miniupnpc/miniupnpd/upnpdescgen.c
2020-06-02 00:24:15 +02:00

1371 lines
38 KiB
C

/* $Id: upnpdescgen.c,v 1.87 2020/05/30 09:05:46 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 <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include "config.h"
#ifdef ENABLE_EVENTS
#include "getifaddr.h"
#include "upnpredirect.h"
#endif
#include "upnpdescgen.h"
#include "miniupnpdpath.h"
#include "upnpglobalvars.h"
#include "upnpdescstrings.h"
#include "upnpurns.h"
#include "getconnstatus.h"
/* Event magical values codes */
#define SETUPREADY_MAGICALVALUE (248)
#define CONNECTIONSTATUS_MAGICALVALUE (249)
#define FIREWALLENABLED_MAGICALVALUE (250)
#define INBOUNDPINHOLEALLOWED_MAGICALVALUE (251)
#define SYSTEMUPDATEID_MAGICALVALUE (252)
#define PORTMAPPINGNUMBEROFENTRIES_MAGICALVALUE (253)
#define EXTERNALIPADDRESS_MAGICALVALUE (254)
#define DEFAULTCONNECTIONSERVICE_MAGICALVALUE (255)
static const char * const upnptypes[] =
{
"string",
"boolean",
"ui2",
"ui4",
"bin.base64"
};
static const char * const upnpdefaultvalues[] =
{
0,
"IP_Routed"/*"Unconfigured"*/, /* 1 default value for ConnectionType */
"3600", /* 2 default value for PortMappingLeaseDuration */
"Unconfigured", /* 3 default value for ConnectionStatus */
"0", /* 4 default value for RSIPAvailable */
"1", /* 5 default value for NATEnabled */
"ERROR_NONE", /* 6 default value for LastConnectionError */
};
static const char * const upnpallowedvalues[] =
{
0, /* 0 */
"DSL", /* 1 */
"POTS",
"Cable",
"Ethernet",
0,
"Up", /* 6 */
"Down",
"Initializing",
"Unavailable",
0,
"TCP", /* 11 */
"UDP",
0,
"Unconfigured", /* 14 */
"IP_Routed",
"IP_Bridged",
0,
"Unconfigured", /* 18 */
"Connecting",
"Connected",
"PendingDisconnect",
"Disconnecting",
"Disconnected",
0,
"ERROR_NONE", /* 25 */
/* Optionals values :
* ERROR_COMMAND_ABORTED
* ERROR_NOT_ENABLED_FOR_INTERNET
* ERROR_USER_DISCONNECT
* ERROR_ISP_DISCONNECT
* ERROR_IDLE_DISCONNECT
* ERROR_FORCED_DISCONNECT
* ERROR_NO_CARRIER
* ERROR_IP_CONFIGURATION
* ERROR_UNKNOWN */
0,
"", /* 27 */
0
};
static const int upnpallowedranges[] = {
0,
/* 1 PortMappingLeaseDuration */
0,
604800,
/* 3 InternalPort */
1,
65535,
/* 5 LeaseTime */
1,
86400,
/* 7 OutboundPinholeTimeout */
100,
200,
};
static const char * magicargname[] = {
0,
"StartPort", /* 1 */
"EndPort", /* 2 */
"RemoteHost", /* 3 */
"RemotePort", /* 4 */
"InternalClient", /* 5 */
"InternalPort", /* 6 */
"IsWorking", /* 7 */
#ifdef ENABLE_DP_SERVICE
"ProtocolType", /* 8 */
"InMessage", /* 9 */
"OutMessage", /* 10 */
"ProtocolList", /* 11 */
"RoleList", /* 12 */
#endif /* ENABLE_DP_SERVICE */
};
static const char xmlver[] =
"<?xml version=\"1.0\"?>\r\n";
static const char root_service[] =
"scpd xmlns=\"urn:schemas-upnp-org:service-1-0\"";
static const char root_device[] =
"root xmlns=\"urn:schemas-upnp-org:device-1-0\"";
/* root Description of the UPnP Device
* fixed to match UPnP_IGD_InternetGatewayDevice 1.0.pdf
* Needs to be checked with UPnP-gw-InternetGatewayDevice-v2-Device.pdf
* presentationURL is only "recommended" but the router doesn't appears
* in "Network connections" in Windows XP if it is not present. */
static const struct XMLElt rootDesc[] =
{
/* 0 */
{root_device, INITHELPER(1,2)},
{"specVersion", INITHELPER(3,2)},
#if defined(ENABLE_L3F_SERVICE) || defined(HAS_DUMMY_SERVICE) || defined(ENABLE_DP_SERVICE)
{"device", INITHELPER(5,13)},
#else
{"device", INITHELPER(5,12)},
#endif
{"/major", UPNP_VERSION_MAJOR_STR},
{"/minor", UPNP_VERSION_MINOR_STR},
/* 5 */
{"/deviceType", DEVICE_TYPE_IGD},
/* urn:schemas-upnp-org:device:InternetGatewayDevice:1 or 2 */
#ifdef ENABLE_MANUFACTURER_INFO_CONFIGURATION
{"/friendlyName", friendly_name/*ROOTDEV_FRIENDLYNAME*/}, /* required */
{"/manufacturer", manufacturer_name/*ROOTDEV_MANUFACTURER*/}, /* required */
/* 8 */
{"/manufacturerURL", manufacturer_url/*ROOTDEV_MANUFACTURERURL*/}, /* optional */
{"/modelDescription", model_description/*ROOTDEV_MODELDESCRIPTION*/}, /* recommended */
{"/modelName", model_name/*ROOTDEV_MODELNAME*/}, /* required */
{"/modelNumber", modelnumber},
{"/modelURL", model_url/*ROOTDEV_MODELURL*/},
#else
{"/friendlyName", ROOTDEV_FRIENDLYNAME}, /* required */
{"/manufacturer", ROOTDEV_MANUFACTURER}, /* required */
/* 8 */
{"/manufacturerURL", ROOTDEV_MANUFACTURERURL}, /* optional */
{"/modelDescription", ROOTDEV_MODELDESCRIPTION}, /* recommended */
{"/modelName", ROOTDEV_MODELNAME}, /* required */
{"/modelNumber", modelnumber},
{"/modelURL", ROOTDEV_MODELURL},
#endif
{"/serialNumber", serialnumber},
{"/UDN", uuidvalue_igd}, /* required */
/* see if /UPC is needed. */
#ifdef ENABLE_6FC_SERVICE
#define SERVICES_OFFSET 63
#else
#define SERVICES_OFFSET 58
#endif
#if defined(ENABLE_L3F_SERVICE) || defined(HAS_DUMMY_SERVICE) || defined(ENABLE_DP_SERVICE)
/* here we dening Services for the root device :
* L3F and DUMMY and DeviceProtection */
#ifdef ENABLE_L3F_SERVICE
#define NSERVICES1 1
#else
#define NSERVICES1 0
#endif
#ifdef HAS_DUMMY_SERVICE
#define NSERVICES2 1
#else
#define NSERVICES2 0
#endif
#ifdef ENABLE_DP_SERVICE
#define NSERVICES3 1
#else
#define NSERVICES3 0
#endif
#define NSERVICES (NSERVICES1+NSERVICES2+NSERVICES3)
{"serviceList", INITHELPER(SERVICES_OFFSET,NSERVICES)},
{"deviceList", INITHELPER(18,1)},
{"/presentationURL", presentationurl}, /* recommended */
#else
{"deviceList", INITHELPER(18,1)},
{"/presentationURL", presentationurl}, /* recommended */
{0,0},
#endif
/* 18 */
{"device", INITHELPER(19,13)},
/* 19 */
{"/deviceType", DEVICE_TYPE_WAN}, /* required */
/* urn:schemas-upnp-org:device:WANDevice:1 or 2 */
{"/friendlyName", WANDEV_FRIENDLYNAME},
{"/manufacturer", WANDEV_MANUFACTURER},
{"/manufacturerURL", WANDEV_MANUFACTURERURL},
{"/modelDescription" , WANDEV_MODELDESCRIPTION},
{"/modelName", WANDEV_MODELNAME},
{"/modelNumber", WANDEV_MODELNUMBER},
{"/modelURL", WANDEV_MODELURL},
{"/serialNumber", serialnumber},
{"/UDN", uuidvalue_wan},
{"/UPC", WANDEV_UPC}, /* UPC (=12 digit barcode) is optional */
/* 30 */
{"serviceList", INITHELPER(32,1)},
{"deviceList", INITHELPER(38,1)},
/* 32 */
{"service", INITHELPER(33,5)},
/* 33 */
{"/serviceType",
"urn:schemas-upnp-org:service:WANCommonInterfaceConfig:1"},
/*{"/serviceId", "urn:upnp-org:serviceId:WANCommonInterfaceConfig"}, */
{"/serviceId", "urn:upnp-org:serviceId:WANCommonIFC1"}, /* required */
{"/SCPDURL", WANCFG_PATH},
{"/controlURL", WANCFG_CONTROLURL},
{"/eventSubURL", WANCFG_EVENTURL},
/* 38 */
{"device", INITHELPER(39,12)},
/* 39 */
{"/deviceType", DEVICE_TYPE_WANC},
/* urn:schemas-upnp-org:device:WANConnectionDevice:1 or 2 */
{"/friendlyName", WANCDEV_FRIENDLYNAME},
{"/manufacturer", WANCDEV_MANUFACTURER},
{"/manufacturerURL", WANCDEV_MANUFACTURERURL},
{"/modelDescription", WANCDEV_MODELDESCRIPTION},
{"/modelName", WANCDEV_MODELNAME},
{"/modelNumber", WANCDEV_MODELNUMBER},
{"/modelURL", WANCDEV_MODELURL},
{"/serialNumber", serialnumber},
{"/UDN", uuidvalue_wcd},
{"/UPC", WANCDEV_UPC}, /* UPC (=12 digit Barcode) is optional */
#ifdef ENABLE_6FC_SERVICE
{"serviceList", INITHELPER(51,2)},
#else
{"serviceList", INITHELPER(51,1)},
#endif
/* 51 */
{"service", INITHELPER(53,5)},
{"service", INITHELPER(58,5)},
/* 53 */
{"/serviceType", SERVICE_TYPE_WANIPC},
/* urn:schemas-upnp-org:service:WANIPConnection:2 for v2 */
{"/serviceId", SERVICE_ID_WANIPC},
/* urn:upnp-org:serviceId:WANIPConn1 or 2 */
{"/SCPDURL", WANIPC_PATH},
{"/controlURL", WANIPC_CONTROLURL},
{"/eventSubURL", WANIPC_EVENTURL},
#ifdef ENABLE_6FC_SERVICE
/* 58 */
{"/serviceType", "urn:schemas-upnp-org:service:WANIPv6FirewallControl:1"},
{"/serviceId", "urn:upnp-org:serviceId:WANIPv6Firewall1"},
{"/SCPDURL", WANIP6FC_PATH},
{"/controlURL", WANIP6FC_CONTROLURL},
{"/eventSubURL", WANIP6FC_EVENTURL},
#endif
/* 58 / 63 = SERVICES_OFFSET*/
#if defined(HAS_DUMMY_SERVICE) || defined(ENABLE_L3F_SERVICE) || defined(ENABLE_DP_SERVICE)
{"service", INITHELPER(SERVICES_OFFSET+2,5)},
{"service", INITHELPER(SERVICES_OFFSET+7,5)},
#endif
#ifdef HAS_DUMMY_SERVICE
/* 60 / 65 = SERVICES_OFFSET+2 */
{"/serviceType", "urn:schemas-dummy-com:service:Dummy:1"},
{"/serviceId", "urn:dummy-com:serviceId:dummy1"},
{"/SCPDURL", DUMMY_PATH},
{"/controlURL", "/dummy"},
{"/eventSubURL", "/dummy"},
#endif
#ifdef ENABLE_L3F_SERVICE
/* 60 / 65 = SERVICES_OFFSET+2 */
{"/serviceType", "urn:schemas-upnp-org:service:Layer3Forwarding:1"},
{"/serviceId", "urn:upnp-org:serviceId:L3Forwarding1"},
{"/SCPDURL", L3F_PATH},
{"/controlURL", L3F_CONTROLURL}, /* The Layer3Forwarding service is only */
{"/eventSubURL", L3F_EVENTURL}, /* recommended, not mandatory */
#endif
#ifdef ENABLE_DP_SERVICE
/* InternetGatewayDevice v2 :
* it is RECOMMEDED that DeviceProtection service is implemented and applied.
* If DeviceProtection is not implemented and applied, it is RECOMMENDED
* that control points are able to access only actions and parameters defined
* as Public role. */
/* 65 / 70 = SERVICES_OFFSET+7 */
{"/serviceType", "urn:schemas-upnp-org:service:DeviceProtection:1"},
{"/serviceId", "urn:upnp-org:serviceId:DeviceProtection1"},
{"/SCPDURL", DP_PATH},
{"/controlURL", DP_CONTROLURL},
{"/eventSubURL", DP_EVENTURL},
#endif
{0, 0}
};
/* WANIPCn.xml */
/* see UPnP_IGD_WANIPConnection 1.0.pdf
static struct XMLElt scpdWANIPCn[] =
{
{root_service, {INITHELPER(1,2)}},
{0, {0}}
};
*/
static const struct argument AddPortMappingArgs[] =
{
{1, 11}, /* RemoteHost */
{1, 12}, /* ExternalPort */
{1, 14}, /* PortMappingProtocol */
{1, 13}, /* InternalPort */
{1, 15}, /* InternalClient */
{1, 9}, /* PortMappingEnabled */
{1, 16}, /* PortMappingDescription */
{1, 10}, /* PortMappingLeaseDuration */
{0, 0}
};
#ifdef IGD_V2
static const struct argument AddAnyPortMappingArgs[] =
{
{1, 11}, /* RemoteHost */
{1, 12}, /* ExternalPort */
{1, 14}, /* PortMappingProtocol */
{1, 13}, /* InternalPort */
{1, 15}, /* InternalClient */
{1, 9}, /* PortMappingEnabled */
{1, 16}, /* PortMappingDescription */
{1, 10}, /* PortMappingLeaseDuration */
{2, 12}, /* NewReservedPort / ExternalPort */
{0, 0}
};
static const struct argument DeletePortMappingRangeArgs[] =
{
{1|(1<<2), 12}, /* NewStartPort / ExternalPort */
{1|(2<<2), 12}, /* NewEndPort / ExternalPort */
{1, 14}, /* NewProtocol / PortMappingProtocol */
{1, 18}, /* NewManage / A_ARG_TYPE_Manage */
{0, 0}
};
static const struct argument GetListOfPortMappingsArgs[] =
{
{1|(1<<2), 12}, /* NewStartPort / ExternalPort */
{1|(2<<2), 12}, /* NewEndPort / ExternalPort */
{1, 14}, /* NewProtocol / PortMappingProtocol */
{1, 18}, /* NewManage / A_ARG_TYPE_Manage */
{1, 8}, /* NewNumberOfPorts / PortMappingNumberOfEntries */
{2, 19}, /* NewPortListing / A_ARG_TYPE_PortListing */
{0, 0}
};
#endif
static const struct argument GetExternalIPAddressArgs[] =
{
{2, 7},
{0, 0}
};
static const struct argument DeletePortMappingArgs[] =
{
{1, 11}, /* RemoteHost */
{1, 12}, /* ExternalPort */
{1, 14}, /* PortMappingProtocol */
{0, 0}
};
static const struct argument SetConnectionTypeArgs[] =
{
{1, 0},
{0, 0}
};
static const struct argument GetConnectionTypeInfoArgs[] =
{
{2, 0},
{2, 1},
{0, 0}
};
static const struct argument GetStatusInfoArgs[] =
{
{2, 2},
{2, 4},
{2, 3},
{0, 0}
};
static const struct argument GetNATRSIPStatusArgs[] =
{
{2, 5},
{2, 6},
{0, 0}
};
static const struct argument GetGenericPortMappingEntryArgs[] =
{
{1, 8},
{2, 11},
{2, 12},
{2, 14},
{2, 13},
{2, 15},
{2, 9},
{2, 16},
{2, 10},
{0, 0}
};
static const struct argument GetSpecificPortMappingEntryArgs[] =
{
{1, 11},
{1, 12},
{1, 14},
{2, 13},
{2, 15},
{2, 9},
{2, 16},
{2, 10},
{0, 0}
};
static const struct action WANIPCnActions[] =
{
{"SetConnectionType", SetConnectionTypeArgs}, /* R */
{"GetConnectionTypeInfo", GetConnectionTypeInfoArgs}, /* R */
{"RequestConnection", 0}, /* R */
/*{"RequestTermination", 0},*/ /* O */
{"ForceTermination", 0}, /* R */
/*{"SetAutoDisconnectTime", 0},*/ /* O */
/*{"SetIdleDisconnectTime", 0},*/ /* O */
/*{"SetWarnDisconnectDelay", 0}, */ /* O */
{"GetStatusInfo", GetStatusInfoArgs}, /* R */
/*GetAutoDisconnectTime*/ /* O */
/*GetIdleDisconnectTime*/ /* O */
/*GetWarnDisconnectDelay*/ /* O */
{"GetNATRSIPStatus", GetNATRSIPStatusArgs}, /* R */
{"GetGenericPortMappingEntry", GetGenericPortMappingEntryArgs}, /* R */
{"GetSpecificPortMappingEntry", GetSpecificPortMappingEntryArgs}, /* R */
{"AddPortMapping", AddPortMappingArgs}, /* R */
{"DeletePortMapping", DeletePortMappingArgs}, /* R */
{"GetExternalIPAddress", GetExternalIPAddressArgs}, /* R */
#ifdef IGD_V2
{"DeletePortMappingRange", DeletePortMappingRangeArgs}, /* R, IGD v2 */
{"GetListOfPortMappings", GetListOfPortMappingsArgs}, /* R, IGD v2 */
{"AddAnyPortMapping", AddAnyPortMappingArgs}, /* R, IGD v2 */
#endif
#if 0
{"AddPortMapping", AddPortMappingArgs}, /* R */
{"GetExternalIPAddress", GetExternalIPAddressArgs}, /* R */
{"DeletePortMapping", DeletePortMappingArgs}, /* R */
{"SetConnectionType", SetConnectionTypeArgs}, /* R */
{"GetConnectionTypeInfo", GetConnectionTypeInfoArgs}, /* R */
{"RequestConnection", 0}, /* R */
{"ForceTermination", 0}, /* R */
{"GetStatusInfo", GetStatusInfoArgs}, /* R */
{"GetNATRSIPStatus", GetNATRSIPStatusArgs}, /* R */
{"GetGenericPortMappingEntry", GetGenericPortMappingEntryArgs}, /* R */
{"GetSpecificPortMappingEntry", GetSpecificPortMappingEntryArgs}, /* R */
/* added in v2 UPnP-gw-WANIPConnection-v2-Service.pdf */
#ifdef IGD_V2
{"AddAnyPortMapping", AddAnyPortMappingArgs},
{"DeletePortMappingRange", DeletePortMappingRangeArgs},
{"GetListOfPortMappings", GetListOfPortMappingsArgs},
#endif
#endif
{0, 0}
};
/* R=Required, O=Optional */
/* ignore "warning: missing initializer" */
#pragma GCC diagnostic ignored "-Wmissing-field-initializers"
/* struct stateVar :
* {name, itype(&event), idefault, iallowedlist, ieventvalue} */
static const struct stateVar WANIPCnVars[] =
{
/* 0 */
#if 0
{"ConnectionType", 0, 0/*1*/}, /* required */
{"PossibleConnectionTypes", 0|0x80, 0, 14, 15},
#elif 0
{"ConnectionType", 0, 1, 14, 15}, /* required */
{"PossibleConnectionTypes", 0|0x80, 0, 0, 15},
#else
{"ConnectionType", 0, 1, 0, 15}, /* required */
{"PossibleConnectionTypes", 0|0x80, 0, 14, 15},
#endif
/* Required
* Allowed values : Unconfigured / IP_Routed / IP_Bridged */
{"ConnectionStatus", 0|0x80, 3, 18,
CONNECTIONSTATUS_MAGICALVALUE }, /* required */
/* Allowed Values : Unconfigured / Connecting(opt) / Connected
* PendingDisconnect(opt) / Disconnecting (opt)
* Disconnected */
{"Uptime", 3, 0}, /* Required */
{"LastConnectionError", 0, 6, 25}, /* required : */
/* Allowed Values : ERROR_NONE(req) / ERROR_COMMAND_ABORTED(opt)
* ERROR_NOT_ENABLED_FOR_INTERNET(opt)
* ERROR_USER_DISCONNECT(opt)
* ERROR_ISP_DISCONNECT(opt)
* ERROR_IDLE_DISCONNECT(opt)
* ERROR_FORCED_DISCONNECT(opt)
* ERROR_NO_CARRIER(opt)
* ERROR_IP_CONFIGURATION(opt)
* ERROR_UNKNOWN(opt) */
{"RSIPAvailable", 1, 4}, /* required */
{"NATEnabled", 1, 5}, /* required */
{"ExternalIPAddress", 0|0x80, 0, 0,
EXTERNALIPADDRESS_MAGICALVALUE}, /* required. Default : empty string */
{"PortMappingNumberOfEntries", 2|0x80, 0, 0,
PORTMAPPINGNUMBEROFENTRIES_MAGICALVALUE}, /* required >= 0 */
{"PortMappingEnabled", 1, 0}, /* Required */
/* 10 */
{"PortMappingLeaseDuration", 3, 2, 1}, /* required */
{"RemoteHost", 0, 0}, /* required. Default : empty string */
{"ExternalPort", 2, 0}, /* required */
{"InternalPort", 2, 0, 3}, /* required */
{"PortMappingProtocol", 0, 0, 11}, /* required allowedValues: TCP/UDP */
{"InternalClient", 0, 0}, /* required */
{"PortMappingDescription", 0, 0}, /* required default: empty string */
/* added in v2 UPnP-gw-WANIPConnection-v2-Service.pdf */
#ifdef IGD_V2
{"SystemUpdateID", 3|0x80, 0, 0, SYSTEMUPDATEID_MAGICALVALUE},
{"A_ARG_TYPE_Manage", 1, 0},
{"A_ARG_TYPE_PortListing", 0, 0},
#endif
{0, 0}
};
static const struct serviceDesc scpdWANIPCn =
{ WANIPCnActions, WANIPCnVars };
/* WANCfg.xml */
/* See UPnP_IGD_WANCommonInterfaceConfig 1.0.pdf */
static const struct argument GetCommonLinkPropertiesArgs[] =
{
{2, 0},
{2, 1},
{2, 2},
{2, 3},
{0, 0}
};
static const struct argument GetTotalBytesSentArgs[] =
{
{2, 4},
{0, 0}
};
static const struct argument GetTotalBytesReceivedArgs[] =
{
{2, 5},
{0, 0}
};
static const struct argument GetTotalPacketsSentArgs[] =
{
{2, 6},
{0, 0}
};
static const struct argument GetTotalPacketsReceivedArgs[] =
{
{2, 7},
{0, 0}
};
static const struct action WANCfgActions[] =
{
{"GetCommonLinkProperties", GetCommonLinkPropertiesArgs}, /* Required */
{"GetTotalBytesSent", GetTotalBytesSentArgs}, /* optional */
{"GetTotalBytesReceived", GetTotalBytesReceivedArgs}, /* optional */
{"GetTotalPacketsSent", GetTotalPacketsSentArgs}, /* optional */
{"GetTotalPacketsReceived", GetTotalPacketsReceivedArgs}, /* optional */
{0, 0}
};
/* See UPnP_IGD_WANCommonInterfaceConfig 1.0.pdf */
static const struct stateVar WANCfgVars[] =
{
{"WANAccessType", 0, 0, 1},
/* Allowed Values : DSL / POTS / Cable / Ethernet
* Default value : empty string */
{"Layer1UpstreamMaxBitRate", 3, 0},
{"Layer1DownstreamMaxBitRate", 3, 0},
{"PhysicalLinkStatus", 0|0x80, 0, 6, 6},
/* allowed values :
* Up / Down / Initializing (optional) / Unavailable (optionnal)
* no Default value
* Evented */
{"TotalBytesSent", 3, 0}, /* Optional */
{"TotalBytesReceived", 3, 0}, /* Optional */
{"TotalPacketsSent", 3, 0}, /* Optional */
{"TotalPacketsReceived", 3, 0},/* Optional */
/*{"MaximumActiveConnections", 2, 0}, // allowed Range value // OPTIONAL */
/*{"WANAccessProvider", 0, 0},*/ /* Optional */
{0, 0}
};
static const struct serviceDesc scpdWANCfg =
{ WANCfgActions, WANCfgVars };
#ifdef ENABLE_L3F_SERVICE
/* Read UPnP_IGD_Layer3Forwarding_1.0.pdf */
static const struct argument SetDefaultConnectionServiceArgs[] =
{
{1, 0}, /* in */
{0, 0}
};
static const struct argument GetDefaultConnectionServiceArgs[] =
{
{2, 0}, /* out */
{0, 0}
};
static const struct action L3FActions[] =
{
{"SetDefaultConnectionService", SetDefaultConnectionServiceArgs}, /* Req */
{"GetDefaultConnectionService", GetDefaultConnectionServiceArgs}, /* Req */
{0, 0}
};
static const struct stateVar L3FVars[] =
{
{"DefaultConnectionService", 0|0x80, 0, 0,
DEFAULTCONNECTIONSERVICE_MAGICALVALUE}, /* Required */
{0, 0}
};
static const struct serviceDesc scpdL3F =
{ L3FActions, L3FVars };
#endif
#ifdef ENABLE_6FC_SERVICE
/* see UPnP-gw-WANIPv6FirewallControl-v1-Service.pdf */
static const struct argument GetFirewallStatusArgs[] =
{
{2|0x80, 0}, /* OUT : FirewallEnabled */
{2|0x80, 6}, /* OUT : InboundPinholeAllowed */
{0, 0}
};
static const struct argument GetOutboundPinholeTimeoutArgs[] =
{
{1|0x80|(3<<2), 1}, /* RemoteHost IN A_ARG_TYPE_IPv6Address */
{1|0x80|(4<<2), 2}, /* RemotePort IN A_ARG_TYPE_Port */
{1|0x80|(5<<2), 1}, /* InternalClient IN A_ARG_TYPE_IPv6Address */
{1|0x80|(6<<2), 2}, /* InternalPort IN A_ARG_TYPE_Port */
{1|0x80, 3}, /* Protocol IN A_ARG_TYPE_Protocol */
{2|0x80, 7}, /* OutboundPinholeTimeout OUT A_ARG_TYPE_OutboundPinholeTimeout */
{0, 0}
};
static const struct argument AddPinholeArgs[] =
{
{1|0x80|(3<<2), 1}, /* RemoteHost IN A_ARG_TYPE_IPv6Address */
{1|0x80|(4<<2), 2}, /* RemotePort IN A_ARG_TYPE_Port */
{1|0x80|(5<<2), 1}, /* InternalClient IN A_ARG_TYPE_IPv6Address */
{1|0x80|(6<<2), 2}, /* InternalPort IN A_ARG_TYPE_Port */
{1|0x80, 3}, /* Protocol IN A_ARG_TYPE_Protocol */
{1|0x80, 5}, /* LeaseTime IN A_ARG_TYPE_LeaseTime */
{2|0x80, 4}, /* UniqueID OUT A_ARG_TYPE_UniqueID */
{0, 0}
};
static const struct argument UpdatePinholeArgs[] =
{
{1|0x80, 4}, /* UniqueID IN A_ARG_TYPE_UniqueID */
{1, 5}, /* LeaseTime IN A_ARG_TYPE_LeaseTime */
{0, 0}
};
static const struct argument DeletePinholeArgs[] =
{
{1|0x80, 4}, /* UniqueID IN A_ARG_TYPE_UniqueID */
{0, 0}
};
static const struct argument GetPinholePacketsArgs[] =
{
{1|0x80, 4}, /* UniqueID IN A_ARG_TYPE_UniqueID */
{2|0x80, 9}, /* PinholePackets OUT A_ARG_TYPE_PinholePackets */
{0, 0}
};
static const struct argument CheckPinholeWorkingArgs[] =
{
{1|0x80, 4}, /* UniqueID IN A_ARG_TYPE_UniqueID */
{2|0x80|(7<<2), 8}, /* IsWorking OUT A_ARG_TYPE_Boolean */
{0, 0}
};
static const struct action IPv6FCActions[] =
{
{"GetFirewallStatus", GetFirewallStatusArgs}, /* Req */
{"GetOutboundPinholeTimeout", GetOutboundPinholeTimeoutArgs}, /* Opt */
{"AddPinhole", AddPinholeArgs}, /* Req */
{"UpdatePinhole", UpdatePinholeArgs}, /* Req */
{"DeletePinhole", DeletePinholeArgs}, /* Req */
{"GetPinholePackets", GetPinholePacketsArgs}, /* Req */
{"CheckPinholeWorking", CheckPinholeWorkingArgs}, /* Opt */
{0, 0}
};
static const struct stateVar IPv6FCVars[] =
{
{"FirewallEnabled", 1|0x80, 0, 0,
FIREWALLENABLED_MAGICALVALUE}, /* Required */
{"A_ARG_TYPE_IPv6Address", 0, 0, 0, 0}, /* Required */
{"A_ARG_TYPE_Port", 2, 0, 0, 0}, /* Required */
{"A_ARG_TYPE_Protocol", 2, 0, 0, 0}, /* Required */
/* 4 */
{"A_ARG_TYPE_UniqueID", 2, 0, 0, 0}, /* Required */
{"A_ARG_TYPE_LeaseTime", 3, 0, 5, 0}, /* Required */
{"InboundPinholeAllowed", 1|0x80, 0, 0,
INBOUNDPINHOLEALLOWED_MAGICALVALUE}, /* Required */
{"A_ARG_TYPE_OutboundPinholeTimeout", 3, 0, 7, 0}, /* Optional */
/* 8 */
{"A_ARG_TYPE_Boolean", 1, 0, 0, 0}, /* Optional */
{"A_ARG_TYPE_PinholePackets", 3, 0, 0, 0}, /* Required */
{0, 0}
};
static const struct serviceDesc scpd6FC =
{ IPv6FCActions, IPv6FCVars };
#endif
#ifdef ENABLE_DP_SERVICE
/* UPnP-gw-DeviceProtection-v1-Service.pdf */
static const struct argument SendSetupMessageArgs[] =
{
{1|0x80|(8<<2), 6}, /* ProtocolType : in ProtocolType / A_ARG_TYPE_String */
{1|0x80|(9<<2), 5}, /* InMessage : in InMessage / A_ARG_TYPE_Base64 */
{2|0x80|(10<<2), 5}, /* OutMessage : out OutMessage / A_ARG_TYPE_Base64 */
{0, 0}
};
static const struct argument GetSupportedProtocolsArgs[] =
{
{2|0x80|(11<<2), 1}, /* ProtocolList : out ProtocolList / SupportedProtocols */
{0, 0}
};
static const struct argument GetAssignedRolesArgs[] =
{
{2|0x80|(12<<2), 6}, /* RoleList : out RoleList / A_ARG_TYPE_String */
{0, 0}
};
static const struct action DPActions[] =
{
{"SendSetupMessage", SendSetupMessageArgs},
{"GetSupportedProtocols", GetSupportedProtocolsArgs},
{"GetAssignedRoles", GetAssignedRolesArgs},
{0, 0}
};
static const struct stateVar DPVars[] =
{
{"SetupReady", 1|0x80, 0, 0, SETUPREADY_MAGICALVALUE},
{"SupportedProtocols", 0},
{"A_ARG_TYPE_ACL", 0},
{"A_ARG_TYPE_IdentityList", 0},
{"A_ARG_TYPE_Identity", 0},
{"A_ARG_TYPE_Base64", 4},
{"A_ARG_TYPE_String", 0},
{0, 0}
};
static const struct serviceDesc scpdDP =
{ DPActions, DPVars };
#endif
/* strcat_str()
* concatenate the string and use realloc to increase the
* memory buffer if needed. */
static char *
strcat_str(char * str, int * len, int * tmplen, const char * s2)
{
int s2len;
int newlen;
char * p;
s2len = (int)strlen(s2);
if(*tmplen <= (*len + s2len))
{
if(s2len < 256)
newlen = *tmplen + 256;
else
newlen = *tmplen + s2len + 1;
p = (char *)realloc(str, newlen);
if(p == NULL) /* handle a failure of realloc() */
{
syslog(LOG_ERR, "strcat_str: Failed to realloc %d bytes", newlen);
return str;
}
str = p;
*tmplen = newlen;
}
/*strcpy(str + *len, s2); */
memcpy(str + *len, s2, s2len + 1);
*len += s2len;
return str;
}
/* strcat_char() :
* concatenate a character and use realloc to increase the
* size of the memory buffer if needed */
static char *
strcat_char(char * str, int * len, int * tmplen, char c)
{
char * p;
if(*tmplen <= (*len + 1))
{
*tmplen += 256;
p = (char *)realloc(str, *tmplen);
if(p == NULL) /* handle a failure of realloc() */
{
syslog(LOG_ERR, "strcat_char: Failed to realloc %d bytes", *tmplen);
*tmplen -= 256;
return str;
}
str = p;
}
str[*len] = c;
(*len)++;
return str;
}
/* strcat_int()
* concatenate the string representation of the integer.
* call strcat_char() */
static char *
strcat_int(char * str, int * len, int * tmplen, int i)
{
char buf[16];
int j;
if(i < 0) {
str = strcat_char(str, len, tmplen, '-');
i = -i;
} else if(i == 0) {
/* special case for 0 */
str = strcat_char(str, len, tmplen, '0');
return str;
}
j = 0;
while(i && j < (int)sizeof(buf)) {
buf[j++] = '0' + (i % 10);
i = i / 10;
}
while(j > 0) {
str = strcat_char(str, len, tmplen, buf[--j]);
}
return str;
}
/* iterative subroutine using a small stack
* This way, the progam stack usage is kept low */
static char *
genXML(char * str, int * len, int * tmplen,
const struct XMLElt * p)
{
#define GENXML_STACK_SIZE 16
unsigned short i, j;
unsigned long k;
int top;
const char * eltname, *s;
char c;
struct {
unsigned short i;
unsigned short j;
const char * eltname;
} pile[GENXML_STACK_SIZE]; /* stack */
top = -1;
i = 0; /* current node */
j = 1; /* i + number of nodes*/
for(;;)
{
eltname = p[i].eltname;
if(!eltname)
return str;
if(eltname[0] == '/')
{
/* leaf node */
if(p[i].data && p[i].data[0])
{
/*printf("<%s>%s<%s>\n", eltname+1, p[i].data, eltname); */
str = strcat_char(str, len, tmplen, '<');
str = strcat_str(str, len, tmplen, eltname+1);
str = strcat_char(str, len, tmplen, '>');
#ifdef RANDOMIZE_URLS
if(p[i].data[0] == '/')
{
/* prepend all URL paths with a "random" value */
str = strcat_char(str, len, tmplen, '/');
str = strcat_str(str, len, tmplen, random_url);
}
#endif /* RANDOMIZE_URLS */
str = strcat_str(str, len, tmplen, p[i].data);
#ifdef IGD_V2
/* checking a single 'u' saves us 4 strcmp() calls most of the time */
if (GETFLAG(FORCEIGDDESCV1MASK) && (p[i].data[0] == 'u'))
{
if ((strcmp(p[i].data, DEVICE_TYPE_IGD) == 0) ||
(strcmp(p[i].data, DEVICE_TYPE_WAN) == 0) ||
(strcmp(p[i].data, DEVICE_TYPE_WANC) == 0) ||
(strcmp(p[i].data, SERVICE_TYPE_WANIPC) == 0) )
{
str[*len - 1] = '1'; /* Change the version number to 1 */
}
}
#endif
str = strcat_char(str, len, tmplen, '<');
str = strcat_str(str, len, tmplen, eltname);
str = strcat_char(str, len, tmplen, '>');
}
for(;;)
{
if(top < 0)
return str;
i = ++(pile[top].i);
j = pile[top].j;
/*printf(" pile[%d]\t%d %d\n", top, i, j); */
if(i==j)
{
/*printf("</%s>\n", pile[top].eltname); */
str = strcat_char(str, len, tmplen, '<');
str = strcat_char(str, len, tmplen, '/');
s = pile[top].eltname;
for(c = *s; c > ' '; c = *(++s))
str = strcat_char(str, len, tmplen, c);
str = strcat_char(str, len, tmplen, '>');
top--;
}
else
break;
}
}
else
{
/* node with child(ren) */
/*printf("<%s>\n", eltname); */
str = strcat_char(str, len, tmplen, '<');
str = strcat_str(str, len, tmplen, eltname);
if(memcmp(eltname, "root ", 5) == 0) {
char configid_str[16];
/* add configId attribute, required by UDA 1.1 */
snprintf(configid_str, sizeof(configid_str), "\"%u\"", upnp_configid);
str = strcat_str(str, len, tmplen, " configId=");
str = strcat_str(str, len, tmplen, configid_str);
}
str = strcat_char(str, len, tmplen, '>');
k = (unsigned long)p[i].data;
i = k & 0xffff;
j = i + (k >> 16);
if(top < (GENXML_STACK_SIZE - 1)) {
top++;
/*printf(" +pile[%d]\t%d %d\n", top, i, j); */
pile[top].i = i;
pile[top].j = j;
pile[top].eltname = eltname;
#ifdef DEBUG
} else {
fprintf(stderr, "*** GenXML(): stack OVERFLOW ***\n");
#endif /* DEBUG */
}
}
}
}
/* genRootDesc() :
* - Generate the root description of the UPnP device.
* - the len argument is used to return the length of
* the returned string.
* - tmp_uuid argument is used to build the uuid string */
char *
genRootDesc(int * len)
{
char * str;
int tmplen;
tmplen = 2048;
str = (char *)malloc(tmplen);
if(str == NULL)
return NULL;
* len = strlen(xmlver);
/*strcpy(str, xmlver); */
memcpy(str, xmlver, *len + 1);
str = genXML(str, len, &tmplen, rootDesc);
str[*len] = '\0';
return str;
}
/* genServiceDesc() :
* Generate service description with allowed methods and
* related variables. */
static char *
genServiceDesc(int * len, const struct serviceDesc * s)
{
int i, j;
const struct action * acts;
const struct stateVar * vars;
const struct argument * args;
char * str;
int tmplen;
tmplen = 2048;
str = (char *)malloc(tmplen);
if(str == NULL)
return NULL;
/*strcpy(str, xmlver); */
*len = strlen(xmlver);
memcpy(str, xmlver, *len + 1);
acts = s->actionList;
vars = s->serviceStateTable;
str = strcat_char(str, len, &tmplen, '<');
str = strcat_str(str, len, &tmplen, root_service);
str = strcat_char(str, len, &tmplen, '>');
str = strcat_str(str, len, &tmplen,
"<specVersion><major>" UPNP_VERSION_MAJOR_STR "</major>"
"<minor>" UPNP_VERSION_MINOR_STR "</minor></specVersion>");
i = 0;
str = strcat_str(str, len, &tmplen, "<actionList>");
while(acts[i].name)
{
str = strcat_str(str, len, &tmplen, "<action><name>");
str = strcat_str(str, len, &tmplen, acts[i].name);
str = strcat_str(str, len, &tmplen, "</name>");
/* argument List */
args = acts[i].args;
if(args)
{
str = strcat_str(str, len, &tmplen, "<argumentList>");
j = 0;
while(args[j].dir)
{
const char * p;
size_t plen;
str = strcat_str(str, len, &tmplen, "<argument><name>");
if((args[j].dir & 0x80) == 0) {
str = strcat_str(str, len, &tmplen, "New");
}
p = vars[args[j].relatedVar].name;
plen = strlen(p);
if(args[j].dir & 0x7c) {
/* use magic values ... */
str = strcat_str(str, len, &tmplen, magicargname[(args[j].dir & 0x7c) >> 2]);
} else if(plen >= 11 && 0 == memcmp(p, "PortMapping", 11)
&& (plen < 22 || 0 != memcmp(p + 11, "Description", 11))) {
if(plen >= (11+15) && 0 == memcmp(p + 11, "NumberOfEntries", 15)) {
/* PortMappingNumberOfEntries */
#ifdef IGD_V2
if(0 == memcmp(acts[i].name, "GetListOfPortMappings", 22)) {
str = strcat_str(str, len, &tmplen, "NumberOfPorts");
} else {
str = strcat_str(str, len, &tmplen, "PortMappingIndex");
}
#else
str = strcat_str(str, len, &tmplen, "PortMappingIndex");
#endif
} else {
/* PortMappingEnabled
* PortMappingLeaseDuration
* PortMappingProtocol */
str = strcat_str(str, len, &tmplen, p + 11);
}
#ifdef IGD_V2
} else if(plen >= 11 && 0 == memcmp(p, "A_ARG_TYPE_", 11)) {
str = strcat_str(str, len, &tmplen, p + 11);
} else if(plen >= 13 && 0 == memcmp(p, "ExternalPort", 13)
&& args[j].dir == 2
&& 0 == memcmp(acts[i].name, "AddAnyPortMapping", 18)) {
str = strcat_str(str, len, &tmplen, "ReservedPort");
#endif
} else {
str = strcat_str(str, len, &tmplen, p);
}
str = strcat_str(str, len, &tmplen, "</name><direction>");
str = strcat_str(str, len, &tmplen, (args[j].dir&0x03)==1?"in":"out");
str = strcat_str(str, len, &tmplen,
"</direction><relatedStateVariable>");
str = strcat_str(str, len, &tmplen, p);
str = strcat_str(str, len, &tmplen,
"</relatedStateVariable></argument>");
j++;
}
str = strcat_str(str, len, &tmplen,"</argumentList>");
}
str = strcat_str(str, len, &tmplen, "</action>");
/*str = strcat_char(str, len, &tmplen, '\n'); // TEMP ! */
i++;
}
str = strcat_str(str, len, &tmplen, "</actionList><serviceStateTable>");
i = 0;
while(vars[i].name)
{
str = strcat_str(str, len, &tmplen,
"<stateVariable sendEvents=\"");
#ifdef ENABLE_EVENTS
str = strcat_str(str, len, &tmplen, (vars[i].itype & 0x80)?"yes":"no");
#else
/* for the moment always send no. Wait for SUBSCRIBE implementation
* before setting it to yes */
str = strcat_str(str, len, &tmplen, "no");
#endif
str = strcat_str(str, len, &tmplen, "\"><name>");
str = strcat_str(str, len, &tmplen, vars[i].name);
str = strcat_str(str, len, &tmplen, "</name><dataType>");
str = strcat_str(str, len, &tmplen, upnptypes[vars[i].itype & 0x0f]);
str = strcat_str(str, len, &tmplen, "</dataType>");
/*if(vars[i].defaultValue) */
if(vars[i].idefault)
{
str = strcat_str(str, len, &tmplen, "<defaultValue>");
/*str = strcat_str(str, len, &tmplen, vars[i].defaultValue); */
str = strcat_str(str, len, &tmplen, upnpdefaultvalues[vars[i].idefault]);
str = strcat_str(str, len, &tmplen, "</defaultValue>");
}
if(vars[i].iallowedlist)
{
if((vars[i].itype & 0x0f) == 0)
{
/* string */
str = strcat_str(str, len, &tmplen, "<allowedValueList>");
for(j=vars[i].iallowedlist; upnpallowedvalues[j]; j++)
{
str = strcat_str(str, len, &tmplen, "<allowedValue>");
str = strcat_str(str, len, &tmplen, upnpallowedvalues[j]);
str = strcat_str(str, len, &tmplen, "</allowedValue>");
}
str = strcat_str(str, len, &tmplen, "</allowedValueList>");
} else {
/* ui2 and ui4 */
str = strcat_str(str, len, &tmplen, "<allowedValueRange><minimum>");
str = strcat_int(str, len, &tmplen, upnpallowedranges[vars[i].iallowedlist]);
str = strcat_str(str, len, &tmplen, "</minimum><maximum>");
str = strcat_int(str, len, &tmplen, upnpallowedranges[vars[i].iallowedlist+1]);
str = strcat_str(str, len, &tmplen, "</maximum></allowedValueRange>");
}
}
str = strcat_str(str, len, &tmplen, "</stateVariable>");
/*str = strcat_char(str, len, &tmplen, '\n'); // TEMP ! */
i++;
}
str = strcat_str(str, len, &tmplen, "</serviceStateTable></scpd>");
str[*len] = '\0';
return str;
}
/* genWANIPCn() :
* Generate the WANIPConnection xml description */
char *
genWANIPCn(int * len)
{
return genServiceDesc(len, &scpdWANIPCn);
}
/* genWANCfg() :
* Generate the WANInterfaceConfig xml description. */
char *
genWANCfg(int * len)
{
return genServiceDesc(len, &scpdWANCfg);
}
#ifdef ENABLE_L3F_SERVICE
char *
genL3F(int * len)
{
return genServiceDesc(len, &scpdL3F);
}
#endif
#ifdef ENABLE_6FC_SERVICE
char *
gen6FC(int * len)
{
return genServiceDesc(len, &scpd6FC);
}
#endif
#ifdef ENABLE_DP_SERVICE
char *
genDP(int * len)
{
return genServiceDesc(len, &scpdDP);
}
#endif
#ifdef ENABLE_EVENTS
static char *
genEventVars(int * len, const struct serviceDesc * s)
{
char tmp[16];
const struct stateVar * v;
char * str;
int tmplen;
tmplen = 512;
str = (char *)malloc(tmplen);
if(str == NULL)
return NULL;
*len = 0;
v = s->serviceStateTable;
str = strcat_str(str, len, &tmplen, "<e:propertyset xmlns:e=\"urn:schemas-upnp-org:event-1-0\">");
while(v->name) {
if(v->itype & 0x80) {
str = strcat_str(str, len, &tmplen, "<e:property><");
str = strcat_str(str, len, &tmplen, v->name);
str = strcat_str(str, len, &tmplen, ">");
/*printf("<e:property><%s>", v->name);*/
switch(v->ieventvalue) {
case 0:
break;
#ifdef ENABLE_DP_SERVICE
case SETUPREADY_MAGICALVALUE:
/* always ready for setup */
snprintf(tmp, sizeof(tmp), "%d", 1);
str = strcat_str(str, len, &tmplen, tmp);
break;
#endif
case CONNECTIONSTATUS_MAGICALVALUE:
/* or get_wan_connection_status_str(ext_if_name) */
str = strcat_str(str, len, &tmplen,
upnpallowedvalues[18 + get_wan_connection_status(ext_if_name)]);
break;
#ifdef ENABLE_6FC_SERVICE
case FIREWALLENABLED_MAGICALVALUE:
/* see 2.4.2 of UPnP-gw-WANIPv6FirewallControl-v1-Service.pdf */
snprintf(tmp, sizeof(tmp), "%d",
GETFLAG(IPV6FCFWDISABLEDMASK) ? 0 : 1);
str = strcat_str(str, len, &tmplen, tmp);
break;
case INBOUNDPINHOLEALLOWED_MAGICALVALUE:
/* see 2.4.3 of UPnP-gw-WANIPv6FirewallControl-v1-Service.pdf */
snprintf(tmp, sizeof(tmp), "%d",
GETFLAG(IPV6FCINBOUNDDISALLOWEDMASK) ? 0 : 1);
str = strcat_str(str, len, &tmplen, tmp);
break;
#endif
#ifdef IGD_V2
case SYSTEMUPDATEID_MAGICALVALUE:
/* Please read section 2.3.23 SystemUpdateID
* of UPnP-gw-WANIPConnection-v2-Service.pdf */
snprintf(tmp, sizeof(tmp), "%d",
1/* system update id */);
str = strcat_str(str, len, &tmplen, tmp);
break;
#endif
case PORTMAPPINGNUMBEROFENTRIES_MAGICALVALUE:
/* Port mapping number of entries magical value */
snprintf(tmp, sizeof(tmp), "%d",
upnp_get_portmapping_number_of_entries());
str = strcat_str(str, len, &tmplen, tmp);
break;
case EXTERNALIPADDRESS_MAGICALVALUE:
/* External ip address magical value */
if(use_ext_ip_addr)
str = strcat_str(str, len, &tmplen, use_ext_ip_addr);
else {
struct in_addr addr;
char ext_ip_addr[INET_ADDRSTRLEN];
if(getifaddr(ext_if_name, ext_ip_addr, INET_ADDRSTRLEN, &addr, NULL) < 0 || addr_is_reserved(&addr)) {
str = strcat_str(str, len, &tmplen, "0.0.0.0");
} else {
str = strcat_str(str, len, &tmplen, ext_ip_addr);
}
}
break;
case DEFAULTCONNECTIONSERVICE_MAGICALVALUE:
/* DefaultConnectionService magical value */
str = strcat_str(str, len, &tmplen, uuidvalue_wcd);
#ifdef IGD_V2
str = strcat_str(str, len, &tmplen, ":WANConnectionDevice:2,urn:upnp-org:serviceId:WANIPConn1");
#else
str = strcat_str(str, len, &tmplen, ":WANConnectionDevice:1,urn:upnp-org:serviceId:WANIPConn1");
#endif
break;
default:
str = strcat_str(str, len, &tmplen, upnpallowedvalues[v->ieventvalue]);
}
str = strcat_str(str, len, &tmplen, "</");
str = strcat_str(str, len, &tmplen, v->name);
str = strcat_str(str, len, &tmplen, "></e:property>");
/*printf("</%s></e:property>\n", v->name);*/
}
v++;
}
str = strcat_str(str, len, &tmplen, "</e:propertyset>");
#if 0
printf("</e:propertyset>\n");
printf("\n");
printf("%d\n", tmplen);
#endif
str[*len] = '\0';
return str;
}
char *
getVarsWANIPCn(int * l)
{
return genEventVars(l,
&scpdWANIPCn);
}
char *
getVarsWANCfg(int * l)
{
return genEventVars(l,
&scpdWANCfg);
}
#ifdef ENABLE_L3F_SERVICE
char *
getVarsL3F(int * l)
{
return genEventVars(l,
&scpdL3F);
}
#endif
#ifdef ENABLE_6FC_SERVICE
char *
getVars6FC(int * l)
{
return genEventVars(l,
&scpd6FC);
}
#endif
#ifdef ENABLE_DP_SERVICE
char *
getVarsDP(int * l)
{
return genEventVars(l,
&scpdDP);
}
#endif
#endif /* ENABLE_EVENTS */