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fp_tcp.c
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fp_tcp.c
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/*
p0f - TCP/IP packet matching
----------------------------
Copyright (C) 2012 by Michal Zalewski <[email protected]>
Distributed under the terms and conditions of GNU LGPL.
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <netinet/in.h>
#include <sys/types.h>
#include <ctype.h>
#include "types.h"
#include "config.h"
#include "debug.h"
#include "alloc-inl.h"
#include "process.h"
#include "hash.h"
#include "tcp.h"
#include "readfp.h"
#include "p0f.h"
#include "fp_tcp.h"
/* TCP signature buckets: */
static struct tcp_sig_record* sigs[2][SIG_BUCKETS];
static u32 sig_cnt[2][SIG_BUCKETS];
/* Figure out what the TTL distance might have been for an unknown sig. */
static u8 guess_dist(u8 ttl) {
if (ttl <= 32) return 32 - ttl;
if (ttl <= 64) return 64 - ttl;
if (ttl <= 128) return 128 - ttl;
return 255 - ttl;
}
/* Figure out if window size is a multiplier of MSS or MTU. We don't take window
scaling into account, because neither do TCP stack developers. */
static s16 detect_win_multi(struct tcp_sig* ts, u8* use_mtu, u16 syn_mss) {
u16 win = ts->win;
s32 mss = ts->mss, mss12 = mss - 12;
if (!win || mss < 100 || ts->win_type != WIN_TYPE_NORMAL)
return -1;
#define RET_IF_DIV(_div, _use_mtu, _desc) do { \
if ((_div) && !(win % (_div))) { \
*use_mtu = (_use_mtu); \
DEBUG("[#] Window size %u is a multiple of %s [%u].\n", win, _desc, _div); \
return win / (_div); \
} \
} while (0)
RET_IF_DIV(mss, 0, "MSS");
/* Some systems will sometimes subtract 12 bytes when timestamps are in use. */
if (ts->ts1) RET_IF_DIV(mss12, 0, "MSS - 12");
/* Some systems use MTU on the wrong interface, so let's check for the most
common case. */
RET_IF_DIV(1500 - MIN_TCP4, 0, "MSS (MTU = 1500, IPv4)");
RET_IF_DIV(1500 - MIN_TCP4 - 12, 0, "MSS (MTU = 1500, IPv4 - 12)");
if (ts->ip_ver == IP_VER6) {
RET_IF_DIV(1500 - MIN_TCP6, 0, "MSS (MTU = 1500, IPv6)");
RET_IF_DIV(1500 - MIN_TCP6 - 12, 0, "MSS (MTU = 1500, IPv6 - 12)");
}
/* Some systems use MTU instead of MSS: */
RET_IF_DIV(mss + MIN_TCP4, 1, "MTU (IPv4)");
RET_IF_DIV(mss + ts->tot_hdr, 1, "MTU (actual size)");
if (ts->ip_ver == IP_VER6) RET_IF_DIV(mss + MIN_TCP6, 1, "MTU (IPv6)");
RET_IF_DIV(1500, 1, "MTU (1500)");
/* On SYN+ACKs, some systems use of the peer: */
if (syn_mss) {
RET_IF_DIV(syn_mss, 0, "peer MSS");
RET_IF_DIV(syn_mss - 12, 0, "peer MSS - 12");
}
#undef RET_IF_DIV
return -1;
}
/* See if any of the p0f.fp signatures matches the collected data. */
static void tcp_find_match(u8 to_srv, struct tcp_sig* ts, u8 dupe_det,
u16 syn_mss) {
struct tcp_sig_record* fmatch = NULL;
struct tcp_sig_record* gmatch = NULL;
u32 bucket = ts->opt_hash % SIG_BUCKETS;
u32 i;
u8 use_mtu = 0;
s16 win_multi = detect_win_multi(ts, &use_mtu, syn_mss);
CP(sigs[to_srv][bucket]);
for (i = 0; i < sig_cnt[to_srv][bucket]; i++) {
struct tcp_sig_record* ref = sigs[to_srv][bucket] + i;
struct tcp_sig* refs = CP(ref->sig);
u8 fuzzy = 0;
u32 ref_quirks = refs->quirks;
if (ref->sig->opt_hash != ts->opt_hash) continue;
/* If the p0f.fp signature has no IP version specified, we need
to remove IPv6-specific quirks from it when matching IPv4
packets, and vice versa. */
if (refs->ip_ver == -1)
ref_quirks &= ((ts->ip_ver == IP_VER4) ? ~(QUIRK_FLOW) :
~(QUIRK_DF | QUIRK_NZ_ID | QUIRK_ZERO_ID));
if (ref_quirks != ts->quirks) {
u32 deleted = (ref_quirks ^ ts->quirks) & ref_quirks,
added = (ref_quirks ^ ts->quirks) & ts->quirks;
/* If there is a difference in quirks, but it amounts to 'df' or 'id+'
disappearing, or 'id-' or 'ecn' appearing, allow a fuzzy match. */
if (fmatch || (deleted & ~(QUIRK_DF | QUIRK_NZ_ID)) ||
(added & ~(QUIRK_ZERO_ID | QUIRK_ECN))) continue;
fuzzy = 1;
}
/* Fixed parameters. */
if (refs->opt_eol_pad != ts->opt_eol_pad ||
refs->ip_opt_len != ts->ip_opt_len) continue;
/* TTL matching, with a provision to allow fuzzy match. */
if (ref->bad_ttl) {
if (refs->ttl < ts->ttl) continue;
} else {
if (refs->ttl < ts->ttl || refs->ttl - ts->ttl > MAX_DIST) fuzzy = 1;
}
/* Simple wildcards. */
if (refs->mss != -1 && refs->mss != ts->mss) continue;
if (refs->wscale != -1 && refs->wscale != ts->wscale) continue;
if (refs->pay_class != -1 && refs->pay_class != ts->pay_class) continue;
/* Window size. */
if (ts->win_type != WIN_TYPE_NORMAL) {
/* Comparing two p0f.fp signatures. */
if (refs->win_type != ts->win_type || refs->win != ts->win) continue;
} else {
/* Comparing real-world stuff. */
switch (refs->win_type) {
case WIN_TYPE_NORMAL:
if (refs->win != ts->win) continue;
break;
case WIN_TYPE_MOD:
if (ts->win % refs->win) continue;
break;
case WIN_TYPE_MSS:
if (use_mtu || refs->win != win_multi) continue;
break;
case WIN_TYPE_MTU:
if (!use_mtu || refs->win != win_multi) continue;
break;
/* WIN_TYPE_ANY */
}
}
/* Got a match? If not fuzzy, return. If fuzzy, keep looking. */
if (!fuzzy) {
if (!ref->generic) {
ts->matched = ref;
ts->fuzzy = 0;
ts->dist = refs->ttl - ts->ttl;
return;
} else if (!gmatch) gmatch = ref;
} else if (!fmatch) fmatch = ref;
}
/* OK, no definitive match so far... */
if (dupe_det) return;
/* If we found a generic signature, and nothing better, let's just use
that. */
if (gmatch) {
ts->matched = gmatch;
ts->fuzzy = 0;
ts->dist = gmatch->sig->ttl - ts->ttl;
return;
}
/* No fuzzy matching for userland tools. */
if (fmatch && fmatch->class_id == -1) return;
/* Let's try to guess distance if no match; or if match TTL out of
range. */
if (!fmatch || fmatch->sig->ttl < ts->ttl ||
(!fmatch->bad_ttl && fmatch->sig->ttl - ts->ttl > MAX_DIST))
ts->dist = guess_dist(ts->ttl);
else
ts->dist = fmatch->sig->ttl - ts->ttl;
/* Record the outcome. */
ts->matched = fmatch;
if (fmatch) ts->fuzzy = 1;
}
/* Parse TCP-specific bits and register a signature read from p0f.fp. This
function is too long. */
void tcp_register_sig(u8 to_srv, u8 generic, s32 sig_class, u32 sig_name,
u8* sig_flavor, u32 label_id, u32* sys, u32 sys_cnt,
u8* val, u32 line_no) {
s8 ver, win_type, pay_class;
u8 opt_layout[MAX_TCP_OPT];
u8 opt_cnt = 0, bad_ttl = 0;
s32 ittl, olen, mss, win, scale, opt_eol_pad = 0;
u32 quirks = 0, bucket, opt_hash;
u8* nxt;
struct tcp_sig* tsig;
struct tcp_sig_record* trec;
/* IP version */
switch (*val) {
case '4': ver = IP_VER4; break;
case '6': ver = IP_VER6; break;
case '*': ver = -1; break;
default: FATAL("Unrecognized IP version in line %u.", line_no);
}
if (val[1] != ':') FATAL("Malformed signature in line %u.", line_no);
val += 2;
/* Initial TTL (possibly ttl+dist or ttl-) */
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':' && *nxt != '+' && *nxt != '-')
FATAL("Malformed signature in line %u.", line_no);
ittl = atol((char*)val);
if (ittl < 1 || ittl > 255) FATAL("Bogus initial TTL in line %u.", line_no);
val = nxt + 1;
if (*nxt == '-' && nxt[1] == ':') {
bad_ttl = 1;
val += 2;
} else if (*nxt == '+') {
s32 ittl_add;
nxt++;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':') FATAL("Malformed signature in line %u.", line_no);
ittl_add = atol((char*)val);
if (ittl_add < 0 || ittl + ittl_add > 255)
FATAL("Bogus initial TTL in line %u.", line_no);
ittl += ittl_add;
val = nxt + 1;
}
/* Length of IP options */
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':') FATAL("Malformed signature in line %u.", line_no);
olen = atol((char*)val);
if (olen < 0 || olen > 255)
FATAL("Bogus IP option length in line %u.", line_no);
val = nxt + 1;
/* MSS */
if (*val == '*' && val[1] == ':') {
mss = -1;
val += 2;
} else {
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':') FATAL("Malformed signature in line %u.", line_no);
mss = atol((char*)val);
if (mss < 0 || mss > 65535) FATAL("Bogus MSS in line %u.", line_no);
val = nxt + 1;
}
/* window size, followed by comma */
if (*val == '*' && val[1] == ',') {
win_type = WIN_TYPE_ANY;
win = 0;
val += 2;
} else if (*val == '%') {
win_type = WIN_TYPE_MOD;
val++;
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ',') FATAL("Malformed signature in line %u.", line_no);
win = atol((char*)val);
if (win < 2 || win > 65535) FATAL("Bogus '%%' value in line %u.", line_no);
val = nxt + 1;
} else if (!strncmp((char*)val, "mss*", 4) ||
!strncmp((char*)val, "mtu*", 4)) {
win_type = (val[1] == 's') ? WIN_TYPE_MSS : WIN_TYPE_MTU;
val += 4;
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ',') FATAL("Malformed signature in line %u.", line_no);
win = atol((char*)val);
if (win < 1 || win > 1000)
FATAL("Bogus MSS/MTU multiplier in line %u.", line_no);
val = nxt + 1;
} else {
win_type = WIN_TYPE_NORMAL;
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ',') FATAL("Malformed signature in line %u.", line_no);
win = atol((char*)val);
if (win < 0 || win > 65535) FATAL("Bogus window size in line %u.", line_no);
val = nxt + 1;
}
/* Window scale */
if (*val == '*' && val[1] == ':') {
scale = -1;
val += 2;
} else {
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':') FATAL("Malformed signature in line %u.", line_no);
scale = atol((char*)val);
if (scale < 0 || scale > 255)
FATAL("Bogus window scale in line %u.", line_no);
val = nxt + 1;
}
/* Option layout */
memset(opt_layout, 0, sizeof(opt_layout));
while (*val != ':') {
if (opt_cnt >= MAX_TCP_OPT)
FATAL("Too many TCP options in line %u.", line_no);
if (!strncmp((char*)val, "eol", 3)) {
opt_layout[opt_cnt++] = TCPOPT_EOL;
val += 3;
if (*val != '+')
FATAL("Malformed EOL option in line %u.", line_no);
val++;
nxt = val;
while (isdigit(*nxt)) nxt++;
if (!*nxt) FATAL("Truncated options in line %u.", line_no);
if (*nxt != ':')
FATAL("EOL must be the last option in line %u.", line_no);
opt_eol_pad = atol((char*)val);
if (opt_eol_pad < 0 || opt_eol_pad > 255)
FATAL("Bogus EOL padding in line %u.", line_no);
val = nxt;
} else if (!strncmp((char*)val, "nop", 3)) {
opt_layout[opt_cnt++] = TCPOPT_NOP;
val += 3;
} else if (!strncmp((char*)val, "mss", 3)) {
opt_layout[opt_cnt++] = TCPOPT_MAXSEG;
val += 3;
} else if (!strncmp((char*)val, "ws", 2)) {
opt_layout[opt_cnt++] = TCPOPT_WSCALE;
val += 2;
} else if (!strncmp((char*)val, "sok", 3)) {
opt_layout[opt_cnt++] = TCPOPT_SACKOK;
val += 3;
} else if (!strncmp((char*)val, "sack", 4)) {
opt_layout[opt_cnt++] = TCPOPT_SACK;
val += 4;
} else if (!strncmp((char*)val, "ts", 2)) {
opt_layout[opt_cnt++] = TCPOPT_TSTAMP;
val += 2;
} else if (*val == '?') {
s32 optno;
val++;
nxt = val;
while (isdigit(*nxt)) nxt++;
if (*nxt != ':' && *nxt != ',')
FATAL("Malformed '?' option in line %u.", line_no);
optno = atol((char*)val);
if (optno < 0 || optno > 255)
FATAL("Bogus '?' option in line %u.", line_no);
opt_layout[opt_cnt++] = optno;
val = nxt;
} else {
FATAL("Unrecognized TCP option in line %u.", line_no);
}
if (*val == ':') break;
if (*val != ',')
FATAL("Malformed TCP options in line %u.", line_no);
val++;
}
val++;
opt_hash = hash32(opt_layout, opt_cnt, hash_seed);
/* Quirks */
while (*val != ':') {
if (!strncmp((char*)val, "df", 2)) {
if (ver == IP_VER6)
FATAL("'df' is not valid for IPv6 in line %d.", line_no);
quirks |= QUIRK_DF;
val += 2;
} else if (!strncmp((char*)val, "id+", 3)) {
if (ver == IP_VER6)
FATAL("'id+' is not valid for IPv6 in line %d.", line_no);
quirks |= QUIRK_NZ_ID;
val += 3;
} else if (!strncmp((char*)val, "id-", 3)) {
if (ver == IP_VER6)
FATAL("'id-' is not valid for IPv6 in line %d.", line_no);
quirks |= QUIRK_ZERO_ID;
val += 3;
} else if (!strncmp((char*)val, "ecn", 3)) {
quirks |= QUIRK_ECN;
val += 3;
} else if (!strncmp((char*)val, "0+", 2)) {
if (ver == IP_VER6)
FATAL("'0+' is not valid for IPv6 in line %d.", line_no);
quirks |= QUIRK_NZ_MBZ;
val += 2;
} else if (!strncmp((char*)val, "flow", 4)) {
if (ver == IP_VER4)
FATAL("'flow' is not valid for IPv4 in line %d.", line_no);
quirks |= QUIRK_FLOW;
val += 4;
} else if (!strncmp((char*)val, "seq-", 4)) {
quirks |= QUIRK_ZERO_SEQ;
val += 4;
} else if (!strncmp((char*)val, "ack+", 4)) {
quirks |= QUIRK_NZ_ACK;
val += 4;
} else if (!strncmp((char*)val, "ack-", 4)) {
quirks |= QUIRK_ZERO_ACK;
val += 4;
} else if (!strncmp((char*)val, "uptr+", 5)) {
quirks |= QUIRK_NZ_URG;
val += 5;
} else if (!strncmp((char*)val, "urgf+", 5)) {
quirks |= QUIRK_URG;
val += 5;
} else if (!strncmp((char*)val, "pushf+", 6)) {
quirks |= QUIRK_PUSH;
val += 6;
} else if (!strncmp((char*)val, "ts1-", 4)) {
quirks |= QUIRK_OPT_ZERO_TS1;
val += 4;
} else if (!strncmp((char*)val, "ts2+", 4)) {
quirks |= QUIRK_OPT_NZ_TS2;
val += 4;
} else if (!strncmp((char*)val, "opt+", 4)) {
quirks |= QUIRK_OPT_EOL_NZ;
val += 4;
} else if (!strncmp((char*)val, "exws", 4)) {
quirks |= QUIRK_OPT_EXWS;
val += 4;
} else if (!strncmp((char*)val, "bad", 3)) {
quirks |= QUIRK_OPT_BAD;
val += 3;
} else {
FATAL("Unrecognized quirk in line %u.", line_no);
}
if (*val == ':') break;
if (*val != ',')
FATAL("Malformed quirks in line %u.", line_no);
val++;
}
val++;
/* Payload class */
if (!strcmp((char*)val, "*")) pay_class = -1;
else if (!strcmp((char*)val, "0")) pay_class = 0;
else if (!strcmp((char*)val, "+")) pay_class = 1;
else FATAL("Malformed payload class in line %u.", line_no);
/* Phew, okay, we're done. Now, create tcp_sig... */
tsig = DFL_ck_alloc(sizeof(struct tcp_sig));
tsig->opt_hash = opt_hash;
tsig->opt_eol_pad = opt_eol_pad;
tsig->quirks = quirks;
tsig->ip_opt_len = olen;
tsig->ip_ver = ver;
tsig->ttl = ittl;
tsig->mss = mss;
tsig->win = win;
tsig->win_type = win_type;
tsig->wscale = scale;
tsig->pay_class = pay_class;
/* No need to set ts1, recv_ms, match, fuzzy, dist */
tcp_find_match(to_srv, tsig, 1, 0);
if (tsig->matched)
FATAL("Signature in line %u is already covered by line %u.",
line_no, tsig->matched->line_no);
/* Everything checks out, so let's register it. */
bucket = opt_hash % SIG_BUCKETS;
sigs[to_srv][bucket] = DFL_ck_realloc(sigs[to_srv][bucket],
(sig_cnt[to_srv][bucket] + 1) * sizeof(struct tcp_sig_record));
trec = sigs[to_srv][bucket] + sig_cnt[to_srv][bucket];
sig_cnt[to_srv][bucket]++;
trec->generic = generic;
trec->class_id = sig_class;
trec->name_id = sig_name;
trec->flavor = sig_flavor;
trec->label_id = label_id;
trec->sys = sys;
trec->sys_cnt = sys_cnt;
trec->line_no = line_no;
trec->sig = tsig;
trec->bad_ttl = bad_ttl;
/* All done, phew. */
}
/* Convert struct packet_data to a simplified struct tcp_sig representation
suitable for signature matching. Compute hashes. */
static void packet_to_sig(struct packet_data* pk, struct tcp_sig* ts) {
ts->opt_hash = hash32(pk->opt_layout, pk->opt_cnt, hash_seed);
ts->quirks = pk->quirks;
ts->opt_eol_pad = pk->opt_eol_pad;
ts->ip_opt_len = pk->ip_opt_len;
ts->ip_ver = pk->ip_ver;
ts->ttl = pk->ttl;
ts->mss = pk->mss;
ts->win = pk->win;
ts->win_type = WIN_TYPE_NORMAL; /* Keep as-is. */
ts->wscale = pk->wscale;
ts->pay_class = !!pk->pay_len;
ts->tot_hdr = pk->tot_hdr;
ts->ts1 = pk->ts1;
ts->recv_ms = get_unix_time_ms();
ts->matched = NULL;
ts->fuzzy = 0;
ts->dist = 0;
};
/* Dump unknown signature. */
static u8* dump_sig(struct packet_data* pk, struct tcp_sig* ts, u16 syn_mss) {
static u8* ret;
u32 rlen = 0;
u8 win_mtu;
s16 win_m;
u32 i;
u8 dist = guess_dist(pk->ttl);
#define RETF(_par...) do { \
s32 _len = snprintf(NULL, 0, _par); \
if (_len < 0) FATAL("Whoa, snprintf() fails?!"); \
ret = DFL_ck_realloc_kb(ret, rlen + _len + 1); \
snprintf((char*)ret + rlen, _len + 1, _par); \
rlen += _len; \
} while (0)
if (dist > MAX_DIST) {
RETF("%u:%u+?:%u:", pk->ip_ver, pk->ttl, pk->ip_opt_len);
} else {
RETF("%u:%u+%u:%u:", pk->ip_ver, pk->ttl, dist, pk->ip_opt_len);
}
/* Detect a system echoing back MSS from p0f-sendsyn queries, suggest using
a wildcard in such a case. */
if (pk->mss == SPECIAL_MSS && pk->tcp_type == (TCP_SYN|TCP_ACK)) RETF("*:");
else RETF("%u:", pk->mss);
win_m = detect_win_multi(ts, &win_mtu, syn_mss);
if (win_m > 0) RETF("%s*%u", win_mtu ? "mtu" : "mss", win_m);
else RETF("%u", pk->win);
RETF(",%u:", pk->wscale);
for (i = 0; i < pk->opt_cnt; i++) {
switch (pk->opt_layout[i]) {
case TCPOPT_EOL:
RETF("%seol+%u", i ? "," : "", pk->opt_eol_pad); break;
case TCPOPT_NOP:
RETF("%snop", i ? "," : ""); break;
case TCPOPT_MAXSEG:
RETF("%smss", i ? "," : ""); break;
case TCPOPT_WSCALE:
RETF("%sws", i ? "," : ""); break;
case TCPOPT_SACKOK:
RETF("%ssok", i ? "," : ""); break;
case TCPOPT_SACK:
RETF("%ssack", i ? "," : ""); break;
case TCPOPT_TSTAMP:
RETF("%sts", i ? "," : ""); break;
default:
RETF("%s?%u", i ? "," : "", pk->opt_layout[i]);
}
}
RETF(":");
if (pk->quirks) {
u8 sp = 0;
#define MAYBE_CM(_str) do { \
if (sp) RETF("," _str); else RETF(_str); \
sp = 1; \
} while (0)
if (pk->quirks & QUIRK_DF) MAYBE_CM("df");
if (pk->quirks & QUIRK_NZ_ID) MAYBE_CM("id+");
if (pk->quirks & QUIRK_ZERO_ID) MAYBE_CM("id-");
if (pk->quirks & QUIRK_ECN) MAYBE_CM("ecn");
if (pk->quirks & QUIRK_NZ_MBZ) MAYBE_CM("0+");
if (pk->quirks & QUIRK_FLOW) MAYBE_CM("flow");
if (pk->quirks & QUIRK_ZERO_SEQ) MAYBE_CM("seq-");
if (pk->quirks & QUIRK_NZ_ACK) MAYBE_CM("ack+");
if (pk->quirks & QUIRK_ZERO_ACK) MAYBE_CM("ack-");
if (pk->quirks & QUIRK_NZ_URG) MAYBE_CM("uptr+");
if (pk->quirks & QUIRK_URG) MAYBE_CM("urgf+");
if (pk->quirks & QUIRK_PUSH) MAYBE_CM("pushf+");
if (pk->quirks & QUIRK_OPT_ZERO_TS1) MAYBE_CM("ts1-");
if (pk->quirks & QUIRK_OPT_NZ_TS2) MAYBE_CM("ts2+");
if (pk->quirks & QUIRK_OPT_EOL_NZ) MAYBE_CM("opt+");
if (pk->quirks & QUIRK_OPT_EXWS) MAYBE_CM("exws");
if (pk->quirks & QUIRK_OPT_BAD) MAYBE_CM("bad");
#undef MAYBE_CM
}
if (pk->pay_len) RETF(":+"); else RETF(":0");
return ret;
}
/* Dump signature-related flags. */
static u8* dump_flags(struct packet_data* pk, struct tcp_sig* ts) {
static u8* ret;
u32 rlen = 0;
RETF("");
if (ts->matched) {
if (ts->matched->generic) RETF(" generic");
if (ts->fuzzy) RETF(" fuzzy");
if (ts->matched->bad_ttl) RETF(" random_ttl");
}
if (ts->dist > MAX_DIST) RETF(" excess_dist");
if (pk->tos) RETF(" tos:0x%02x", pk->tos);
if (*ret) return ret + 1; else return (u8*)"none";
#undef RETF
}
/* Compare current signature with historical data, draw conclusions. This
is called only for OS sigs. */
static void score_nat(u8 to_srv, struct tcp_sig* sig, struct packet_flow* f) {
struct host_data* hd;
struct tcp_sig* ref;
u8 score = 0, diff_already = 0;
u16 reason = 0;
s32 ttl_diff;
if (to_srv) {
hd = f->client;
ref = hd->last_syn;
} else {
hd = f->server;
ref = hd->last_synack;
}
if (!ref) {
/* No previous signature of matching type at all. We can perhaps still check
if class / name is the same as on file, as that data might have been
obtained from other types of sigs. */
if (sig->matched && hd->last_class_id != -1) {
if (hd->last_name_id != sig->matched->name_id) {
DEBUG("[#] New TCP signature different OS type than host data.\n");
reason |= NAT_OS_SIG;
score += 8;
}
}
goto log_and_update;
}
/* We have some previous data. */
if (!sig->matched || !ref->matched) {
/* One or both of the signatures are unknown. Let's see if they differ.
The scoring here isn't too strong, because we don't know if the
unrecognized signature isn't originating from userland tools. */
if ((sig->quirks ^ ref->quirks) & ~(QUIRK_ECN|QUIRK_DF|QUIRK_NZ_ID|
QUIRK_ZERO_ID)) {
DEBUG("[#] Non-fuzzy quirks changed compared to previous sig.\n");
reason |= NAT_UNK_DIFF;
score += 2;
} else if (to_srv && sig->opt_hash != ref->opt_hash) {
/* We only match option layout for SYNs; it may change on SYN+ACK,
and the user may have gaps in SYN+ACK sigs if he ignored our
advice on using p0f-sendsyn. */
DEBUG("[#] SYN option layout changed compared to previous sig.\n");
reason |= NAT_UNK_DIFF;
score += 1;
}
/* Progression from known to unknown is also of interest for SYNs. */
if (to_srv && sig->matched != ref->matched) {
DEBUG("[#] SYN signature changed from %s.\n",
sig->matched ? "unknown to known" : "known to unknown");
score += 1;
reason |= NAT_TO_UNK;
}
} else {
/* Both signatures known! */
if (ref->matched->name_id != sig->matched->name_id) {
DEBUG("[#] TCP signature different OS type on previous sig.\n");
score += 8;
reason |= NAT_OS_SIG;