ref: b7af62b250e5dff30320a181ca9d53ab5a7c276d
dir: /os/ip/ip.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "ip.h" typedef struct Ip4hdr Ip4hdr; typedef struct IP IP; typedef struct Fragment4 Fragment4; typedef struct Fragment6 Fragment6; typedef struct Ipfrag Ipfrag; 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 = 64*1024, /* Maximum Internet packet size */ }; #define BLKIPVER(xp) (((Ip4hdr*)((xp)->rp))->vihl&0xF0) struct Ip4hdr { uchar vihl; /* Version and header length */ uchar tos; /* Type of service */ uchar length[2]; /* packet length */ uchar id[2]; /* ip->identification */ uchar frag[2]; /* Fragment information */ uchar ttl; /* Time to live */ uchar proto; /* Protocol */ uchar cksum[2]; /* Header checksum */ uchar src[4]; /* IP source */ uchar dst[4]; /* IP destination */ }; /* MIB II counters */ enum { Forwarding, DefaultTTL, InReceives, InHdrErrors, InAddrErrors, ForwDatagrams, InUnknownProtos, InDiscards, InDelivers, OutRequests, OutDiscards, OutNoRoutes, ReasmTimeout, ReasmReqds, ReasmOKs, ReasmFails, FragOKs, FragFails, FragCreates, Nstats, }; struct Fragment4 { Block* blist; Fragment4* next; ulong src; ulong dst; ushort id; ulong age; }; struct Fragment6 { Block* blist; Fragment6* next; uchar src[IPaddrlen]; uchar dst[IPaddrlen]; uint id; ulong age; }; struct Ipfrag { ushort foff; ushort flen; }; /* an instance of IP */ struct IP { ulong stats[Nstats]; QLock fraglock4; Fragment4* flisthead4; Fragment4* fragfree4; Ref id4; QLock fraglock6; Fragment6* flisthead6; Fragment6* fragfree6; Ref id6; int iprouting; /* true if we route like a gateway */ }; 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", }; #define BLKIP(xp) ((Ip4hdr*)((xp)->rp)) /* * This sleazy macro relies on the media header size being * larger than sizeof(Ipfrag). ipreassemble checks this is true */ #define BKFG(xp) ((Ipfrag*)((xp)->base)) ushort ipcsum(uchar*); Block* ip4reassemble(IP*, int, Block*, Ip4hdr*); void ipfragfree4(IP*, Fragment4*); Fragment4* ipfragallo4(IP*); void ip_init_6(Fs *f) { V6params *v6p; v6p = smalloc(sizeof(V6params)); v6p->rp.mflag = 0; // default not managed v6p->rp.oflag = 0; v6p->rp.maxraint = 600000; // millisecs v6p->rp.minraint = 200000; v6p->rp.linkmtu = 0; // no mtu sent v6p->rp.reachtime = 0; v6p->rp.rxmitra = 0; v6p->rp.ttl = MAXTTL; v6p->rp.routerlt = 3*(v6p->rp.maxraint); v6p->hp.rxmithost = 1000; // v6 RETRANS_TIMER v6p->cdrouter = -1; f->v6p = v6p; } void initfrag(IP *ip, int size) { Fragment4 *fq4, *eq4; Fragment6 *fq6, *eq6; ip->fragfree4 = (Fragment4*)malloc(sizeof(Fragment4) * size); if(ip->fragfree4 == nil) panic("initfrag"); eq4 = &ip->fragfree4[size]; for(fq4 = ip->fragfree4; fq4 < eq4; fq4++) fq4->next = fq4+1; ip->fragfree4[size-1].next = nil; ip->fragfree6 = (Fragment6*)malloc(sizeof(Fragment6) * size); if(ip->fragfree6 == nil) panic("initfrag"); eq6 = &ip->fragfree6[size]; for(fq6 = ip->fragfree6; fq6 < eq6; fq6++) fq6->next = fq6+1; ip->fragfree6[size-1].next = nil; } void ip_init(Fs *f) { IP *ip; ip = smalloc(sizeof(IP)); initfrag(ip, 100); f->ip = ip; ip_init_6(f); } void iprouting(Fs *f, int on) { f->ip->iprouting = on; if(f->ip->iprouting==0) f->ip->stats[Forwarding] = 2; else f->ip->stats[Forwarding] = 1; } int ipoput4(Fs *f, Block *bp, int gating, int ttl, int tos, Conv *c) { Ipifc *ifc; uchar *gate; ulong fragoff; Block *xp, *nb; Ip4hdr *eh, *feh; int lid, len, seglen, chunk, dlen, blklen, offset, medialen; Route *r, *sr; IP *ip; int rv = 0; ip = f->ip; /* Fill out the ip header */ eh = (Ip4hdr*)(bp->rp); ip->stats[OutRequests]++; /* Number of uchars in data and ip header to write */ len = blocklen(bp); if(gating){ chunk = nhgets(eh->length); if(chunk > len){ ip->stats[OutDiscards]++; netlog(f, Logip, "short gated packet\n"); goto free; } if(chunk < len) len = chunk; } if(len >= IP_MAX){ ip->stats[OutDiscards]++; netlog(f, Logip, "exceeded ip max size %V\n", eh->dst); goto free; } r = v4lookup(f, eh->dst, c); if(r == nil){ ip->stats[OutNoRoutes]++; netlog(f, Logip, "no interface %V\n", eh->dst); rv = -1; goto free; } ifc = r->ifc; if(r->type & (Rifc|Runi)) gate = eh->dst; else if(r->type & (Rbcast|Rmulti)) { gate = eh->dst; sr = v4lookup(f, eh->src, nil); if(sr != nil && (sr->type & Runi)) ifc = sr->ifc; } else gate = r->v4.gate; if(!gating) eh->vihl = IP_VER4|IP_HLEN4; eh->ttl = ttl; if(!gating) eh->tos = tos; if(!canrlock(ifc)) goto free; if(waserror()){ runlock(ifc); nexterror(); } if(ifc->m == nil) goto raise; /* If we dont need to fragment just send it */ medialen = ifc->maxtu - ifc->m->hsize; if(len <= medialen) { if(!gating) hnputs(eh->id, incref(&ip->id4)); hnputs(eh->length, len); if(!gating){ eh->frag[0] = 0; eh->frag[1] = 0; } eh->cksum[0] = 0; eh->cksum[1] = 0; hnputs(eh->cksum, ipcsum(&eh->vihl)); ifc->m->bwrite(ifc, bp, V4, gate); runlock(ifc); poperror(); return 0; } if((eh->frag[0] & (IP_DF>>8)) && !gating) print("%V: DF set\n", eh->dst); if(eh->frag[0] & (IP_DF>>8)){ ip->stats[FragFails]++; ip->stats[OutDiscards]++; icmpcantfrag(f, bp, medialen); netlog(f, Logip, "%V: eh->frag[0] & (IP_DF>>8)\n", eh->dst); goto raise; } seglen = (medialen - IP4HDR) & ~7; if(seglen < 8){ ip->stats[FragFails]++; ip->stats[OutDiscards]++; netlog(f, Logip, "%V seglen < 8\n", eh->dst); goto raise; } dlen = len - IP4HDR; xp = bp; if(gating) lid = nhgets(eh->id); else lid = incref(&ip->id4); offset = IP4HDR; while(xp != nil && offset && offset >= BLEN(xp)) { offset -= BLEN(xp); xp = xp->next; } xp->rp += offset; if(gating) fragoff = nhgets(eh->frag)<<3; else fragoff = 0; dlen += fragoff; for(; fragoff < dlen; fragoff += seglen) { nb = allocb(IP4HDR+seglen); feh = (Ip4hdr*)(nb->rp); memmove(nb->wp, eh, IP4HDR); nb->wp += IP4HDR; if((fragoff + seglen) >= dlen) { seglen = dlen - fragoff; hnputs(feh->frag, fragoff>>3); } else hnputs(feh->frag, (fragoff>>3)|IP_MF); hnputs(feh->length, seglen + IP4HDR); hnputs(feh->id, lid); /* Copy up the data area */ chunk = seglen; while(chunk) { if(!xp) { ip->stats[OutDiscards]++; ip->stats[FragFails]++; freeblist(nb); netlog(f, Logip, "!xp: chunk %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; } feh->cksum[0] = 0; feh->cksum[1] = 0; hnputs(feh->cksum, ipcsum(&feh->vihl)); ifc->m->bwrite(ifc, nb, V4, gate); ip->stats[FragCreates]++; } ip->stats[FragOKs]++; raise: runlock(ifc); poperror(); free: freeblist(bp); return rv; } void ipiput4(Fs *f, Ipifc *ifc, Block *bp) { int hl; int hop, tos, proto, olen; Ip4hdr *h; Proto *p; ushort frag; int notforme; uchar *dp, v6dst[IPaddrlen]; IP *ip; Route *r; if(BLKIPVER(bp) != IP_VER4) { ipiput6(f, ifc, bp); return; } 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 < IP4HDR) hl = IP4HDR; if(hl > 64) hl = 64; bp = pullupblock(bp, hl); if(bp == nil) return; } h = (Ip4hdr*)(bp->rp); /* dump anything that whose header doesn't checksum */ if((bp->flag & Bipck) == 0 && ipcsum(&h->vihl)) { ip->stats[InHdrErrors]++; netlog(f, Logip, "ip: checksum error %V\n", h->src); freeblist(bp); return; } v4tov6(v6dst, h->dst); notforme = ipforme(f, v6dst) == 0; /* Check header length and version */ if((h->vihl&0x0F) != IP_HLEN4) { hl = (h->vihl&0xF)<<2; if(hl < (IP_HLEN4<<2)) { ip->stats[InHdrErrors]++; netlog(f, Logip, "ip: %V bad hivl %ux\n", h->src, h->vihl); freeblist(bp); return; } /* If this is not routed strip off the options */ if(notforme == 0) { olen = nhgets(h->length); dp = bp->rp + (hl - (IP_HLEN4<<2)); memmove(dp, h, IP_HLEN4<<2); bp->rp = dp; h = (Ip4hdr*)(bp->rp); h->vihl = (IP_VER4|IP_HLEN4); hnputs(h->length, olen-hl+(IP_HLEN4<<2)); } } /* route */ if(notforme) { Conv conv; if(!ip->iprouting){ freeb(bp); return; } /* don't forward to source's network */ conv.r = nil; r = v4lookup(f, h->dst, &conv); if(r == nil || r->ifc == ifc){ ip->stats[OutDiscards]++; freeblist(bp); return; } /* don't forward if packet has timed out */ hop = h->ttl; if(hop < 1) { ip->stats[InHdrErrors]++; icmpttlexceeded(f, ifc->lifc->local, bp); freeblist(bp); return; } /* reassemble if the interface expects it */ if(r->ifc == nil) panic("nil route rfc"); if(r->ifc->reassemble){ frag = nhgets(h->frag); if(frag) { h->tos = 0; if(frag & IP_MF) h->tos = 1; bp = ip4reassemble(ip, frag, bp, h); if(bp == nil) return; h = (Ip4hdr*)(bp->rp); } } ip->stats[ForwDatagrams]++; tos = h->tos; hop = h->ttl; ipoput4(f, bp, 1, hop - 1, tos, &conv); return; } frag = nhgets(h->frag); if(frag) { h->tos = 0; if(frag & IP_MF) h->tos = 1; bp = ip4reassemble(ip, frag, bp, h); if(bp == nil) return; h = (Ip4hdr*)(bp->rp); } /* don't let any frag info go up the stack */ h->frag[0] = 0; h->frag[1] = 0; proto = h->proto; p = Fsrcvpcol(f, proto); if(p != nil && p->rcv != nil) { ip->stats[InDelivers]++; (*p->rcv)(p, ifc, bp); return; } ip->stats[InDiscards]++; ip->stats[InUnknownProtos]++; freeblist(bp); } int ipstats(Fs *f, char *buf, int len) { IP *ip; char *p, *e; int i; ip = f->ip; ip->stats[DefaultTTL] = MAXTTL; p = buf; e = p+len; for(i = 0; i < Nstats; i++) p = seprint(p, e, "%s: %lud\n", statnames[i], ip->stats[i]); return p - buf; } Block* ip4reassemble(IP *ip, int offset, Block *bp, Ip4hdr *ih) { int fend; ushort id; Fragment4 *f, *fnext; ulong src, dst; Block *bl, **l, *last, *prev; int ovlap, len, fragsize, pktposn; src = nhgetl(ih->src); dst = nhgetl(ih->dst); id = nhgets(ih->id); /* * block lists are too hard, pullupblock into a single block */ if(bp->next){ bp = pullupblock(bp, blocklen(bp)); ih = (Ip4hdr*)(bp->rp); } qlock(&ip->fraglock4); /* * find a reassembly queue for this fragment */ for(f = ip->flisthead4; f; f = fnext){ fnext = f->next; /* because ipfragfree4 changes the list */ if(f->src == src && f->dst == dst && f->id == id) break; if(f->age < NOW){ ip->stats[ReasmTimeout]++; ipfragfree4(ip, f); } } /* * if this isn't a fragmented packet, accept it * and get rid of any fragments that might go * with it. */ if(!ih->tos && (offset & ~(IP_MF|IP_DF)) == 0) { if(f != nil) { ipfragfree4(ip, f); ip->stats[ReasmFails]++; } qunlock(&ip->fraglock4); return bp; } if(bp->base+sizeof(Ipfrag) >= bp->rp){ bp = padblock(bp, sizeof(Ipfrag)); bp->rp += sizeof(Ipfrag); } BKFG(bp)->foff = offset<<3; BKFG(bp)->flen = nhgets(ih->length)-IP4HDR; /* First fragment allocates a reassembly queue */ if(f == nil) { f = ipfragallo4(ip); f->id = id; f->src = src; f->dst = dst; f->blist = bp; qunlock(&ip->fraglock4); ip->stats[ReasmReqds]++; return nil; } /* * find the new fragment's position in the queue */ prev = nil; l = &f->blist; bl = f->blist; while(bl != nil && 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->fraglock4); return nil; } 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, IP4HDR); (*l)->rp += ovlap; break; } last = (*l)->next; (*l)->next = nil; freeblist(*l); *l = last; } } /* * look for a complete packet. if we get to a fragment * without IP_MF set, we're done. */ pktposn = 0; for(bl = f->blist; bl; bl = bl->next) { if(BKFG(bl)->foff != pktposn) break; if((BLKIP(bl)->frag[0]&(IP_MF>>8)) == 0) { bl = f->blist; len = nhgets(BLKIP(bl)->length); bl->wp = bl->rp + len; /* 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 += IP4HDR; bl->wp = bl->rp + fragsize; } bl = f->blist; f->blist = nil; ipfragfree4(ip, f); ih = BLKIP(bl); hnputs(ih->length, len); qunlock(&ip->fraglock4); ip->stats[ReasmOKs]++; return bl; } pktposn += BKFG(bl)->flen; } qunlock(&ip->fraglock4); return nil; } /* * ipfragfree4 - Free a list of fragments - assume hold fraglock4 */ void ipfragfree4(IP *ip, Fragment4 *frag) { Fragment4 *fl, **l; if(frag->blist) freeblist(frag->blist); frag->src = 0; frag->id = 0; frag->blist = nil; l = &ip->flisthead4; for(fl = *l; fl; fl = fl->next) { if(fl == frag) { *l = frag->next; break; } l = &fl->next; } frag->next = ip->fragfree4; ip->fragfree4 = frag; } /* * ipfragallo4 - allocate a reassembly queue - assume hold fraglock4 */ Fragment4 * ipfragallo4(IP *ip) { Fragment4 *f; while(ip->fragfree4 == nil) { /* free last entry on fraglist */ for(f = ip->flisthead4; f->next; f = f->next) ; ipfragfree4(ip, f); } f = ip->fragfree4; ip->fragfree4 = f->next; f->next = ip->flisthead4; ip->flisthead4 = f; f->age = NOW + 30000; return f; } ushort ipcsum(uchar *addr) { int len; ulong sum; sum = 0; len = (addr[0]&0xf)<<2; while(len > 0) { sum += addr[0]<<8 | addr[1] ; len -= 2; addr += 2; } sum = (sum & 0xffff) + (sum >> 16); sum = (sum & 0xffff) + (sum >> 16); return (sum^0xffff); }