/* Shared library add-on to iptables for conntrack matching support. * GPL (C) 2001 Marc Boucher (marc@mbsi.ca). */ #include #include #include #include #include #include #include #include /* For 64bit kernel / 32bit userspace */ #include "../include/linux/netfilter_ipv4/ipt_conntrack.h" #ifndef IPT_CONNTRACK_STATE_UNTRACKED #define IPT_CONNTRACK_STATE_UNTRACKED (1 << (IP_CT_NUMBER + 3)) #endif /* Function which prints out usage message. */ static void help(void) { printf( "conntrack match v%s options:\n" " [!] --ctstate [INVALID|ESTABLISHED|NEW|RELATED|UNTRACKED|SNAT|DNAT][,...]\n" " State(s) to match\n" " [!] --ctproto proto Protocol to match; by number or name, eg. `tcp'\n" " --ctorigsrc [!] address[/mask]\n" " Original source specification\n" " --ctorigdst [!] address[/mask]\n" " Original destination specification\n" " --ctreplsrc [!] address[/mask]\n" " Reply source specification\n" " --ctrepldst [!] address[/mask]\n" " Reply destination specification\n" " [!] --ctstatus [NONE|EXPECTED|SEEN_REPLY|ASSURED|CONFIRMED][,...]\n" " Status(es) to match\n" " [!] --ctexpire time[:time] Match remaining lifetime in seconds against\n" " value or range of values (inclusive)\n" "\n", IPTABLES_VERSION); } static const struct option opts[] = { { "ctstate", 1, 0, '1' }, { "ctproto", 1, 0, '2' }, { "ctorigsrc", 1, 0, '3' }, { "ctorigdst", 1, 0, '4' }, { "ctreplsrc", 1, 0, '5' }, { "ctrepldst", 1, 0, '6' }, { "ctstatus", 1, 0, '7' }, { "ctexpire", 1, 0, '8' }, {0} }; static int parse_state(const char *state, size_t strlen, struct ipt_conntrack_info *sinfo) { if (strncasecmp(state, "INVALID", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_INVALID; else if (strncasecmp(state, "NEW", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_BIT(IP_CT_NEW); else if (strncasecmp(state, "ESTABLISHED", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_BIT(IP_CT_ESTABLISHED); else if (strncasecmp(state, "RELATED", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_BIT(IP_CT_RELATED); else if (strncasecmp(state, "UNTRACKED", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_UNTRACKED; else if (strncasecmp(state, "SNAT", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_SNAT; else if (strncasecmp(state, "DNAT", strlen) == 0) sinfo->statemask |= IPT_CONNTRACK_STATE_DNAT; else return 0; return 1; } static void parse_states(const char *arg, struct ipt_conntrack_info *sinfo) { const char *comma; while ((comma = strchr(arg, ',')) != NULL) { if (comma == arg || !parse_state(arg, comma-arg, sinfo)) exit_error(PARAMETER_PROBLEM, "Bad ctstate `%s'", arg); arg = comma+1; } if (strlen(arg) == 0 || !parse_state(arg, strlen(arg), sinfo)) exit_error(PARAMETER_PROBLEM, "Bad ctstate `%s'", arg); } static int parse_status(const char *status, size_t strlen, struct ipt_conntrack_info *sinfo) { if (strncasecmp(status, "NONE", strlen) == 0) sinfo->statusmask |= 0; else if (strncasecmp(status, "EXPECTED", strlen) == 0) sinfo->statusmask |= IPS_EXPECTED; else if (strncasecmp(status, "SEEN_REPLY", strlen) == 0) sinfo->statusmask |= IPS_SEEN_REPLY; else if (strncasecmp(status, "ASSURED", strlen) == 0) sinfo->statusmask |= IPS_ASSURED; #ifdef IPS_CONFIRMED else if (strncasecmp(status, "CONFIRMED", strlen) == 0) sinfo->stausmask |= IPS_CONFIRMED; #endif else return 0; return 1; } static void parse_statuses(const char *arg, struct ipt_conntrack_info *sinfo) { const char *comma; while ((comma = strchr(arg, ',')) != NULL) { if (comma == arg || !parse_status(arg, comma-arg, sinfo)) exit_error(PARAMETER_PROBLEM, "Bad ctstatus `%s'", arg); arg = comma+1; } if (strlen(arg) == 0 || !parse_status(arg, strlen(arg), sinfo)) exit_error(PARAMETER_PROBLEM, "Bad ctstatus `%s'", arg); } static unsigned long parse_expire(const char *s) { unsigned int len; if (string_to_number(s, 0, 0, &len) == -1) exit_error(PARAMETER_PROBLEM, "expire value invalid: `%s'\n", s); else return len; } /* If a single value is provided, min and max are both set to the value */ static void parse_expires(const char *s, struct ipt_conntrack_info *sinfo) { char *buffer; char *cp; buffer = strdup(s); if ((cp = strchr(buffer, ':')) == NULL) sinfo->expires_min = sinfo->expires_max = parse_expire(buffer); else { *cp = '\0'; cp++; sinfo->expires_min = buffer[0] ? parse_expire(buffer) : 0; sinfo->expires_max = cp[0] ? parse_expire(cp) : -1; } free(buffer); if (sinfo->expires_min > sinfo->expires_max) exit_error(PARAMETER_PROBLEM, "expire min. range value `%lu' greater than max. " "range value `%lu'", sinfo->expires_min, sinfo->expires_max); } /* Function which parses command options; returns true if it ate an option */ static int parse(int c, char **argv, int invert, unsigned int *flags, const void *entry, unsigned int *nfcache, struct xt_entry_match **match) { struct ipt_conntrack_info *sinfo = (struct ipt_conntrack_info *)(*match)->data; char *protocol = NULL; unsigned int naddrs = 0; struct in_addr *addrs = NULL; switch (c) { case '1': check_inverse(optarg, &invert, &optind, 0); parse_states(argv[optind-1], sinfo); if (invert) { sinfo->invflags |= IPT_CONNTRACK_STATE; } sinfo->flags |= IPT_CONNTRACK_STATE; break; case '2': check_inverse(optarg, &invert, &optind, 0); if(invert) sinfo->invflags |= IPT_CONNTRACK_PROTO; /* Canonicalize into lower case */ for (protocol = argv[optind-1]; *protocol; protocol++) *protocol = tolower(*protocol); protocol = argv[optind-1]; sinfo->tuple[IP_CT_DIR_ORIGINAL].dst.protonum = parse_protocol(protocol); if (sinfo->tuple[IP_CT_DIR_ORIGINAL].dst.protonum == 0 && (sinfo->invflags & IPT_INV_PROTO)) exit_error(PARAMETER_PROBLEM, "rule would never match protocol"); sinfo->flags |= IPT_CONNTRACK_PROTO; break; case '3': check_inverse(optarg, &invert, &optind, 9); if (invert) sinfo->invflags |= IPT_CONNTRACK_ORIGSRC; parse_hostnetworkmask(argv[optind-1], &addrs, &sinfo->sipmsk[IP_CT_DIR_ORIGINAL], &naddrs); if(naddrs > 1) exit_error(PARAMETER_PROBLEM, "multiple IP addresses not allowed"); if(naddrs == 1) { sinfo->tuple[IP_CT_DIR_ORIGINAL].src.ip = addrs[0].s_addr; } sinfo->flags |= IPT_CONNTRACK_ORIGSRC; break; case '4': check_inverse(optarg, &invert, &optind, 0); if (invert) sinfo->invflags |= IPT_CONNTRACK_ORIGDST; parse_hostnetworkmask(argv[optind-1], &addrs, &sinfo->dipmsk[IP_CT_DIR_ORIGINAL], &naddrs); if(naddrs > 1) exit_error(PARAMETER_PROBLEM, "multiple IP addresses not allowed"); if(naddrs == 1) { sinfo->tuple[IP_CT_DIR_ORIGINAL].dst.ip = addrs[0].s_addr; } sinfo->flags |= IPT_CONNTRACK_ORIGDST; break; case '5': check_inverse(optarg, &invert, &optind, 0); if (invert) sinfo->invflags |= IPT_CONNTRACK_REPLSRC; parse_hostnetworkmask(argv[optind-1], &addrs, &sinfo->sipmsk[IP_CT_DIR_REPLY], &naddrs); if(naddrs > 1) exit_error(PARAMETER_PROBLEM, "multiple IP addresses not allowed"); if(naddrs == 1) { sinfo->tuple[IP_CT_DIR_REPLY].src.ip = addrs[0].s_addr; } sinfo->flags |= IPT_CONNTRACK_REPLSRC; break; case '6': check_inverse(optarg, &invert, &optind, 0); if (invert) sinfo->invflags |= IPT_CONNTRACK_REPLDST; parse_hostnetworkmask(argv[optind-1], &addrs, &sinfo->dipmsk[IP_CT_DIR_REPLY], &naddrs); if(naddrs > 1) exit_error(PARAMETER_PROBLEM, "multiple IP addresses not allowed"); if(naddrs == 1) { sinfo->tuple[IP_CT_DIR_REPLY].dst.ip = addrs[0].s_addr; } sinfo->flags |= IPT_CONNTRACK_REPLDST; break; case '7': check_inverse(optarg, &invert, &optind, 0); parse_statuses(argv[optind-1], sinfo); if (invert) { sinfo->invflags |= IPT_CONNTRACK_STATUS; } sinfo->flags |= IPT_CONNTRACK_STATUS; break; case '8': check_inverse(optarg, &invert, &optind, 0); parse_expires(argv[optind-1], sinfo); if (invert) { sinfo->invflags |= IPT_CONNTRACK_EXPIRES; } sinfo->flags |= IPT_CONNTRACK_EXPIRES; break; default: return 0; } *flags = sinfo->flags; return 1; } static void final_check(unsigned int flags) { if (!flags) exit_error(PARAMETER_PROBLEM, "You must specify one or more options"); } static void print_state(unsigned int statemask) { const char *sep = ""; if (statemask & IPT_CONNTRACK_STATE_INVALID) { printf("%sINVALID", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_BIT(IP_CT_NEW)) { printf("%sNEW", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_BIT(IP_CT_RELATED)) { printf("%sRELATED", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_BIT(IP_CT_ESTABLISHED)) { printf("%sESTABLISHED", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_UNTRACKED) { printf("%sUNTRACKED", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_SNAT) { printf("%sSNAT", sep); sep = ","; } if (statemask & IPT_CONNTRACK_STATE_DNAT) { printf("%sDNAT", sep); sep = ","; } printf(" "); } static void print_status(unsigned int statusmask) { const char *sep = ""; if (statusmask & IPS_EXPECTED) { printf("%sEXPECTED", sep); sep = ","; } if (statusmask & IPS_SEEN_REPLY) { printf("%sSEEN_REPLY", sep); sep = ","; } if (statusmask & IPS_ASSURED) { printf("%sASSURED", sep); sep = ","; } #ifdef IPS_CONFIRMED if (statusmask & IPS_CONFIRMED) { printf("%sCONFIRMED", sep); sep =","; } #endif if (statusmask == 0) { printf("%sNONE", sep); sep = ","; } printf(" "); } static void print_addr(struct in_addr *addr, struct in_addr *mask, int inv, int numeric) { char buf[BUFSIZ]; if (inv) printf("! "); if (mask->s_addr == 0L && !numeric) printf("%s ", "anywhere"); else { if (numeric) sprintf(buf, "%s", addr_to_dotted(addr)); else sprintf(buf, "%s", addr_to_anyname(addr)); strcat(buf, mask_to_dotted(mask)); printf("%s ", buf); } } /* Saves the matchinfo in parsable form to stdout. */ static void matchinfo_print(const void *ip, const struct xt_entry_match *match, int numeric, const char *optpfx) { struct ipt_conntrack_info *sinfo = (struct ipt_conntrack_info *)match->data; if(sinfo->flags & IPT_CONNTRACK_STATE) { printf("%sctstate ", optpfx); if (sinfo->invflags & IPT_CONNTRACK_STATE) printf("! "); print_state(sinfo->statemask); } if(sinfo->flags & IPT_CONNTRACK_PROTO) { printf("%sctproto ", optpfx); if (sinfo->invflags & IPT_CONNTRACK_PROTO) printf("! "); printf("%u ", sinfo->tuple[IP_CT_DIR_ORIGINAL].dst.protonum); } if(sinfo->flags & IPT_CONNTRACK_ORIGSRC) { printf("%sctorigsrc ", optpfx); print_addr( (struct in_addr *)&sinfo->tuple[IP_CT_DIR_ORIGINAL].src.ip, &sinfo->sipmsk[IP_CT_DIR_ORIGINAL], sinfo->invflags & IPT_CONNTRACK_ORIGSRC, numeric); } if(sinfo->flags & IPT_CONNTRACK_ORIGDST) { printf("%sctorigdst ", optpfx); print_addr( (struct in_addr *)&sinfo->tuple[IP_CT_DIR_ORIGINAL].dst.ip, &sinfo->dipmsk[IP_CT_DIR_ORIGINAL], sinfo->invflags & IPT_CONNTRACK_ORIGDST, numeric); } if(sinfo->flags & IPT_CONNTRACK_REPLSRC) { printf("%sctreplsrc ", optpfx); print_addr( (struct in_addr *)&sinfo->tuple[IP_CT_DIR_REPLY].src.ip, &sinfo->sipmsk[IP_CT_DIR_REPLY], sinfo->invflags & IPT_CONNTRACK_REPLSRC, numeric); } if(sinfo->flags & IPT_CONNTRACK_REPLDST) { printf("%sctrepldst ", optpfx); print_addr( (struct in_addr *)&sinfo->tuple[IP_CT_DIR_REPLY].dst.ip, &sinfo->dipmsk[IP_CT_DIR_REPLY], sinfo->invflags & IPT_CONNTRACK_REPLDST, numeric); } if(sinfo->flags & IPT_CONNTRACK_STATUS) { printf("%sctstatus ", optpfx); if (sinfo->invflags & IPT_CONNTRACK_STATUS) printf("! "); print_status(sinfo->statusmask); } if(sinfo->flags & IPT_CONNTRACK_EXPIRES) { printf("%sctexpire ", optpfx); if (sinfo->invflags & IPT_CONNTRACK_EXPIRES) printf("! "); if (sinfo->expires_max == sinfo->expires_min) printf("%lu ", sinfo->expires_min); else printf("%lu:%lu ", sinfo->expires_min, sinfo->expires_max); } } /* Prints out the matchinfo. */ static void print(const void *ip, const struct xt_entry_match *match, int numeric) { matchinfo_print(ip, match, numeric, ""); } /* Saves the matchinfo in parsable form to stdout. */ static void save(const void *ip, const struct xt_entry_match *match) { matchinfo_print(ip, match, 1, "--"); } static struct iptables_match conntrack = { .name = "conntrack", .version = IPTABLES_VERSION, .size = IPT_ALIGN(sizeof(struct ipt_conntrack_info)), .userspacesize = IPT_ALIGN(sizeof(struct ipt_conntrack_info)), .help = &help, .parse = &parse, .final_check = &final_check, .print = &print, .save = &save, .extra_opts = opts }; void _init(void) { register_match(&conntrack); }