/* $Id: miniupnpd.c,v 1.1.1.3 2013/07/22 00:32:35 misho Exp $ */ /* MiniUPnP project * http://miniupnp.free.fr/ or http://miniupnp.tuxfamily.org/ * (c) 2006-2013 Thomas Bernard * This software is subject to the conditions detailed * in the LICENCE file provided within the distribution */ #include "config.h" /* Experimental support for NFQUEUE interfaces */ #ifdef ENABLE_NFQUEUE /* apt-get install libnetfilter-queue-dev */ #include #include #if 0 #include /* Defines verdicts (NF_ACCEPT, etc) */ #endif #include #include #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if defined(sun) #include #else /* for BSD's sysctl */ #include #endif /* unix sockets */ #ifdef USE_MINIUPNPDCTL #include #endif #include "macros.h" #include "upnpglobalvars.h" #include "upnphttp.h" #include "upnpdescgen.h" #include "miniupnpdpath.h" #include "getifaddr.h" #include "upnpsoap.h" #include "options.h" #include "minissdp.h" #include "upnpredirect.h" #include "upnppinhole.h" #include "miniupnpdtypes.h" #include "daemonize.h" #include "upnpevents.h" #ifdef ENABLE_NATPMP #include "natpmp.h" #endif #include "commonrdr.h" #include "upnputils.h" #ifdef USE_IFACEWATCHER #include "ifacewatcher.h" #endif #ifdef ENABLE_6FC_SERVICE #ifdef USE_NETFILTER void init_iptpinhole(void); #endif #endif #ifndef DEFAULT_CONFIG #define DEFAULT_CONFIG "/etc/miniupnpd.conf" #endif #ifdef USE_MINIUPNPDCTL struct ctlelem { int socket; LIST_ENTRY(ctlelem) entries; }; #endif #ifdef ENABLE_NFQUEUE /* globals */ static struct nfq_handle *nfqHandle; static struct sockaddr_in ssdp; /* prototypes */ static int nfqueue_cb( struct nfq_q_handle *qh, struct nfgenmsg *nfmsg, struct nfq_data *nfa, void *data) ; int identify_ip_protocol (char *payload); int get_udp_dst_port (char *payload); #endif /* variables used by signals */ static volatile sig_atomic_t quitting = 0; volatile sig_atomic_t should_send_public_address_change_notif = 0; /* OpenAndConfHTTPSocket() : * setup the socket used to handle incoming HTTP connections. */ static int OpenAndConfHTTPSocket(unsigned short port) { int s; int i = 1; #ifdef ENABLE_IPV6 struct sockaddr_in6 listenname; #else struct sockaddr_in listenname; #endif socklen_t listenname_len; if( (s = socket( #ifdef ENABLE_IPV6 PF_INET6, #else PF_INET, #endif SOCK_STREAM, 0)) < 0) { syslog(LOG_ERR, "socket(http): %m"); return -1; } if(setsockopt(s, SOL_SOCKET, SO_REUSEADDR, &i, sizeof(i)) < 0) { syslog(LOG_WARNING, "setsockopt(http, SO_REUSEADDR): %m"); } #if 0 /* enable this to force IPV6 only for IPV6 socket. * see http://www.ietf.org/rfc/rfc3493.txt section 5.3 */ if(setsockopt(s, IPPROTO_IPV6, IPV6_V6ONLY, &i, sizeof(i)) < 0) { syslog(LOG_WARNING, "setsockopt(http, IPV6_V6ONLY): %m"); } #endif if(!set_non_blocking(s)) { syslog(LOG_WARNING, "set_non_blocking(http): %m"); } #ifdef ENABLE_IPV6 memset(&listenname, 0, sizeof(struct sockaddr_in6)); listenname.sin6_family = AF_INET6; listenname.sin6_port = htons(port); listenname.sin6_addr = in6addr_any; listenname_len = sizeof(struct sockaddr_in6); #else listenname.sin_family = AF_INET; listenname.sin_port = htons(port); listenname.sin_addr.s_addr = htonl(INADDR_ANY); listenname_len = sizeof(struct sockaddr_in); #endif if(bind(s, (struct sockaddr *)&listenname, listenname_len) < 0) { syslog(LOG_ERR, "bind(http): %m"); close(s); return -1; } if(listen(s, 5) < 0) { syslog(LOG_ERR, "listen(http): %m"); close(s); return -1; } return s; } #ifdef ENABLE_NFQUEUE int identify_ip_protocol(char *payload) { return payload[9]; } /* * This function returns the destination port of the captured packet UDP */ int get_udp_dst_port(char *payload) { char *pkt_data_ptr = NULL; pkt_data_ptr = payload + sizeof(struct ip); /* Cast the UDP Header from the raw packet */ struct udphdr *udp = (struct udphdr *) pkt_data_ptr; /* get the dst port of the packet */ return(ntohs(udp->dest)); } static int OpenAndConfNFqueue(){ struct nfq_q_handle *myQueue; struct nfnl_handle *netlinkHandle; int fd = 0, e = 0; inet_pton(AF_INET, "239.255.255.250", &(ssdp.sin_addr)); /* Get a queue connection handle from the module */ if (!(nfqHandle = nfq_open())) { syslog(LOG_ERR, "Error in nfq_open(): %m"); return -1; } /* Unbind the handler from processing any IP packets Not totally sure why this is done, or if it's necessary... */ if ((e = nfq_unbind_pf(nfqHandle, AF_INET)) < 0) { syslog(LOG_ERR, "Error in nfq_unbind_pf(): %m"); return -1; } /* Bind this handler to process IP packets... */ if (nfq_bind_pf(nfqHandle, AF_INET) < 0) { syslog(LOG_ERR, "Error in nfq_bind_pf(): %m"); return -1; } /* Install a callback on queue -Q */ if (!(myQueue = nfq_create_queue(nfqHandle, nfqueue, &nfqueue_cb, NULL))) { syslog(LOG_ERR, "Error in nfq_create_queue(): %m"); return -1; } /* Turn on packet copy mode */ if (nfq_set_mode(myQueue, NFQNL_COPY_PACKET, 0xffff) < 0) { syslog(LOG_ERR, "Error setting packet copy mode (): %m"); return -1; } netlinkHandle = nfq_nfnlh(nfqHandle); fd = nfnl_fd(netlinkHandle); return fd; } static int nfqueue_cb( struct nfq_q_handle *qh, struct nfgenmsg *nfmsg, struct nfq_data *nfa, void *data) { char *pkt; struct nfqnl_msg_packet_hdr *ph; ph = nfq_get_msg_packet_hdr(nfa); if ( ph ) { int id = 0, size = 0; id = ntohl(ph->packet_id); size = nfq_get_payload(nfa, &pkt); struct ip *iph = (struct ip *) pkt; int id_protocol = identify_ip_protocol(pkt); int dport = get_udp_dst_port(pkt); int x = sizeof (struct ip) + sizeof (struct udphdr); /* packets we are interested in are UDP multicast to 239.255.255.250:1900 * and start with a data string M-SEARCH */ if ( (dport == 1900) && (id_protocol == IPPROTO_UDP) && (ssdp.sin_addr.s_addr == iph->ip_dst.s_addr) ) { /* get the index that the packet came in on */ u_int32_t idx = nfq_get_indev(nfa); int i = 0; for ( ;i < n_nfqix ; i++) { if ( nfqix[i] == idx ) { struct udphdr *udp = (struct udphdr *) (pkt + sizeof(struct ip)); char *dd = pkt + x; struct sockaddr_in sendername; sendername.sin_family = AF_INET; sendername.sin_port = udp->source; sendername.sin_addr.s_addr = iph->ip_src.s_addr; /* printf("pkt found %s\n",dd);*/ ProcessSSDPData (sudp, dd, size - x, &sendername, (unsigned short) 5555); } } } nfq_set_verdict(qh, id, NF_ACCEPT, 0, NULL); } else { syslog(LOG_ERR,"nfq_get_msg_packet_hdr failed"); return 1; /* from nfqueue source: 0 = ok, >0 = soft error, <0 hard error */ } return 0; } static void ProcessNFQUEUE(int fd){ char buf[4096]; socklen_t len_r; struct sockaddr_in sendername; len_r = sizeof(struct sockaddr_in); int res = recvfrom(fd, buf, sizeof(buf), 0, (struct sockaddr *)&sendername, &len_r); nfq_handle_packet(nfqHandle, buf, res); } #endif /* Functions used to communicate with miniupnpdctl */ #ifdef USE_MINIUPNPDCTL static int OpenAndConfCtlUnixSocket(const char * path) { struct sockaddr_un localun; int s; s = socket(AF_UNIX, SOCK_STREAM, 0); localun.sun_family = AF_UNIX; strncpy(localun.sun_path, path, sizeof(localun.sun_path)); if(bind(s, (struct sockaddr *)&localun, sizeof(struct sockaddr_un)) < 0) { syslog(LOG_ERR, "bind(sctl): %m"); close(s); s = -1; } else if(listen(s, 5) < 0) { syslog(LOG_ERR, "listen(sctl): %m"); close(s); s = -1; } return s; } static void write_upnphttp_details(int fd, struct upnphttp * e) { char buffer[256]; int len; write(fd, "HTTP :\n", 7); while(e) { len = snprintf(buffer, sizeof(buffer), "%d %d %s req_buf=%p(%dbytes) res_buf=%p(%dbytes alloc)\n", e->socket, e->state, e->HttpVer, e->req_buf, e->req_buflen, e->res_buf, e->res_buf_alloclen); write(fd, buffer, len); e = e->entries.le_next; } } static void write_ctlsockets_list(int fd, struct ctlelem * e) { char buffer[256]; int len; write(fd, "CTL :\n", 6); while(e) { len = snprintf(buffer, sizeof(buffer), "struct ctlelem: socket=%d\n", e->socket); write(fd, buffer, len); e = e->entries.le_next; } } #ifndef DISABLE_CONFIG_FILE static void write_option_list(int fd) { char buffer[256]; int len; unsigned int i; write(fd, "Options :\n", 10); for(i=0; iifname)) { /* not starting with a digit : suppose it is an interface name */ memcpy(lan_addr->ifname, str, n); lan_addr->ifname[n] = '\0'; if(getifaddr(lan_addr->ifname, lan_addr->str, sizeof(lan_addr->str)) < 0) goto parselan_error; } else { if(n>15) goto parselan_error; memcpy(lan_addr->str, str, n); lan_addr->str[n] = '\0'; } if(!inet_aton(lan_addr->str, &lan_addr->addr)) goto parselan_error; if(*p == '/') { const char * q = ++p; while(*p && isdigit(*p)) p++; if(*p=='.') { while(*p && (*p=='.' || isdigit(*p))) p++; n = p - q; if(n>15) goto parselan_error; memcpy(tmp, q, n); tmp[n] = '\0'; if(!inet_aton(tmp, &lan_addr->mask)) goto parselan_error; } else { int nbits = atoi(q); if(nbits > 32 || nbits < 0) goto parselan_error; lan_addr->mask.s_addr = htonl(nbits ? (0xffffffffu << (32 - nbits)) : 0); } } else { /* by default, networks are /24 */ lan_addr->mask.s_addr = htonl(0xffffff00u); } #ifdef MULTIPLE_EXTERNAL_IP /* skip spaces */ while(*p && isspace(*p)) p++; if(*p) { /* parse the exteral ip address to associate with this subnet */ n = 0; while(p[n] && !isspace(*p)) n++; if(n<=15) { memcpy(lan_addr->ext_ip_str, p, n); lan_addr->ext_ip_str[n] = '\0'; if(!inet_aton(lan_addr->ext_ip_str, &lan_addr->ext_ip_addr)) { /* error */ fprintf(stderr, "Error parsing address : %s\n", lan_addr->ext_ip_str); } } } #endif #ifdef ENABLE_IPV6 if(lan_addr->ifname[0] != '\0') { lan_addr->index = if_nametoindex(lan_addr->ifname); if(lan_addr->index == 0) fprintf(stderr, "Cannot get index for network interface %s", lan_addr->ifname); } #endif return 0; parselan_error: fprintf(stderr, "Error parsing address/mask (or interface name) : %s\n", str); return -1; } /* init phase : * 1) read configuration file * 2) read command line arguments * 3) daemonize * 4) open syslog * 5) check and write pid file * 6) set startup time stamp * 7) compute presentation URL * 8) set signal handlers */ static int init(int argc, char * * argv, struct runtime_vars * v) { int i; int pid; int debug_flag = 0; int openlog_option; struct sigaction sa; /*const char * logfilename = 0;*/ const char * presurl = 0; #ifndef DISABLE_CONFIG_FILE int options_flag = 0; const char * optionsfile = DEFAULT_CONFIG; #endif /* DISABLE_CONFIG_FILE */ struct lan_addr_s * lan_addr; struct lan_addr_s * lan_addr2; /* only print usage if -h is used */ for(i=1; iport = -1; v->notify_interval = 30; /* seconds between SSDP announces */ v->clean_ruleset_threshold = 20; v->clean_ruleset_interval = 0; /* interval between ruleset check. 0=disabled */ #ifndef DISABLE_CONFIG_FILE /* read options file first since * command line arguments have final say */ if(readoptionsfile(optionsfile) < 0) { /* only error if file exists or using -f */ if(access(optionsfile, F_OK) == 0 || options_flag) fprintf(stderr, "Error reading configuration file %s\n", optionsfile); } else { for(i=0; i<(int)num_options; i++) { switch(ary_options[i].id) { case UPNPEXT_IFNAME: ext_if_name = ary_options[i].value; break; case UPNPEXT_IP: use_ext_ip_addr = ary_options[i].value; break; case UPNPLISTENING_IP: lan_addr = (struct lan_addr_s *) malloc(sizeof(struct lan_addr_s)); if (lan_addr == NULL) { fprintf(stderr, "malloc(sizeof(struct lan_addr_s)): %m"); break; } if(parselanaddr(lan_addr, ary_options[i].value) != 0) { fprintf(stderr, "can't parse \"%s\" as valid lan address\n", ary_options[i].value); free(lan_addr); break; } LIST_INSERT_HEAD(&lan_addrs, lan_addr, list); break; case UPNPPORT: v->port = atoi(ary_options[i].value); break; case UPNPBITRATE_UP: upstream_bitrate = strtoul(ary_options[i].value, 0, 0); break; case UPNPBITRATE_DOWN: downstream_bitrate = strtoul(ary_options[i].value, 0, 0); break; case UPNPPRESENTATIONURL: presurl = ary_options[i].value; break; case UPNPFRIENDLY_NAME: strncpy(friendly_name, ary_options[i].value, FRIENDLY_NAME_MAX_LEN); friendly_name[FRIENDLY_NAME_MAX_LEN-1] = '\0'; break; #ifdef USE_NETFILTER case UPNPFORWARDCHAIN: miniupnpd_forward_chain = ary_options[i].value; break; case UPNPNATCHAIN: miniupnpd_nat_chain = ary_options[i].value; break; #endif case UPNPNOTIFY_INTERVAL: v->notify_interval = atoi(ary_options[i].value); break; case UPNPSYSTEM_UPTIME: if(strcmp(ary_options[i].value, "yes") == 0) SETFLAG(SYSUPTIMEMASK); /*sysuptime = 1;*/ break; #if defined(USE_PF) || defined(USE_IPF) case UPNPPACKET_LOG: if(strcmp(ary_options[i].value, "yes") == 0) SETFLAG(LOGPACKETSMASK); /*logpackets = 1;*/ break; #endif case UPNPUUID: strncpy(uuidvalue+5, ary_options[i].value, strlen(uuidvalue+5) + 1); break; case UPNPSERIAL: strncpy(serialnumber, ary_options[i].value, SERIALNUMBER_MAX_LEN); serialnumber[SERIALNUMBER_MAX_LEN-1] = '\0'; break; case UPNPMODEL_NUMBER: strncpy(modelnumber, ary_options[i].value, MODELNUMBER_MAX_LEN); modelnumber[MODELNUMBER_MAX_LEN-1] = '\0'; break; case UPNPCLEANTHRESHOLD: v->clean_ruleset_threshold = atoi(ary_options[i].value); break; case UPNPCLEANINTERVAL: v->clean_ruleset_interval = atoi(ary_options[i].value); break; #ifdef USE_PF case UPNPANCHOR: anchor_name = ary_options[i].value; break; case UPNPQUEUE: queue = ary_options[i].value; break; case UPNPTAG: tag = ary_options[i].value; break; #endif #ifdef ENABLE_NATPMP case UPNPENABLENATPMP: if(strcmp(ary_options[i].value, "yes") == 0) SETFLAG(ENABLENATPMPMASK); /*enablenatpmp = 1;*/ else if(atoi(ary_options[i].value)) SETFLAG(ENABLENATPMPMASK); /*enablenatpmp = atoi(ary_options[i].value);*/ break; #endif #ifdef PF_ENABLE_FILTER_RULES case UPNPQUICKRULES: if(strcmp(ary_options[i].value, "no") == 0) SETFLAG(PFNOQUICKRULESMASK); break; #endif case UPNPENABLE: if(strcmp(ary_options[i].value, "yes") != 0) CLEARFLAG(ENABLEUPNPMASK); break; case UPNPSECUREMODE: if(strcmp(ary_options[i].value, "yes") == 0) SETFLAG(SECUREMODEMASK); break; #ifdef ENABLE_LEASEFILE case UPNPLEASEFILE: lease_file = ary_options[i].value; break; #endif case UPNPMINISSDPDSOCKET: minissdpdsocketpath = ary_options[i].value; break; default: fprintf(stderr, "Unknown option in file %s\n", optionsfile); } } } #endif /* DISABLE_CONFIG_FILE */ /* command line arguments processing */ for(i=1; inotify_interval = atoi(argv[++i]); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; case 'r': if(i+1 < argc) v->clean_ruleset_interval = atoi(argv[++i]); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; case 'u': if(i+1 < argc) strncpy(uuidvalue+5, argv[++i], strlen(uuidvalue+5) + 1); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; case 'z': if(i+1 < argc) strncpy(friendly_name, argv[++i], FRIENDLY_NAME_MAX_LEN); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); friendly_name[FRIENDLY_NAME_MAX_LEN-1] = '\0'; break; case 's': if(i+1 < argc) strncpy(serialnumber, argv[++i], SERIALNUMBER_MAX_LEN); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); serialnumber[SERIALNUMBER_MAX_LEN-1] = '\0'; break; case 'm': if(i+1 < argc) strncpy(modelnumber, argv[++i], MODELNUMBER_MAX_LEN); else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); modelnumber[MODELNUMBER_MAX_LEN-1] = '\0'; break; #ifdef ENABLE_NATPMP case 'N': /*enablenatpmp = 1;*/ SETFLAG(ENABLENATPMPMASK); break; #endif case 'U': /*sysuptime = 1;*/ SETFLAG(SYSUPTIMEMASK); break; /*case 'l': logfilename = argv[++i]; break;*/ #if defined(USE_PF) || defined(USE_IPF) case 'L': /*logpackets = 1;*/ SETFLAG(LOGPACKETSMASK); break; #endif case 'S': SETFLAG(SECUREMODEMASK); break; case 'i': if(i+1 < argc) ext_if_name = argv[++i]; else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; #ifdef USE_PF case 'q': if(i+1 < argc) queue = argv[++i]; else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; case 'T': if(i+1 < argc) tag = argv[++i]; else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; #endif case 'p': if(i+1 < argc) v->port = atoi(argv[++i]); else #ifdef ENABLE_NFQUEUE case 'Q': if(i+1list.le_next) { if (0 == strncmp(lan_addr2->str, lan_addr->str, 15)) break; } if (lan_addr2 == NULL) LIST_INSERT_HEAD(&lan_addrs, lan_addr, list); } else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); #else if(i+2 < argc) { char *val=calloc((strlen(argv[i+1]) + strlen(argv[i+2]) + 1), sizeof(char)); if (val == NULL) { fprintf(stderr, "memory allocation error for listen address storage\n"); break; } sprintf(val, "%s %s", argv[i+1], argv[i+2]); lan_addr = (struct lan_addr_s *) malloc(sizeof(struct lan_addr_s)); if (lan_addr == NULL) { fprintf(stderr, "malloc(sizeof(struct lan_addr_s)): %m"); free(val); break; } if(parselanaddr(lan_addr, val) != 0) { fprintf(stderr, "can't parse \"%s\" as valid lan address\n", val); free(lan_addr); free(val); break; } /* check if we already have this address */ for(lan_addr2 = lan_addrs.lh_first; lan_addr2 != NULL; lan_addr2 = lan_addr2->list.le_next) { if (0 == strncmp(lan_addr2->str, lan_addr->str, 15)) break; } if (lan_addr2 == NULL) LIST_INSERT_HEAD(&lan_addrs, lan_addr, list); free(val); i+=2; } else fprintf(stderr, "Option -%c takes two arguments.\n", argv[i][1]); #endif break; case 'A': if(i+1 < argc) { void * tmp; tmp = realloc(upnppermlist, sizeof(struct upnpperm) * (num_upnpperm+1)); if(tmp == NULL) { fprintf(stderr, "memory allocation error for permission\n"); } else { upnppermlist = tmp; if(read_permission_line(upnppermlist + num_upnpperm, argv[++i]) >= 0) { num_upnpperm++; } else { fprintf(stderr, "Permission rule parsing error :\n%s\n", argv[i]); } } } else fprintf(stderr, "Option -%c takes one argument.\n", argv[i][1]); break; case 'f': i++; /* discarding, the config file is already read */ break; default: fprintf(stderr, "Unknown option: %s\n", argv[i]); } } if(!ext_if_name || !lan_addrs.lh_first) { /* bad configuration */ goto print_usage; } if(debug_flag) { pid = getpid(); } else { #ifdef USE_DAEMON if(daemon(0, 0)<0) { perror("daemon()"); } pid = getpid(); #else pid = daemonize(); #endif } openlog_option = LOG_PID|LOG_CONS; if(debug_flag) { openlog_option |= LOG_PERROR; /* also log on stderr */ } openlog("miniupnpd", openlog_option, LOG_MINIUPNPD); if(!debug_flag) { /* speed things up and ignore LOG_INFO and LOG_DEBUG */ setlogmask(LOG_UPTO(LOG_NOTICE)); } if(checkforrunning(pidfilename) < 0) { syslog(LOG_ERR, "MiniUPnPd is already running. EXITING"); return 1; } set_startup_time(GETFLAG(SYSUPTIMEMASK)); /* presentation url */ if(presurl) { strncpy(presentationurl, presurl, PRESENTATIONURL_MAX_LEN); presentationurl[PRESENTATIONURL_MAX_LEN-1] = '\0'; } else { snprintf(presentationurl, PRESENTATIONURL_MAX_LEN, "http://%s/", lan_addrs.lh_first->str); /*"http://%s:%d/", lan_addrs.lh_first->str, 80);*/ } /* set signal handler */ memset(&sa, 0, sizeof(struct sigaction)); sa.sa_handler = sigterm; if(sigaction(SIGTERM, &sa, NULL) < 0) { syslog(LOG_ERR, "Failed to set %s handler. EXITING", "SIGTERM"); return 1; } if(sigaction(SIGINT, &sa, NULL) < 0) { syslog(LOG_ERR, "Failed to set %s handler. EXITING", "SIGINT"); return 1; } sa.sa_handler = SIG_IGN; if(sigaction(SIGPIPE, &sa, NULL) < 0) { syslog(LOG_ERR, "Failed to ignore SIGPIPE signals"); } sa.sa_handler = sigusr1; if(sigaction(SIGUSR1, &sa, NULL) < 0) { syslog(LOG_NOTICE, "Failed to set %s handler", "SIGUSR1"); } if(init_redirect() < 0) { syslog(LOG_ERR, "Failed to init redirection engine. EXITING"); return 1; } #ifdef ENABLE_6FC_SERVICE #ifdef USE_NETFILTER init_iptpinhole(); #endif #endif if(writepidfile(pidfilename, pid) < 0) pidfilename = NULL; #ifdef ENABLE_LEASEFILE /*remove(lease_file);*/ syslog(LOG_INFO, "Reloading rules from lease file"); reload_from_lease_file(); #endif return 0; print_usage: fprintf(stderr, "Usage:\n\t" "%s " #ifndef DISABLE_CONFIG_FILE "[-f config_file] " #endif "[-i ext_ifname] [-o ext_ip]\n" #ifndef MULTIPLE_EXTERNAL_IP "\t\t[-a listening_ip]" #else "\t\t[-a listening_ip ext_ip]" #endif " [-p port] [-d]" #if defined(USE_PF) || defined(USE_IPF) " [-L]" #endif " [-U] [-S]" #ifdef ENABLE_NATPMP " [-N]" #endif "\n" /*"[-l logfile] " not functionnal */ "\t\t[-u uuid] [-s serial] [-m model_number] \n" "\t\t[-t notify_interval] [-P pid_filename] [-z fiendly_name]\n" "\t\t[-B down up] [-w url] [-r clean_ruleset_interval]\n" #ifdef USE_PF "\t\t[-q queue] [-T tag]\n" #endif #ifdef ENABLE_NFQUEUE "\t\t[-Q queue] [-n name]\n" #endif "\t\t[-A \"permission rule\"]\n" "\nNotes:\n\tThere can be one or several listening_ips.\n" "\tNotify interval is in seconds. Default is 30 seconds.\n" "\tDefault pid file is '%s'.\n" "\tDefault config file is '%s'.\n" "\tWith -d miniupnpd will run as a standard program.\n" #if defined(USE_PF) || defined(USE_IPF) "\t-L sets packet log in pf and ipf on.\n" #endif "\t-S sets \"secure\" mode : clients can only add mappings to their own ip\n" "\t-U causes miniupnpd to report system uptime instead " "of daemon uptime.\n" #ifdef ENABLE_NATPMP "\t-N enable NAT-PMP functionality.\n" #endif "\t-B sets bitrates reported by daemon in bits per second.\n" "\t-w sets the presentation url. Default is http address on port 80\n" #ifdef USE_PF "\t-q sets the ALTQ queue in pf.\n" "\t-T sets the tag name in pf.\n" #endif #ifdef ENABLE_NFQUEUE "\t-Q sets the queue number that is used by NFQUEUE.\n" "\t-n sets the name of the interface(s) that packets will arrive on.\n" #endif "\t-A use following syntax for permission rules :\n" "\t (allow|deny) (external port range) ip/mask (internal port range)\n" "\texamples :\n" "\t \"allow 1024-65535 192.168.1.0/24 1024-65535\"\n" "\t \"deny 0-65535 0.0.0.0/0 0-65535\"\n" "\t-h prints this help and quits.\n" "", argv[0], pidfilename, DEFAULT_CONFIG); return 1; } /* === main === */ /* process HTTP or SSDP requests */ int main(int argc, char * * argv) { int i; int shttpl = -1; /* socket for HTTP */ int sudp = -1; /* IP v4 socket for receiving SSDP */ #ifdef ENABLE_IPV6 int sudpv6 = -1; /* IP v6 socket for receiving SSDP */ #endif #ifdef ENABLE_NATPMP int * snatpmp = NULL; #endif #ifdef ENABLE_NFQUEUE int nfqh = -1; #endif #ifdef USE_IFACEWATCHER int sifacewatcher = -1; #endif int * snotify = NULL; int addr_count; LIST_HEAD(httplisthead, upnphttp) upnphttphead; struct upnphttp * e = 0; struct upnphttp * next; fd_set readset; /* for select() */ fd_set writeset; struct timeval timeout, timeofday, lasttimeofday = {0, 0}; int max_fd = -1; #ifdef USE_MINIUPNPDCTL int sctl = -1; LIST_HEAD(ctlstructhead, ctlelem) ctllisthead; struct ctlelem * ectl; struct ctlelem * ectlnext; #endif struct runtime_vars v; /* variables used for the unused-rule cleanup process */ struct rule_state * rule_list = 0; struct timeval checktime = {0, 0}; struct lan_addr_s * lan_addr; #ifdef ENABLE_6FC_SERVICE unsigned int next_pinhole_ts; #endif if(init(argc, argv, &v) != 0) return 1; /* count lan addrs */ addr_count = 0; for(lan_addr = lan_addrs.lh_first; lan_addr != NULL; lan_addr = lan_addr->list.le_next) addr_count++; if(addr_count > 0) { #ifndef ENABLE_IPV6 snotify = calloc(addr_count, sizeof(int)); #else /* one for IPv4, one for IPv6 */ snotify = calloc(addr_count * 2, sizeof(int)); #endif } #ifdef ENABLE_NATPMP if(addr_count > 0) { snatpmp = malloc(addr_count * sizeof(int)); for(i = 0; i < addr_count; i++) snatpmp[i] = -1; } #endif LIST_INIT(&upnphttphead); #ifdef USE_MINIUPNPDCTL LIST_INIT(&ctllisthead); #endif if( #ifdef ENABLE_NATPMP !GETFLAG(ENABLENATPMPMASK) && #endif !GETFLAG(ENABLEUPNPMASK) ) { syslog(LOG_ERR, "Why did you run me anyway?"); return 0; } syslog(LOG_INFO, "Starting%s%swith external interface %s", #ifdef ENABLE_NATPMP GETFLAG(ENABLENATPMPMASK) ? " NAT-PMP " : " ", #else " ", #endif GETFLAG(ENABLEUPNPMASK) ? "UPnP-IGD " : "", ext_if_name); if(GETFLAG(ENABLEUPNPMASK)) { /* open socket for HTTP connections. Listen on the 1st LAN address */ shttpl = OpenAndConfHTTPSocket((v.port > 0) ? v.port : 0); if(shttpl < 0) { syslog(LOG_ERR, "Failed to open socket for HTTP. EXITING"); return 1; } if(v.port <= 0) { struct sockaddr_in sockinfo; socklen_t len = sizeof(struct sockaddr_in); if (getsockname(shttpl, (struct sockaddr *)&sockinfo, &len) < 0) { syslog(LOG_ERR, "getsockname(): %m"); return 1; } v.port = ntohs(sockinfo.sin_port); } syslog(LOG_NOTICE, "HTTP listening on port %d", v.port); #ifdef ENABLE_IPV6 if(find_ipv6_addr(NULL, ipv6_addr_for_http_with_brackets, sizeof(ipv6_addr_for_http_with_brackets)) > 0) { syslog(LOG_NOTICE, "HTTP IPv6 address given to control points : %s", ipv6_addr_for_http_with_brackets); } else { memcpy(ipv6_addr_for_http_with_brackets, "[::1]", 6); syslog(LOG_WARNING, "no HTTP IPv6 address"); } #endif /* open socket for SSDP connections */ sudp = OpenAndConfSSDPReceiveSocket(0); if(sudp < 0) { syslog(LOG_NOTICE, "Failed to open socket for receiving SSDP. Trying to use MiniSSDPd"); if(SubmitServicesToMiniSSDPD(lan_addrs.lh_first->str, v.port) < 0) { syslog(LOG_ERR, "Failed to connect to MiniSSDPd. EXITING"); return 1; } } #ifdef ENABLE_IPV6 sudpv6 = OpenAndConfSSDPReceiveSocket(1); if(sudpv6 < 0) { syslog(LOG_WARNING, "Failed to open socket for receiving SSDP (IP v6)."); } #endif /* open socket for sending notifications */ if(OpenAndConfSSDPNotifySockets(snotify) < 0) { syslog(LOG_ERR, "Failed to open sockets for sending SSDP notify " "messages. EXITING"); return 1; } #ifdef USE_IFACEWATCHER /* open socket for kernel notifications about new network interfaces */ if (sudp >= 0) { sifacewatcher = OpenAndConfInterfaceWatchSocket(); if (sifacewatcher < 0) { syslog(LOG_ERR, "Failed to open socket for receiving network interface notifications"); } } #endif } #ifdef ENABLE_NATPMP /* open socket for NAT PMP traffic */ if(GETFLAG(ENABLENATPMPMASK)) { if(OpenAndConfNATPMPSockets(snatpmp) < 0) { syslog(LOG_ERR, "Failed to open sockets for NAT PMP."); } else { syslog(LOG_NOTICE, "Listening for NAT-PMP traffic on port %u", NATPMP_PORT); } #if 0 ScanNATPMPforExpiration(); #endif } #endif /* for miniupnpdctl */ #ifdef USE_MINIUPNPDCTL sctl = OpenAndConfCtlUnixSocket("/var/run/miniupnpd.ctl"); #endif #ifdef ENABLE_NFQUEUE if ( nfqueue != -1 && n_nfqix > 0) { nfqh = OpenAndConfNFqueue(); if(nfqh < 0) { syslog(LOG_ERR, "Failed to open fd for NFQUEUE."); return 1; } else { syslog(LOG_NOTICE, "Opened NFQUEUE %d",nfqueue); } } #endif /* main loop */ while(!quitting) { /* Correct startup_time if it was set with a RTC close to 0 */ if((startup_time<60*60*24) && (time(NULL)>60*60*24)) { set_startup_time(GETFLAG(SYSUPTIMEMASK)); } /* send public address change notifications if needed */ if(should_send_public_address_change_notif) { syslog(LOG_DEBUG, "should send external iface address change notification(s)"); #ifdef ENABLE_NATPMP if(GETFLAG(ENABLENATPMPMASK)) SendNATPMPPublicAddressChangeNotification(snatpmp, addr_count); #endif #ifdef ENABLE_EVENTS if(GETFLAG(ENABLEUPNPMASK)) { upnp_event_var_change_notify(EWanIPC); } #endif should_send_public_address_change_notif = 0; } /* Check if we need to send SSDP NOTIFY messages and do it if * needed */ if(gettimeofday(&timeofday, 0) < 0) { syslog(LOG_ERR, "gettimeofday(): %m"); timeout.tv_sec = v.notify_interval; timeout.tv_usec = 0; } else { /* the comparaison is not very precise but who cares ? */ if(timeofday.tv_sec >= (lasttimeofday.tv_sec + v.notify_interval)) { if (GETFLAG(ENABLEUPNPMASK)) SendSSDPNotifies2(snotify, (unsigned short)v.port, v.notify_interval << 1); memcpy(&lasttimeofday, &timeofday, sizeof(struct timeval)); timeout.tv_sec = v.notify_interval; timeout.tv_usec = 0; } else { timeout.tv_sec = lasttimeofday.tv_sec + v.notify_interval - timeofday.tv_sec; if(timeofday.tv_usec > lasttimeofday.tv_usec) { timeout.tv_usec = 1000000 + lasttimeofday.tv_usec - timeofday.tv_usec; timeout.tv_sec--; } else { timeout.tv_usec = lasttimeofday.tv_usec - timeofday.tv_usec; } } } /* remove unused rules */ if( v.clean_ruleset_interval && (timeofday.tv_sec >= checktime.tv_sec + v.clean_ruleset_interval)) { if(rule_list) { remove_unused_rules(rule_list); rule_list = NULL; } else { rule_list = get_upnp_rules_state_list(v.clean_ruleset_threshold); } memcpy(&checktime, &timeofday, sizeof(struct timeval)); } /* Remove expired port mappings, based on UPnP IGD LeaseDuration * or NAT-PMP lifetime) */ if(nextruletoclean_timestamp && ((unsigned int)timeofday.tv_sec >= nextruletoclean_timestamp)) { syslog(LOG_DEBUG, "cleaning expired Port Mappings"); get_upnp_rules_state_list(0); } if(nextruletoclean_timestamp && ((unsigned int)timeout.tv_sec >= (nextruletoclean_timestamp - timeofday.tv_sec))) { timeout.tv_sec = nextruletoclean_timestamp - timeofday.tv_sec; timeout.tv_usec = 0; syslog(LOG_DEBUG, "setting timeout to %u sec", (unsigned)timeout.tv_sec); } #ifdef ENABLE_NATPMP #if 0 /* Remove expired NAT-PMP mappings */ while(nextnatpmptoclean_timestamp && (timeofday.tv_sec >= nextnatpmptoclean_timestamp + startup_time)) { /*syslog(LOG_DEBUG, "cleaning expired NAT-PMP mappings");*/ if(CleanExpiredNATPMP() < 0) { syslog(LOG_ERR, "CleanExpiredNATPMP() failed"); break; } } if(nextnatpmptoclean_timestamp && timeout.tv_sec >= (nextnatpmptoclean_timestamp + startup_time - timeofday.tv_sec)) { /*syslog(LOG_DEBUG, "setting timeout to %d sec", nextnatpmptoclean_timestamp + startup_time - timeofday.tv_sec);*/ timeout.tv_sec = nextnatpmptoclean_timestamp + startup_time - timeofday.tv_sec; timeout.tv_usec = 0; } #endif #endif #ifdef ENABLE_6FC_SERVICE /* Clean up expired IPv6 PinHoles */ next_pinhole_ts = 0; upnp_clean_expired_pinholes(&next_pinhole_ts); if(next_pinhole_ts && timeout.tv_sec >= (int)(next_pinhole_ts - timeofday.tv_sec)) { timeout.tv_sec = next_pinhole_ts - timeofday.tv_sec; timeout.tv_usec = 0; } #endif /* select open sockets (SSDP, HTTP listen, and all HTTP soap sockets) */ FD_ZERO(&readset); FD_ZERO(&writeset); if (sudp >= 0) { FD_SET(sudp, &readset); max_fd = MAX( max_fd, sudp); #ifdef USE_IFACEWATCHER if (sifacewatcher >= 0) { FD_SET(sifacewatcher, &readset); max_fd = MAX(max_fd, sifacewatcher); } #endif } if (shttpl >= 0) { FD_SET(shttpl, &readset); max_fd = MAX( max_fd, shttpl); } #ifdef ENABLE_IPV6 if (sudpv6 >= 0) { FD_SET(sudpv6, &readset); max_fd = MAX( max_fd, sudpv6); } #endif #ifdef ENABLE_NFQUEUE if (nfqh >= 0) { FD_SET(nfqh, &readset); max_fd = MAX( max_fd, nfqh); } #endif i = 0; /* active HTTP connections count */ for(e = upnphttphead.lh_first; e != NULL; e = e->entries.le_next) { if(e->socket >= 0) { if(e->state <= EWaitingForHttpContent) FD_SET(e->socket, &readset); else if(e->state == ESendingAndClosing) FD_SET(e->socket, &writeset); else continue; max_fd = MAX(max_fd, e->socket); i++; } } /* for debug */ #ifdef DEBUG if(i > 1) { syslog(LOG_DEBUG, "%d active incoming HTTP connections", i); } #endif #ifdef ENABLE_NATPMP for(i=0; i= 0) { FD_SET(snatpmp[i], &readset); max_fd = MAX( max_fd, snatpmp[i]); } } #endif #ifdef USE_MINIUPNPDCTL if(sctl >= 0) { FD_SET(sctl, &readset); max_fd = MAX( max_fd, sctl); } for(ectl = ctllisthead.lh_first; ectl; ectl = ectl->entries.le_next) { if(ectl->socket >= 0) { FD_SET(ectl->socket, &readset); max_fd = MAX( max_fd, ectl->socket); } } #endif #ifdef ENABLE_EVENTS upnpevents_selectfds(&readset, &writeset, &max_fd); #endif if(select(max_fd+1, &readset, &writeset, 0, &timeout) < 0) { if(quitting) goto shutdown; if(errno == EINTR) continue; /* interrupted by a signal, start again */ syslog(LOG_ERR, "select(all): %m"); syslog(LOG_ERR, "Failed to select open sockets. EXITING"); return 1; /* very serious cause of error */ } #ifdef USE_MINIUPNPDCTL for(ectl = ctllisthead.lh_first; ectl;) { ectlnext = ectl->entries.le_next; if((ectl->socket >= 0) && FD_ISSET(ectl->socket, &readset)) { char buf[256]; int l; l = read(ectl->socket, buf, sizeof(buf)); if(l > 0) { /*write(ectl->socket, buf, l);*/ write_command_line(ectl->socket, argc, argv); #ifndef DISABLE_CONFIG_FILE write_option_list(ectl->socket); #endif write_permlist(ectl->socket, upnppermlist, num_upnpperm); write_upnphttp_details(ectl->socket, upnphttphead.lh_first); write_ctlsockets_list(ectl->socket, ctllisthead.lh_first); write_ruleset_details(ectl->socket); #ifdef ENABLE_EVENTS write_events_details(ectl->socket); #endif /* close the socket */ close(ectl->socket); ectl->socket = -1; } else { close(ectl->socket); ectl->socket = -1; } } if(ectl->socket < 0) { LIST_REMOVE(ectl, entries); free(ectl); } ectl = ectlnext; } if((sctl >= 0) && FD_ISSET(sctl, &readset)) { int s; struct sockaddr_un clientname; struct ctlelem * tmp; socklen_t clientnamelen = sizeof(struct sockaddr_un); /*syslog(LOG_DEBUG, "sctl!");*/ s = accept(sctl, (struct sockaddr *)&clientname, &clientnamelen); syslog(LOG_DEBUG, "sctl! : '%s'", clientname.sun_path); tmp = malloc(sizeof(struct ctlelem)); if (tmp == NULL) { syslog(LOG_ERR, "Unable to allocate memory for ctlelem in main()"); close(s); } else { tmp->socket = s; LIST_INSERT_HEAD(&ctllisthead, tmp, entries); } } #endif #ifdef ENABLE_EVENTS upnpevents_processfds(&readset, &writeset); #endif #ifdef ENABLE_NATPMP /* process NAT-PMP packets */ for(i=0; i= 0) && FD_ISSET(snatpmp[i], &readset)) { ProcessIncomingNATPMPPacket(snatpmp[i]); } } #endif /* process SSDP packets */ if(sudp >= 0 && FD_ISSET(sudp, &readset)) { /*syslog(LOG_INFO, "Received UDP Packet");*/ ProcessSSDPRequest(sudp, (unsigned short)v.port); } #ifdef ENABLE_IPV6 if(sudpv6 >= 0 && FD_ISSET(sudpv6, &readset)) { syslog(LOG_INFO, "Received UDP Packet (IPv6)"); ProcessSSDPRequest(sudpv6, (unsigned short)v.port); } #endif #ifdef USE_IFACEWATCHER /* process kernel notifications */ if (sifacewatcher >= 0 && FD_ISSET(sifacewatcher, &readset)) ProcessInterfaceWatchNotify(sifacewatcher); #endif /* process active HTTP connections */ /* LIST_FOREACH macro is not available under linux */ for(e = upnphttphead.lh_first; e != NULL; e = e->entries.le_next) { if(e->socket >= 0) { if(FD_ISSET(e->socket, &readset) || FD_ISSET(e->socket, &writeset)) { Process_upnphttp(e); } } } /* process incoming HTTP connections */ if(shttpl >= 0 && FD_ISSET(shttpl, &readset)) { int shttp; socklen_t clientnamelen; #ifdef ENABLE_IPV6 struct sockaddr_storage clientname; clientnamelen = sizeof(struct sockaddr_storage); #else struct sockaddr_in clientname; clientnamelen = sizeof(struct sockaddr_in); #endif shttp = accept(shttpl, (struct sockaddr *)&clientname, &clientnamelen); if(shttp<0) { /* ignore EAGAIN, EWOULDBLOCK, EINTR, we just try again later */ if(errno != EAGAIN && errno != EWOULDBLOCK && errno != EINTR) syslog(LOG_ERR, "accept(http): %m"); } else { struct upnphttp * tmp = 0; char addr_str[64]; sockaddr_to_string((struct sockaddr *)&clientname, addr_str, sizeof(addr_str)); syslog(LOG_INFO, "HTTP connection from %s", addr_str); if(get_lan_for_peer((struct sockaddr *)&clientname) == NULL) { /* The peer is not a LAN ! */ syslog(LOG_WARNING, "HTTP peer %s is not from a LAN, closing the connection", addr_str); close(shttp); } else { /* Create a new upnphttp object and add it to * the active upnphttp object list */ tmp = New_upnphttp(shttp); if(tmp) { #ifdef ENABLE_IPV6 if(clientname.ss_family == AF_INET) { tmp->clientaddr = ((struct sockaddr_in *)&clientname)->sin_addr; } else if(clientname.ss_family == AF_INET6) { struct sockaddr_in6 * addr = (struct sockaddr_in6 *)&clientname; if(IN6_IS_ADDR_V4MAPPED(&addr->sin6_addr)) { memcpy(&tmp->clientaddr, &addr->sin6_addr.s6_addr[12], 4); } else { tmp->ipv6 = 1; memcpy(&tmp->clientaddr_v6, &addr->sin6_addr, sizeof(struct in6_addr)); } } #else tmp->clientaddr = clientname.sin_addr; #endif LIST_INSERT_HEAD(&upnphttphead, tmp, entries); } else { syslog(LOG_ERR, "New_upnphttp() failed"); close(shttp); } } } } #ifdef ENABLE_NFQUEUE /* process NFQ packets */ if(nfqh >= 0 && FD_ISSET(nfqh, &readset)) { /* syslog(LOG_INFO, "Received NFQUEUE Packet");*/ ProcessNFQUEUE(nfqh); } #endif /* delete finished HTTP connections */ for(e = upnphttphead.lh_first; e != NULL; ) { next = e->entries.le_next; if(e->state >= EToDelete) { LIST_REMOVE(e, entries); Delete_upnphttp(e); } e = next; } } /* end of main loop */ shutdown: /* close out open sockets */ while(upnphttphead.lh_first != NULL) { e = upnphttphead.lh_first; LIST_REMOVE(e, entries); Delete_upnphttp(e); } if (sudp >= 0) close(sudp); if (shttpl >= 0) close(shttpl); #ifdef ENABLE_IPV6 if (sudpv6 >= 0) close(sudpv6); #endif #ifdef USE_IFACEWATCHER if(sifacewatcher >= 0) close(sifacewatcher); #endif #ifdef ENABLE_NATPMP for(i=0; i=0) { close(snatpmp[i]); snatpmp[i] = -1; } } #endif #ifdef USE_MINIUPNPDCTL if(sctl>=0) { close(sctl); sctl = -1; if(unlink("/var/run/miniupnpd.ctl") < 0) { syslog(LOG_ERR, "unlink() %m"); } } #endif if (GETFLAG(ENABLEUPNPMASK)) { #ifndef ENABLE_IPV6 if(SendSSDPGoodbye(snotify, addr_count) < 0) #else if(SendSSDPGoodbye(snotify, addr_count * 2) < 0) #endif { syslog(LOG_ERR, "Failed to broadcast good-bye notifications"); } #ifndef ENABLE_IPV6 for(i = 0; i < addr_count; i++) #else for(i = 0; i < addr_count * 2; i++) #endif close(snotify[i]); } if(pidfilename && (unlink(pidfilename) < 0)) { syslog(LOG_ERR, "Failed to remove pidfile %s: %m", pidfilename); } /* delete lists */ while(lan_addrs.lh_first != NULL) { lan_addr = lan_addrs.lh_first; LIST_REMOVE(lan_addrs.lh_first, list); free(lan_addr); } #ifdef ENABLE_NATPMP free(snatpmp); #endif free(snotify); closelog(); #ifndef DISABLE_CONFIG_FILE freeoptions(); #endif return 0; }