Plan 9 from Bell Labs’s /usr/web/sources/extra/9hist/gnot/sturp.c

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


## diffname gnot/sturp.c 1990/0312
## diff -e /dev/null /n/bootesdump/1990/0312/sys/src/9/68020/sturp.c
0a
#include	"u.h"
#include	"lib.h"
#include	"mem.h"
#include	"dat.h"
#include	"fns.h"
#include	"io.h"
#include	"errno.h"

enum {
	Nurp=		32,
	MSrexmit=	1000,
	Nmask=		0x7,
};

#define DPRINT print

typedef struct Urp	Urp;

#define NOW (MACHP(0)->ticks*MS2HZ)

/*
 * URP status
 */
struct urpstat {
	ulong	input;		/* bytes read from urp */
	ulong	output;		/* bytes output to urp */
	ulong	rxmit;		/* retransmit rejected urp msg */
	ulong	rjtrs;		/* reject, trailer size */
	ulong	rjpks;		/* reject, packet size */
	ulong	rjseq;		/* reject, sequence number */
	ulong	levelb;		/* unknown level b */
	ulong	enqsx;		/* enqs sent */
	ulong	enqsr;		/* enqs rcved */
} urpstat;

struct Urp {
	QLock;
	short	state;		/* flags */
	Rendez	r;		/* process waiting for close */

	/* input */

	Queue	*rq;		/* input queue */
	uchar	iseq;		/* last good input sequence number */
	uchar	lastecho;	/* last echo/rej sent */
	uchar	trbuf[3];	/* trailer being collected */
	short	trx;		/* # bytes in trailer being collected */

	/* output */

	QLock	xmit;		/* output lock, only one process at a time */
	Queue	*wq;		/* output queue */
	int	maxout;		/* maximum outstanding unacked blocks */
	int	maxblock;	/* max block size */
	int	next;		/* next block to send */
	int	unechoed;	/* first unechoed block */
	int	unacked;	/* first unacked block */
	int	nxb;		/* next xb to use */
	Block	*xb[8];		/* the xmit window buffer */
	QLock	xl[8];
	ulong	timer;		/* timeout for xmit */

	int	kstarted;
};
#define WINDOW(u) ((u->unechoed + u->maxout - u->next)%8)
#define IN(x, f, n) (f<=n ? x>=f && x<n : x<n || x>=f)
#define NEXT(x) (((x)+1)&Nmask)

/*
 *  Protocol control bytes
 */
#define	SEQ	0010		/* sequence number, ends trailers */
#undef	ECHO
#define	ECHO	0020		/* echos, data given to next queue */
#define	REJ	0030		/* rejections, transmission error */
#define	ACK	0040		/* acknowledgments */
#define	BOT	0050		/* beginning of trailer */
#define	BOTM	0051		/* beginning of trailer, more data follows */
#define	BOTS	0052		/* seq update algorithm on this trailer */
#define	SOU	0053		/* start of unsequenced trailer */
#define	EOU	0054		/* end of unsequenced trailer */
#define	ENQ	0055		/* xmitter requests flow/error status */
#define	CHECK	0056		/* xmitter requests error status */
#define	INITREQ 0057		/* request initialization */
#define	INIT0	0060		/* disable trailer processing */
#define	INIT1	0061		/* enable trailer procesing */
#define	AINIT	0062		/* response to INIT0/INIT1 */
#undef	DELAY
#define	DELAY	0100		/* real-time printing delay */
#define	BREAK	0110		/* Send/receive break (new style) */

#define	REJECTING	0x1
#define	INITING 	0x2
#define HUNGUP		0x4
#define	OPEN		0x8
#define CLOSING		0x10

Urp	urp[Nurp];

/*
 *  predeclared
 */
static void	urpciput(Queue*, Block*);
static void	urpiput(Queue*, Block*);
static void	urpoput(Queue*, Block*);
static void	urpopen(Queue*, Stream*);
static void	urpclose(Queue *);
static void	output(Urp*);
static void	sendblock(Urp*, int);
static void	rcvack(Urp*, int);
static void	flushinput(Urp*);
static void	sendctl(Urp*, int);
static void	initoutput(Urp*, int);
static void	initinput(Urp*, int);
static void	urpkproc(void *arg);

Qinfo urpinfo = { urpciput, urpoput, urpopen, urpclose, "urp" };

static void
urpopen(Queue *q, Stream *s)
{
	Urp *up;
	int i;
	char name[128];

	DPRINT("urpopen\n");

	/*
	 *  find a free urp structure
	 */
	for(up = urp; up < &urp[Nurp]; up++){
		qlock(up);
		if(up->state == 0)
			break;
		qunlock(up);
	}
	if(up == &urp[Nurp])
		error(0, Egreg);

	q->ptr = q->other->ptr = up;
	up->rq = q;
	up->wq = q->other;
	up->state = OPEN;
	qunlock(up);
	initinput(up, 0);
	initoutput(up, 0);

	/*
	 *  start the ack/(re)xmit process
	 */
	if(up->kstarted == 0){
		up->kstarted = 1;
		sprint(name, "**urp%d**", up - urp);
		kproc(name, urpkproc, up);
	}
}

/*
 *  Shut down the connection and kill off the kernel process
 */
static int
isflushed(void *a)
{
	Urp *up;

	up = (Urp *)a;
	return (up->state&HUNGUP) || (up->unechoed==up->next && up->wq->len==0);
}
static int
isdead(void *a)
{
	Urp *up;

	up = (Urp *)a;
	return up->kstarted == 0;
}
static void
urpclose(Queue *q)
{
	Block *bp;
	Urp *up;
	int i;

	up = (Urp *)q->ptr;

	/*
	 *  wait for all outstanding messages to drain, tell kernel
	 *  process we're closing.
	 */
	up->state |= CLOSING;
	sleep(&up->r, isflushed, up);

	/*
	 *  ack all outstanding messages
	 */
	qlock(&up->xmit);
	up->state |= HUNGUP;
	i = up->next - 1;
	if(i < 0)
		i = 7;
	rcvack(up, ECHO+i);
	qunlock(&up->xmit);
	DPRINT("urpclose(%ux)\n", up);

	/*
	 *  kill off the kernel process
	 */
	wakeup(&up->rq->r);
	DPRINT("urpclosed(%ux)\n", up);
}

/*
 *  upstream control messages
 */
static void
urpctliput(Urp *up, Queue *q, Block *bp)
{
	switch(bp->type){
	case M_HANGUP:
		up->state |= HUNGUP;
		wakeup(&up->r);
		wakeup(&up->rq->r);
		break;
	}
	PUTNEXT(q, bp);
}

/*
 *  character mode input.
 *
 *  the first byte in every message is a ctl byte (which belongs at the end).
 */
void
urpciput(Queue *q, Block *bp)
{
	Urp *up;
	int i;
	int ctl;

	up = (Urp *)q->ptr;
	if(bp->type != M_DATA){
		urpctliput(up, q, bp);
		return;
	}

	/*
	 *  get the control character
	 */
	ctl = *bp->rptr++;
	if(ctl < 0)
		return;

	/*
	 *  take care of any data
	 */
	if(BLEN(bp)>0 && q->next->len<Streamhi)
		PUTNEXT(q, bp);
	else
		freeb(bp);

	/*
	 *  handle the control character
	 */
	switch(ctl){
	case 0:
		break;
	case ENQ:
		urpstat.enqsr++;
		sendctl(up, up->lastecho);
		sendctl(up, ACK+up->iseq);
		break;

	case CHECK:
		sendctl(up, ACK+up->iseq);
		break;

	case AINIT:
		up->state &= ~INITING;
		flushinput(up);
		wakeup(&up->rq->r);
		break;

	case INIT0:
	case INIT1:
		sendctl(up, AINIT);
		if(ctl == INIT1)
			q->put = urpiput;
		initinput(up, 0);
		break;

	case INITREQ:
		initoutput(up, 0);
		break;

	case BREAK:
		break;

	case REJ+0: case REJ+1: case REJ+2: case REJ+3:
	case REJ+4: case REJ+5: case REJ+6: case REJ+7:
		rcvack(up, ctl);
		break;
	
	case ACK+0: case ACK+1: case ACK+2: case ACK+3:
	case ACK+4: case ACK+5: case ACK+6: case ACK+7:
	case ECHO+0: case ECHO+1: case ECHO+2: case ECHO+3:
	case ECHO+4: case ECHO+5: case ECHO+6: case ECHO+7:
		rcvack(up, ctl);
		break;

	case SEQ+0: case SEQ+1: case SEQ+2: case SEQ+3:
	case SEQ+4: case SEQ+5: case SEQ+6: case SEQ+7:
		i = ctl & Nmask;
		if(q->next->len < Streamhi)
			sendctl(up, up->lastecho = ECHO+i);
		up->iseq = i;
		break;
	}
}

/*
 *  block mode input.
 *
 *  the first byte in every message is a ctl byte (which belongs at the end).
 *
 *  Simplifying assumption:  one put == one message && the control byte
 *	is in the first block.  If this isn't true, strange bytes will be
 *	used as control bytes.
 */
void
urpiput(Queue *q, Block *bp)
{
	Urp *up;
	int i;
	int ctl;

	up = (Urp *)q->ptr;
	if(bp->type != M_DATA){
		urpctliput(up, q, bp);
		return;
	}

	/*
	 *  get the control character
	 */
	ctl = *bp->rptr++;

	/*
	 *  take care of any block count(trx)
	 */
	while(up->trx){
		if(BLEN(bp)<=0)
			break;
		switch (up->trx) {
		case 1:
		case 2:
			up->trbuf[up->trx++] = *bp->rptr++;
			continue;
		default:
			up->trx = 0;
			break;
		}
	}

	/*
	 *  queue the block(s)
	 */
	if(BLEN(bp) > 0){
		putq(q, bp);
		q->last->flags &= ~S_DELIM;
		if(q->len > 4*1024){
			flushinput(up);
			return;
		}
	} else
		freeb(bp);

	/*
	 *  handle the control character
	 */
	switch(ctl){
	case 0:
		break;
	case ENQ:
		print("rENQ %uo %uo\n", up->lastecho, ACK+up->iseq);
		urpstat.enqsr++;
		sendctl(up, up->lastecho);
		sendctl(up, ACK+up->iseq);
		flushinput(up);
		break;

	case CHECK:
		sendctl(up, ACK+up->iseq);
		break;

	case AINIT:
		up->state &= ~INITING;
		flushinput(up);
		wakeup(&up->rq->r);
		break;

	case INIT0:
	case INIT1:
		sendctl(up, AINIT);
		if(ctl == INIT0)
			q->put = urpciput;
		initinput(up, 0);
		break;

	case INITREQ:
		initoutput(up, 0);
		break;

	case BREAK:
		break;

	case BOT:
	case BOTS:
	case BOTM:
		up->trx = 1;
		up->trbuf[0] = ctl;
		break;

	case REJ+0: case REJ+1: case REJ+2: case REJ+3:
	case REJ+4: case REJ+5: case REJ+6: case REJ+7:
		print("rREJ\n");
		rcvack(up, ctl);
		break;
	
	case ACK+0: case ACK+1: case ACK+2: case ACK+3:
	case ACK+4: case ACK+5: case ACK+6: case ACK+7:
	case ECHO+0: case ECHO+1: case ECHO+2: case ECHO+3:
	case ECHO+4: case ECHO+5: case ECHO+6: case ECHO+7:
		rcvack(up, ctl);
		break;

	/*
	 *  if the seuence number is the next expected
	 *	and te trailer length == 3
	 *	and the block count matches the bytes received
	 *  then send the bytes upstream.
	 */
	case SEQ+0: case SEQ+1: case SEQ+2: case SEQ+3:
	case SEQ+4: case SEQ+5: case SEQ+6: case SEQ+7:
		i = ctl & Nmask;
		if(up->trx != 3){
			urpstat.rjtrs++;
			flushinput(up);
			print("sREJ1 %d\n", up->iseq);
			sendctl(up, up->lastecho = REJ+up->iseq);
			break;
		} else if(q->len != up->trbuf[1] + (up->trbuf[2]<<8)){
			urpstat.rjpks++;
			flushinput(up);
			print("sREJ2 %d\n", up->iseq);
			sendctl(up, up->lastecho = REJ+up->iseq);
			break;
		} else if(i != ((up->iseq+1)&Nmask)) {
			urpstat.rjseq++;
			flushinput(up);
			print("sREJ3 %d %d\n", i, up->iseq);
			sendctl(up, up->lastecho = REJ+up->iseq);
			break;
		}

		/*
		 *  send data upstream
		 */
		if(q->first) {
			if(up->trbuf[0] != BOTM)
				q->last->flags |= S_DELIM;
			while(bp = getq(q))
				PUTNEXT(q, bp);
		} else {
			bp = allocb(0);
			bp->flags |= S_DELIM;
			PUTNEXT(q, bp);
		}
		up->trx = 0;

		/*
		 *  acknowledge receipt
		 */
		if(q->next->len < Streamhi){
			sendctl(up, ECHO+i);
			up->lastecho = ECHO+i;
			wakeup(&up->rq->r);
		}
		up->iseq = i;
		break;
	}
}

/*
 *  downstream control
 */
static void
urpctloput(Urp *up, Queue *q, Block *bp)
{
	char *fields[2];
	int n;
	int inwin=0, outwin=0;

	switch(bp->type){
	case M_CTL:
		if(streamparse("init", bp)){
			switch(getfields((char *)bp->rptr, fields, 2, ' ')){
			case 2:
				inwin = strtoul(fields[1], 0, 0);
			case 1:
				outwin = strtoul(fields[0], 0, 0);
			}
/*			initinput(up, inwin); */
			DPRINT("initoutput %d\n", outwin);
			initoutput(up, outwin);
			freeb(bp);
			return;
		}
	}
	PUTNEXT(q, bp);
}

/*
 *  accept data from a writer
 */
static void
urpoput(Queue *q, Block *bp)
{
	Urp *up;

	up = (Urp *)q->ptr;

	if(bp->type != M_DATA){
		urpctloput(up, q, bp);
		return;
	}

	urpstat.output += BLEN(bp);
	putq(q, bp);
	output(up);
}

/*
 *  start output
 */
static void
output(Urp *up)
{
	Block *bp, *nbp;
	ulong now;
	Queue *q;
	int n;

	if(!canqlock(&up->xmit))
		return;

	if(waserror()){
		print("urp output error\n");
		qunlock(&up->xmit);
		nexterror();
	}

	/*
	 *  if still initing and it's time to rexmit, send an INIT1
	 */
	now = NOW;
	if(up->state & INITING){
		if(now > up->timer){
			sendctl(up, INIT1);
			up->timer = now + MSrexmit;
		}
		qunlock(&up->xmit);
		poperror();
		return;
	}

	/*
	 *  fill the transmit buffers
	 */
	q = up->wq;
	for(bp = getq(q); bp && up->xb[up->nxb]==0; up->nxb = NEXT(up->nxb)){
		if(BLEN(bp) > up->maxblock){
			nbp = up->xb[up->nxb] = allocb(0);
			nbp->rptr = bp->rptr;
			nbp->wptr = bp->rptr = bp->rptr + up->maxblock;
		} else {
			up->xb[up->nxb] = bp;
			bp = getq(q);
		}
	}
	if(bp)
		putbq(q, bp);
/*	print("output w(%d) up->xb[%d](%ux) up->nxb(%d) up->state(%ux)\n",
		WINDOW(up), up->next, up->xb[up->next], up->nxb, up->state);
/**/
	/*
	 *  if a retransmit time has elapsed since a transmit, send an ENQ
	 */
	if(up->unechoed != up->next && NOW > up->timer){
		print("sENQ\n");
		up->timer = NOW + MSrexmit;
		up->state &= ~REJECTING;
		sendctl(up, ENQ);
		qunlock(&up->xmit);
		poperror();
		return;
	}

	/*
	 *  if there's a window open, push some blocks out
	 */
	while(WINDOW(up)>0 && up->xb[up->next]!=0 && canqlock(&up->xl[up->next])){
		if(up->xb[up->next])
			sendblock(up, up->next);
		qunlock(&up->xl[up->next]);
		up->next = NEXT(up->next);
	}
	qunlock(&up->xmit);
	poperror();
}

/*
 *  send a control byte, put the byte at the end of the allocated
 *  space in case a lower layer needs header room.
 */
static void
sendctl(Urp *up, int ctl)
{
	Block *bp;

	if(up->wq->next->len > Streamhi)
		return;
	bp = allocb(1);
	bp->wptr = bp->lim;
	bp->rptr = bp->lim-1;
	*bp->rptr = ctl;
	bp->flags |= S_DELIM;
	PUTNEXT(up->wq, bp);
}

/*
 *  send a block.
 */
static void
sendblock(Urp *up, int bn)
{
	Block *bp, *m, *nbp;
	int n;

	up->timer = NOW + MSrexmit;
	if(up->wq->next->len > Streamhi)
		return;

	/*
	 *  message 1, the BOT and the data
	 */
	bp = up->xb[bn];
	m = allocb(1);
	m->rptr = m->lim - 1;
	m->wptr = m->lim;
	*m->rptr = (bp->flags & S_DELIM) ? BOT : BOTM;
	nbp = m->next = allocb(0);
	nbp->rptr = bp->rptr;
	nbp->wptr = bp->wptr;
	nbp->flags |= S_DELIM;
	PUTNEXT(up->wq, m);

	/*
	 *  message 2, the block length and the SEQ
	 */
	m = allocb(3);
	m->rptr = m->lim - 3;
	m->wptr = m->lim;
	n = BLEN(bp);
	m->rptr[0] = SEQ | bn;
	m->rptr[1] = n;
	m->rptr[2] = n<<8;
	m->flags |= S_DELIM;
	PUTNEXT(up->wq, m);
}

/*
 *  receive an acknowledgement
 */
static void
rcvack(Urp *up, int msg)
{
	int seqno;
	int next;

	seqno = msg&Nmask;
	next = NEXT(seqno);

	/*
	 *  release any acknowledged blocks
	 */
	if(IN(seqno, up->unacked, up->next)){
		for(; up->unacked != next; up->unacked = NEXT(up->unacked)){
			qlock(&up->xl[up->unacked]);
			if(up->xb[up->unacked])
				freeb(up->xb[up->unacked]);
			up->xb[up->unacked] = 0;
			qunlock(&up->xl[up->unacked]);
		}
	}

	switch(msg & 0370){
	case ECHO:
		if(IN(seqno, up->unechoed, up->next)) {
			up->unechoed = next;
		}
		/*
		 *  the next reject at the start of a window starts a 
		 *  retransmission.
		 */
		up->state &= ~REJECTING;
		break;
	case REJ:
		if(IN(seqno, up->unechoed, up->next))
			up->unechoed = next;
		/*
		 *  ... FALL THROUGH ...
		 */
	case ACK:
		/*
		 *  start a retransmission if we aren't retransmitting
		 *  and this is the start of a window.
		 */
		if(up->unechoed==next && !(up->state & REJECTING)){
			up->state |= REJECTING;
			up->next = next;
		}
		break;
	}

	wakeup(&up->rq->r);
}

/*
 * throw away any partially collected input
 */
static void
flushinput(Urp *up)
{
	Block *bp;

	while (bp = getq(up->rq))
		freeb(bp);
	up->trx = 0;
}

/*
 *  initialize output
 */
static void
initoutput(Urp *up, int window)
{
	int i;

	/*
	 *  set output window
	 */
	up->maxblock = window/4;
	if(up->maxblock < 64)
		up->maxblock = 64;
	if(up->maxblock > Streamhi/4)
		up->maxblock = Streamhi/4;
	up->maxblock -= 4;
	up->maxout = 3;

	/*
	 *  set sequence varialbles
	 */
	up->unechoed = 1;
	up->unacked = 1;
	up->next = 1;
	up->nxb = 1;

	/*
	 *  free any outstanding blocks
	 */
	for(i = 0; i < 8; i++){
		qlock(&up->xl[i]);
		if(up->xb[i])
			freeb(up->xb[i]);
		qunlock(&up->xl[i]);
	}

	/*
	 *  tell the other side we've inited
	 */
	up->state |= INITING;
	up->timer = NOW + MSrexmit;
	sendctl(up, INIT1);
}

/*
 *  initialize input
 */
static void
initinput(Urp *up, int window)
{
	/*
	 *  restart all sequence parameters
	 */
	up->trx = 0;
	up->iseq = 0;
	up->lastecho = ECHO+0;
	flushinput(up);
}

/*
 *  do retransmissions etc
 */
static int
todo(void *arg)
{
	Urp *up;

	up = (Urp *)arg;
	return (WINDOW(up)>0 && up->wq->len>0 && !(up->state&INITING));
}
static void
urpkproc(void *arg)
{
	Urp *up;

	up = (Urp *)arg;
	print("urpkproc started\n");

	for(;;){
		if(up->state & (HUNGUP|CLOSING)){
			if(isflushed(up))
				wakeup(&up->r);
			if(up->state & HUNGUP)
				break;
		}
		if((up->lastecho&Nmask)!=up->iseq && up->rq->next->len<Streamhi)
			sendctl(up, up->lastecho = ECHO+up->iseq);
		output(up);
		tsleep(&up->rq->r, todo, up, MSrexmit/2);
	}
	DPRINT("urpkproc exiting %ux\n", up);
	up->kstarted = 0;
	up->state = 0;
}
.
## diffname gnot/sturp.c 1990/0315
## diff -e /n/bootesdump/1990/0312/sys/src/9/68020/sturp.c /n/bootesdump/1990/0315/sys/src/9/68020/sturp.c
828c
	DPRINT("urpkproc started\n");
.
784a
		up->xb[i] = 0;
.
15c
#define DPRINT if(0)
.
## diffname gnot/sturp.c 1990/0320
## diff -e /n/bootesdump/1990/0315/sys/src/9/68020/sturp.c /n/bootesdump/1990/0320/sys/src/9/68020/sturp.c
843d
829d
599c
		DPRINT("sENQ\n");
.
513d
484,485c
			sendctl(up, up->lastecho = ECHO+i);
.
460,461c
			DPRINT("sREJ3 %d %d\n", i, up->iseq);
			if((up->lastecho&~7)==ECHO)
				sendctl(up, up->lastecho = REJ+up->iseq);/**/
.
454,455c
			if((up->lastecho&~7)==ECHO)
				sendctl(up, up->lastecho = REJ+up->iseq);/**/
.
452a
			DPRINT("sREJ2 %d %d %d\n", up->iseq, q->len,
				up->trbuf[1] + (up->trbuf[2]<<8));
.
448,449c
			DPRINT("sREJ1 %d\n", up->iseq);
			if((up->lastecho&~7)==ECHO)
				sendctl(up, up->lastecho = REJ+up->iseq);/**/
.
425c
		DPRINT("rREJ\n");
.
384c
		DPRINT("rENQ %uo %uo\n", up->lastecho, ACK+up->iseq);
.
209d
203d
126,127d
## diffname gnot/sturp.c 1990/0321
## diff -e /n/bootesdump/1990/0320/sys/src/9/68020/sturp.c /n/bootesdump/1990/0321/sys/src/9/68020/sturp.c
835,836c
		sendack(up);
.
803a
	up->blocks = 0;
.
638a
 *  send a reject
 */
static void
sendrej(Urp *up)
{
	flushinput(up);
	qlock(&up->ack);
	if((up->lastecho&~Nmask) == ECHO){
		DPRINT("REJ %d\n", up->iseq);
		sendctl(up, up->lastecho = REJ|up->iseq);
	}
	qunlock(&up->ack);
}

/*
 *  send an acknowledge
 */
static void
sendack(Urp *up)
{
	Block *bp;

	/*
	 *  check the precondition for acking
	 */
	if(up->rq->next->len>=Streamhi || (up->lastecho&Nmask)==up->iseq)
		return;

	if(!canqlock(&up->ack))
		return;

	/*
	 *  check again now that we've locked
	 */
	if(up->rq->next->len>=Streamhi || (up->lastecho&Nmask)==up->iseq){
		qunlock(&up->ack);
		return;
	}

	/*
	 *  send the ack
	 */
	sendctl(up, up->lastecho = ECHO|up->iseq);
	qunlock(&up->ack);
}

/*
.
487a
		if(q->next->len < Streamhi)
			sendctl(up, up->lastecho = ECHO|i);
		qunlock(&up->ack);
.
483,486c
		qlock(&up->ack);
.
458,461c
			sendrej(up);
.
450,454c
			sendrej(up);
.
443,446c
			sendrej(up);
.
380c
		DPRINT("rENQ %d %uo %uo\n", up->blocks, up->lastecho, ACK+up->iseq);
		up->blocks = 0;
.
311a
		qunlock(&up->ack);
.
307a
		qlock(&up->ack);
.
112a
static void	sendack(Urp*);
static void	sendrej(Urp*);
.
47a
	int	blocks;
.
42c
	QLock	ack;		/* ack lock */
.
## diffname gnot/sturp.c 1990/0331
## diff -e /n/bootesdump/1990/0321/sys/src/9/68020/sturp.c /n/bootesdump/1990/0331/sys/src/9/68020/sturp.c
66c
#define WINDOW(u) ((u)->unechoed>(u)->next ? (u)->unechoed+(u)->maxout-(u)->next-8 :\
			(u)->unechoed+(u)->maxout-(u)->next)
.
## diffname gnot/sturp.c 1990/0403
## diff -e /n/bootesdump/1990/0331/sys/src/9/68020/sturp.c /n/bootesdump/1990/0403/sys/src/9/68020/sturp.c
807,808d
692c
	if(QFULL(up->wq->next))
.
670c
	if(QFULL(up->rq->next) || (up->lastecho&Nmask)==up->iseq){
.
661c
	if(QFULL(up->rq->next) || (up->lastecho&Nmask)==up->iseq)
.
625c
	if(QFULL(up->wq->next))
.
482c
		if(!QFULL(q->next))
.
314c
		if(!QFULL(q->next))
.
256c
	if(BLEN(bp)>0 && !QFULL(q->next))
.
## diffname gnot/sturp.c 1990/0406
## diff -e /n/bootesdump/1990/0403/sys/src/9/68020/sturp.c /n/bootesdump/1990/0406/sys/src/9/68020/sturp.c
883a
	up->kstarted = 0;
.
882d
870a
	if(waserror()){
		up->state = 0;
		up->kstarted = 0;
		wakeup(&up->r);
		return;
	}
.
585,586d
583a
		if(bp)
			putbq(q, bp);
.
575,582c
	if(up->xb[up->nxb]==0) {
		for(bp=getq(q); bp && up->xb[up->nxb]==0; up->nxb=NEXT(up->nxb)){
			if(BLEN(bp) > up->maxblock){
				nbp = up->xb[up->nxb] = allocb(0);
				nbp->rptr = bp->rptr;
				nbp->wptr = bp->rptr = bp->rptr + up->maxblock;
			} else {
				up->xb[up->nxb] = bp;
				bp = getq(q);
			}
.
209a

	if(up->kstarted == 0)
		up->state = 0;
.
## diffname gnot/sturp.c 1990/05312
## diff -e /n/bootesdump/1990/0406/sys/src/9/68020/sturp.c /n/bootesdump/1990/05312/sys/src/9/68020/sturp.c
894a
	DPRINT("urpkproc %ux\n", up);
.
889c
		if(up->state == 0){
			DPRINT("urpkproc: %ux->state == 0\n", up);
			break;
		}
		if(!QFULL(up->rq->next))
			sendack(up);
.
876a
		print("urpkproc error %ux\n", up);
.
821a
	up->rexmit = 0;
.
777c
			up->rexmit = 1;
.
745,749c
			i = up->unacked;
			qlock(&up->xl[i]);
			if(up->xb[i])
				freeb(up->xb[i]);
			up->xb[i] = 0;
			qunlock(&up->xl[i]);
.
735a
	int i;
.
615a
		poperror();
.
611,614c
	if(up->rexmit){
		up->rexmit = 0;
		up->next = up->unechoed;
	}
	while(WINDOW(up)>0 && up->xb[up->next]!=0){
		i = up->next;
		qlock(&up->xl[i]);
		if(waserror()){
			qunlock(&up->xl[i]);
			nexterror();
		}
		sendblock(up, i);
		qunlock(&up->xl[i]);
.
598,599c
	if(up->unechoed!=up->next && NOW>up->timer){
.
549a
	int i;
.
475c
			if(up->trbuf[0] != BOTM)
				bp->flags |= S_DELIM;
.
462a
		} else if(q->next->len > (3*Streamhi)/2
			|| q->next->nb > (3*Streambhi)/2) {
			flushinput(up);
			break;
.
374d
372a
		bp->flags &= ~S_DELIM;
.
261c
	} else
.
259c
	if(BLEN(bp)>0  && q->next->len<2*Streamhi && q->next->nb<2*Streambhi){
		bp->flags |= S_DELIM;
.
212a
	}
.
211c
	if(up->kstarted == 0){
		DPRINT("urpclose %ux\n", up);
.
209c
	for(i = 0; i < 7; i++)
		if(up->xb[i]){
			freeb(up->xb[i]);
			up->xb[i] = 0;
		}
	qunlock(&up->xmit);
.
207c
	 *  free all staged but unsent messages
.
204d
199a
	wakeup(&up->rq->r);

	qlock(&up->xmit);
	/*
	 *  ack all outstanding messages
	 */
.
198d
196c
	 *  kill off the kernel process
.
193c
	tsleep(&up->r, isflushed, up, 2*60*1000);
.
190a
	 *
	 *  if 2 minutes elapse, give it up
.
171,178d
169c
	return (up->state&HUNGUP) || (up->unechoed==up->nxb && up->wq->len==0);
.
62a
	int	rexmit;
.
51d
## diffname gnot/sturp.c 1990/0629
## diff -e /n/bootesdump/1990/05312/sys/src/9/68020/sturp.c /n/bootesdump/1990/0629/sys/src/9/68020/sturp.c
925a
}

/*
 *  urp got very confused, complain
 */
static void
urpvomit(char *msg, Urp* up)
{
	print("urpvomit: %s %ux next %d unechoed %d unacked %d nxb %d\n",
		msg, up, up->next, up->unechoed, up->unacked, up->nxb);
	print("\txb: %ux %ux %ux %ux %ux %ux %ux %ux\n",
		up->xb[0], up->xb[1], up->xb[2], up->xb[3], up->xb[4], 
		up->xb[5], up->xb[6], up->xb[7]);
	print("\tiseq: %uo lastecho: %uo trx: %d trbuf: %uo %uo %uo\n",
		up->iseq, up->lastecho, up->trx, up->trbuf[0], up->trbuf[1],
		up->trbuf[2]);
	print("\tupq: %ux %d %d\n", up->rq->next->first,  up->rq->next->nb,
		up->rq->next->len);
}

int
urpdump(void)
{
	Urp *up;

	for(up = urp; up < &urp[Nurp]; up++)
		if(up->rq)
			urpvomit("", up);
.
770a
			else
				urpvomit("rcvack", up);
.
724a
	if(bp == 0){
		urpvomit("sendblock", up);
		return;
	}
.
622,626c
	while(WINDOW(up)>0 && up->next!=up->nxb){
.
620a
	 *
	 *  the lock is to synchronize with acknowledges that free
	 *  blocks.
.
610c
	if(up->rexmit){
		/*
		 *  if a retransmit is requested, move next back to
		 *  the unacked blocks
		 */
		up->rexmit = 0;
		up->next = up->unacked;
	} else if(up->unacked!=up->next && NOW>up->timer){
		/*
		 *  if a retransmit time has elapsed since a transmit,
		 *  send an ENQ
		 */
.
608c
	 *  retransmit cruft
.
604,606c

.
599a
			up->nxb = i;
.
590,591c
	i = NEXT(up->nxb);
	if(i != up->unechoed) {
		for(bp = getq(q); bp && i!=up->unechoed; i = NEXT(i)){
			if(up->xb[up->nxb] != 0)
				urpvomit("output", up);
.
587c
	 *  fill the transmit buffers, `nxb' can never overtake `unechoed'
.
119a
static void	urpvomit(char*, Urp*);
.
68c
#define IN(x, f, n) (f<=n ? (x>=f && x<n) : (x<n || x>=f))
.
## diffname gnot/sturp.c 1990/0702
## diff -e /n/bootesdump/1990/0629/sys/src/9/68020/sturp.c /n/bootesdump/1990/0702/sys/src/9/68020/sturp.c
961c
	print("\tupq: %ux %d %d\n", &up->rq->next->r,  up->rq->next->nb,
.
## diffname gnot/sturp.c 1990/0717
## diff -e /n/bootesdump/1990/0702/sys/src/9/68020/sturp.c /n/bootesdump/1990/0717/sys/src/9/68020/sturp.c
970c
	for(up = urp; up < &urp[conf.nurp]; up++)
.
179a
	if(up == 0)
		return;
.
141a
	}
.
140c
	if(up == &urp[conf.nurp]){
		q->ptr = 0;
		WR(q)->ptr = 0;
.
134c
	for(up = urp; up < &urp[conf.nurp]; up++){
.
123a
void
urpreset(void)
{
	newqinfo(&urpinfo);
	urp = (Urp *)ialloc(conf.nurp*sizeof(Urp), 0);
}

.
100c
Urp	*urp;
.
10d
## diffname gnot/sturp.c 1990/0721
## diff -e /n/bootesdump/1990/0717/sys/src/9/68020/sturp.c /n/bootesdump/1990/0721/sys/src/9/68020/sturp.c
928a
	q = up->wq;
.
926c
	Urp *up; Queue *q;
.
690a
	Queue *q = up->wq;
.
538a
		if(streamparse("debug", bp)){
			switch(getfields((char *)bp->rptr, fields, 2, ' ')){
			case 1:
				if (strcmp(fields[0], "on") == 0) {
					q->flag |= QDEBUG;
					q->other->flag |= QDEBUG;
				}
				if (strcmp(fields[0], "off") == 0) {
					q->flag &= ~QDEBUG;
					q->other->flag &= ~QDEBUG;
				}
			}
			freeb(bp);
			return;
		}
.
485a
		DPRINT("rSEQ%d accept %d\n", i, q->len);
.
461,462c
	 *  if the sequence number is the next expected
	 *	and the trailer length == 3
.
442a
	case BOTS:
		DPRINT("rBOT%d...", ctl-BOT);
.
441d
14c
#define DPRINT if(q->flag&QDEBUG)kprint
.
## diffname gnot/sturp.c 1990/0725
## diff -e /n/bootesdump/1990/0721/sys/src/9/68020/sturp.c /n/bootesdump/1990/0725/sys/src/9/68020/sturp.c
974a
}

/*
 *  timer to wakeup urpkproc's for retransmissions
 */
static void
urptimer(Alarm *a)
{
	Urp *up;
	Urp *last;
	Queue *q;

	urptiming = 0;
	for(up = urp, last = &urp[conf.nurp]; up < last; up++){
		if(up->state==0)
			continue;
		if(up->unacked!=up->next && NOW>up->timer){
			q = up->rq;
			if(q)
				wakeup(&q->r);
		}
	}
.
973a
	wakeup(&up->r);
	poperror();
.
972d
970c
		sleep(&up->rq->r, todo, up);
.
966d
957,964c
		if(up->state & HUNGUP)
.
951d
947c
	up->kstarted = 1;
.
944c
	Urp *up;
.
678a
out:
.
656,658c
		goto out;
.
610,612c
		goto out;
.
591a
	/*
	 *  start the urptimer if it isn't already
	 */
	if(urptiming==0){
		if(canlock(&urptlock)){
			if(urptiming == 0)
				urptiming = alarm(500, urptimer, 0);
			unlock(&urptlock);
		}
	}

.
226,229c
	/*
	 *  wait for kernel process to die
	 */
	while(up->kstarted)
		sleep(&up->r, isdead, up);

	up->state = 0;
.
202c
	 *  tell kernel process to die
.
173a
isdead(void *a)
{
	Urp *up;

	up = (Urp *)a;
	return up->kstarted==0;
}
static int
.
163,166c
	sprint(name, "urp%d", up - urp);
	kproc(name, urpkproc, up);

	/*
	 *  start the urptimer if it isn't already
	 */
	if(urptiming==0){
		if(canlock(&urptlock)){
			if(urptiming == 0)
				urptiming = alarm(500, urptimer, 0);
			unlock(&urptlock);
		}
.
118a
static void	urptimer(Alarm*);
.
70a
 *  Alarm for urptiming
 */
Alarm	*urptiming;
Lock	urptlock;

/*
.
14c
#define DPRINT /*if(q->flag&QDEBUG)kprint*/
.
## diffname gnot/sturp.c 1990/0726
## diff -e /n/bootesdump/1990/0725/sys/src/9/68020/sturp.c /n/bootesdump/1990/0726/sys/src/9/68020/sturp.c
1001,1022d
998,999d
996a
	up->state = 0;
.
995c
		tsleep(&up->rq->r, todo, up, MSrexmit/2);
.
991a
		}
.
990c
		if(up->state & (HUNGUP|CLOSING)){
			if(isflushed(up))
				wakeup(&up->r);
			if(up->state & HUNGUP)
				break;
		}
		if(up->state == 0){
			DPRINT("urpkproc: %ux->state == 0\n", up);
.
984a
		up->state = 0;
.
981c
	q = up->wq;
.
978c
	Urp *up; Queue *q;
.
712d
691c
		qunlock(&up->xmit);
		poperror();
		return;
.
647c
		qunlock(&up->xmit);
		poperror();
		return;
.
618,628d
249,255c
	if(up->kstarted == 0){
		DPRINT("urpclose %ux\n", up);
		up->state = 0;
	}
.
225c
	 *  kill off the kernel process
.
189,196d
170,181c
	if(up->kstarted == 0){
		up->kstarted = 1;
		sprint(name, "**urp%d**", up - urp);
		kproc(name, urpkproc, up);
.
125d
71,76d
14c
#define DPRINT if(q->flag&QDEBUG)kprint
.
## diffname gnot/sturp.c 1990/0728
## diff -e /n/bootesdump/1990/0726/sys/src/9/68020/sturp.c /n/bootesdump/1990/0728/sys/src/9/68020/sturp.c
974a
}

/*
 *  timer to wakeup urpkproc's for retransmissions
 */
static void
urptimer(Alarm *a)
{
	Urp *up;
	Urp *last;
	Queue *q;

	cancel(a);
	alarm(500, urptimer, 0);
	for(up = urp, last = &urp[conf.nurp]; up < last; up++){
		if(up->state==0)
			continue;
		if(up->unacked!=up->next && NOW>up->timer){
			q = up->rq;
			if(q)
				wakeup(&q->r);
		}
	}
.
973a
	wakeup(&up->r);
	poperror();
.
972d
970c
		sleep(&up->rq->r, todo, up);
.
966d
957,964c
		if(up->state & HUNGUP)
.
951d
947c
	up->kstarted = 1;
.
944c
	Urp *up;
.
678a
out:
.
656,658c
		goto out;
.
610,612c
		goto out;
.
226,229c
	/*
	 *  wait for kernel process to die
	 */
	while(up->kstarted)
		sleep(&up->r, isdead, up);

	up->state = 0;
.
202c
	 *  tell kernel process to die
.
173a
isdead(void *a)
{
	Urp *up;

	up = (Urp *)a;
	return up->kstarted==0;
}
static int
.
163,167c
	sprint(name, "urp%d", up - urp);
	kproc(name, urpkproc, up);
.
127a
	alarm(500, urptimer, 0);
.
118a
static void	urptimer(Alarm*);
.
14c
#define DPRINT /*if(q->flag&QDEBUG)kprint*/
.
## diffname gnot/sturp.c 1990/0731
## diff -e /n/bootesdump/1990/0728/sys/src/9/68020/sturp.c /n/bootesdump/1990/0731/sys/src/9/68020/sturp.c
991c
		if((up->unacked!=up->next || (up->state&INITING)) && NOW>up->timer){
.
## diffname gnot/sturp.c 1990/0804
## diff -e /n/bootesdump/1990/0731/sys/src/9/68020/sturp.c /n/bootesdump/1990/0804/sys/src/9/68020/sturp.c
991,995c
		if(up->rq && todo(up))
			wakeup(&up->rq->r);
.
973d
946c

	return (up->state&INITING)
	? NOW>up->timer					/* time to INIT1 */
	: ((up->unacked!=up->next && NOW>up->timer)	/* time to ENQ */
	  || (!QFULL(up->rq->next) && up->iseq!=(up->lastecho&7))); /* time to ECHO */
.
## diffname gnot/sturp.c 1990/0809
## diff -e /n/bootesdump/1990/0804/sys/src/9/68020/sturp.c /n/bootesdump/1990/0809/sys/src/9/68020/sturp.c
949a
	  || WINDOW(up)>0 && up->next!=up->nxb
.
14c
#define DPRINT if(q->flag&QDEBUG)kprint
.
## diffname gnot/sturp.c 1990/0814
## diff -e /n/bootesdump/1990/0809/sys/src/9/68020/sturp.c /n/bootesdump/1990/0814/sys/src/9/68020/sturp.c
777d
774,775c
	if(bp == 0)
.
## diffname gnot/sturp.c 1990/0911
## diff -e /n/bootesdump/1990/0814/sys/src/9/68020/sturp.c /n/bootesdump/1990/0911/sys/src/9/68020/sturp.c
127d
124c
static void
.
122c
Qinfo urpinfo = { urpciput, urpoput, urpopen, urpclose, "urp", urpreset };
.
103a
static void	urpreset(void);
.
## diffname gnot/sturp.c 1990/0925
## diff -e /n/bootesdump/1990/0911/sys/src/9/68020/sturp.c /n/bootesdump/1990/0925/sys/src/9/68020/sturp.c
969c
			sendack(up, ECHO);
.
947a
	  || up->tofree != up->unacked
.
915a
	qunlock(&up->xmit);
.
908d
904d
893a
	up->tofree = 1;
.
881a
	qlock(&up->xmit);
.
819,826d
817c
		for(; up->unacked != next; up->unacked = NEXT(up->unacked))
.
733,753c
	qlock(&up->ack);
	if(!QFULL(up->rq->next) && (up->lastecho&Nmask)!=up->iseq)
		sendctl(up, up->lastecho = type|up->iseq);
.
729c
sendack(Urp *up, int type)
.
718c
	if(!QFULL(up->rq->next) && (up->lastecho&~Nmask)==ECHO){
.
715a

.
683d
674,681c
		sendblock(up, up->next);
.
667a
	 *  free any blocks that can be freed
	 */
	while(up->tofree != up->unacked){
		if(up->xb[up->tofree] == 0)
			urpvomit("output2", up);
		else
			freeb(up->xb[up->tofree]);
		up->xb[up->tofree] = 0;
		up->tofree = NEXT(up->tofree);
	}

	/*
.
602,603c
	qlock(&up->xmit);
.
520,522c
		sendack(up, ECHO);
.
518d
348c
		sendack(up, ECHO);
.
343,346d
158c
	unlock(&urpalloc);
.
150a
		unlock(&urpalloc);
.
146,147d
142,143c
	lock(&urpalloc);
	for(up = urp; up < &urp[conf.nurp]; up++)
.
115c
static void	sendack(Urp*, int);
.
99a
Lock	urpalloc;
.
59d
54a
	int	tofree;		/* first block to be freed (unacked is first not to) */
.
36d
## diffname gnot/sturp.c 1990/0928
## diff -e /n/bootesdump/1990/0925/sys/src/9/68020/sturp.c /n/bootesdump/1990/0928/sys/src/9/68020/sturp.c
941c
			sendack(up);
.
919d
886d
878a
		qunlock(&up->xl[i]);
.
875a
		qlock(&up->xl[i]);
.
865d
852d
796a
			qlock(&up->xl[i]);
			if(up->xb[i])
				freeb(up->xb[i]);
			else
				urpvomit("rcvack", up);
			up->xb[i] = 0;
			qunlock(&up->xl[i]);
		}
.
795c
		for(; up->unacked != next; up->unacked = NEXT(up->unacked)){
.
729,731c
	/*
	 *  check the precondition for acking
	 */
	if(QFULL(up->rq->next) || (up->lastecho&Nmask)==up->iseq)
		return;

	if(!canqlock(&up->ack))
		return;

	/*
	 *  check again now that we've locked
	 */
	if(QFULL(up->rq->next) || (up->lastecho&Nmask)==up->iseq){
		qunlock(&up->ack);
		return;
	}

	/*
	 *  send the ack
	 */
	sendctl(up, up->lastecho = ECHO|up->iseq);
.
725c
sendack(Urp *up)
.
714c
	if((up->lastecho&~Nmask) == ECHO){
.
711d
678a
		poperror();
.
677c
		i = up->next;
		qlock(&up->xl[i]);
		if(waserror()){
			qunlock(&up->xl[i]);
			nexterror();
		}
		sendblock(up, i);
		qunlock(&up->xl[i]);
.
659,670d
594c
	if(!canqlock(&up->xmit))
		return;
.
514c
		if(!QFULL(q->next))
			sendctl(up, up->lastecho = ECHO|i);
		qunlock(&up->ack);
.
512a
		qlock(&up->ack);
.
343c
		qunlock(&up->ack);
.
341a
		qlock(&up->ack);
		i = ctl & Nmask;
		if(!QFULL(q->next))
			sendctl(up, up->lastecho = ECHO+i);
.
157c
	qunlock(up);
.
149d
145a
		qunlock(up);
	}
.
142,143c
	for(up = urp; up < &urp[conf.nurp]; up++){
		qlock(up);
.
115c
static void	sendack(Urp*);
.
99d
58a
	QLock	xl[8];
.
54d
35a
	QLock;
.
## diffname gnot/sturp.c 1990/0930
## diff -e /n/bootesdump/1990/0928/sys/src/9/68020/sturp.c /n/bootesdump/1990/0930/sys/src/9/68020/sturp.c
947c
	: ((up->unechoed!=up->next && NOW>up->timer)	/* time to ENQ */
.
656c
	} else if(up->unechoed!=up->next && NOW>up->timer){
.
## diffname gnot/sturp.c 1990/1002
## diff -e /n/bootesdump/1990/0930/sys/src/9/68020/sturp.c /n/bootesdump/1990/1002/sys/src/9/68020/sturp.c
948,949c
	  || (WINDOW(up)>0 && (up->next!=up->nxb || up->wq->first)) /* open xmit window */
	  || (up->iseq!=(up->lastecho&7) && !QFULL(up->rq->next))); /* time to ECHO */
.
797c
	PUTNEXT(q, m);
	DPRINT("sb %d\n", bn);
.
784c
	PUTNEXT(q, m);
.
767c
	if(QFULL(q->next))
.
765a
	q = up->wq;
.
764a
	Queue *q;
.
706c
	PUTNEXT(q, bp);
	DPRINT("sCTL %ulx\n", ctl);
.
699c
	q = up->wq;
	if(QFULL(q->next))
.
697a
	Queue *q;
.
467a
		DPRINT("rACK %ux\n", ctl);
.
## diffname gnot/sturp.c 1990/1004
## diff -e /n/bootesdump/1990/1002/sys/src/9/68020/sturp.c /n/bootesdump/1990/1004/sys/src/9/68020/sturp.c
1000,1001c
		if(up->rq && canlock(up)){
			if(up->rq && NOW>up->timer
			   && ((up->state&INITING) || up->unechoed!=up->next))
				wakeup(&up->rq->r);
			unlock(up);
		}
.
993d
239a
	up->rq = 0;
	unlock(up);
.
238a
	lock(up);
.
158c
	unlock(up);
.
146c
		unlock(up);
.
143c
		lock(up);
.
36c
	Lock;
.
14c
#define DPRINT if(q->flag&QDEBUG)print
.
## diffname gnot/sturp.c 1990/11151
## diff -e /n/bootesdump/1990/1004/sys/src/9/68020/sturp.c /n/bootesdump/1990/11151/sys/src/9/68020/sturp.c
123c
Qinfo urpinfo =
{
	urpciput,
	urpoput,
	urpopen,
	urpclose,
	"urp",
	urpreset
};
.
## diffname gnot/sturp.c 1990/11211
## diff -e /n/bootesdump/1990/11151/sys/src/9/68020/sturp.c /n/bootesdump/1990/11211/sys/src/9/68020/sturp.c
159c
		error(Egreg);
.
## diffname gnot/sturp.c 1990/1206
## diff -e /n/bootesdump/1990/11211/sys/src/9/68020/sturp.c /n/bootesdump/1990/1206/sys/src/9/68020/sturp.c
1015a
		tsleep(&urpkr, return0, 0, 1000);
.
984,1014c
		for(up = urp; up < eup; up++){
			if(up->state==0 || (up->state&HUNGUP))
				break;
			if(!canqlock(up))
				continue;
			if(up->state==0 || (up->state&HUNGUP))
				break;
			if(up->iseq!=(up->lastecho&7) && !QFULL(up->rq->next))
				sendack(up);
			output(up);
			qunlock(up);
.
977,982c
	eup = urp + conf.nurp;
.
974,975c
	if(waserror())
		;
.
972c
	Urp *up, *eup;
.
953,968d
876c
	wakeup(&urpkr);
.
443c
		wakeup(&urpkr);
.
322c
		wakeup(&urpkr);
.
263d
249,250c
	qunlock(up);
.
241,247c
	qlock(up);
.
220d
215,218d
181,188d
169,174d
166c
	qunlock(up);
.
154c
		qunlock(up);
.
151c
		qlock(up);
.
146a
	if(!urpkstarted){
		qlock(&urpkl);
		if(!urpkstarted){
			urpkstarted = 1;
			kproc("urpkproc", urpkproc, 0);
		}
		qunlock(&urpkl);
	}

.
137d
120d
99,100d
64a
Urp	*urp;

Rendez	urpkr;
QLock	urpkl;
int	urpkstarted;

.
62,63d
38c
	Rendez	r;		/* process waiting for output to finish */
.
36c
	QLock;
.
## diffname gnot/sturp.c 1990/1210 # deleted
## diff -e /n/bootesdump/1990/1206/sys/src/9/68020/sturp.c /n/bootesdump/1990/1210/sys/src/9/68020/sturp.c
1,987d

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