trafgen: proto: Add IPv6 header generation

[netsniff-ng-new.git] / trafgen_lexer.l

/*
 * netsniff-ng - the packet sniffing beast
 * By Daniel Borkmann <daniel@netsniff-ng.org>
 * Copyright 2012 Daniel Borkmann <dborkma@tik.ee.ethz.ch>,
 * Swiss federal institute of technology (ETH Zurich)
 * Subject to the GPL, version 2.
 */

/* lex-func-prefix: yy */

%{

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <stdbool.h>
#include <arpa/inet.h>

#include "trafgen_parser.tab.h"
#include "xmalloc.h"
#include "built_in.h"
#include "str.h"

extern void yyerror(const char *);

static char *try_convert_shellcode(char *sstr)
{
        bool found_any = false;
        char *bstr, *ostr = sstr, *hay, *orig = sstr;
        size_t j = 0, blen, slen = strlen(sstr), tot = 0;
        const char *needle = "\\x";

        sstr++;
        slen -= 2;

        if (slen % 4 != 0)
                return orig;

        blen = slen / 4;
        hay = sstr;
        while ((hay = strstr(hay, needle)) != NULL ) {
                hay += strlen(needle) + 2;
                found_any = true;
                tot++;
        }

        if (blen != tot || !found_any)
                return orig;

        blen += 2;
        bstr = xzmalloc(blen);

        bstr[j++] = '\"';
        while (j < blen - 1)
                bstr[j++] = (uint8_t) strtoul(sstr + 2, &sstr, 16);
        bstr[j++] = '\"';

        xfree(ostr);
        return bstr;
}

%}

%option align
%option nounput
%option noyywrap
%option noreject
%option 8bit
%option caseless
%option noinput
%option nodefault

number_oct      ([0][0-9]+)
number_hex      ([0]?[x][a-fA-F0-9]+)
number_bin      ([0]?[b][0-1]+)
number_dec      (([0])|([1-9][0-9]*))
number_ascii    ([a-zA-Z])

a_hex           ([a-fA-F0-9]+)
mac             ({a_hex}:{a_hex}:{a_hex}:{a_hex}:{a_hex}:{a_hex})
ip4_addr        ([0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)
        /* We're very permissive about IPv6 addresses the grammar accepts, as
         * they can come in various different formats. In any case,
         * inet_pton(AF_INET6, ...) will reject the invalid ones later on. */
ip6_addr        (({a_hex}?:)?({a_hex}?:)?({a_hex}?:)?({a_hex}?:)?({a_hex}?:)?({a_hex}?:)?({a_hex}?:)?({a_hex})?)

%%

"cpu"           { return K_CPU; }
"fill"          { return K_FILL; }
"rnd"           { return K_RND; }
"csum16"        { return K_CSUMIP; }
"csumip"        { return K_CSUMIP; }
"csumip4"       { return K_CSUMIP; }
"csumicmp"      { return K_CSUMIP; }
"csumicmp4"     { return K_CSUMIP; }
"csumudp"       { return K_CSUMUDP; }
"csumtcp"       { return K_CSUMTCP; }
"csumudp6"      { return K_CSUMUDP6; }
"csumtcp6"      { return K_CSUMTCP6; }
"drnd"          { return K_DRND; }
"dinc"          { return K_DINC; }
"ddec"          { return K_DDEC; }
"seqinc"        { return K_SEQINC; }
"seqdec"        { return K_SEQDEC; }
"const8"|"c8"   { return K_CONST8; }
"const16"|"c16" { return K_CONST16; }
"const32"|"c32" { return K_CONST32; }
"const64"|"c64" { return K_CONST64; }

"prot"[o]?      { return K_PROT; }
"tc"|"tclass"   { return K_TC; }

        /* Ethernet */
"daddr"|"da"    { return K_DADDR; }
"saddr"|"sa"    { return K_SADDR; }
[e]?"type"      { return K_ETYPE; }

        /* VLAN (802.1Q & 802.1ad) */
"tpid"          { return K_TPID; }
"tci"           { return K_TCI; }
"pcp"           { return K_PCP; }
"dei"|"cfi"     { return K_DEI; }
"1ad"           { return K_1AD; }
"1q"            { return K_1Q; }

        /* MPLS (Multi Protocol Label Switching) */
"lbl"|"label"   { return K_LABEL; }
"last"          { return K_LAST; }
"exp"           { return K_EXP; }

        /* ARP */
"sha"|"smac"    { return K_SHA; }
"spa"|"sip"     { return K_SPA; }
"tha"|"tmac"    { return K_THA; }
"tpa"|"tip"     { return K_TPA; }
"req"|"request" { return K_REQUEST; }
"reply"         { return K_REPLY; }
"op"|"oper"     { return K_OPER; }
"htype"         { return K_HTYPE; }
"ptype"         { return K_PTYPE; }

        /* IPv4 */
"ihl"           { return K_IHL; }
"ver"|"version" { return K_VER; }
"ttl"           { return K_TTL; }
"dscp"          { return K_DSCP; }
"ecn"           { return K_ECN; }
"tos"           { return K_TOS; }
"len"|"length"  { return K_LEN; }
"id"            { return K_ID; }
"flags"         { return K_FLAGS; }
"frag"          { return K_FRAG; }
"csum"          { return K_CSUM; }
"df"            { return K_DF; }
"mf"            { return K_MF; }

        /* IPv6 */
"fl"|"flow"     { return K_FLOW; }
"nh"|"nexthdr"  { return K_NEXT_HDR; }
"hl"|"hoplimit" { return K_HOP_LIMIT; }

        /* UDP */
"sp"|"sport"    { return K_SPORT; }
"dp"|"dport"    { return K_DPORT; }

        /* TCP */
"seq"           { return K_SEQ; }
"ackseq"|"aseq" { return K_ACK_SEQ; }
"doff"|hlen     { return K_DOFF; }
"cwr"           { return K_CWR; }
"ece"|"ecn"     { return K_ECE; }
"urg"           { return K_URG; }
"ack"           { return K_ACK; }
"psh"           { return K_PSH; }
"rst"           { return K_RST; }
"syn"           { return K_SYN; }
"fin"           { return K_FIN; }
"win"|"window"  { return K_WINDOW; }
"urgptr"        { return K_URG_PTR; }

"eth"           { return K_ETH; }
"vlan"          { return K_VLAN; }
"mpls"          { return K_MPLS; }
"arp"           { return K_ARP; }
"ip4"|"ipv4"    { return K_IP4; }
"ip6"|"ipv6"    { return K_IP6; }
"udp"           { return K_UDP; }
"tcp"           { return K_TCP; }

[ ]*"-"[ ]*     { return '-'; }
[ ]*"+"[ ]*     { return '+'; }
[ ]*"*"[ ]*     { return '*'; }
[ ]*"/"[ ]*     { return '/'; }
[ ]*"%"[ ]*     { return '%'; }
[ ]*"&"[ ]*     { return '&'; }
[ ]*"|"[ ]*     { return '|'; }
[ ]*"<"[ ]*     { return '<'; }
[ ]*">"[ ]*     { return '>'; }
[ ]*"^"[ ]*     { return '^'; }
"{"             { return '{'; }
"}"             { return '}'; }
"("             { return '('; }
")"             { return ')'; }
"["             { return '['; }
"]"             { return ']'; }
","             { return ','; }
":"             { return ':'; }
"="             { return '='; }

"\n"            { yylineno++; }

"\""[^\"]+"\""  { yylval.str = try_convert_shellcode(xstrdup(yytext));
                  return string; }

([ \t\n]+)?     { return K_WHITE; }

"/*"([^\*]|\*[^/])*"*/" { return K_COMMENT; }

"#"[^\n]*       { return K_COMMENT; }

{number_hex}    { yylval.number = strtoul(yytext + (yytext[0] == 'x' ? 1 : 0),
                                          NULL, 16);
                  return number; }

{number_dec}    { yylval.number = strtol(yytext, NULL, 10);
                  return number; }

{number_oct}    { yylval.number = strtol(yytext + 1, NULL, 8);
                  return number; }

{number_bin}    { yylval.number = strtol(yytext + (yytext[0] == 'b' ? 1 : 2),
                                         NULL, 2);
                  return number; }

{number_ascii}  { yylval.number = (uint8_t) (*yytext);
                  return number; }

{mac}           { if (str2mac(yytext, yylval.bytes, 256))
                        panic("Failed to parse MAC address %s\n", yytext);
                  return mac; }

{ip4_addr}      { if (inet_pton(AF_INET, yytext, &yylval.ip4_addr) != 1)
                        panic("Failed to parse IPv4 address %s\n", yytext);
                  return ip4_addr; };

{ip6_addr}      { if (inet_pton(AF_INET6, yytext, &yylval.ip6_addr) != 1)
                        panic("Failed to parse IPv6 address %s\n", yytext);
                  return ip6_addr; };

"'\\x"[a-fA-F0-9]{2}"'" { yylval.number = strtol(yytext + 3, NULL, 16);
                  return number; }

"'"."'"         { yylval.number = (uint8_t) (*(yytext + 1));
                  return number; }

";"[^\n]*       {/* NOP */}
.               { printf("Unknown character '%s'", yytext);
                  yyerror("lex Unknown character"); }

%%