/* * This file is part of the UCB release of Plan 9. It is subject to the license * terms in the LICENSE file found in the top-level directory of this * distribution and at http://akaros.cs.berkeley.edu/files/Plan9License. No * part of the UCB release of Plan 9, including this file, may be copied, * modified, propagated, or distributed except according to the terms contained * in the LICENSE file. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "../port/netif.h" #include "ip.h" #include "ipv6.h" typedef struct Etherhdr Etherhdr; struct Etherhdr { uint8_t d[6]; uint8_t s[6]; uint8_t t[2]; }; static uint8_t ipbroadcast[IPaddrlen] = { 0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff, 0xff,0xff,0xff,0xff, }; static uint8_t etherbroadcast[] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }; static void etherread4(void *a); static void etherread6(void *a); static void etherbind(Ipifc *ifc, int argc, char **argv); static void etherunbind(Ipifc *ifc); static void etherbwrite(Ipifc *ifc, Block *bp, int version, uint8_t *ip); static void etheraddmulti(Ipifc *ifc, uint8_t *a, uint8_t *ia); static void etherremmulti(Ipifc *ifc, uint8_t *a, uint8_t *ia); static Block* multicastarp(Fs *f, Arpent *a, Medium*, uint8_t *mac); static void sendarp(Ipifc *ifc, Arpent *a); static void sendgarp(Ipifc *ifc, uint8_t*); static int multicastea(uint8_t *ea, uint8_t *ip); static void recvarpproc(void*); static void resolveaddr6(Ipifc *ifc, Arpent *a); static void etherpref2addr(uint8_t *pref, uint8_t *ea); Medium ethermedium = { .name= "ether", .hsize= 14, .mintu= 60, .maxtu= 1514, .maclen= 6, .bind= etherbind, .unbind= etherunbind, .bwrite= etherbwrite, .addmulti= etheraddmulti, .remmulti= etherremmulti, .ares= arpenter, .areg= sendgarp, .pref2addr= etherpref2addr, }; Medium gbemedium = { .name= "gbe", .hsize= 14, .mintu= 60, .maxtu= 9014, .maclen= 6, .bind= etherbind, .unbind= etherunbind, .bwrite= etherbwrite, .addmulti= etheraddmulti, .remmulti= etherremmulti, .ares= arpenter, .areg= sendgarp, .pref2addr= etherpref2addr, }; typedef struct Etherrock Etherrock; struct Etherrock { Fs *f; /* file system we belong to */ Proc *arpp; /* arp process */ Proc *read4p; /* reading process (v4)*/ Proc *read6p; /* reading process (v6)*/ Chan *mchan4; /* Data channel for v4 */ Chan *achan; /* Arp channel */ Chan *cchan4; /* Control channel for v4 */ Chan *mchan6; /* Data channel for v6 */ Chan *cchan6; /* Control channel for v6 */ }; /* * ethernet arp request */ enum { ARPREQUEST = 1, ARPREPLY = 2, }; typedef struct Etherarp Etherarp; struct Etherarp { uint8_t d[6]; uint8_t s[6]; uint8_t type[2]; uint8_t hrd[2]; uint8_t pro[2]; uint8_t hln; uint8_t pln; uint8_t op[2]; uint8_t sha[6]; uint8_t spa[4]; uint8_t tha[6]; uint8_t tpa[4]; }; static char *nbmsg = "nonblocking"; /* * called to bind an IP ifc to an ethernet device * called with ifc wlock'd */ static void etherbind(Ipifc *ifc, int argc, char **argv) { Proc *up = externup(); Chan *mchan4, *cchan4, *achan, *mchan6, *cchan6, *schan; char addr[Maxpath]; //char addr[2*KNAMELEN]; char dir[Maxpath]; //char dir[2*KNAMELEN]; char *buf; int n; char *ptr; Etherrock *er; if(argc < 2) error(Ebadarg); mchan4 = cchan4 = achan = mchan6 = cchan6 = nil; buf = nil; if(waserror()){ if(mchan4 != nil) cclose(mchan4); if(cchan4 != nil) cclose(cchan4); if(achan != nil) cclose(achan); if(mchan6 != nil) cclose(mchan6); if(cchan6 != nil) cclose(cchan6); if(buf != nil) free(buf); nexterror(); } /* * open ipv4 conversation * * the dial will fail if the type is already open on * this device. */ snprint(addr, sizeof(addr), "%s!0x800", argv[2]); /* ETIP4 */ mchan4 = chandial(addr, nil, dir, &cchan4); /* * make it non-blocking */ cchan4->dev->write(cchan4, nbmsg, strlen(nbmsg), 0); /* * get mac address and speed */ snprint(addr, sizeof(addr), "%s/stats", argv[2]); buf = smalloc(512); schan = namec(addr, Aopen, OREAD, 0); if(waserror()){ cclose(schan); nexterror(); } n = schan->dev->read(schan, buf, 511, 0); cclose(schan); poperror(); buf[n] = 0; ptr = strstr(buf, "addr: "); if(!ptr) error(Eio); ptr += 6; parsemac(ifc->mac, ptr, 6); ptr = strstr(buf, "mbps: "); if(ptr){ ptr += 6; ifc->mbps = atoi(ptr); } else ifc->mbps = 100; /* * open arp conversation */ snprint(addr, sizeof(addr), "%s!0x806", argv[2]); /* ETARP */ achan = chandial(addr, nil, nil, nil); /* * open ipv6 conversation * * the dial will fail if the type is already open on * this device. */ snprint(addr, sizeof(addr), "%s!0x86DD", argv[2]); /* ETIP6 */ mchan6 = chandial(addr, nil, dir, &cchan6); /* * make it non-blocking */ cchan6->dev->write(cchan6, nbmsg, strlen(nbmsg), 0); er = smalloc(sizeof(*er)); er->mchan4 = mchan4; er->cchan4 = cchan4; er->achan = achan; er->mchan6 = mchan6; er->cchan6 = cchan6; er->f = ifc->conv->p->f; ifc->arg = er; free(buf); poperror(); kproc("etherread4", etherread4, ifc); kproc("recvarpproc", recvarpproc, ifc); kproc("etherread6", etherread6, ifc); } /* * called with ifc wlock'd */ static void etherunbind(Ipifc *ifc) { Proc *up = externup(); Etherrock *er = ifc->arg; if(er->read4p) postnote(er->read4p, 1, "unbind", 0); if(er->read6p) postnote(er->read6p, 1, "unbind", 0); if(er->arpp) postnote(er->arpp, 1, "unbind", 0); /* wait for readers to die */ while(er->arpp != 0 || er->read4p != 0 || er->read6p != 0) tsleep(&up->sleep, return0, 0, 300); if(er->mchan4 != nil) cclose(er->mchan4); if(er->achan != nil) cclose(er->achan); if(er->cchan4 != nil) cclose(er->cchan4); if(er->mchan6 != nil) cclose(er->mchan6); if(er->cchan6 != nil) cclose(er->cchan6); free(er); } /* * called by ipoput with a single block to write with ifc rlock'd */ static void etherbwrite(Ipifc *ifc, Block *bp, int version, uint8_t *ip) { Etherhdr *eh; Arpent *a; uint8_t mac[6]; Etherrock *er = ifc->arg; /* get mac address of destination */ a = arpget(er->f->arp, bp, version, ifc, ip, mac); if(a){ /* check for broadcast or multicast */ bp = multicastarp(er->f, a, ifc->medium, mac); if(bp==nil){ switch(version){ case V4: sendarp(ifc, a); break; case V6: resolveaddr6(ifc, a); break; default: panic("etherbwrite: version %d", version); } return; } } /* make it a single block with space for the ether header */ bp = padblock(bp, ifc->medium->hsize); if(bp->next) bp = concatblock(bp); if(BLEN(bp) < ifc->mintu) bp = adjustblock(bp, ifc->mintu); eh = (Etherhdr*)bp->rp; /* copy in mac addresses and ether type */ memmove(eh->s, ifc->mac, sizeof(eh->s)); memmove(eh->d, mac, sizeof(eh->d)); switch(version){ case V4: eh->t[0] = 0x08; eh->t[1] = 0x00; er->mchan4->dev->bwrite(er->mchan4, bp, 0); break; case V6: eh->t[0] = 0x86; eh->t[1] = 0xDD; er->mchan6->dev->bwrite(er->mchan6, bp, 0); break; default: panic("etherbwrite2: version %d", version); } ifc->out++; } /* * process to read from the ethernet */ static void etherread4(void *a) { Proc *up = externup(); Ipifc *ifc; Block *bp; Etherrock *er; ifc = a; er = ifc->arg; er->read4p = up; /* hide identity under a rock for unbind */ if(waserror()){ er->read4p = 0; pexit("hangup", 1); } for(;;){ bp = er->mchan4->dev->bread(er->mchan4, ifc->maxtu, 0); if(!canrlock(&ifc->rwl)){ freeb(bp); continue; } if(waserror()){ runlock(&ifc->rwl); nexterror(); } ifc->in++; bp->rp += ifc->medium->hsize; if(ifc->lifc == nil) freeb(bp); else ipiput4(er->f, ifc, bp); runlock(&ifc->rwl); poperror(); } } /* * process to read from the ethernet, IPv6 */ static void etherread6(void *a) { Proc *up = externup(); Ipifc *ifc; Block *bp; Etherrock *er; ifc = a; er = ifc->arg; er->read6p = up; /* hide identity under a rock for unbind */ if(waserror()){ er->read6p = 0; pexit("hangup", 1); } for(;;){ bp = er->mchan6->dev->bread(er->mchan6, ifc->maxtu, 0); if(!canrlock(&ifc->rwl)){ freeb(bp); continue; } if(waserror()){ runlock(&ifc->rwl); nexterror(); } ifc->in++; bp->rp += ifc->medium->hsize; if(ifc->lifc == nil) freeb(bp); else ipiput6(er->f, ifc, bp); runlock(&ifc->rwl); poperror(); } } static void etheraddmulti(Ipifc *ifc, uint8_t *a, uint8_t *b) { uint8_t mac[6]; char buf[64]; Etherrock *er = ifc->arg; int version; version = multicastea(mac, a); snprint(buf, sizeof buf, "addmulti %E", mac); switch(version){ case V4: er->cchan4->dev->write(er->cchan4, buf, strlen(buf), 0); break; case V6: er->cchan6->dev->write(er->cchan6, buf, strlen(buf), 0); break; default: panic("etheraddmulti: version %d", version); } } static void etherremmulti(Ipifc *ifc, uint8_t *a, uint8_t *b) { uint8_t mac[6]; char buf[64]; Etherrock *er = ifc->arg; int version; version = multicastea(mac, a); snprint(buf, sizeof buf, "remmulti %E", mac); switch(version){ case V4: er->cchan4->dev->write(er->cchan4, buf, strlen(buf), 0); break; case V6: er->cchan6->dev->write(er->cchan6, buf, strlen(buf), 0); break; default: panic("etherremmulti: version %d", version); } } /* * send an ethernet arp * (only v4, v6 uses the neighbor discovery, rfc1970) */ static void sendarp(Ipifc *ifc, Arpent *a) { int n; Block *bp; Etherarp *e; Etherrock *er = ifc->arg; /* don't do anything if it's been less than a second since the last */ if(NOW - a->ctime < 1000){ arprelease(er->f->arp, a); return; } /* remove all but the last message */ while((bp = a->hold) != nil){ if(bp == a->last) break; a->hold = bp->list; freeblist(bp); } /* try to keep it around for a second more */ a->ctime = NOW; arprelease(er->f->arp, a); n = sizeof(Etherarp); if(n < a->type->mintu) n = a->type->mintu; bp = allocb(n); memset(bp->rp, 0, n); e = (Etherarp*)bp->rp; memmove(e->tpa, a->ip+IPv4off, sizeof(e->tpa)); ipv4local(ifc, e->spa); memmove(e->sha, ifc->mac, sizeof(e->sha)); memset(e->d, 0xff, sizeof(e->d)); /* ethernet broadcast */ memmove(e->s, ifc->mac, sizeof(e->s)); hnputs(e->type, ETARP); hnputs(e->hrd, 1); hnputs(e->pro, ETIP4); e->hln = sizeof(e->sha); e->pln = sizeof(e->spa); hnputs(e->op, ARPREQUEST); bp->wp += n; er->achan->dev->bwrite(er->achan, bp, 0); } static void resolveaddr6(Ipifc *ifc, Arpent *a) { int sflag; Block *bp; Etherrock *er = ifc->arg; uint8_t ipsrc[IPaddrlen]; /* don't do anything if it's been less than a second since the last */ if(NOW - a->ctime < ReTransTimer){ arprelease(er->f->arp, a); return; } /* remove all but the last message */ while((bp = a->hold) != nil){ if(bp == a->last) break; a->hold = bp->list; freeblist(bp); } /* try to keep it around for a second more */ a->ctime = NOW; a->rtime = NOW + ReTransTimer; if(a->rxtsrem <= 0) { arprelease(er->f->arp, a); return; } a->rxtsrem--; arprelease(er->f->arp, a); if((sflag = ipv6anylocal(ifc, ipsrc)) != 0) icmpns(er->f, ipsrc, sflag, a->ip, TARG_MULTI, ifc->mac); } /* * send a gratuitous arp to refresh arp caches */ static void sendgarp(Ipifc *ifc, uint8_t *ip) { int n; Block *bp; Etherarp *e; Etherrock *er = ifc->arg; /* don't arp for our initial non address */ if(ipcmp(ip, IPnoaddr) == 0) return; n = sizeof(Etherarp); if(n < ifc->medium->mintu) n = ifc->medium->mintu; bp = allocb(n); memset(bp->rp, 0, n); e = (Etherarp*)bp->rp; memmove(e->tpa, ip+IPv4off, sizeof(e->tpa)); memmove(e->spa, ip+IPv4off, sizeof(e->spa)); memmove(e->sha, ifc->mac, sizeof(e->sha)); memset(e->d, 0xff, sizeof(e->d)); /* ethernet broadcast */ memmove(e->s, ifc->mac, sizeof(e->s)); hnputs(e->type, ETARP); hnputs(e->hrd, 1); hnputs(e->pro, ETIP4); e->hln = sizeof(e->sha); e->pln = sizeof(e->spa); hnputs(e->op, ARPREQUEST); bp->wp += n; er->achan->dev->bwrite(er->achan, bp, 0); } static void recvarp(Ipifc *ifc) { int n; Block *ebp, *rbp; Etherarp *e, *r; uint8_t ip[IPaddrlen]; static uint8_t eprinted[4]; Etherrock *er = ifc->arg; ebp = er->achan->dev->bread(er->achan, ifc->maxtu, 0); if(ebp == nil) return; e = (Etherarp*)ebp->rp; switch(nhgets(e->op)) { default: break; case ARPREPLY: /* check for machine using my ip address */ v4tov6(ip, e->spa); if(iplocalonifc(ifc, ip) || ipproxyifc(er->f, ifc, ip)){ if(memcmp(e->sha, ifc->mac, sizeof(e->sha)) != 0){ print("arprep: 0x%E/0x%E also has ip addr %V\n", e->s, e->sha, e->spa); break; } } /* make sure we're not entering broadcast addresses */ if(ipcmp(ip, ipbroadcast) == 0 || !memcmp(e->sha, etherbroadcast, sizeof(e->sha))){ print("arprep: 0x%E/0x%E cannot register broadcast address %I\n", e->s, e->sha, e->spa); break; } arpenter(er->f, V4, e->spa, e->sha, sizeof(e->sha), 0); break; case ARPREQUEST: /* don't answer arps till we know who we are */ if(ifc->lifc == 0) break; /* check for machine using my ip or ether address */ v4tov6(ip, e->spa); if(iplocalonifc(ifc, ip) || ipproxyifc(er->f, ifc, ip)){ if(memcmp(e->sha, ifc->mac, sizeof(e->sha)) != 0){ if (memcmp(eprinted, e->spa, sizeof(e->spa))){ /* print only once */ print("arpreq: 0x%E also has ip addr %V\n", e->sha, e->spa); memmove(eprinted, e->spa, sizeof(e->spa)); } } } else { if(memcmp(e->sha, ifc->mac, sizeof(e->sha)) == 0){ print("arpreq: %V also has ether addr %E\n", e->spa, e->sha); break; } } /* refresh what we know about sender */ arpenter(er->f, V4, e->spa, e->sha, sizeof(e->sha), 1); /* answer only requests for our address or systems we're proxying for */ v4tov6(ip, e->tpa); if(!iplocalonifc(ifc, ip)) if(!ipproxyifc(er->f, ifc, ip)) break; n = sizeof(Etherarp); if(n < ifc->mintu) n = ifc->mintu; rbp = allocb(n); r = (Etherarp*)rbp->rp; memset(r, 0, sizeof(Etherarp)); hnputs(r->type, ETARP); hnputs(r->hrd, 1); hnputs(r->pro, ETIP4); r->hln = sizeof(r->sha); r->pln = sizeof(r->spa); hnputs(r->op, ARPREPLY); memmove(r->tha, e->sha, sizeof(r->tha)); memmove(r->tpa, e->spa, sizeof(r->tpa)); memmove(r->sha, ifc->mac, sizeof(r->sha)); memmove(r->spa, e->tpa, sizeof(r->spa)); memmove(r->d, e->sha, sizeof(r->d)); memmove(r->s, ifc->mac, sizeof(r->s)); rbp->wp += n; er->achan->dev->bwrite(er->achan, rbp, 0); } freeb(ebp); } static void recvarpproc(void *v) { Proc *up = externup(); Ipifc *ifc = v; Etherrock *er = ifc->arg; er->arpp = up; if(waserror()){ er->arpp = 0; pexit("hangup", 1); } for(;;) recvarp(ifc); } static int multicastea(uint8_t *ea, uint8_t *ip) { int x; switch(x = ipismulticast(ip)){ case V4: ea[0] = 0x01; ea[1] = 0x00; ea[2] = 0x5e; ea[3] = ip[13] & 0x7f; ea[4] = ip[14]; ea[5] = ip[15]; break; case V6: ea[0] = 0x33; ea[1] = 0x33; ea[2] = ip[12]; ea[3] = ip[13]; ea[4] = ip[14]; ea[5] = ip[15]; break; } return x; } /* * fill in an arp entry for broadcast or multicast * addresses. Return the first queued packet for the * IP address. */ static Block* multicastarp(Fs *f, Arpent *a, Medium *medium, uint8_t *mac) { /* is it broadcast? */ switch(ipforme(f, a->ip)){ case Runi: return nil; case Rbcast: memset(mac, 0xff, 6); return arpresolve(f->arp, a, medium, mac); default: break; } /* if multicast, fill in mac */ switch(multicastea(mac, a->ip)){ case V4: case V6: return arpresolve(f->arp, a, medium, mac); } /* let arp take care of it */ return nil; } void ethermediumlink(void) { addipmedium(ðermedium); addipmedium(&gbemedium); } static void etherpref2addr(uint8_t *pref, uint8_t *ea) { pref[8] = ea[0] | 0x2; pref[9] = ea[1]; pref[10] = ea[2]; pref[11] = 0xFF; pref[12] = 0xFE; pref[13] = ea[3]; pref[14] = ea[4]; pref[15] = ea[5]; }