/* $Id: iptpinhole.c,v 1.7 2012/05/08 20:41:45 nanard Exp $ */ /* MiniUPnP project * http://miniupnp.free.fr/ or http://miniupnp.tuxfamily.org/ * (c) 2012 Thomas Bernard * This software is subject to the conditions detailed * in the LICENCE file provided within the distribution */ #include #include #include #include #include #include #include "../config.h" #include "iptpinhole.h" #include "../upnpglobalvars.h" #ifdef ENABLE_6FC_SERVICE #include #include #include "tiny_nf_nat.h" #define IP6TC_HANDLE struct ip6tc_handle * static int next_uid = 1; static LIST_HEAD(pinhole_list_t, pinhole_t) pinhole_list; static struct pinhole_t * get_pinhole(unsigned short uid); struct pinhole_t { struct in6_addr saddr; struct in6_addr daddr; LIST_ENTRY(pinhole_t) entries; unsigned int timestamp; unsigned short sport; unsigned short dport; unsigned short uid; unsigned char proto; }; void init_iptpinhole(void) { LIST_INIT(&pinhole_list); } void shutdown_iptpinhole(void) { /* TODO empty list */ } /* return uid */ static int add_to_pinhole_list(struct in6_addr * saddr, unsigned short sport, struct in6_addr * daddr, unsigned short dport, int proto, unsigned int timestamp) { struct pinhole_t * p; p = calloc(1, sizeof(struct pinhole_t)); if(!p) { syslog(LOG_ERR, "add_to_pinhole_list calloc() error"); return -1; } memcpy(&p->saddr, saddr, sizeof(struct in6_addr)); p->sport = sport; memcpy(&p->daddr, daddr, sizeof(struct in6_addr)); p->dport = dport; p->timestamp = timestamp; p->proto = (unsigned char)proto; LIST_INSERT_HEAD(&pinhole_list, p, entries); while(get_pinhole(next_uid) != NULL) { next_uid++; if(next_uid > 65535) next_uid = 1; } p->uid = next_uid; next_uid++; if(next_uid > 65535) next_uid = 1; return p->uid; } static struct pinhole_t * get_pinhole(unsigned short uid) { struct pinhole_t * p; for(p = pinhole_list.lh_first; p != NULL; p = p->entries.le_next) { if(p->uid == uid) return p; } return NULL; /* not found */ } /* new_match() * Allocate and set a new ip6t_entry_match structure * The caller must free() it after usage */ static struct ip6t_entry_match * new_match(int proto, unsigned short sport, unsigned short dport) { struct ip6t_entry_match *match; struct ip6t_tcp *info; /* TODO : use ip6t_udp if needed */ size_t size; const char * name; size = XT_ALIGN(sizeof(struct ip6t_entry_match)) + XT_ALIGN(sizeof(struct ip6t_tcp)); match = calloc(1, size); match->u.user.match_size = size; switch(proto) { case IPPROTO_TCP: name = "tcp"; break; case IPPROTO_UDP: name = "udp"; break; case IPPROTO_UDPLITE: name = "udplite"; break; default: name = NULL; } if(name) strncpy(match->u.user.name, name, sizeof(match->u.user.name)); else syslog(LOG_WARNING, "no name for protocol %d", proto); info = (struct ip6t_tcp *)match->data; if(sport) { info->spts[0] = sport; /* specified source port */ info->spts[1] = sport; } else { info->spts[0] = 0; /* all source ports */ info->spts[1] = 0xFFFF; } info->dpts[0] = dport; /* specified destination port */ info->dpts[1] = dport; return match; } static struct ip6t_entry_target * get_accept_target(void) { struct ip6t_entry_target * target = NULL; size_t size; size = XT_ALIGN(sizeof(struct ip6t_entry_target)) + XT_ALIGN(sizeof(int)); target = calloc(1, size); target->u.user.target_size = size; strncpy(target->u.user.name, "ACCEPT", sizeof(target->u.user.name)); return target; } static int ip6tc_init_verify_append(const char * table, const char * chain, struct ip6t_entry * e) { IP6TC_HANDLE h; h = ip6tc_init(table); if(!h) { syslog(LOG_ERR, "ip6tc_init error : %s", ip6tc_strerror(errno)); return -1; } if(!ip6tc_is_chain(chain, h)) { syslog(LOG_ERR, "chain %s not found", chain); goto error; } if(!ip6tc_append_entry(chain, e, h)) { syslog(LOG_ERR, "ip6tc_append_entry() error : %s", ip6tc_strerror(errno)); goto error; } if(!ip6tc_commit(h)) { syslog(LOG_ERR, "ip6tc_commit() error : %s", ip6tc_strerror(errno)); goto error; } return 0; /* ok */ error: ip6tc_free(h); return -1; } /* ip6tables -I %s %d -p %s -i %s -s %s --sport %hu -d %s --dport %hu -j ACCEPT ip6tables -I %s %d -p %s -i %s --sport %hu -d %s --dport %hu -j ACCEPT miniupnpd_forward_chain, line_number, proto, ext_if_name, raddr, rport, iaddr, iport ip6tables -t raw -I PREROUTING %d -p %s -i %s -s %s --sport %hu -d %s --dport %hu -j TRACE ip6tables -t raw -I PREROUTING %d -p %s -i %s --sport %hu -d %s --dport %hu -j TRACE */ int add_pinhole(const char * ifname, const char * rem_host, unsigned short rem_port, const char * int_client, unsigned short int_port, int proto, unsigned int timestamp) { int uid; struct ip6t_entry * e; struct ip6t_entry_match *match = NULL; struct ip6t_entry_target *target = NULL; e = calloc(1, sizeof(struct ip6t_entry)); e->ipv6.proto = proto; if(ifname) strncpy(e->ipv6.iniface, ifname, IFNAMSIZ); if(rem_host) { inet_pton(AF_INET6, rem_host, &e->ipv6.src); memset(&e->ipv6.smsk, 0xff, sizeof(e->ipv6.smsk)); } inet_pton(AF_INET6, int_client, &e->ipv6.dst); memset(&e->ipv6.dmsk, 0xff, sizeof(e->ipv6.dmsk)); /*e->nfcache = NFC_IP_DST_PT;*/ /*e->nfcache |= NFC_UNKNOWN;*/ match = new_match(proto, rem_port, int_port); target = get_accept_target(); e = realloc(e, sizeof(struct ip6t_entry) + match->u.match_size + target->u.target_size); memcpy(e->elems, match, match->u.match_size); memcpy(e->elems + match->u.match_size, target, target->u.target_size); e->target_offset = sizeof(struct ip6t_entry) + match->u.match_size; e->next_offset = sizeof(struct ip6t_entry) + match->u.match_size + target->u.target_size; free(match); free(target); if(ip6tc_init_verify_append("filter", miniupnpd_v6_filter_chain, e) < 0) { free(e); return -1; } uid = add_to_pinhole_list(&e->ipv6.src, rem_port, &e->ipv6.dst, int_port, proto, timestamp); free(e); return uid; } int delete_pinhole(unsigned short uid) { struct pinhole_t * p; IP6TC_HANDLE h; const struct ip6t_entry * e; const struct ip6t_entry_match *match = NULL; /*const struct ip6t_entry_target *target = NULL;*/ unsigned int index; p = get_pinhole(uid); if(!p) return -2; /* not found */ h = ip6tc_init("filter"); if(!h) { syslog(LOG_ERR, "ip6tc_init error : %s", ip6tc_strerror(errno)); return -1; } if(!ip6tc_is_chain(miniupnpd_v6_filter_chain, h)) { syslog(LOG_ERR, "chain %s not found", miniupnpd_v6_filter_chain); goto error; } index = 0; for(e = ip6tc_first_rule(miniupnpd_v6_filter_chain, h); e; e = ip6tc_next_rule(e, h)) { if((e->ipv6.proto == p->proto) && (0 == memcmp(&e->ipv6.src, &p->saddr, sizeof(e->ipv6.src))) && (0 == memcmp(&e->ipv6.dst, &p->daddr, sizeof(e->ipv6.dst)))) { const struct ip6t_tcp * info; match = (const struct ip6t_entry_match *)&e->elems; info = (const struct ip6t_tcp *)&match->data; if((info->spts[0] == p->sport) && (info->dpts[0] == p->dport)) { if(!ip6tc_delete_num_entry(miniupnpd_v6_filter_chain, index, h)) { syslog(LOG_ERR, "ip6tc_delete_num_entry(%s,%d,...): %s", miniupnpd_v6_filter_chain, index, ip6tc_strerror(errno)); goto error; } if(!ip6tc_commit(h)) { syslog(LOG_ERR, "ip6tc_commit(): %s", ip6tc_strerror(errno)); goto error; } ip6tc_free(h); LIST_REMOVE(p, entries); return 0; /* ok */ } } index++; } ip6tc_free(h); syslog(LOG_WARNING, "delete_pinhole() rule with PID=%hu not found", uid); return -2; /* not found */ error: ip6tc_free(h); return -1; } int update_pinhole(unsigned short uid, unsigned int timestamp) { struct pinhole_t * p; p = get_pinhole(uid); if(p) { p->timestamp = timestamp; return 0; } else { return -2; /* Not found */ } } int get_pinhole_info(unsigned short uid, char * rem_host, int rem_hostlen, unsigned short * rem_port, char * int_client, int int_clientlen, unsigned short * int_port, int * proto, unsigned int * timestamp, u_int64_t * packets, u_int64_t * bytes) { struct pinhole_t * p; p = get_pinhole(uid); if(!p) return -2; /* Not found */ if(rem_host) { if(inet_ntop(AF_INET6, &p->saddr, rem_host, rem_hostlen) == NULL) return -1; } if(rem_port) *rem_port = p->sport; if(int_client) { if(inet_ntop(AF_INET6, &p->daddr, int_client, int_clientlen) == NULL) return -1; } if(int_port) *int_port = p->dport; if(proto) *proto = p->proto; if(timestamp) *timestamp = p->timestamp; if(packets || bytes) { /* theses informations need to be read from netfilter */ IP6TC_HANDLE h; const struct ip6t_entry * e; const struct ip6t_entry_match * match; h = ip6tc_init("filter"); if(!h) { syslog(LOG_ERR, "ip6tc_init error : %s", ip6tc_strerror(errno)); return -1; } for(e = ip6tc_first_rule(miniupnpd_v6_filter_chain, h); e; e = ip6tc_next_rule(e, h)) { if((e->ipv6.proto == p->proto) && (0 == memcmp(&e->ipv6.src, &p->saddr, sizeof(e->ipv6.src))) && (0 == memcmp(&e->ipv6.dst, &p->daddr, sizeof(e->ipv6.dst)))) { const struct ip6t_tcp * info; match = (const struct ip6t_entry_match *)&e->elems; info = (const struct ip6t_tcp *)&match->data; if((info->spts[0] == p->sport) && (info->dpts[0] == p->dport)) { if(packets) *packets = e->counters.pcnt; if(bytes) *bytes = e->counters.bcnt; break; } } } ip6tc_free(h); } return 0; } int clean_pinhole_list(unsigned int * next_timestamp) { unsigned int min_ts = UINT_MAX; struct pinhole_t * p; time_t current_time; int n = 0; current_time = time(NULL); p = pinhole_list.lh_first; while(p != NULL) { if(p->timestamp <= (unsigned int)current_time) { unsigned short uid = p->uid; syslog(LOG_INFO, "removing expired pinhole with uid=%hu", uid); p = p->entries.le_next; if(delete_pinhole(uid) == 0) n++; else break; } else { if(p->timestamp < min_ts) min_ts = p->timestamp; p = p->entries.le_next; } } if(next_timestamp) *next_timestamp = min_ts; return n; } #endif