%top { /* Must come first for _LARGE_FILE_API on AIX. */ #ifdef HAVE_CONFIG_H #include #endif /* * Must come first to avoid warnings on Windows. * * Flex-generated scanners may only include if __STDC_VERSION__ * is defined with a value >= 199901, meaning "full C99", and MSVC may not * define it with that value, because it isn't 100% C99-compliant, even * though it has an capable of defining everything the Flex * scanner needs. * * We, however, will include it if we know we have an MSVC version that has * it; this means that we may define the INTn_MAX and UINTn_MAX values in * scanner.c, and then include , which may define them differently * (same value, but different string of characters), causing compiler warnings. * * If we include it here, and they're defined, that'll prevent scanner.c * from defining them. So we include , to get * if we have it. */ #include /* * grammar.h requires gencode.h and sometimes breaks in a polluted namespace * (see ftmacros.h), so include it early. */ #include "gencode.h" #include "grammar.h" #include "diag-control.h" } /* * We want a reentrant scanner. */ %option reentrant /* * And we need to pass the compiler state to the scanner. */ %option extra-type="compiler_state_t *" /* * We don't use input, so don't generate code for it. */ %option noinput /* * We don't use unput, so don't generate code for it. */ %option nounput /* * We don't read from the terminal. */ %option never-interactive /* * We want to stop processing when we get to the end of the input. */ %option noyywrap /* * We want to generate code that can be used by a reentrant parser * generated by Bison or Berkeley YACC. */ %option bison-bridge %{ /* * Copyright (c) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that: (1) source code distributions * retain the above copyright notice and this paragraph in its entirety, (2) * distributions including binary code include the above copyright notice and * this paragraph in its entirety in the documentation or other materials * provided with the distribution, and (3) all advertising materials mentioning * features or use of this software display the following acknowledgement: * ``This product includes software developed by the University of California, * Lawrence Berkeley Laboratory and its contributors.'' Neither the name of * the University nor the names of its contributors may be used to endorse * or promote products derived from this software without specific prior * written permission. * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. */ #include #include "pcap-int.h" /* * Earlier versions of Flex don't declare these, so we declare them * ourselves to squelch warnings. */ int pcap_get_column(yyscan_t); void pcap_set_column(int, yyscan_t); #ifdef INET6 #ifdef _WIN32 #include #include /* * To quote the MSDN page for getaddrinfo() at * * https://msdn.microsoft.com/en-us/library/windows/desktop/ms738520(v=vs.85).aspx * * "Support for getaddrinfo on Windows 2000 and older versions * The getaddrinfo function was added to the Ws2_32.dll on Windows XP and * later. To execute an application that uses this function on earlier * versions of Windows, then you need to include the Ws2tcpip.h and * Wspiapi.h files. When the Wspiapi.h include file is added, the * getaddrinfo function is defined to the WspiapiGetAddrInfo inline * function in the Wspiapi.h file. At runtime, the WspiapiGetAddrInfo * function is implemented in such a way that if the Ws2_32.dll or the * Wship6.dll (the file containing getaddrinfo in the IPv6 Technology * Preview for Windows 2000) does not include getaddrinfo, then a * version of getaddrinfo is implemented inline based on code in the * Wspiapi.h header file. This inline code will be used on older Windows * platforms that do not natively support the getaddrinfo function." * * We use getaddrinfo(), so we include Wspiapi.h here. */ #include #else /* _WIN32 */ #include /* for "struct sockaddr" in "struct addrinfo" */ #include /* for "struct addrinfo" */ #endif /* _WIN32 */ /* Workaround for AIX 4.3 */ #if !defined(AI_NUMERICHOST) #define AI_NUMERICHOST 0x04 #endif #endif /*INET6*/ #include #include "grammar.h" #ifdef HAVE_OS_PROTO_H #include "os-proto.h" #endif static int stou(char *, YYSTYPE *, compiler_state_t *); /* * Disable diagnostics in the code generated by Flex. */ DIAG_OFF_FLEX %} N ([0-9]+|(0X|0x)[0-9A-Fa-f]+) B ([0-9A-Fa-f][0-9A-Fa-f]?) B2 ([0-9A-Fa-f][0-9A-Fa-f][0-9A-Fa-f][0-9A-Fa-f]) W ([0-9A-Fa-f][0-9A-Fa-f]?[0-9A-Fa-f]?[0-9A-Fa-f]?) %a 18400 %o 21500 %e 7600 %k 4550 %p 27600 %n 2000 V680 {W}:{W}:{W}:{W}:{W}:{W}:{W}:{W} V670 ::{W}:{W}:{W}:{W}:{W}:{W}:{W} V671 {W}::{W}:{W}:{W}:{W}:{W}:{W} V672 {W}:{W}::{W}:{W}:{W}:{W}:{W} V673 {W}:{W}:{W}::{W}:{W}:{W}:{W} V674 {W}:{W}:{W}:{W}::{W}:{W}:{W} V675 {W}:{W}:{W}:{W}:{W}::{W}:{W} V676 {W}:{W}:{W}:{W}:{W}:{W}::{W} V677 {W}:{W}:{W}:{W}:{W}:{W}:{W}:: V660 ::{W}:{W}:{W}:{W}:{W}:{W} V661 {W}::{W}:{W}:{W}:{W}:{W} V662 {W}:{W}::{W}:{W}:{W}:{W} V663 {W}:{W}:{W}::{W}:{W}:{W} V664 {W}:{W}:{W}:{W}::{W}:{W} V665 {W}:{W}:{W}:{W}:{W}::{W} V666 {W}:{W}:{W}:{W}:{W}:{W}:: V650 ::{W}:{W}:{W}:{W}:{W} V651 {W}::{W}:{W}:{W}:{W} V652 {W}:{W}::{W}:{W}:{W} V653 {W}:{W}:{W}::{W}:{W} V654 {W}:{W}:{W}:{W}::{W} V655 {W}:{W}:{W}:{W}:{W}:: V640 ::{W}:{W}:{W}:{W} V641 {W}::{W}:{W}:{W} V642 {W}:{W}::{W}:{W} V643 {W}:{W}:{W}::{W} V644 {W}:{W}:{W}:{W}:: V630 ::{W}:{W}:{W} V631 {W}::{W}:{W} V632 {W}:{W}::{W} V633 {W}:{W}:{W}:: V620 ::{W}:{W} V621 {W}::{W} V622 {W}:{W}:: V610 ::{W} V611 {W}:: V600 :: V6604 {W}:{W}:{W}:{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6504 ::{W}:{W}:{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6514 {W}::{W}:{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6524 {W}:{W}::{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6534 {W}:{W}:{W}::{W}:{W}:{N}\.{N}\.{N}\.{N} V6544 {W}:{W}:{W}:{W}::{W}:{N}\.{N}\.{N}\.{N} V6554 {W}:{W}:{W}:{W}:{W}::{N}\.{N}\.{N}\.{N} V6404 ::{W}:{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6414 {W}::{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6424 {W}:{W}::{W}:{W}:{N}\.{N}\.{N}\.{N} V6434 {W}:{W}:{W}::{W}:{N}\.{N}\.{N}\.{N} V6444 {W}:{W}:{W}:{W}::{N}\.{N}\.{N}\.{N} V6304 ::{W}:{W}:{W}:{N}\.{N}\.{N}\.{N} V6314 {W}::{W}:{W}:{N}\.{N}\.{N}\.{N} V6324 {W}:{W}::{W}:{N}\.{N}\.{N}\.{N} V6334 {W}:{W}:{W}::{N}\.{N}\.{N}\.{N} V6204 ::{W}:{W}:{N}\.{N}\.{N}\.{N} V6214 {W}::{W}:{N}\.{N}\.{N}\.{N} V6224 {W}:{W}::{N}\.{N}\.{N}\.{N} V6104 ::{W}:{N}\.{N}\.{N}\.{N} V6114 {W}::{N}\.{N}\.{N}\.{N} V6004 ::{N}\.{N}\.{N}\.{N} V6 ({V680}|{V670}|{V671}|{V672}|{V673}|{V674}|{V675}|{V676}|{V677}|{V660}|{V661}|{V662}|{V663}|{V664}|{V665}|{V666}|{V650}|{V651}|{V652}|{V653}|{V654}|{V655}|{V640}|{V641}|{V642}|{V643}|{V644}|{V630}|{V631}|{V632}|{V633}|{V620}|{V621}|{V622}|{V610}|{V611}|{V600}|{V6604}|{V6504}|{V6514}|{V6524}|{V6534}|{V6544}|{V6554}|{V6404}|{V6414}|{V6424}|{V6434}|{V6444}|{V6304}|{V6314}|{V6324}|{V6334}|{V6204}|{V6214}|{V6224}|{V6104}|{V6114}|{V6004}) MAC ({B}:{B}:{B}:{B}:{B}:{B}|{B}\-{B}\-{B}\-{B}\-{B}\-{B}|{B}\.{B}\.{B}\.{B}\.{B}\.{B}|{B2}\.{B2}\.{B2}|{B2}{3}) %% dst return DST; src return SRC; link|ether|ppp|slip return LINK; fddi|tr|wlan return LINK; arp return ARP; rarp return RARP; ip return IP; sctp return SCTP; tcp return TCP; udp return UDP; icmp return ICMP; igmp return IGMP; igrp return IGRP; pim return PIM; vrrp return VRRP; carp return CARP; radio return RADIO; ip6 return IPV6; icmp6 return ICMPV6; ah return AH; esp return ESP; atalk return ATALK; aarp return AARP; decnet return DECNET; lat return LAT; sca return SCA; moprc return MOPRC; mopdl return MOPDL; iso return ISO; esis return ESIS; es-is return ESIS; isis return ISIS; is-is return ISIS; l1 return L1; l2 return L2; iih return IIH; lsp return LSP; snp return SNP; csnp return CSNP; psnp return PSNP; clnp return CLNP; stp return STP; ipx return IPX; netbeui return NETBEUI; host return HOST; net return NET; mask return NETMASK; port return PORT; portrange return PORTRANGE; proto return PROTO; protochain return PROTOCHAIN; gateway return GATEWAY; type return TYPE; subtype return SUBTYPE; direction|dir return DIR; address1|addr1 return ADDR1; address2|addr2 return ADDR2; address3|addr3 return ADDR3; address4|addr4 return ADDR4; ra return RA; ta return TA; less return LESS; greater return GREATER; byte return CBYTE; broadcast return TK_BROADCAST; multicast return TK_MULTICAST; and|"&&" return AND; or|"||" return OR; not return '!'; len|length return LEN; inbound return INBOUND; outbound return OUTBOUND; ifindex return IFINDEX; vlan return VLAN; mpls return MPLS; pppoed return PPPOED; pppoes return PPPOES; geneve return GENEVE; lane return LANE; llc return LLC; metac return METAC; bcc return BCC; oam return OAM; oamf4 return OAMF4; oamf4ec return OAMF4EC; oamf4sc return OAMF4SC; sc return SC; ilmic return ILMIC; vpi return VPI; vci return VCI; connectmsg return CONNECTMSG; metaconnect return METACONNECT; on|ifname return PF_IFNAME; rset|ruleset return PF_RSET; rnr|rulenum return PF_RNR; srnr|subrulenum return PF_SRNR; reason return PF_REASON; action return PF_ACTION; fisu return FISU; lssu return LSSU; lsu return LSSU; msu return MSU; hfisu return HFISU; hlssu return HLSSU; hmsu return HMSU; sio return SIO; opc return OPC; dpc return DPC; sls return SLS; hsio return HSIO; hopc return HOPC; hdpc return HDPC; hsls return HSLS; [ \r\n\t] ; [+\-*/%:\[\]!<>()&|\^=] return yytext[0]; ">=" return GEQ; "<=" return LEQ; "!=" return NEQ; "==" return '='; "<<" return LSH; ">>" return RSH; ${B} { yylval->s = sdup(yyextra, yytext); return AID; } {MAC} { yylval->s = sdup(yyextra, yytext); return EID; } {N} { return stou(yytext, yylval, yyextra); } ({N}\.{N})|({N}\.{N}\.{N})|({N}\.{N}\.{N}\.{N}) { yylval->s = sdup(yyextra, (char *)yytext); return HID; } {V6} { #ifdef INET6 struct addrinfo hints, *res; memset(&hints, 0, sizeof(hints)); hints.ai_family = AF_INET6; hints.ai_flags = AI_NUMERICHOST; if (getaddrinfo(yytext, NULL, &hints, &res)) { bpf_set_error(yyextra, "bogus IPv6 address %s", yytext); yylval->s = NULL; } else { freeaddrinfo(res); yylval->s = sdup(yyextra, (char *)yytext); } #else bpf_set_error(yyextra, "IPv6 address %s not supported", yytext); yylval->s = NULL; #endif /*INET6*/ return HID6; } {B}:+({B}:+)+ { bpf_set_error(yyextra, "bogus ethernet address %s", yytext); yylval->s = NULL; return EID; } icmptype { yylval->h = 0; return NUM; } icmpcode { yylval->h = 1; return NUM; } icmp-echoreply { yylval->h = 0; return NUM; } icmp-unreach { yylval->h = 3; return NUM; } icmp-sourcequench { yylval->h = 4; return NUM; } icmp-redirect { yylval->h = 5; return NUM; } icmp-echo { yylval->h = 8; return NUM; } icmp-routeradvert { yylval->h = 9; return NUM; } icmp-routersolicit { yylval->h = 10; return NUM; } icmp-timxceed { yylval->h = 11; return NUM; } icmp-paramprob { yylval->h = 12; return NUM; } icmp-tstamp { yylval->h = 13; return NUM; } icmp-tstampreply { yylval->h = 14; return NUM; } icmp-ireq { yylval->h = 15; return NUM; } icmp-ireqreply { yylval->h = 16; return NUM; } icmp-maskreq { yylval->h = 17; return NUM; } icmp-maskreply { yylval->h = 18; return NUM; } icmp6type { yylval->h = 0; return NUM; } icmp6code { yylval->h = 1; return NUM; } icmp6-destinationunreach { yylval->h = 1; return NUM; } icmp6-packettoobig { yylval->h = 2; return NUM; } icmp6-timeexceeded { yylval->h = 3; return NUM; } icmp6-parameterproblem { yylval->h = 4; return NUM; } icmp6-echo { yylval->h = 128; return NUM; } icmp6-echoreply { yylval->h = 129; return NUM; } icmp6-multicastlistenerquery { yylval->h = 130; return NUM; } icmp6-multicastlistenerreportv1 { yylval->h = 131; return NUM; } icmp6-multicastlistenerdone { yylval->h = 132; return NUM; } icmp6-routersolicit { yylval->h = 133; return NUM; } icmp6-routeradvert { yylval->h = 134; return NUM; } icmp6-neighborsolicit { yylval->h = 135; return NUM; } icmp6-neighboradvert { yylval->h = 136; return NUM; } icmp6-redirect { yylval->h = 137; return NUM; } icmp6-routerrenum { yylval->h = 138; return NUM; } icmp6-nodeinformationquery { yylval->h = 139; return NUM; } icmp6-nodeinformationresponse { yylval->h = 140; return NUM; } icmp6-ineighbordiscoverysolicit { yylval->h = 141; return NUM; } icmp6-ineighbordiscoveryadvert { yylval->h = 142; return NUM; } icmp6-multicastlistenerreportv2 { yylval->h = 143; return NUM; } icmp6-homeagentdiscoveryrequest { yylval->h = 144; return NUM; } icmp6-homeagentdiscoveryreply { yylval->h = 145; return NUM; } icmp6-mobileprefixsolicit { yylval->h = 146; return NUM; } icmp6-mobileprefixadvert { yylval->h = 147; return NUM; } icmp6-certpathsolicit { yylval->h = 148; return NUM; } icmp6-certpathadvert { yylval->h = 149; return NUM; } icmp6-multicastrouteradvert { yylval->h = 151; return NUM; } icmp6-multicastroutersolicit { yylval->h = 152; return NUM; } icmp6-multicastrouterterm { yylval->h = 153; return NUM; } tcpflags { yylval->h = 13; return NUM; } tcp-fin { yylval->h = 0x01; return NUM; } tcp-syn { yylval->h = 0x02; return NUM; } tcp-rst { yylval->h = 0x04; return NUM; } tcp-push { yylval->h = 0x08; return NUM; } tcp-ack { yylval->h = 0x10; return NUM; } tcp-urg { yylval->h = 0x20; return NUM; } tcp-ece { yylval->h = 0x40; return NUM; } tcp-cwr { yylval->h = 0x80; return NUM; } [A-Za-z0-9]([-_.A-Za-z0-9]*[.A-Za-z0-9])? { yylval->s = sdup(yyextra, (char *)yytext); return ID; } "\\"[^ !()\n\t]+ { yylval->s = sdup(yyextra, (char *)yytext + 1); return ID; } . { return LEX_ERROR; } %% /* * Turn diagnostics back on, so we check the code that we've written. */ DIAG_ON_FLEX /* * Convert string to 32-bit unsigned integer. Just like atoi(), but checks for * preceding 0x or 0 and uses hex or octal instead of decimal. * * On success, sets yylval->h to the value and returns NUM. * On failure, sets the BPF error string and returns LEX_ERROR, to force * the parse to stop. */ static int stou(char *yytext_arg, YYSTYPE *yylval_arg, compiler_state_t *yyextra_arg) { bpf_u_int32 n = 0; unsigned int digit; char *s = yytext_arg; /* * yytext_arg is guaranteed either to be a string of decimal digits * or 0[xX] followed by a string of hex digits. */ if (*s == '0') { if (s[1] == 'x' || s[1] == 'X') { /* * Begins with 0x or 0X, so hex. * Guaranteed to be all hex digits following the * prefix, so anything that's not 0-9 or a-f is * A-F. */ s += 2; /* skip the prefix */ while ((digit = *s++) != '\0') { if (digit >= '0' && digit <= '9') digit = digit - '0'; else if (digit >= 'a' && digit <= 'f') digit = digit - 'a' + 10; else digit = digit - 'A' + 10; /* * Check for overflow. */ if (n > 0xFFFFFFFU) { /* * We have more than 28 bits of * number, and are about to * add 4 more; that won't fit * in 32 bits. */ bpf_set_error(yyextra_arg, "number %s overflows 32 bits", yytext_arg); return LEX_ERROR; } n = (n << 4) + digit; } } else { /* * Begins with 0, but not 0x or 0X, so octal. * Guaranteed to be all *decimal* digits following * the prefix, so we need to catch 8 and 9 and * report an error. */ s += 1; while ((digit = *s++) != '\0') { if (digit >= '0' && digit <= '7') digit = digit - '0'; else { bpf_set_error(yyextra_arg, "number %s contains non-octal digit", yytext_arg); return LEX_ERROR; } if (n > 03777777777U) { /* * We have more than 29 bits of * number, and are about to add * 3 more; that won't fit in * 32 bits. */ bpf_set_error(yyextra_arg, "number %s overflows 32 bits", yytext_arg); return LEX_ERROR; } n = (n << 3) + digit; } } } else { /* * Decimal. */ while ((digit = *s++) != '\0') { digit = digit - '0'; #define CUTOFF_DEC (0xFFFFFFFFU / 10U) #define CUTLIM_DEC (0xFFFFFFFFU % 10U) if (n > CUTOFF_DEC || (n == CUTOFF_DEC && digit > CUTLIM_DEC)) { bpf_set_error(yyextra_arg, "number %s overflows 32 bits", yytext_arg); return LEX_ERROR; } n = (n * 10) + digit; } } yylval_arg->h = n; return NUM; }