/* $NetBSD: iplang_y.y,v 1.4 2002/03/14 12:32:39 martti Exp $ */ %{ /* * Copyright (C) 1997-1998 by Darren Reed. * * Redistribution and use in source and binary forms are permitted * provided that this notice is preserved and due credit is given * to the original author and the contributors. * * Id: iplang_y.y,v 2.2.2.2 2002/02/22 15:32:57 darrenr Exp */ #ifdef __sgi # include #endif #include #include #include #if !defined(__SVR4) && !defined(__svr4__) #include #else #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #ifndef linux #include #endif #include #include #include #ifndef linux #include #endif #include #include #include #include #include #include "ipsend.h" #include "ip_compat.h" #include "ipf.h" #include "iplang.h" #if !defined(__NetBSD__) && (!defined(__FreeBSD_version) && \ __FreeBSD_version < 400020) extern struct ether_addr *ether_aton __P((char *)); #endif extern int opts; extern struct ipopt_names ionames[]; extern int state, state, lineNum, token; extern int yylineno; extern char yytext[]; extern FILE *yyin; int yylex __P((void)); #define YYDEBUG 1 #if !defined(ultrix) && !defined(hpux) int yydebug = 1; #else extern int yydebug; #endif iface_t *iflist = NULL, **iftail = &iflist; iface_t *cifp = NULL; arp_t *arplist = NULL, **arptail = &arplist, *carp = NULL; struct in_addr defrouter; send_t sending; char *sclass = NULL; u_short c_chksum __P((u_short *, u_int, u_long)); u_long p_chksum __P((u_short *, u_int)); u_long ipbuffer[67584/sizeof(u_long)]; /* 66K */ aniphdr_t *aniphead = NULL, *canip = NULL, **aniptail = &aniphead; ip_t *ip = NULL; udphdr_t *udp = NULL; tcphdr_t *tcp = NULL; icmphdr_t *icmp = NULL; struct statetoopt { int sto_st; int sto_op; }; struct in_addr getipv4addr __P((char *arg)); u_short getportnum __P((char *, char *)); struct ether_addr *geteaddr __P((char *, struct ether_addr *)); void *new_header __P((int)); void free_aniplist __P((void)); void inc_anipheaders __P((int)); void new_data __P((void)); void set_datalen __P((char **)); void set_datafile __P((char **)); void set_data __P((char **)); void new_packet __P((void)); void set_ipv4proto __P((char **)); void set_ipv4src __P((char **)); void set_ipv4dst __P((char **)); void set_ipv4off __P((char **)); void set_ipv4v __P((char **)); void set_ipv4hl __P((char **)); void set_ipv4ttl __P((char **)); void set_ipv4tos __P((char **)); void set_ipv4id __P((char **)); void set_ipv4sum __P((char **)); void set_ipv4len __P((char **)); void new_tcpheader __P((void)); void set_tcpsport __P((char **)); void set_tcpdport __P((char **)); void set_tcpseq __P((char **)); void set_tcpack __P((char **)); void set_tcpoff __P((char **)); void set_tcpurp __P((char **)); void set_tcpwin __P((char **)); void set_tcpsum __P((char **)); void set_tcpflags __P((char **)); void set_tcpopt __P((int, char **)); void end_tcpopt __P((void)); void new_udpheader __P((void)); void set_udplen __P((char **)); void set_udpsum __P((char **)); void prep_packet __P((void)); void packet_done __P((void)); void new_interface __P((void)); void check_interface __P((void)); void set_ifname __P((char **)); void set_ifmtu __P((int)); void set_ifv4addr __P((char **)); void set_ifeaddr __P((char **)); void new_arp __P((void)); void set_arpeaddr __P((char **)); void set_arpv4addr __P((char **)); void reset_send __P((void)); void set_sendif __P((char **)); void set_sendvia __P((char **)); void set_defaultrouter __P((char **)); void new_icmpheader __P((void)); void set_icmpcode __P((int)); void set_icmptype __P((int)); void set_icmpcodetok __P((char **)); void set_icmptypetok __P((char **)); void set_icmpid __P((int)); void set_icmpseq __P((int)); void set_icmpotime __P((int)); void set_icmprtime __P((int)); void set_icmpttime __P((int)); void set_icmpmtu __P((int)); void set_redir __P((int, char **)); void new_ipv4opt __P((void)); void set_icmppprob __P((int)); void add_ipopt __P((int, void *)); void end_ipopt __P((void)); void set_secclass __P((char **)); void free_anipheader __P((void)); void end_ipv4 __P((void)); void end_icmp __P((void)); void end_udp __P((void)); void end_tcp __P((void)); void end_data __P((void)); void yyerror __P((char *)); void iplang __P((FILE *)); int arp_getipv4 __P((char *, char *)); int yyparse __P((void)); %} %union { char *str; int num; } %token IL_NUMBER %type number digits optnumber %token IL_TOKEN %type token optoken %token IL_HEXDIGIT IL_COLON IL_DOT IL_EOF IL_COMMENT %token IL_INTERFACE IL_IFNAME IL_MTU IL_EADDR %token IL_IPV4 IL_V4PROTO IL_V4SRC IL_V4DST IL_V4OFF IL_V4V IL_V4HL IL_V4TTL %token IL_V4TOS IL_V4SUM IL_V4LEN IL_V4OPT IL_V4ID %token IL_TCP IL_SPORT IL_DPORT IL_TCPFL IL_TCPSEQ IL_TCPACK IL_TCPOFF %token IL_TCPWIN IL_TCPSUM IL_TCPURP IL_TCPOPT IL_TCPO_NOP IL_TCPO_EOL %token IL_TCPO_MSS IL_TCPO_WSCALE IL_TCPO_TS %token IL_UDP IL_UDPLEN IL_UDPSUM %token IL_ICMP IL_ICMPTYPE IL_ICMPCODE %token IL_SEND IL_VIA %token IL_ARP %token IL_DEFROUTER %token IL_SUM IL_OFF IL_LEN IL_V4ADDR IL_OPT %token IL_DATA IL_DLEN IL_DVALUE IL_DFILE %token IL_IPO_NOP IL_IPO_RR IL_IPO_ZSU IL_IPO_MTUP IL_IPO_MTUR IL_IPO_EOL %token IL_IPO_TS IL_IPO_TR IL_IPO_SEC IL_IPO_LSRR IL_IPO_ESEC %token IL_IPO_SATID IL_IPO_SSRR IL_IPO_ADDEXT IL_IPO_VISA IL_IPO_IMITD %token IL_IPO_EIP IL_IPO_FINN IL_IPO_SECCLASS IL_IPO_CIPSO IL_IPO_ENCODE %token IL_IPS_RESERV4 IL_IPS_TOPSECRET IL_IPS_SECRET IL_IPS_RESERV3 %token IL_IPS_CONFID IL_IPS_UNCLASS IL_IPS_RESERV2 IL_IPS_RESERV1 %token IL_ICMP_ECHOREPLY IL_ICMP_UNREACH IL_ICMP_UNREACH_NET %token IL_ICMP_UNREACH_HOST IL_ICMP_UNREACH_PROTOCOL IL_ICMP_UNREACH_PORT %token IL_ICMP_UNREACH_NEEDFRAG IL_ICMP_UNREACH_SRCFAIL %token IL_ICMP_UNREACH_NET_UNKNOWN IL_ICMP_UNREACH_HOST_UNKNOWN %token IL_ICMP_UNREACH_ISOLATED IL_ICMP_UNREACH_NET_PROHIB %token IL_ICMP_UNREACH_HOST_PROHIB IL_ICMP_UNREACH_TOSNET %token IL_ICMP_UNREACH_TOSHOST IL_ICMP_UNREACH_FILTER_PROHIB %token IL_ICMP_UNREACH_HOST_PRECEDENCE IL_ICMP_UNREACH_PRECEDENCE_CUTOFF %token IL_ICMP_SOURCEQUENCH IL_ICMP_REDIRECT IL_ICMP_REDIRECT_NET %token IL_ICMP_REDIRECT_HOST IL_ICMP_REDIRECT_TOSNET %token IL_ICMP_REDIRECT_TOSHOST IL_ICMP_ECHO IL_ICMP_ROUTERADVERT %token IL_ICMP_ROUTERSOLICIT IL_ICMP_TIMXCEED IL_ICMP_TIMXCEED_INTRANS %token IL_ICMP_TIMXCEED_REASS IL_ICMP_PARAMPROB IL_ICMP_PARAMPROB_OPTABSENT %token IL_ICMP_TSTAMP IL_ICMP_TSTAMPREPLY IL_ICMP_IREQ IL_ICMP_IREQREPLY %token IL_ICMP_MASKREQ IL_ICMP_MASKREPLY IL_ICMP_SEQ IL_ICMP_ID %token IL_ICMP_OTIME IL_ICMP_RTIME IL_ICMP_TTIME %% file: line | line file | IL_COMMENT | IL_COMMENT file ; line: iface | arp | send | defrouter | ipline ; iface: ifhdr '{' ifaceopts '}' ';' { check_interface(); } ; ifhdr: IL_INTERFACE { new_interface(); } ; ifaceopts: ifaceopt | ifaceopt ifaceopts ; ifaceopt: IL_IFNAME token { set_ifname(&$2); } | IL_MTU number { set_ifmtu($2); } | IL_V4ADDR token { set_ifv4addr(&$2); } | IL_EADDR token { set_ifeaddr(&$2); } ; send: sendhdr '{' sendbody '}' ';' { packet_done(); } | sendhdr ';' { packet_done(); } ; sendhdr: IL_SEND { reset_send(); } ; sendbody: sendopt | sendbody sendopt ; sendopt: IL_IFNAME token { set_sendif(&$2); } | IL_VIA token { set_sendvia(&$2); } ; arp: arphdr '{' arpbody '}' ';' ; arphdr: IL_ARP { new_arp(); } ; arpbody: arpopt | arpbody arpopt ; arpopt: IL_V4ADDR token { set_arpv4addr(&$2); } | IL_EADDR token { set_arpeaddr(&$2); } ; defrouter: IL_DEFROUTER token { set_defaultrouter(&$2); } ; bodyline: ipline | tcp tcpline | udp udpline | icmp icmpline | data dataline ; ipline: ipv4 '{' ipv4body '}' ';' { end_ipv4(); } ; ipv4: IL_IPV4 { new_packet(); } ipv4body: ipv4type | ipv4type ipv4body | bodyline ; ipv4type: IL_V4PROTO token { set_ipv4proto(&$2); } | IL_V4SRC token { set_ipv4src(&$2); } | IL_V4DST token { set_ipv4dst(&$2); } | IL_V4OFF token { set_ipv4off(&$2); } | IL_V4V token { set_ipv4v(&$2); } | IL_V4HL token { set_ipv4hl(&$2); } | IL_V4ID token { set_ipv4id(&$2); } | IL_V4TTL token { set_ipv4ttl(&$2); } | IL_V4TOS token { set_ipv4tos(&$2); } | IL_V4SUM token { set_ipv4sum(&$2); } | IL_V4LEN token { set_ipv4len(&$2); } | ipv4opt '{' ipv4optlist '}' ';' { end_ipopt(); } ; tcp: IL_TCP { new_tcpheader(); } ; tcpline: '{' tcpheader '}' ';' { end_tcp(); } ; tcpheader: tcpbody | tcpbody tcpheader | bodyline ; tcpbody: IL_SPORT token { set_tcpsport(&$2); } | IL_DPORT token { set_tcpdport(&$2); } | IL_TCPSEQ token { set_tcpseq(&$2); } | IL_TCPACK token { set_tcpack(&$2); } | IL_TCPOFF token { set_tcpoff(&$2); } | IL_TCPURP token { set_tcpurp(&$2); } | IL_TCPWIN token { set_tcpwin(&$2); } | IL_TCPSUM token { set_tcpsum(&$2); } | IL_TCPFL token { set_tcpflags(&$2); } | IL_TCPOPT '{' tcpopts '}' ';' { end_tcpopt(); } ; tcpopts: | tcpopt tcpopts ; tcpopt: IL_TCPO_NOP ';' { set_tcpopt(IL_TCPO_NOP, NULL); } | IL_TCPO_EOL ';' { set_tcpopt(IL_TCPO_EOL, NULL); } | IL_TCPO_MSS optoken { set_tcpopt(IL_TCPO_MSS,&$2);} | IL_TCPO_WSCALE optoken { set_tcpopt(IL_TCPO_WSCALE,&$2);} | IL_TCPO_TS optoken { set_tcpopt(IL_TCPO_TS, &$2);} ; udp: IL_UDP { new_udpheader(); } ; udpline: '{' udpheader '}' ';' { end_udp(); } ; udpheader: udpbody | udpbody udpheader | bodyline ; udpbody: IL_SPORT token { set_tcpsport(&$2); } | IL_DPORT token { set_tcpdport(&$2); } | IL_UDPLEN token { set_udplen(&$2); } | IL_UDPSUM token { set_udpsum(&$2); } ; icmp: IL_ICMP { new_icmpheader(); } ; icmpline: '{' icmpbody '}' ';' { end_icmp(); } ; icmpbody: icmpheader | icmpheader bodyline ; icmpheader: IL_ICMPTYPE icmptype | IL_ICMPTYPE icmptype icmpcode ; icmpcode: IL_ICMPCODE token { set_icmpcodetok(&$2); } ; icmptype: IL_ICMP_ECHOREPLY ';' { set_icmptype(ICMP_ECHOREPLY); } | IL_ICMP_ECHOREPLY '{' icmpechoopts '}' ';' | unreach | IL_ICMP_SOURCEQUENCH ';' { set_icmptype(ICMP_SOURCEQUENCH); } | redirect | IL_ICMP_ROUTERADVERT ';' { set_icmptype(ICMP_ROUTERADVERT); } | IL_ICMP_ROUTERSOLICIT ';' { set_icmptype(ICMP_ROUTERSOLICIT); } | IL_ICMP_ECHO ';' { set_icmptype(ICMP_ECHO); } | IL_ICMP_ECHO '{' icmpechoopts '}' ';' | IL_ICMP_TIMXCEED ';' { set_icmptype(ICMP_TIMXCEED); } | IL_ICMP_TIMXCEED '{' exceed '}' ';' | IL_ICMP_TSTAMP ';' { set_icmptype(ICMP_TSTAMP); } | IL_ICMP_TSTAMPREPLY ';' { set_icmptype(ICMP_TSTAMPREPLY); } | IL_ICMP_TSTAMPREPLY '{' icmptsopts '}' ';' | IL_ICMP_IREQ ';' { set_icmptype(ICMP_IREQ); } | IL_ICMP_IREQREPLY ';' { set_icmptype(ICMP_IREQREPLY); } | IL_ICMP_IREQREPLY '{' data dataline '}' ';' | IL_ICMP_MASKREQ ';' { set_icmptype(ICMP_MASKREQ); } | IL_ICMP_MASKREPLY ';' { set_icmptype(ICMP_MASKREPLY); } | IL_ICMP_MASKREPLY '{' token '}' ';' | IL_ICMP_PARAMPROB ';' { set_icmptype(ICMP_PARAMPROB); } | IL_ICMP_PARAMPROB '{' paramprob '}' ';' | IL_TOKEN ';' { set_icmptypetok(&$1); } ; icmpechoopts: | icmpechoopts icmpecho ; icmpecho: IL_ICMP_SEQ number { set_icmpseq($2); } | IL_ICMP_ID number { set_icmpid($2); } ; icmptsopts: | icmptsopts icmpts ';' ; icmpts: IL_ICMP_OTIME number { set_icmpotime($2); } | IL_ICMP_RTIME number { set_icmprtime($2); } | IL_ICMP_TTIME number { set_icmpttime($2); } ; unreach: IL_ICMP_UNREACH | IL_ICMP_UNREACH '{' unreachopts '}' ';' ; unreachopts: IL_ICMP_UNREACH_NET line | IL_ICMP_UNREACH_HOST line | IL_ICMP_UNREACH_PROTOCOL line | IL_ICMP_UNREACH_PORT line | IL_ICMP_UNREACH_NEEDFRAG number ';' { set_icmpmtu($2); } | IL_ICMP_UNREACH_SRCFAIL line | IL_ICMP_UNREACH_NET_UNKNOWN line | IL_ICMP_UNREACH_HOST_UNKNOWN line | IL_ICMP_UNREACH_ISOLATED line | IL_ICMP_UNREACH_NET_PROHIB line | IL_ICMP_UNREACH_HOST_PROHIB line | IL_ICMP_UNREACH_TOSNET line | IL_ICMP_UNREACH_TOSHOST line | IL_ICMP_UNREACH_FILTER_PROHIB line | IL_ICMP_UNREACH_HOST_PRECEDENCE line | IL_ICMP_UNREACH_PRECEDENCE_CUTOFF line ; redirect: IL_ICMP_REDIRECT | IL_ICMP_REDIRECT '{' redirectopts '}' ';' ; redirectopts: | IL_ICMP_REDIRECT_NET token { set_redir(0, &$2); } | IL_ICMP_REDIRECT_HOST token { set_redir(1, &$2); } | IL_ICMP_REDIRECT_TOSNET token { set_redir(2, &$2); } | IL_ICMP_REDIRECT_TOSHOST token { set_redir(3, &$2); } ; exceed: IL_ICMP_TIMXCEED_INTRANS line | IL_ICMP_TIMXCEED_REASS line ; paramprob: IL_ICMP_PARAMPROB_OPTABSENT | IL_ICMP_PARAMPROB_OPTABSENT paraprobarg paraprobarg: '{' number '}' ';' { set_icmppprob($2); } ; ipv4opt: IL_V4OPT { new_ipv4opt(); } ; ipv4optlist: | ipv4opts ipv4optlist ; ipv4opts: IL_IPO_NOP ';' { add_ipopt(IL_IPO_NOP, NULL); } | IL_IPO_RR optnumber { add_ipopt(IL_IPO_RR, &$2); } | IL_IPO_ZSU ';' { add_ipopt(IL_IPO_ZSU, NULL); } | IL_IPO_MTUP ';' { add_ipopt(IL_IPO_MTUP, NULL); } | IL_IPO_MTUR ';' { add_ipopt(IL_IPO_MTUR, NULL); } | IL_IPO_ENCODE ';' { add_ipopt(IL_IPO_ENCODE, NULL); } | IL_IPO_TS ';' { add_ipopt(IL_IPO_TS, NULL); } | IL_IPO_TR ';' { add_ipopt(IL_IPO_TR, NULL); } | IL_IPO_SEC ';' { add_ipopt(IL_IPO_SEC, NULL); } | IL_IPO_SECCLASS secclass { add_ipopt(IL_IPO_SECCLASS, sclass); } | IL_IPO_LSRR token { add_ipopt(IL_IPO_LSRR,&$2); } | IL_IPO_ESEC ';' { add_ipopt(IL_IPO_ESEC, NULL); } | IL_IPO_CIPSO ';' { add_ipopt(IL_IPO_CIPSO, NULL); } | IL_IPO_SATID optnumber { add_ipopt(IL_IPO_SATID,&$2);} | IL_IPO_SSRR token { add_ipopt(IL_IPO_SSRR,&$2); } | IL_IPO_ADDEXT ';' { add_ipopt(IL_IPO_ADDEXT, NULL); } | IL_IPO_VISA ';' { add_ipopt(IL_IPO_VISA, NULL); } | IL_IPO_IMITD ';' { add_ipopt(IL_IPO_IMITD, NULL); } | IL_IPO_EIP ';' { add_ipopt(IL_IPO_EIP, NULL); } | IL_IPO_FINN ';' { add_ipopt(IL_IPO_FINN, NULL); } ; secclass: IL_IPS_RESERV4 ';' { set_secclass(&$1); } | IL_IPS_TOPSECRET ';' { set_secclass(&$1); } | IL_IPS_SECRET ';' { set_secclass(&$1); } | IL_IPS_RESERV3 ';' { set_secclass(&$1); } | IL_IPS_CONFID ';' { set_secclass(&$1); } | IL_IPS_UNCLASS ';' { set_secclass(&$1); } | IL_IPS_RESERV2 ';' { set_secclass(&$1); } | IL_IPS_RESERV1 ';' { set_secclass(&$1); } ; data: IL_DATA { new_data(); } ; dataline: '{' databody '}' ';' { end_data(); } ; databody: dataopts | dataopts databody ; dataopts: IL_DLEN token { set_datalen(&$2); } | IL_DVALUE token { set_data(&$2); } | IL_DFILE token { set_datafile(&$2); } ; token: IL_TOKEN ';' ; optoken: ';' { $$ = ""; } | token ; number: digits ';' ; optnumber: ';' { $$ = 0; } | number ; digits: IL_NUMBER | digits IL_NUMBER ; %% struct statetoopt toipopts[] = { { IL_IPO_NOP, IPOPT_NOP }, { IL_IPO_RR, IPOPT_RR }, { IL_IPO_ZSU, IPOPT_ZSU }, { IL_IPO_MTUP, IPOPT_MTUP }, { IL_IPO_MTUR, IPOPT_MTUR }, { IL_IPO_ENCODE, IPOPT_ENCODE }, { IL_IPO_TS, IPOPT_TS }, { IL_IPO_TR, IPOPT_TR }, { IL_IPO_SEC, IPOPT_SECURITY }, { IL_IPO_SECCLASS, IPOPT_SECURITY }, { IL_IPO_LSRR, IPOPT_LSRR }, { IL_IPO_ESEC, IPOPT_E_SEC }, { IL_IPO_CIPSO, IPOPT_CIPSO }, { IL_IPO_SATID, IPOPT_SATID }, { IL_IPO_SSRR, IPOPT_SSRR }, { IL_IPO_ADDEXT, IPOPT_ADDEXT }, { IL_IPO_VISA, IPOPT_VISA }, { IL_IPO_IMITD, IPOPT_IMITD }, { IL_IPO_EIP, IPOPT_EIP }, { IL_IPO_FINN, IPOPT_FINN }, { 0, 0 } }; struct statetoopt tosecopts[] = { { IL_IPS_RESERV4, IPSO_CLASS_RES4 }, { IL_IPS_TOPSECRET, IPSO_CLASS_TOPS }, { IL_IPS_SECRET, IPSO_CLASS_SECR }, { IL_IPS_RESERV3, IPSO_CLASS_RES3 }, { IL_IPS_CONFID, IPSO_CLASS_CONF }, { IL_IPS_UNCLASS, IPSO_CLASS_UNCL }, { IL_IPS_RESERV2, IPSO_CLASS_RES2 }, { IL_IPS_RESERV1, IPSO_CLASS_RES1 }, { 0, 0 } }; #ifdef bsdi struct ether_addr * ether_aton(s) char *s; { static struct ether_addr n; u_int i[6]; if (sscanf(s, " %x:%x:%x:%x:%x:%x ", &i[0], &i[1], &i[2], &i[3], &i[4], &i[5]) == 6) { n.ether_addr_octet[0] = (u_char)i[0]; n.ether_addr_octet[1] = (u_char)i[1]; n.ether_addr_octet[2] = (u_char)i[2]; n.ether_addr_octet[3] = (u_char)i[3]; n.ether_addr_octet[4] = (u_char)i[4]; n.ether_addr_octet[5] = (u_char)i[5]; return &n; } return NULL; } #endif struct in_addr getipv4addr(arg) char *arg; { struct hostent *hp; struct in_addr in; in.s_addr = 0xffffffff; if ((hp = gethostbyname(arg))) bcopy(hp->h_addr, &in.s_addr, sizeof(struct in_addr)); else in.s_addr = inet_addr(arg); return in; } u_short getportnum(pr, name) char *pr, *name; { struct servent *sp; if (!(sp = getservbyname(name, pr))) return htons(atoi(name)); return sp->s_port; } struct ether_addr *geteaddr(arg, buf) char *arg; struct ether_addr *buf; { struct ether_addr *e; #if !defined(hpux) && !defined(linux) e = ether_aton(arg); if (!e) fprintf(stderr, "Invalid ethernet address: %s\n", arg); else # ifdef __FreeBSD__ bcopy(e->octet, buf->octet, sizeof(e->octet)); # else bcopy(e->ether_addr_octet, buf->ether_addr_octet, sizeof(e->ether_addr_octet)); # endif return e; #else return NULL; #endif } void *new_header(type) int type; { aniphdr_t *aip, *oip = canip; int sz = 0; aip = (aniphdr_t *)calloc(1, sizeof(*aip)); *aniptail = aip; aniptail = &aip->ah_next; aip->ah_p = type; aip->ah_prev = oip; canip = aip; if (type == IPPROTO_UDP) sz = sizeof(udphdr_t); else if (type == IPPROTO_TCP) sz = sizeof(tcphdr_t); else if (type == IPPROTO_ICMP) sz = sizeof(icmphdr_t); else if (type == IPPROTO_IP) sz = sizeof(ip_t); if (oip) canip->ah_data = oip->ah_data + oip->ah_len; else canip->ah_data = (char *)ipbuffer; /* * Increase the size fields in all wrapping headers. */ for (aip = aniphead; aip; aip = aip->ah_next) { aip->ah_len += sz; if (aip->ah_p == IPPROTO_IP) aip->ah_ip->ip_len += sz; else if (aip->ah_p == IPPROTO_UDP) aip->ah_udp->uh_ulen += sz; } return (void *)canip->ah_data; } void free_aniplist() { aniphdr_t *aip, **aipp = &aniphead; while ((aip = *aipp)) { *aipp = aip->ah_next; free(aip); } aniptail = &aniphead; } void inc_anipheaders(inc) int inc; { aniphdr_t *aip; for (aip = aniphead; aip; aip = aip->ah_next) { aip->ah_len += inc; if (aip->ah_p == IPPROTO_IP) aip->ah_ip->ip_len += inc; else if (aip->ah_p == IPPROTO_UDP) aip->ah_udp->uh_ulen += inc; } } void new_data() { (void) new_header(-1); canip->ah_len = 0; } void set_datalen(arg) char **arg; { int len; len = strtol(*arg, NULL, 0); inc_anipheaders(len); free(*arg); *arg = NULL; } void set_data(arg) char **arg; { u_char *s = (u_char *)*arg, *t = (u_char *)canip->ah_data, c; int len = 0, todo = 0, quote = 0, val = 0; while ((c = *s++)) { if (todo) { if (isdigit(c)) { todo--; if (c > '7') { fprintf(stderr, "octal with %c!\n", c); break; } val <<= 3; val |= (c - '0'); } if (!isdigit(c) || !todo) { *t++ = (u_char)(val & 0xff); todo = 0; } if (todo) continue; } if (quote) { if (isdigit(c)) { todo = 2; if (c > '7') { fprintf(stderr, "octal with %c!\n", c); break; } val = (c - '0'); } else { switch (c) { case '\"' : *t++ = '\"'; break; case '\\' : *t++ = '\\'; break; case 'n' : *t++ = '\n'; break; case 'r' : *t++ = '\r'; break; case 't' : *t++ = '\t'; break; } } quote = 0; continue; } if (c == '\\') quote = 1; else *t++ = c; } if (todo) *t++ = (u_char)(val & 0xff); if (quote) *t++ = '\\'; len = t - (u_char *)canip->ah_data; inc_anipheaders(len - canip->ah_len); canip->ah_len = len; } void set_datafile(arg) char **arg; { struct stat sb; char *file = *arg; int fd, len; if ((fd = open(file, O_RDONLY)) == -1) { perror("open"); exit(-1); } if (fstat(fd, &sb) == -1) { perror("fstat"); exit(-1); } if ((sb.st_size + aniphead->ah_len ) > 65535) { fprintf(stderr, "data file %s too big to include.\n", file); close(fd); return; } if ((len = read(fd, canip->ah_data, sb.st_size)) == -1) { perror("read"); close(fd); return; } inc_anipheaders(len); canip->ah_len += len; close(fd); } void new_packet() { static u_short id = 0; if (!aniphead) bzero((char *)ipbuffer, sizeof(ipbuffer)); ip = (ip_t *)new_header(IPPROTO_IP); ip->ip_v = IPVERSION; ip->ip_hl = sizeof(ip_t) >> 2; ip->ip_len = sizeof(ip_t); ip->ip_ttl = 63; ip->ip_id = htons(id++); } void set_ipv4proto(arg) char **arg; { struct protoent *pr; if ((pr = getprotobyname(*arg))) ip->ip_p = pr->p_proto; else if (!(ip->ip_p = atoi(*arg))) fprintf(stderr, "unknown protocol %s\n", *arg); free(*arg); *arg = NULL; } void set_ipv4src(arg) char **arg; { ip->ip_src = getipv4addr(*arg); free(*arg); *arg = NULL; } void set_ipv4dst(arg) char **arg; { ip->ip_dst = getipv4addr(*arg); free(*arg); *arg = NULL; } void set_ipv4off(arg) char **arg; { ip->ip_off = htons(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_ipv4v(arg) char **arg; { ip->ip_v = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void set_ipv4hl(arg) char **arg; { int newhl, inc; newhl = strtol(*arg, NULL, 0); inc = (newhl - ip->ip_hl) << 2; ip->ip_len += inc; ip->ip_hl = newhl; canip->ah_len += inc; free(*arg); *arg = NULL; } void set_ipv4ttl(arg) char **arg; { ip->ip_ttl = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void set_ipv4tos(arg) char **arg; { ip->ip_tos = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void set_ipv4id(arg) char **arg; { ip->ip_id = htons(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_ipv4sum(arg) char **arg; { ip->ip_sum = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void set_ipv4len(arg) char **arg; { int len; len = strtol(*arg, NULL, 0); inc_anipheaders(len - ip->ip_len); ip->ip_len = len; free(*arg); *arg = NULL; } void new_tcpheader() { if ((ip->ip_p) && (ip->ip_p != IPPROTO_TCP)) { fprintf(stderr, "protocol %d specified with TCP!\n", ip->ip_p); return; } ip->ip_p = IPPROTO_TCP; tcp = (tcphdr_t *)new_header(IPPROTO_TCP); tcp->th_win = htons(4096); tcp->th_off = sizeof(*tcp) >> 2; } void set_tcpsport(arg) char **arg; { u_short *port; char *pr; if (ip->ip_p == IPPROTO_UDP) { port = &udp->uh_sport; pr = "udp"; } else { port = &tcp->th_sport; pr = "udp"; } *port = getportnum(pr, *arg); free(*arg); *arg = NULL; } void set_tcpdport(arg) char **arg; { u_short *port; char *pr; if (ip->ip_p == IPPROTO_UDP) { port = &udp->uh_dport; pr = "udp"; } else { port = &tcp->th_dport; pr = "udp"; } *port = getportnum(pr, *arg); free(*arg); *arg = NULL; } void set_tcpseq(arg) char **arg; { tcp->th_seq = htonl(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_tcpack(arg) char **arg; { tcp->th_ack = htonl(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_tcpoff(arg) char **arg; { int off; off = strtol(*arg, NULL, 0); inc_anipheaders((off - tcp->th_off) << 2); tcp->th_off = off; free(*arg); *arg = NULL; } void set_tcpurp(arg) char **arg; { tcp->th_urp = htons(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_tcpwin(arg) char **arg; { tcp->th_win = htons(strtol(*arg, NULL, 0)); free(*arg); *arg = NULL; } void set_tcpsum(arg) char **arg; { tcp->th_sum = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void set_tcpflags(arg) char **arg; { static char flags[] = "ASURPF"; static int flagv[] = { TH_ACK, TH_SYN, TH_URG, TH_RST, TH_PUSH, TH_FIN } ; char *s, *t; for (s = *arg; *s; s++) if (!(t = strchr(flags, *s))) { if (s - *arg) { fprintf(stderr, "unknown TCP flag %c\n", *s); break; } tcp->th_flags = strtol(*arg, NULL, 0); break; } else tcp->th_flags |= flagv[t - flags]; free(*arg); *arg = NULL; } void set_tcpopt(state, arg) int state; char **arg; { u_char *s; int val, len, val2, pad, optval; if (arg && *arg) val = atoi(*arg); else val = 0; s = (u_char *)tcp + sizeof(*tcp) + canip->ah_optlen; switch (state) { case IL_TCPO_EOL : optval = 0; len = 1; break; case IL_TCPO_NOP : optval = 1; len = 1; break; case IL_TCPO_MSS : optval = 2; len = 4; break; case IL_TCPO_WSCALE : optval = 3; len = 3; break; case IL_TCPO_TS : optval = 8; len = 10; break; default : optval = 0; len = 0; break; } if (len > 1) { /* * prepend padding - if required. */ if (len & 3) for (pad = 4 - (len & 3); pad; pad--) { *s++ = 1; canip->ah_optlen++; } /* * build tcp option */ *s++ = (u_char)optval; *s++ = (u_char)len; if (len > 2) { if (len == 3) { /* 1 byte - char */ *s++ = (u_char)val; } else if (len == 4) { /* 2 bytes - short */ *s++ = (u_char)((val >> 8) & 0xff); *s++ = (u_char)(val & 0xff); } else if (len >= 6) { /* 4 bytes - long */ val2 = htonl(val); bcopy((char *)&val2, s, 4); } s += (len - 2); } } else *s++ = (u_char)optval; canip->ah_lastopt = optval; canip->ah_optlen += len; if (arg && *arg) { free(*arg); *arg = NULL; } } void end_tcpopt() { int pad; char *s = (char *)tcp; s += sizeof(*tcp) + canip->ah_optlen; /* * pad out so that we have a multiple of 4 bytes in size fo the * options. make sure last byte is EOL. */ if (canip->ah_optlen & 3) { if (canip->ah_lastopt != 1) { for (pad = 3 - (canip->ah_optlen & 3); pad; pad--) { *s++ = 1; canip->ah_optlen++; } canip->ah_optlen++; } else { s -= 1; for (pad = 3 - (canip->ah_optlen & 3); pad; pad--) { *s++ = 1; canip->ah_optlen++; } } *s++ = 0; } tcp->th_off = (sizeof(*tcp) + canip->ah_optlen) >> 2; inc_anipheaders(canip->ah_optlen); } void new_udpheader() { if ((ip->ip_p) && (ip->ip_p != IPPROTO_UDP)) { fprintf(stderr, "protocol %d specified with UDP!\n", ip->ip_p); return; } ip->ip_p = IPPROTO_UDP; udp = (udphdr_t *)new_header(IPPROTO_UDP); udp->uh_ulen = sizeof(*udp); } void set_udplen(arg) char **arg; { int len; len = strtol(*arg, NULL, 0); inc_anipheaders(len - udp->uh_ulen); udp->uh_ulen = len; free(*arg); *arg = NULL; } void set_udpsum(arg) char **arg; { udp->uh_sum = strtol(*arg, NULL, 0); free(*arg); *arg = NULL; } void prep_packet() { iface_t *ifp; struct in_addr gwip; ifp = sending.snd_if; if (!ifp) { fprintf(stderr, "no interface defined for sending!\n"); return; } if (ifp->if_fd == -1) ifp->if_fd = initdevice(ifp->if_name, 0, 5); gwip = sending.snd_gw; if (!gwip.s_addr) gwip = aniphead->ah_ip->ip_dst; (void) send_ip(ifp->if_fd, ifp->if_MTU, (ip_t *)ipbuffer, gwip, 2); } void packet_done() { char outline[80]; int i, j, k; u_char *s = (u_char *)ipbuffer, *t = (u_char *)outline; if (opts & OPT_VERBOSE) { ip->ip_len = htons(ip->ip_len); for (i = ntohs(ip->ip_len), j = 0; i; i--, j++, s++) { if (j && !(j & 0xf)) { *t++ = '\n'; *t = '\0'; fputs(outline, stdout); fflush(stdout); t = (u_char *)outline; *t = '\0'; } sprintf((char *)t, "%02x", *s & 0xff); t += 2; if (!((j + 1) & 0xf)) { s -= 15; sprintf((char *)t, " "); t += 8; for (k = 16; k; k--, s++) *t++ = (isprint(*s) ? *s : '.'); s--; } if ((j + 1) & 0xf) *t++ = ' ';; } if (j & 0xf) { for (k = 16 - (j & 0xf); k; k--) { *t++ = ' '; *t++ = ' '; *t++ = ' '; } sprintf((char *)t, " "); t += 7; s -= j & 0xf; for (k = j & 0xf; k; k--, s++) *t++ = (isprint(*s) ? *s : '.'); *t++ = '\n'; *t = '\0'; } fputs(outline, stdout); fflush(stdout); ip->ip_len = ntohs(ip->ip_len); } prep_packet(); free_aniplist(); } void new_interface() { cifp = (iface_t *)calloc(1, sizeof(iface_t)); *iftail = cifp; iftail = &cifp->if_next; cifp->if_fd = -1; } void check_interface() { if (!cifp->if_name || !*cifp->if_name) fprintf(stderr, "No interface name given!\n"); if (!cifp->if_MTU || !*cifp->if_name) fprintf(stderr, "Interface %s has an MTU of 0!\n", cifp->if_name); } void set_ifname(arg) char **arg; { cifp->if_name = *arg; *arg = NULL; } void set_ifmtu(arg) int arg; { cifp->if_MTU = arg; } void set_ifv4addr(arg) char **arg; { cifp->if_addr = getipv4addr(*arg); free(*arg); *arg = NULL; } void set_ifeaddr(arg) char **arg; { (void) geteaddr(*arg, &cifp->if_eaddr); free(*arg); *arg = NULL; } void new_arp() { carp = (arp_t *)calloc(1, sizeof(arp_t)); *arptail = carp; arptail = &carp->arp_next; } void set_arpeaddr(arg) char **arg; { (void) geteaddr(*arg, &carp->arp_eaddr); free(*arg); *arg = NULL; } void set_arpv4addr(arg) char **arg; { carp->arp_addr = getipv4addr(*arg); free(*arg); *arg = NULL; } int arp_getipv4(ip, addr) char *ip; char *addr; { arp_t *a; for (a = arplist; a; a = a->arp_next) if (!bcmp(ip, (char *)&a->arp_addr, 4)) { bcopy((char *)&a->arp_eaddr, addr, 6); return 0; } return -1; } void reset_send() { sending.snd_if = iflist; sending.snd_gw = defrouter; } void set_sendif(arg) char **arg; { iface_t *ifp; for (ifp = iflist; ifp; ifp = ifp->if_next) if (ifp->if_name && !strcmp(ifp->if_name, *arg)) break; sending.snd_if = ifp; if (!ifp) fprintf(stderr, "couldn't find interface %s\n", *arg); free(*arg); *arg = NULL; } void set_sendvia(arg) char **arg; { sending.snd_gw = getipv4addr(*arg); free(*arg); *arg = NULL; } void set_defaultrouter(arg) char **arg; { defrouter = getipv4addr(*arg); free(*arg); *arg = NULL; } void new_icmpheader() { if ((ip->ip_p) && (ip->ip_p != IPPROTO_ICMP)) { fprintf(stderr, "protocol %d specified with ICMP!\n", ip->ip_p); return; } ip->ip_p = IPPROTO_ICMP; icmp = (icmphdr_t *)new_header(IPPROTO_ICMP); } void set_icmpcode(code) int code; { icmp->icmp_code = code; } void set_icmptype(type) int type; { icmp->icmp_type = type; } static char *icmpcodes[] = { "net-unr", "host-unr", "proto-unr", "port-unr", "needfrag", "srcfail", "net-unk", "host-unk", "isolate", "net-prohib", "host-prohib", "net-tos", "host-tos", NULL }; void set_icmpcodetok(code) char **code; { char *s; int i; for (i = 0; (s = icmpcodes[i]); i++) if (!strcmp(s, *code)) { icmp->icmp_code = i; break; } if (!s) fprintf(stderr, "unknown ICMP code %s\n", *code); free(*code); *code = NULL; } static char *icmptypes[] = { "echorep", (char *)NULL, (char *)NULL, "unreach", "squench", "redir", (char *)NULL, (char *)NULL, "echo", (char *)NULL, (char *)NULL, "timex", "paramprob", "timest", "timestrep", "inforeq", "inforep", "maskreq", "maskrep", "END" }; void set_icmptypetok(type) char **type; { char *s; int i, done = 0; for (i = 0; !(s = icmptypes[i]) || strcmp(s, "END"); i++) if (s && !strcmp(s, *type)) { icmp->icmp_type = i; done = 1; break; } if (!done) fprintf(stderr, "unknown ICMP type %s\n", *type); free(*type); *type = NULL; } void set_icmpid(arg) int arg; { icmp->icmp_id = htons(arg); } void set_icmpseq(arg) int arg; { icmp->icmp_seq = htons(arg); } void set_icmpotime(arg) int arg; { icmp->icmp_otime = htonl(arg); } void set_icmprtime(arg) int arg; { icmp->icmp_rtime = htonl(arg); } void set_icmpttime(arg) int arg; { icmp->icmp_ttime = htonl(arg); } void set_icmpmtu(arg) int arg; { #if BSD >= 199306 icmp->icmp_nextmtu = htons(arg); #endif } void set_redir(redir, arg) int redir; char **arg; { icmp->icmp_code = redir; icmp->icmp_gwaddr = getipv4addr(*arg); free(*arg); *arg = NULL; } void set_icmppprob(num) int num; { icmp->icmp_pptr = num; } void new_ipv4opt() { new_header(-2); } void add_ipopt(state, ptr) int state; void *ptr; { struct ipopt_names *io; struct statetoopt *sto; char numbuf[16], *arg, **param = ptr; int inc, hlen; if (state == IL_IPO_RR || state == IL_IPO_SATID) { if (param) sprintf(numbuf, "%d", *(int *)param); else strcpy(numbuf, "0"); arg = numbuf; } else arg = param ? *param : NULL; if (canip->ah_next) { fprintf(stderr, "cannot specify options after data body\n"); return; } for (sto = toipopts; sto->sto_st; sto++) if (sto->sto_st == state) break; if (!sto || !sto->sto_st) { fprintf(stderr, "No mapping for state %d to IP option\n", state); return; } hlen = sizeof(ip_t) + canip->ah_optlen; for (io = ionames; io->on_name; io++) if (io->on_value == sto->sto_op) break; canip->ah_lastopt = io->on_value; if (io->on_name) { inc = addipopt((char *)ip + hlen, io, hlen - sizeof(ip_t),arg); if (inc > 0) { while (inc & 3) { ((char *)ip)[sizeof(*ip) + inc] = IPOPT_NOP; canip->ah_lastopt = IPOPT_NOP; inc++; } hlen += inc; } } canip->ah_optlen = hlen - sizeof(ip_t); if (state != IL_IPO_RR && state != IL_IPO_SATID) if (param && *param) { free(*param); *param = NULL; } sclass = NULL; } void end_ipopt() { int pad; char *s, *buf = (char *)ip; /* * pad out so that we have a multiple of 4 bytes in size fo the * options. make sure last byte is EOL. */ if (canip->ah_lastopt == IPOPT_NOP) { buf[sizeof(*ip) + canip->ah_optlen - 1] = IPOPT_EOL; } else if (canip->ah_lastopt != IPOPT_EOL) { s = buf + sizeof(*ip) + canip->ah_optlen; for (pad = 3 - (canip->ah_optlen & 3); pad; pad--) { *s++ = IPOPT_NOP; *s = IPOPT_EOL; canip->ah_optlen++; } canip->ah_optlen++; } else { s = buf + sizeof(*ip) + canip->ah_optlen - 1; for (pad = 3 - (canip->ah_optlen & 3); pad; pad--) { *s++ = IPOPT_NOP; *s = IPOPT_EOL; canip->ah_optlen++; } } ip->ip_hl = (sizeof(*ip) + canip->ah_optlen) >> 2; inc_anipheaders(canip->ah_optlen); free_anipheader(); } void set_secclass(arg) char **arg; { sclass = *arg; *arg = NULL; } void free_anipheader() { aniphdr_t *aip; aip = canip; if ((canip = aip->ah_prev)) { canip->ah_next = NULL; aniptail = &canip->ah_next; } if (canip) free(aip); } void end_ipv4() { aniphdr_t *aip; ip->ip_sum = 0; ip->ip_len = htons(ip->ip_len); ip->ip_sum = chksum((u_short *)ip, ip->ip_hl << 2); ip->ip_len = ntohs(ip->ip_len); free_anipheader(); for (aip = aniphead, ip = NULL; aip; aip = aip->ah_next) if (aip->ah_p == IPPROTO_IP) ip = aip->ah_ip; } void end_icmp() { aniphdr_t *aip; icmp->icmp_cksum = 0; icmp->icmp_cksum = chksum((u_short *)icmp, canip->ah_len); free_anipheader(); for (aip = aniphead, icmp = NULL; aip; aip = aip->ah_next) if (aip->ah_p == IPPROTO_ICMP) icmp = aip->ah_icmp; } void end_udp() { u_long sum; aniphdr_t *aip; ip_t iptmp; bzero((char *)&iptmp, sizeof(iptmp)); iptmp.ip_p = ip->ip_p; iptmp.ip_src = ip->ip_src; iptmp.ip_dst = ip->ip_dst; iptmp.ip_len = htons(ip->ip_len - (ip->ip_hl << 2)); sum = p_chksum((u_short *)&iptmp, (u_int)sizeof(iptmp)); udp->uh_ulen = htons(udp->uh_ulen); udp->uh_sum = c_chksum((u_short *)udp, (u_int)ntohs(iptmp.ip_len), sum); free_anipheader(); for (aip = aniphead, udp = NULL; aip; aip = aip->ah_next) if (aip->ah_p == IPPROTO_UDP) udp = aip->ah_udp; } void end_tcp() { u_long sum; aniphdr_t *aip; ip_t iptmp; bzero((char *)&iptmp, sizeof(iptmp)); iptmp.ip_p = ip->ip_p; iptmp.ip_src = ip->ip_src; iptmp.ip_dst = ip->ip_dst; iptmp.ip_len = htons(ip->ip_len - (ip->ip_hl << 2)); sum = p_chksum((u_short *)&iptmp, (u_int)sizeof(iptmp)); tcp->th_sum = 0; tcp->th_sum = c_chksum((u_short *)tcp, (u_int)ntohs(iptmp.ip_len), sum); free_anipheader(); for (aip = aniphead, tcp = NULL; aip; aip = aip->ah_next) if (aip->ah_p == IPPROTO_TCP) tcp = aip->ah_tcp; } void end_data() { free_anipheader(); } void iplang(fp) FILE *fp; { yyin = fp; yydebug = (opts & OPT_DEBUG) ? 1 : 0; while (!feof(fp)) yyparse(); } u_short c_chksum(buf, len, init) u_short *buf; u_int len; u_long init; { u_long sum = init; int nwords = len >> 1; for(; nwords > 0; nwords--) sum += *buf++; sum = (sum>>16) + (sum & 0xffff); sum += (sum >>16); return (~sum); } u_long p_chksum(buf,len) u_short *buf; u_int len; { u_long sum = 0; int nwords = len >> 1; for(; nwords > 0; nwords--) sum += *buf++; return sum; }