ref: 9ced712a2ad70557a8ceb89ff3b969b92c85f68c
dir: /sys/src/cmd/ip/snoopy/main.c/
/* * snoopy - network sniffer */ #include <u.h> #include <libc.h> #include <ip.h> #include <bio.h> #include <fcall.h> #include <libsec.h> #include <ndb.h> #include "dat.h" #include "protos.h" #include "y.tab.h" int Cflag; int pflag; int Nflag; int Mflag; int sflag; int tiflag; int toflag; char *prom = "promiscuous"; enum { Pktlen= 64*1024, Blen= 16*1024, }; Filter *filter; Proto *root; Biobuf out; vlong starttime, pkttime; int pcap; int filterpkt(Filter *f, uchar *ps, uchar *pe, Proto *pr, int); void printpkt(char *p, char *e, uchar *ps, uchar *pe); void mkprotograph(void); Proto* findproto(char *name); Filter* compile(Filter *f); void printfilter(Filter *f, char *tag); void printhelp(char*); void tracepkt(uchar*, int); void pcaphdr(void); void printusage(void) { fprint(2, "usage: %s [-CDdpst] [-N n] [-f filter] [-h first-header] path\n", argv0); fprint(2, " for protocol help: %s -? [proto]\n", argv0); } void usage(void) { printusage(); exits("usage"); } void main(int argc, char **argv) { uchar *pkt; char *buf, *file, *p, *e; int fd, cfd; int n; Binit(&out, 1, OWRITE); fmtinstall('E', eipfmt); fmtinstall('V', eipfmt); fmtinstall('I', eipfmt); fmtinstall('H', encodefmt); fmtinstall('F', fcallfmt); pkt = malloc(Pktlen+16); pkt += 16; buf = malloc(Blen); e = buf+Blen-1; pflag = 1; Nflag = 32; sflag = 0; mkprotograph(); ARGBEGIN{ default: usage(); case '?': printusage(); printhelp(ARGF()); exits(0); break; case 'M': p = EARGF(usage()); Mflag = atoi(p); break; case 'N': p = EARGF(usage()); Nflag = atoi(p); break; case 'f': p = EARGF(usage()); yyinit(p); yyparse(); break; case 's': sflag = 1; break; case 'h': p = EARGF(usage()); root = findproto(p); if(root == nil) sysfatal("unknown protocol: %s", p); break; case 'd': toflag = 1; break; case 'D': toflag = 1; pcap = 1; break; case 't': tiflag = 1; break; case 'C': Cflag = 1; break; case 'p': pflag = 0; break; }ARGEND; if(pcap) pcaphdr(); if(argc == 0){ file = "/net/ether0"; if(root != nil) root = ðer; } else file = argv[0]; if((!tiflag) && strstr(file, "ether")){ if(root == nil) root = ðer; snprint(buf, Blen, "%s!-1", file); fd = dial(buf, 0, 0, &cfd); if(fd < 0) sysfatal("dialing %s", buf); if(pflag && fprint(cfd, prom, strlen(prom)) < 0) sysfatal("setting %s", prom); } else if((!tiflag) && strstr(file, "ipifc")){ if(root == nil) root = &ip; snprint(buf, Blen, "%s/snoop", file); fd = open(buf, OREAD); if(fd < 0) sysfatal("opening %s: %r", buf); } else { if(root == nil) root = ðer; fd = open(file, OREAD); if(fd < 0) sysfatal("opening %s: %r", file); } filter = compile(filter); if(tiflag){ /* read a trace file */ for(;;){ n = read(fd, pkt, 10); if(n != 10) break; pkttime = NetL(pkt+2); pkttime = (pkttime<<32) | NetL(pkt+6); if(starttime == 0LL) starttime = pkttime; n = NetS(pkt); if(readn(fd, pkt, n) != n) break; if(filterpkt(filter, pkt, pkt+n, root, 1)) if(toflag) tracepkt(pkt, n); else printpkt(buf, e, pkt, pkt+n); } } else { /* read a real time stream */ starttime = nsec(); for(;;){ n = root->framer(fd, pkt, Pktlen); if(n <= 0) break; pkttime = nsec(); if(filterpkt(filter, pkt, pkt+n, root, 1)) if(toflag) tracepkt(pkt, n); else printpkt(buf, e, pkt, pkt+n); } } } /* create a new filter node */ Filter* newfilter(void) { Filter *f; f = mallocz(sizeof(*f), 1); if(f == nil) sysfatal("newfilter: %r"); return f; } /* * apply filter to packet */ int _filterpkt(Filter *f, Msg *m) { Msg ma; if(f == nil) return 1; switch(f->op){ case '!': return !_filterpkt(f->l, m); case LAND: ma = *m; return _filterpkt(f->l, &ma) && _filterpkt(f->r, m); case LOR: ma = *m; return _filterpkt(f->l, &ma) || _filterpkt(f->r, m); case WORD: if(m->needroot){ if(m->pr != f->pr) return 0; m->needroot = 0; }else{ if(m->pr && (m->pr->filter==nil || !(m->pr->filter)(f, m))) return 0; } if(f->l == nil) return 1; m->pr = f->pr; return _filterpkt(f->l, m); } sysfatal("internal error: filterpkt op: %d", f->op); } int filterpkt(Filter *f, uchar *ps, uchar *pe, Proto *pr, int needroot) { Msg m; if(f == nil) return 1; m.needroot = needroot; m.ps = ps; m.pe = pe; m.pr = pr; return _filterpkt(f, &m); } /* * from the Unix world */ #define PCAP_VERSION_MAJOR 2 #define PCAP_VERSION_MINOR 4 #define TCPDUMP_MAGIC 0xa1b23c4d struct pcap_file_header { ulong magic; ushort version_major; ushort version_minor; long thiszone; /* gmt to local correction */ ulong sigfigs; /* accuracy of timestamps */ ulong snaplen; /* max length saved portion of each pkt */ ulong linktype; /* data link type (DLT_*) */ }; struct pcap_pkthdr { ulong ts_sec; ulong ts_nsec; ulong caplen; /* length of portion present */ ulong len; /* length this packet (off wire) */ }; /* * pcap trace header */ void pcaphdr(void) { struct pcap_file_header hdr; hdr.magic = TCPDUMP_MAGIC; hdr.version_major = PCAP_VERSION_MAJOR; hdr.version_minor = PCAP_VERSION_MINOR; hdr.thiszone = 0; hdr.snaplen = 1500; hdr.sigfigs = 0; hdr.linktype = 1; write(1, &hdr, sizeof(hdr)); } /* * write out a packet trace */ void tracepkt(uchar *ps, int len) { struct pcap_pkthdr *goo; if(Mflag && len > Mflag) len = Mflag; if(pcap){ goo = (struct pcap_pkthdr*)(ps-16); goo->ts_sec = (uvlong)pkttime / 1000000000; goo->ts_nsec = (uvlong)pkttime % 1000000000; goo->caplen = len; goo->len = len; write(1, goo, len+16); } else { hnputs(ps-10, len); hnputl(ps-8, pkttime>>32); hnputl(ps-4, pkttime); write(1, ps-10, len+10); } } /* * format and print a packet */ void printpkt(char *p, char *e, uchar *ps, uchar *pe) { Msg m; ulong dt; dt = (pkttime-starttime)/1000000LL; m.p = seprint(p, e, "%6.6uld ms ", dt); m.ps = ps; m.pe = pe; m.e = e; m.pr = root; while(m.p < m.e){ if(!sflag) m.p = seprint(m.p, m.e, "\n\t"); m.p = seprint(m.p, m.e, "%s(", m.pr->name); if((*m.pr->seprint)(&m) < 0){ m.p = seprint(m.p, m.e, "TOO SHORT"); m.ps = m.pe; } m.p = seprint(m.p, m.e, ")"); if(m.pr == nil || m.ps >= m.pe) break; } *m.p++ = '\n'; if(write(1, p, m.p - p) < 0) sysfatal("stdout: %r"); } Proto **xprotos; int nprotos; /* look up a protocol by its name */ Proto* findproto(char *name) { int i; for(i = 0; i < nprotos; i++) if(strcmp(xprotos[i]->name, name) == 0) return xprotos[i]; return nil; } /* * add an undefined protocol to protos[] */ Proto* addproto(char *name) { Proto *pr; xprotos = realloc(xprotos, (nprotos+1)*sizeof(Proto*)); pr = malloc(sizeof *pr); *pr = dump; pr->name = name; xprotos[nprotos++] = pr; return pr; } /* * build a graph of protocols, this could easily be circular. This * links together all the multiplexing in the protocol modules. */ void mkprotograph(void) { Proto **l; Proto *pr; Mux *m; /* copy protos into a reallocable area */ for(nprotos = 0; protos[nprotos] != nil; nprotos++) ; xprotos = malloc(nprotos*sizeof(Proto*)); memmove(xprotos, protos, nprotos*sizeof(Proto*)); for(l = protos; *l != nil; l++){ pr = *l; for(m = pr->mux; m != nil && m->name != nil; m++){ m->pr = findproto(m->name); if(m->pr == nil) m->pr = addproto(m->name); } } } /* * add in a protocol node */ static Filter* addnode(Filter *f, Proto *pr) { Filter *nf; nf = newfilter(); nf->pr = pr; nf->s = pr->name; nf->l = f; nf->op = WORD; return nf; } /* * recurse through the protocol graph adding missing nodes * to the filter if we reach the filter's protocol */ static Filter* _fillin(Filter *f, Proto *last, int depth) { Mux *m; Filter *nf; if(depth-- <= 0) return nil; for(m = last->mux; m != nil && m->name != nil; m++){ if(m->pr == nil) continue; if(f->pr == m->pr) return f; nf = _fillin(f, m->pr, depth); if(nf != nil) return addnode(nf, m->pr); } return nil; } static Filter* fillin(Filter *f, Proto *last) { int i; Filter *nf; /* hack to make sure top level node is the root */ if(last == nil){ if(f->pr == root) return f; f = fillin(f, root); if(f == nil) return nil; return addnode(f, root); } /* breadth first search though the protocol graph */ nf = f; for(i = 1; i < 20; i++){ nf = _fillin(f, last, i); if(nf != nil) break; } return nf; } /* * massage tree so that all paths from the root to a leaf * contain a filter node for each header. * * also, set f->pr where possible */ Filter* complete(Filter *f, Proto *last) { Proto *pr; if(f == nil) return f; /* do a depth first traversal of the filter tree */ switch(f->op){ case '!': f->l = complete(f->l, last); break; case LAND: case LOR: f->l = complete(f->l, last); f->r = complete(f->r, last); break; case '=': break; case WORD: pr = findproto(f->s); f->pr = pr; if(pr == nil){ if(f->l != nil){ fprint(2, "%s unknown proto, ignoring params\n", f->s); f->l = nil; } } else { f->l = complete(f->l, pr); f = fillin(f, last); if(f == nil) sysfatal("internal error: can't get to %s", pr->name); } break; } return f; } /* * merge common nodes under | and & moving the merged node * above the | or &. * * do some constant foldong, e.g. `true & x' becomes x and * 'true | x' becomes true. */ static int changed; static Filter* _optimize(Filter *f) { Filter *l; if(f == nil) return f; switch(f->op){ case '!': /* is child also a not */ if(f->l->op == '!'){ changed = 1; return f->l->l; } break; case LOR: /* are two children the same protocol? */ if(f->l->op != f->r->op || f->r->op != WORD || f->l->pr != f->r->pr || f->l->pr == nil) break; /* no optimization */ changed = 1; /* constant folding */ /* if either child is childless, just return that */ if(f->l->l == nil) return f->l; else if(f->r->l == nil) return f->r; /* move the common node up, thow away one node */ l = f->l; f->l = l->l; f->r = f->r->l; l->l = f; return l; case LAND: /* are two children the same protocol? */ if(f->l->op != f->r->op || f->r->op != WORD || f->l->pr != f->r->pr || f->l->pr == nil) break; /* no optimization */ changed = 1; /* constant folding */ /* if either child is childless, ignore it */ if(f->l->l == nil) return f->r; else if(f->r->l == nil) return f->l; /* move the common node up, thow away one node */ l = f->l; f->l = _optimize(l->l); f->r = _optimize(f->r->l); l->l = f; return l; } f->l = _optimize(f->l); f->r = _optimize(f->r); return f; } Filter* optimize(Filter *f) { do{ changed = 0; f = _optimize(f); }while(changed); return f; } /* * find any top level nodes that aren't the root */ int findbogus(Filter *f) { int rv; if(f->op != WORD){ rv = findbogus(f->l); if(f->r) rv |= findbogus(f->r); return rv; } else if(f->pr != root){ fprint(2, "bad top-level protocol: %s\n", f->s); return 1; } return 0; } /* * compile the filter */ static void _compile(Filter *f, Proto *last) { if(f == nil) return; switch(f->op){ case '!': _compile(f->l, last); break; case LOR: case LAND: _compile(f->l, last); _compile(f->r, last); break; case WORD: if(last != nil){ if(last->compile == nil) sysfatal("unknown %s subprotocol: %s", f->pr->name, f->s); (*last->compile)(f); } if(f->l) _compile(f->l, f->pr); break; case '=': if(last == nil) sysfatal("internal error: compilewalk: badly formed tree"); if(last->compile == nil) sysfatal("unknown %s field: %s", f->pr->name, f->s); (*last->compile)(f); break; default: sysfatal("internal error: compilewalk op: %d", f->op); } } Filter* compile(Filter *f) { if(f == nil) return f; /* fill in the missing header filters */ f = complete(f, nil); /* constant folding */ f = optimize(f); if(!toflag) printfilter(f, "after optimize"); /* protocol specific compilations */ _compile(f, nil); /* at this point, the root had better be the root proto */ if(findbogus(f)){ fprint(2, "bogus filter\n"); exits("bad filter"); } return f; } /* * parse a byte array */ int parseba(uchar *to, char *from) { char nip[4]; char *p; int i; p = from; for(i = 0; i < 16; i++){ if(*p == 0) return -1; nip[0] = *p++; if(*p == 0) return -1; nip[1] = *p++; nip[2] = 0; to[i] = strtoul(nip, 0, 16); } return i; } /* * compile WORD = WORD, becomes a single node with a subop */ void compile_cmp(char *proto, Filter *f, Field *fld) { uchar x[IPaddrlen]; char *v; if(f->op != '=') sysfatal("internal error: compile_cmp %s: not a cmp", proto); for(; fld->name != nil; fld++){ if(strcmp(f->l->s, fld->name) == 0){ f->op = WORD; f->subop = fld->subop; switch(fld->ftype){ case Fnum: f->ulv = strtoul(f->r->s, 0, 0); break; case Fether: v = csgetvalue(nil, "sys", (char*)f->r->s, "ether", 0); if(v){ parseether(f->a, v); free(v); } else parseether(f->a, f->r->s); break; case Fv4ip: v = csgetvalue(nil, "sys", (char*)f->r->s, "ip", 0); if(v){ f->ulv = parseip(x, v); free(v); }else f->ulv = parseip(x, f->r->s); break; case Fv6ip: v = csgetvalue(nil, "sys", (char*)f->r->s, "ipv6", 0); if(v){ parseip(f->a, v); free(v); }else parseip(f->a, f->r->s); break; case Fba: parseba(f->a, f->r->s); break; default: sysfatal("internal error: compile_cmp %s: %d", proto, fld->ftype); } f->l = f->r = nil; return; } } sysfatal("unknown %s field in: %s = %s", proto, f->l->s, f->r->s); } void _pf(Filter *f) { char *s; if(f == nil) return; s = nil; switch(f->op){ case '!': fprint(2, "!"); _pf(f->l); break; case WORD: fprint(2, "%s", f->s); if(f->l != nil){ fprint(2, "("); _pf(f->l); fprint(2, ")"); } break; case LAND: s = "&&"; goto print; case LOR: s = "||"; goto print; case '=': print: _pf(f->l); if(s) fprint(2, " %s ", s); else fprint(2, " %c ", f->op); _pf(f->r); break; default: fprint(2, "???"); break; } } void printfilter(Filter *f, char *tag) { fprint(2, "%s: ", tag); _pf(f); fprint(2, "\n"); } void cat(void) { char buf[1024]; int n; while((n = read(0, buf, sizeof buf)) > 0) write(1, buf, n); } static int fd1 = -1; void startmc(void) { int p[2]; if(fd1 == -1) fd1 = dup(1, -1); if(pipe(p) < 0) return; switch(fork()){ case -1: return; default: close(p[0]); dup(p[1], 1); if(p[1] != 1) close(p[1]); return; case 0: close(p[1]); dup(p[0], 0); if(p[0] != 0) close(p[0]); execl("/bin/mc", "mc", nil); cat(); _exits(0); } } void stopmc(void) { close(1); dup(fd1, 1); waitpid(); } void printhelp(char *name) { int len; Proto *pr, **l; Mux *m; Field *f; char fmt[40]; if(name == nil){ print("protocols:\n"); startmc(); for(l=protos; (pr=*l) != nil; l++) print(" %s\n", pr->name); stopmc(); return; } pr = findproto(name); if(pr == nil){ print("unknown protocol %s\n", name); return; } if(pr->field){ print("%s's filter attributes:\n", pr->name); len = 0; for(f=pr->field; f->name; f++) if(len < strlen(f->name)) len = strlen(f->name); startmc(); for(f=pr->field; f->name; f++) print(" %-*s - %s\n", len, f->name, f->help); stopmc(); } if(pr->mux){ print("%s's subprotos:\n", pr->name); startmc(); snprint(fmt, sizeof fmt, " %s %%s\n", pr->valfmt); for(m=pr->mux; m->name != nil; m++) print(fmt, m->val, m->name); stopmc(); } } /* * demultiplex to next prototol header */ void demux(Mux *mx, ulong val1, ulong val2, Msg *m, Proto *def) { m->pr = def; for(mx = mx; mx->name != nil; mx++){ if(val1 == mx->val || val2 == mx->val){ m->pr = mx->pr; break; } } } /* * default framer just assumes the input packet is * a single read */ int defaultframer(int fd, uchar *pkt, int pktlen) { return read(fd, pkt, pktlen); }