ref: 1bfde841484fadb1c41f41a6279e7e070f61a31b
dir: /sys/src/cmd/ip/tinc.c/
#include <u.h> #include <libc.h> #include <mp.h> #include <libsec.h> #include <auth.h> #include <ip.h> enum { OptIndirect = 1, OptTcpOnly = 3, OptPmtuDiscov = 4, OptClampMss = 8, MaxWeight = 0x7fffffff, AESkeylen = 256/8, MAClen = 4, Eaddrlen = 6, EtherType = 2*Eaddrlen, EtherHdr = EtherType+2, Ip4Hdr = 20, Ip6Hdr = 40, UdpHdr = 8, TcpHdr = 20, /* worst case: UDPv6 over 6in4 over PPPoE */ DefPMTU = 1500-8-Ip4Hdr-Ip6Hdr-UdpHdr-4-AESbsize-MAClen, MaxPacket = 4096, /* messages */ ID = 0, META_KEY = 1, CHALLENGE = 2, CHAL_REPLY = 3, ACK = 4, PING = 8, PONG = 9, ADD_SUBNET = 10, DEL_SUBNET = 11, ADD_EDGE = 12, DEL_EDGE = 13, KEY_CHANGED = 14, REQ_KEY = 15, ANS_KEY = 16, TCP_PACKET = 17, /* openssl crap */ EVP_AES256CBC = 427, EVP_AES256CFB = 429, EVP_SHA256 = 672, }; typedef struct Snet Snet; typedef struct Edge Edge; typedef struct Ciph Ciph; typedef struct Host Host; typedef struct Conn Conn; struct Snet { Host *owner; Snet *next; /* next subnet on owner */ uchar ip[IPaddrlen]; uchar mask[IPaddrlen]; int prefixlen; int weight; char reported; char deleted; }; struct Edge { Host *src; Host *dst; Edge *next; /* next edge on src */ Edge *rev; /* reverse drection edge */ uchar ip[IPaddrlen]; int port; int options; int weight; char reported; char deleted; }; struct Ciph { void (*crypt)(uchar*, int, AESstate*); uint seq; uchar key[AESkeylen+AESbsize]; AESstate cs[1]; Lock; }; struct Host { Host *next; char *name; char *addr; Conn *conn; Host *from; Edge *link; Snet *snet; uchar ip[IPaddrlen]; int port; int connected; int options; int pmtu; int udpfd; uvlong ooo; /* out of order replay window */ Ciph cin[1]; Ciph cout[1]; RSApub *rsapub; }; struct Conn { Host *host; Edge *edge; int fd; int port; uchar ip[IPaddrlen]; vlong pingtime; QLock sendlk; Ciph cin[1]; Ciph cout[1]; char *rp; char *wp; char buf[MaxPacket+16]; }; QLock hostslk; Host *hosts; Edge **edges; int nedges; Snet **snet; int nsnet; int debug; int maxprocs = 100; char *myname = nil; Host *myhost = nil; Conn *bcast = (void*)-1; Conn *lconn = nil; RWLock netlk; char *outside = "/net"; char *inside = "/net"; char device[128]; int ipcfd = -1; int ipdfd = -1; uchar localip[IPaddrlen]; uchar localmask[IPaddrlen]; int rcfd = -1; void deledge(Edge*); void delsubnet(Snet*); void netrecalc(void); int consend(Conn *c, char *fmt, ...); #pragma varargck argpos consend 2 int sendudp(Host *h, int fd, uchar *p, int n); void routepkt(Host *s, uchar *p, int n); void needkey(Host *from); void clearkey(Host *from); void* emalloc(ulong len) { void *v = malloc(len); if(v == nil) sysfatal("malloc: %r"); setmalloctag(v, getcallerpc(&len)); memset(v, 0, len); return v; } void* erealloc(void *v, ulong len) { if((v = realloc(v, len)) == nil && len != 0) sysfatal("realloc: %r"); setrealloctag(v, getcallerpc(&v)); return v; } char* estrdup(char *s) { if((s = strdup(s)) == nil) sysfatal("strdup: %r"); setmalloctag(s, getcallerpc(&s)); return s; } char* fd2dir(int fd, char *dir, int len) { char *p; *dir = 0; if(fd2path(fd, dir, len) < 0) return nil; p = strrchr(dir, '/'); if(p == nil || p == dir) return nil; *p = 0; return dir; } int dir2ipport(char *dir, uchar ip[IPaddrlen]) { NetConnInfo *nci; int port = -1; if((nci = getnetconninfo(dir, -1)) == nil) return -1; if(parseip(ip, nci->rsys) != -1) port = atoi(nci->rserv); freenetconninfo(nci); return port; } void hangupfd(int fd) { char buf[128]; if(fd < 0 || fd2dir(fd, buf, sizeof(buf)-5) == nil) return; strcat(buf, "/ctl"); if((fd = open(buf, OWRITE)) >= 0){ hangup(fd); close(fd); } } void netlock(Conn *c) { if(c != nil) { wlock(&netlk); assert(lconn == nil); lconn = c; } else { rlock(&netlk); assert(lconn == nil); } } void netunlock(Conn *c) { if(c != nil){ assert(c == lconn); netrecalc(); lconn = nil; wunlock(&netlk); }else { assert(lconn == nil); runlock(&netlk); } } int edgecmp(Edge *a, Edge *b) { int c; if((c = a->deleted - b->deleted) != 0) return c; return a->weight - b->weight; } int edgepcmp(void *a, void *b) { return edgecmp(*(Edge**)a, *(Edge**)b); } int subnetcmp(Snet *a, Snet *b) { int c; if((c = a->deleted - b->deleted) != 0) return c; if((c = ipcmp(b->mask, a->mask)) != 0) return c; if((c = ipcmp(a->ip, b->ip)) != 0) return c; return a->weight - b->weight; } int subnetpcmp(void *a, void *b) { return subnetcmp(*(Snet**)a, *(Snet**)b); } Snet* lookupnet(uchar ip[IPaddrlen]) { int i; Snet *t; uchar x[IPaddrlen]; for(i=0; i<nsnet; i++){ t = snet[i]; maskip(ip, t->mask, x); if(ipcmp(x, t->ip) == 0) return t; } return nil; } void reportsubnet(Conn *c, Snet *t) { if(c == nil || !(t->deleted || t->owner->connected)) return; if(c == bcast){ Edge *x; if(t->deleted != t->reported) return; t->reported = !t->deleted; for(x = myhost->link; x != nil; x = x->next) if(x->dst->conn != lconn && x->dst->from == myhost) reportsubnet(x->dst->conn, t); return; } if(t->owner == c->host) return; if(t->deleted) consend(c, "%d %x %s %I/%d#%d", DEL_SUBNET, rand(), t->owner->name, t->ip, t->prefixlen, t->weight); else consend(c, "%d %x %s %I/%d#%d", ADD_SUBNET, rand(), t->owner->name, t->ip, t->prefixlen, t->weight); } void reportedge(Conn *c, Edge *e) { if(c == nil || !(e->deleted || e->src->connected && e->dst->connected)) return; if(c == bcast){ Edge *x; if(e->deleted != e->reported) return; e->reported = !e->deleted; for(x = myhost->link; x != nil; x = x->next) if(x->dst->conn != lconn && x->dst->from == myhost) reportedge(x->dst->conn, e); return; } if(e->src == c->host) return; if(e->deleted){ if(e->dst == c->host) return; consend(c, "%d %x %s %s", DEL_EDGE, rand(), e->src->name, e->dst->name); } else consend(c, "%d %x %s %s %s %d %x %d", ADD_EDGE, rand(), e->src->name, e->dst->name, e->dst->addr, e->dst->port, e->dst->options, e->weight); } void netrecalc(void) { static int hostup = 0; Host *h; Edge *e; Snet *t; int i; if(myhost == nil) return; qsort(edges, nedges, sizeof(edges[0]), edgepcmp); while(nedges > 0 && edges[nedges-1]->deleted){ reportedge(bcast, edges[--nedges]); free(edges[nedges]); edges[nedges] = nil; } for(h = hosts; h != nil; h = h->next) h->from = nil; myhost->from = myhost; myhost->connected = 1; Loop: for(i=0; i<nedges; i++){ e = edges[i]; if(e->src->from == nil || (h = e->dst)->from != nil) continue; memmove(h->ip, e->ip, IPaddrlen); h->port = e->port; h->options = e->options; h->from = e->src; if(h->connected == 0){ h->connected = 1; for(t = h->snet; t != nil; t = t->next) t->reported = 0; e->reported = 0; fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I" " REMOTENET=%s REMOTEADDRESS=%I REMOTEPORT=%d" " ./hosts/%s-up\n", myname, h->name, device, localip, outside, h->ip, h->port, h->name); } goto Loop; } for(h = hosts; h != nil; h = h->next){ if(h->from == nil && h->connected){ h->connected = 0; clearkey(h); fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I" " REMOTENET=%s REMOTEADDRESS=%I REMOTEPORT=%d" " ./hosts/%s-down\n", myname, h->name, device, localip, outside, h->ip, h->port, h->name); while(h->link != nil) { deledge(h->link->rev); deledge(h->link); } while(h->snet != nil) delsubnet(h->snet); } } i = myhost->link != nil; if(i != hostup){ hostup = i; fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I" " REMOTENET=%s REMOTEADDRESS=%I REMOTEPORT=%d" " ./host-%s\n", myname, myhost->name, device, localip, outside, myhost->ip, myhost->port, hostup ? "up" : "down"); } qsort(snet, nsnet, sizeof(snet[0]), subnetpcmp); for(i = nsnet-1; i >= 0; i--){ t = snet[i]; if(t->owner != myhost && (t->deleted || t->reported == 0)) fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I" " REMOTENET=%s REMOTEADDRESS=%I REMOTEPORT=%d" " SUBNET=(%I %M) WEIGHT=%d" " ./subnet-%s\n", myname, t->owner->name, device, localip, outside, t->owner->ip, t->owner->port, t->ip, t->mask, t->weight, t->deleted ? "down" : "up"); reportsubnet(bcast, t); if(t->deleted){ assert(i == nsnet-1); snet[i] = nil; nsnet = i; free(t); } } qsort(edges, nedges, sizeof(edges[0]), edgepcmp); for(i = nedges-1; i >= 0; i--){ reportedge(bcast, edges[i]); if(edges[i]->deleted){ assert(i == nedges-1); nedges = i; free(edges[i]); edges[i] = nil; } } } Snet* getsubnet(Host *h, char *s, int new) { uchar ip[IPaddrlen], mask[IPaddrlen]; int weight, prefixlen; Snet *t; if(parseipandmask(ip, mask, s, strchr(s, '/')) == -1) return nil; for(prefixlen = 0; prefixlen < 128; prefixlen++) if((mask[prefixlen/8] & (0x80 >> (prefixlen%8))) == 0) break; if(isv4(ip)) prefixlen -= 96; maskip(ip, mask, ip); weight = 10; if((s = strchr(s, '#')) != nil) weight = atoi(s+1); for(t = h->snet; t != nil; t = t->next) if(ipcmp(t->ip, ip) == 0 && ipcmp(t->mask, mask) == 0){ if(new) t->weight = weight; return t; } if(!new) return nil; t = emalloc(sizeof(Snet)); ipmove(t->ip, ip); ipmove(t->mask, mask); t->prefixlen = prefixlen; t->weight = weight; t->owner = h; t->next = h->snet; h->snet = t; if((nsnet % 16) == 0) snet = erealloc(snet, sizeof(snet[0])*(nsnet+16)); snet[nsnet++] = t; return t; } void delsubnet(Snet *t) { Snet **tp; if(t == nil || t->deleted) return; for(tp = &t->owner->snet; *tp != nil; tp = &(*tp)->next){ if(*tp == t){ *tp = t->next; break; } } t->next = nil; t->deleted = 1; } Edge* getedge(Host *src, Host *dst, int new) { Edge *e; for(e = src->link; e != nil; e = e->next) if(e->dst == dst) return e; if(!new) return nil; e = emalloc(sizeof(Edge)); e->weight = MaxWeight; e->src = src; e->dst = dst; e->next = src->link; src->link = e; if((e->rev = getedge(dst, src, 0)) != nil) e->rev->rev = e; if((nedges % 16) == 0) edges = erealloc(edges, sizeof(edges[0])*(nedges+16)); edges[nedges++] = e; return e; } void deledge(Edge *e) { Edge **ep; if(e == nil || e->deleted) return; if(e->rev != nil){ if(e->rev->rev != nil){ assert(e->rev->rev == e); e->rev->rev = nil; } e->rev = nil; } for(ep = &e->src->link; *ep != nil; ep = &((*ep)->next)) if(*ep == e){ *ep = e->next; break; } e->next = nil; e->options = 0; e->weight = MaxWeight; e->port = 0; memset(e->ip, 0, IPaddrlen); e->deleted = 1; } Host* gethost(char *name, int new) { char buf[8*1024], *s, *e, *x; Host *h; int fd, n; if(*name == 0 || *name == '.' || strchr(name, '/') != nil) return nil; qlock(&hostslk); for(h = hosts; h != nil; h = h->next) if(strcmp(h->name, name) == 0) goto out; n = -1; snprint(buf, sizeof(buf), "hosts/%s", name); if((fd = open(buf, OREAD)) >= 0){ n = read(fd, buf, sizeof(buf)-1); close(fd); } if(n < 0){ if(!new) goto out; n = 0; } buf[n] = 0; h = emalloc(sizeof(Host)); h->name = estrdup(name); h->addr = estrdup(name); h->port = 655; h->pmtu = DefPMTU; h->options = OptClampMss|OptPmtuDiscov; h->udpfd = -1; h->connected = 0; h->rsapub = nil; h->next = hosts; hosts = h; if((s = (char*)decodePEM(buf, "RSA PUBLIC KEY", &n, nil)) != nil){ h->rsapub = asn1toRSApub((uchar*)s, n); free(s); } for(s = buf; s != nil; s = e){ char *f[2]; if((e = strchr(s, '\n')) != nil) *e++ = 0; if(*s == '#' || (x = strchr(s, '=')) == nil) continue; *x = ' '; if((n = tokenize(s, f, 2)) != 2) continue; if(cistrcmp(f[0], "Address") == 0){ if(tokenize(f[1], f, 2) > 1) h->port = atoi(f[1]); free(h->addr); h->addr = estrdup(f[0]); continue; } if(cistrcmp(f[0], "IndirectData") == 0){ h->options |= OptIndirect*(cistrcmp(f[1], "yes") == 0); continue; } if(cistrcmp(f[0], "TCPonly") == 0){ h->options |= OptTcpOnly*(cistrcmp(f[1], "yes") == 0); continue; } if(cistrcmp(f[0], "ClampMSS") == 0){ h->options &= ~(OptClampMss*(cistrcmp(f[1], "no") == 0)); continue; } if(cistrcmp(f[0], "PMTUDiscovery") == 0){ h->options &= ~(OptPmtuDiscov*(cistrcmp(f[1], "no") == 0)); continue; } if(cistrcmp(f[0], "PMTU") == 0){ h->pmtu = atoi(f[1]); if(h->pmtu > MaxPacket) h->pmtu = MaxPacket; else if(h->pmtu < 512) h->pmtu = 512; continue; } if(cistrcmp(f[0], "Port") == 0){ h->port = atoi(f[1]); continue; } if(cistrcmp(f[0], "Subnet") == 0){ if(myhost == nil) getsubnet(h, f[1], 1); continue; } } parseip(h->ip, h->addr); out: qunlock(&hostslk); return h; } Host* findhost(uchar ip[IPaddrlen], int port) { Host *h; qlock(&hostslk); for(h = hosts; h != nil; h = h->next){ if(ipcmp(ip, h->ip) == 0 && (port == -1 || port == h->port)) break; } qunlock(&hostslk); return h; } AuthRpc* getrsarpc(void) { AuthRpc *rpc; int afd, r; char *s; mpint *m; if(myhost->rsapub == nil){ werrstr("no RSA public key"); return nil; } if((afd = open("/mnt/factotum/rpc", ORDWR)) < 0) return nil; if((rpc = auth_allocrpc(afd)) == nil){ close(afd); return nil; } m = mpnew(0); s = smprint("proto=rsa service=tinc role=client host=%q", myhost->name); r = auth_rpc(rpc, "start", s, strlen(s)); free(s); if(r != ARok){ goto Err; } werrstr("no key found"); while(auth_rpc(rpc, "read", nil, 0) == ARok){ s = rpc->arg; if(strtomp(s, &s, 16, m) == nil) continue; if(mpcmp(m, myhost->rsapub->n) != 0) continue; mpfree(m); return rpc; } Err: mpfree(m); auth_freerpc(rpc); close(afd); return nil; } void putrsarpc(AuthRpc *rpc) { if(rpc == nil) return; close(rpc->afd); auth_freerpc(rpc); } int conread(Conn *c) { int n; if(c->rp > c->buf){ memmove(c->buf, c->rp, c->wp - c->rp); c->wp -= (c->rp - c->buf); c->rp = c->buf; } if((n = read(c->fd, c->wp, &c->buf[sizeof(c->buf)] - c->wp)) <= 0) return n; if(c->cin->crypt != nil) (*c->cin->crypt)((uchar*)c->wp, n, c->cin->cs); c->wp += n; return n; } int conwrite(Conn *c, char *s, int n) { if(c->cout->crypt != nil) (*c->cout->crypt)((uchar*)s, n, c->cout->cs); if(write(c->fd, s, n) != n) return -1; return 0; } int conrecv(Conn *c, char **f, int nf) { char *s, *e; do { if(c->wp > c->rp && (e = memchr(s = c->rp, '\n', c->wp - c->rp)) != nil){ *e++ = 0; c->rp = e; if(debug) fprint(2, "<-%s %s\n", c->host != nil ? c->host->name : "???", s); return tokenize(s, f, nf); } } while(conread(c) > 0); return 0; } int consend(Conn *c, char *fmt, ...) { char buf[1024]; va_list a; int n; if(c == nil) return -1; va_start(a, fmt); n = vsnprint(buf, sizeof(buf)-2, fmt, a); va_end(a); buf[n++] = '\n'; buf[n] = 0; qlock(&c->sendlk); if(debug) fprint(2, "->%s %s", c->host != nil ? c->host->name : "???", buf); n = conwrite(c, buf, n); qunlock(&c->sendlk); return n; } int recvudp(Host *h, int fd) { uchar buf[4+MaxPacket+AESbsize+MAClen], mac[SHA2_256dlen]; AESstate cs[1]; uint seq; int n, o; if((n = read(fd, buf, sizeof(buf))) <= 0) return -1; lock(h->cin); if(h->cin->crypt == nil || (n -= MAClen) < AESbsize){ unlock(h->cin); return -1; } hmac_sha2_256(buf, n, h->cin->key, sizeof(h->cin->key), mac, nil); if(tsmemcmp(mac, buf+n, MAClen) != 0){ unlock(h->cin); return -1; } memmove(cs, h->cin->cs, sizeof(cs)); (*h->cin->crypt)(buf, n, cs); if((n -= buf[n-1]) < 4){ unlock(h->cin); return -1; } seq = buf[0]<<24; seq |= buf[1]<<16; seq |= buf[2]<<8; seq |= buf[3]<<0; if((o = (int)(seq - h->cin->seq)) > 0){ h->cin->seq = seq; h->ooo = o < 64 ? h->ooo<<o | 1ULL : 0ULL; } else { o = -o; if(o >= 64 || (h->ooo & 1ULL<<o) != 0){ unlock(h->cin); return 0; } h->ooo |= 1ULL<<o; } h->udpfd = fd; unlock(h->cin); /* pmtu probe */ if(n >= 4+14 && buf[4+12] == 0 && buf[4+13] == 0){ if(buf[4+0] == 0){ buf[4+0] = 1; sendudp(h, fd, buf+4, n-4); } return 0; } routepkt(h, buf+4, n-4); return 0; } int sendudp(Host *h, int fd, uchar *p, int n) { uchar buf[4+MaxPacket+AESbsize+SHA2_256dlen]; AESstate cs[1]; uint seq; int pad; if(fd < 0 || n > MaxPacket) return -1; lock(h->cout); if(h->cout->crypt == nil){ unlock(h->cout); needkey(h); return -1; } seq = ++h->cout->seq; buf[0] = seq>>24; buf[1] = seq>>16; buf[2] = seq>>8; buf[3] = seq>>0; memmove(buf+4, p, n), n += 4; pad = AESbsize - ((uint)n % AESbsize); memset(buf+n, pad, pad), n += pad; memmove(cs, h->cout->cs, sizeof(cs)); (*h->cout->crypt)(buf, n, cs); hmac_sha2_256(buf, n, h->cout->key, sizeof(h->cout->key), buf+n, nil); unlock(h->cout); n += MAClen; if(write(fd, buf, n) != n) return -1; if((seq & 0xFFFFF) == 0) needkey(h); return 0; } int sendtcp(Host *h, uchar *p, int n) { char buf[24]; Conn *c; int m; if((c = h->conn) == nil) return -1; m = snprint(buf, sizeof(buf), "17 %d\n", n); qlock(&c->sendlk); if(conwrite(c, buf, m) < 0 || conwrite(c, (char*)p, n) < 0) n = -1; else n = 0; qunlock(&c->sendlk); return n; } void forward(Host *s, Host *d, uchar *p, int n) { if(d->from == nil) return; while(d != s && d != myhost){ if(n <= d->pmtu && sendudp(d, d->udpfd, p, n) == 0) return; if(sendtcp(d, p, n) == 0) return; d = d->from; } } int updatebyte(int csum, uchar *b, uchar *p, int v) { int o; o = *p; v &= 255; *p = v; if(((p - b) & 1) == 0){ o <<= 8; v <<= 8; } csum += o^0xFFFF; csum += v; while(v = csum >> 16) csum = (csum & 0xFFFF) + v; return csum; } void clampmss(Host *d, uchar *p, int n, int o) { int oldmss, newmss, csum; uchar *h, *e; if(n <= TcpHdr || (p[13]&2) == 0 || (d->options & OptClampMss) == 0) return; if((e = p+(p[12]>>4)*4) > p+n) return; for(h = p+TcpHdr; h < e;){ switch(h[0]){ case 0: return; case 1: h++; continue; } if(h[1] < 2 || h[1] > e - h) return; if(h[0] == 2 && h[1] == 4) goto Found; h += h[1]; } return; Found: oldmss = h[2]<<8 | h[3]; newmss = myhost->pmtu; if(d->pmtu < newmss) newmss = d->pmtu; newmss -= o + TcpHdr; if(oldmss <= newmss) return; if(debug) fprint(2, "clamping tcp mss %d -> %d for %s\n", oldmss, newmss, d->name); csum = (p[16]<<8 | p[17]) ^ 0xFFFF; csum = updatebyte(csum, p, h+2, newmss>>8); csum = updatebyte(csum, p, h+3, newmss); csum ^= 0xFFFF; p[16] = csum>>8; p[17] = csum; } void routepkt(Host *s, uchar *p, int n) { uchar src[IPaddrlen], dst[IPaddrlen]; int o, type; Snet *t; Ether: if(n <= EtherHdr) return; switch(p[EtherType+0]<<8 | p[EtherType+1]){ default: return; case 0x8100: /* VLAN */ memmove(p+4, p, 2*Eaddrlen); p += 4, n -= 4; goto Ether; case 0x0800: /* IPv4 */ case 0x86DD: /* IPv6 */ break; } switch(p[EtherHdr] & 0xF0){ default: return; case 0x40: o = EtherHdr+(p[EtherHdr] & 15)*4; if(n < EtherHdr+Ip4Hdr || n < o) return; type = p[EtherHdr+9]; v4tov6(src, p+EtherHdr+12); v4tov6(dst, p+EtherHdr+16); break; case 0x60: o = EtherHdr+Ip6Hdr; if(n < o) return; type = p[EtherHdr+6]; memmove(src, p+EtherHdr+8, 16); memmove(dst, p+EtherHdr+24, 16); break; } netlock(nil); if((t = lookupnet(dst)) != nil){ if(type == 6) /* TCP */ clampmss(t->owner, p+o, n-o, o); if(t->owner == myhost) write(ipdfd, p+EtherHdr, n-EtherHdr); else forward(s, t->owner, p, n); } netunlock(nil); } void updateweight(Edge *e, int ms) { e->weight = (e->weight + ms) / 2; if(e->weight < 0) e->weight = 0; } int metaauth(Conn *c) { mpint *m, *h; uchar b[512]; AuthRpc *rpc; char *f[8]; int n, n1, n2, ms; Edge *e; c->pingtime = nsec(); if(consend(c, "%d %s 17", ID, myhost->name) < 0) return -1; n = conrecv(c, f, nelem(f)); if(n != 3 || atoi(f[0]) != ID || atoi(f[2]) != 17) return -1; if((c->host = gethost(f[1], 0)) == nil || c->host == myhost || c->host->rsapub == nil) return -1; n1 = (mpsignif(c->host->rsapub->n)+7)/8; if(n1 < AESkeylen+AESbsize || n1 > sizeof(b)) return -1; n2 = (mpsignif(myhost->rsapub->n)+7)/8; if(n2 < AESkeylen+AESbsize || n2 > sizeof(b)) return -1; m = mpnrand(c->host->rsapub->n, genrandom, nil); mptober(m, b, n1); setupAESstate(c->cout->cs, b+n1-AESkeylen, AESkeylen, b+n1-AESkeylen-AESbsize); rsaencrypt(c->host->rsapub, m, m); mptober(m, b, n1); mpfree(m); if(consend(c, "%d %d %d 0 0 %.*H", META_KEY, EVP_AES256CFB, EVP_SHA256, n1, b) < 0) return -1; c->cout->crypt = aesCFBencrypt; n = conrecv(c, f, nelem(f)); if(n != 6 || atoi(f[0]) != META_KEY || strlen(f[5]) != 2*n2) return -1; if(atoi(f[1]) != EVP_AES256CFB || atoi(f[2]) != EVP_SHA256){ fprint(2, "%s uses unknown cipher/digest agorithms: %s %s\n", c->host->name, f[1], f[2]); return -1; } if((rpc = getrsarpc()) == nil || auth_rpc(rpc, "write", f[5], strlen(f[5])) != ARok || auth_rpc(rpc, "read", nil, 0) != ARok){ putrsarpc(rpc); return -1; } m = strtomp(rpc->arg, nil, 16, nil); putrsarpc(rpc); mptober(m, b, n2); mpfree(m); setupAESstate(c->cin->cs, b+n2-AESkeylen, AESkeylen, b+n2-AESkeylen-AESbsize); c->cin->crypt = aesCFBdecrypt; h = mpnrand(c->host->rsapub->n, genrandom, nil); mptober(h, b, n1); if(consend(c, "%d %.*H", CHALLENGE, n1, b) < 0){ mpfree(h); return -1; } sha2_256(b, n1, b, nil); betomp(b, SHA2_256dlen, h); n = conrecv(c, f, nelem(f)); if(n != 2 || atoi(f[0]) != CHALLENGE){ mpfree(h); return -1; } m = strtomp(f[1], nil, 16, nil); mptober(m, b, n2); mpfree(m); sha2_256(b, n2, b, nil); if(consend(c, "%d %.*H", CHAL_REPLY, SHA2_256dlen, b) < 0){ mpfree(h); return -1; } n = conrecv(c, f, nelem(f)); if(n != 2 || atoi(f[0]) != CHAL_REPLY){ mpfree(h); return -1; } m = strtomp(f[1], nil, 16, nil); n = mpcmp(m, h); mpfree(m); mpfree(h); if(n != 0) return -1; ms = (nsec() - c->pingtime)/1000000LL; if(consend(c, "%d %d %d %x", ACK, myhost->port, ms, myhost->options) < 0) return -1; n = conrecv(c, f, nelem(f)); if(n != 4 || atoi(f[0]) != ACK) return -1; netlock(c); e = getedge(myhost, c->host, 1); memmove(e->ip, c->ip, IPaddrlen); e->port = atoi(f[1]); e->weight = atoi(f[2]); e->options = strtol(f[3], nil, 16); updateweight(e, ms); c->pingtime = 0; c->edge = e; c->host->conn = c; netunlock(c); return 0; } Conn* nearcon(Host *to) { while(to != nil && to != myhost){ if(to->conn != nil) return to->conn; to = to->from; } return nil; } void sendkey(Host *to) { lock(to->cin); to->ooo = 0; to->cin->seq = 0; genrandom(to->cin->key, sizeof(to->cin->key)); setupAESstate(to->cin->cs, to->cin->key, AESkeylen, to->cin->key+AESkeylen); to->cin->crypt = aesCBCdecrypt; unlock(to->cin); consend(nearcon(to), "%d %s %s %.*H %d %d %d %d", ANS_KEY, myhost->name, to->name, sizeof(to->cin->key), to->cin->key, EVP_AES256CBC, EVP_SHA256, MAClen, 0); } void needkey(Host *from) { consend(nearcon(from), "%d %s %s", REQ_KEY, myhost->name, from->name); } void recvkey(Host *from, char **f) { uchar key[sizeof(from->cout->key)]; mpint *m; if(atoi(f[1]) != EVP_AES256CBC || atoi(f[2]) != EVP_SHA256 || atoi(f[3]) != MAClen || atoi(f[4]) != 0){ fprint(2, "%s key uses unknown parameters: %s %s %s %s\n", from->name, f[1], f[2], f[3], f[4]); return; } if(strlen(f[0]) != sizeof(key)*2) return; if((m = strtomp(f[0], nil, 16, nil)) == nil) return; mptober(m, key, sizeof(key)); mpfree(m); lock(from->cout); if(tsmemcmp(key, from->cout->key, sizeof(key)) == 0) goto Out; from->cout->seq = 0; memmove(from->cout->key, key, sizeof(key)); setupAESstate(from->cout->cs, from->cout->key, AESkeylen, from->cout->key+AESkeylen); from->cout->crypt = aesCBCencrypt; Out: unlock(from->cout); memset(key, 0, sizeof(key)); } void clearkey(Host *from) { lock(from->cout); from->cout->crypt = nil; from->cout->seq = 0; memset(from->cout->cs, 0, sizeof(from->cout->cs)); genrandom(from->cout->key, sizeof(from->cout->key)); unlock(from->cout); } void metapeer(Conn *c) { char *f[8]; Host *h, *r; Edge *e; Snet *t; int i, n; netlock(nil); for(i=0; i<nsnet; i++) reportsubnet(c, snet[i]); for(i=0; i<nedges; i++) reportedge(c, edges[i]); netunlock(nil); sendkey(c->host); while((n = conrecv(c, f, nelem(f))) > 0){ switch(atoi(f[0])){ case PING: if(consend(c, "%d %x", PONG, rand()) < 0) return; continue; case PONG: netlock(c); if(c->pingtime != 0){ if((e = getedge(myhost, c->host, 0)) != nil) updateweight(e, (nsec() - c->pingtime) / 1000000LL); c->pingtime = 0; } netunlock(c); continue; case ADD_SUBNET: if(n != 4 || (h = gethost(f[2], 1)) == nil || h == myhost) break; netlock(c); getsubnet(h, f[3], 1); netunlock(c); continue; case DEL_SUBNET: if(n != 4 || (h = gethost(f[2], 0)) == nil || h == myhost) break; netlock(c); if((t = getsubnet(h, f[3], 0)) != nil) delsubnet(t); netunlock(c); continue; case ADD_EDGE: if(n != 8 || (h = gethost(f[2], 1)) == nil || h == myhost || (r = gethost(f[3], 1)) == nil) break; netlock(c); if((e = getedge(h, r, 1)) != nil){ if(parseip(e->ip, f[4]) == -1) memmove(e->ip, r->ip, IPaddrlen); e->port = atoi(f[5]); e->weight = atoi(f[7]); e->options = strtol(f[6], nil, 16); } netunlock(c); continue; case DEL_EDGE: if(n != 4 || (h = gethost(f[2], 0)) == nil || h == myhost || (r = gethost(f[3], 1)) == nil) break; netlock(c); if((e = getedge(h, r, 0)) != nil) deledge(e); netunlock(c); continue; case KEY_CHANGED: if(n != 3 || (h = gethost(f[2], 0)) == nil || h == myhost) break; netlock(c); clearkey(h); for(e = myhost->link; e != nil; e = e->next) if(e->dst->conn != c && e->dst->from == myhost) consend(e->dst->conn, "%s %s %s", f[0], f[1], f[2]); netunlock(c); continue; case REQ_KEY: if(n != 3 || (h = gethost(f[1], 0)) == nil || h == myhost || (r = gethost(f[2], 0)) == nil) break; netlock(nil); if(r != myhost) consend(nearcon(r), "%s %s %s", f[0], f[1], f[2]); else sendkey(h); netunlock(nil); continue; case ANS_KEY: if(n != 8 || (h = gethost(f[1], 0)) == nil || h == myhost || (r = gethost(f[2], 0)) == nil) break; netlock(nil); if(r != myhost) consend(nearcon(r), "%s %s %s %s %s %s %s %s", f[0], f[1], f[2], f[3], f[4], f[5], f[6], f[7]); else recvkey(h, &f[3]); netunlock(nil); continue; case TCP_PACKET: if(n != 2) return; n = atoi(f[1]); if(n < 0 || n > MaxPacket) return; while((c->wp - c->rp) < n && conread(c) > 0) ; if(c->wp - c->rp < n) return; routepkt(c->host, (uchar*)c->rp, n); c->rp += n; continue; } } } void tcpclient(int fd, int incoming) { Conn *c; char dir[128]; c = emalloc(sizeof(Conn)); c->host = nil; c->fd = fd; c->rp = c->wp = c->buf; c->port = dir2ipport(fd2dir(fd, dir, sizeof(dir)), c->ip); procsetname("tcpclient %s %s %s %I!%d", myhost->name, incoming ? "in" : "out", dir, c->ip, c->port); if(metaauth(c) == 0){ procsetname("tcpclient %s %s %s %I!%d %s", myhost->name, incoming ? "in" : "out", dir, c->ip, c->port, c->host->name); metapeer(c); } netlock(c); if(c->host != nil && c->host->conn == c){ c->host->conn = nil; if(c->edge != nil && c->edge->dst == c->host){ deledge(c->edge->rev); deledge(c->edge); } hangupfd(c->host->udpfd); } netunlock(c); memset(c, 0, sizeof(*c)); free(c); close(fd); } void udpclient(int fd, int incoming) { uchar ip[IPaddrlen]; char dir[128]; Host *h; h = findhost(ip, dir2ipport(fd2dir(fd, dir, sizeof(dir)), ip)); if(h != nil && h != myhost){ procsetname("udpclient %s %s %s %I!%d %s", myhost->name, incoming ? "in": "out", dir, h->ip, h->port, h->name); if(!incoming){ lock(h->cin); if(h->udpfd == -1) h->udpfd = fd; unlock(h->cin); } do { alarm(15*1000); } while(recvudp(h, fd) == 0); lock(h->cin); if(h->udpfd == fd) h->udpfd = -1; unlock(h->cin); wlock(&netlk); wunlock(&netlk); } close(fd); } int dialer(char *proto, char *host, int rport, int lport) { char addr[40], local[16]; int dfd; snprint(local, sizeof(local), "%d", lport); snprint(addr, sizeof(addr), "%s/%s!%s!%d", outside, proto, host, rport); procsetname("dialer %s %s", myhost->name, addr); for(;;){ if((dfd = dial(addr, lport ? local : nil, nil, nil)) >= 0){ switch(rfork(RFPROC|RFMEM)){ case 0: return dfd; case -1: close(dfd); continue; } if(waitpid() < 0) return -1; } sleep(10000); } } int listener(char *proto, int port, int nprocs) { char addr[40], adir[40], ldir[40]; int acfd, lcfd, dfd; snprint(addr, sizeof(addr), "%s/%s!*!%d", outside, proto, port); procsetname("listener %s %s", myhost->name, addr); if((acfd = announce(addr, adir)) < 0) return -1; while((lcfd = listen(adir, ldir)) >= 0){ if((dfd = accept(lcfd, ldir)) >= 0) switch(rfork(RFPROC|RFMEM)){ default: if(nprocs > 1 || waitpid() < 0) nprocs--; break; case 0: return dfd; case -1: close(dfd); } close(lcfd); } close(acfd); return -1; } void pingpong(void) { Edge *e; Conn *c; procsetname("pingpong %s", myhost->name); for(;;){ sleep(15*1000 + (rand() % 3000)); netlock(nil); for(e = myhost->link; e != nil; e = e->next){ if((c = e->dst->conn) != nil){ if(c->pingtime != 0){ hangupfd(c->fd); continue; } c->pingtime = nsec(); consend(c, "%d %x", PING, rand()); } } netunlock(nil); } } void ipifcsetup(void) { int n; snprint(device, sizeof device, "%s/ipifc/clone", inside); if((ipcfd = open(device, ORDWR)) < 0) sysfatal("can't open ip interface: %r"); if((n = read(ipcfd, device, sizeof device - 1)) <= 0) sysfatal("can't read interface number: %r"); device[n] = 0; snprint(device, sizeof device, "%s/ipifc/%d/data", inside, atoi(device)); if((ipdfd = open(device, ORDWR)) < 0) sysfatal("can't open ip data: %r"); fprint(ipcfd, "bind pkt"); fprint(ipcfd, "mtu %d", myhost->pmtu-EtherHdr); fprint(ipcfd, "add %I %M", localip, localmask); *strrchr(device, '/') = 0; } void ip2tunnel(void) { uchar buf[MaxPacket]; int n; procsetname("ip2tunnel %s %s %I %M", myhost->name, fd2dir(ipdfd, (char*)buf, sizeof(buf)), localip, localmask); while((n = read(ipdfd, buf+EtherHdr, sizeof buf-EtherHdr)) > 0){ memset(buf, 0, 2*Eaddrlen); if((buf[EtherHdr]&0xF0) == 0x60){ buf[EtherType+0] = 0x86; buf[EtherType+1] = 0xDD; } else{ buf[EtherType+0] = 0x08; buf[EtherType+1] = 0x00; } routepkt(myhost, buf, n+EtherHdr); } } void catch(void*, char *msg) { if(strcmp(msg, "alarm") == 0 || strcmp(msg, "interrupt") == 0) noted(NCONT); noted(NDFLT); } void shutdown(void) { postnote(PNGROUP, getpid(), "shutdown"); } void usage(void) { fprint(2, "%s [-d] [-p maxprocs] [-x inside] [-o outside] [-c confdir] [-n myname] " "localip localmask [host...]\n", argv0); exits("usage"); } void main(int argc, char *argv[]) { Host *h; Snet *t; AuthRpc *rpc; int i, pfd[2]; quotefmtinstall(); fmtinstall('I', eipfmt); fmtinstall('M', eipfmt); fmtinstall('H', encodefmt); ARGBEGIN { case 'd': debug++; break; case 'p': if((maxprocs = atoi(EARGF(usage()))) < 1) sysfatal("bad number of procs"); break; case 'c': if(chdir(EARGF(usage())) < 0) sysfatal("can't change directory: %r"); break; case 'n': myname = EARGF(usage()); break; case 'x': outside = inside = EARGF(usage()); break; case 'o': outside = EARGF(usage()); break; default: usage(); } ARGEND; if(argc < 2) usage(); if(parseipandmask(localip, localmask, argv[0], argv[1]) == -1) sysfatal("bad local ip/mask: %s/%s", argv[0], argv[1]); argv += 2, argc -= 2; srand(fastrand()); if(myname == nil) myname = sysname(); if((myhost = gethost(myname, 0)) == nil) sysfatal("can't get my host: %r"); if((rpc = getrsarpc()) == nil) sysfatal("can't find my key in factotum: %r"); putrsarpc(rpc); for(i = 0; i < argc; i++){ if((h = gethost(argv[i], 0)) == nil) sysfatal("unknown host: %s", *argv); if(h == myhost) sysfatal("will not connect to myself"); if(h->rsapub == nil) sysfatal("no RSA public key for: %s", h->name); } if(myhost->snet == nil){ char snet[64]; snprint(snet, sizeof(snet), "%I/128", localip); getsubnet(myhost, snet, 1); } if((t = lookupnet(localip)) == nil) sysfatal("no subnet found for local ip %I", localip); if(t->owner != myhost) sysfatal("local ip %I belongs to host %s subnet %I %M", localip, t->owner->name, t->ip, t->mask); if(pipe(pfd) < 0) sysfatal("can't create pipe: %r"); switch(rfork(RFPROC|RFFDG|RFREND|RFNOTEG)){ case -1: sysfatal("can't fork: %r"); case 0: dup(pfd[1], 0); close(pfd[0]); close(pfd[1]); if(!debug){ close(2); while(open("/dev/null", OWRITE) == 1) ; } execl("/bin/rc", "rc", debug? "-v": nil, nil); sysfatal("can't exec: %r"); } rcfd = pfd[0]; close(pfd[1]); ipifcsetup(); notify(catch); switch(rfork(RFPROC|RFFDG|RFREND|RFNOTEG)){ case -1: sysfatal("can't fork: %r"); case 0: break; default: if(debug){ waitpid(); fprint(ipcfd, "unbind"); } exits(nil); } atexit(shutdown); fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I ./tinc-up\n", myname, myhost->name, device, localip); if(rfork(RFPROC|RFMEM) == 0){ tcpclient(listener("tcp", myhost->port, maxprocs), 1); exits(nil); } if((myhost->options & OptTcpOnly) == 0) if(rfork(RFPROC|RFMEM) == 0){ udpclient(listener("udp", myhost->port, maxprocs), 1); exits(nil); } for(i = 0; i < argc; i++){ if((h = gethost(argv[i], 0)) == nil) continue; if(rfork(RFPROC|RFMEM) == 0){ tcpclient(dialer("tcp", h->addr, h->port, myhost->port), 0); exits(nil); } if((h->options & OptTcpOnly) == 0) if(rfork(RFPROC|RFMEM) == 0){ udpclient(dialer("udp", h->addr, h->port, myhost->port), 0); exits(nil); } } if(rfork(RFPROC|RFMEM) == 0){ pingpong(); exits(nil); } ip2tunnel(); fprint(rcfd, "NAME=%s NODE=%s DEVICE=%s INTERFACE=%I ./tinc-down\n", myname, myhost->name, device, localip); }