ref: b0377e84cf31c48afed765c433abe7eebb4135a5
dir: /sys/src/cmd/ip/pppoe.c/
/* * User-level PPP over Ethernet (PPPoE) client. * See RFC 2516 */ #include <u.h> #include <libc.h> #include <ip.h> void dumppkt(uchar*); uchar *findtag(uchar*, int, int*, int); void hexdump(uchar*, int); int malformed(uchar*, int, int); int pppoe(char*); void execppp(int); int primary; int forked; int alarmed; int debug; int rflag; int sessid; char *duid; char *keyspec; char *pppnetmtpt; char *acname; char *pppname = "/bin/ip/ppp"; char *srvname = ""; char *wantac; uchar *cookie; int cookielen; uchar etherdst[6]; uchar ethersrc[6]; int mtu = 1492; int pktcompress, hdrcompress; char *baud; void usage(void) { fprint(2, "usage: %s [-rPdcC] [-A acname] [-S srvname] [-U duid] [-k keyspec] [-m mtu] [-b baud] [-x pppnet] [/net/ether0]\n", argv0); exits("usage"); } void fatal(char *fmt, ...) { va_list a; fprint(2, "%s: ", argv0); va_start(a, fmt); vfprint(2, fmt, a); va_end(a); if(forked) postnote(PNGROUP, getpid(), "die"); exits("fatal"); } int catchalarm(void *a, char *msg) { USED(a); if(strstr(msg, "alarm")){ alarmed = 1; return 1; } if(debug) fprint(2, "note rcved: %s\n", msg); return 0; } void main(int argc, char **argv) { char *dev; ARGBEGIN{ case 'A': wantac = EARGF(usage()); break; case 'P': primary = 1; break; case 'S': srvname = EARGF(usage()); break; case 'r': rflag++; break; case 'd': debug++; break; case 'm': mtu = atoi(EARGF(usage())); break; case 'k': keyspec = EARGF(usage()); break; case 'b': baud = EARGF(usage()); break; case 'c': pktcompress = 1; break; case 'C': hdrcompress = 1; break; case 'x': pppnetmtpt = EARGF(usage()); break; case 'U': duid = EARGF(usage()); break; default: usage(); }ARGEND switch(argc){ default: usage(); case 0: dev = "/net/ether0"; break; case 1: dev = argv[0]; break; } fmtinstall('E', eipfmt); /* generate DUID-LL when not specified */ if(myetheraddr(ethersrc, dev) != -1 && duid == nil){ static char buf[32]; snprint(buf, sizeof buf, "00030001%E", ethersrc); duid = buf; } atnotify(catchalarm, 1); execppp(pppoe(dev)); } typedef struct Etherhdr Etherhdr; struct Etherhdr { uchar dst[6]; uchar src[6]; uchar type[2]; }; enum { EtherHdrSz = 6+6+2, EtherMintu = 60, EtherPppoeDiscovery = 0x8863, EtherPppoeSession = 0x8864, }; uchar etherbcast[6] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; int etherhdr(uchar *pkt, uchar *dst, int type) { Etherhdr *eh; eh = (Etherhdr*)pkt; memmove(eh->dst, dst, sizeof(eh->dst)); hnputs(eh->type, type); return EtherHdrSz; } typedef struct Pppoehdr Pppoehdr; struct Pppoehdr { uchar verstype; uchar code; uchar sessid[2]; uchar length[2]; /* of payload */ }; enum { PppoeHdrSz = 1+1+2+2, Hdr = EtherHdrSz+PppoeHdrSz, }; enum { VersType = 0x11, /* Discovery codes */ CodeDiscInit = 0x09, /* discovery init */ CodeDiscOffer = 0x07, /* discovery offer */ CodeDiscReq = 0x19, /* discovery request */ CodeDiscSess = 0x65, /* session confirmation */ CodeDiscTerm = 0xa7, /* Session codes */ CodeSession = 0x00, }; int pppoehdr(uchar *pkt, int code, int sessid) { Pppoehdr *ph; ph = (Pppoehdr*)pkt; ph->verstype = VersType; ph->code = code; hnputs(ph->sessid, sessid); return PppoeHdrSz; } typedef struct Taghdr Taghdr; struct Taghdr { uchar type[2]; uchar length[2]; /* of value */ }; enum { TagEnd = 0x0000, /* end of tag list */ TagSrvName = 0x0101, /* service name */ TagAcName = 0x0102, /* access concentrator name */ TagHostUniq = 0x0103, /* nonce */ TagAcCookie = 0x0104, /* a.c. cookie */ TagVendSpec = 0x0105, /* vendor specific */ TagRelaySessId = 0x0110, /* relay session id */ TagSrvNameErr = 0x0201, /* service name error (ascii) */ TagAcSysErr = 0x0202, /* a.c. system error */ }; int tag(uchar *pkt, int type, void *value, int nvalue) { Taghdr *h; h = (Taghdr*)pkt; hnputs(h->type, type); hnputs(h->length, nvalue); memmove(pkt+4, value, nvalue); return 4+nvalue; } /* PPPoE Active Discovery Initiation */ int padi(uchar *pkt) { int sz, tagoff; uchar *length; sz = 0; sz += etherhdr(pkt+sz, etherbcast, EtherPppoeDiscovery); sz += pppoehdr(pkt+sz, CodeDiscInit, 0x0000); length = pkt+sz-2; tagoff = sz; sz += tag(pkt+sz, TagSrvName, srvname, strlen(srvname)); hnputs(length, sz-tagoff); return sz; } /* PPPoE Active Discovery Request */ int padr(uchar *pkt) { int sz, tagoff; uchar *length; sz = 0; sz += etherhdr(pkt+sz, etherdst, EtherPppoeDiscovery); sz += pppoehdr(pkt+sz, CodeDiscReq, 0x0000); length = pkt+sz-2; tagoff = sz; sz += tag(pkt+sz, TagSrvName, srvname, strlen(srvname)); sz += tag(pkt+sz, TagAcName, acname, strlen(acname)); if(cookie) sz += tag(pkt+sz, TagAcCookie, cookie, cookielen); hnputs(length, sz-tagoff); return sz; } void ewrite(int fd, void *buf, int nbuf) { char e[ERRMAX], path[64]; if(write(fd, buf, nbuf) != nbuf){ rerrstr(e, sizeof e); strcpy(path, "unknown"); fd2path(fd, path, sizeof path); fatal("write %d to %s: %s\n", nbuf, path, e); } } void* emalloc(long n) { void *v; v = malloc(n); if(v == nil) fatal("out of memory\n"); return v; } int aread(int timeout, int fd, void *buf, int nbuf) { int n; alarmed = 0; alarm(timeout); n = read(fd, buf, nbuf); alarm(0); if(alarmed) return -1; if(n < 0) fatal("read: %r\n"); if(n == 0) fatal("short read\n"); return n; } int pktread(int timeout, int fd, void *buf, int nbuf, int (*want)(uchar*)) { int n, t2; n = -1; for(t2=timeout; t2<16000; t2*=2){ while((n = aread(t2, fd, buf, nbuf)) > 0){ if(malformed(buf, n, EtherPppoeDiscovery)){ if(debug) fprint(2, "dropping pkt: %r\n"); continue; } if(debug) dumppkt(buf); if(!want(buf)){ if(debug) fprint(2, "dropping unwanted pkt: %r\n"); continue; } break; } if(n > 0) break; } return n; } int bad(char *reason) { werrstr(reason); return 0; } void* copy(uchar *s, int len) { uchar *v; v = emalloc(len+1); memmove(v, s, len); v[len] = '\0'; return v; } void clearstate(void) { sessid = -1; free(acname); acname = nil; free(cookie); cookie = nil; } int wantoffer(uchar *pkt) { int i, len; uchar *s; Etherhdr *eh; Pppoehdr *ph; eh = (Etherhdr*)pkt; ph = (Pppoehdr*)(pkt+EtherHdrSz); if(ph->code != CodeDiscOffer) return bad("not an offer"); if(nhgets(ph->sessid) != 0x0000) return bad("bad session id"); for(i=0;; i++){ if((s = findtag(pkt, TagSrvName, &len, i)) == nil) return bad("no matching service name"); if(len == strlen(srvname) && memcmp(s, srvname, len) == 0) break; } if((s = findtag(pkt, TagAcName, &len, 0)) == nil) return bad("no ac name"); acname = copy(s, len); if(wantac && strcmp(acname, wantac) != 0){ free(acname); acname = nil; return bad("wrong ac name"); } if(s = findtag(pkt, TagAcCookie, &len, 0)){ cookie = copy(s, len); cookielen = len; } memmove(etherdst, eh->src, sizeof etherdst); return 1; } int wantsession(uchar *pkt) { int len; uchar *s; Pppoehdr *ph; ph = (Pppoehdr*)(pkt+EtherHdrSz); if(ph->code != CodeDiscSess) return bad("not a session confirmation"); if(nhgets(ph->sessid) == 0x0000) return bad("bad session id"); if(findtag(pkt, TagSrvName, &len, 0) == nil) return bad("no service name"); if(findtag(pkt, TagSrvNameErr, &len, 0)) return bad("service name error"); if(findtag(pkt, TagAcSysErr, &len, 0)) return bad("ac system error"); /* * rsc said: ``if there is no -S option given, the current code * waits for an offer with service name == "". * that's silly. it should take the first one it gets.'' */ if(srvname[0] != '\0') { if((s = findtag(pkt, TagSrvName, &len, 0)) == nil) return bad("no matching service name"); if(len != strlen(srvname) || memcmp(s, srvname, len) != 0) return bad("no matching service name"); } sessid = nhgets(ph->sessid); return 1; } int wantterm(uchar *pkt) { Pppoehdr *ph; ph = (Pppoehdr*)(pkt+EtherHdrSz); if(ph->code != CodeDiscTerm) return bad("not a PADT"); if(nhgets(ph->sessid) != sessid) return bad("bad session id"); return 1; } int pppoe(char *ether) { char buf[128]; uchar pkt[1520]; int dfd, sfd, p[2], n, sz, timeout; Pppoehdr *ph; ph = (Pppoehdr*)(pkt+EtherHdrSz); snprint(buf, sizeof buf, "%s!%d", ether, EtherPppoeDiscovery); if((dfd = dial(buf, nil, nil, nil)) < 0) fatal("dial %s: %r\n", buf); snprint(buf, sizeof buf, "%s!%d", ether, EtherPppoeSession); if((sfd = dial(buf, nil, nil, nil)) < 0) fatal("dial %s: %r\n", buf); Restart: for(timeout=250; timeout<16000; timeout*=2){ clearstate(); memset(pkt, 0, sizeof pkt); sz = padi(pkt); if(debug) dumppkt(pkt); if(sz < EtherMintu) sz = EtherMintu; ewrite(dfd, pkt, sz); if(pktread(timeout, dfd, pkt, sizeof pkt, wantoffer) < 0) continue; memset(pkt, 0, sizeof pkt); sz = padr(pkt); if(debug) dumppkt(pkt); if(sz < EtherMintu) sz = EtherMintu; ewrite(dfd, pkt, sz); if(pktread(timeout, dfd, pkt, sizeof pkt, wantsession) < 0) continue; break; } if(sessid < 0){ if(rflag) { if(forked || rfork(RFFDG|RFREND|RFPROC|RFNOWAIT|RFNOTEG) == 0){ forked = 1; goto Restart; } fprint(2, "%s: warning: could not establish session, retrying\n", argv0); exits(nil); } fatal("could not establish session\n"); } if(pipe(p) < 0) fatal("pipe: %r\n"); switch(rfork(RFFDG|RFREND|RFPROC|RFNOWAIT|RFNOTEG)){ case -1: fatal("fork: %r\n"); case 0: forked = 1; close(p[1]); break; default: forked = 0; close(dfd); close(sfd); close(p[0]); return p[1]; } switch(fork()){ case -1: fatal("fork: %r\n"); default: break; case 0: close(dfd); while((n = read(sfd, pkt, sizeof pkt)) > 0){ if(malformed(pkt, n, EtherPppoeSession) || ph->code != 0x00 || nhgets(ph->sessid) != sessid){ if(debug) fprint(2, "malformed session pkt: %r\n"); if(debug) dumppkt(pkt); continue; } if(write(p[0], pkt+Hdr, nhgets(ph->length)) < 0){ if(debug) fprint(2, "write to ppp failed: %r\n"); break; } } exits(nil); } switch(fork()){ case -1: fatal("fork: %r\n"); default: break; case 0: close(dfd); while((n = read(p[0], pkt+Hdr, sizeof pkt-Hdr)) > 0){ etherhdr(pkt, etherdst, EtherPppoeSession); pppoehdr(pkt+EtherHdrSz, 0x00, sessid); hnputs(pkt+Hdr-2, n); sz = Hdr+n; if(debug > 1){ dumppkt(pkt); hexdump(pkt, sz); } if(sz < EtherMintu) sz = EtherMintu; if(write(sfd, pkt, sz) < 0){ if(debug) fprint(2, "write to ether failed: %r"); break; } } exits(nil); } close(p[0]); switch(fork()){ case -1: fatal("fork: %r\n"); default: break; case 0: close(sfd); for (;;) { if(pktread(0, dfd, pkt, sizeof pkt, wantterm) > 0) break; } exits(nil); } /* wait for any of our children to exit */ waitpid(); postnote(PNGROUP, getpid(), "die"); if(!rflag) exits(nil); /* wait for all to exit, then restart */ sleep(5000); waitpid(); waitpid(); goto Restart; } void execppp(int fd) { char smtu[10]; char *argv[20]; int argc; argc = 0; argv[argc++] = pppname; snprint(smtu, sizeof(smtu), "-m%d", mtu); argv[argc++] = smtu; argv[argc++] = "-F"; if(debug) argv[argc++] = "-d"; if(primary) argv[argc++] = "-P"; if(baud){ argv[argc++] = "-b"; argv[argc++] = baud; } if(hdrcompress) argv[argc++] = "-C"; if(pktcompress) argv[argc++] = "-c"; if(pppnetmtpt){ argv[argc++] = "-x"; argv[argc++] = pppnetmtpt; } if(keyspec){ argv[argc++] = "-k"; argv[argc++] = keyspec; } if(duid){ argv[argc++] = "-U"; argv[argc++] = duid; } argv[argc] = nil; dup(fd, 0); dup(fd, 1); exec(pppname, argv); fatal("exec: %r\n"); } uchar* findtag(uchar *pkt, int tagtype, int *plen, int skip) { int len, sz, totlen; uchar *tagdat, *v; Etherhdr *eh; Pppoehdr *ph; Taghdr *t; eh = (Etherhdr*)pkt; ph = (Pppoehdr*)(pkt+EtherHdrSz); tagdat = pkt+Hdr; if(nhgets(eh->type) != EtherPppoeDiscovery) return nil; totlen = nhgets(ph->length); sz = 0; while(sz+4 <= totlen){ t = (Taghdr*)(tagdat+sz); v = tagdat+sz+4; len = nhgets(t->length); if(sz+4+len > totlen) break; if(nhgets(t->type) == tagtype && skip-- == 0){ *plen = len; return v; } sz += 2+2+len; } return nil; } void dumptags(uchar *tagdat, int ntagdat) { int i,len, sz; uchar *v; Taghdr *t; sz = 0; while(sz+4 <= ntagdat){ t = (Taghdr*)(tagdat+sz); v = tagdat+sz+2+2; len = nhgets(t->length); if(sz+4+len > ntagdat) break; fprint(2, "\t0x%x %d: ", nhgets(t->type), len); switch(nhgets(t->type)){ case TagEnd: fprint(2, "end of tag list\n"); break; case TagSrvName: fprint(2, "service '%.*s'\n", utfnlen((char*)v, len), (char*)v); break; case TagAcName: fprint(2, "ac '%.*s'\n", utfnlen((char*)v, len), (char*)v); break; case TagHostUniq: fprint(2, "nonce "); Hex: for(i=0; i<len; i++) fprint(2, "%.2ux", v[i]); fprint(2, "\n"); break; case TagAcCookie: fprint(2, "ac cookie "); goto Hex; case TagVendSpec: fprint(2, "vend spec "); goto Hex; case TagRelaySessId: fprint(2, "relay "); goto Hex; case TagSrvNameErr: fprint(2, "srverr '%.*s'\n", utfnlen((char*)v, len), (char*)v); break; case TagAcSysErr: fprint(2, "syserr '%.*s'\n", utfnlen((char*)v, len), (char*)v); break; } sz += 2+2+len; } if(sz != ntagdat) fprint(2, "warning: only dumped %d of %d bytes\n", sz, ntagdat); } void dumppkt(uchar *pkt) { int et; Etherhdr *eh; Pppoehdr *ph; eh = (Etherhdr*)pkt; ph = (Pppoehdr*)(pkt+EtherHdrSz); et = nhgets(eh->type); fprint(2, "%E -> %E type 0x%x\n", eh->src, eh->dst, et); switch(et){ case EtherPppoeDiscovery: case EtherPppoeSession: fprint(2, "\tvers %d type %d code 0x%x sessid 0x%x length %d\n", ph->verstype>>4, ph->verstype&15, ph->code, nhgets(ph->sessid), nhgets(ph->length)); if(et == EtherPppoeDiscovery) dumptags(pkt+Hdr, nhgets(ph->length)); } } int malformed(uchar *pkt, int n, int wantet) { int et; Etherhdr *eh; Pppoehdr *ph; eh = (Etherhdr*)pkt; ph = (Pppoehdr*)(pkt+EtherHdrSz); if(n < Hdr || n < Hdr+nhgets(ph->length)){ werrstr("packet too short %d != %d", n, Hdr+nhgets(ph->length)); return 1; } et = nhgets(eh->type); if(et != wantet){ werrstr("wrong ethernet packet type 0x%x != 0x%x", et, wantet); return 1; } return 0; } void hexdump(uchar *a, int na) { int i; char buf[80]; buf[0] = '\0'; for(i=0; i<na; i++){ sprint(buf+strlen(buf), " %.2ux", a[i]); if(i%16 == 7) sprint(buf+strlen(buf), " --"); if(i%16==15){ sprint(buf+strlen(buf), "\n"); write(2, buf, strlen(buf)); buf[0] = 0; } } if(i%16){ sprint(buf+strlen(buf), "\n"); write(2, buf, strlen(buf)); } }