/* $Id: minissdpd.c,v 1.30 2012/04/09 21:50:18 nanard Exp $ */ /* MiniUPnP project * (c) 2007-2012 Thomas Bernard * website : http://miniupnp.free.fr/ or http://miniupnp.tuxfamily.org/ * This software is subject to the conditions detailed * in the LICENCE file provided within the distribution */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* for chmod : */ #include /* unix sockets */ #include /* for getpwnam() and getgrnam() */ #include #include #include "upnputils.h" #include "openssdpsocket.h" #include "daemonize.h" #include "codelength.h" #include "ifacewatch.h" /* current request management stucture */ struct reqelem { int socket; LIST_ENTRY(reqelem) entries; }; /* divice data structures */ struct header { const char * p; /* string pointer */ int l; /* string length */ }; #define HEADER_NT 0 #define HEADER_USN 1 #define HEADER_LOCATION 2 struct device { struct device * next; time_t t; /* validity time */ struct header headers[3]; /* NT, USN and LOCATION headers */ char data[]; }; #define NTS_SSDP_ALIVE 1 #define NTS_SSDP_BYEBYE 2 #define NTS_SSDP_UPDATE 3 /* discovered device list kept in memory */ struct device * devlist = 0; /* bootid and configid */ unsigned int upnp_bootid = 1; unsigned int upnp_configid = 1337; static const char * nts_to_str(int nts) { switch(nts) { case NTS_SSDP_ALIVE: return "ssdp:alive"; case NTS_SSDP_BYEBYE: return "ssdp:byebye"; case NTS_SSDP_UPDATE: return "ssdp:update"; } return "unknown"; } /* updateDevice() : * adds or updates the device to the list. * return value : * 0 : the device was updated (or nothing done) * 1 : the device was new */ static int updateDevice(const struct header * headers, time_t t) { struct device ** pp = &devlist; struct device * p = *pp; /* = devlist; */ while(p) { if( p->headers[HEADER_NT].l == headers[HEADER_NT].l && (0==memcmp(p->headers[HEADER_NT].p, headers[HEADER_NT].p, headers[HEADER_NT].l)) && p->headers[HEADER_USN].l == headers[HEADER_USN].l && (0==memcmp(p->headers[HEADER_USN].p, headers[HEADER_USN].p, headers[HEADER_USN].l)) ) { /*printf("found! %d\n", (int)(t - p->t));*/ syslog(LOG_DEBUG, "device updated : %.*s", headers[HEADER_USN].l, headers[HEADER_USN].p); p->t = t; /* update Location ! */ if(headers[HEADER_LOCATION].l > p->headers[HEADER_LOCATION].l) { p = realloc(p, sizeof(struct device) + headers[0].l+headers[1].l+headers[2].l ); if(!p) /* allocation error */ { syslog(LOG_ERR, "updateDevice() : memory allocation error"); return 0; } *pp = p; } memcpy(p->data + p->headers[0].l + p->headers[1].l, headers[2].p, headers[2].l); return 0; } pp = &p->next; p = *pp; /* p = p->next; */ } syslog(LOG_INFO, "new device discovered : %.*s", headers[HEADER_USN].l, headers[HEADER_USN].p); /* add */ { char * pc; int i; p = malloc( sizeof(struct device) + headers[0].l+headers[1].l+headers[2].l ); if(!p) { syslog(LOG_ERR, "updateDevice(): cannot allocate memory"); return -1; } p->next = devlist; p->t = t; pc = p->data; for(i = 0; i < 3; i++) { p->headers[i].p = pc; p->headers[i].l = headers[i].l; memcpy(pc, headers[i].p, headers[i].l); pc += headers[i].l; } devlist = p; } return 1; } /* removeDevice() : * remove a device from the list * return value : * 0 : no device removed * -1 : device removed */ static int removeDevice(const struct header * headers) { struct device ** pp = &devlist; struct device * p = *pp; /* = devlist */ while(p) { if( p->headers[HEADER_NT].l == headers[HEADER_NT].l && (0==memcmp(p->headers[HEADER_NT].p, headers[HEADER_NT].p, headers[HEADER_NT].l)) && p->headers[HEADER_USN].l == headers[HEADER_USN].l && (0==memcmp(p->headers[HEADER_USN].p, headers[HEADER_USN].p, headers[HEADER_USN].l)) ) { syslog(LOG_INFO, "remove device : %.*s", headers[HEADER_USN].l, headers[HEADER_USN].p); *pp = p->next; free(p); return -1; } pp = &p->next; p = *pp; /* p = p->next; */ } syslog(LOG_WARNING, "device not found for removing : %.*s", headers[HEADER_USN].l, headers[HEADER_USN].p); return 0; } /* SendSSDPMSEARCHResponse() : * build and send response to M-SEARCH SSDP packets. */ static void SendSSDPMSEARCHResponse(int s, const struct sockaddr * sockname, const char * st, const char * usn, const char * server, const char * location) { int l, n; char buf[512]; socklen_t sockname_len; /* * follow guideline from document "UPnP Device Architecture 1.0" * uppercase is recommended. * DATE: is recommended * SERVER: OS/ver UPnP/1.0 miniupnpd/1.0 * - check what to put in the 'Cache-Control' header * * have a look at the document "UPnP Device Architecture v1.1 */ l = snprintf(buf, sizeof(buf), "HTTP/1.1 200 OK\r\n" "CACHE-CONTROL: max-age=120\r\n" /*"DATE: ...\r\n"*/ "ST: %s\r\n" "USN: %s\r\n" "EXT:\r\n" "SERVER: %s\r\n" "LOCATION: %s\r\n" "OPT: \"http://schemas.upnp.org/upnp/1/0/\"; ns=01\r\n" /* UDA v1.1 */ "01-NLS: %u\r\n" /* same as BOOTID. UDA v1.1 */ "BOOTID.UPNP.ORG: %u\r\n" /* UDA v1.1 */ "CONFIGID.UPNP.ORG: %u\r\n" /* UDA v1.1 */ "\r\n", st, usn, server, location, upnp_bootid, upnp_bootid, upnp_configid); #ifdef ENABLE_IPV6 sockname_len = (sockname->sa_family == PF_INET6) ? sizeof(struct sockaddr_in6) : sizeof(struct sockaddr_in); #else sockname_len = sizeof(struct sockaddr_in); #endif n = sendto(s, buf, l, 0, sockname, sockname_len ); if(n < 0) { syslog(LOG_ERR, "sendto(udp): %m"); } } /* Services stored for answering to M-SEARCH */ struct service { char * st; /* Service type */ char * usn; /* Unique identifier */ char * server; /* Server string */ char * location; /* URL */ LIST_ENTRY(service) entries; }; LIST_HEAD(servicehead, service) servicelisthead; /* Process M-SEARCH requests */ static void processMSEARCH(int s, const char * st, int st_len, const struct sockaddr * addr) { struct service * serv; #ifdef ENABLE_IPV6 char buf[64]; #endif if(!st || st_len==0) return; #ifdef ENABLE_IPV6 sockaddr_to_string(addr, buf, sizeof(buf)); syslog(LOG_INFO, "SSDP M-SEARCH from %s ST:%.*s", buf, st_len, st); #else syslog(LOG_INFO, "SSDP M-SEARCH from %s:%d ST: %.*s", inet_ntoa(((const struct sockaddr_in *)addr)->sin_addr), ntohs(((const struct sockaddr_in *)addr)->sin_port), st_len, st); #endif if(st_len==8 && (0==memcmp(st, "ssdp:all", 8))) { /* send a response for all services */ for(serv = servicelisthead.lh_first; serv; serv = serv->entries.le_next) { SendSSDPMSEARCHResponse(s, addr, serv->st, serv->usn, serv->server, serv->location); } } else if(st_len > 5 && (0==memcmp(st, "uuid:", 5))) { /* find a matching UUID value */ for(serv = servicelisthead.lh_first; serv; serv = serv->entries.le_next) { if(0 == strncmp(serv->usn, st, st_len)) { SendSSDPMSEARCHResponse(s, addr, serv->st, serv->usn, serv->server, serv->location); } } } else { /* find matching services */ if(st[st_len-2]==':' && isdigit(st[st_len-1])) st_len -= 2; for(serv = servicelisthead.lh_first; serv; serv = serv->entries.le_next) { if(0 == strncmp(serv->st, st, st_len)) { SendSSDPMSEARCHResponse(s, addr, serv->st, serv->usn, serv->server, serv->location); } } } } /** * helper function. * reject any non ASCII or non printable character. */ static int containsForbiddenChars(const unsigned char * p, int len) { while(len > 0) { if(*p < ' ' || *p >= '\x7f') return 1; p++; len--; } return 0; } #define METHOD_MSEARCH 1 #define METHOD_NOTIFY 2 /* ParseSSDPPacket() : * parse a received SSDP Packet and call * updateDevice() or removeDevice() as needed * return value : * -1 : a device was removed * 0 : no device removed nor added * 1 : a device was added. */ static int ParseSSDPPacket(int s, const char * p, ssize_t n, const struct sockaddr * addr) { const char * linestart; const char * lineend; const char * nameend; const char * valuestart; struct header headers[3]; int i, r = 0; int methodlen; int nts = -1; int method = -1; unsigned int lifetime = 180; /* 3 minutes by default */ const char * st = NULL; int st_len = 0; memset(headers, 0, sizeof(headers)); for(methodlen = 0; methodlen < n && (isalpha(p[methodlen]) || p[methodlen]=='-'); methodlen++); if(methodlen==8 && 0==memcmp(p, "M-SEARCH", 8)) method = METHOD_MSEARCH; else if(methodlen==6 && 0==memcmp(p, "NOTIFY", 6)) method = METHOD_NOTIFY; linestart = p; while(linestart < p + n - 2) { /* start parsing the line : detect line end */ lineend = linestart; while(lineend < p + n && *lineend != '\n' && *lineend != '\r') lineend++; /*printf("line: '%.*s'\n", lineend - linestart, linestart);*/ /* detect name end : ':' character */ nameend = linestart; while(nameend < lineend && *nameend != ':') nameend++; /* detect value */ if(nameend < lineend) valuestart = nameend + 1; else valuestart = nameend; /* trim spaces */ while(valuestart < lineend && isspace(*valuestart)) valuestart++; /* suppress leading " if needed */ if(valuestart < lineend && *valuestart=='\"') valuestart++; if(nameend > linestart && valuestart < lineend) { int l = nameend - linestart; /* header name length */ int m = lineend - valuestart; /* header value length */ /* suppress tailing spaces */ while(m>0 && isspace(valuestart[m-1])) m--; /* suppress tailing ' if needed */ if(m>0 && valuestart[m-1] == '\"') m--; i = -1; /*printf("--%.*s: (%d)%.*s--\n", l, linestart, m, m, valuestart);*/ if(l==2 && 0==strncasecmp(linestart, "nt", 2)) i = HEADER_NT; else if(l==3 && 0==strncasecmp(linestart, "usn", 3)) i = HEADER_USN; else if(l==3 && 0==strncasecmp(linestart, "nts", 3)) { if(m==10 && 0==strncasecmp(valuestart, "ssdp:alive", 10)) nts = NTS_SSDP_ALIVE; else if(m==11 && 0==strncasecmp(valuestart, "ssdp:byebye", 11)) nts = NTS_SSDP_BYEBYE; else if(m==11 && 0==strncasecmp(valuestart, "ssdp:update", 11)) nts = NTS_SSDP_UPDATE; } else if(l==8 && 0==strncasecmp(linestart, "location", 8)) i = HEADER_LOCATION; else if(l==13 && 0==strncasecmp(linestart, "cache-control", 13)) { /* parse "name1=value1, name_alone, name2=value2" string */ const char * name = valuestart; /* name */ const char * val; /* value */ int rem = m; /* remaining bytes to process */ while(rem > 0) { val = name; while(val < name + rem && *val != '=' && *val != ',') val++; if(val >= name + rem) break; if(*val == '=') { while(val < name + rem && (*val == '=' || isspace(*val))) val++; if(val >= name + rem) break; if(0==strncasecmp(name, "max-age", 7)) lifetime = (unsigned int)strtoul(val, 0, 0); /* move to the next name=value pair */ while(rem > 0 && *name != ',') { rem--; name++; } /* skip spaces */ while(rem > 0 && (*name == ',' || isspace(*name))) { rem--; name++; } } else { rem -= (val - name); name = val; while(rem > 0 && (*name == ',' || isspace(*name))) { rem--; name++; } } } /*syslog(LOG_DEBUG, "**%.*s**%u", m, valuestart, lifetime);*/ } else if(l==2 && 0==strncasecmp(linestart, "st", 2)) { st = valuestart; st_len = m; } if(i>=0) { headers[i].p = valuestart; headers[i].l = m; } } linestart = lineend; while((*linestart == '\n' || *linestart == '\r') && linestart < p + n) linestart++; } #if 0 printf("NTS=%d\n", nts); for(i=0; i<3; i++) { if(headers[i].p) printf("%d-'%.*s'\n", i, headers[i].l, headers[i].p); } #endif syslog(LOG_DEBUG,"SSDP request: '%.*s' (%d) %s %s=%.*s", methodlen, p, method, nts_to_str(nts), (method==METHOD_NOTIFY)?"nt":"st", (method==METHOD_NOTIFY)?headers[HEADER_NT].l:st_len, (method==METHOD_NOTIFY)?headers[HEADER_NT].p:st); switch(method) { case METHOD_NOTIFY: if(headers[HEADER_NT].p && headers[HEADER_USN].p && headers[HEADER_LOCATION].p) { if(nts==NTS_SSDP_ALIVE) { r = updateDevice(headers, time(NULL) + lifetime); } else if(nts==NTS_SSDP_BYEBYE) { r = removeDevice(headers); } } break; case METHOD_MSEARCH: processMSEARCH(s, st, st_len, addr); break; default: syslog(LOG_WARNING, "method %.*s, don't know what to do", methodlen, p); } return r; } /* OpenUnixSocket() * open the unix socket and call bind() and listen() * return -1 in case of error */ static int OpenUnixSocket(const char * path) { struct sockaddr_un addr; int s; int rv; s = socket(AF_UNIX, SOCK_STREAM, 0); if(s < 0) { syslog(LOG_ERR, "socket(AF_UNIX): %m"); return -1; } /* unlink the socket pseudo file before binding */ rv = unlink(path); if(rv < 0 && errno != ENOENT) { syslog(LOG_ERR, "unlink(unixsocket, \"%s\"): %m", path); close(s); return -1; } addr.sun_family = AF_UNIX; strncpy(addr.sun_path, path, sizeof(addr.sun_path)); if(bind(s, (struct sockaddr *)&addr, sizeof(struct sockaddr_un)) < 0) { syslog(LOG_ERR, "bind(unixsocket, \"%s\"): %m", path); close(s); return -1; } else if(listen(s, 5) < 0) { syslog(LOG_ERR, "listen(unixsocket): %m"); close(s); return -1; } /* Change rights so everyone can communicate with us */ if(chmod(path, 0666) < 0) { syslog(LOG_WARNING, "chmod(\"%s\"): %m", path); } return s; } /* processRequest() : * process the request coming from a unix socket */ void processRequest(struct reqelem * req) { ssize_t n; unsigned int l, m; unsigned char buf[2048]; const unsigned char * p; int type; struct device * d = devlist; unsigned char rbuf[4096]; unsigned char * rp = rbuf+1; unsigned char nrep = 0; time_t t; struct service * newserv = NULL; struct service * serv; n = read(req->socket, buf, sizeof(buf)); if(n<0) { syslog(LOG_ERR, "(s=%d) processRequest(): read(): %m", req->socket); goto error; } if(n==0) { syslog(LOG_INFO, "(s=%d) request connection closed", req->socket); goto error; } t = time(NULL); type = buf[0]; p = buf + 1; DECODELENGTH_CHECKLIMIT(l, p, buf + n); if(p+l > buf+n) { syslog(LOG_WARNING, "bad request (length encoding)"); goto error; } if(l == 0) { syslog(LOG_WARNING, "bad request (length=0)"); goto error; } syslog(LOG_INFO, "(s=%d) request type=%d str='%.*s'", req->socket, type, l, p); switch(type) { case 1: case 2: case 3: while(d && (nrep < 255)) { if(d->t < t) { syslog(LOG_INFO, "outdated device"); } else { /* test if we can put more responses in the buffer */ if(d->headers[HEADER_LOCATION].l + d->headers[HEADER_NT].l + d->headers[HEADER_USN].l + 6 + (rp - rbuf) >= sizeof(rbuf)) break; if( (type==1 && 0==memcmp(d->headers[HEADER_NT].p, p, l)) ||(type==2 && 0==memcmp(d->headers[HEADER_USN].p, p, l)) ||(type==3) ) { /* response : * 1 - Location * 2 - NT (device/service type) * 3 - usn */ m = d->headers[HEADER_LOCATION].l; CODELENGTH(m, rp); memcpy(rp, d->headers[HEADER_LOCATION].p, d->headers[HEADER_LOCATION].l); rp += d->headers[HEADER_LOCATION].l; m = d->headers[HEADER_NT].l; CODELENGTH(m, rp); memcpy(rp, d->headers[HEADER_NT].p, d->headers[HEADER_NT].l); rp += d->headers[HEADER_NT].l; m = d->headers[HEADER_USN].l; CODELENGTH(m, rp); memcpy(rp, d->headers[HEADER_USN].p, d->headers[HEADER_USN].l); rp += d->headers[HEADER_USN].l; nrep++; } } d = d->next; } /* Also look in service list */ for(serv = servicelisthead.lh_first; serv && (nrep < 255); serv = serv->entries.le_next) { /* test if we can put more responses in the buffer */ if(strlen(serv->location) + strlen(serv->st) + strlen(serv->usn) + 6 + (rp - rbuf) >= sizeof(rbuf)) break; if( (type==1 && 0==strncmp(serv->st, (const char *)p, l)) ||(type==2 && 0==strncmp(serv->usn, (const char *)p, l)) ||(type==3) ) { /* response : * 1 - Location * 2 - NT (device/service type) * 3 - usn */ m = strlen(serv->location); CODELENGTH(m, rp); memcpy(rp, serv->location, m); rp += m; m = strlen(serv->st); CODELENGTH(m, rp); memcpy(rp, serv->st, m); rp += m; m = strlen(serv->usn); CODELENGTH(m, rp); memcpy(rp, serv->usn, m); rp += m; nrep++; } } rbuf[0] = nrep; if(write(req->socket, rbuf, rp - rbuf) < 0) { syslog(LOG_ERR, "(s=%d) write: %m", req->socket); goto error; } break; case 4: newserv = malloc(sizeof(struct service)); if(!newserv) { syslog(LOG_ERR, "cannot allocate memory"); goto error; } if(containsForbiddenChars(p, l)) { syslog(LOG_ERR, "bad request (st contains forbidden chars)"); goto error; } newserv->st = malloc(l + 1); if(!newserv->st) { syslog(LOG_ERR, "cannot allocate memory"); goto error; } memcpy(newserv->st, p, l); newserv->st[l] = '\0'; p += l; if(p >= buf + n) { syslog(LOG_WARNING, "bad request (missing usn)"); goto error; } DECODELENGTH_CHECKLIMIT(l, p, buf + n); if(p+l > buf+n) { syslog(LOG_WARNING, "bad request (length encoding)"); goto error; } if(containsForbiddenChars(p, l)) { syslog(LOG_ERR, "bad request (usn contains forbidden chars)"); goto error; } syslog(LOG_INFO, "usn='%.*s'", l, p); newserv->usn = malloc(l + 1); if(!newserv->usn) { syslog(LOG_ERR, "cannot allocate memory"); goto error; } memcpy(newserv->usn, p, l); newserv->usn[l] = '\0'; p += l; DECODELENGTH_CHECKLIMIT(l, p, buf + n); if(p+l > buf+n) { syslog(LOG_WARNING, "bad request (length encoding)"); goto error; } if(containsForbiddenChars(p, l)) { syslog(LOG_ERR, "bad request (server contains forbidden chars)"); goto error; } syslog(LOG_INFO, "server='%.*s'", l, p); newserv->server = malloc(l + 1); if(!newserv->server) { syslog(LOG_ERR, "cannot allocate memory"); goto error; } memcpy(newserv->server, p, l); newserv->server[l] = '\0'; p += l; DECODELENGTH_CHECKLIMIT(l, p, buf + n); if(p+l > buf+n) { syslog(LOG_WARNING, "bad request (length encoding)"); goto error; } if(containsForbiddenChars(p, l)) { syslog(LOG_ERR, "bad request (location contains forbidden chars)"); goto error; } syslog(LOG_INFO, "location='%.*s'", l, p); newserv->location = malloc(l + 1); if(!newserv->location) { syslog(LOG_ERR, "cannot allocate memory"); goto error; } memcpy(newserv->location, p, l); newserv->location[l] = '\0'; /* look in service list for duplicate */ for(serv = servicelisthead.lh_first; serv; serv = serv->entries.le_next) { if(0 == strcmp(newserv->usn, serv->usn) && 0 == strcmp(newserv->st, serv->st)) { syslog(LOG_INFO, "Service allready in the list. Updating..."); free(newserv->st); free(newserv->usn); free(serv->server); serv->server = newserv->server; free(serv->location); serv->location = newserv->location; free(newserv); newserv = NULL; return; } } /* Inserting new service */ LIST_INSERT_HEAD(&servicelisthead, newserv, entries); newserv = NULL; /*rbuf[0] = '\0'; if(write(req->socket, rbuf, 1) < 0) syslog(LOG_ERR, "(s=%d) write: %m", req->socket); */ break; default: syslog(LOG_WARNING, "Unknown request type %d", type); rbuf[0] = '\0'; if(write(req->socket, rbuf, 1) < 0) { syslog(LOG_ERR, "(s=%d) write: %m", req->socket); goto error; } } return; error: if(newserv) { free(newserv->st); free(newserv->usn); free(newserv->server); free(newserv->location); free(newserv); newserv = NULL; } close(req->socket); req->socket = -1; return; } static volatile int quitting = 0; /* SIGTERM signal handler */ static void sigterm(int sig) { signal(sig, SIG_IGN); syslog(LOG_NOTICE, "received signal %d, good-bye", sig); quitting = 1; } /* main(): program entry point */ int main(int argc, char * * argv) { int ret = 0; int pid; struct sigaction sa; char buf[1500]; ssize_t n; int s_ssdp = -1; /* udp socket receiving ssdp packets */ #ifdef ENABLE_IPV6 int s_ssdp6 = -1; /* udp socket receiving ssdp packets IPv6*/ #else #define s_ssdp6 (-1) #endif int s_unix = -1; /* unix socket communicating with clients */ int s_ifacewatch = -1; /* socket to receive Route / network interface config changes */ int s; LIST_HEAD(reqstructhead, reqelem) reqlisthead; struct reqelem * req; struct reqelem * reqnext; fd_set readfds; const char * if_addr[MAX_IF_ADDR]; int n_if_addr = 0; int i; const char * sockpath = "/var/run/minissdpd.sock"; const char * pidfilename = "/var/run/minissdpd.pid"; int debug_flag = 0; int ipv6 = 0; int deltadev = 0; struct sockaddr_in sendername; socklen_t sendername_len; #ifdef ENABLE_IPV6 struct sockaddr_in6 sendername6; socklen_t sendername6_len; #endif LIST_INIT(&reqlisthead); LIST_INIT(&servicelisthead); /* process command line */ for(i=1; i [-i ] ...\n", argv[0]); fprintf(stderr, "\n is either an IPv4 address such as 192.168.1.42, or an\ninterface name such as eth0.\n"); fprintf(stderr, "\n By default, socket will be open as %s\n" "and pid written to file %s\n", sockpath, pidfilename); return 1; } /* open log */ openlog("minissdpd", LOG_CONS|LOG_PID|(debug_flag?LOG_PERROR:0), LOG_MINISSDPD); 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, "MiniSSDPd is already running. EXITING"); return 1; } /* set signal handlers */ memset(&sa, 0, sizeof(struct sigaction)); sa.sa_handler = sigterm; if(sigaction(SIGTERM, &sa, NULL)) { syslog(LOG_ERR, "Failed to set SIGTERM handler. EXITING"); ret = 1; goto quit; } if(sigaction(SIGINT, &sa, NULL)) { syslog(LOG_ERR, "Failed to set SIGINT handler. EXITING"); ret = 1; goto quit; } /* open route/interface config changes socket */ s_ifacewatch = OpenAndConfInterfaceWatchSocket(); /* open UDP socket(s) for receiving SSDP packets */ s_ssdp = OpenAndConfSSDPReceiveSocket(n_if_addr, if_addr, 0); if(s_ssdp < 0) { syslog(LOG_ERR, "Cannot open socket for receiving SSDP messages, exiting"); ret = 1; goto quit; } #ifdef ENABLE_IPV6 if(ipv6) { s_ssdp6 = OpenAndConfSSDPReceiveSocket(n_if_addr, if_addr, 1); if(s_ssdp6 < 0) { syslog(LOG_ERR, "Cannot open socket for receiving SSDP messages (IPv6), exiting"); ret = 1; goto quit; } } #endif /* Open Unix socket to communicate with other programs on * the same machine */ s_unix = OpenUnixSocket(sockpath); if(s_unix < 0) { syslog(LOG_ERR, "Cannot open unix socket for communicating with clients. Exiting"); ret = 1; goto quit; } /* drop privileges */ #if 0 /* if we drop privileges, how to unlink(/var/run/minissdpd.sock) ? */ if(getuid() == 0) { struct passwd * user; struct group * group; user = getpwnam("nobody"); if(!user) { syslog(LOG_ERR, "getpwnam(\"%s\") : %m", "nobody"); ret = 1; goto quit; } group = getgrnam("nogroup"); if(!group) { syslog(LOG_ERR, "getgrnam(\"%s\") : %m", "nogroup"); ret = 1; goto quit; } if(setgid(group->gr_gid) < 0) { syslog(LOG_ERR, "setgit(%d) : %m", group->gr_gid); ret = 1; goto quit; } if(setuid(user->pw_uid) < 0) { syslog(LOG_ERR, "setuid(%d) : %m", user->pw_uid); ret = 1; goto quit; } } #endif /* daemonize or in any case get pid ! */ if(debug_flag) pid = getpid(); else { #ifdef USE_DAEMON if(daemon(0, 0) < 0) perror("daemon()"); pid = getpid(); #else pid = daemonize(); #endif } writepidfile(pidfilename, pid); /* Main loop */ while(!quitting) { /* fill readfds fd_set */ FD_ZERO(&readfds); if(s_ssdp >= 0) { FD_SET(s_ssdp, &readfds); } #ifdef ENABLE_IPV6 if(s_ssdp6 >= 0) { FD_SET(s_ssdp6, &readfds); } #endif if(s_ifacewatch >= 0) { FD_SET(s_ifacewatch, &readfds); } FD_SET(s_unix, &readfds); for(req = reqlisthead.lh_first; req; req = req->entries.le_next) { if(req->socket >= 0) FD_SET(req->socket, &readfds); } /* select call */ if(select(FD_SETSIZE, &readfds, 0, 0, 0) < 0) { if(errno != EINTR) syslog(LOG_ERR, "select: %m"); break; } #ifdef ENABLE_IPV6 if((s_ssdp6 >= 0) && FD_ISSET(s_ssdp6, &readfds)) { sendername6_len = sizeof(struct sockaddr_in6); n = recvfrom(s_ssdp6, buf, sizeof(buf), 0, (struct sockaddr *)&sendername6, &sendername6_len); if(n<0) { syslog(LOG_ERR, "recvfrom: %m"); } else { /* Parse and process the packet received */ /*printf("%.*s", n, buf);*/ i = ParseSSDPPacket(s_ssdp6, buf, n, (struct sockaddr *)&sendername6); syslog(LOG_DEBUG, "** i=%d deltadev=%d **", i, deltadev); if(i==0 || (i*deltadev < 0)) { if(deltadev > 0) syslog(LOG_NOTICE, "%d new devices added", deltadev); else if(deltadev < 0) syslog(LOG_NOTICE, "%d devices removed (good-bye!)", -deltadev); deltadev = i; } else if((i*deltadev) >= 0) { deltadev += i; } } } #endif if(FD_ISSET(s_ssdp, &readfds)) { sendername_len = sizeof(struct sockaddr_in); n = recvfrom(s_ssdp, buf, sizeof(buf), 0, (struct sockaddr *)&sendername, &sendername_len); if(n<0) { syslog(LOG_ERR, "recvfrom: %m"); } else { /* Parse and process the packet received */ /*printf("%.*s", n, buf);*/ i = ParseSSDPPacket(s_ssdp, buf, n, (struct sockaddr *)&sendername); syslog(LOG_DEBUG, "** i=%d deltadev=%d **", i, deltadev); if(i==0 || (i*deltadev < 0)) { if(deltadev > 0) syslog(LOG_NOTICE, "%d new devices added", deltadev); else if(deltadev < 0) syslog(LOG_NOTICE, "%d devices removed (good-bye!)", -deltadev); deltadev = i; } else if((i*deltadev) >= 0) { deltadev += i; } } } /* processing unix socket requests */ for(req = reqlisthead.lh_first; req;) { reqnext = req->entries.le_next; if((req->socket >= 0) && FD_ISSET(req->socket, &readfds)) { processRequest(req); } if(req->socket < 0) { LIST_REMOVE(req, entries); free(req); } req = reqnext; } /* processing new requests */ if(FD_ISSET(s_unix, &readfds)) { struct reqelem * tmp; s = accept(s_unix, NULL, NULL); if(s<0) { syslog(LOG_ERR, "accept(s_unix): %m"); } else { syslog(LOG_INFO, "(s=%d) new request connection", s); tmp = malloc(sizeof(struct reqelem)); if(!tmp) { syslog(LOG_ERR, "cannot allocate memory for request"); close(s); } else { tmp->socket = s; LIST_INSERT_HEAD(&reqlisthead, tmp, entries); } } } /* processing route/network interface config changes */ if((s_ifacewatch >= 0) && FD_ISSET(s_ifacewatch, &readfds)) { ProcessInterfaceWatch(s_ifacewatch, s_ssdp, s_ssdp6, n_if_addr, if_addr); } } /* closing and cleaning everything */ quit: if(s_ssdp >= 0) { close(s_ssdp); s_ssdp = -1; } #ifdef ENABLE_IPV6 if(s_ssdp6 >= 0) { close(s_ssdp6); s_ssdp6 = -1; } #endif if(s_unix >= 0) { close(s_unix); s_unix = -1; if(unlink(sockpath) < 0) syslog(LOG_ERR, "unlink(%s): %m", sockpath); } if(s_ifacewatch >= 0) { close(s_ifacewatch); s_ifacewatch = -1; } if(unlink(pidfilename) < 0) syslog(LOG_ERR, "unlink(%s): %m", pidfilename); closelog(); return ret; }