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path: root/sys/netccitt/if_x25subr.c
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/*	$OpenBSD: if_x25subr.c,v 1.8 2001/06/25 01:50:17 fgsch Exp $	*/
/*	$NetBSD: if_x25subr.c,v 1.13 1996/05/09 22:29:25 scottr Exp $	*/

/*
 * Copyright (c) 1990, 1993
 *	The Regents of the University of California.  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. All advertising materials mentioning features or use of this software
 *    must display the following acknowledgement:
 *	This product includes software developed by the University of
 *	California, Berkeley and its contributors.
 * 4. Neither the name of the University nor the names of its contributors
 *    may be used to endorse or promote products derived from this software
 *    without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 *
 *	@(#)if_x25subr.c	8.1 (Berkeley) 6/10/93
 */

#include <sys/param.h>
#include <sys/systm.h>
#include <sys/malloc.h>
#include <sys/mbuf.h>
#include <sys/protosw.h>
#include <sys/socket.h>
#include <sys/socketvar.h>
#include <sys/ioctl.h>
#include <sys/errno.h>
#include <sys/syslog.h>

#include <machine/cpu.h>	/* XXX for setsoftnet().  This must die. */

#include <net/if.h>
#include <net/if_types.h>
#include <net/netisr.h>
#include <net/route.h>

#include <netccitt/x25.h>
#include <netccitt/x25err.h>
#include <netccitt/pk.h>
#include <netccitt/pk_var.h>
#include <netccitt/pk_extern.h>

#ifdef INET
#include <netinet/in.h>
#include <netinet/in_var.h>
#else
#ifdef _KERNEL
#error options CCITT assumes options INET
#endif
#endif

#ifdef NS
#include <netns/ns.h>
#include <netns/ns_if.h>
#endif

#ifdef ISO
#include <netiso/argo_debug.h>
#include <netiso/iso.h>
#include <netiso/iso_var.h>
#ifdef TPCONS
#include <netiso/tp_param.h>
#include <netiso/tp_var.h>
#endif
#endif


LIST_HEAD(, llinfo_x25) llinfo_x25;
#ifndef _offsetof
#define _offsetof(t, m) ((int)((caddr_t)&((t *)0)->m))
#endif
struct sockaddr *x25_dgram_sockmask;
struct sockaddr_x25 x25_dgmask = {
	_offsetof(struct sockaddr_x25, x25_udata[1]),	/* _len */
	0,		/* _family */
	0,		/* _net */
	{-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1},	/* _addr */
	{0},		/* opts */
	-1,		/* _udlen */
	{-1}		/* _udata */
};

struct if_x25stats {
	int             ifx_wrongplen;
	int             ifx_nophdr;
} if_x25stats;
int x25_autoconnect = 0;

#define senderr(x) {error = x; goto bad;}

static struct llinfo_x25 *x25_lxalloc __P((struct rtentry *));

/*
 * Ancillary routines
 */
static struct llinfo_x25 *
x25_lxalloc(rt)
	register struct rtentry *rt;
{
	register struct llinfo_x25 *lx;
	register struct sockaddr *dst = rt_key(rt);
	register struct ifaddr *ifa;

	MALLOC(lx, struct llinfo_x25 *, sizeof(*lx), M_PCB, M_NOWAIT);
	if (lx == 0)
		return lx;
	Bzero(lx, sizeof(*lx));
	lx->lx_rt = rt;
	lx->lx_family = dst->sa_family;
	rt->rt_refcnt++;
	if (rt->rt_llinfo) {
		LIST_INSERT_AFTER(
			  (struct llinfo_x25 *) rt->rt_llinfo, lx, lx_list);
	} else {
		rt->rt_llinfo = (caddr_t) lx;
		LIST_INSERT_HEAD(&llinfo_x25, lx, lx_list);
	}
	for (ifa = rt->rt_ifp->if_addrlist.tqh_first; ifa != 0;
	     ifa = ifa->ifa_list.tqe_next) {
		if (ifa->ifa_addr->sa_family == AF_CCITT)
			lx->lx_ia = (struct x25_ifaddr *) ifa;
	}
	return lx;
}

void
x25_lxfree(lx)
	register struct llinfo_x25 *lx;
{
	register struct rtentry *rt = lx->lx_rt;
	register struct pklcd *lcp = lx->lx_lcd;

	if (lcp) {
		lcp->lcd_upper = 0;
		pk_disconnect(lcp);
	}
	if ((rt->rt_llinfo == (caddr_t) lx) && (lx->lx_list.le_next->lx_rt == rt))
		rt->rt_llinfo = (caddr_t) lx->lx_list.le_next;
	else
		rt->rt_llinfo = 0;
	RTFREE(rt);
	LIST_REMOVE(lx, lx_list);
	FREE(lx, M_PCB);
}
/*
 * Process a x25 packet as datagram;
 */
int
x25_ifinput(m, v)
	register struct mbuf *m;
	void *v;
{
	struct pklcd   *lcp = v;
	struct llinfo_x25 *lx = (struct llinfo_x25 *) lcp->lcd_upnext;
	register struct ifnet *ifp;
	struct ifqueue *inq;
	extern struct timeval time;
	int             s, isr;

	if (m == 0 || lcp->lcd_state != DATA_TRANSFER)
		return x25_connect_callback(NULL, lcp);

	pk_flowcontrol(lcp, 0, 1);	/* Generate RR */
	ifp = m->m_pkthdr.rcvif;
	switch (m->m_type) {
	default:
		if (m)
			m_freem(m);
		return 0;

	case MT_DATA:
		 /* FALLTHROUGH */ ;
	}
	switch (lx->lx_family) {
#ifdef INET
	case AF_INET:
		isr = NETISR_IP;
		inq = &ipintrq;
		break;

#endif
#ifdef NS
	case AF_NS:
		isr = NETISR_NS;
		inq = &nsintrq;
		break;

#endif
#ifdef	ISO
	case AF_ISO:
		isr = NETISR_ISO;
		inq = &clnlintrq;
		break;
#endif
	default:
		m_freem(m);
		ifp->if_noproto++;
		return 0;
	}
	s = splimp();
	schednetisr(isr);
	if (IF_QFULL(inq)) {
		IF_DROP(inq);
		m_freem(m);
	} else {
		IF_ENQUEUE(inq, m);
		ifp->if_ibytes += m->m_pkthdr.len;
	}
	splx(s);
	return 0;
}

int
x25_connect_callback(m, v)
	register struct mbuf *m;
	void *v;
{
	register struct pklcd *lcp = v;
	register struct llinfo_x25 *lx = (struct llinfo_x25 *) lcp->lcd_upnext;
	int             do_clear = 1;
	if (m == 0)
		goto refused;
	if (m->m_type != MT_CONTROL) {
		printf("x25_connect_callback: should panic\n");
		goto refused;
	}
	switch (pk_decode(mtod(m, struct x25_packet *))) {
	case PK_CALL_ACCEPTED:
		lcp->lcd_upper = x25_ifinput;
		if (lcp->lcd_sb.sb_mb)
			lcp->lcd_send(lcp);	/* XXX start queued packets */
		return 0;
	default:
		do_clear = 0;
refused:
		lcp->lcd_upper = 0;
		lx->lx_lcd = 0;
		if (do_clear)
			pk_disconnect(lcp);
		return 0;
	}
}


#define SA(p) ((struct sockaddr *)(p))
#define RT(p) ((struct rtentry *)(p))

int
x25_dgram_incoming(m0, v)
	struct mbuf    *m0;
	void *v;
{
	register struct pklcd *lcp = v;
	register struct rtentry *rt, *nrt;
	register struct mbuf *m = m0->m_next;	/* m0 has calling
						 * sockaddr_x25 */
	rt = rtalloc1(SA(&lcp->lcd_faddr), 0);
	if (rt == 0) {
refuse:		lcp->lcd_upper = 0;
		pk_close(lcp);
		return 0;
	}
	rt->rt_refcnt--;
	if ((nrt = RT(rt->rt_llinfo)) == 0 || rt_mask(rt) != x25_dgram_sockmask)
		goto refuse;
	if ((nrt->rt_flags & RTF_UP) == 0) {
		rt->rt_llinfo = (caddr_t) rtalloc1(rt->rt_gateway, 0);
		rtfree(nrt);
		if ((nrt = RT(rt->rt_llinfo)) == 0)
			goto refuse;
		nrt->rt_refcnt--;
	}
	if (nrt->rt_ifa == 0 || nrt->rt_ifa->ifa_rtrequest != x25_rtrequest)
		goto refuse;
	lcp->lcd_send(lcp);	/* confirm call */
	x25_rtattach(lcp, nrt);
	m_freem(m);
	return 0;
}

/*
 * X.25 output routine.
 */
int
x25_ifoutput(ifp, m0, dst, rt)
	struct ifnet   *ifp;
	struct mbuf    *m0;
	struct sockaddr *dst;
	register struct rtentry *rt;
{
	register struct mbuf *m = m0;
	register struct llinfo_x25 *lx;
	struct pklcd   *lcp;
	int             error = 0;

	int             plen;
	for (plen = 0; m; m = m->m_next)
		plen += m->m_len;
	m = m0;

	if ((ifp->if_flags & IFF_UP) == 0)
		senderr(ENETDOWN);
	while (rt == 0 || (rt->rt_flags & RTF_GATEWAY)) {
		if (rt) {
			if (rt->rt_llinfo) {
				rt = (struct rtentry *) rt->rt_llinfo;
				continue;
			}
			dst = rt->rt_gateway;
		}
		if ((rt = rtalloc1(dst, 1)) == 0)
			senderr(EHOSTUNREACH);
		rt->rt_refcnt--;
	}
	/*
	 * Sanity checks.
	 */
	if ((rt->rt_ifp != ifp) ||
	    (rt->rt_flags & (RTF_CLONING | RTF_GATEWAY)) ||
	    ((lx = (struct llinfo_x25 *) rt->rt_llinfo) == 0)) {
		senderr(ENETUNREACH);
	}
	if ((m->m_flags & M_PKTHDR) == 0) {
		if_x25stats.ifx_nophdr++;
		m = m_gethdr(M_NOWAIT, MT_HEADER);
		if (m == 0)
			senderr(ENOBUFS);
		M_COPY_HDR(m, m0);
		m->m_pkthdr.len = plen;
		m->m_next = m0;
	}
	if (plen != m->m_pkthdr.len) {
		if_x25stats.ifx_wrongplen++;
		m->m_pkthdr.len = plen;
	}
next_circuit:
	lcp = lx->lx_lcd;
	if (lcp == 0) {
		lx->lx_lcd = lcp = pk_attach((struct socket *) 0);
		if (lcp == 0)
			senderr(ENOBUFS);
		lcp->lcd_upper = x25_connect_callback;
		lcp->lcd_upnext = (caddr_t) lx;
		lcp->lcd_packetsize = lx->lx_ia->ia_xc.xc_psize;
		lcp->lcd_flags = X25_MBS_HOLD;
	}
	switch (lcp->lcd_state) {
	case READY:
		if (dst->sa_family == AF_INET &&
		    ifp->if_type == IFT_X25DDN &&
		    rt->rt_gateway->sa_family != AF_CCITT)
			x25_ddnip_to_ccitt(dst, rt);
		if (rt->rt_gateway->sa_family != AF_CCITT) {
			if ((rt->rt_flags & RTF_XRESOLVE) == 0)
				senderr(EHOSTUNREACH);
		} else if (x25_autoconnect)
			error = pk_connect(lcp,
				    (struct sockaddr_x25 *) rt->rt_gateway);
		if (error)
			senderr(error);
		/* FALLTHROUGH */
	case SENT_CALL:
	case DATA_TRANSFER:
		if (sbspace(&lcp->lcd_sb) < 0) {
			lx = lx->lx_list.le_next;
			if (lx->lx_rt != rt)
				senderr(ENOSPC);
			goto next_circuit;
		}
		if (lx->lx_ia)
			lcp->lcd_dg_timer =
				lx->lx_ia->ia_xc.xc_dg_idletimo;
		pk_send(m, lcp);
		break;
	default:
		/*
		 * We count on the timer routine to close idle
		 * connections, if there are not enough circuits to go
		 * around.
		 *
		 * So throw away data for now.
		 * After we get it all working, we'll rewrite to handle
		 * actively closing connections (other than by timers),
		 * when circuits get tight.
		 *
		 * In the DDN case, the imp itself closes connections
		 * under heavy load.
		 */
		error = ENOBUFS;
bad:
		if (m)
			m_freem(m);
	}
	return (error);
}

/*
 * Simpleminded timer routine.
 */
void
x25_iftimeout(ifp)
	struct ifnet   *ifp;
{
	register struct pkcb *pkcb = 0;
	register struct pklcd **lcpp, *lcp;
	int             s = splimp();

	FOR_ALL_PKCBS(pkcb)
		if (pkcb->pk_ia->ia_ifp == ifp)
		for (lcpp = pkcb->pk_chan + pkcb->pk_maxlcn;
		     --lcpp > pkcb->pk_chan;)
			if ((lcp = *lcpp) &&
			    lcp->lcd_state == DATA_TRANSFER &&
			    (lcp->lcd_flags & X25_DG_CIRCUIT) &&
			  (lcp->lcd_dg_timer && --lcp->lcd_dg_timer == 0)) {
				(*lcp->lcd_upper)(NULL, lcp);
			}
	splx(s);
}
/*
 * This routine gets called when validating additions of new routes
 * or deletions of old ones.
 */
void
x25_rtrequest(cmd, rt, info)
	int cmd;
	register struct rtentry *rt;
	struct rt_addrinfo *info;
{
	register struct llinfo_x25 *lx = (struct llinfo_x25 *) rt->rt_llinfo;
	register struct pklcd *lcp;

	/*
	 * would put this pk_init, except routing table doesn't exist yet.
	 */
	if (x25_dgram_sockmask == 0) {
		x25_dgram_sockmask =
			SA(rn_addmask((caddr_t) & x25_dgmask, 0, 4)->rn_key);
	}
	if (rt->rt_flags & RTF_GATEWAY) {
		if (rt->rt_llinfo)
			RTFREE((struct rtentry *) rt->rt_llinfo);
		rt->rt_llinfo = (cmd == RTM_ADD) ?
			(caddr_t) rtalloc1(rt->rt_gateway, 1) : 0;
		return;
	}
	if ((rt->rt_flags & RTF_HOST) == 0)
		return;
	if (cmd == RTM_DELETE) {
		while (rt->rt_llinfo)
			x25_lxfree((struct llinfo_x25 *) rt->rt_llinfo);
		x25_rtinvert(RTM_DELETE, rt->rt_gateway, rt);
		return;
	}
	if (lx == 0 && (lx = x25_lxalloc(rt)) == 0)
		return;
	if ((lcp = lx->lx_lcd) && lcp->lcd_state != READY) {
		/*
		 * This can only happen on a RTM_CHANGE operation
		 * though cmd will be RTM_ADD.
		 */
		if (lcp->lcd_ceaddr &&
		    Bcmp(rt->rt_gateway, lcp->lcd_ceaddr,
			 lcp->lcd_ceaddr->x25_len) != 0) {
			x25_rtinvert(RTM_DELETE,
				     (struct sockaddr *) lcp->lcd_ceaddr, rt);
			lcp->lcd_upper = 0;
			pk_disconnect(lcp);
		}
		lcp = 0;
	}
	x25_rtinvert(RTM_ADD, rt->rt_gateway, rt);
}

int x25_dont_rtinvert = 0;

void
x25_rtinvert(cmd, sa, rt)
	int cmd;
	register struct sockaddr *sa;
	register struct rtentry *rt;
{
	struct rtentry *rt2 = 0;
	/*
	 * rt_gateway contains PID indicating which proto
	 * family on the other end, so will be different
	 * from general host route via X.25.
	 */
	if (rt->rt_ifp->if_type == IFT_X25DDN || x25_dont_rtinvert)
		return;
	if (sa->sa_family != AF_CCITT)
		return;
	if (cmd != RTM_DELETE) {
		rtrequest(RTM_ADD, sa, rt_key(rt), x25_dgram_sockmask,
			  RTF_PROTO2, &rt2);
		if (rt2) {
			rt2->rt_llinfo = (caddr_t) rt;
			rt->rt_refcnt++;
		}
		return;
	}
	rt2 = rt;
	if ((rt = rtalloc1(sa, 0)) == 0 ||
	    (rt->rt_flags & RTF_PROTO2) == 0 ||
	    rt->rt_llinfo != (caddr_t) rt2) {
		printf("x25_rtchange: inverse route screwup\n");
		return;
	} else
		rt2->rt_refcnt--;
	rtrequest(RTM_DELETE, sa, rt_key(rt2), x25_dgram_sockmask,
		  0, (struct rtentry **) 0);
}

static struct sockaddr_x25 blank_x25 = {sizeof blank_x25, AF_CCITT};
/*
 * IP to X25 address routine copyright ACC, used by permission.
 */
union imp_addr {
	struct in_addr  ip;
	struct imp {
		u_char          s_net;
		u_char          s_host;
		u_char          s_lh;
		u_char          s_impno;
	} imp;
};

/*
 * The following is totally bogus and here only to preserve
 * the IP to X.25 translation.
 */
void
x25_ddnip_to_ccitt(src, rt)
	struct sockaddr *src;
	register struct rtentry *rt;
{
	register struct sockaddr_x25 *dst = (struct sockaddr_x25 *) rt->rt_gateway;
	union imp_addr  imp_addr;
	int             imp_no, imp_port, temp;
	char           *x25addr = dst->x25_addr;


	imp_addr.ip = ((struct sockaddr_in *) src)->sin_addr;
	*dst = blank_x25;
	if ((imp_addr.imp.s_net & 0x80) == 0x00) {	/* class A */
		imp_no = imp_addr.imp.s_impno;
		imp_port = imp_addr.imp.s_host;
	} else if ((imp_addr.imp.s_net & 0xc0) == 0x80) {	/* class B */
		imp_no = imp_addr.imp.s_impno;
		imp_port = imp_addr.imp.s_lh;
	} else {		/* class C */
		imp_no = imp_addr.imp.s_impno / 32;
		imp_port = imp_addr.imp.s_impno % 32;
	}

	x25addr[0] = 12;	/* length */
	/* DNIC is cleared by struct copy above */

	if (imp_port < 64) {	/* Physical:  0000 0 IIIHH00 [SS] *//* s_impno
				 * -> III, s_host -> HH */
		x25addr[5] = 0;	/* set flag bit */
		x25addr[6] = imp_no / 100;
		x25addr[7] = (imp_no % 100) / 10;
		x25addr[8] = imp_no % 10;
		x25addr[9] = imp_port / 10;
		x25addr[10] = imp_port % 10;
	} else {		/* Logical:   0000 1 RRRRR00 [SS]	 *//* s
				 * _host * 256 + s_impno -> RRRRR */
		temp = (imp_port << 8) + imp_no;
		x25addr[5] = 1;
		x25addr[6] = temp / 10000;
		x25addr[7] = (temp % 10000) / 1000;
		x25addr[8] = (temp % 1000) / 100;
		x25addr[9] = (temp % 100) / 10;
		x25addr[10] = temp % 10;
	}
}

/*
 * This routine is a sketch and is not to be believed!!!!!
 *
 * This is a utility routine to be called by x25 devices when a
 * call request is honored with the intent of starting datagram forwarding.
 */
void
x25_dg_rtinit(dst, ia, af)
	struct sockaddr_x25 *dst;
	register struct x25_ifaddr *ia;
	int af;
{
	struct sockaddr *sa = 0;
	struct rtentry *rt;
	struct in_addr  my_addr;
	static struct sockaddr_in sin = {sizeof(sin), AF_INET};

	if (ia->ia_ifp->if_type == IFT_X25DDN && af == AF_INET) {
		/*
		 * Inverse X25 to IP mapping copyright and courtesy ACC.
		 */
		int             imp_no, imp_port, temp;
		union imp_addr  imp_addr;
		{
			/*
			 * First determine our IP addr for network
			 */
			register struct in_ifaddr *ina;

			for (ina = in_ifaddr.tqh_first; ina != 0;
			     ina = ina->ia_list.tqe_next)
				if (ina->ia_ifp == ia->ia_ifp) {
					my_addr = ina->ia_addr.sin_addr;
					break;
				}
		}
		{

			register char  *x25addr = dst->x25_addr;

			switch (x25addr[5] & 0x0f) {
			case 0:/* Physical:  0000 0 IIIHH00 [SS]	 */
				imp_no =
					((int) (x25addr[6] & 0x0f) * 100) +
					((int) (x25addr[7] & 0x0f) * 10) +
					((int) (x25addr[8] & 0x0f));


				imp_port =
					((int) (x25addr[9] & 0x0f) * 10) +
					((int) (x25addr[10] & 0x0f));
				break;
			case 1:/* Logical:   0000 1 RRRRR00 [SS]	 */
				temp = ((int) (x25addr[6] & 0x0f) * 10000)
					+ ((int) (x25addr[7] & 0x0f) * 1000)
					+ ((int) (x25addr[8] & 0x0f) * 100)
					+ ((int) (x25addr[9] & 0x0f) * 10)
					+ ((int) (x25addr[10] & 0x0f));

				imp_port = temp >> 8;
				imp_no = temp & 0xff;
				break;
			default:
				return;
			}
			imp_addr.ip = my_addr;
			if ((imp_addr.imp.s_net & 0x80) == 0x00) {
				/* class A */
				imp_addr.imp.s_host = imp_port;
				imp_addr.imp.s_impno = imp_no;
				imp_addr.imp.s_lh = 0;
			} else if ((imp_addr.imp.s_net & 0xc0) == 0x80) {
				/* class B */
				imp_addr.imp.s_lh = imp_port;
				imp_addr.imp.s_impno = imp_no;
			} else {
				/* class C */
				imp_addr.imp.s_impno = (imp_no << 5) + imp_port;
			}
		}
		sin.sin_addr = imp_addr.ip;
		sa = (struct sockaddr *) & sin;
	} else {
		/*
		 * This uses the X25 routing table to do inverse
		 * lookup of x25 address to sockaddr.
		 */
		if ((rt = rtalloc1(SA(dst), 0)) != NULL) {
			sa = rt->rt_gateway;
			rt->rt_refcnt--;
		}
	}
	/*
	 * Call to rtalloc1 will create rtentry for reverse path to callee by
	 * virtue of cloning magic and will allocate space for local control
	 * block.
	 */
	if (sa && (rt = rtalloc1(sa, 1)))
		rt->rt_refcnt--;
}


int x25_startproto = 1;

void
pk_init()
{
	/*
	 * warning, sizeof (struct sockaddr_x25) > 32,
	 * but contains no data of interest beyond 32
	 */
	if (x25_startproto) {
		pk_protolisten(0xcc, 1, x25_dgram_incoming);
		pk_protolisten(0x81, 1, x25_dgram_incoming);
	}
}

struct x25_dgproto {
	u_char          spi;
	u_char          spilen;
	int             (*f) __P((struct mbuf *, void *));
} x25_dgprototab[] = {
#if defined(ISO) && defined(TPCONS)
	{ 0x0, 0, tp_incoming },
#endif
	{ 0xcc, 1, x25_dgram_incoming },
	{ 0xcd, 1, x25_dgram_incoming },
	{ 0x81, 1, x25_dgram_incoming },
};

int
pk_user_protolisten(info)
	register u_char *info;
{
	register struct x25_dgproto *dp = x25_dgprototab
	+ ((sizeof x25_dgprototab) / (sizeof *dp));
	register struct pklcd *lcp;

	while (dp > x25_dgprototab)
		if ((--dp)->spi == info[0])
			goto gotspi;
	return ESRCH;

gotspi:if (info[1])
		return pk_protolisten(dp->spi, dp->spilen, dp->f);
	for (lcp = pk_listenhead; lcp; lcp = lcp->lcd_listen)
		if (lcp->lcd_laddr.x25_udlen == dp->spilen &&
		Bcmp(&dp->spi, lcp->lcd_laddr.x25_udata, dp->spilen) == 0) {
			pk_disconnect(lcp);
			return 0;
		}
	return ESRCH;
}

/*
 * This routine transfers an X.25 circuit to or from a routing entry.
 * If the supplied circuit is * in DATA_TRANSFER state, it is added to the
 * routing entry.  If freshly allocated, it glues back the vc from
 * the rtentry to the socket.
 */
int
pk_rtattach(so, m0)
	register struct socket *so;
	struct mbuf    *m0;
{
	register struct pklcd *lcp = (struct pklcd *) so->so_pcb;
	register struct mbuf *m = m0;
	struct sockaddr *dst = mtod(m, struct sockaddr *);
	register struct rtentry *rt = rtalloc1(dst, 0);
	register struct llinfo_x25 *lx;
	caddr_t         cp;
#define ROUNDUP(a) \
	((a) > 0 ? (1 + (((a) - 1) | (sizeof(long) - 1))) : sizeof(long))
#define transfer_sockbuf(s, f, l) \
	while ((m = (s)->sb_mb) != NULL) \
		{(s)->sb_mb = m->m_act; m->m_act = 0; sbfree((s), m); f;}

	if (rt)
		rt->rt_refcnt--;
	cp = (dst->sa_len < m->m_len) ? ROUNDUP(dst->sa_len) + (caddr_t) dst : 0;
	while (rt &&
	       ((cp == 0 && rt_mask(rt) != 0) ||
		(cp != 0 && (rt_mask(rt) == 0 ||
			 Bcmp(cp, rt_mask(rt), rt_mask(rt)->sa_len)) != 0)))
		rt = (struct rtentry *) rt->rt_nodes->rn_dupedkey;
	if (rt == 0 || (rt->rt_flags & RTF_GATEWAY) ||
	    (lx = (struct llinfo_x25 *) rt->rt_llinfo) == 0)
		return ESRCH;
	if (lcp == 0)
		return ENOTCONN;
	switch (lcp->lcd_state) {
	default:
		return ENOTCONN;

	case READY:
		/* Detach VC from rtentry */
		if (lx->lx_lcd == 0)
			return ENOTCONN;
		lcp->lcd_so = 0;
		pk_close(lcp);
		lcp = lx->lx_lcd;
		if (lx->lx_list.le_next->lx_rt == rt)
			x25_lxfree(lx);
		lcp->lcd_so = so;
		lcp->lcd_upper = 0;
		lcp->lcd_upnext = 0;
		transfer_sockbuf(&lcp->lcd_sb, sbappendrecord(&so->so_snd, m),
				 &so->so_snd);
		soisconnected(so);
		return 0;

	case DATA_TRANSFER:
		/* Add VC to rtentry */
		lcp->lcd_so = 0;
		lcp->lcd_sb = so->so_snd;	/* structure copy */
		bzero((caddr_t) & so->so_snd, sizeof(so->so_snd));	/* XXXXXX */
		so->so_pcb = 0;
		x25_rtattach(lcp, rt);
		transfer_sockbuf(&so->so_rcv, x25_ifinput(m, lcp), lcp);
		soisdisconnected(so);
	}
	return 0;
}

int
x25_rtattach(lcp0, rt)
	register struct pklcd *lcp0;
	struct rtentry *rt;
{
	register struct llinfo_x25 *lx = (struct llinfo_x25 *) rt->rt_llinfo;
	register struct pklcd *lcp;
	register struct mbuf *m;
	if ((lcp = lx->lx_lcd) != NULL) {	/* adding an additional VC */
		if (lcp->lcd_state == READY) {
			transfer_sockbuf(&lcp->lcd_sb, pk_output(lcp0), lcp0);
			lcp->lcd_upper = 0;
			pk_close(lcp);
		} else {
			lx = x25_lxalloc(rt);
			if (lx == 0)
				return ENOBUFS;
		}
	}
	lx->lx_lcd = lcp = lcp0;
	lcp->lcd_upper = x25_ifinput;
	lcp->lcd_upnext = (caddr_t) lx;
	return 0;
}