kern/src/net/ipv6.c - upstream - Git at Google

 /* Copyright © 1994-1999 Lucent Technologies Inc.  All rights reserved.
  * Portions Copyright © 1997-1999 Vita Nuova Limited
  * Portions Copyright © 2000-2007 Vita Nuova Holdings Limited
  *                                (www.vitanuova.com)
  * Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
  *
  * Modified for the Akaros operating system:
  * Copyright (c) 2013-2014 The Regents of the University of California
  * Copyright (c) 2013-2016 Google Inc.
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to deal
  * in the Software without restriction, including without limitation the rights
  * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
  * copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
  * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
  * SOFTWARE.
  */

 #include <error.h>
 #include <net/ip.h>
 #include <kmalloc.h>

 enum {
 	IP4HDR = 20,		/* sizeof(Ip4hdr) */
 	IP6HDR = 40,		/* sizeof(Ip6hdr) */
 	IP_HLEN4 = 0x05,	/* Header length in words */
 	IP_DF = 0x4000,		/* Don't fragment */
 	IP_MF = 0x2000,		/* More fragments */
 	IP6FHDR = 8,		/* sizeof(Fraghdr6) */
 	IP_MAX = (32 * 1024),	/* Maximum Internet packet size */
 };

 #define IPV6CLASS(hdr) ((hdr->vcf[0]&0x0F)<<2 | (hdr->vcf[1]&0xF0)>>2)
 #define BLKIPVER(xp)	(((struct ip6hdr*)((xp)->rp))->vcf[0]&0xF0)
 #define NEXT_ID(x) (__sync_add_and_fetch(&(x), 1))
 /*
  * This sleazy macro is stolen shamelessly from ip.c, see comment there.
  */
 #define BKFG(xp)	((struct Ipfrag*)((xp)->base))
 struct fragment6;

 struct block *ip6reassemble(struct IP *, int unused_int, struct block *,
                             struct ip6hdr *);
 void ipfragfree6(struct IP *, struct fragment6 *);
 struct fragment6 *ipfragallo6(struct IP *);
 static struct block *procxtns(struct IP *ip, struct block *bp, int doreasm);
 int unfraglen(struct block *bp, uint8_t * nexthdr, int setfh);
 struct block *procopts(struct block *bp);

 /* MIB II counters */
 enum {
 	Forwarding,
 	DefaultTTL,
 	InReceives,
 	InHdrErrors,
 	InAddrErrors,
 	ForwDatagrams,
 	InUnknownProtos,
 	InDiscards,
 	InDelivers,
 	OutRequests,
 	OutDiscards,
 	OutNoRoutes,
 	ReasmTimeout,
 	ReasmReqds,
 	ReasmOKs,
 	ReasmFails,
 	FragOKs,
 	FragFails,
 	FragCreates,

 	Nstats,
 };

 static char *statnames[] = {
 	[Forwarding] "Forwarding",
 	[DefaultTTL] "DefaultTTL",
 	[InReceives] "InReceives",
 	[InHdrErrors] "InHdrErrors",
 	[InAddrErrors] "InAddrErrors",
 	[ForwDatagrams] "ForwDatagrams",
 	[InUnknownProtos] "InUnknownProtos",
 	[InDiscards] "InDiscards",
 	[InDelivers] "InDelivers",
 	[OutRequests] "OutRequests",
 	[OutDiscards] "OutDiscards",
 	[OutNoRoutes] "OutNoRoutes",
 	[ReasmTimeout] "ReasmTimeout",
 	[ReasmReqds] "ReasmReqds",
 	[ReasmOKs] "ReasmOKs",
 	[ReasmFails] "ReasmFails",
 	[FragOKs] "FragOKs",
 	[FragFails] "FragFails",
 	[FragCreates] "FragCreates",
 };

 struct Fragment4 {
 	struct block *blist;
 	struct fragment4 *next;
 	uint32_t src;
 	uint32_t dst;
 	uint16_t id;
 	uint64_t age;
 };

 struct fragment6 {
 	struct block *blist;
 	struct fragment6 *next;
 	uint8_t src[IPaddrlen];
 	uint8_t dst[IPaddrlen];
 	unsigned int id;
 	uint64_t age;
 };

 struct Ipfrag {
 	uint16_t foff;
 	uint16_t flen;
 };

 /* an instance of IP */
 struct IP {
 	uint32_t stats[Nstats];

 	qlock_t fraglock4;
 	struct fragment4 *flisthead4;
 	struct fragment4 *fragfree4;
 	int id4;

 	qlock_t fraglock6;
 	struct fragment6 *flisthead6;
 	struct fragment6 *fragfree6;
 	int id6;

 	int iprouting;		/* true if we route like a gateway */
 };

 int ipoput6(struct Fs *f, struct block *bp,
             int gating, int ttl, int tos, struct conv *c)
 {
 	ERRSTACK(1);
 	int tentative;
 	struct Ipifc *ifc;
 	uint8_t *gate, nexthdr;
 	struct ip6hdr *eh;
 	int medialen, len, chunk, uflen, flen, seglen, lid, offset, fragoff;
 	int morefrags, blklen;
 	struct route *r, *sr;
 	struct fraghdr6 fraghdr;
 	struct block *xp, *nb;
 	struct IP *ip;
 	int rv = 0;

 	ip = f->ip;

 	/* Sanity check for our transport protocols. */
 	if (bp->mss)
 		assert(bp->flag & Btso);
 	/* Fill out the ip header */
 	eh = (struct ip6hdr *)(bp->rp);

 	ip->stats[OutRequests]++;

 	/* Number of uint8_ts in data and ip header to write */
 	len = blocklen(bp);

 	tentative = iptentative(f, eh->src);
 	if (tentative) {
 		netlog(f, Logip,
 		       "reject tx of packet with tentative src address\n");
 		goto free;
 	}

 	if (gating) {
 		chunk = nhgets(eh->ploadlen);
 		if (chunk > len) {
 			ip->stats[OutDiscards]++;
 			netlog(f, Logip, "short gated packet\n");
 			goto free;
 		}
 		if (chunk + IPV6HDR_LEN < len)
 			len = chunk + IPV6HDR_LEN;
 	}

 	if (len >= IP_MAX) {
 		ip->stats[OutDiscards]++;
 		netlog(f, Logip, "exceeded ip max size %I\n", eh->dst);
 		goto free;
 	}

 	r = v6lookup(f, eh->dst, c);
 	if (r == NULL) {
 		ip->stats[OutNoRoutes]++;
 		netlog(f, Logip, "no interface %I\n", eh->dst);
 		rv = -1;
 		goto free;
 	}

 	ifc = r->rt.ifc;
 	if (r->rt.type & (Rifc | Runi))
 		gate = eh->dst;
 	else if (r->rt.type & (Rbcast | Rmulti)) {
 		gate = eh->dst;
 		sr = v6lookup(f, eh->src, NULL);
 		if (sr != NULL && (sr->rt.type & Runi))
 			ifc = sr->rt.ifc;
 	} else
 		gate = r->v6.gate;

 	if (!gating)
 		eh->vcf[0] = IP_VER6;
 	eh->ttl = ttl;
 	if (!gating) {
 		eh->vcf[0] |= (tos >> 4);
 		eh->vcf[1] = (tos << 4);
 	}

 	if (!canrlock(&ifc->rwlock)) {
 		goto free;
 	}

 	if (waserror()) {
 		runlock(&ifc->rwlock);
 		nexterror();
 	}

 	if (ifc->m == NULL) {
 		goto raise;
 	}

 	/* If we dont need to fragment just send it */
 	medialen = ifc->maxtu - ifc->m->hsize;
 	if (len <= medialen) {
 		hnputs(eh->ploadlen, len - IPV6HDR_LEN);
 		ifc->m->bwrite(ifc, bp, V6, gate);
 		runlock(&ifc->rwlock);
 		poperror();
 		return 0;
 	}

 	if (gating)
 		if (ifc->reassemble <= 0) {
 			/*
 			 * v6 intermediate nodes are not supposed to fragment
 			 * pkts; we fragment if ifc->reassemble is turned on; an
 			 * exception needed for nat.
 			 */
 			ip->stats[OutDiscards]++;
 			icmppkttoobig6(f, ifc, bp);
 			netlog(f, Logip, "%I: gated pkts not fragmented\n",
 			       eh->dst);
 			goto raise;
 		}

 	/* start v6 fragmentation */
 	uflen = unfraglen(bp, &nexthdr, 1);
 	if (uflen > medialen) {
 		ip->stats[FragFails]++;
 		ip->stats[OutDiscards]++;
 		netlog(f, Logip, "%I: unfragmentable part too big\n", eh->dst);
 		goto raise;
 	}

 	flen = len - uflen;
 	seglen = (medialen - (uflen + IP6FHDR)) & ~7;
 	if (seglen < 8) {
 		ip->stats[FragFails]++;
 		ip->stats[OutDiscards]++;
 		netlog(f, Logip, "%I: seglen < 8\n", eh->dst);
 		goto raise;
 	}

 	lid = NEXT_ID(ip->id6);
 	fraghdr.nexthdr = nexthdr;
 	fraghdr.res = 0;
 	hnputl(fraghdr.id, lid);

 	xp = bp;
 	offset = uflen;
 	while (xp != NULL && offset && offset >= BLEN(xp)) {
 		offset -= BLEN(xp);
 		xp = xp->next;
 	}
 	xp->rp += offset;

 	fragoff = 0;
 	morefrags = 1;

 	for (; fragoff < flen; fragoff += seglen) {
 		nb = block_alloc(uflen + IP6FHDR + seglen, MEM_WAIT);

 		if (fragoff + seglen >= flen) {
 			seglen = flen - fragoff;
 			morefrags = 0;
 		}

 		hnputs(eh->ploadlen, seglen + IP6FHDR);
 		memmove(nb->wp, eh, uflen);
 		nb->wp += uflen;

 		hnputs(fraghdr.offsetRM, fragoff);	// last 3 bits must be 0
 		fraghdr.offsetRM[1] |= morefrags;
 		memmove(nb->wp, &fraghdr, IP6FHDR);
 		nb->wp += IP6FHDR;

 		/* Copy data */
 		chunk = seglen;
 		while (chunk) {
 			if (!xp) {
 				ip->stats[OutDiscards]++;
 				ip->stats[FragFails]++;
 				freeblist(nb);
 				netlog(f, Logip, "!xp: chunk in v6%d\n", chunk);
 				goto raise;
 			}
 			blklen = chunk;
 			if (BLEN(xp) < chunk)
 				blklen = BLEN(xp);
 			memmove(nb->wp, xp->rp, blklen);

 			nb->wp += blklen;
 			xp->rp += blklen;
 			chunk -= blklen;
 			if (xp->rp == xp->wp)
 				xp = xp->next;
 		}

 		ifc->m->bwrite(ifc, nb, V6, gate);
 		ip->stats[FragCreates]++;
 	}
 	ip->stats[FragOKs]++;

 raise:
 	runlock(&ifc->rwlock);
 	poperror();
 free:
 	freeblist(bp);
 	return rv;
 }

 void ipiput6(struct Fs *f, struct Ipifc *ifc, struct block *bp)
 {
 	int hl;
 	int hop, tos;
 	uint8_t proto;
 	struct ip6hdr *h;
 	struct Proto *p;
 	int notforme;
 	int tentative;
 	uint8_t v6dst[IPaddrlen];
 	struct IP *ip;
 	struct route *r, *sr;

 	ip = f->ip;
 	ip->stats[InReceives]++;

 	/*
 	 *  Ensure we have all the header info in the first
 	 *  block.  Make life easier for other protocols by
 	 *  collecting up to the first 64 bytes in the first block.
 	 */
 	if (BLEN(bp) < 64) {
 		hl = blocklen(bp);
 		if (hl < IP6HDR)
 			hl = IP6HDR;
 		if (hl > 64)
 			hl = 64;
 		bp = pullupblock(bp, hl);
 		if (bp == NULL)
 			return;
 	}

 	h = (struct ip6hdr *)(bp->rp);

 	memmove(&v6dst[0], &(h->dst)[0], IPaddrlen);
 	notforme = ipforme(f, v6dst) == 0;
 	tentative = iptentative(f, v6dst);

 	if (tentative && (h->proto != ICMPv6)) {
 		printd("tentative addr, drop\n");
 		freeblist(bp);
 		return;
 	}

 	/* Check header version */
 	if (BLKIPVER(bp) != IP_VER6) {
 		ip->stats[InHdrErrors]++;
 		netlog(f, Logip, "ip: bad version 0x%x\n",
 		       (h->vcf[0] & 0xF0) >> 2);
 		freeblist(bp);
 		return;
 	}

 	/* route */
 	if (notforme) {
 		if (!ip->iprouting) {
 			freeb(bp);
 			return;
 		}
 		/* don't forward to source's network */
 		sr = v6lookup(f, h->src, NULL);
 		r = v6lookup(f, h->dst, NULL);

 		if (r == NULL || sr == r) {
 			ip->stats[OutDiscards]++;
 			freeblist(bp);
 			return;
 		}

 		/* don't forward if packet has timed out */
 		hop = h->ttl;
 		if (hop < 1) {
 			ip->stats[InHdrErrors]++;
 			icmpttlexceeded6(f, ifc, bp);
 			freeblist(bp);
 			return;
 		}

 		/* process headers & reassemble if the interface expects it */
 		bp = procxtns(ip, bp, r->rt.ifc->reassemble);

 		if (bp == NULL)
 			return;

 		ip->stats[ForwDatagrams]++;
 		h = (struct ip6hdr *)(bp->rp);
 		tos = IPV6CLASS(h);
 		hop = h->ttl;
 		ipoput6(f, bp, 1, hop - 1, tos, NULL);
 		return;
 	}

 	/* reassemble & process headers if needed */
 	bp = procxtns(ip, bp, 1);

 	if (bp == NULL)
 		return;

 	h = (struct ip6hdr *)(bp->rp);
 	proto = h->proto;
 	p = Fsrcvpcol(f, proto);
 	if (p != NULL && p->rcv != NULL) {
 		ip->stats[InDelivers]++;
 		(*p->rcv) (p, ifc, bp);
 		return;
 	}

 	ip->stats[InDiscards]++;
 	ip->stats[InUnknownProtos]++;
 	freeblist(bp);
 }

 /*
  * ipfragfree6 - copied from ipfragfree4 - assume hold fraglock6
  */
 void ipfragfree6(struct IP *ip, struct fragment6 *frag)
 {
 	struct fragment6 *fl, **l;

 	if (frag->blist)
 		freeblist(frag->blist);

 	memset(frag->src, 0, IPaddrlen);
 	frag->id = 0;
 	frag->blist = NULL;

 	l = &ip->flisthead6;
 	for (fl = *l; fl; fl = fl->next) {
 		if (fl == frag) {
 			*l = frag->next;
 			break;
 		}
 		l = &fl->next;
 	}

 	frag->next = ip->fragfree6;
 	ip->fragfree6 = frag;

 }

 /*
  * ipfragallo6 - copied from ipfragalloc4
  */
 struct fragment6 *ipfragallo6(struct IP *ip)
 {
 	struct fragment6 *f;

 	while (ip->fragfree6 == NULL) {
 		/* free last entry on fraglist */
 		for (f = ip->flisthead6; f->next; f = f->next) ;
 		ipfragfree6(ip, f);
 	}
 	f = ip->fragfree6;
 	ip->fragfree6 = f->next;
 	f->next = ip->flisthead6;
 	ip->flisthead6 = f;
 	f->age = NOW + 30000;

 	return f;
 }

 static struct block *procxtns(struct IP *ip, struct block *bp, int doreasm)
 {

 	int offset;
 	uint8_t proto;
 	struct ip6hdr *h;

 	h = (struct ip6hdr *)(bp->rp);
 	offset = unfraglen(bp, &proto, 0);

 	if ((proto == FH) && (doreasm != 0)) {
 		bp = ip6reassemble(ip, offset, bp, h);
 		if (bp == NULL)
 			return NULL;
 		offset = unfraglen(bp, &proto, 0);
 	}

 	if (proto == DOH || offset > IP6HDR)
 		bp = procopts(bp);

 	return bp;
 }

 /* returns length of "Unfragmentable part", i.e., sum of lengths of ipv6 hdr,
  * hop-by-hop & routing headers if present; *nexthdr is set to nexthdr value of
  * the last header in the "Unfragmentable part"; if setfh != 0, nexthdr field of
  * the last header in the "Unfragmentable part" is set to FH.
  */
 int unfraglen(struct block *bp, uint8_t * nexthdr, int setfh)
 {
 	uint8_t *p, *q;
 	int ufl, hs;

 	p = bp->rp;
 	q = p + 6; /* proto, = p+sizeof(Ip6hdr.vcf)+sizeof(Ip6hdr.ploadlen) */
 	*nexthdr = *q;
 	ufl = IP6HDR;
 	p += ufl;

 	for (;;) {
 		if (*nexthdr == HBH || *nexthdr == RH) {
 			*nexthdr = *p;
 			hs = ((int)*(p + 1) + 1) * 8;
 			ufl += hs;
 			q = p;
 			p += hs;
 		} else
 			break;
 	}

 	if (*nexthdr == FH)
 		*q = *p;

 	if (setfh)
 		*q = FH;

 	return ufl;
 }

 struct block *procopts(struct block *bp)
 {
 	return bp;
 }

 struct block *ip6reassemble(struct IP *ip, int uflen, struct block *bp,
                             struct ip6hdr *ih)
 {

 	int fend, offset;
 	unsigned int id;
 	struct fragment6 *f, *fnext;
 	struct fraghdr6 *fraghdr;
 	uint8_t src[IPaddrlen], dst[IPaddrlen];
 	struct block *bl, **l, *last, *prev;
 	int ovlap, len, fragsize, pktposn;

 	fraghdr = (struct fraghdr6 *)(bp->rp + uflen);
 	memmove(src, ih->src, IPaddrlen);
 	memmove(dst, ih->dst, IPaddrlen);
 	id = nhgetl(fraghdr->id);
 	offset = nhgets(fraghdr->offsetRM) & ~7;

 	/*
 	 *  block lists are too hard, pullupblock into a single block
 	 */
 	if (bp->next) {
 		bp = pullupblock(bp, blocklen(bp));
 		ih = (struct ip6hdr *)(bp->rp);
 	}

 	qlock(&ip->fraglock6);

 	/*
 	 *  find a reassembly queue for this fragment
 	 */
 	for (f = ip->flisthead6; f; f = fnext) {
 		fnext = f->next;
 		if (ipcmp(f->src, src) == 0 && ipcmp(f->dst, dst) == 0
 		    && f->id == id)
 			break;
 		if (f->age < NOW) {
 			ip->stats[ReasmTimeout]++;
 			ipfragfree6(ip, f);
 		}
 	}

 	/*
 	 *  if this isn't a fragmented packet, accept it
 	 *  and get rid of any fragments that might go
 	 *  with it.
 	 */
 	if (nhgets(fraghdr->offsetRM) == 0) {	// first frag is also the last
 		if (f != NULL) {
 			ipfragfree6(ip, f);
 			ip->stats[ReasmFails]++;
 		}
 		qunlock(&ip->fraglock6);
 		return bp;
 	}

 	if (bp->base + sizeof(struct Ipfrag) >= bp->rp) {
 		bp = padblock(bp, sizeof(struct Ipfrag));
 		bp->rp += sizeof(struct Ipfrag);
 	}

 	BKFG(bp)->foff = offset;
 	BKFG(bp)->flen = nhgets(ih->ploadlen) + IP6HDR - uflen - IP6FHDR;

 	/* First fragment allocates a reassembly queue */
 	if (f == NULL) {
 		f = ipfragallo6(ip);
 		f->id = id;
 		memmove(f->src, src, IPaddrlen);
 		memmove(f->dst, dst, IPaddrlen);

 		f->blist = bp;

 		qunlock(&ip->fraglock6);
 		ip->stats[ReasmReqds]++;
 		return NULL;
 	}

 	/*
 	 *  find the new fragment's position in the queue
 	 */
 	prev = NULL;
 	l = &f->blist;
 	bl = f->blist;
 	while (bl != NULL && BKFG(bp)->foff > BKFG(bl)->foff) {
 		prev = bl;
 		l = &bl->next;
 		bl = bl->next;
 	}

 	/* Check overlap of a previous fragment - trim away as necessary */
 	if (prev) {
 		ovlap = BKFG(prev)->foff + BKFG(prev)->flen - BKFG(bp)->foff;
 		if (ovlap > 0) {
 			if (ovlap >= BKFG(bp)->flen) {
 				freeblist(bp);
 				qunlock(&ip->fraglock6);
 				return NULL;
 			}
 			BKFG(prev)->flen -= ovlap;
 		}
 	}

 	/* Link onto assembly queue */
 	bp->next = *l;
 	*l = bp;

 	/* Check to see if succeeding segments overlap */
 	if (bp->next) {
 		l = &bp->next;
 		fend = BKFG(bp)->foff + BKFG(bp)->flen;

 		/* Take completely covered segments out */

 		while (*l) {
 			ovlap = fend - BKFG(*l)->foff;

 			if (ovlap <= 0)
 				break;
 			if (ovlap < BKFG(*l)->flen) {
 				BKFG(*l)->flen -= ovlap;
 				BKFG(*l)->foff += ovlap;
 				/* move up ih hdrs */
 				memmove((*l)->rp + ovlap, (*l)->rp, uflen);
 				(*l)->rp += ovlap;
 				break;
 			}
 			last = (*l)->next;
 			(*l)->next = NULL;
 			freeblist(*l);
 			*l = last;
 		}
 	}

 	/*
 	 *  look for a complete packet.  if we get to a fragment
 	 *  with the trailing bit of fraghdr->offsetRM[1] set, we're done.
 	 */
 	pktposn = 0;
 	for (bl = f->blist; bl; bl = bl->next) {
 		if (BKFG(bl)->foff != pktposn)
 			break;

 		fraghdr = (struct fraghdr6 *)(bl->rp + uflen);
 		if ((fraghdr->offsetRM[1] & 1) == 0) {
 			bl = f->blist;

 			/* get rid of frag header in first fragment */

 			memmove(bl->rp + IP6FHDR, bl->rp, uflen);
 			bl->rp += IP6FHDR;
 			len = nhgets(((struct ip6hdr *)(bl->rp))->ploadlen) -
 				IP6FHDR;
 			bl->wp = bl->rp + len + IP6HDR;

 			/* Pullup all the fragment headers and
 			 * return a complete packet
 			 */
 			for (bl = bl->next; bl; bl = bl->next) {
 				fragsize = BKFG(bl)->flen;
 				len += fragsize;
 				bl->rp += uflen + IP6FHDR;
 				bl->wp = bl->rp + fragsize;
 			}

 			bl = f->blist;
 			f->blist = NULL;
 			ipfragfree6(ip, f);
 			ih = (struct ip6hdr *)(bl->rp);
 			hnputs(ih->ploadlen, len);
 			qunlock(&ip->fraglock6);
 			ip->stats[ReasmOKs]++;
 			return bl;
 		}
 		pktposn += BKFG(bl)->flen;
 	}
 	qunlock(&ip->fraglock6);

 	return NULL;
 }
	/* Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved.
	* Portions Copyright © 1997-1999 Vita Nuova Limited
	* Portions Copyright © 2000-2007 Vita Nuova Holdings Limited
	* (www.vitanuova.com)
	* Revisions Copyright © 2000-2007 Lucent Technologies Inc. and others
	*
	* Modified for the Akaros operating system:
	* Copyright (c) 2013-2014 The Regents of the University of California
	* Copyright (c) 2013-2016 Google Inc.
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to deal
	* in the Software without restriction, including without limitation the rights
	* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
	* copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
	* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
	* SOFTWARE.
	*/

	#include <error.h>
	#include <net/ip.h>
	#include <kmalloc.h>

	enum {
	IP4HDR = 20, /* sizeof(Ip4hdr) */
	IP6HDR = 40, /* sizeof(Ip6hdr) */
	IP_HLEN4 = 0x05, /* Header length in words */
	IP_DF = 0x4000, /* Don't fragment */
	IP_MF = 0x2000, /* More fragments */
	IP6FHDR = 8, /* sizeof(Fraghdr6) */
	IP_MAX = (32 * 1024), /* Maximum Internet packet size */
	};

	#define IPV6CLASS(hdr) ((hdr->vcf[0]&0x0F)<<2 \| (hdr->vcf[1]&0xF0)>>2)
	#define BLKIPVER(xp) (((struct ip6hdr*)((xp)->rp))->vcf[0]&0xF0)
	#define NEXT_ID(x) (__sync_add_and_fetch(&(x), 1))
	/*
	* This sleazy macro is stolen shamelessly from ip.c, see comment there.
	*/
	#define BKFG(xp) ((struct Ipfrag*)((xp)->base))
	struct fragment6;

	struct block ip6reassemble(struct IP , int unused_int, struct block *,
	struct ip6hdr *);
	void ipfragfree6(struct IP , struct fragment6 );
	struct fragment6 ipfragallo6(struct IP );
	static struct block procxtns(struct IP ip, struct block *bp, int doreasm);
	int unfraglen(struct block bp, uint8_t nexthdr, int setfh);
	struct block procopts(struct block bp);

	/* MIB II counters */
	enum {
	Forwarding,
	DefaultTTL,
	InReceives,
	InHdrErrors,
	InAddrErrors,
	ForwDatagrams,
	InUnknownProtos,
	InDiscards,
	InDelivers,
	OutRequests,
	OutDiscards,
	OutNoRoutes,
	ReasmTimeout,
	ReasmReqds,
	ReasmOKs,
	ReasmFails,
	FragOKs,
	FragFails,
	FragCreates,

	Nstats,
	};

	static char *statnames[] = {
	[Forwarding] "Forwarding",
	[DefaultTTL] "DefaultTTL",
	[InReceives] "InReceives",
	[InHdrErrors] "InHdrErrors",
	[InAddrErrors] "InAddrErrors",
	[ForwDatagrams] "ForwDatagrams",
	[InUnknownProtos] "InUnknownProtos",
	[InDiscards] "InDiscards",
	[InDelivers] "InDelivers",
	[OutRequests] "OutRequests",
	[OutDiscards] "OutDiscards",
	[OutNoRoutes] "OutNoRoutes",
	[ReasmTimeout] "ReasmTimeout",
	[ReasmReqds] "ReasmReqds",
	[ReasmOKs] "ReasmOKs",
	[ReasmFails] "ReasmFails",
	[FragOKs] "FragOKs",
	[FragFails] "FragFails",
	[FragCreates] "FragCreates",
	};

	struct Fragment4 {
	struct block *blist;
	struct fragment4 *next;
	uint32_t src;
	uint32_t dst;
	uint16_t id;
	uint64_t age;
	};

	struct fragment6 {
	struct block *blist;
	struct fragment6 *next;
	uint8_t src[IPaddrlen];
	uint8_t dst[IPaddrlen];
	unsigned int id;
	uint64_t age;
	};

	struct Ipfrag {
	uint16_t foff;
	uint16_t flen;
	};

	/* an instance of IP */
	struct IP {
	uint32_t stats[Nstats];

	qlock_t fraglock4;
	struct fragment4 *flisthead4;
	struct fragment4 *fragfree4;
	int id4;

	qlock_t fraglock6;
	struct fragment6 *flisthead6;
	struct fragment6 *fragfree6;
	int id6;

	int iprouting; /* true if we route like a gateway */
	};

	int ipoput6(struct Fs f, struct block bp,
	int gating, int ttl, int tos, struct conv *c)
	{
	ERRSTACK(1);
	int tentative;
	struct Ipifc *ifc;
	uint8_t *gate, nexthdr;
	struct ip6hdr *eh;
	int medialen, len, chunk, uflen, flen, seglen, lid, offset, fragoff;
	int morefrags, blklen;
	struct route r, sr;
	struct fraghdr6 fraghdr;
	struct block xp, nb;
	struct IP *ip;
	int rv = 0;

	ip = f->ip;

	/* Sanity check for our transport protocols. */
	if (bp->mss)
	assert(bp->flag & Btso);
	/* Fill out the ip header */
	eh = (struct ip6hdr *)(bp->rp);

	ip->stats[OutRequests]++;

	/* Number of uint8_ts in data and ip header to write */
	len = blocklen(bp);

	tentative = iptentative(f, eh->src);
	if (tentative) {
	netlog(f, Logip,
	"reject tx of packet with tentative src address\n");
	goto free;
	}

	if (gating) {
	chunk = nhgets(eh->ploadlen);
	if (chunk > len) {
	ip->stats[OutDiscards]++;
	netlog(f, Logip, "short gated packet\n");
	goto free;
	}
	if (chunk + IPV6HDR_LEN < len)
	len = chunk + IPV6HDR_LEN;
	}

	if (len >= IP_MAX) {
	ip->stats[OutDiscards]++;
	netlog(f, Logip, "exceeded ip max size %I\n", eh->dst);
	goto free;
	}

	r = v6lookup(f, eh->dst, c);
	if (r == NULL) {
	ip->stats[OutNoRoutes]++;
	netlog(f, Logip, "no interface %I\n", eh->dst);
	rv = -1;
	goto free;
	}

	ifc = r->rt.ifc;
	if (r->rt.type & (Rifc \| Runi))
	gate = eh->dst;
	else if (r->rt.type & (Rbcast \| Rmulti)) {
	gate = eh->dst;
	sr = v6lookup(f, eh->src, NULL);
	if (sr != NULL && (sr->rt.type & Runi))
	ifc = sr->rt.ifc;
	} else
	gate = r->v6.gate;

	if (!gating)
	eh->vcf[0] = IP_VER6;
	eh->ttl = ttl;
	if (!gating) {
	eh->vcf[0] \|= (tos >> 4);
	eh->vcf[1] = (tos << 4);
	}

	if (!canrlock(&ifc->rwlock)) {
	goto free;
	}

	if (waserror()) {
	runlock(&ifc->rwlock);
	nexterror();
	}

	if (ifc->m == NULL) {
	goto raise;
	}

	/* If we dont need to fragment just send it */
	medialen = ifc->maxtu - ifc->m->hsize;
	if (len <= medialen) {
	hnputs(eh->ploadlen, len - IPV6HDR_LEN);
	ifc->m->bwrite(ifc, bp, V6, gate);
	runlock(&ifc->rwlock);
	poperror();
	return 0;
	}

	if (gating)
	if (ifc->reassemble <= 0) {
	/*
	* v6 intermediate nodes are not supposed to fragment
	* pkts; we fragment if ifc->reassemble is turned on; an
	* exception needed for nat.
	*/
	ip->stats[OutDiscards]++;
	icmppkttoobig6(f, ifc, bp);
	netlog(f, Logip, "%I: gated pkts not fragmented\n",
	eh->dst);
	goto raise;
	}

	/* start v6 fragmentation */
	uflen = unfraglen(bp, &nexthdr, 1);
	if (uflen > medialen) {
	ip->stats[FragFails]++;
	ip->stats[OutDiscards]++;
	netlog(f, Logip, "%I: unfragmentable part too big\n", eh->dst);
	goto raise;
	}

	flen = len - uflen;
	seglen = (medialen - (uflen + IP6FHDR)) & ~7;
	if (seglen < 8) {
	ip->stats[FragFails]++;
	ip->stats[OutDiscards]++;
	netlog(f, Logip, "%I: seglen < 8\n", eh->dst);
	goto raise;
	}

	lid = NEXT_ID(ip->id6);
	fraghdr.nexthdr = nexthdr;
	fraghdr.res = 0;
	hnputl(fraghdr.id, lid);

	xp = bp;
	offset = uflen;
	while (xp != NULL && offset && offset >= BLEN(xp)) {
	offset -= BLEN(xp);
	xp = xp->next;
	}
	xp->rp += offset;

	fragoff = 0;
	morefrags = 1;

	for (; fragoff < flen; fragoff += seglen) {
	nb = block_alloc(uflen + IP6FHDR + seglen, MEM_WAIT);

	if (fragoff + seglen >= flen) {
	seglen = flen - fragoff;
	morefrags = 0;
	}

	hnputs(eh->ploadlen, seglen + IP6FHDR);
	memmove(nb->wp, eh, uflen);
	nb->wp += uflen;

	hnputs(fraghdr.offsetRM, fragoff); // last 3 bits must be 0
	fraghdr.offsetRM[1] \|= morefrags;
	memmove(nb->wp, &fraghdr, IP6FHDR);
	nb->wp += IP6FHDR;

	/* Copy data */
	chunk = seglen;
	while (chunk) {
	if (!xp) {
	ip->stats[OutDiscards]++;
	ip->stats[FragFails]++;
	freeblist(nb);
	netlog(f, Logip, "!xp: chunk in v6%d\n", chunk);
	goto raise;
	}
	blklen = chunk;
	if (BLEN(xp) < chunk)
	blklen = BLEN(xp);
	memmove(nb->wp, xp->rp, blklen);

	nb->wp += blklen;
	xp->rp += blklen;
	chunk -= blklen;
	if (xp->rp == xp->wp)
	xp = xp->next;
	}

	ifc->m->bwrite(ifc, nb, V6, gate);
	ip->stats[FragCreates]++;
	}
	ip->stats[FragOKs]++;

	raise:
	runlock(&ifc->rwlock);
	poperror();
	free:
	freeblist(bp);
	return rv;
	}

	void ipiput6(struct Fs f, struct Ipifc ifc, struct block *bp)
	{
	int hl;
	int hop, tos;
	uint8_t proto;
	struct ip6hdr *h;
	struct Proto *p;
	int notforme;
	int tentative;
	uint8_t v6dst[IPaddrlen];
	struct IP *ip;
	struct route r, sr;

	ip = f->ip;
	ip->stats[InReceives]++;

	/*
	* Ensure we have all the header info in the first
	* block. Make life easier for other protocols by
	* collecting up to the first 64 bytes in the first block.
	*/
	if (BLEN(bp) < 64) {
	hl = blocklen(bp);
	if (hl < IP6HDR)
	hl = IP6HDR;
	if (hl > 64)
	hl = 64;
	bp = pullupblock(bp, hl);
	if (bp == NULL)
	return;
	}

	h = (struct ip6hdr *)(bp->rp);

	memmove(&v6dst[0], &(h->dst)[0], IPaddrlen);
	notforme = ipforme(f, v6dst) == 0;
	tentative = iptentative(f, v6dst);

	if (tentative && (h->proto != ICMPv6)) {
	printd("tentative addr, drop\n");
	freeblist(bp);
	return;
	}

	/* Check header version */
	if (BLKIPVER(bp) != IP_VER6) {
	ip->stats[InHdrErrors]++;
	netlog(f, Logip, "ip: bad version 0x%x\n",
	(h->vcf[0] & 0xF0) >> 2);
	freeblist(bp);
	return;
	}

	/* route */
	if (notforme) {
	if (!ip->iprouting) {
	freeb(bp);
	return;
	}
	/* don't forward to source's network */
	sr = v6lookup(f, h->src, NULL);
	r = v6lookup(f, h->dst, NULL);

	if (r == NULL \|\| sr == r) {
	ip->stats[OutDiscards]++;
	freeblist(bp);
	return;
	}

	/* don't forward if packet has timed out */
	hop = h->ttl;
	if (hop < 1) {
	ip->stats[InHdrErrors]++;
	icmpttlexceeded6(f, ifc, bp);
	freeblist(bp);
	return;
	}

	/* process headers & reassemble if the interface expects it */
	bp = procxtns(ip, bp, r->rt.ifc->reassemble);

	if (bp == NULL)
	return;

	ip->stats[ForwDatagrams]++;
	h = (struct ip6hdr *)(bp->rp);
	tos = IPV6CLASS(h);
	hop = h->ttl;
	ipoput6(f, bp, 1, hop - 1, tos, NULL);
	return;
	}

	/* reassemble & process headers if needed */
	bp = procxtns(ip, bp, 1);

	if (bp == NULL)
	return;

	h = (struct ip6hdr *)(bp->rp);
	proto = h->proto;
	p = Fsrcvpcol(f, proto);
	if (p != NULL && p->rcv != NULL) {
	ip->stats[InDelivers]++;
	(*p->rcv) (p, ifc, bp);
	return;
	}

	ip->stats[InDiscards]++;
	ip->stats[InUnknownProtos]++;
	freeblist(bp);
	}

	/*
	* ipfragfree6 - copied from ipfragfree4 - assume hold fraglock6
	*/
	void ipfragfree6(struct IP ip, struct fragment6 frag)
	{
	struct fragment6 fl, *l;

	if (frag->blist)
	freeblist(frag->blist);

	memset(frag->src, 0, IPaddrlen);
	frag->id = 0;
	frag->blist = NULL;

	l = &ip->flisthead6;
	for (fl = *l; fl; fl = fl->next) {
	if (fl == frag) {
	*l = frag->next;
	break;
	}
	l = &fl->next;
	}

	frag->next = ip->fragfree6;
	ip->fragfree6 = frag;

	}

	/*
	* ipfragallo6 - copied from ipfragalloc4
	*/
	struct fragment6 ipfragallo6(struct IP ip)
	{
	struct fragment6 *f;

	while (ip->fragfree6 == NULL) {
	/* free last entry on fraglist */
	for (f = ip->flisthead6; f->next; f = f->next) ;
	ipfragfree6(ip, f);
	}
	f = ip->fragfree6;
	ip->fragfree6 = f->next;
	f->next = ip->flisthead6;
	ip->flisthead6 = f;
	f->age = NOW + 30000;

	return f;
	}

	static struct block procxtns(struct IP ip, struct block *bp, int doreasm)
	{

	int offset;
	uint8_t proto;
	struct ip6hdr *h;

	h = (struct ip6hdr *)(bp->rp);
	offset = unfraglen(bp, &proto, 0);

	if ((proto == FH) && (doreasm != 0)) {
	bp = ip6reassemble(ip, offset, bp, h);
	if (bp == NULL)
	return NULL;
	offset = unfraglen(bp, &proto, 0);
	}

	if (proto == DOH \|\| offset > IP6HDR)
	bp = procopts(bp);

	return bp;
	}

	/* returns length of "Unfragmentable part", i.e., sum of lengths of ipv6 hdr,
	* hop-by-hop & routing headers if present; *nexthdr is set to nexthdr value of
	* the last header in the "Unfragmentable part"; if setfh != 0, nexthdr field of
	* the last header in the "Unfragmentable part" is set to FH.
	*/
	int unfraglen(struct block bp, uint8_t nexthdr, int setfh)
	{
	uint8_t p, q;
	int ufl, hs;

	p = bp->rp;
	q = p + 6; /* proto, = p+sizeof(Ip6hdr.vcf)+sizeof(Ip6hdr.ploadlen) */
	nexthdr = q;
	ufl = IP6HDR;
	p += ufl;

	for (;;) {
	if (nexthdr == HBH \|\| nexthdr == RH) {
	nexthdr = p;
	hs = ((int)(p + 1) + 1) 8;
	ufl += hs;
	q = p;
	p += hs;
	} else
	break;
	}

	if (*nexthdr == FH)
	q = p;

	if (setfh)
	*q = FH;

	return ufl;
	}

	struct block procopts(struct block bp)
	{
	return bp;
	}

	struct block ip6reassemble(struct IP ip, int uflen, struct block *bp,
	struct ip6hdr *ih)
	{

	int fend, offset;
	unsigned int id;
	struct fragment6 f, fnext;
	struct fraghdr6 *fraghdr;
	uint8_t src[IPaddrlen], dst[IPaddrlen];
	struct block bl, l, last, *prev;
	int ovlap, len, fragsize, pktposn;

	fraghdr = (struct fraghdr6 *)(bp->rp + uflen);
	memmove(src, ih->src, IPaddrlen);
	memmove(dst, ih->dst, IPaddrlen);
	id = nhgetl(fraghdr->id);
	offset = nhgets(fraghdr->offsetRM) & ~7;

	/*
	* block lists are too hard, pullupblock into a single block
	*/
	if (bp->next) {
	bp = pullupblock(bp, blocklen(bp));
	ih = (struct ip6hdr *)(bp->rp);
	}

	qlock(&ip->fraglock6);

	/*
	* find a reassembly queue for this fragment
	*/
	for (f = ip->flisthead6; f; f = fnext) {
	fnext = f->next;
	if (ipcmp(f->src, src) == 0 && ipcmp(f->dst, dst) == 0
	&& f->id == id)
	break;
	if (f->age < NOW) {
	ip->stats[ReasmTimeout]++;
	ipfragfree6(ip, f);
	}
	}

	/*
	* if this isn't a fragmented packet, accept it
	* and get rid of any fragments that might go
	* with it.
	*/
	if (nhgets(fraghdr->offsetRM) == 0) { // first frag is also the last
	if (f != NULL) {
	ipfragfree6(ip, f);
	ip->stats[ReasmFails]++;
	}
	qunlock(&ip->fraglock6);
	return bp;
	}

	if (bp->base + sizeof(struct Ipfrag) >= bp->rp) {
	bp = padblock(bp, sizeof(struct Ipfrag));
	bp->rp += sizeof(struct Ipfrag);
	}

	BKFG(bp)->foff = offset;
	BKFG(bp)->flen = nhgets(ih->ploadlen) + IP6HDR - uflen - IP6FHDR;

	/* First fragment allocates a reassembly queue */
	if (f == NULL) {
	f = ipfragallo6(ip);
	f->id = id;
	memmove(f->src, src, IPaddrlen);
	memmove(f->dst, dst, IPaddrlen);

	f->blist = bp;

	qunlock(&ip->fraglock6);
	ip->stats[ReasmReqds]++;
	return NULL;
	}

	/*
	* find the new fragment's position in the queue
	*/
	prev = NULL;
	l = &f->blist;
	bl = f->blist;
	while (bl != NULL && BKFG(bp)->foff > BKFG(bl)->foff) {
	prev = bl;
	l = &bl->next;
	bl = bl->next;
	}

	/* Check overlap of a previous fragment - trim away as necessary */
	if (prev) {
	ovlap = BKFG(prev)->foff + BKFG(prev)->flen - BKFG(bp)->foff;
	if (ovlap > 0) {
	if (ovlap >= BKFG(bp)->flen) {
	freeblist(bp);
	qunlock(&ip->fraglock6);
	return NULL;
	}
	BKFG(prev)->flen -= ovlap;
	}
	}

	/* Link onto assembly queue */
	bp->next = *l;
	*l = bp;

	/* Check to see if succeeding segments overlap */
	if (bp->next) {
	l = &bp->next;
	fend = BKFG(bp)->foff + BKFG(bp)->flen;

	/* Take completely covered segments out */

	while (*l) {
	ovlap = fend - BKFG(*l)->foff;

	if (ovlap <= 0)
	break;
	if (ovlap < BKFG(*l)->flen) {
	BKFG(*l)->flen -= ovlap;
	BKFG(*l)->foff += ovlap;
	/* move up ih hdrs */
	memmove((l)->rp + ovlap, (l)->rp, uflen);
	(*l)->rp += ovlap;
	break;
	}
	last = (*l)->next;
	(*l)->next = NULL;
	freeblist(*l);
	*l = last;
	}
	}

	/*
	* look for a complete packet. if we get to a fragment
	* with the trailing bit of fraghdr->offsetRM[1] set, we're done.
	*/
	pktposn = 0;
	for (bl = f->blist; bl; bl = bl->next) {
	if (BKFG(bl)->foff != pktposn)
	break;

	fraghdr = (struct fraghdr6 *)(bl->rp + uflen);
	if ((fraghdr->offsetRM[1] & 1) == 0) {
	bl = f->blist;

	/* get rid of frag header in first fragment */

	memmove(bl->rp + IP6FHDR, bl->rp, uflen);
	bl->rp += IP6FHDR;
	len = nhgets(((struct ip6hdr *)(bl->rp))->ploadlen) -
	IP6FHDR;
	bl->wp = bl->rp + len + IP6HDR;

	/* Pullup all the fragment headers and
	* return a complete packet
	*/
	for (bl = bl->next; bl; bl = bl->next) {
	fragsize = BKFG(bl)->flen;
	len += fragsize;
	bl->rp += uflen + IP6FHDR;
	bl->wp = bl->rp + fragsize;
	}

	bl = f->blist;
	f->blist = NULL;
	ipfragfree6(ip, f);
	ih = (struct ip6hdr *)(bl->rp);
	hnputs(ih->ploadlen, len);
	qunlock(&ip->fraglock6);
	ip->stats[ReasmOKs]++;
	return bl;
	}
	pktposn += BKFG(bl)->flen;
	}
	qunlock(&ip->fraglock6);

	return NULL;
	}