ref: 5622b0bbd878dbc34045cc6fd37cffa64461eabe
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);
}