	if (m == NULL) {
15794Sleres		printf("vv%d: can't initialize, m_get() failed\n", unit);
13057Ssam		return (0);
15794Sleres	}
11192Ssam	m->m_next = 0;
7024Ssam	m->m_off = MMINOFF;
7024Ssam	m->m_len = sizeof(struct vv_header);
7024Ssam	v = mtod(m, struct vv_header *);
11192Ssam	v->vh_dhost = VV_BROADCAST;	/* multicast destination address */
7024Ssam	v->vh_shost = 0;		/* will be overwritten with ours */
7024Ssam	v->vh_version = RING_VERSION;
20997Skarels	v->vh_type = RING_DIAGNOSTICS;
7024Ssam	v->vh_info = 0;
20997Skarels	/* map xmit message into uba, copying to intermediate buffer */
20997Skarels	vs->vs_olen = if_wubaput(&vs->vs_ifuba, m);
20997Skarels
7024Ssam	/*
20997Skarels	 * For each of the modes (digital, analog, network), go through
20997Skarels	 * a self-test that requires me to send VVIDENTSUCC good packets
20997Skarels	 * in VVIDENTRETRY attempts. Use broadcast destination to find out
20997Skarels	 * who I am, then use this as my address to check my address match
20997Skarels	 * logic. Only data checked is the vh_type field.
7024Ssam	 */
7640Ssam
20997Skarels	for (i = 0; i < 3; i++) {
20997Skarels		successes = 0;	/* clear successes for this mode */
20997Skarels		failures = 0;	/* and clear failures, too */
7640Ssam
20997Skarels		/* take over device, and leave ring */
20997Skarels		addr->vvicsr = VV_RST;
20997Skarels		addr->vvocsr = VV_RST;
20997Skarels		addr->vvicsr = vv_modes[i];	/* test mode */
20997Skarels
20997Skarels		/*
20997Skarels		 * let the flag and token timers pop so that the init ring bit
20997Skarels		 * will be allowed to work, by waiting about 1 second
20997Skarels		 */
20997Skarels		DELAY(1000000L);
20997Skarels
20997Skarels		/*
20997Skarels		 * retry loop
20997Skarels 		 */
20997Skarels		while ((successes < VVIDENTSUCC) && (failures < VVIDENTRETRY))
20997Skarels		{
20997Skarels			/* start a receive */
20997Skarels			ubainfo = vs->vs_ifuba.ifu_r.ifrw_info;
20997Skarels			addr->vvicsr = VV_RST | vv_modes[i]; /* abort last */
20997Skarels			addr->vviba = (u_short) ubainfo;
20997Skarels			addr->vviea = (u_short) (ubainfo >> 16);
20997Skarels			addr->vviwc = -(VVBUFSIZE) >> 1;
20997Skarels			addr->vvicsr = vv_modes[i] | VV_DEN | VV_ENB;
20997Skarels
20997Skarels			/* purge stale data from BDP */
20997Skarels			if (vs->vs_ifuba.ifu_flags & UBA_NEEDBDP)
20997Skarels				UBAPURGE(vs->vs_ifuba.ifu_uba,
20997Skarels				    vs->vs_ifuba.ifu_w.ifrw_bdp);
20997Skarels
20997Skarels			/* do a transmit */
20997Skarels			ubainfo = vs->vs_ifuba.ifu_w.ifrw_info;
20997Skarels			addr->vvocsr = VV_RST;	/* abort last try */
20997Skarels			addr->vvoba = (u_short) ubainfo;
20997Skarels			addr->vvoea = (u_short) (ubainfo >> 16);
20997Skarels			addr->vvowc = -((vs->vs_olen + 1) >> 1);
20997Skarels			addr->vvocsr = VV_CPB | VV_DEN | VV_INR | VV_ENB;
20997Skarels
20997Skarels			/* poll receive side for completion */
20997Skarels			DELAY(10000);		/* give it a chance */
20997Skarels			for (waitcount = 0; waitcount < 10; waitcount++) {
20997Skarels				if (addr->vvicsr & VV_RDY)
20997Skarels					goto gotit;
20997Skarels				DELAY(1000);
20997Skarels			}
20997Skarels			failures++;		/* no luck */
11209Ssam			continue;
20997Skarels
20997Skarelsgotit:			/* we got something--is it any good? */
20997Skarels			if ((addr->vvicsr & (VVRERR|VV_LDE)) ||
21779Skarels			    (addr->vvocsr & (VVXERR|VV_RFS))) {
20997Skarels				failures++;
20997Skarels				continue;
20997Skarels			}
20997Skarels
20997Skarels			/* Purge BDP before looking at received packet */
20997Skarels			if (vs->vs_ifuba.ifu_flags & UBA_NEEDBDP)
20997Skarels				UBAPURGE(vs->vs_ifuba.ifu_uba,
20997Skarels				    vs->vs_ifuba.ifu_r.ifrw_bdp);
24793Skarels			m = if_rubaget(&vs->vs_ifuba, sizeof(struct vv_header),
24793Skarels				0, 0);
20997Skarels			if (m != NULL)
20997Skarels				m_freem(m);
20997Skarels
20997Skarels			v = (struct vv_header *)(vs->vs_ifuba.ifu_r.ifrw_addr);
20997Skarels
20997Skarels			/* check message type, catch our node address */
20997Skarels			if ((v->vh_type & 0xff) == RING_DIAGNOSTICS) {
20997Skarels				if (shost == -1) {
20997Skarels					shost = v->vh_shost & 0xff;
20997Skarels					/* send to ourself now */
20997Skarels					((struct vv_header *)
20997Skarels					    (vs->vs_ifuba.ifu_r.ifrw_addr))
20997Skarels					    ->vh_dhost = shost;
20997Skarels				}
20997Skarels				successes++;
20997Skarels				v->vh_type = 0;  /* clear to check again */
20997Skarels			}
11192Ssam		}
20997Skarels
20997Skarels		if (failures >= VVIDENTRETRY)
20997Skarels		{
20997Skarels			printf("vv%d: failed self-test after %d tries \
20997Skarelsin %s mode\n",
20997Skarels			    unit, VVIDENTRETRY, i == 0 ? "digital loopback" :
20997Skarels			    (i == 1 ? "analog loopback" : "network"));
20997Skarels			printf("vv%d: icsr = %b, ocsr = %b\n",
20997Skarels			    unit, 0xffff & addr->vvicsr, VV_IBITS,
20997Skarels			    0xffff & addr->vvocsr, VV_OBITS);
20997Skarels			addr->vvicsr = VV_RST;	/* kill the sick board */
20997Skarels			addr->vvocsr = VV_RST;
20997Skarels			shost = -1;
20997Skarels			goto done;
20997Skarels		}
11192Ssam	}
20997Skarels
20997Skarelsdone:
20997Skarels	/* deallocate mbuf used for send packet (won't be one, anyways) */
15794Sleres	if (vs->vs_ifuba.ifu_xtofree) {
7024Ssam		m_freem(vs->vs_ifuba.ifu_xtofree);
15794Sleres		vs->vs_ifuba.ifu_xtofree = 0;
15794Sleres	}
20997Skarels
20997Skarels	return(shost);
7024Ssam}
7024Ssam
7024Ssam/*
7024Ssam * Start or restart output on interface.
11192Ssam * If interface is active, this is a retransmit, so just
11192Ssam * restuff registers and go.
7024Ssam * If interface is not already active, get another datagram
7024Ssam * to send off of the interface queue, and map it to the interface
7024Ssam * before starting the output.
7024Ssam */
7024Ssamvvstart(dev)
7024Ssam	dev_t dev;
7024Ssam{
16581Skarels	register struct uba_device *ui;
15764Sleres	register struct vv_softc *vs;
7024Ssam	register struct vvreg *addr;
16581Skarels	register struct mbuf *m;
16581Skarels	register int unit, ubainfo, dest, s;
7024Ssam
16581Skarels	unit = VVUNIT(dev);
15764Sleres	ui = vvinfo[unit];
15764Sleres	vs = &vv_softc[unit];
7024Ssam	if (vs->vs_oactive)
7024Ssam		goto restart;
7024Ssam	/*
7024Ssam	 * Not already active: dequeue another request
7024Ssam	 * and map it to the UNIBUS.  If no more requests,
7024Ssam	 * just return.
7024Ssam	 */
15794Sleres	s = splimp();
7024Ssam	IF_DEQUEUE(&vs->vs_if.if_snd, m);
15794Sleres	splx(s);
11209Ssam	if (m == NULL) {
7024Ssam		vs->vs_oactive = 0;
7024Ssam		return;
7024Ssam	}
7024Ssam	dest = mtod(m, struct vv_header *)->vh_dhost;
7024Ssam	vs->vs_olen = if_wubaput(&vs->vs_ifuba, m);
7024Ssam	vs->vs_lastx = dest;
7024Ssamrestart:
7024Ssam	/*
7024Ssam	 * Have request mapped to UNIBUS for transmission.
15794Sleres	 * Purge any stale data from this BDP, and start the output.
15794Sleres	 *
15794Sleres	 * Make sure this packet will fit in the interface.
7024Ssam	 */
20997Skarels	if (vs->vs_olen > VVBUFSIZE) {
20997Skarels		printf("vv%d vs_olen: %d > VVBUFSIZE\n", unit, vs->vs_olen);
11192Ssam		panic("vvdriver vs_olen botch");
11192Ssam	}
20997Skarels
20997Skarels	vs->vs_if.if_timer = VVTIMEOUT;
20997Skarels	vs->vs_oactive = 1;
20997Skarels
20997Skarels	/* ship it */
7024Ssam	if (vs->vs_ifuba.ifu_flags & UBA_NEEDBDP)
7024Ssam		UBAPURGE(vs->vs_ifuba.ifu_uba, vs->vs_ifuba.ifu_w.ifrw_bdp);
7024Ssam	addr = (struct vvreg *)ui->ui_addr;
7024Ssam	ubainfo = vs->vs_ifuba.ifu_w.ifrw_info;
7024Ssam	addr->vvoba = (u_short) ubainfo;
7024Ssam	addr->vvoea = (u_short) (ubainfo >> 16);
7024Ssam	addr->vvowc = -((vs->vs_olen + 1) >> 1);
20997Skarels	addr->vvowc = -((vs->vs_olen + 1) >> 1); /* extra byte is garbage */
20997Skarels	if (addr->vvocsr & VV_NOK)
20997Skarels		vs->vs_init++;			/* count ring inits */
7024Ssam	addr->vvocsr = VV_IEN | VV_CPB | VV_DEN | VV_INR | VV_ENB;
15794Sleres	vs->vs_if.if_timer = VVTIMEOUT;
7024Ssam	vs->vs_oactive = 1;
7024Ssam}
7024Ssam
7024Ssam/*
20997Skarels * proNET transmit interrupt
7024Ssam * Start another output if more data to send.
7024Ssam */
7024Ssamvvxint(unit)
7024Ssam	int unit;
7024Ssam{
15764Sleres	register struct uba_device *ui;
15764Sleres	register struct vv_softc *vs;
7024Ssam	register struct vvreg *addr;
7024Ssam	register int oc;
7024Ssam
15764Sleres	ui = vvinfo[unit];
15764Sleres	vs = &vv_softc[unit];
15794Sleres	vs->vs_if.if_timer = 0;
7024Ssam	addr = (struct vvreg *)ui->ui_addr;
7024Ssam	oc = 0xffff & (addr->vvocsr);
7024Ssam	if (vs->vs_oactive == 0) {
20997Skarels		vvprintf("vv%d: stray interrupt vvocsr = %b\n", unit,
15764Sleres		    oc, VV_OBITS);
7024Ssam		return;
7024Ssam	}
20997Skarels
20997Skarels	/*
20997Skarels	 * we retransmit on soft error
20997Skarels	 * TODO: sort retransmits to end of queue if possible!
20997Skarels	 */
20997Skarels	if (oc & (VV_OPT | VV_RFS)) {
11192Ssam		if (vs->vs_tries++ < VVRETRY) {
7024Ssam			if (oc & VV_OPT)
20997Skarels				vs->vs_otimeout++;
20997Skarels			if (oc & VV_RFS) {
20997Skarels				vs->vs_if.if_collisions++;
20997Skarels				vs->vs_refused++;
20997Skarels			}
11192Ssam			vvstart(unit);		/* restart this message */
7024Ssam			return;
7024Ssam		}
7024Ssam	}
7024Ssam	vs->vs_if.if_opackets++;
7024Ssam	vs->vs_oactive = 0;
7024Ssam	vs->vs_tries = 0;
20997Skarels
7024Ssam	if (oc & VVXERR) {
7024Ssam		vs->vs_if.if_oerrors++;
20997Skarels		vvprintf("vv%d: error vvocsr = %b\n", unit, 0xffff & oc,
15764Sleres		    VV_OBITS);
7024Ssam	}
7024Ssam	if (vs->vs_ifuba.ifu_xtofree) {
7024Ssam		m_freem(vs->vs_ifuba.ifu_xtofree);
7024Ssam		vs->vs_ifuba.ifu_xtofree = 0;
7024Ssam	}
7024Ssam	vvstart(unit);
7024Ssam}
7024Ssam
7024Ssam/*
15794Sleres * Transmit watchdog timer routine.
15794Sleres * This routine gets called when we lose a transmit interrupt.
15794Sleres * The best we can do is try to restart output.
15794Sleres */
15794Sleresvvwatchdog(unit)
15794Sleres	int unit;
15794Sleres{
15794Sleres	register struct vv_softc *vs;
15794Sleres	register int s;
15794Sleres
15794Sleres	vs = &vv_softc[unit];
20997Skarels	vvprintf("vv%d: lost a transmit interrupt.\n", unit);
15794Sleres	vs->vs_timeouts++;
15794Sleres	s = splimp();
15794Sleres	vvstart(unit);
15794Sleres	splx(s);
15794Sleres}
15794Sleres
15794Sleres/*
20997Skarels * proNET interface receiver interrupt.
7024Ssam * If input error just drop packet.
15764Sleres * Otherwise purge input buffered data path and examine
7024Ssam * packet to determine type.  If can't determine length
15764Sleres * from type, then have to drop packet.  Otherwise decapsulate
7024Ssam * packet based on type and pass to type specific higher-level
7024Ssam * input routine.
7024Ssam */
7024Ssamvvrint(unit)
7024Ssam	int unit;
7024Ssam{
15764Sleres	register struct vv_softc *vs;
16581Skarels	register struct vvreg *addr;
7024Ssam	register struct vv_header *vv;
7024Ssam	register struct ifqueue *inq;
16581Skarels	register struct mbuf *m;
15794Sleres	int ubainfo, len, off, s;
7640Ssam	short resid;
7024Ssam
15764Sleres	vs = &vv_softc[unit];
16581Skarels	vs->vs_if.if_ipackets++;
15764Sleres	addr = (struct vvreg *)vvinfo[unit]->ui_addr;
20997Skarels
7024Ssam	/*
7024Ssam	 * Purge BDP; drop if input error indicated.
7024Ssam	 */
7024Ssam	if (vs->vs_ifuba.ifu_flags & UBA_NEEDBDP)
7024Ssam		UBAPURGE(vs->vs_ifuba.ifu_uba, vs->vs_ifuba.ifu_r.ifrw_bdp);
20997Skarels
20997Skarels	/*
20997Skarels	 * receive errors?
20997Skarels	 */
7024Ssam	if (addr->vvicsr & VVRERR) {
20997Skarels		vvprintf("vv%d: receive error, vvicsr = %b\n", unit,
20997Skarels		    0xffff&(addr->vvicsr), VV_IBITS);
20997Skarels		if (addr->vvicsr & VV_BDF)
20997Skarels			vs->vs_ibadf++;
7640Ssam		goto dropit;
7024Ssam	}
7640Ssam
7024Ssam	/*
20997Skarels	 * parity errors?
20997Skarels	 */
20997Skarels	if (addr->vvicsr & VV_LDE) {
20997Skarels		/* we don't have to clear it because the receive command */
20997Skarels		/* writes 0 to parity bit */
20997Skarels		vs->vs_parity++;
20997Skarels#ifndef PRONET80
20997Skarels		/*
20997Skarels		 * only on 10 megabit proNET is VV_LDE an end-to-end parity
20997Skarels		 * bit. On 80 megabit, it returns to the intended use of
20997Skarels		 * node-to-node parity. End-to-end parity errors on 80 megabit
20997Skarels		 * give VV_BDF.
20997Skarels		 */
20997Skarels		goto dropit;
20997Skarels#endif
20997Skarels	}
20997Skarels
20997Skarels	/*
20997Skarels	 * Get packet length from residual word count
7640Ssam	 *
7640Ssam	 * Compute header offset if trailer protocol
7640Ssam	 *
7640Ssam	 * Pull packet off interface.  Off is nonzero if packet
7640Ssam	 * has trailing header; if_rubaget will then force this header
7640Ssam	 * information to be at the front.  The vh_info field
7640Ssam	 * carries the offset to the trailer data in trailer
7640Ssam	 * format packets.
7024Ssam	 */
7640Ssam	vv = (struct vv_header *)(vs->vs_ifuba.ifu_r.ifrw_addr);
11192Ssam	vvtracehdr("vi", vv);
20997Skarels	resid = addr->vviwc & 01777;	/* only low 10 bits valid */
7640Ssam	if (resid)
20997Skarels		resid |= 0176000;	/* high 6 bits are undefined */
20997Skarels	len = ((VVBUFSIZE >> 1) + resid) << 1;
7640Ssam	len -= sizeof(struct vv_header);
20997Skarels
20997Skarels	if ((addr->vvicsr & VV_DPR) || len > VVMRU || len <= 0) {
20997Skarels		vvprintf("vv%d: len too long or short, \
20997Skarelslen = %d, vvicsr = %b\n",
15794Sleres			    unit, len, 0xffff&(addr->vvicsr), VV_IBITS);
7640Ssam		goto dropit;
15794Sleres	}
20997Skarels
20997Skarels	/* check the protocol header version */
20997Skarels	if (vv->vh_version != RING_VERSION) {
20997Skarels		vvprintf("vv%d: bad protocol header version %d\n",
20997Skarels		    unit, vv->vh_version & 0xff);
20997Skarels		goto dropit;
20997Skarels	}
20997Skarels
7640Ssam#define	vvdataaddr(vv, off, type)	((type)(((caddr_t)((vv)+1)+(off))))
13057Ssam	if (vv->vh_type >= RING_IPTrailer &&
13057Ssam	     vv->vh_type < RING_IPTrailer+RING_IPNTrailer) {
7640Ssam		off = (vv->vh_type - RING_IPTrailer) * 512;
15794Sleres		if (off > VVMTU) {
20997Skarels			vvprintf("vv%d: off > VVMTU, off = %d, vvicsr = %b\n",
15794Sleres				    unit, off, 0xffff&(addr->vvicsr), VV_IBITS);
7640Ssam			goto dropit;
15794Sleres		}
7640Ssam		vv->vh_type = *vvdataaddr(vv, off, u_short *);
7640Ssam		resid = *(vvdataaddr(vv, off+2, u_short *));
15794Sleres		if (off + resid > len) {
20997Skarels			vvprintf("vv%d: trailer packet too short\n", unit);
20997Skarels			vvprintf("vv%d: off = %d, resid = %d, vvicsr = %b\n",
15794Sleres				    unit, off, resid,
15794Sleres				    0xffff&(addr->vvicsr), VV_IBITS);
7640Ssam			goto dropit;
15794Sleres		}
7640Ssam		len = off + resid;
11209Ssam	} else
7640Ssam		off = 0;
20997Skarels
15794Sleres	if (len == 0) {
20997Skarels		vvprintf("vv%d: len is zero, vvicsr = %b\n", unit,
15794Sleres			    0xffff&(addr->vvicsr), VV_IBITS);
7640Ssam		goto dropit;
15794Sleres	}
20997Skarels
24793Skarels	m = if_rubaget(&vs->vs_ifuba, len, off, &vs->vs_if);
15794Sleres	if (m == NULL) {
20997Skarels		vvprintf("vv%d: if_rubaget() failed, vvicsr = %b\n", unit,
15794Sleres			    0xffff&(addr->vvicsr), VV_IBITS);
7640Ssam		goto dropit;
15794Sleres	}
7640Ssam	if (off) {
24793Skarels		struct ifnet *ifp;
24793Skarels
24793Skarels		ifp = *(mtod(m, struct ifnet **));
24793Skarels		m->m_off += 2 * sizeof (u_short);
24793Skarels		m->m_len -= 2 * sizeof (u_short);
24793Skarels		*(mtod(m, struct ifnet **)) = ifp;
7640Ssam	}
11192Ssam
15794Sleres	/* Keep track of source address of this packet */
15794Sleres	vs->vs_lastr = vv->vh_shost;
20997Skarels
11192Ssam	/*
15764Sleres	 * Demultiplex on packet type
11192Ssam	 */
7024Ssam	switch (vv->vh_type) {
11192Ssam
7024Ssam#ifdef INET
7024Ssam	case RING_IP:
7024Ssam		schednetisr(NETISR_IP);
7024Ssam		inq = &ipintrq;
7024Ssam		break;
7024Ssam#endif
7024Ssam	default:
20997Skarels		vvprintf("vv%d: unknown pkt type 0x%x\n", unit, vv->vh_type);
7640Ssam		m_freem(m);
7024Ssam		goto setup;
7024Ssam	}
15794Sleres	s = splimp();
7640Ssam	if (IF_QFULL(inq)) {
7640Ssam		IF_DROP(inq);
7640Ssam		m_freem(m);
11209Ssam	} else
7640Ssam		IF_ENQUEUE(inq, m);
15764Sleres
15794Sleres	splx(s);
7024Ssam	/*
15764Sleres	 * Reset for the next packet.
7024Ssam	 */
15764Sleressetup:
15764Sleres	ubainfo = vs->vs_ifuba.ifu_r.ifrw_info;
15764Sleres	addr->vviba = (u_short) ubainfo;
15764Sleres	addr->vviea = (u_short) (ubainfo >> 16);
20997Skarels	addr->vviwc = -(VVBUFSIZE) >> 1;
20997Skarels	addr->vvicsr = VV_HEN | VV_IEN | VV_DEN | VV_ENB;
15764Sleres	return;
11192Ssam
11192Ssam	/*
11209Ssam	 * Drop packet on floor -- count them!!
11192Ssam	 */
7640Ssamdropit:
7640Ssam	vs->vs_if.if_ierrors++;
7640Ssam	goto setup;
7024Ssam}
7024Ssam
7024Ssam/*
20997Skarels * proNET output routine.
7024Ssam * Encapsulate a packet of type family for the local net.
7024Ssam * Use trailer local net encapsulation if enough data in first
7024Ssam * packet leaves a multiple of 512 bytes of data in remainder.
7024Ssam */
7024Ssamvvoutput(ifp, m0, dst)
7024Ssam	struct ifnet *ifp;
7024Ssam	struct mbuf *m0;
7024Ssam	struct sockaddr *dst;
7024Ssam{
16581Skarels	register struct mbuf *m;
7024Ssam	register struct vv_header *vv;
7640Ssam	register int off;
16581Skarels	register int unit;
16581Skarels	register struct vvreg *addr;
16581Skarels	register struct vv_softc *vs;
16581Skarels	register int s;
16581Skarels	int type, dest, error;
7024Ssam
16581Skarels	m = m0;
16581Skarels	unit = ifp->if_unit;
16581Skarels	addr = (struct vvreg *)vvinfo[unit]->ui_addr;
16581Skarels	vs = &vv_softc[unit];
20997Skarels
16581Skarels	/*
20997Skarels	 * Check to see if the input side has wedged due the UBA
20997Skarels	 * vectoring through 0.
16581Skarels	 *
16581Skarels	 * We are lower than device ipl when we enter this routine,
16581Skarels	 * so if the interface is ready with an input packet then
16581Skarels	 * an input interrupt must have slipped through the cracks.
16581Skarels	 *
16581Skarels	 * Avoid the race with an input interrupt by watching to see
16581Skarels	 * if any packets come in.
16581Skarels	 */
16581Skarels	s = vs->vs_if.if_ipackets;
16581Skarels	if (addr->vvicsr & VV_RDY && s == vs->vs_if.if_ipackets) {
20997Skarels		vvprintf("vv%d: lost a receive interrupt, icsr = %b\n",
16581Skarels			    unit, 0xffff&(addr->vvicsr), VV_IBITS);
16581Skarels		s = splimp();
16581Skarels		vvrint(unit);
16581Skarels		splx(s);
16581Skarels	}
16581Skarels
7024Ssam	switch (dst->sa_family) {
11192Ssam
7024Ssam#ifdef INET
15764Sleres	case AF_INET:
21779Skarels		if (in_broadcast(((struct sockaddr_in *)dst)->sin_addr))
21779Skarels			dest = VV_BROADCAST;
21779Skarels		else
21779Skarels			dest = in_lnaof(((struct sockaddr_in *)dst)->sin_addr);
20997Skarels#ifdef LOOPBACK
21779Skarels		if (dest == vs->vs_host && (loif.if_flags & IFF_UP))
21779Skarels			return (looutput(&loif, m0, dst));
20997Skarels#endif LOOPBACK
21779Skarels		if (dest >= 0x100) {
7640Ssam			error = EPERM;
7640Ssam			goto bad;
7640Ssam		}
7640Ssam		off = ntohs((u_short)mtod(m, struct ip *)->ip_len) - m->m_len;
20997Skarels		/*
20997Skarels		 * Trailerize, if the configuration allows it.
20997Skarels		 * TODO: Need per host negotiation.
20997Skarels		 */
13090Ssam		if ((ifp->if_flags & IFF_NOTRAILERS) == 0)
13090Ssam		if (off > 0 && (off & 0x1ff) == 0 &&
7640Ssam		    m->m_off >= MMINOFF + 2 * sizeof (u_short)) {
7640Ssam			type = RING_IPTrailer + (off>>9);
7640Ssam			m->m_off -= 2 * sizeof (u_short);
7640Ssam			m->m_len += 2 * sizeof (u_short);
7640Ssam			*mtod(m, u_short *) = RING_IP;
7640Ssam			*(mtod(m, u_short *) + 1) = m->m_len;
7640Ssam			goto gottrailertype;
7640Ssam		}
7024Ssam		type = RING_IP;
7024Ssam		off = 0;
7024Ssam		goto gottype;
7024Ssam#endif
7024Ssam	default:
16581Skarels		printf("vv%d: can't handle af%d\n", unit, dst->sa_family);
7640Ssam		error = EAFNOSUPPORT;
7640Ssam		goto bad;
7024Ssam	}
7024Ssam
7024Ssamgottrailertype:
7024Ssam	/*
7024Ssam	 * Packet to be sent as trailer: move first packet
7024Ssam	 * (control information) to end of chain.
7024Ssam	 */
7024Ssam	while (m->m_next)
7024Ssam		m = m->m_next;
7024Ssam	m->m_next = m0;
7024Ssam	m = m0->m_next;
7024Ssam	m0->m_next = 0;
7024Ssam	m0 = m;
7024Ssamgottype:
7024Ssam	/*
7024Ssam	 * Add local net header.  If no space in first mbuf,
7024Ssam	 * allocate another.
7024Ssam	 */
7024Ssam	if (m->m_off > MMAXOFF ||
7024Ssam	    MMINOFF + sizeof (struct vv_header) > m->m_off) {
11209Ssam		m = m_get(M_DONTWAIT, MT_HEADER);
11209Ssam		if (m == NULL) {
7640Ssam			error = ENOBUFS;
7640Ssam			goto bad;
7024Ssam		}
7024Ssam		m->m_next = m0;
7024Ssam		m->m_off = MMINOFF;
7024Ssam		m->m_len = sizeof (struct vv_header);
7024Ssam	} else {
7024Ssam		m->m_off -= sizeof (struct vv_header);
7024Ssam		m->m_len += sizeof (struct vv_header);
7024Ssam	}
7024Ssam	vv = mtod(m, struct vv_header *);
21779Skarels	vv->vh_shost = vs->vs_host;
21779Skarels	vv->vh_dhost = dest;
7024Ssam	vv->vh_version = RING_VERSION;
7024Ssam	vv->vh_type = type;
7640Ssam	vv->vh_info = off;
11192Ssam	vvtracehdr("vo", vv);
7024Ssam
7024Ssam	/*
7024Ssam	 * Queue message on interface, and start output if interface
7024Ssam	 * not yet active.
7024Ssam	 */
7024Ssam	s = splimp();
7640Ssam	if (IF_QFULL(&ifp->if_snd)) {
7640Ssam		IF_DROP(&ifp->if_snd);
7640Ssam		error = ENOBUFS;
7640Ssam		goto qfull;
7640Ssam	}
7024Ssam	IF_ENQUEUE(&ifp->if_snd, m);
16581Skarels	if (vs->vs_oactive == 0)
16581Skarels		vvstart(unit);
7024Ssam	splx(s);
7640Ssam	return (0);
7640Ssamqfull:
7640Ssam	m0 = m;
7640Ssam	splx(s);
7640Ssambad:
7640Ssam	m_freem(m0);
7640Ssam	return(error);
7024Ssam}
7024Ssam
7024Ssam/*
13057Ssam * Process an ioctl request.
13057Ssam */
13057Ssamvvioctl(ifp, cmd, data)
13057Ssam	register struct ifnet *ifp;
13057Ssam	int cmd;
13057Ssam	caddr_t data;
13057Ssam{
21779Skarels	struct ifaddr *ifa = (struct ifaddr *) data;
21779Skarels	int s = splimp(), error = 0;
13057Ssam
13057Ssam	switch (cmd) {
13057Ssam
13057Ssam	case SIOCSIFADDR:
24793Skarels		ifp->if_flags |= IFF_UP;
21779Skarels		if ((ifp->if_flags & IFF_RUNNING) == 0)
13057Ssam			vvinit(ifp->if_unit);
21779Skarels                /*
21779Skarels                 * Attempt to check agreement of protocol address
21779Skarels                 * and board address.
21779Skarels                 */
21779Skarels		switch (ifa->ifa_addr.sa_family) {
21779Skarels                case AF_INET:
21779Skarels			if (in_lnaof(IA_SIN(ifa)->sin_addr) !=
21779Skarels			    vv_softc[ifp->if_unit].vs_host)
*25194Skarels				error = EADDRNOTAVAIL;
21779Skarels			break;
21779Skarels		}
13057Ssam		break;
13057Ssam
13057Ssam	default:
13057Ssam		error = EINVAL;
13057Ssam	}
13057Ssam	splx(s);
21779Skarels	return (error);
13057Ssam}
25190Skarels
25190Skarels/*
25190Skarels * vvprt_hdr(s, v) print the local net header in "v"
25190Skarels *	with title is "s"
25190Skarels */
25190Skarelsvvprt_hdr(s, v)
25190Skarels	char *s;
25190Skarels	register struct vv_header *v;
25190Skarels{
25190Skarels	printf("%s: dsvti: 0x%x 0x%x 0x%x 0x%x 0x%x\n",
25190Skarels		s,
25190Skarels		0xff & (int)(v->vh_dhost), 0xff & (int)(v->vh_shost),
25190Skarels		0xff & (int)(v->vh_version), 0xff & (int)(v->vh_type),
25190Skarels		0xffff & (int)(v->vh_info));
25190Skarels}