/* $Id: upnpsoap.c,v 1.157 2020/05/30 08:28:22 nanard Exp $ */ /* vim: tabstop=4 shiftwidth=4 noexpandtab * MiniUPnP project * http://miniupnp.free.fr/ or https://miniupnp.tuxfamily.org/ * (c) 2006-2020 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 #include #include #include #include #include #include #include "macros.h" #include "config.h" #include "upnpglobalvars.h" #include "upnphttp.h" #include "upnpsoap.h" #include "upnpreplyparse.h" #include "upnpredirect.h" #include "upnppermissions.h" #include "upnppinhole.h" #include "getifaddr.h" #include "getifstats.h" #include "getconnstatus.h" #include "upnpurns.h" #include "upnputils.h" /* utility function */ static int is_numeric(const char * s) { while(*s) { if(*s < '0' || *s > '9') return 0; s++; } return 1; } static void BuildSendAndCloseSoapResp(struct upnphttp * h, const char * body, int bodylen) { static const char beforebody[] = "\r\n" "" ""; static const char afterbody[] = "" "\r\n"; int r = BuildHeader_upnphttp(h, 200, "OK", sizeof(beforebody) - 1 + sizeof(afterbody) - 1 + bodylen ); if(r >= 0) { memcpy(h->res_buf + h->res_buflen, beforebody, sizeof(beforebody) - 1); h->res_buflen += sizeof(beforebody) - 1; memcpy(h->res_buf + h->res_buflen, body, bodylen); h->res_buflen += bodylen; memcpy(h->res_buf + h->res_buflen, afterbody, sizeof(afterbody) - 1); h->res_buflen += sizeof(afterbody) - 1; } else { BuildResp2_upnphttp(h, 500, "Internal Server Error", NULL, 0); } SendRespAndClose_upnphttp(h); } static void GetConnectionTypeInfo(struct upnphttp * h, const char * action, const char * ns) { #if 0 static const char resp[] = "" "IP_Routed" "IP_Routed" ""; #endif static const char resp[] = "" "IP_Routed" "IP_Routed" ""; char body[512]; int bodylen; bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); } /* maximum value for a UPNP ui4 type variable */ #define UPNP_UI4_MAX (4294967295ul) static void GetTotalBytesSent(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%lu" ""; char body[512]; int bodylen; struct ifdata data; r = getifstats(ext_if_name, &data); bodylen = snprintf(body, sizeof(body), resp, action, ns, /* was "urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1" */ #ifdef UPNP_STRICT r<0?0:(data.obytes & UPNP_UI4_MAX), action); #else /* UPNP_STRICT */ r<0?0:data.obytes, action); #endif /* UPNP_STRICT */ BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetTotalBytesReceived(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%lu" ""; char body[512]; int bodylen; struct ifdata data; r = getifstats(ext_if_name, &data); /* TotalBytesReceived * This variable represents the cumulative counter for total number of * bytes received downstream across all connection service instances on * WANDevice. The count rolls over to 0 after it reaching the maximum * value (2^32)-1. */ bodylen = snprintf(body, sizeof(body), resp, action, ns, /* was "urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1" */ #ifdef UPNP_STRICT r<0?0:(data.ibytes & UPNP_UI4_MAX), action); #else /* UPNP_STRICT */ r<0?0:data.ibytes, action); #endif /* UPNP_STRICT */ BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetTotalPacketsSent(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%lu" ""; char body[512]; int bodylen; struct ifdata data; r = getifstats(ext_if_name, &data); bodylen = snprintf(body, sizeof(body), resp, action, ns,/*"urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1",*/ #ifdef UPNP_STRICT r<0?0:(data.opackets & UPNP_UI4_MAX), action); #else /* UPNP_STRICT */ r<0?0:data.opackets, action); #endif /* UPNP_STRICT */ BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetTotalPacketsReceived(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%lu" ""; char body[512]; int bodylen; struct ifdata data; r = getifstats(ext_if_name, &data); bodylen = snprintf(body, sizeof(body), resp, action, ns, /* was "urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1" */ #ifdef UPNP_STRICT r<0?0:(data.ipackets & UPNP_UI4_MAX), action); #else /* UPNP_STRICT */ r<0?0:data.ipackets, action); #endif /* UPNP_STRICT */ BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetCommonLinkProperties(struct upnphttp * h, const char * action, const char * ns) { /* WANAccessType : set depending on the hardware : * DSL, POTS (plain old Telephone service), Cable, Ethernet */ static const char resp[] = "" "%s" "%lu" "%lu" "%s" ""; char body[2048]; int bodylen; struct ifdata data; const char * status = "Up"; /* Up, Down (Required), * Initializing, Unavailable (Optional) */ const char * wan_access_type = "Cable"; /* DSL, POTS, Cable, Ethernet */ char ext_ip_addr[INET_ADDRSTRLEN]; if((downstream_bitrate == 0) || (upstream_bitrate == 0)) { if(getifstats(ext_if_name, &data) >= 0) { if(downstream_bitrate == 0) downstream_bitrate = data.baudrate; if(upstream_bitrate == 0) upstream_bitrate = data.baudrate; } } if(getifaddr(ext_if_name, ext_ip_addr, INET_ADDRSTRLEN, NULL, NULL) < 0) { status = "Down"; } bodylen = snprintf(body, sizeof(body), resp, action, ns, /* was "urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1" */ wan_access_type, upstream_bitrate, downstream_bitrate, status, action); BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetStatusInfo(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%s" "ERROR_NONE" "%ld" ""; char body[512]; int bodylen; time_t uptime; const char * status; /* ConnectionStatus possible values : * Unconfigured, Connecting, Connected, PendingDisconnect, * Disconnecting, Disconnected */ status = get_wan_connection_status_str(ext_if_name); uptime = upnp_get_uptime(); bodylen = snprintf(body, sizeof(body), resp, action, ns, /*SERVICE_TYPE_WANIPC,*/ status, (long)uptime, action); BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetNATRSIPStatus(struct upnphttp * h, const char * action, const char * ns) { #if 0 static const char resp[] = "" "0" "1" ""; UNUSED(action); #endif static const char resp[] = "" "0" "1" ""; char body[512]; int bodylen; /* 2.2.9. RSIPAvailable * This variable indicates if Realm-specific IP (RSIP) is available * as a feature on the InternetGatewayDevice. RSIP is being defined * in the NAT working group in the IETF to allow host-NATing using * a standard set of message exchanges. It also allows end-to-end * applications that otherwise break if NAT is introduced * (e.g. IPsec-based VPNs). * A gateway that does not support RSIP should set this variable to 0. */ bodylen = snprintf(body, sizeof(body), resp, action, ns, /*SERVICE_TYPE_WANIPC,*/ action); BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetExternalIPAddress(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%s" ""; char body[512]; int bodylen; char ext_ip_addr[INET_ADDRSTRLEN]; /* Does that method need to work with IPv6 ? * There is usually no NAT with IPv6 */ #ifndef MULTIPLE_EXTERNAL_IP if(use_ext_ip_addr) { strncpy(ext_ip_addr, use_ext_ip_addr, INET_ADDRSTRLEN); ext_ip_addr[INET_ADDRSTRLEN - 1] = '\0'; } else { struct in_addr addr; if(getifaddr(ext_if_name, ext_ip_addr, INET_ADDRSTRLEN, &addr, NULL) < 0) { syslog(LOG_ERR, "Failed to get ip address for interface %s", ext_if_name); strncpy(ext_ip_addr, "0.0.0.0", INET_ADDRSTRLEN); } else if (addr_is_reserved(&addr)) { syslog(LOG_NOTICE, "private/reserved address %s is not suitable for external IP", ext_ip_addr); strncpy(ext_ip_addr, "0.0.0.0", INET_ADDRSTRLEN); } } #else struct lan_addr_s * lan_addr; strncpy(ext_ip_addr, "0.0.0.0", INET_ADDRSTRLEN); for(lan_addr = lan_addrs.lh_first; lan_addr != NULL; lan_addr = lan_addr->list.le_next) { if( (h->clientaddr.s_addr & lan_addr->mask.s_addr) == (lan_addr->addr.s_addr & lan_addr->mask.s_addr)) { strncpy(ext_ip_addr, lan_addr->ext_ip_str, INET_ADDRSTRLEN); break; } } #endif if (strcmp(ext_ip_addr, "0.0.0.0") == 0) ext_ip_addr[0] = '\0'; bodylen = snprintf(body, sizeof(body), resp, action, ns, /*SERVICE_TYPE_WANIPC,*/ ext_ip_addr, action); BuildSendAndCloseSoapResp(h, body, bodylen); } /* AddPortMapping method of WANIPConnection Service * Ignored argument : NewEnabled */ static void AddPortMapping(struct upnphttp * h, const char * action, const char * ns) { int r; /*static const char resp[] = "";*/ static const char resp[] = ""; char body[512]; int bodylen; struct NameValueParserData data; char * int_ip, * int_port, * ext_port, * protocol, * desc; char * leaseduration_str; unsigned int leaseduration; char * r_host; unsigned short iport, eport; struct hostent *hp; /* getbyhostname() */ char ** ptr; /* getbyhostname() */ struct in_addr result_ip;/*unsigned char result_ip[16];*/ /* inet_pton() */ ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); int_ip = GetValueFromNameValueList(&data, "NewInternalClient"); if (int_ip) { /* trim */ while(int_ip[0] == ' ') int_ip++; } #ifdef UPNP_STRICT if (!int_ip || int_ip[0] == '\0') { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } #endif /* IGD 2 MUST support both wildcard and specific IP address values * for RemoteHost (only the wildcard value was REQUIRED in release 1.0) */ r_host = GetValueFromNameValueList(&data, "NewRemoteHost"); #ifndef SUPPORT_REMOTEHOST #ifdef UPNP_STRICT if (r_host && (r_host[0] != '\0') && (0 != strcmp(r_host, "*"))) { ClearNameValueList(&data); SoapError(h, 726, "RemoteHostOnlySupportsWildcard"); return; } #endif #endif #ifndef UPNP_STRICT /* if arg is empty, use client address * see https://github.com/miniupnp/miniupnp/issues/236 */ if (!int_ip || int_ip[0] == '\0') { int_ip = h->clientaddr_str; memcpy(&result_ip, &(h->clientaddr), sizeof(struct in_addr)); } else #endif /* if ip not valid assume hostname and convert */ if (inet_pton(AF_INET, int_ip, &result_ip) <= 0) { hp = gethostbyname(int_ip); if(hp && hp->h_addrtype == AF_INET) { for(ptr = hp->h_addr_list; ptr && *ptr; ptr++) { int_ip = inet_ntoa(*((struct in_addr *) *ptr)); result_ip = *((struct in_addr *) *ptr); /* TODO : deal with more than one ip per hostname */ break; } } else { syslog(LOG_ERR, "Failed to convert hostname '%s' to ip address", int_ip); ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } } /* check if NewInternalAddress is the client address */ if(GETFLAG(SECUREMODEMASK)) { if(h->clientaddr.s_addr != result_ip.s_addr) { syslog(LOG_INFO, "Client %s tried to redirect port to %s", inet_ntoa(h->clientaddr), int_ip); ClearNameValueList(&data); SoapError(h, 718, "ConflictInMappingEntry"); return; } } int_port = GetValueFromNameValueList(&data, "NewInternalPort"); ext_port = GetValueFromNameValueList(&data, "NewExternalPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); desc = GetValueFromNameValueList(&data, "NewPortMappingDescription"); leaseduration_str = GetValueFromNameValueList(&data, "NewLeaseDuration"); if (!int_port || !ext_port || !protocol) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } eport = (unsigned short)atoi(ext_port); iport = (unsigned short)atoi(int_port); if (strcmp(ext_port, "*") == 0 || eport == 0) { ClearNameValueList(&data); SoapError(h, 716, "Wildcard not permited in ExtPort"); return; } leaseduration = leaseduration_str ? atoi(leaseduration_str) : 0; #ifdef IGD_V2 /* PortMappingLeaseDuration can be either a value between 1 and * 604800 seconds or the zero value (for infinite lease time). * Note that an infinite lease time can be only set by out-of-band * mechanisms like WWW-administration, remote management or local * management. * If a control point uses the value 0 to indicate an infinite lease * time mapping, it is REQUIRED that gateway uses the maximum value * instead (e.g. 604800 seconds) */ if(leaseduration == 0 || leaseduration > 604800) leaseduration = 604800; #endif syslog(LOG_INFO, "%s: ext port %hu to %s:%hu protocol %s for: %s leaseduration=%u rhost=%s", action, eport, int_ip, iport, protocol, desc, leaseduration, r_host ? r_host : "NULL"); r = upnp_redirect(r_host, eport, int_ip, iport, protocol, desc, leaseduration); ClearNameValueList(&data); /* possible error codes for AddPortMapping : * 402 - Invalid Args * 501 - Action Failed * 606 - Action not authorized (added in IGD v2) * 715 - Wildcard not permited in SrcAddr * 716 - Wildcard not permited in ExtPort * 718 - ConflictInMappingEntry * 724 - SamePortValuesRequired (deprecated in IGD v2) * 725 - OnlyPermanentLeasesSupported The NAT implementation only supports permanent lease times on port mappings (deprecated in IGD v2) * 726 - RemoteHostOnlySupportsWildcard RemoteHost must be a wildcard and cannot be a specific IP address or DNS name (deprecated in IGD v2) * 727 - ExternalPortOnlySupportsWildcard ExternalPort must be a wildcard and cannot be a specific port value (deprecated in IGD v2) * 728 - NoPortMapsAvailable There are not enough free ports available to complete the mapping (added in IGD v2) * 729 - ConflictWithOtherMechanisms (added in IGD v2) * 732 - WildCardNotPermittedInIntPort (added in IGD v2) */ switch(r) { case 0: /* success */ bodylen = snprintf(body, sizeof(body), resp, action, ns/*SERVICE_TYPE_WANIPC*/); BuildSendAndCloseSoapResp(h, body, bodylen); break; case -4: #ifdef IGD_V2 SoapError(h, 729, "ConflictWithOtherMechanisms"); break; #endif /* IGD_V2 */ case -3: /* not permitted */ #ifdef IGD_V2 SoapError(h, 606, "Action not authorized"); break; #endif /* IGD_V2 */ case -2: /* already redirected */ SoapError(h, 718, "ConflictInMappingEntry"); break; default: SoapError(h, 501, "ActionFailed"); } } /* AddAnyPortMapping was added in WANIPConnection v2 */ static void AddAnyPortMapping(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%hu" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * int_ip, * int_port, * ext_port, * protocol, * desc; const char * r_host; unsigned short iport, eport; const char * leaseduration_str; unsigned int leaseduration; struct hostent *hp; /* getbyhostname() */ char ** ptr; /* getbyhostname() */ struct in_addr result_ip;/*unsigned char result_ip[16];*/ /* inet_pton() */ ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); r_host = GetValueFromNameValueList(&data, "NewRemoteHost"); ext_port = GetValueFromNameValueList(&data, "NewExternalPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); int_port = GetValueFromNameValueList(&data, "NewInternalPort"); int_ip = GetValueFromNameValueList(&data, "NewInternalClient"); /* NewEnabled */ desc = GetValueFromNameValueList(&data, "NewPortMappingDescription"); leaseduration_str = GetValueFromNameValueList(&data, "NewLeaseDuration"); leaseduration = leaseduration_str ? atoi(leaseduration_str) : 0; if(leaseduration == 0) leaseduration = 604800; if (!int_ip || !ext_port || !int_port || !protocol) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } eport = (0 == strcmp(ext_port, "*")) ? 0 : (unsigned short)atoi(ext_port); if (eport == 0) { eport = 1024 + ((random() & 0x7ffffffL) % (65536-1024)); } iport = (unsigned short)atoi(int_port); if(iport == 0 || (!is_numeric(ext_port) && 0 != strcmp(ext_port, "*"))) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } #ifndef SUPPORT_REMOTEHOST #ifdef UPNP_STRICT if (r_host && (r_host[0] != '\0') && (0 != strcmp(r_host, "*"))) { ClearNameValueList(&data); SoapError(h, 726, "RemoteHostOnlySupportsWildcard"); return; } #endif #endif /* if ip not valid assume hostname and convert */ if (inet_pton(AF_INET, int_ip, &result_ip) <= 0) { hp = gethostbyname(int_ip); if(hp && hp->h_addrtype == AF_INET) { for(ptr = hp->h_addr_list; ptr && *ptr; ptr++) { int_ip = inet_ntoa(*((struct in_addr *) *ptr)); result_ip = *((struct in_addr *) *ptr); /* TODO : deal with more than one ip per hostname */ break; } } else { syslog(LOG_ERR, "Failed to convert hostname '%s' to ip address", int_ip); ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } } /* check if NewInternalAddress is the client address */ if(GETFLAG(SECUREMODEMASK)) { if(h->clientaddr.s_addr != result_ip.s_addr) { syslog(LOG_INFO, "Client %s tried to redirect port to %s", inet_ntoa(h->clientaddr), int_ip); ClearNameValueList(&data); SoapError(h, 606, "Action not authorized"); return; } } /* first try the port asked in request, then * try +1, -1, +2, -2, etc. */ r = upnp_redirect(r_host, eport, int_ip, iport, protocol, desc, leaseduration); if (r != 0 && r != -1) { unsigned short eport_below, eport_above; struct in_addr address; uint32_t allowed_eports[65536 / 32]; if(inet_aton(int_ip, &address) <= 0) { syslog(LOG_ERR, "inet_aton(%s) FAILED", int_ip); } get_permitted_ext_ports(allowed_eports, upnppermlist, num_upnpperm, address.s_addr, iport); eport_above = eport_below = eport; for(;;) { /* loop invariant * eport is equal to either eport_below or eport_above (or both) */ if (eport_below <= 1 && eport_above == 65535) { /* all possible ports tried */ r = 1; break; } if (eport_above == 65535 || (eport > eport_below && eport_below > 1)) { eport = --eport_below; } else { eport = ++eport_above; } if (!(allowed_eports[eport / 32] & ((uint32_t)1U << (eport % 32)))) continue; /* not allowed */ r = upnp_redirect(r_host, eport, int_ip, iport, protocol, desc, leaseduration); if (r == 0 || r == -1) { /* OK or failure : Stop */ break; } /* r : -2 / -4 already redirected or -3 permission check failed : * continue */ } } ClearNameValueList(&data); switch(r) { case 1: /* exhausted possible mappings */ SoapError(h, 728, "NoPortMapsAvailable"); break; case 0: /* success */ bodylen = snprintf(body, sizeof(body), resp, action, ns, /*SERVICE_TYPE_WANIPC,*/ eport, action); BuildSendAndCloseSoapResp(h, body, bodylen); break; case -2: /* already redirected */ SoapError(h, 718, "ConflictInMappingEntry"); break; case -3: /* not permitted */ SoapError(h, 606, "Action not authorized"); break; default: SoapError(h, 501, "ActionFailed"); } } static void GetSpecificPortMappingEntry(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%u" "%s" "1" "%s" "%u" ""; char body[1024]; int bodylen; struct NameValueParserData data; const char * r_host, * ext_port, * protocol; unsigned short eport, iport; char int_ip[32]; char desc[64]; unsigned int leaseduration = 0; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); r_host = GetValueFromNameValueList(&data, "NewRemoteHost"); ext_port = GetValueFromNameValueList(&data, "NewExternalPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); #ifdef UPNP_STRICT if(!ext_port || !protocol || !r_host) #else if(!ext_port || !protocol) #endif { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } #ifndef SUPPORT_REMOTEHOST #ifdef UPNP_STRICT if (r_host && (r_host[0] != '\0') && (0 != strcmp(r_host, "*"))) { ClearNameValueList(&data); SoapError(h, 726, "RemoteHostOnlySupportsWildcard"); return; } #endif #endif eport = (unsigned short)atoi(ext_port); if(eport == 0) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } /* TODO : add r_host as an input parameter ... * We prevent several Port Mapping with same external port * but different remoteHost to be set up, so that is not * a priority. */ r = upnp_get_redirection_infos(eport, protocol, &iport, int_ip, sizeof(int_ip), desc, sizeof(desc), NULL, 0, &leaseduration); if(r < 0) { SoapError(h, 714, "NoSuchEntryInArray"); } else { syslog(LOG_INFO, "%s: rhost='%s' %s %s found => %s:%u desc='%s' duration=%u", action, r_host ? r_host : "NULL", ext_port, protocol, int_ip, (unsigned int)iport, desc, leaseduration); bodylen = snprintf(body, sizeof(body), resp, action, ns/*SERVICE_TYPE_WANIPC*/, (unsigned int)iport, int_ip, desc, leaseduration, action); BuildSendAndCloseSoapResp(h, body, bodylen); } ClearNameValueList(&data); } static void DeletePortMapping(struct upnphttp * h, const char * action, const char * ns) { int r; /*static const char resp[] = "" "";*/ static const char resp[] = "" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * ext_port, * protocol; unsigned short eport; #ifdef UPNP_STRICT const char * r_host; #endif /* UPNP_STRICT */ ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); ext_port = GetValueFromNameValueList(&data, "NewExternalPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); #ifdef UPNP_STRICT r_host = GetValueFromNameValueList(&data, "NewRemoteHost"); #endif /* UPNP_STRICT */ #ifdef UPNP_STRICT if(!ext_port || !protocol || !r_host) #else if(!ext_port || !protocol) #endif /* UPNP_STRICT */ { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } #ifndef SUPPORT_REMOTEHOST #ifdef UPNP_STRICT if (r_host && (r_host[0] != '\0') && (0 != strcmp(r_host, "*"))) { ClearNameValueList(&data); SoapError(h, 726, "RemoteHostOnlySupportsWildcard"); return; } #endif /* UPNP_STRICT */ #endif /* SUPPORT_REMOTEHOST */ eport = (unsigned short)atoi(ext_port); if(eport == 0) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } syslog(LOG_INFO, "%s: external port: %hu, protocol: %s", action, eport, protocol); /* if in secure mode, check the IP * Removing a redirection is not a security threat, * just an annoyance for the user using it. So this is not * a priority. */ if(GETFLAG(SECUREMODEMASK)) { char int_ip[32]; struct in_addr int_ip_addr; unsigned short iport; unsigned int leaseduration = 0; r = upnp_get_redirection_infos(eport, protocol, &iport, int_ip, sizeof(int_ip), NULL, 0, NULL, 0, &leaseduration); if(r >= 0) { if(inet_pton(AF_INET, int_ip, &int_ip_addr) > 0) { if(h->clientaddr.s_addr != int_ip_addr.s_addr) { SoapError(h, 606, "Action not authorized"); /*SoapError(h, 714, "NoSuchEntryInArray");*/ ClearNameValueList(&data); return; } } } } r = upnp_delete_redirection(eport, protocol); if(r < 0) { SoapError(h, 714, "NoSuchEntryInArray"); } else { bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); } ClearNameValueList(&data); } /* DeletePortMappingRange was added in IGD spec v2 */ static void DeletePortMappingRange(struct upnphttp * h, const char * action, const char * ns) { int r = -1; /*static const char resp[] = "" "";*/ static const char resp[] = "" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * protocol; const char * startport_s, * endport_s; unsigned short startport, endport; /*int manage;*/ unsigned short * port_list; unsigned int i, number = 0; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); startport_s = GetValueFromNameValueList(&data, "NewStartPort"); endport_s = GetValueFromNameValueList(&data, "NewEndPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); /*manage = atoi(GetValueFromNameValueList(&data, "NewManage"));*/ if(startport_s == NULL || endport_s == NULL || protocol == NULL || !is_numeric(startport_s) || !is_numeric(endport_s)) { SoapError(h, 402, "Invalid Args"); ClearNameValueList(&data); return; } startport = (unsigned short)atoi(startport_s); endport = (unsigned short)atoi(endport_s); /* possible errors : 606 - Action not authorized 730 - PortMappingNotFound 733 - InconsistentParameter */ if(startport > endport) { SoapError(h, 733, "InconsistentParameter"); ClearNameValueList(&data); return; } syslog(LOG_INFO, "%s: deleting external ports: %hu-%hu, protocol: %s", action, startport, endport, protocol); port_list = upnp_get_portmappings_in_range(startport, endport, protocol, &number); if(number == 0) { SoapError(h, 730, "PortMappingNotFound"); ClearNameValueList(&data); free(port_list); return; } for(i = 0; i < number; i++) { r = upnp_delete_redirection(port_list[i], protocol); syslog(LOG_INFO, "%s: deleting external port: %hu, protocol: %s: %s", action, port_list[i], protocol, r < 0 ? "failed" : "ok"); } free(port_list); bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); ClearNameValueList(&data); } static void GetGenericPortMappingEntry(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%s" "%u" "%s" "%u" "%s" "1" "%s" "%u" ""; long int index = 0; unsigned short eport, iport; const char * m_index; char * endptr; char protocol[8], iaddr[32]; char desc[64]; char rhost[40]; unsigned int leaseduration = 0; struct NameValueParserData data; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); m_index = GetValueFromNameValueList(&data, "NewPortMappingIndex"); if(!m_index) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } errno = 0; /* To distinguish success/failure after call */ index = strtol(m_index, &endptr, 10); if((errno == ERANGE && (index == LONG_MAX || index == LONG_MIN)) || (errno != 0 && index == 0) || (m_index == endptr)) { /* should condition (*endptr != '\0') be also an error ? */ if(m_index == endptr) syslog(LOG_WARNING, "%s: no digits were found in <%s>", "GetGenericPortMappingEntry", "NewPortMappingIndex"); else syslog(LOG_WARNING, "%s: strtol('%s'): %m", "GetGenericPortMappingEntry", m_index); ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } syslog(LOG_INFO, "%s: index=%d", action, (int)index); rhost[0] = '\0'; r = upnp_get_redirection_infos_by_index((int)index, &eport, protocol, &iport, iaddr, sizeof(iaddr), desc, sizeof(desc), rhost, sizeof(rhost), &leaseduration); if(r < 0) { SoapError(h, 713, "SpecifiedArrayIndexInvalid"); } else { int bodylen; char body[2048]; bodylen = snprintf(body, sizeof(body), resp, action, ns, /*SERVICE_TYPE_WANIPC,*/ rhost, (unsigned int)eport, protocol, (unsigned int)iport, iaddr, desc, leaseduration, action); BuildSendAndCloseSoapResp(h, body, bodylen); } ClearNameValueList(&data); } /* GetListOfPortMappings was added in the IGD v2 specification */ static void GetListOfPortMappings(struct upnphttp * h, const char * action, const char * ns) { static const char resp_start[] = "" "" ""; static const char list_start[] = ""; static const char list_end[] = ""; static const char entry[] = "" "%s" "%hu" "%s" "%hu" "%s" "1" "%s" "%u" ""; char * body; size_t bodyalloc; int bodylen; int r = -1; unsigned short iport; char int_ip[32]; char desc[64]; char rhost[64]; unsigned int leaseduration = 0; struct NameValueParserData data; const char * startport_s, * endport_s; unsigned short startport, endport; const char * protocol; /*int manage;*/ const char * number_s; int number; unsigned short * port_list; unsigned int i, list_size = 0; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); startport_s = GetValueFromNameValueList(&data, "NewStartPort"); endport_s = GetValueFromNameValueList(&data, "NewEndPort"); protocol = GetValueFromNameValueList(&data, "NewProtocol"); /*manage_s = GetValueFromNameValueList(&data, "NewManage");*/ number_s = GetValueFromNameValueList(&data, "NewNumberOfPorts"); if(startport_s == NULL || endport_s == NULL || protocol == NULL || number_s == NULL || !is_numeric(number_s) || !is_numeric(startport_s) || !is_numeric(endport_s)) { SoapError(h, 402, "Invalid Args"); ClearNameValueList(&data); return; } startport = (unsigned short)atoi(startport_s); endport = (unsigned short)atoi(endport_s); /*manage = atoi(manage_s);*/ number = atoi(number_s); if(number == 0) number = 1000; /* return up to 1000 mappings by default */ if(startport > endport) { SoapError(h, 733, "InconsistentParameter"); ClearNameValueList(&data); return; } /* build the PortMappingList xml document : 202.233.2.1 2345 TCP 2345 192.168.1.137 1 dooom 345 */ bodyalloc = 4096; body = malloc(bodyalloc); if(!body) { ClearNameValueList(&data); SoapError(h, 501, "ActionFailed"); return; } bodylen = snprintf(body, bodyalloc, resp_start, action, ns/*SERVICE_TYPE_WANIPC*/); if(bodylen < 0) { SoapError(h, 501, "ActionFailed"); free(body); return; } memcpy(body+bodylen, list_start, sizeof(list_start)); bodylen += (sizeof(list_start) - 1); port_list = upnp_get_portmappings_in_range(startport, endport, protocol, &list_size); /* loop through port mappings */ for(i = 0; number > 0 && i < list_size; i++) { /* have a margin of 1024 bytes to store the new entry */ if((unsigned int)bodylen + 1024 > bodyalloc) { char * body_sav = body; bodyalloc += 4096; body = realloc(body, bodyalloc); if(!body) { syslog(LOG_CRIT, "realloc(%p, %u) FAILED", body_sav, (unsigned)bodyalloc); ClearNameValueList(&data); SoapError(h, 501, "ActionFailed"); free(body_sav); free(port_list); return; } } rhost[0] = '\0'; r = upnp_get_redirection_infos(port_list[i], protocol, &iport, int_ip, sizeof(int_ip), desc, sizeof(desc), rhost, sizeof(rhost), &leaseduration); if(r == 0) { bodylen += snprintf(body+bodylen, bodyalloc-bodylen, entry, rhost, port_list[i], protocol, iport, int_ip, desc, leaseduration); number--; } } free(port_list); port_list = NULL; if((bodylen + sizeof(list_end) + 1024) > bodyalloc) { char * body_sav = body; bodyalloc += (sizeof(list_end) + 1024); body = realloc(body, bodyalloc); if(!body) { syslog(LOG_CRIT, "realloc(%p, %u) FAILED", body_sav, (unsigned)bodyalloc); ClearNameValueList(&data); SoapError(h, 501, "ActionFailed"); free(body_sav); return; } } memcpy(body+bodylen, list_end, sizeof(list_end)); bodylen += (sizeof(list_end) - 1); bodylen += snprintf(body+bodylen, bodyalloc-bodylen, resp_end, action); BuildSendAndCloseSoapResp(h, body, bodylen); free(body); ClearNameValueList(&data); } #ifdef ENABLE_L3F_SERVICE static void SetDefaultConnectionService(struct upnphttp * h, const char * action, const char * ns) { /*static const char resp[] = "" "";*/ static const char resp[] = "" ""; char body[512]; int bodylen; struct NameValueParserData data; char * p; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); p = GetValueFromNameValueList(&data, "NewDefaultConnectionService"); if(p) { /* 720 InvalidDeviceUUID * 721 InvalidServiceID * 723 InvalidConnServiceSelection */ #ifdef UPNP_STRICT char * service; service = strchr(p, ','); if(0 != memcmp(uuidvalue_wcd, p, sizeof("uuid:00000000-0000-0000-0000-000000000000") - 1)) { SoapError(h, 720, "InvalidDeviceUUID"); } else if(service == NULL || 0 != strcmp(service+1, SERVICE_ID_WANIPC)) { SoapError(h, 721, "InvalidServiceID"); } else #endif { syslog(LOG_INFO, "%s(%s) : Ignored", action, p); bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); } } else { /* missing argument */ SoapError(h, 402, "Invalid Args"); } ClearNameValueList(&data); } static void GetDefaultConnectionService(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" #ifdef IGD_V2 "%s:WANConnectionDevice:2," #else "%s:WANConnectionDevice:1," #endif SERVICE_ID_WANIPC "" ""; /* example from UPnP_IGD_Layer3Forwarding 1.0.pdf : * uuid:44f5824f-c57d-418c-a131-f22b34e14111:WANConnectionDevice:1, * urn:upnp-org:serviceId:WANPPPConn1 */ char body[1024]; int bodylen; /* namespace : urn:schemas-upnp-org:service:Layer3Forwarding:1 */ bodylen = snprintf(body, sizeof(body), resp, action, ns, uuidvalue_wcd, action); BuildSendAndCloseSoapResp(h, body, bodylen); } #endif /* Added for compliance with WANIPConnection v2 */ static void SetConnectionType(struct upnphttp * h, const char * action, const char * ns) { #ifdef UPNP_STRICT const char * connection_type; #endif /* UPNP_STRICT */ struct NameValueParserData data; UNUSED(action); UNUSED(ns); ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); #ifdef UPNP_STRICT connection_type = GetValueFromNameValueList(&data, "NewConnectionType"); if(!connection_type) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } #endif /* UPNP_STRICT */ /* Unconfigured, IP_Routed, IP_Bridged */ ClearNameValueList(&data); /* always return a ReadOnly error */ SoapError(h, 731, "ReadOnly"); } /* Added for compliance with WANIPConnection v2 */ static void RequestConnection(struct upnphttp * h, const char * action, const char * ns) { UNUSED(action); UNUSED(ns); SoapError(h, 606, "Action not authorized"); } /* Added for compliance with WANIPConnection v2 */ static void ForceTermination(struct upnphttp * h, const char * action, const char * ns) { UNUSED(action); UNUSED(ns); SoapError(h, 606, "Action not authorized"); } /* If a control point calls QueryStateVariable on a state variable that is not buffered in memory within (or otherwise available from) the service, the service must return a SOAP fault with an errorCode of 404 Invalid Var. QueryStateVariable remains useful as a limited test tool but may not be part of some future versions of UPnP. */ static void QueryStateVariable(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%s" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * var_name; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); /*var_name = GetValueFromNameValueList(&data, "QueryStateVariable"); */ /*var_name = GetValueFromNameValueListIgnoreNS(&data, "varName");*/ var_name = GetValueFromNameValueList(&data, "varName"); /*syslog(LOG_INFO, "QueryStateVariable(%.40s)", var_name); */ if(!var_name) { SoapError(h, 402, "Invalid Args"); } else if(strcmp(var_name, "ConnectionStatus") == 0) { const char * status; status = get_wan_connection_status_str(ext_if_name); bodylen = snprintf(body, sizeof(body), resp, action, ns,/*"urn:schemas-upnp-org:control-1-0",*/ status, action); BuildSendAndCloseSoapResp(h, body, bodylen); } #if 0 /* not useful */ else if(strcmp(var_name, "ConnectionType") == 0) { bodylen = snprintf(body, sizeof(body), resp, "IP_Routed"); BuildSendAndCloseSoapResp(h, body, bodylen); } else if(strcmp(var_name, "LastConnectionError") == 0) { bodylen = snprintf(body, sizeof(body), resp, "ERROR_NONE"); BuildSendAndCloseSoapResp(h, body, bodylen); } #endif else if(strcmp(var_name, "PortMappingNumberOfEntries") == 0) { char strn[10]; snprintf(strn, sizeof(strn), "%i", upnp_get_portmapping_number_of_entries()); bodylen = snprintf(body, sizeof(body), resp, action, ns,/*"urn:schemas-upnp-org:control-1-0",*/ strn, action); BuildSendAndCloseSoapResp(h, body, bodylen); } else { syslog(LOG_NOTICE, "%s: Unknown: %s", action, var_name?var_name:""); SoapError(h, 404, "Invalid Var"); } ClearNameValueList(&data); } #ifdef ENABLE_6FC_SERVICE #ifndef ENABLE_IPV6 #error "ENABLE_6FC_SERVICE needs ENABLE_IPV6" #endif /* WANIPv6FirewallControl actions */ static void GetFirewallStatus(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%d" "%d" ""; char body[512]; int bodylen; bodylen = snprintf(body, sizeof(body), resp, action, ns, /*"urn:schemas-upnp-org:service:WANIPv6FirewallControl:1",*/ GETFLAG(IPV6FCFWDISABLEDMASK) ? 0 : 1, GETFLAG(IPV6FCINBOUNDDISALLOWEDMASK) ? 0 : 1, action); BuildSendAndCloseSoapResp(h, body, bodylen); } static int CheckStatus(struct upnphttp * h) { if (GETFLAG(IPV6FCFWDISABLEDMASK)) { SoapError(h, 702, "FirewallDisabled"); return 0; } else if(GETFLAG(IPV6FCINBOUNDDISALLOWEDMASK)) { SoapError(h, 703, "InboundPinholeNotAllowed"); return 0; } else return 1; } #if 0 static int connecthostport(const char * host, unsigned short port, char * result) { int s, n; char hostname[INET6_ADDRSTRLEN]; char port_str[8], ifname[8], tmp[4]; struct addrinfo *ai, *p; struct addrinfo hints; memset(&hints, 0, sizeof(hints)); /* hints.ai_flags = AI_ADDRCONFIG; */ #ifdef AI_NUMERICSERV hints.ai_flags = AI_NUMERICSERV; #endif hints.ai_socktype = SOCK_STREAM; hints.ai_family = AF_UNSPEC; /* AF_INET, AF_INET6 or AF_UNSPEC */ /* hints.ai_protocol = IPPROTO_TCP; */ snprintf(port_str, sizeof(port_str), "%hu", port); strcpy(hostname, host); if(!strncmp(host, "fe80", 4)) { printf("Using an linklocal address\n"); strcpy(ifname, "%"); snprintf(tmp, sizeof(tmp), "%d", linklocal_index); strcat(ifname, tmp); strcat(hostname, ifname); printf("host: %s\n", hostname); } n = getaddrinfo(hostname, port_str, &hints, &ai); if(n != 0) { fprintf(stderr, "getaddrinfo() error : %s\n", gai_strerror(n)); return -1; } s = -1; for(p = ai; p; p = p->ai_next) { #ifdef DEBUG char tmp_host[256]; char tmp_service[256]; printf("ai_family=%d ai_socktype=%d ai_protocol=%d ai_addrlen=%d\n ", p->ai_family, p->ai_socktype, p->ai_protocol, p->ai_addrlen); getnameinfo(p->ai_addr, p->ai_addrlen, tmp_host, sizeof(tmp_host), tmp_service, sizeof(tmp_service), NI_NUMERICHOST | NI_NUMERICSERV); printf(" host=%s service=%s\n", tmp_host, tmp_service); #endif inet_ntop(AF_INET6, &(((struct sockaddr_in6 *)p->ai_addr)->sin6_addr), result, INET6_ADDRSTRLEN); return 0; } freeaddrinfo(ai); } #endif /* Check the security policy right */ static int PinholeVerification(struct upnphttp * h, char * int_ip, unsigned short int_port) { int n; char senderAddr[INET6_ADDRSTRLEN]=""; struct addrinfo hints, *ai, *p; struct in6_addr result_ip; /* Pinhole InternalClient address must correspond to the action sender */ syslog(LOG_INFO, "Checking internal IP@ and port (Security policy purpose)"); hints.ai_socktype = SOCK_STREAM; hints.ai_family = AF_UNSPEC; /* if ip not valid assume hostname and convert */ if (inet_pton(AF_INET6, int_ip, &result_ip) <= 0) { n = getaddrinfo(int_ip, NULL, &hints, &ai); if (n == 0) { int found = 0; for(p = ai; p; p = p->ai_next) { if(p->ai_family == AF_INET6) { inet_ntop(AF_INET6, (struct in6_addr *) p, int_ip, sizeof(struct in6_addr)); result_ip = *((struct in6_addr *) p); found = 1; /* TODO : deal with more than one ip per hostname */ break; } } freeaddrinfo(ai); if (!found) { syslog(LOG_NOTICE, "No IPv6 address for hostname '%s'", int_ip); SoapError(h, 402, "Invalid Args"); return -1; } } else { syslog(LOG_WARNING, "Failed to convert hostname '%s' to IP address : %s", int_ip, gai_strerror(n)); SoapError(h, 402, "Invalid Args"); return -1; } } if(inet_ntop(AF_INET6, &(h->clientaddr_v6), senderAddr, INET6_ADDRSTRLEN) == NULL) { syslog(LOG_ERR, "inet_ntop: %m"); } #ifdef DEBUG printf("\tPinholeVerification:\n\t\tCompare sender @: %s\n\t\t to intClient @: %s\n", senderAddr, int_ip); #endif if(strcmp(senderAddr, int_ip) != 0) if(h->clientaddr_v6.s6_addr != result_ip.s6_addr) { syslog(LOG_INFO, "Client %s tried to access pinhole for internal %s and is not authorized to do it", senderAddr, int_ip); SoapError(h, 606, "Action not authorized"); return 0; } /* Pinhole InternalPort must be greater than or equal to 1024 */ if (int_port < 1024) { syslog(LOG_INFO, "Client %s tried to access pinhole with port < 1024 and is not authorized to do it", senderAddr); SoapError(h, 606, "Action not authorized"); return 0; } return 1; } static void AddPinhole(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%d" ""; char body[512]; int bodylen; struct NameValueParserData data; char * rem_host, * rem_port, * int_ip, * int_port, * protocol, * leaseTime; int uid = 0; unsigned short iport, rport; int ltime; long proto; char rem_ip[INET6_ADDRSTRLEN]; if(CheckStatus(h)==0) return; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); rem_host = GetValueFromNameValueList(&data, "RemoteHost"); rem_port = GetValueFromNameValueList(&data, "RemotePort"); int_ip = GetValueFromNameValueList(&data, "InternalClient"); int_port = GetValueFromNameValueList(&data, "InternalPort"); protocol = GetValueFromNameValueList(&data, "Protocol"); leaseTime = GetValueFromNameValueList(&data, "LeaseTime"); rport = (unsigned short)(rem_port ? atoi(rem_port) : 0); iport = (unsigned short)(int_port ? atoi(int_port) : 0); ltime = leaseTime ? atoi(leaseTime) : -1; errno = 0; proto = protocol ? strtol(protocol, NULL, 0) : -1; if(errno != 0 || proto > 65535 || proto < 0) { SoapError(h, 402, "Invalid Args"); goto clear_and_exit; } if(iport == 0) { SoapError(h, 706, "InternalPortWilcardingNotAllowed"); goto clear_and_exit; } /* In particular, [IGD2] RECOMMENDS that unauthenticated and * unauthorized control points are only allowed to invoke * this action with: * - InternalPort value greater than or equal to 1024, * - InternalClient value equals to the control point's IP address. * It is REQUIRED that InternalClient cannot be one of IPv6 * addresses used by the gateway. */ if(!int_ip || int_ip[0] == '\0' || 0 == strcmp(int_ip, "*")) { SoapError(h, 708, "WildCardNotPermittedInSrcIP"); goto clear_and_exit; } /* I guess it is useless to convert int_ip to literal ipv6 address */ if(rem_host) { /* trim */ while(isspace(rem_host[0])) rem_host++; } /* rem_host should be converted to literal ipv6 : */ if(rem_host && (rem_host[0] != '\0') && (rem_host[0] != '*')) { struct addrinfo *ai, *p; struct addrinfo hints; int err; memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = AF_INET6; /*hints.ai_flags = */ /* hints.ai_protocol = proto; */ err = getaddrinfo(rem_host, rem_port, &hints, &ai); if(err == 0) { /* take the 1st IPv6 address */ for(p = ai; p; p = p->ai_next) { if(p->ai_family == AF_INET6) { inet_ntop(AF_INET6, &(((struct sockaddr_in6 *)p->ai_addr)->sin6_addr), rem_ip, sizeof(rem_ip)); syslog(LOG_INFO, "resolved '%s' to '%s'", rem_host, rem_ip); rem_host = rem_ip; break; } } freeaddrinfo(ai); } else { syslog(LOG_WARNING, "AddPinhole : getaddrinfo(%s) : %s", rem_host, gai_strerror(err)); #if 0 SoapError(h, 402, "Invalid Args"); goto clear_and_exit; #endif } } if(proto == 65535) { SoapError(h, 707, "ProtocolWilcardingNotAllowed"); goto clear_and_exit; } if(proto != IPPROTO_UDP && proto != IPPROTO_TCP #ifdef IPPROTO_UDPITE && atoi(protocol) != IPPROTO_UDPLITE #endif ) { SoapError(h, 705, "ProtocolNotSupported"); goto clear_and_exit; } if(ltime < 1 || ltime > 86400) { syslog(LOG_WARNING, "%s: LeaseTime=%d not supported, (ip=%s)", action, ltime, int_ip); SoapError(h, 402, "Invalid Args"); goto clear_and_exit; } if(PinholeVerification(h, int_ip, iport) <= 0) goto clear_and_exit; syslog(LOG_INFO, "%s: (inbound) from [%s]:%hu to [%s]:%hu with proto %ld during %d sec", action, rem_host?rem_host:"any", rport, int_ip, iport, proto, ltime); /* In cases where the RemoteHost, RemotePort, InternalPort, * InternalClient and Protocol are the same than an existing pinhole, * but LeaseTime is different, the device MUST extend the existing * pinhole's lease time and return the UniqueID of the existing pinhole. */ r = upnp_add_inboundpinhole(rem_host, rport, int_ip, iport, proto, "IGD2 pinhole", ltime, &uid); switch(r) { case 1: /* success */ bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:WANIPv6FirewallControl:1"*/, uid, action); BuildSendAndCloseSoapResp(h, body, bodylen); break; case -1: /* not permitted */ SoapError(h, 701, "PinholeSpaceExhausted"); break; default: SoapError(h, 501, "ActionFailed"); break; } /* 606 Action not authorized * 701 PinholeSpaceExhausted * 702 FirewallDisabled * 703 InboundPinholeNotAllowed * 705 ProtocolNotSupported * 706 InternalPortWildcardingNotAllowed * 707 ProtocolWildcardingNotAllowed * 708 WildCardNotPermittedInSrcIP */ clear_and_exit: ClearNameValueList(&data); } static void UpdatePinhole(struct upnphttp * h, const char * action, const char * ns) { #if 0 static const char resp[] = "" ""; #endif static const char resp[] = "" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * uid_str, * leaseTime; char iaddr[INET6_ADDRSTRLEN]; unsigned short iport; int ltime; int uid; int n; if(CheckStatus(h)==0) return; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); uid_str = GetValueFromNameValueList(&data, "UniqueID"); leaseTime = GetValueFromNameValueList(&data, "NewLeaseTime"); uid = uid_str ? atoi(uid_str) : -1; ltime = leaseTime ? atoi(leaseTime) : -1; ClearNameValueList(&data); if(uid < 0 || uid > 65535 || ltime <= 0 || ltime > 86400) { SoapError(h, 402, "Invalid Args"); return; } /* Check that client is not updating an pinhole * it doesn't have access to, because of its public access */ n = upnp_get_pinhole_info(uid, NULL, 0, NULL, iaddr, sizeof(iaddr), &iport, NULL, /* proto */ NULL, 0, /* desc, desclen */ NULL, NULL); if (n >= 0) { if(PinholeVerification(h, iaddr, iport) <= 0) return; } else if(n == -2) { SoapError(h, 704, "NoSuchEntry"); return; } else { SoapError(h, 501, "ActionFailed"); return; } syslog(LOG_INFO, "%s: (inbound) updating lease duration to %d for pinhole with ID: %d", action, ltime, uid); n = upnp_update_inboundpinhole(uid, ltime); if(n == -1) SoapError(h, 704, "NoSuchEntry"); else if(n < 0) SoapError(h, 501, "ActionFailed"); else { bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); } } static void GetOutboundPinholeTimeout(struct upnphttp * h, const char * action, const char * ns) { int r; static const char resp[] = "" "%d" ""; char body[512]; int bodylen; struct NameValueParserData data; char * int_ip, * int_port, * rem_host, * rem_port, * protocol; int opt=0; /*int proto=0;*/ unsigned short iport, rport; if (GETFLAG(IPV6FCFWDISABLEDMASK)) { SoapError(h, 702, "FirewallDisabled"); return; } ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); int_ip = GetValueFromNameValueList(&data, "InternalClient"); int_port = GetValueFromNameValueList(&data, "InternalPort"); rem_host = GetValueFromNameValueList(&data, "RemoteHost"); rem_port = GetValueFromNameValueList(&data, "RemotePort"); protocol = GetValueFromNameValueList(&data, "Protocol"); if (!int_port || !rem_port || !protocol) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } rport = (unsigned short)atoi(rem_port); iport = (unsigned short)atoi(int_port); /*proto = atoi(protocol);*/ syslog(LOG_INFO, "%s: retrieving timeout for outbound pinhole from [%s]:%hu to [%s]:%hu protocol %s", action, int_ip, iport,rem_host, rport, protocol); /* TODO */ r = -1;/*upnp_check_outbound_pinhole(proto, &opt);*/ switch(r) { case 1: /* success */ bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:WANIPv6FirewallControl:1"*/, opt, action); BuildSendAndCloseSoapResp(h, body, bodylen); break; case -5: /* Protocol not supported */ SoapError(h, 705, "ProtocolNotSupported"); break; default: SoapError(h, 501, "ActionFailed"); } ClearNameValueList(&data); } static void DeletePinhole(struct upnphttp * h, const char * action, const char * ns) { int n; #if 0 static const char resp[] = "" ""; #endif static const char resp[] = "" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * uid_str; char iaddr[INET6_ADDRSTRLEN]; int proto; unsigned short iport; unsigned int leasetime; int uid; if(CheckStatus(h)==0) return; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); uid_str = GetValueFromNameValueList(&data, "UniqueID"); uid = uid_str ? atoi(uid_str) : -1; ClearNameValueList(&data); if(uid < 0 || uid > 65535) { SoapError(h, 402, "Invalid Args"); return; } /* Check that client is not deleting an pinhole * it doesn't have access to, because of its public access */ n = upnp_get_pinhole_info(uid, NULL, 0, NULL, iaddr, sizeof(iaddr), &iport, &proto, NULL, 0, /* desc, desclen */ &leasetime, NULL); if (n >= 0) { if(PinholeVerification(h, iaddr, iport) <= 0) return; } else if(n == -2) { SoapError(h, 704, "NoSuchEntry"); return; } else { SoapError(h, 501, "ActionFailed"); return; } n = upnp_delete_inboundpinhole(uid); if(n < 0) { syslog(LOG_INFO, "%s: (inbound) failed to remove pinhole with ID: %d", action, uid); SoapError(h, 501, "ActionFailed"); return; } syslog(LOG_INFO, "%s: (inbound) pinhole with ID %d successfully removed", action, uid); bodylen = snprintf(body, sizeof(body), resp, action, ns, action); BuildSendAndCloseSoapResp(h, body, bodylen); } static void CheckPinholeWorking(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%d" ""; char body[512]; int bodylen; int r; struct NameValueParserData data; const char * uid_str; int uid; char iaddr[INET6_ADDRSTRLEN]; unsigned short iport; unsigned int packets; if(CheckStatus(h)==0) return; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); uid_str = GetValueFromNameValueList(&data, "UniqueID"); uid = uid_str ? atoi(uid_str) : -1; ClearNameValueList(&data); if(uid < 0 || uid > 65535) { SoapError(h, 402, "Invalid Args"); return; } /* Check that client is not checking a pinhole * it doesn't have access to, because of its public access */ r = upnp_get_pinhole_info(uid, NULL, 0, NULL, iaddr, sizeof(iaddr), &iport, NULL, /* proto */ NULL, 0, /* desc, desclen */ NULL, &packets); if (r >= 0) { if(PinholeVerification(h, iaddr, iport) <= 0) return ; if(packets == 0) { SoapError(h, 709, "NoPacketSent"); return; } bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:WANIPv6FirewallControl:1"*/, 1, action); BuildSendAndCloseSoapResp(h, body, bodylen); } else if(r == -2) SoapError(h, 704, "NoSuchEntry"); else SoapError(h, 501, "ActionFailed"); } static void GetPinholePackets(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%u" ""; char body[512]; int bodylen; struct NameValueParserData data; const char * uid_str; int n; char iaddr[INET6_ADDRSTRLEN]; unsigned short iport; unsigned int packets = 0; int uid; int proto; unsigned int leasetime; if(CheckStatus(h)==0) return; ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); uid_str = GetValueFromNameValueList(&data, "UniqueID"); uid = uid_str ? atoi(uid_str) : -1; ClearNameValueList(&data); if(uid < 0 || uid > 65535) { SoapError(h, 402, "Invalid Args"); return; } /* Check that client is not getting infos of a pinhole * it doesn't have access to, because of its public access */ n = upnp_get_pinhole_info(uid, NULL, 0, NULL, iaddr, sizeof(iaddr), &iport, &proto, NULL, 0, /* desc, desclen */ &leasetime, &packets); if (n >= 0) { if(PinholeVerification(h, iaddr, iport)<=0) return ; } #if 0 else if(r == -4 || r == -1) { SoapError(h, 704, "NoSuchEntry"); } #endif bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:WANIPv6FirewallControl:1"*/, packets, action); BuildSendAndCloseSoapResp(h, body, bodylen); } #endif #ifdef ENABLE_DP_SERVICE static void SendSetupMessage(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%s" ""; char body[1024]; int bodylen; struct NameValueParserData data; const char * ProtocolType; /* string */ const char * InMessage; /* base64 */ const char * OutMessage = ""; /* base64 */ ParseNameValue(h->req_buf + h->req_contentoff, h->req_contentlen, &data); ProtocolType = GetValueFromNameValueList(&data, "ProtocolType"); /* string */ InMessage = GetValueFromNameValueList(&data, "InMessage"); /* base64 */ if(ProtocolType == NULL || InMessage == NULL) { ClearNameValueList(&data); SoapError(h, 402, "Invalid Args"); return; } /*if(strcmp(ProtocolType, "DeviceProtection:1") != 0)*/ if(strcmp(ProtocolType, "WPS") != 0) { ClearNameValueList(&data); SoapError(h, 600, "Argument Value Invalid"); /* 703 ? */ return; } /* TODO : put here code for WPS */ bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:DeviceProtection:1"*/, OutMessage, action); BuildSendAndCloseSoapResp(h, body, bodylen); ClearNameValueList(&data); } static void GetSupportedProtocols(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "" ""; char body[1024]; int bodylen; const char * ProtocolList = "\n" "" "WPS" "PKCS5" ""; bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:DeviceProtection:1"*/, ProtocolList, action); BuildSendAndCloseSoapResp(h, body, bodylen); } static void GetAssignedRoles(struct upnphttp * h, const char * action, const char * ns) { static const char resp[] = "" "%s" ""; char body[1024]; int bodylen; const char * RoleList = "Public"; /* list of roles separated by spaces */ #ifdef ENABLE_HTTPS if(h->ssl != NULL) { /* we should get the Roles of the session (based on client certificate) */ X509 * peercert; peercert = SSL_get_peer_certificate(h->ssl); if(peercert != NULL) { RoleList = "Admin Basic"; X509_free(peercert); } } #endif bodylen = snprintf(body, sizeof(body), resp, action, ns/*"urn:schemas-upnp-org:service:DeviceProtection:1"*/, RoleList, action); BuildSendAndCloseSoapResp(h, body, bodylen); } #endif /* Windows XP as client send the following requests : * GetConnectionTypeInfo * GetNATRSIPStatus * ? GetTotalBytesSent - WANCommonInterfaceConfig * ? GetTotalBytesReceived - idem * ? GetTotalPacketsSent - idem * ? GetTotalPacketsReceived - idem * GetCommonLinkProperties - idem * GetStatusInfo - WANIPConnection * GetExternalIPAddress * QueryStateVariable / ConnectionStatus! */ static const struct { const char * methodName; void (*methodImpl)(struct upnphttp *, const char *, const char *); } soapMethods[] = { /* WANCommonInterfaceConfig */ { "QueryStateVariable", QueryStateVariable}, { "GetTotalBytesSent", GetTotalBytesSent}, { "GetTotalBytesReceived", GetTotalBytesReceived}, { "GetTotalPacketsSent", GetTotalPacketsSent}, { "GetTotalPacketsReceived", GetTotalPacketsReceived}, { "GetCommonLinkProperties", GetCommonLinkProperties}, { "GetStatusInfo", GetStatusInfo}, /* WANIPConnection */ { "GetConnectionTypeInfo", GetConnectionTypeInfo }, { "GetNATRSIPStatus", GetNATRSIPStatus}, { "GetExternalIPAddress", GetExternalIPAddress}, { "AddPortMapping", AddPortMapping}, { "DeletePortMapping", DeletePortMapping}, { "GetGenericPortMappingEntry", GetGenericPortMappingEntry}, { "GetSpecificPortMappingEntry", GetSpecificPortMappingEntry}, /* Required in WANIPConnection:2 */ { "SetConnectionType", SetConnectionType}, { "RequestConnection", RequestConnection}, { "ForceTermination", ForceTermination}, { "AddAnyPortMapping", AddAnyPortMapping}, { "DeletePortMappingRange", DeletePortMappingRange}, { "GetListOfPortMappings", GetListOfPortMappings}, #ifdef ENABLE_L3F_SERVICE /* Layer3Forwarding */ { "SetDefaultConnectionService", SetDefaultConnectionService}, { "GetDefaultConnectionService", GetDefaultConnectionService}, #endif #ifdef ENABLE_6FC_SERVICE /* WANIPv6FirewallControl */ { "GetFirewallStatus", GetFirewallStatus}, /* Required */ { "AddPinhole", AddPinhole}, /* Required */ { "UpdatePinhole", UpdatePinhole}, /* Required */ { "GetOutboundPinholeTimeout", GetOutboundPinholeTimeout}, /* Optional */ { "DeletePinhole", DeletePinhole}, /* Required */ { "CheckPinholeWorking", CheckPinholeWorking}, /* Optional */ { "GetPinholePackets", GetPinholePackets}, /* Required */ #endif #ifdef ENABLE_DP_SERVICE /* DeviceProtection */ { "SendSetupMessage", SendSetupMessage}, /* Required */ { "GetSupportedProtocols", GetSupportedProtocols}, /* Required */ { "GetAssignedRoles", GetAssignedRoles}, /* Required */ #endif { 0, 0 } }; void ExecuteSoapAction(struct upnphttp * h, const char * action, int n) { char * p; char * p2; int i, len, methodlen; char namespace[256]; /* SoapAction example : * urn:schemas-upnp-org:service:WANIPConnection:1#GetStatusInfo */ p = strchr(action, '#'); if(p && (p - action) < n) { for(i = 0; i < ((int)sizeof(namespace) - 1) && (action + i) < p; i++) namespace[i] = action[i]; namespace[i] = '\0'; p++; p2 = strchr(p, '"'); if(p2 && (p2 - action) <= n) methodlen = p2 - p; else methodlen = n - (p - action); /*syslog(LOG_DEBUG, "SoapMethod: %.*s %d %d %p %p %d", methodlen, p, methodlen, n, action, p, (int)(p - action));*/ for(i = 0; soapMethods[i].methodName; i++) { len = strlen(soapMethods[i].methodName); if((len == methodlen) && memcmp(p, soapMethods[i].methodName, len) == 0) { #ifdef DEBUG syslog(LOG_DEBUG, "Remote Call of SoapMethod '%s' %s", soapMethods[i].methodName, namespace); #endif /* DEBUG */ soapMethods[i].methodImpl(h, soapMethods[i].methodName, namespace); return; } } syslog(LOG_NOTICE, "SoapMethod: Unknown: %.*s %s", methodlen, p, namespace); } else { syslog(LOG_NOTICE, "cannot parse SoapAction"); } SoapError(h, 401, "Invalid Action"); } /* Standard Errors: * * errorCode errorDescription Description * -------- ---------------- ----------- * 401 Invalid Action No action by that name at this service. * 402 Invalid Args Could be any of the following: not enough in args, * too many in args, no in arg by that name, * one or more in args are of the wrong data type. * 403 Out of Sync Out of synchronization. * 501 Action Failed May be returned in current state of service * prevents invoking that action. * 600-699 TBD Common action errors. Defined by UPnP Forum * Technical Committee. * 700-799 TBD Action-specific errors for standard actions. * Defined by UPnP Forum working committee. * 800-899 TBD Action-specific errors for non-standard actions. * Defined by UPnP vendor. */ void SoapError(struct upnphttp * h, int errCode, const char * errDesc) { static const char resp[] = "" "" "" "s:Client" "UPnPError" "" "" "%d" "%s" "" "" "" "" ""; char body[2048]; int bodylen; syslog(LOG_INFO, "Returning UPnPError %d: %s", errCode, errDesc); bodylen = snprintf(body, sizeof(body), resp, errCode, errDesc); BuildResp2_upnphttp(h, 500, "Internal Server Error", body, bodylen); SendRespAndClose_upnphttp(h); }