%{ /* * Copyright (C) 2003 by Darren Reed. * * See the IPFILTER.LICENCE file for details on licencing. * * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include "ipf.h" #include #include #ifdef IPFILTER_BPF # include "pcap-bpf.h" # define _NET_BPF_H_ # include #endif #include "netinet/ip_pool.h" #include "netinet/ip_htable.h" #include "netinet/ipl.h" #include "ipf_l.h" #define YYDEBUG 1 #define DOALL(x) for (fr = frc; fr != NULL; fr = fr->fr_next) { x } #define DOREM(x) for (; fr != NULL; fr = fr->fr_next) { x } #define OPTION_LOG 0x1 #define OPTION_QUICK 0x2 #define OPTION_DUP 0x4 #define OPTION_PROUTE 0x8 #define OPTION_ON 0x10 #define OPTION_REPLYTO 0x20 #define OPTION_FROUTE 0x40 extern void yyerror __P((char *)); extern int yyparse __P((void)); extern int yylex __P((void)); extern int yydebug; extern FILE *yyin; extern int yylineNum; static void newrule __P((void)); static void setipftype __P((void)); static u_32_t lookuphost __P((char *, i6addr_t *)); static void dobpf __P((int, char *)); static void resetaddr __P((void)); static struct alist_s *newalist __P((struct alist_s *)); static u_int makehash __P((struct alist_s *)); static int makepool __P((struct alist_s *)); static frentry_t *addrule __P((void)); static void setsyslog __P((void)); static void unsetsyslog __P((void)); static void fillgroup __P((frentry_t *)); frentry_t *fr = NULL, *frc = NULL, *frtop = NULL, *frold = NULL; static int ifpflag = 0; static int nowith = 0; static int dynamic = -1; static int pooled = 0; static int hashed = 0; static int nrules = 0; static int newlist = 0; static int added = 0; static int ipffd = -1; static int ruleopts = 0; static int *yycont = 0; static ioctlfunc_t ipfioctl[IPL_LOGSIZE]; static addfunc_t ipfaddfunc = NULL; static struct wordtab ipfwords[95]; static struct wordtab addrwords[4]; static struct wordtab maskwords[5]; static struct wordtab icmpcodewords[17]; static struct wordtab icmptypewords[16]; static struct wordtab ipv4optwords[25]; static struct wordtab ipv4secwords[9]; static struct wordtab ipv6optwords[8]; static struct wordtab logwords[33]; static int set_ipv6_addr = 0; %} %union { char *str; u_32_t num; struct in_addr ipa; frentry_t fr; frtuc_t *frt; struct alist_s *alist; u_short port; struct { u_short p1; u_short p2; int pc; } pc; struct { union i6addr a; union i6addr m; } ipp; union i6addr ip6; }; %type portnum %type facility priority icmpcode seclevel secname icmptype %type opt compare range opttype flagset optlist ipv6hdrlist ipv6hdr %type portc porteq %type ipv4 ipv4_16 ipv4_24 %type hostname mask %type addr ipaddr %type servicename name interfacename %type portrange portcomp %type addrlist poollist %token YY_NUMBER YY_HEX %token YY_STR %token YY_COMMENT %token YY_CMP_EQ YY_CMP_NE YY_CMP_LE YY_CMP_GE YY_CMP_LT YY_CMP_GT %token YY_RANGE_OUT YY_RANGE_IN %token YY_IPV6 %token IPFY_PASS IPFY_BLOCK IPFY_COUNT IPFY_CALL %token IPFY_RETICMP IPFY_RETRST IPFY_RETICMPASDST %token IPFY_IN IPFY_OUT %token IPFY_QUICK IPFY_ON IPFY_OUTVIA IPFY_INVIA %token IPFY_DUPTO IPFY_TO IPFY_FROUTE IPFY_REPLY_TO IPFY_ROUTETO %token IPFY_TOS IPFY_TTL IPFY_PROTO %token IPFY_HEAD IPFY_GROUP %token IPFY_AUTH IPFY_PREAUTH %token IPFY_LOG IPFY_BODY IPFY_FIRST IPFY_LEVEL IPFY_ORBLOCK %token IPFY_LOGTAG IPFY_MATCHTAG IPFY_SETTAG IPFY_SKIP %token IPFY_FROM IPFY_ALL IPFY_ANY IPFY_BPFV4 IPFY_BPFV6 IPFY_POOL IPFY_HASH %token IPFY_PPS %token IPFY_ESP IPFY_AH %token IPFY_WITH IPFY_AND IPFY_NOT IPFY_NO IPFY_OPT %token IPFY_TCPUDP IPFY_TCP IPFY_UDP %token IPFY_FLAGS IPFY_MULTICAST %token IPFY_MASK IPFY_BROADCAST IPFY_NETWORK IPFY_NETMASKED IPFY_PEER %token IPFY_PORT %token IPFY_NOW %token IPFY_ICMP IPFY_ICMPTYPE IPFY_ICMPCODE %token IPFY_IPOPTS IPFY_SHORT IPFY_NAT IPFY_BADSRC IPFY_LOWTTL IPFY_FRAG %token IPFY_MBCAST IPFY_BAD IPFY_BADNAT IPFY_OOW IPFY_NEWISN IPFY_NOICMPERR %token IPFY_KEEP IPFY_STATE IPFY_FRAGS IPFY_LIMIT IPFY_STRICT IPFY_AGE %token IPFY_SYNC IPFY_FRAGBODY %token IPFY_IPOPT_NOP IPFY_IPOPT_RR IPFY_IPOPT_ZSU IPFY_IPOPT_MTUP %token IPFY_IPOPT_MTUR IPFY_IPOPT_ENCODE IPFY_IPOPT_TS IPFY_IPOPT_TR %token IPFY_IPOPT_SEC IPFY_IPOPT_LSRR IPFY_IPOPT_ESEC IPFY_IPOPT_CIPSO %token IPFY_IPOPT_SATID IPFY_IPOPT_SSRR IPFY_IPOPT_ADDEXT IPFY_IPOPT_VISA %token IPFY_IPOPT_IMITD IPFY_IPOPT_EIP IPFY_IPOPT_FINN IPFY_IPOPT_DPS %token IPFY_IPOPT_SDB IPFY_IPOPT_NSAPA IPFY_IPOPT_RTRALRT IPFY_IPOPT_UMP %token IPFY_SECCLASS IPFY_SEC_UNC IPFY_SEC_CONF IPFY_SEC_RSV1 IPFY_SEC_RSV2 %token IPFY_SEC_RSV4 IPFY_SEC_SEC IPFY_SEC_TS IPFY_SEC_RSV3 %token IPF6_V6HDRS IPFY_IPV6OPT IPFY_IPV6OPT_DSTOPTS IPFY_IPV6OPT_HOPOPTS %token IPFY_IPV6OPT_IPV6 IPFY_IPV6OPT_NONE IPFY_IPV6OPT_ROUTING %token IPFY_ICMPT_UNR IPFY_ICMPT_ECHO IPFY_ICMPT_ECHOR IPFY_ICMPT_SQUENCH %token IPFY_ICMPT_REDIR IPFY_ICMPT_TIMEX IPFY_ICMPT_PARAMP IPFY_ICMPT_TIMEST %token IPFY_ICMPT_TIMESTREP IPFY_ICMPT_INFOREQ IPFY_ICMPT_INFOREP %token IPFY_ICMPT_MASKREQ IPFY_ICMPT_MASKREP IPFY_ICMPT_ROUTERAD %token IPFY_ICMPT_ROUTERSOL %token IPFY_ICMPC_NETUNR IPFY_ICMPC_HSTUNR IPFY_ICMPC_PROUNR IPFY_ICMPC_PORUNR %token IPFY_ICMPC_NEEDF IPFY_ICMPC_SRCFAIL IPFY_ICMPC_NETUNK IPFY_ICMPC_HSTUNK %token IPFY_ICMPC_ISOLATE IPFY_ICMPC_NETPRO IPFY_ICMPC_HSTPRO %token IPFY_ICMPC_NETTOS IPFY_ICMPC_HSTTOS IPFY_ICMPC_FLTPRO IPFY_ICMPC_HSTPRE %token IPFY_ICMPC_CUTPRE %token IPFY_FAC_KERN IPFY_FAC_USER IPFY_FAC_MAIL IPFY_FAC_DAEMON IPFY_FAC_AUTH %token IPFY_FAC_SYSLOG IPFY_FAC_LPR IPFY_FAC_NEWS IPFY_FAC_UUCP IPFY_FAC_CRON %token IPFY_FAC_LOCAL0 IPFY_FAC_LOCAL1 IPFY_FAC_LOCAL2 IPFY_FAC_LOCAL3 %token IPFY_FAC_LOCAL4 IPFY_FAC_LOCAL5 IPFY_FAC_LOCAL6 IPFY_FAC_LOCAL7 %token IPFY_FAC_SECURITY IPFY_FAC_FTP IPFY_FAC_AUTHPRIV IPFY_FAC_AUDIT %token IPFY_FAC_LFMT IPFY_FAC_CONSOLE %token IPFY_PRI_EMERG IPFY_PRI_ALERT IPFY_PRI_CRIT IPFY_PRI_ERR IPFY_PRI_WARN %token IPFY_PRI_NOTICE IPFY_PRI_INFO IPFY_PRI_DEBUG %% file: line | assign | file line | file assign ; line: xx rule { while ((fr = frtop) != NULL) { frtop = fr->fr_next; fr->fr_next = NULL; (*ipfaddfunc)(ipffd, ipfioctl[IPL_LOGIPF], fr); fr->fr_next = frold; frold = fr; } resetlexer(); } | YY_COMMENT ; xx: { newrule(); } ; assign: YY_STR assigning YY_STR ';' { set_variable($1, $3); resetlexer(); free($1); free($3); } ; assigning: '=' { yyvarnext = 1; } ; rule: inrule eol | outrule eol ; eol: | ';' ; inrule: rulehead markin { ruleopts = 0; } inopts rulemain ruletail intag ruletail2 ; outrule: rulehead markout { ruleopts = 0; } outopts rulemain ruletail outtag ruletail2 ; rulehead: collection action | insert collection action ; markin: IPFY_IN { fr->fr_flags |= FR_INQUE; } ; markout: IPFY_OUT { fr->fr_flags |= FR_OUTQUE; } ; rulemain: ipfrule | bpfrule ; ipfrule: tos ttl proto ip ; bpfrule: IPFY_BPFV4 '{' YY_STR '}' { dobpf(4, $3); free($3); } | IPFY_BPFV6 '{' YY_STR '}' { dobpf(6, $3); free($3); } ; ruletail: with keep head group ; ruletail2: pps age new ; intag: settagin matchtagin ; outtag: settagout matchtagout ; insert: '@' YY_NUMBER { fr->fr_hits = (U_QUAD_T)$2 + 1; } ; collection: | YY_NUMBER { fr->fr_collect = $1; } ; action: block | IPFY_PASS { fr->fr_flags |= FR_PASS; } | log | IPFY_COUNT { fr->fr_flags |= FR_ACCOUNT; } | auth | IPFY_SKIP YY_NUMBER { fr->fr_flags |= FR_SKIP; fr->fr_arg = $2; } | IPFY_CALL func | IPFY_CALL IPFY_NOW func { fr->fr_flags |= FR_CALLNOW; } ; block: blocked | blocked blockreturn ; blocked: IPFY_BLOCK { fr->fr_flags = FR_BLOCK; } ; blockreturn: IPFY_RETICMP { fr->fr_flags |= FR_RETICMP; } | IPFY_RETICMP returncode { fr->fr_flags |= FR_RETICMP; } | IPFY_RETICMPASDST { fr->fr_flags |= FR_FAKEICMP; } | IPFY_RETICMPASDST returncode { fr->fr_flags |= FR_FAKEICMP; } | IPFY_RETRST { fr->fr_flags |= FR_RETRST; } ; log: IPFY_LOG { fr->fr_flags |= FR_LOG; } | IPFY_LOG logoptions { fr->fr_flags |= FR_LOG; } ; auth: IPFY_AUTH { fr->fr_flags |= FR_AUTH; } | IPFY_AUTH IPFY_RETRST { fr->fr_flags |= (FR_AUTH|FR_RETRST);} | IPFY_PREAUTH { fr->fr_flags |= FR_PREAUTH; } ; func: YY_STR '/' YY_NUMBER { fr->fr_func = nametokva($1, ipfioctl[IPL_LOGIPF]); fr->fr_arg = $3; free($1); } ; inopts: | inopts inopt ; inopt: logopt { if ( ruleopts & OPTION_LOG ) yyerror("Duplicate log option"); ruleopts |= OPTION_LOG; } | quick { if ( ruleopts & OPTION_QUICK ) yyerror("Duplicate quick option"); ruleopts |= OPTION_QUICK; } | on { if ( ruleopts & OPTION_ON ) yyerror("Duplicate on option"); ruleopts |= OPTION_ON; } | dup { if ( ruleopts & OPTION_DUP ) yyerror("Duplicate dup option"); ruleopts |= OPTION_DUP; } | froute { if ( ruleopts & OPTION_FROUTE ) yyerror("Duplicate froute option"); ruleopts |= OPTION_FROUTE; } | proute { if ( ruleopts & OPTION_PROUTE ) yyerror("Duplicate proute option"); ruleopts |= OPTION_PROUTE; } | replyto { if ( ruleopts & OPTION_REPLYTO ) yyerror("Duplicate replyto option"); ruleopts |= OPTION_REPLYTO; } ; outopts: | outopts outopt ; outopt: logopt { if ( ruleopts & OPTION_LOG ) yyerror("Duplicate log option"); ruleopts |= OPTION_LOG; } | quick { if ( ruleopts & OPTION_QUICK ) yyerror("Duplicate quick option"); ruleopts |= OPTION_QUICK; } | on { if ( ruleopts & OPTION_ON ) yyerror("Duplicate on option"); ruleopts |= OPTION_ON; } | dup { if ( ruleopts & OPTION_DUP ) yyerror("Duplicate dup option"); ruleopts |= OPTION_DUP; } | proute { if ( ruleopts & OPTION_PROUTE ) yyerror("Duplicate proute option"); ruleopts |= OPTION_PROUTE; } | replyto { if ( ruleopts & OPTION_REPLYTO ) yyerror("Duplicate replyto option"); ruleopts |= OPTION_REPLYTO; } ; tos: | settos YY_NUMBER { DOALL(fr->fr_tos = $2; fr->fr_mtos = 0xff;) } | settos YY_HEX { DOALL(fr->fr_tos = $2; fr->fr_mtos = 0xff;) } | settos lstart toslist lend ; settos: IPFY_TOS { setipftype(); } ; toslist: YY_NUMBER { DOALL(fr->fr_tos = $1; fr->fr_mtos = 0xff;) } | YY_HEX { DOREM(fr->fr_tos = $1; fr->fr_mtos = 0xff;) } | toslist lmore YY_NUMBER { DOREM(fr->fr_tos = $3; fr->fr_mtos = 0xff;) } | toslist lmore YY_HEX { DOREM(fr->fr_tos = $3; fr->fr_mtos = 0xff;) } ; ttl: | setttl YY_NUMBER { DOALL(fr->fr_ttl = $2; fr->fr_mttl = 0xff;) } | setttl lstart ttllist lend ; lstart: '(' { newlist = 1; fr = frc; added = 0; } ; lend: ')' { nrules += added; } ; lmore: lanother { if (newlist == 1) { newlist = 0; } fr = addrule(); if (yycont != NULL) *yycont = 1; } ; lanother: | ',' ; setttl: IPFY_TTL { setipftype(); } ; ttllist: YY_NUMBER { DOREM(fr->fr_ttl = $1; fr->fr_mttl = 0xff;) } | ttllist lmore YY_NUMBER { DOREM(fr->fr_ttl = $3; fr->fr_mttl = 0xff;) } ; proto: | protox protocol { yyresetdict(); } ; protox: IPFY_PROTO { setipftype(); fr = frc; yysetdict(NULL); } ; ip: srcdst flags icmp ; group: | IPFY_GROUP YY_STR { DOALL(strncpy(fr->fr_group, $2, \ FR_GROUPLEN); \ fillgroup(fr);); free($2); } | IPFY_GROUP YY_NUMBER { DOALL(sprintf(fr->fr_group, "%d", \ $2); \ fillgroup(fr);) } ; head: | IPFY_HEAD YY_STR { DOALL(strncpy(fr->fr_grhead, $2, \ FR_GROUPLEN);); free($2); } | IPFY_HEAD YY_NUMBER { DOALL(sprintf(fr->fr_grhead, "%d", \ $2);) } ; settagin: | IPFY_SETTAG '(' taginlist ')' ; taginlist: taginspec | taginlist ',' taginspec ; taginspec: logtag |nattag ; nattag: IPFY_NAT '=' YY_STR { DOALL(strncpy(fr->fr_nattag.ipt_tag,\ $3, IPFTAG_LEN);); free($3); } | IPFY_NAT '=' YY_NUMBER { DOALL(sprintf(fr->fr_nattag.ipt_tag,\ "%d", $3 & 0xffffffff);) } ; logtag: IPFY_LOG '=' YY_NUMBER { DOALL(fr->fr_logtag = $3;) } ; settagout: | IPFY_SETTAG '(' tagoutlist ')' ; tagoutlist: tagoutspec | tagoutlist ',' tagoutspec ; tagoutspec: logtag | nattag ; matchtagin: | IPFY_MATCHTAG '(' tagoutlist ')' ; matchtagout: | IPFY_MATCHTAG '(' taginlist ')' ; pps: | IPFY_PPS YY_NUMBER { DOALL(fr->fr_pps = $2;) } ; new: | savegroup file restoregroup ; savegroup: '{' ; restoregroup: '}' ; logopt: log ; quick: IPFY_QUICK { fr->fr_flags |= FR_QUICK; } ; on: IPFY_ON onname | IPFY_ON onname IPFY_INVIA vianame | IPFY_ON onname IPFY_OUTVIA vianame ; onname: interfacename { strncpy(fr->fr_ifnames[0], $1, sizeof(fr->fr_ifnames[0])); free($1); } | interfacename ',' interfacename { strncpy(fr->fr_ifnames[0], $1, sizeof(fr->fr_ifnames[0])); free($1); strncpy(fr->fr_ifnames[1], $3, sizeof(fr->fr_ifnames[1])); free($3); } ; vianame: name { strncpy(fr->fr_ifnames[2], $1, sizeof(fr->fr_ifnames[2])); free($1); } | name ',' name { strncpy(fr->fr_ifnames[2], $1, sizeof(fr->fr_ifnames[2])); free($1); strncpy(fr->fr_ifnames[3], $3, sizeof(fr->fr_ifnames[3])); free($3); } ; dup: IPFY_DUPTO name { strncpy(fr->fr_dif.fd_ifname, $2, sizeof(fr->fr_dif.fd_ifname)); free($2); } | IPFY_DUPTO name duptoseparator hostname { strncpy(fr->fr_dif.fd_ifname, $2, sizeof(fr->fr_dif.fd_ifname)); if (use_inet6 == 0) fr->fr_dif.fd_ip = $4.in4; else bcopy(&$4, &fr->fr_dif.fd_ip6, sizeof(fr->fr_dif.fd_ip6)); yyexpectaddr = 0; free($2); } | IPFY_DUPTO name duptoseparator YY_IPV6 { strncpy(fr->fr_dif.fd_ifname, $2, sizeof(fr->fr_dif.fd_ifname)); bcopy(&$4, &fr->fr_dif.fd_ip6, sizeof(fr->fr_dif.fd_ip6)); yyexpectaddr = 0; free($2); } ; duptoseparator: ':' { yyexpectaddr = 1; yycont = &yyexpectaddr; resetaddr(); } ; froute: IPFY_FROUTE { fr->fr_flags |= FR_FASTROUTE; } ; proute: routeto name { strncpy(fr->fr_tif.fd_ifname, $2, sizeof(fr->fr_tif.fd_ifname)); free($2); } | routeto name duptoseparator hostname { strncpy(fr->fr_tif.fd_ifname, $2, sizeof(fr->fr_tif.fd_ifname)); if (use_inet6 == 0) fr->fr_tif.fd_ip = $4.in4; else bcopy(&$4, &fr->fr_tif.fd_ip6, sizeof(fr->fr_tif.fd_ip6)); yyexpectaddr = 0; free($2); } | routeto name duptoseparator YY_IPV6 { strncpy(fr->fr_tif.fd_ifname, $2, sizeof(fr->fr_tif.fd_ifname)); bcopy(&$4, &fr->fr_tif.fd_ip6, sizeof(fr->fr_tif.fd_ip6)); yyexpectaddr = 0; free($2); } ; routeto: IPFY_TO | IPFY_ROUTETO ; replyto: IPFY_REPLY_TO name { strncpy(fr->fr_rif.fd_ifname, $2, sizeof(fr->fr_rif.fd_ifname)); free($2); } | IPFY_REPLY_TO name duptoseparator hostname { strncpy(fr->fr_rif.fd_ifname, $2, sizeof(fr->fr_rif.fd_ifname)); if (use_inet6 == 0) fr->fr_rif.fd_ip = $4.in4; else bcopy(&$4, &fr->fr_rif.fd_ip6, sizeof(fr->fr_rif.fd_ip6)); yyexpectaddr = 0; free($2); } | IPFY_REPLY_TO name duptoseparator YY_IPV6 { strncpy(fr->fr_rif.fd_ifname, $2, sizeof(fr->fr_rif.fd_ifname)); bcopy(&$4, &fr->fr_rif.fd_ip6, sizeof(fr->fr_rif.fd_ip6)); yyexpectaddr = 0; free($2); } ; logoptions: logoption | logoptions logoption ; logoption: IPFY_BODY { fr->fr_flags |= FR_LOGBODY; } | IPFY_FIRST { fr->fr_flags |= FR_LOGFIRST; } | IPFY_ORBLOCK { fr->fr_flags |= FR_LOGORBLOCK; } | level loglevel { unsetsyslog(); } ; returncode: starticmpcode icmpcode ')' { fr->fr_icode = $2; yyresetdict(); } ; starticmpcode: '(' { yysetdict(icmpcodewords); } ; srcdst: | IPFY_ALL | fromto ; protocol: YY_NUMBER { DOREM(fr->fr_proto = $1; \ fr->fr_mproto = 0xff;) } | YY_STR { if (!strcmp($1, "tcp-udp")) { DOREM(fr->fr_flx |= FI_TCPUDP; \ fr->fr_mflx |= FI_TCPUDP;) } else { int p = getproto($1); if (p == -1) yyerror("protocol unknown"); DOREM(fr->fr_proto = p; \ fr->fr_mproto = 0xff;) } free($1); } | YY_STR nextstring YY_STR { if (!strcmp($1, "tcp") && !strcmp($3, "udp")) { DOREM(fr->fr_flx |= FI_TCPUDP; \ fr->fr_mflx |= FI_TCPUDP;) } else YYERROR; free($1); free($3); } ; nextstring: '/' { yysetdict(NULL); } ; fromto: from srcobject to dstobject { yyexpectaddr = 0; yycont = NULL; } | to dstobject { yyexpectaddr = 0; yycont = NULL; } | from srcobject { yyexpectaddr = 0; yycont = NULL; } ; from: IPFY_FROM { setipftype(); if (fr == NULL) fr = frc; yyexpectaddr = 1; if (yydebug) printf("set yyexpectaddr\n"); yycont = &yyexpectaddr; yysetdict(addrwords); resetaddr(); } ; to: IPFY_TO { if (fr == NULL) fr = frc; yyexpectaddr = 1; if (yydebug) printf("set yyexpectaddr\n"); yycont = &yyexpectaddr; yysetdict(addrwords); resetaddr(); } ; with: | andwith withlist ; andwith: IPFY_WITH { nowith = 0; setipftype(); } | IPFY_AND { nowith = 0; setipftype(); } ; flags: | startflags flagset { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = FR_TCPFMAX;) } | startflags flagset '/' flagset { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = $4;) } | startflags '/' flagset { DOALL(fr->fr_tcpf = 0; fr->fr_tcpfm = $3;) } | startflags YY_NUMBER { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = FR_TCPFMAX;) } | startflags '/' YY_NUMBER { DOALL(fr->fr_tcpf = 0; fr->fr_tcpfm = $3;) } | startflags YY_NUMBER '/' YY_NUMBER { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = $4;) } | startflags flagset '/' YY_NUMBER { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = $4;) } | startflags YY_NUMBER '/' flagset { DOALL(fr->fr_tcpf = $2; fr->fr_tcpfm = $4;) } ; startflags: IPFY_FLAGS { if (frc->fr_type != FR_T_IPF) yyerror("flags with non-ipf type rule"); if (frc->fr_proto != IPPROTO_TCP) yyerror("flags with non-TCP rule"); } ; flagset: YY_STR { $$ = tcpflags($1); free($1); } | YY_HEX { $$ = $1; } ; srcobject: { yyresetdict(); } fromport | srcaddr srcport | '!' srcaddr srcport { DOALL(fr->fr_flags |= FR_NOTSRCIP;) } ; srcaddr: addr { DOREM(bcopy(&($1.a), &fr->fr_ip.fi_src, sizeof($1.a)); \ bcopy(&($1.m), &fr->fr_mip.fi_src, sizeof($1.m)); \ if (dynamic != -1) { \ fr->fr_satype = ifpflag; \ fr->fr_ipf->fri_sifpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_satype = FRI_LOOKUP;) } | lstart srcaddrlist lend ; srcaddrlist: addr { DOREM(bcopy(&($1.a), &fr->fr_ip.fi_src, sizeof($1.a)); \ bcopy(&($1.m), &fr->fr_mip.fi_src, sizeof($1.m)); \ if (dynamic != -1) { \ fr->fr_satype = ifpflag; \ fr->fr_ipf->fri_sifpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_satype = FRI_LOOKUP;) } | srcaddrlist lmore addr { DOREM(bcopy(&($3.a), &fr->fr_ip.fi_src, sizeof($3.a)); \ bcopy(&($3.m), &fr->fr_mip.fi_src, sizeof($3.m)); \ if (dynamic != -1) { \ fr->fr_satype = ifpflag; \ fr->fr_ipf->fri_sifpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_satype = FRI_LOOKUP;) } ; srcport: | portcomp { DOALL(fr->fr_scmp = $1.pc; fr->fr_sport = $1.p1;) } | portrange { DOALL(fr->fr_scmp = $1.pc; fr->fr_sport = $1.p1; \ fr->fr_stop = $1.p2;) } | porteq lstart srcportlist lend { yyresetdict(); } ; fromport: portcomp { DOALL(fr->fr_scmp = $1.pc; fr->fr_sport = $1.p1;) } | portrange { DOALL(fr->fr_scmp = $1.pc; fr->fr_sport = $1.p1; \ fr->fr_stop = $1.p2;) } | porteq lstart srcportlist lend { yyresetdict(); } ; srcportlist: portnum { DOREM(fr->fr_scmp = FR_EQUAL; fr->fr_sport = $1;) } | srcportlist lmore portnum { DOREM(fr->fr_scmp = FR_EQUAL; fr->fr_sport = $3;) } ; dstobject: { yyresetdict(); } toport | dstaddr dstport | '!' dstaddr dstport { DOALL(fr->fr_flags |= FR_NOTDSTIP;) } ; dstaddr: addr { DOREM(bcopy(&($1.a), &fr->fr_ip.fi_dst, sizeof($1.a)); \ bcopy(&($1.m), &fr->fr_mip.fi_dst, sizeof($1.m)); \ if (dynamic != -1) { \ fr->fr_datype = ifpflag; \ fr->fr_ipf->fri_difpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_datype = FRI_LOOKUP;) } | lstart dstaddrlist lend ; dstaddrlist: addr { DOREM(bcopy(&($1.a), &fr->fr_ip.fi_dst, sizeof($1.a)); \ bcopy(&($1.m), &fr->fr_mip.fi_dst, sizeof($1.m)); \ if (dynamic != -1) { \ fr->fr_datype = ifpflag; \ fr->fr_ipf->fri_difpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_datype = FRI_LOOKUP;) } | dstaddrlist lmore addr { DOREM(bcopy(&($3.a), &fr->fr_ip.fi_dst, sizeof($3.a)); \ bcopy(&($3.m), &fr->fr_mip.fi_dst, sizeof($3.m)); \ if (dynamic != -1) { \ fr->fr_datype = ifpflag; \ fr->fr_ipf->fri_difpidx = dynamic; \ } else if (pooled || hashed) \ fr->fr_datype = FRI_LOOKUP;) } ; dstport: | portcomp { DOALL(fr->fr_dcmp = $1.pc; fr->fr_dport = $1.p1;) } | portrange { DOALL(fr->fr_dcmp = $1.pc; fr->fr_dport = $1.p1; \ fr->fr_dtop = $1.p2;) } | porteq lstart dstportlist lend { yyresetdict(); } ; toport: portcomp { DOALL(fr->fr_dcmp = $1.pc; fr->fr_dport = $1.p1;) } | portrange { DOALL(fr->fr_dcmp = $1.pc; fr->fr_dport = $1.p1; \ fr->fr_dtop = $1.p2;) } | porteq lstart dstportlist lend { yyresetdict(); } ; dstportlist: portnum { DOREM(fr->fr_dcmp = FR_EQUAL; fr->fr_dport = $1;) } | dstportlist lmore portnum { DOREM(fr->fr_dcmp = FR_EQUAL; fr->fr_dport = $3;) } ; addr: pool '/' YY_NUMBER { pooled = 1; yyexpectaddr = 0; $$.a.iplookuptype = IPLT_POOL; $$.a.iplookupnum = $3; } | pool '=' '(' poollist ')' { pooled = 1; yyexpectaddr = 0; $$.a.iplookuptype = IPLT_POOL; $$.a.iplookupnum = makepool($4); } | hash '/' YY_NUMBER { hashed = 1; yyexpectaddr = 0; $$.a.iplookuptype = IPLT_HASH; $$.a.iplookupnum = $3; } | hash '=' '(' addrlist ')' { hashed = 1; yyexpectaddr = 0; $$.a.iplookuptype = IPLT_HASH; $$.a.iplookupnum = makehash($4); } | ipaddr { bcopy(&$1, &$$, sizeof($$)); yyexpectaddr = 0; } ; ipaddr: IPFY_ANY { bzero(&($$), sizeof($$)); yyresetdict(); yyexpectaddr = 0; } | hostname { if (use_inet6 == 0) { $$.a.in4 = $1.in4; $$.m.in4_addr = 0xffffffff; } else { set_ipv6_addr = 1; bcopy(&$1, &$$.a, sizeof($$.a)); fill6bits(128, (u_32_t *)&$$.m); } yyexpectaddr = 0; } | hostname { yyresetdict(); if (use_inet6 == 0) $$.a.in4 = $1.in4; else { set_ipv6_addr = 1; bcopy(&$1, &$$.a, sizeof($$.a)); } } maskspace { yysetdict(maskwords); } mask { if (use_inet6 == 0) { $$.m.in4_addr = $5.in4.s_addr; $$.a.in4_addr &= $5.in4.s_addr; } else bcopy(&$5, &$$.m, sizeof($$.m)); yyresetdict(); yyexpectaddr = 0; } | YY_IPV6 { set_ipv6_addr = 1; bcopy(&$1, &$$.a, sizeof($$.a)); fill6bits(128, (u_32_t *)&$$.m); yyresetdict(); yyexpectaddr = 0; } | YY_IPV6 { set_ipv6_addr = 1; yyresetdict(); bcopy(&$1, &$$.a, sizeof($$.a)); } maskspace { yysetdict(maskwords); } mask { bcopy(&$5, &$$.m, sizeof($$.m)); yyresetdict(); yyexpectaddr = 0; } ; maskspace: '/' | IPFY_MASK ; mask: ipv4 { $$.in4 = $1; } | YY_HEX { $$.in4.s_addr = htonl($1); } | YY_NUMBER { if ((use_inet6 == 0) && ($1 <= 32)) ntomask(4, $1, (u_32_t *)&$$.in4); else if ((use_inet6 != 0) && ($1 <= 128)) ntomask(6, $1, $$.i6); else { yyerror("Bad value specified for netmask"); return 0; } } | IPFY_BROADCAST { if (ifpflag == FRI_DYNAMIC) { bzero(&$$, sizeof($$)); ifpflag = FRI_BROADCAST; } else YYERROR; } | IPFY_NETWORK { if (ifpflag == FRI_DYNAMIC) { bzero(&$$, sizeof($$)); ifpflag = FRI_NETWORK; } else YYERROR; } | IPFY_NETMASKED { if (ifpflag == FRI_DYNAMIC) { bzero(&$$, sizeof($$)); ifpflag = FRI_NETMASKED; } else YYERROR; } | IPFY_PEER { if (ifpflag == FRI_DYNAMIC) { bzero(&$$, sizeof($$)); ifpflag = FRI_PEERADDR; } else YYERROR; } ; hostname: ipv4 { $$.in4 = $1; } | YY_NUMBER { $$.in4.s_addr = $1; } | YY_HEX { $$.in4.s_addr = $1; } | YY_STR { if (lookuphost($1, &$$) == 1) free($1); else { free($1); if (ifpflag != FRI_DYNAMIC) yyerror("Unknown hostname"); } } ; addrlist: ipaddr { $$ = newalist(NULL); if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($1.a), &($$->al_i6addr), sizeof($1.a)); bcopy(&($1.m), &($$->al_i6mask), sizeof($1.m)); } | addrlist ',' ipaddr { $$ = newalist($1); if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($3.a), &($$->al_i6addr), sizeof($3.a)); bcopy(&($3.m), &($$->al_i6mask), sizeof($3.m)); } ; pool: IPFY_POOL { yyexpectaddr = 0; yycont = NULL; yyresetdict(); } ; hash: IPFY_HASH { yyexpectaddr = 0; yycont = NULL; yyresetdict(); } ; poollist: ipaddr { $$ = newalist(NULL); if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($1.a), &($$->al_i6addr), sizeof($1.a)); bcopy(&($1.m), &($$->al_i6mask), sizeof($1.m)); } | '!' ipaddr { $$ = newalist(NULL); $$->al_not = 1; if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($2.a), &($$->al_i6addr), sizeof($2.a)); bcopy(&($2.m), &($$->al_i6mask), sizeof($2.m)); } | poollist ',' ipaddr { $$ = newalist($1); if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($3.a), &($$->al_i6addr), sizeof($3.a)); bcopy(&($3.m), &($$->al_i6mask), sizeof($3.m)); } | poollist ',' '!' ipaddr { $$ = newalist($1); $$->al_not = 1; if (set_ipv6_addr) $$->al_family = AF_INET6; else $$->al_family = AF_INET; set_ipv6_addr = 0; bcopy(&($4.a), &($$->al_i6addr), sizeof($4.a)); bcopy(&($4.m), &($$->al_i6mask), sizeof($4.m)); } ; port: IPFY_PORT { yyexpectaddr = 0; yycont = NULL; } ; portc: port compare { $$ = $2; yysetdict(NULL); } | porteq { $$ = $1; } ; porteq: port '=' { $$ = FR_EQUAL; yysetdict(NULL); } ; portr: IPFY_PORT { yyexpectaddr = 0; yycont = NULL; yysetdict(NULL); } ; portcomp: portc portnum { $$.pc = $1; $$.p1 = $2; yyresetdict(); } ; portrange: portr portnum range portnum { $$.p1 = $2; $$.pc = $3; $$.p2 = $4; yyresetdict(); } ; icmp: | itype icode ; itype: seticmptype icmptype { DOALL(fr->fr_icmp = htons($2 << 8); fr->fr_icmpm = htons(0xff00);); yyresetdict(); } | seticmptype lstart typelist lend { yyresetdict(); } ; seticmptype: IPFY_ICMPTYPE { setipftype(); yysetdict(icmptypewords); } ; icode: | seticmpcode icmpcode { DOALL(fr->fr_icmp |= htons($2); fr->fr_icmpm |= htons(0xff);); yyresetdict(); } | seticmpcode lstart codelist lend { yyresetdict(); } ; seticmpcode: IPFY_ICMPCODE { yysetdict(icmpcodewords); } ; typelist: icmptype { DOREM(fr->fr_icmp = htons($1 << 8); fr->fr_icmpm = htons(0xff00);) } | typelist lmore icmptype { DOREM(fr->fr_icmp = htons($3 << 8); fr->fr_icmpm = htons(0xff00);) } ; codelist: icmpcode { DOREM(fr->fr_icmp |= htons($1); fr->fr_icmpm |= htons(0xff);) } | codelist lmore icmpcode { DOREM(fr->fr_icmp |= htons($3); fr->fr_icmpm |= htons(0xff);) } ; age: | IPFY_AGE YY_NUMBER { DOALL(fr->fr_age[0] = $2; \ fr->fr_age[1] = $2;) } | IPFY_AGE YY_NUMBER '/' YY_NUMBER { DOALL(fr->fr_age[0] = $2; \ fr->fr_age[1] = $4;) } ; keep: | IPFY_KEEP keepstate | IPFY_KEEP keepfrag | IPFY_KEEP keepstate IPFY_KEEP keepfrag | IPFY_KEEP keepfrag IPFY_KEEP keepstate ; keepstate: IPFY_STATE stateoptlist { DOALL(fr->fr_flags |= FR_KEEPSTATE;)} ; keepfrag: IPFY_FRAGS fragoptlist { DOALL(fr->fr_flags |= FR_KEEPFRAG;) } | IPFY_FRAG fragoptlist { DOALL(fr->fr_flags |= FR_KEEPFRAG;) } ; fragoptlist: | '(' fragopts ')' ; fragopts: fragopt lanother fragopts | fragopt ; fragopt: IPFY_STRICT { DOALL(fr->fr_flags |= FR_FRSTRICT;) } ; stateoptlist: | '(' stateopts ')' ; stateopts: stateopt lanother stateopts | stateopt ; stateopt: IPFY_LIMIT YY_NUMBER { DOALL(fr->fr_statemax = $2;) } | IPFY_STRICT { DOALL(if (fr->fr_proto != IPPROTO_TCP) { \ YYERROR; \ } else \ fr->fr_flags |= FR_STSTRICT;) } | IPFY_NEWISN { DOALL(if (fr->fr_proto != IPPROTO_TCP) { \ YYERROR; \ } else \ fr->fr_flags |= FR_NEWISN;) } | IPFY_NOICMPERR { DOALL(fr->fr_flags |= FR_NOICMPERR;) } | IPFY_SYNC { DOALL(fr->fr_flags |= FR_STATESYNC;) } ; portnum: servicename { if (getport(frc, $1, &($$)) == -1) yyerror("service unknown"); else $$ = ntohs($$); free($1); } | YY_NUMBER { if ($1 > 65535) /* Unsigned */ yyerror("invalid port number"); else $$ = $1; } ; withlist: withopt | withlist withopt | withlist ',' withopt ; withopt: opttype { DOALL(fr->fr_flx |= $1; fr->fr_mflx |= $1;) } | notwith opttype { DOALL(fr->fr_mflx |= $2;) } | ipopt ipopts { yyresetdict(); } | notwith ipopt ipopts { yyresetdict(); } | startv6hdrs ipv6hdrs { yyresetdict(); } ; ipopt: IPFY_OPT { yysetdict(ipv4optwords); } ; startv6hdrs: IPF6_V6HDRS { if (use_inet6 == 0) yyerror("only available with IPv6"); yysetdict(ipv6optwords); } ; notwith: IPFY_NOT { nowith = 1; } | IPFY_NO { nowith = 1; } ; opttype: IPFY_IPOPTS { $$ = FI_OPTIONS; } | IPFY_SHORT { $$ = FI_SHORT; } | IPFY_NAT { $$ = FI_NATED; } | IPFY_BAD { $$ = FI_BAD; } | IPFY_BADNAT { $$ = FI_BADNAT; } | IPFY_BADSRC { $$ = FI_BADSRC; } | IPFY_LOWTTL { $$ = FI_LOWTTL; } | IPFY_FRAG { $$ = FI_FRAG; } | IPFY_FRAGBODY { $$ = FI_FRAGBODY; } | IPFY_FRAGS { $$ = FI_FRAG; } | IPFY_MBCAST { $$ = FI_MBCAST; } | IPFY_MULTICAST { $$ = FI_MULTICAST; } | IPFY_BROADCAST { $$ = FI_BROADCAST; } | IPFY_STATE { $$ = FI_STATE; } | IPFY_OOW { $$ = FI_OOW; } ; ipopts: optlist { DOALL(fr->fr_mip.fi_optmsk |= $1; if (!nowith) fr->fr_ip.fi_optmsk |= $1;) } ; optlist: opt { $$ |= $1; } | optlist ',' opt { $$ |= $1 | $3; } ; ipv6hdrs: ipv6hdrlist { DOALL(fr->fr_mip.fi_optmsk |= $1; if (!nowith) fr->fr_ip.fi_optmsk |= $1;) } ; ipv6hdrlist: ipv6hdr { $$ |= $1; } | ipv6hdrlist ',' ipv6hdr { $$ |= $1 | $3; } ; secname: seclevel { $$ |= $1; } | secname ',' seclevel { $$ |= $1 | $3; } ; seclevel: IPFY_SEC_UNC { $$ = secbit(IPSO_CLASS_UNCL); } | IPFY_SEC_CONF { $$ = secbit(IPSO_CLASS_CONF); } | IPFY_SEC_RSV1 { $$ = secbit(IPSO_CLASS_RES1); } | IPFY_SEC_RSV2 { $$ = secbit(IPSO_CLASS_RES2); } | IPFY_SEC_RSV3 { $$ = secbit(IPSO_CLASS_RES3); } | IPFY_SEC_RSV4 { $$ = secbit(IPSO_CLASS_RES4); } | IPFY_SEC_SEC { $$ = secbit(IPSO_CLASS_SECR); } | IPFY_SEC_TS { $$ = secbit(IPSO_CLASS_TOPS); } ; icmptype: YY_NUMBER { $$ = $1; } | IPFY_ICMPT_UNR { $$ = ICMP_UNREACH; } | IPFY_ICMPT_ECHO { $$ = ICMP_ECHO; } | IPFY_ICMPT_ECHOR { $$ = ICMP_ECHOREPLY; } | IPFY_ICMPT_SQUENCH { $$ = ICMP_SOURCEQUENCH; } | IPFY_ICMPT_REDIR { $$ = ICMP_REDIRECT; } | IPFY_ICMPT_TIMEX { $$ = ICMP_TIMXCEED; } | IPFY_ICMPT_PARAMP { $$ = ICMP_PARAMPROB; } | IPFY_ICMPT_TIMEST { $$ = ICMP_TSTAMP; } | IPFY_ICMPT_TIMESTREP { $$ = ICMP_TSTAMPREPLY; } | IPFY_ICMPT_INFOREQ { $$ = ICMP_IREQ; } | IPFY_ICMPT_INFOREP { $$ = ICMP_IREQREPLY; } | IPFY_ICMPT_MASKREQ { $$ = ICMP_MASKREQ; } | IPFY_ICMPT_MASKREP { $$ = ICMP_MASKREPLY; } | IPFY_ICMPT_ROUTERAD { $$ = ICMP_ROUTERADVERT; } | IPFY_ICMPT_ROUTERSOL { $$ = ICMP_ROUTERSOLICIT; } ; icmpcode: YY_NUMBER { $$ = $1; } | IPFY_ICMPC_NETUNR { $$ = ICMP_UNREACH_NET; } | IPFY_ICMPC_HSTUNR { $$ = ICMP_UNREACH_HOST; } | IPFY_ICMPC_PROUNR { $$ = ICMP_UNREACH_PROTOCOL; } | IPFY_ICMPC_PORUNR { $$ = ICMP_UNREACH_PORT; } | IPFY_ICMPC_NEEDF { $$ = ICMP_UNREACH_NEEDFRAG; } | IPFY_ICMPC_SRCFAIL { $$ = ICMP_UNREACH_SRCFAIL; } | IPFY_ICMPC_NETUNK { $$ = ICMP_UNREACH_NET_UNKNOWN; } | IPFY_ICMPC_HSTUNK { $$ = ICMP_UNREACH_HOST_UNKNOWN; } | IPFY_ICMPC_ISOLATE { $$ = ICMP_UNREACH_ISOLATED; } | IPFY_ICMPC_NETPRO { $$ = ICMP_UNREACH_NET_PROHIB; } | IPFY_ICMPC_HSTPRO { $$ = ICMP_UNREACH_HOST_PROHIB; } | IPFY_ICMPC_NETTOS { $$ = ICMP_UNREACH_TOSNET; } | IPFY_ICMPC_HSTTOS { $$ = ICMP_UNREACH_TOSHOST; } | IPFY_ICMPC_FLTPRO { $$ = ICMP_UNREACH_ADMIN_PROHIBIT; } | IPFY_ICMPC_HSTPRE { $$ = 14; } | IPFY_ICMPC_CUTPRE { $$ = 15; } ; opt: IPFY_IPOPT_NOP { $$ = getoptbyvalue(IPOPT_NOP); } | IPFY_IPOPT_RR { $$ = getoptbyvalue(IPOPT_RR); } | IPFY_IPOPT_ZSU { $$ = getoptbyvalue(IPOPT_ZSU); } | IPFY_IPOPT_MTUP { $$ = getoptbyvalue(IPOPT_MTUP); } | IPFY_IPOPT_MTUR { $$ = getoptbyvalue(IPOPT_MTUR); } | IPFY_IPOPT_ENCODE { $$ = getoptbyvalue(IPOPT_ENCODE); } | IPFY_IPOPT_TS { $$ = getoptbyvalue(IPOPT_TS); } | IPFY_IPOPT_TR { $$ = getoptbyvalue(IPOPT_TR); } | IPFY_IPOPT_SEC { $$ = getoptbyvalue(IPOPT_SECURITY); } | IPFY_IPOPT_LSRR { $$ = getoptbyvalue(IPOPT_LSRR); } | IPFY_IPOPT_ESEC { $$ = getoptbyvalue(IPOPT_E_SEC); } | IPFY_IPOPT_CIPSO { $$ = getoptbyvalue(IPOPT_CIPSO); } | IPFY_IPOPT_SATID { $$ = getoptbyvalue(IPOPT_SATID); } | IPFY_IPOPT_SSRR { $$ = getoptbyvalue(IPOPT_SSRR); } | IPFY_IPOPT_ADDEXT { $$ = getoptbyvalue(IPOPT_ADDEXT); } | IPFY_IPOPT_VISA { $$ = getoptbyvalue(IPOPT_VISA); } | IPFY_IPOPT_IMITD { $$ = getoptbyvalue(IPOPT_IMITD); } | IPFY_IPOPT_EIP { $$ = getoptbyvalue(IPOPT_EIP); } | IPFY_IPOPT_FINN { $$ = getoptbyvalue(IPOPT_FINN); } | IPFY_IPOPT_DPS { $$ = getoptbyvalue(IPOPT_DPS); } | IPFY_IPOPT_SDB { $$ = getoptbyvalue(IPOPT_SDB); } | IPFY_IPOPT_NSAPA { $$ = getoptbyvalue(IPOPT_NSAPA); } | IPFY_IPOPT_RTRALRT { $$ = getoptbyvalue(IPOPT_RTRALRT); } | IPFY_IPOPT_UMP { $$ = getoptbyvalue(IPOPT_UMP); } | setsecclass secname { DOALL(fr->fr_mip.fi_secmsk |= $2; if (!nowith) fr->fr_ip.fi_secmsk |= $2;) $$ = 0; yyresetdict(); } ; setsecclass: IPFY_SECCLASS { yysetdict(ipv4secwords); } ; ipv6hdr: IPFY_AH { $$ = getv6optbyvalue(IPPROTO_AH); } | IPFY_IPV6OPT_DSTOPTS { $$ = getv6optbyvalue(IPPROTO_DSTOPTS); } | IPFY_ESP { $$ = getv6optbyvalue(IPPROTO_ESP); } | IPFY_IPV6OPT_HOPOPTS { $$ = getv6optbyvalue(IPPROTO_HOPOPTS); } | IPFY_IPV6OPT_IPV6 { $$ = getv6optbyvalue(IPPROTO_IPV6); } | IPFY_IPV6OPT_NONE { $$ = getv6optbyvalue(IPPROTO_NONE); } | IPFY_IPV6OPT_ROUTING { $$ = getv6optbyvalue(IPPROTO_ROUTING); } | IPFY_FRAG { $$ = getv6optbyvalue(IPPROTO_FRAGMENT); } ; level: IPFY_LEVEL { setsyslog(); } ; loglevel: priority { fr->fr_loglevel = LOG_LOCAL0|$1; } | facility '.' priority { fr->fr_loglevel = $1 | $3; } ; facility: IPFY_FAC_KERN { $$ = LOG_KERN; } | IPFY_FAC_USER { $$ = LOG_USER; } | IPFY_FAC_MAIL { $$ = LOG_MAIL; } | IPFY_FAC_DAEMON { $$ = LOG_DAEMON; } | IPFY_FAC_AUTH { $$ = LOG_AUTH; } | IPFY_FAC_SYSLOG { $$ = LOG_SYSLOG; } | IPFY_FAC_LPR { $$ = LOG_LPR; } | IPFY_FAC_NEWS { $$ = LOG_NEWS; } | IPFY_FAC_UUCP { $$ = LOG_UUCP; } | IPFY_FAC_CRON { $$ = LOG_CRON; } | IPFY_FAC_FTP { $$ = LOG_FTP; } | IPFY_FAC_AUTHPRIV { $$ = LOG_AUTHPRIV; } | IPFY_FAC_AUDIT { $$ = LOG_AUDIT; } | IPFY_FAC_LFMT { $$ = LOG_LFMT; } | IPFY_FAC_LOCAL0 { $$ = LOG_LOCAL0; } | IPFY_FAC_LOCAL1 { $$ = LOG_LOCAL1; } | IPFY_FAC_LOCAL2 { $$ = LOG_LOCAL2; } | IPFY_FAC_LOCAL3 { $$ = LOG_LOCAL3; } | IPFY_FAC_LOCAL4 { $$ = LOG_LOCAL4; } | IPFY_FAC_LOCAL5 { $$ = LOG_LOCAL5; } | IPFY_FAC_LOCAL6 { $$ = LOG_LOCAL6; } | IPFY_FAC_LOCAL7 { $$ = LOG_LOCAL7; } | IPFY_FAC_SECURITY { $$ = LOG_SECURITY; } ; priority: IPFY_PRI_EMERG { $$ = LOG_EMERG; } | IPFY_PRI_ALERT { $$ = LOG_ALERT; } | IPFY_PRI_CRIT { $$ = LOG_CRIT; } | IPFY_PRI_ERR { $$ = LOG_ERR; } | IPFY_PRI_WARN { $$ = LOG_WARNING; } | IPFY_PRI_NOTICE { $$ = LOG_NOTICE; } | IPFY_PRI_INFO { $$ = LOG_INFO; } | IPFY_PRI_DEBUG { $$ = LOG_DEBUG; } ; compare: YY_CMP_EQ { $$ = FR_EQUAL; } | YY_CMP_NE { $$ = FR_NEQUAL; } | YY_CMP_LT { $$ = FR_LESST; } | YY_CMP_LE { $$ = FR_LESSTE; } | YY_CMP_GT { $$ = FR_GREATERT; } | YY_CMP_GE { $$ = FR_GREATERTE; } ; range: YY_RANGE_IN { $$ = FR_INRANGE; } | YY_RANGE_OUT { $$ = FR_OUTRANGE; } | ':' { $$ = FR_INCRANGE; } ; servicename: YY_STR { $$ = $1; } ; interfacename: YY_STR { $$ = $1; } | YY_STR ':' YY_NUMBER { $$ = $1; fprintf(stderr, "%d: Logical interface %s:%d unsupported, " "use the physical interface %s instead.\n", yylineNum, $1, $3, $1); } ; name: YY_STR { $$ = $1; } ; ipv4_16: YY_NUMBER '.' YY_NUMBER { if ($1 > 255 || $3 > 255) { yyerror("Invalid octet string for IP address"); return 0; } $$.s_addr = ($1 << 24) | ($3 << 16); $$.s_addr = htonl($$.s_addr); } ; ipv4_24: ipv4_16 '.' YY_NUMBER { if ($3 > 255) { yyerror("Invalid octet string for IP address"); return 0; } $$.s_addr |= htonl($3 << 8); } ; ipv4: ipv4_24 '.' YY_NUMBER { if ($3 > 255) { yyerror("Invalid octet string for IP address"); return 0; } $$.s_addr |= htonl($3); } | ipv4_24 | ipv4_16 ; %% static struct wordtab ipfwords[95] = { { "age", IPFY_AGE }, { "ah", IPFY_AH }, { "all", IPFY_ALL }, { "and", IPFY_AND }, { "auth", IPFY_AUTH }, { "bad", IPFY_BAD }, { "bad-nat", IPFY_BADNAT }, { "bad-src", IPFY_BADSRC }, { "bcast", IPFY_BROADCAST }, { "block", IPFY_BLOCK }, { "body", IPFY_BODY }, { "bpf-v4", IPFY_BPFV4 }, #ifdef USE_INET6 { "bpf-v6", IPFY_BPFV6 }, #endif { "call", IPFY_CALL }, { "code", IPFY_ICMPCODE }, { "count", IPFY_COUNT }, { "dup-to", IPFY_DUPTO }, { "eq", YY_CMP_EQ }, { "esp", IPFY_ESP }, { "fastroute", IPFY_FROUTE }, { "first", IPFY_FIRST }, { "flags", IPFY_FLAGS }, { "frag", IPFY_FRAG }, { "frag-body", IPFY_FRAGBODY }, { "frags", IPFY_FRAGS }, { "from", IPFY_FROM }, { "ge", YY_CMP_GE }, { "group", IPFY_GROUP }, { "gt", YY_CMP_GT }, { "head", IPFY_HEAD }, { "icmp", IPFY_ICMP }, { "icmp-type", IPFY_ICMPTYPE }, { "in", IPFY_IN }, { "in-via", IPFY_INVIA }, { "ipopt", IPFY_IPOPTS }, { "ipopts", IPFY_IPOPTS }, { "keep", IPFY_KEEP }, { "le", YY_CMP_LE }, { "level", IPFY_LEVEL }, { "limit", IPFY_LIMIT }, { "log", IPFY_LOG }, { "lowttl", IPFY_LOWTTL }, { "lt", YY_CMP_LT }, { "mask", IPFY_MASK }, { "match-tag", IPFY_MATCHTAG }, { "mbcast", IPFY_MBCAST }, { "multicast", IPFY_MULTICAST }, { "nat", IPFY_NAT }, { "ne", YY_CMP_NE }, { "net", IPFY_NETWORK }, { "newisn", IPFY_NEWISN }, { "no", IPFY_NO }, { "no-icmp-err", IPFY_NOICMPERR }, { "now", IPFY_NOW }, { "not", IPFY_NOT }, { "oow", IPFY_OOW }, { "on", IPFY_ON }, { "opt", IPFY_OPT }, { "or-block", IPFY_ORBLOCK }, { "out", IPFY_OUT }, { "out-via", IPFY_OUTVIA }, { "pass", IPFY_PASS }, { "port", IPFY_PORT }, { "pps", IPFY_PPS }, { "preauth", IPFY_PREAUTH }, { "proto", IPFY_PROTO }, { "quick", IPFY_QUICK }, { "reply-to", IPFY_REPLY_TO }, { "return-icmp", IPFY_RETICMP }, { "return-icmp-as-dest", IPFY_RETICMPASDST }, { "return-rst", IPFY_RETRST }, { "route-to", IPFY_ROUTETO }, { "sec-class", IPFY_SECCLASS }, { "set-tag", IPFY_SETTAG }, { "skip", IPFY_SKIP }, { "short", IPFY_SHORT }, { "state", IPFY_STATE }, { "state-age", IPFY_AGE }, { "strict", IPFY_STRICT }, { "sync", IPFY_SYNC }, { "tcp", IPFY_TCP }, { "tcp-udp", IPFY_TCPUDP }, { "tos", IPFY_TOS }, { "to", IPFY_TO }, { "ttl", IPFY_TTL }, { "udp", IPFY_UDP }, { "v6hdrs", IPF6_V6HDRS }, { "with", IPFY_WITH }, { NULL, 0 } }; static struct wordtab addrwords[4] = { { "any", IPFY_ANY }, { "hash", IPFY_HASH }, { "pool", IPFY_POOL }, { NULL, 0 } }; static struct wordtab maskwords[5] = { { "broadcast", IPFY_BROADCAST }, { "netmasked", IPFY_NETMASKED }, { "network", IPFY_NETWORK }, { "peer", IPFY_PEER }, { NULL, 0 } }; static struct wordtab icmptypewords[16] = { { "echo", IPFY_ICMPT_ECHO }, { "echorep", IPFY_ICMPT_ECHOR }, { "inforeq", IPFY_ICMPT_INFOREQ }, { "inforep", IPFY_ICMPT_INFOREP }, { "maskrep", IPFY_ICMPT_MASKREP }, { "maskreq", IPFY_ICMPT_MASKREQ }, { "paramprob", IPFY_ICMPT_PARAMP }, { "redir", IPFY_ICMPT_REDIR }, { "unreach", IPFY_ICMPT_UNR }, { "routerad", IPFY_ICMPT_ROUTERAD }, { "routersol", IPFY_ICMPT_ROUTERSOL }, { "squench", IPFY_ICMPT_SQUENCH }, { "timest", IPFY_ICMPT_TIMEST }, { "timestrep", IPFY_ICMPT_TIMESTREP }, { "timex", IPFY_ICMPT_TIMEX }, { NULL, 0 }, }; static struct wordtab icmpcodewords[17] = { { "cutoff-preced", IPFY_ICMPC_CUTPRE }, { "filter-prohib", IPFY_ICMPC_FLTPRO }, { "isolate", IPFY_ICMPC_ISOLATE }, { "needfrag", IPFY_ICMPC_NEEDF }, { "net-prohib", IPFY_ICMPC_NETPRO }, { "net-tos", IPFY_ICMPC_NETTOS }, { "host-preced", IPFY_ICMPC_HSTPRE }, { "host-prohib", IPFY_ICMPC_HSTPRO }, { "host-tos", IPFY_ICMPC_HSTTOS }, { "host-unk", IPFY_ICMPC_HSTUNK }, { "host-unr", IPFY_ICMPC_HSTUNR }, { "net-unk", IPFY_ICMPC_NETUNK }, { "net-unr", IPFY_ICMPC_NETUNR }, { "port-unr", IPFY_ICMPC_PORUNR }, { "proto-unr", IPFY_ICMPC_PROUNR }, { "srcfail", IPFY_ICMPC_SRCFAIL }, { NULL, 0 }, }; static struct wordtab ipv4optwords[25] = { { "addext", IPFY_IPOPT_ADDEXT }, { "cipso", IPFY_IPOPT_CIPSO }, { "dps", IPFY_IPOPT_DPS }, { "e-sec", IPFY_IPOPT_ESEC }, { "eip", IPFY_IPOPT_EIP }, { "encode", IPFY_IPOPT_ENCODE }, { "finn", IPFY_IPOPT_FINN }, { "imitd", IPFY_IPOPT_IMITD }, { "lsrr", IPFY_IPOPT_LSRR }, { "mtup", IPFY_IPOPT_MTUP }, { "mtur", IPFY_IPOPT_MTUR }, { "nop", IPFY_IPOPT_NOP }, { "nsapa", IPFY_IPOPT_NSAPA }, { "rr", IPFY_IPOPT_RR }, { "rtralrt", IPFY_IPOPT_RTRALRT }, { "satid", IPFY_IPOPT_SATID }, { "sdb", IPFY_IPOPT_SDB }, { "sec", IPFY_IPOPT_SEC }, { "ssrr", IPFY_IPOPT_SSRR }, { "tr", IPFY_IPOPT_TR }, { "ts", IPFY_IPOPT_TS }, { "ump", IPFY_IPOPT_UMP }, { "visa", IPFY_IPOPT_VISA }, { "zsu", IPFY_IPOPT_ZSU }, { NULL, 0 }, }; static struct wordtab ipv4secwords[9] = { { "confid", IPFY_SEC_CONF }, { "reserv-1", IPFY_SEC_RSV1 }, { "reserv-2", IPFY_SEC_RSV2 }, { "reserv-3", IPFY_SEC_RSV3 }, { "reserv-4", IPFY_SEC_RSV4 }, { "secret", IPFY_SEC_SEC }, { "topsecret", IPFY_SEC_TS }, { "unclass", IPFY_SEC_UNC }, { NULL, 0 }, }; static struct wordtab ipv6optwords[8] = { { "dstopts", IPFY_IPV6OPT_DSTOPTS }, { "esp", IPFY_ESP }, { "frag", IPFY_FRAG }, { "hopopts", IPFY_IPV6OPT_HOPOPTS }, { "ipv6", IPFY_IPV6OPT_IPV6 }, { "none", IPFY_IPV6OPT_NONE }, { "routing", IPFY_IPV6OPT_ROUTING }, { NULL, 0 }, }; static struct wordtab logwords[33] = { { "kern", IPFY_FAC_KERN }, { "user", IPFY_FAC_USER }, { "mail", IPFY_FAC_MAIL }, { "daemon", IPFY_FAC_DAEMON }, { "auth", IPFY_FAC_AUTH }, { "syslog", IPFY_FAC_SYSLOG }, { "lpr", IPFY_FAC_LPR }, { "news", IPFY_FAC_NEWS }, { "uucp", IPFY_FAC_UUCP }, { "cron", IPFY_FAC_CRON }, { "ftp", IPFY_FAC_FTP }, { "authpriv", IPFY_FAC_AUTHPRIV }, { "audit", IPFY_FAC_AUDIT }, { "logalert", IPFY_FAC_LFMT }, { "console", IPFY_FAC_CONSOLE }, { "security", IPFY_FAC_SECURITY }, { "local0", IPFY_FAC_LOCAL0 }, { "local1", IPFY_FAC_LOCAL1 }, { "local2", IPFY_FAC_LOCAL2 }, { "local3", IPFY_FAC_LOCAL3 }, { "local4", IPFY_FAC_LOCAL4 }, { "local5", IPFY_FAC_LOCAL5 }, { "local6", IPFY_FAC_LOCAL6 }, { "local7", IPFY_FAC_LOCAL7 }, { "emerg", IPFY_PRI_EMERG }, { "alert", IPFY_PRI_ALERT }, { "crit", IPFY_PRI_CRIT }, { "err", IPFY_PRI_ERR }, { "warn", IPFY_PRI_WARN }, { "notice", IPFY_PRI_NOTICE }, { "info", IPFY_PRI_INFO }, { "debug", IPFY_PRI_DEBUG }, { NULL, 0 }, }; int ipf_parsefile(fd, addfunc, iocfuncs, filename) int fd; addfunc_t addfunc; ioctlfunc_t *iocfuncs; char *filename; { FILE *fp = NULL; char *s; yylineNum = 1; yysettab(ipfwords); s = getenv("YYDEBUG"); if (s != NULL) yydebug = atoi(s); else yydebug = 0; if (strcmp(filename, "-")) { fp = fopen(filename, "r"); if (fp == NULL) { fprintf(stderr, "fopen(%s) failed: %s\n", filename, STRERROR(errno)); return -1; } } else fp = stdin; while (ipf_parsesome(fd, addfunc, iocfuncs, fp) == 1) ; if (fp != NULL) fclose(fp); return 0; } int ipf_parsesome(fd, addfunc, iocfuncs, fp) int fd; addfunc_t addfunc; ioctlfunc_t *iocfuncs; FILE *fp; { char *s; int i; ipffd = fd; for (i = 0; i <= IPL_LOGMAX; i++) ipfioctl[i] = iocfuncs[i]; ipfaddfunc = addfunc; if (feof(fp)) return 0; i = fgetc(fp); if (i == EOF) return 0; if (ungetc(i, fp) == 0) return 0; if (feof(fp)) return 0; s = getenv("YYDEBUG"); if (s != NULL) yydebug = atoi(s); else yydebug = 0; yyin = fp; yyparse(); return 1; } static void newrule() { frentry_t *frn; frn = (frentry_t *)calloc(1, sizeof(frentry_t)); if (frn == NULL) yyerror("sorry, out of memory"); for (fr = frtop; fr != NULL && fr->fr_next != NULL; fr = fr->fr_next) ; if (fr != NULL) fr->fr_next = frn; if (frtop == NULL) frtop = frn; fr = frn; frc = frn; fr->fr_loglevel = 0xffff; fr->fr_isc = (void *)-1; fr->fr_logtag = FR_NOLOGTAG; fr->fr_type = FR_T_NONE; if (use_inet6 != 0) fr->fr_v = 6; else fr->fr_v = 4; nrules = 1; } static void setipftype() { for (fr = frc; fr != NULL; fr = fr->fr_next) { if (fr->fr_type == FR_T_NONE) { fr->fr_type = FR_T_IPF; fr->fr_data = (void *)calloc(sizeof(fripf_t), 1); if (fr->fr_data == NULL) yyerror("sorry, out of memory"); fr->fr_dsize = sizeof(fripf_t); fr->fr_ip.fi_v = frc->fr_v; fr->fr_mip.fi_v = 0xf; fr->fr_ipf->fri_sifpidx = -1; fr->fr_ipf->fri_difpidx = -1; } if (fr->fr_type != FR_T_IPF) { fprintf(stderr, "IPF Type not set\n"); } } } static frentry_t *addrule() { frentry_t *f, *f1, *f2; int count; for (f2 = frc; f2->fr_next != NULL; f2 = f2->fr_next) ; count = nrules; if (count == 0) { f = (frentry_t *)calloc(sizeof(*f), 1); if (f == NULL) yyerror("sorry, out of memory"); added++; f2->fr_next = f; bcopy(f2, f, sizeof(*f)); if (f2->fr_caddr != NULL) { f->fr_caddr = malloc(f->fr_dsize); if (f->fr_caddr == NULL) yyerror("sorry, out of memory"); bcopy(f2->fr_caddr, f->fr_caddr, f->fr_dsize); } f->fr_next = NULL; return f; } f = f2; for (f1 = frc; count > 0; count--, f1 = f1->fr_next) { f->fr_next = (frentry_t *)calloc(sizeof(*f), 1); if (f->fr_next == NULL) yyerror("sorry, out of memory"); added++; f = f->fr_next; bcopy(f1, f, sizeof(*f)); f->fr_next = NULL; if (f->fr_caddr != NULL) { f->fr_caddr = malloc(f->fr_dsize); if (f->fr_caddr == NULL) yyerror("sorry, out of memory"); bcopy(f1->fr_caddr, f->fr_caddr, f->fr_dsize); } } return f2->fr_next; } static u_32_t lookuphost(name, addr) char *name; i6addr_t *addr; { int i; hashed = 0; pooled = 0; dynamic = -1; for (i = 0; i < 4; i++) { if (strncmp(name, frc->fr_ifnames[i], sizeof(frc->fr_ifnames[i])) == 0) { ifpflag = FRI_DYNAMIC; dynamic = i; return 0; } } if (gethost(name, addr, use_inet6) == -1) { fprintf(stderr, "unknown name \"%s\"\n", name); return 0; } return 1; } static void dobpf(v, phrase) int v; char *phrase; { #ifdef IPFILTER_BPF struct bpf_program bpf; struct pcap *p; #endif fakebpf_t *fb; u_32_t l; char *s; int i; for (fr = frc; fr != NULL; fr = fr->fr_next) { if (fr->fr_type != FR_T_NONE) { fprintf(stderr, "cannot mix IPF and BPF matching\n"); return; } fr->fr_v = v; fr->fr_type = FR_T_BPFOPC; if (!strncmp(phrase, "\"0x", 2)) { phrase++; fb = malloc(sizeof(fakebpf_t)); if (fb == NULL) yyerror("sorry, out of memory"); for (i = 0, s = strtok(phrase, " \r\n\t"); s != NULL; s = strtok(NULL, " \r\n\t"), i++) { fb = realloc(fb, (i / 4 + 1) * sizeof(*fb)); if (fb == NULL) yyerror("sorry, out of memory"); l = (u_32_t)strtol(s, NULL, 0); switch (i & 3) { case 0 : fb[i / 4].fb_c = l & 0xffff; break; case 1 : fb[i / 4].fb_t = l & 0xff; break; case 2 : fb[i / 4].fb_f = l & 0xff; break; case 3 : fb[i / 4].fb_k = l; break; } } if ((i & 3) != 0) { fprintf(stderr, "Odd number of bytes in BPF code\n"); exit(1); } i--; fr->fr_dsize = (i / 4 + 1) * sizeof(*fb); fr->fr_data = fb; return; } #ifdef IPFILTER_BPF bzero((char *)&bpf, sizeof(bpf)); p = pcap_open_dead(DLT_RAW, 1); if (!p) { fprintf(stderr, "pcap_open_dead failed\n"); return; } if (pcap_compile(p, &bpf, phrase, 1, 0xffffffff)) { pcap_perror(p, "ipf"); pcap_close(p); fprintf(stderr, "pcap parsing failed (%s)\n", phrase); return; } pcap_close(p); fr->fr_dsize = bpf.bf_len * sizeof(struct bpf_insn); fr->fr_data = malloc(fr->fr_dsize); if (fr->fr_data == NULL) yyerror("sorry, out of memory"); bcopy((char *)bpf.bf_insns, fr->fr_data, fr->fr_dsize); if (!bpf_validate(fr->fr_data, bpf.bf_len)) { fprintf(stderr, "BPF validation failed\n"); return; } #endif } #ifdef IPFILTER_BPF if (opts & OPT_DEBUG) bpf_dump(&bpf, 0); #else fprintf(stderr, "BPF filter expressions not supported\n"); exit(1); #endif } static void resetaddr() { hashed = 0; pooled = 0; dynamic = -1; } static alist_t *newalist(ptr) alist_t *ptr; { alist_t *al; al = malloc(sizeof(*al)); if (al == NULL) return NULL; al->al_not = 0; al->al_next = ptr; return al; } static int makepool(list) alist_t *list; { ip_pool_node_t *n, *top; ip_pool_t pool; alist_t *a; int num; if (list == NULL) return 0; top = calloc(1, sizeof(*top)); if (top == NULL) return 0; for (n = top, a = list; (n != NULL) && (a != NULL); a = a->al_next) { n->ipn_addr.adf_family = a->al_family; n->ipn_mask.adf_family = a->al_family; (void *)bcopy((void *)&a->al_i6addr, (void *)&n->ipn_addr.adf_addr, sizeof(n->ipn_addr.adf_addr)); (void *)bcopy((void *)&a->al_i6mask, (void *)&n->ipn_mask.adf_addr, sizeof(n->ipn_mask.adf_addr)); n->ipn_info = a->al_not; if (a->al_next != NULL) { n->ipn_next = calloc(1, sizeof(*n)); if (n->ipn_next == NULL) yyerror("sorry, out of memory"); n = n->ipn_next; } } bzero((char *)&pool, sizeof(pool)); pool.ipo_unit = IPL_LOGIPF; pool.ipo_list = top; num = load_pool(&pool, ipfioctl[IPL_LOGLOOKUP]); while ((n = top) != NULL) { top = n->ipn_next; free(n); } return num; } static u_int makehash(list) alist_t *list; { iphtent_t *n, *top; iphtable_t iph; alist_t *a; int num; if (list == NULL) return 0; top = calloc(1, sizeof(*top)); if (top == NULL) return 0; for (n = top, a = list; (n != NULL) && (a != NULL); a = a->al_next) { n->ipe_family = a->al_family; (void *)bcopy((void *)&a->al_i6addr, (void *)&n->ipe_addr, sizeof(n->ipe_addr)); (void *)bcopy((void *)&a->al_i6mask, (void *)&n->ipe_mask, sizeof(n->ipe_mask)); n->ipe_value = 0; if (a->al_next != NULL) { n->ipe_next = calloc(1, sizeof(*n)); if (n->ipe_next == NULL) yyerror("sorry, out of memory"); n = n->ipe_next; } } bzero((char *)&iph, sizeof(iph)); iph.iph_unit = IPL_LOGIPF; iph.iph_type = IPHASH_LOOKUP; *iph.iph_name = '\0'; if (load_hash(&iph, top, ipfioctl[IPL_LOGLOOKUP]) == 0) sscanf(iph.iph_name, "%u", &num); else num = 0; while ((n = top) != NULL) { top = n->ipe_next; free(n); } return num; } void ipf_addrule(fd, ioctlfunc, ptr) int fd; ioctlfunc_t ioctlfunc; void *ptr; { ioctlcmd_t add, del; frentry_t *fr; ipfobj_t obj; fr = ptr; add = 0; del = 0; bzero((char *)&obj, sizeof(obj)); obj.ipfo_rev = IPFILTER_VERSION; obj.ipfo_size = sizeof(*fr); obj.ipfo_type = IPFOBJ_FRENTRY; obj.ipfo_ptr = ptr; if ((opts & OPT_DONOTHING) != 0) fd = -1; if (opts & OPT_ZERORULEST) { add = SIOCZRLST; } else if (opts & OPT_INACTIVE) { add = (u_int)fr->fr_hits ? SIOCINIFR : SIOCADIFR; del = SIOCRMIFR; } else { add = (u_int)fr->fr_hits ? SIOCINAFR : SIOCADAFR; del = SIOCRMAFR; } if (fr && (opts & OPT_OUTQUE)) fr->fr_flags |= FR_OUTQUE; if (fr->fr_hits) fr->fr_hits--; if (fr && (opts & OPT_VERBOSE)) printfr(fr, ioctlfunc); if (opts & OPT_DEBUG) { binprint(fr, sizeof(*fr)); if (fr->fr_data != NULL) binprint(fr->fr_data, fr->fr_dsize); } if ((opts & OPT_ZERORULEST) != 0) { if ((*ioctlfunc)(fd, add, (void *)&obj) == -1) { if ((opts & OPT_DONOTHING) == 0) { fprintf(stderr, "%d:", yylineNum); perror("ioctl(SIOCZRLST)"); } } else { #ifdef USE_QUAD_T printf("hits %qd bytes %qd ", (long long)fr->fr_hits, (long long)fr->fr_bytes); #else printf("hits %ld bytes %ld ", fr->fr_hits, fr->fr_bytes); #endif printfr(fr, ioctlfunc); } } else if ((opts & OPT_REMOVE) != 0) { if ((*ioctlfunc)(fd, del, (void *)&obj) == -1) { if ((opts & OPT_DONOTHING) != 0) { fprintf(stderr, "%d:", yylineNum); perror("ioctl(delete rule)"); } } } else { if ((*ioctlfunc)(fd, add, (void *)&obj) == -1) { if (!(opts & OPT_DONOTHING)) { fprintf(stderr, "%d:", yylineNum); perror("ioctl(add/insert rule)"); } } } } static void setsyslog() { yysetdict(logwords); yybreakondot = 1; } static void unsetsyslog() { yyresetdict(); yybreakondot = 0; } static void fillgroup(fr) frentry_t *fr; { frentry_t *f; for (f = frold; f != NULL; f = f->fr_next) if (strncmp(f->fr_grhead, fr->fr_group, FR_GROUPLEN) == 0) break; if (f == NULL) return; /* * Only copy down matching fields if the rules are of the same type * and are of ipf type. The only fields that are copied are those * that impact the rule parsing itself, eg. need for knowing what the * protocol should be for rules with port comparisons in them. */ if (f->fr_type != fr->fr_type || f->fr_type != FR_T_IPF) return; if (fr->fr_v == 0 && f->fr_v != 0) fr->fr_v = f->fr_v; if (fr->fr_mproto == 0 && f->fr_mproto != 0) fr->fr_mproto = f->fr_mproto; if (fr->fr_proto == 0 && f->fr_proto != 0) fr->fr_proto = f->fr_proto; if ((fr->fr_mproto == 0) && ((fr->fr_flx & FI_TCPUDP) == 0) && ((f->fr_flx & FI_TCPUDP) != 0)) fr->fr_flx |= FI_TCPUDP; }