/*************************************************************************** * * Copyright (C) 2001-2002 Microsoft Corporation. All Rights Reserved. * * File: dpnhupnpdllmain.cpp * * Content: DPNHUPNP DLL entry points. * * History: * Date By Reason * ======== ======== ========= * 04/16/01 VanceO Split DPNATHLP into DPNHUPNP and DPNHPAST. * ***************************************************************************/ #include "dpnhupnpi.h" //============================================================================= // External globals //============================================================================= volatile LONG g_lOutstandingInterfaceCount = 0; // number of outstanding interfaces DNCRITICAL_SECTION g_csGlobalsLock; // lock protecting all of the following globals CBilink g_blNATHelpUPnPObjs; // bilink of all the NATHelpUPnP interface objects DWORD g_dwHoldRand; // current random number sequence DWORD g_dwUPnPMode; // whether using UPnP is enabled or not #ifndef DPNBUILD_NOHNETFWAPI DWORD g_dwHNetFWAPIMode; // whether using HomeNet firewall API is enabled or not #endif // ! DPNBUILD_NOHNETFWAPI DWORD g_dwSubnetMaskV4 = 0x00FFFFFF; // = 0xFFFFFF00 in Intel order = 255.255.255.0, a class C network DWORD g_dwNoActiveNotifyPollInterval = 25000; // start by polling every 25 seconds DWORD g_dwMinUpdateServerStatusInterval = 1000; // don't hit the network more often than every 1 second BOOL g_fNoAsymmetricMappings = FALSE; // whether asymmetric mappings can be tried or not BOOL g_fUseLeaseDurations = FALSE; // whether non-INFINITE lease durations for NAT mappings can be tried or not INT g_iUnicastTTL = 1; // unicast TTL value, or 0 to use default set by OS; normally we use 1 INT g_iMulticastTTL = 1; // multicast TTL value, or 0 to use default set by OS; normally we use 1 DWORD g_dwUPnPAnnounceResponseWaitTime = 2500; // how long to allow for UPnP device announcement responses to arrive in ms DWORD g_dwUPnPConnectTimeout = 15; // how long to wait to reconnect to the UPnP device in seconds (default is 15, much shorter than standard TCP/IP timeout) DWORD g_dwUPnPResponseTimeout = 5000; // how long to wait for a response message from the UPnP device to arrive in ms once the TCP/IP connection is established #ifndef DPNBUILD_NOHNETFWAPI BOOL g_fMapUPnPDiscoverySocket = FALSE; // whether the UPnP discovery socket should be mapped or not #endif // ! DPNBUILD_NOHNETFWAPI BOOL g_fUseMulticastUPnPDiscovery = FALSE; // whether to multicast UPnP discovery messages instead of the default directed sends to the gateway DWORD g_dwDefaultGatewayV4 = INADDR_BROADCAST; // fallback to broadcasting UPnP discovery messages when detecting the gateway fails DWORD g_dwPollIntervalBackoff = 30000; // backoff an additional 0 to 30 seconds if no network changes occur DWORD g_dwMaxPollInterval = 300000; // don't go more than 5 minutes without polling BOOL g_fKeepPollingForRemoteGateway = FALSE; // whether to continue to search for new Internet gateway devices if none were found during startup DWORD g_dwReusePortTime = 60000; // how long to keep using the same port for polling remote Internet gateway devices (default is 1 minute) DWORD g_dwCacheLifeFound = 30000; // how long to cache QueryAddress results where the address was found DWORD g_dwCacheLifeNotFound = 30000; // how long to cache QueryAddress results where the address was not found #ifdef DBG WCHAR g_wszUPnPTransactionLog[256] = L""; // log file location, or empty string if none #endif // DBG //============================================================================= // Defines //============================================================================= #define REGKEY_VALUE_GUID L"Guid" #define REGKEY_VALUE_DIRECTPLAY8PRIORITY L"DirectPlay8Priority" #define REGKEY_VALUE_DIRECTPLAY8INITFLAGS L"DirectPlay8InitFlags" #define REGKEY_VALUE_UPNPMODE L"UPnPMode" #ifndef DPNBUILD_NOHNETFWAPI #define REGKEY_VALUE_HNETFWAPIMODE L"HNetFWAPIMode" #endif // ! DPNBUILD_NOHNETFWAPI #define REGKEY_VALUE_SUBNETMASKV4 L"SubnetMaskV4" #define REGKEY_VALUE_NOACTIVENOTIFYPOLLINTERVAL L"NoActiveNotifyPollInterval" #define REGKEY_VALUE_MINUPDATESERVERSTATUSINTERVAL L"MinUpdateServerStatusInterval" #define REGKEY_VALUE_NOASYMMETRICMAPPINGS L"NoAsymmetricMappings" #define REGKEY_VALUE_USELEASEDURATIONS L"UseLeaseDurations" #define REGKEY_VALUE_UNICASTTTL L"UnicastTTL" #define REGKEY_VALUE_MULTICASTTTL L"MulticastTTL" #define REGKEY_VALUE_UPNPANNOUNCERESPONSEWAITTIME L"UPnPAnnounceResponseWaitTime" #define REGKEY_VALUE_UPNPCONNECTTIMEOUT L"UPnPConnectTimeout" #define REGKEY_VALUE_UPNPRESPONSETIMEOUT L"UPnPResponseTimeout" #ifndef DPNBUILD_NOHNETFWAPI #define REGKEY_VALUE_MAPUPNPDISCOVERYSOCKET L"MapUPnPDiscoverySocket" #endif // ! DPNBUILD_NOHNETFWAPI #define REGKEY_VALUE_USEMULTICASTUPNPDISCOVERY L"UseMulticastUPnPDiscovery" #define REGKEY_VALUE_DEFAULTGATEWAYV4 L"GatewayV4" #define REGKEY_VALUE_POLLINTERVALBACKOFF L"PollIntervalBackoff" #define REGKEY_VALUE_MAXPOLLINTERVAL L"MaxPollInterval" #define REGKEY_VALUE_KEEPPOLLINGFORREMOTEGATEWAY L"KeepPollingForRemoteGateway" #define REGKEY_VALUE_REUSEPORTTIME L"ReusePortTime" #define REGKEY_VALUE_CACHELIFEFOUND L"CacheLifeFound" #define REGKEY_VALUE_CACHELIFENOTFOUND L"CacheLifeNotFound" #ifdef DBG #define REGKEY_VALUE_UPNPTRANSACTIONLOG L"UPnPTransactionLog" #endif // DBG #define DEFAULT_DIRECTPLAY8PRIORITY 1 #define DEFAULT_DIRECTPLAY8INITFLAGS 0 //============================================================================= // Local prototypes //============================================================================= BOOL InitializeProcessGlobals(void); void CleanupProcessGlobals(void); void InitializeGlobalRand(const DWORD dwSeed); #undef DPF_MODNAME #define DPF_MODNAME "DllMain" //============================================================================= // DllMain //----------------------------------------------------------------------------- // // Description: DLL entry point. // // Arguments: // HANDLE hDllInst - Handle to this DLL module instance. // DWORD dwReason - Reason for calling this function. // LPVOID lpvReserved - Reserved. // // Returns: TRUE if all goes well, FALSE otherwise. //============================================================================= BOOL WINAPI DllMain(HANDLE hDllInst, DWORD dwReason, LPVOID lpvReserved) { BOOL fResult = TRUE; switch (dwReason) { case DLL_PROCESS_ATTACH: { DPFX(DPFPREP, 2, "====> ENTER: DLLMAIN(%p): Process Attach: %08lx, tid=%08lx", DllMain, GetCurrentProcessId(), GetCurrentThreadId()); // // Ignore thread attach/detach messages. // DisableThreadLibraryCalls((HMODULE) hDllInst); // // Attempt to initialize the OS abstraction layer. // if (DNOSIndirectionInit(0)) { // // Attempt to initialize process-global items. // if (! InitializeProcessGlobals()) { DPFX(DPFPREP, 0, "Failed to initialize globals!"); DNOSIndirectionDeinit(); fResult = FALSE; } } else { DPFX(DPFPREP, 0, "Failed to initialize OS indirection layer!"); fResult = FALSE; } break; } case DLL_THREAD_ATTACH: { // // Ignore. // break; } case DLL_THREAD_DETACH: { // // Ignore. // break; } case DLL_PROCESS_DETACH: { DPFX(DPFPREP, 2, "====> EXIT: DLLMAIN(%p): Process Detach %08lx, tid=%08lx", DllMain, GetCurrentProcessId(), GetCurrentThreadId()); CleanupProcessGlobals(); DNOSIndirectionDeinit(); break; } default: { DNASSERT(FALSE); break; } } return fResult; } // DllMain #ifndef DPNBUILD_NOCOMREGISTER #undef DPF_MODNAME #define DPF_MODNAME "DllRegisterServer" //============================================================================= // DllRegisterServer //----------------------------------------------------------------------------- // // Description: Registers the DirectPlay NAT Helper UPnP COM object. // // Arguments: None. // // Returns: HRESULT // S_OK - Successfully unregistered DirectPlay NAT Helper UPnP. // E_FAIL - Failed unregistering DirectPlay NAT Helper UPnP. //============================================================================= HRESULT WINAPI DllRegisterServer(void) { CRegistry RegObject; // // Register this COM object CLSID. // if (! CRegistry::Register(L"DirectPlayNATHelperUPnP.1", L"DirectPlay NAT Helper UPnP Object", L"dpnhupnp.dll", &CLSID_DirectPlayNATHelpUPnP, L"DirectPlayNATHelperUPnP")) { DPFX(DPFPREP, 0, "Could not register DirectPlay NAT Helper UPnP object!"); return E_FAIL; } // // Write this object's GUID and DirectPlay8 availability to the registry. // if (! RegObject.Open(HKEY_LOCAL_MACHINE, DIRECTPLAYNATHELP_REGKEY L"\\" REGKEY_COMPONENTSUBKEY, FALSE, TRUE)) { DPFX(DPFPREP, 0, "Couldn't create DirectPlay NAT Helper UPnP key!"); return E_FAIL; } if (! RegObject.WriteGUID(REGKEY_VALUE_GUID, CLSID_DirectPlayNATHelpUPnP)) { DPFX(DPFPREP, 0, "Couldn't write GUID to registry!"); return E_FAIL; } if (! RegObject.WriteDWORD(REGKEY_VALUE_DIRECTPLAY8PRIORITY, DEFAULT_DIRECTPLAY8PRIORITY)) { DPFX(DPFPREP, 0, "Couldn't write DirectPlay8 priority to registry!"); return E_FAIL; } if (! RegObject.WriteDWORD(REGKEY_VALUE_DIRECTPLAY8INITFLAGS, DEFAULT_DIRECTPLAY8INITFLAGS)) { DPFX(DPFPREP, 0, "Couldn't write DirectPlay8 init flags to registry!"); return E_FAIL; } RegObject.Close(); #ifndef DPNBUILD_NOHNETFWAPI // // Create the active firewall mappings storage subkey. // if (! RegObject.Open(HKEY_LOCAL_MACHINE, DIRECTPLAYNATHELP_REGKEY L"\\" REGKEY_COMPONENTSUBKEY L"\\" REGKEY_ACTIVEFIREWALLMAPPINGS, FALSE, TRUE)) { DPFX(DPFPREP, 0, "Couldn't create DirectPlay NAT Helper active firewall mappings key! Continuing."); } else { // // We don't need to grant access to everyone for the active firewall mappings // because currently you need to be an administrator to add or remove mappings // via the HomeNet API anyway. // #if 0 #ifdef WINNT // // If we're on NT, set the key security to allow everyone full access // (except WRITE_DAC and WRITE_OWNER). // if (DNGetOSType() == VER_PLATFORM_WIN32_NT) { if (! RegObject.GrantAllAccessSecurityPermissions()) { DPFX(DPFPREP, 0, "Failed granting all-access permissions to active firewall mappings key! Continuing."); } } #endif // WINNT #endif RegObject.Close(); } #endif // ! DPNBUILD_NOHNETFWAPI // // Create the active NAT mappings storage subkey. // if (! RegObject.Open(HKEY_LOCAL_MACHINE, DIRECTPLAYNATHELP_REGKEY L"\\" REGKEY_COMPONENTSUBKEY L"\\" REGKEY_ACTIVENATMAPPINGS, FALSE, TRUE)) { DPFX(DPFPREP, 0, "Couldn't create DirectPlay NAT Helper active NAT mappings key! Continuing."); } else { #ifdef WINNT // // If we're on NT, set the key security to allow everyone full access // (except WRITE_DAC and WRITE_OWNER). // Since anyone can create or delete a NAT mapping already, there's no // point in securing the registry entries that exist solely for crash // cleanup. // if (DNGetOSType() == VER_PLATFORM_WIN32_NT) { if (! RegObject.GrantAllAccessSecurityPermissions()) { DPFX(DPFPREP, 0, "Failed granting all-access permissions to active NAT mappings key! Continuing."); } } #endif RegObject.Close(); } return S_OK; } // DllRegisterServer #undef DPF_MODNAME #define DPF_MODNAME "DllUnregisterServer" //============================================================================= // DllUnregisterServer //----------------------------------------------------------------------------- // // Description: Unregisters the DirectPlay NAT Helper UPnP COM object. // // Arguments: None. // // Returns: HRESULT // S_OK - Successfully unregistered DirectPlay NAT Helper UPnP. // E_FAIL - Failed unregistering DirectPlay NAT Helper UPnP. //============================================================================= STDAPI DllUnregisterServer(void) { CRegistry RegObject; // // Unregister the class. // if (! CRegistry::UnRegister(&CLSID_DirectPlayNATHelpUPnP)) { DPFX(DPFPREP, 0, "Failed to unregister DirectPlay NAT Helper UPnP object!"); return E_FAIL; } // // Try removing all the subitems we registered. // if (! RegObject.Open(HKEY_LOCAL_MACHINE, DIRECTPLAYNATHELP_REGKEY L"\\" REGKEY_COMPONENTSUBKEY, FALSE, FALSE)) { DPFX(DPFPREP, 0, "Couldn't open DirectPlay NAT Helper key! Ignoring."); } else { #ifndef DPNBUILD_NOHNETFWAPI if (! RegObject.DeleteSubKey(REGKEY_ACTIVEFIREWALLMAPPINGS)) { DPFX(DPFPREP, 0, "Couldn't delete DirectPlay NAT Helper active firewall mappings key, there may still be subitems! Ignoring."); } #endif // ! DPNBUILD_NOHNETFWAPI if (! RegObject.DeleteSubKey(REGKEY_ACTIVENATMAPPINGS)) { DPFX(DPFPREP, 0, "Couldn't delete DirectPlay NAT Helper active NAT mappings key, there may still be subitems! Ignoring."); } if (! RegObject.DeleteValue(REGKEY_VALUE_GUID)) { DPFX(DPFPREP, 0, "Couldn't delete GUID registry value! Ignoring."); } if (! RegObject.DeleteValue(REGKEY_VALUE_DIRECTPLAY8PRIORITY)) { DPFX(DPFPREP, 0, "Couldn't delete DirectPlay8 priority registry value! Ignoring."); } if (! RegObject.DeleteValue(REGKEY_VALUE_DIRECTPLAY8INITFLAGS)) { DPFX(DPFPREP, 0, "Couldn't delete DirectPlay8 init flags registry value! Ignoring."); } RegObject.Close(); } return S_OK; } // DllUnregisterServer #endif // !DPNBUILD_NOCOMREGISTER #ifndef WINCE #undef DPF_MODNAME #define DPF_MODNAME "DirectPlayNATHelpCreate" //============================================================================= // DirectPlayNATHelpCreate //----------------------------------------------------------------------------- // // Description: Creates an IDirectPlayNATHelp interface object. // // Arguments: // GUID * pIID - Pointer to IDirectPlayNATHelp interface GUID. // void ** ppvInterface - Place to store pointer to interface object // created. // // Returns: HRESULT // DPNH_OK - Creating the object was successful. // DPNHERR_INVALIDPOINTER - The destination pointer is invalid. // DPNHERR_OUTOFMEMORY - Not enough memory to create the object. // E_NOINTERFACE - The requested interface was invalid. //============================================================================= HRESULT WINAPI DirectPlayNATHelpCreate(const GUID * pIID, void ** ppvInterface) { HRESULT hr; DPFX(DPFPREP, 2, "Parameters: (0x%p, 0x%p)", pIID, ppvInterface); hr = DoCreateInstance(NULL, // no class factory object necessary NULL, // ? CLSID_DirectPlayNATHelpUPnP, // DirectPlayNATHelp class (*pIID), // requested interface ppvInterface); // place to store interface DPFX(DPFPREP, 2, "Returning: [0x%lx]", hr); return hr; } // DirectPlayNATHelpCreate #endif // !WINCE #undef DPF_MODNAME #define DPF_MODNAME "InitializeProcessGlobals" //============================================================================= // InitializeProcessGlobals //----------------------------------------------------------------------------- // // Description: Initialize global items needed for the DLL to operate. // // Arguments: None. // // Returns: TRUE if successful, FALSE if an error occurred. //============================================================================= BOOL InitializeProcessGlobals(void) { BOOL fReturn = TRUE; if (! DNInitializeCriticalSection(&g_csGlobalsLock)) { fReturn = FALSE; } // // Don't allow critical section reentry. // DebugSetCriticalSectionRecursionCount(&g_csGlobalsLock, 0); g_blNATHelpUPnPObjs.Initialize(); // // Seed the random number generator with the current time. // InitializeGlobalRand(GETTIMESTAMP()); return fReturn; } // InitializeProcessGlobals #undef DPF_MODNAME #define DPF_MODNAME "CleanupProcessGlobals" //============================================================================= // CleanupProcessGlobals //----------------------------------------------------------------------------- // // Description: Releases global items used by DLL. // // Arguments: None. // // Returns: None. //============================================================================= void CleanupProcessGlobals(void) { CBilink * pBilink; CNATHelpUPnP * pNATHelpUPnP; if (! g_blNATHelpUPnPObjs.IsEmpty()) { // // This assert is far more descriptive than hitting one of those in the // cleanup code that complain about flags incorrectly being set. // DNASSERT(! "DPNHUPNP.DLL unloading without all objects having been released! The caller's DirectPlayNATHelpUPnP cleanup code needs to be fixed!"); // // Force close all the objects still outstanding. // pBilink = g_blNATHelpUPnPObjs.GetNext(); while (pBilink != &g_blNATHelpUPnPObjs) { DNASSERT(! pBilink->IsEmpty()); pNATHelpUPnP = NATHELPUPNP_FROM_BILINK(pBilink); pBilink = pBilink->GetNext(); DPFX(DPFPREP, 0, "Forcefully releasing object 0x%p!", pNATHelpUPnP); pNATHelpUPnP->Close(0); // ignore error // // Forcefully remove it from the list and delete it instead of // using pNATHelpUPnP->Release(). // pNATHelpUPnP->m_blList.RemoveFromList(); pNATHelpUPnP->UninitializeObject(); delete pNATHelpUPnP; } } DNDeleteCriticalSection(&g_csGlobalsLock); } // CleanupProcessGlobals #undef DPF_MODNAME #define DPF_MODNAME "ReadRegistrySettings" //============================================================================= // ReadRegistrySettings //----------------------------------------------------------------------------- // // Description: Reads registry settings to override behavior of this DLL and to // turn on some debugging features. // // Arguments: None. // // Returns: None. //============================================================================= void ReadRegistrySettings(void) { CRegistry RegObject; DWORD dwNewValue; BOOL fNewValue; #ifdef DBG DWORD dwLength; #endif // DBG // // Try opening the registry key. // if (RegObject.Open(HKEY_LOCAL_MACHINE, DIRECTPLAYNATHELP_REGKEY L"\\" REGKEY_COMPONENTSUBKEY) != FALSE) { // // Lock out other interfaces from modifying the globals simultaneously. // DNEnterCriticalSection(&g_csGlobalsLock); // // If we successfully read a new mode, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_UPNPMODE, &dwNewValue)) { g_dwUPnPMode = dwNewValue; DPFX(DPFPREP, 1, "Using UPnP mode %u.", g_dwUPnPMode); } #ifndef DPNBUILD_NOHNETFWAPI // // If we successfully read a new mode, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_HNETFWAPIMODE, &dwNewValue)) { g_dwUPnPMode = dwNewValue; DPFX(DPFPREP, 1, "Using HNet FW API mode %u.", g_dwHNetFWAPIMode); } #endif // ! DPNBUILD_NOHNETFWAPI // // If we successfully read a new mask, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_SUBNETMASKV4, &dwNewValue)) { g_dwSubnetMaskV4 = dwNewValue; DPFX(DPFPREP, 1, "Using subnet mask 0x%08lx.", g_dwSubnetMaskV4); } // // If we successfully read a new interval, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_NOACTIVENOTIFYPOLLINTERVAL, &dwNewValue)) { g_dwNoActiveNotifyPollInterval = dwNewValue; DPFX(DPFPREP, 1, "Using no-active-notify recommended poll interval %u ms.", g_dwNoActiveNotifyPollInterval); } // // If we successfully read a new interval, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_MINUPDATESERVERSTATUSINTERVAL, &dwNewValue)) { g_dwMinUpdateServerStatusInterval = dwNewValue; DPFX(DPFPREP, 1, "Using minimum update-server-status interval %u ms.", g_dwMinUpdateServerStatusInterval); } // // If we successfully read a new boolean, save it. // if (RegObject.ReadBOOL(REGKEY_VALUE_NOASYMMETRICMAPPINGS, &fNewValue)) { g_fNoAsymmetricMappings = fNewValue; if (g_fNoAsymmetricMappings) { DPFX(DPFPREP, 1, "Never using asymmetric port mappings."); } else { // // This is actually default behavior, but print out a statement // anyway. // DPFX(DPFPREP, 1, "Asymmetric port mappings allowed by registry key."); } } // // If we successfully read a new boolean, save it. // if (RegObject.ReadBOOL(REGKEY_VALUE_USELEASEDURATIONS, &fNewValue)) { g_fUseLeaseDurations = fNewValue; if (g_fUseLeaseDurations) { DPFX(DPFPREP, 1, "Attempting to use non-INFINITE lease durations."); } else { // // This is actually default behavior, but print out a statement // anyway. // DPFX(DPFPREP, 1, "Non-INFINITE lease durations specifically prevented by registry key."); } } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_UNICASTTTL, &dwNewValue)) { g_iUnicastTTL = dwNewValue; if (g_iUnicastTTL != 0) { DPFX(DPFPREP, 1, "Using unicast TTL of %i.", g_iUnicastTTL); } else { DPFX(DPFPREP, 1, "Using OS default unicast TTL."); } } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_MULTICASTTTL, &dwNewValue)) { g_iMulticastTTL = dwNewValue; if (g_iMulticastTTL != 0) { DPFX(DPFPREP, 1, "Using multicast TTL of %i.", g_iMulticastTTL); } else { DPFX(DPFPREP, 1, "Using OS default multicast TTL."); } } // // If we successfully read a new timeout, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_UPNPANNOUNCERESPONSEWAITTIME, &dwNewValue)) { g_dwUPnPAnnounceResponseWaitTime = dwNewValue; DPFX(DPFPREP, 1, "Using UPnP announce response wait time of %u ms.", g_dwUPnPAnnounceResponseWaitTime); } // // If we successfully read a new timeout, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_UPNPCONNECTTIMEOUT, &dwNewValue)) { g_dwUPnPConnectTimeout = dwNewValue; DPFX(DPFPREP, 1, "Using UPnP connect timeout of %u seconds.", g_dwUPnPConnectTimeout); } // // If we successfully read a new timeout, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_UPNPRESPONSETIMEOUT, &dwNewValue)) { g_dwUPnPResponseTimeout = dwNewValue; DPFX(DPFPREP, 1, "Using UPnP response timeout of %u ms.", g_dwUPnPResponseTimeout); } #ifndef DPNBUILD_NOHNETFWAPI // // If we successfully read a new boolean, save it. // if (RegObject.ReadBOOL(REGKEY_VALUE_MAPUPNPDISCOVERYSOCKET, &fNewValue)) { g_fMapUPnPDiscoverySocket = fNewValue; if (g_fMapUPnPDiscoverySocket) { DPFX(DPFPREP, 1, "Mapping UPnP discovery socket on local firewall."); } else { // // This is actually default behavior, but print out a statement // anyway. // DPFX(DPFPREP, 1, "UPnP discovery socket mapping is disallowed by registry key."); } } #endif // ! DPNBUILD_NOHNETFWAPI // // If we successfully read a new boolean, save it. // if (RegObject.ReadBOOL(REGKEY_VALUE_USEMULTICASTUPNPDISCOVERY, &fNewValue)) { g_fUseMulticastUPnPDiscovery = fNewValue; if (g_fUseMulticastUPnPDiscovery) { DPFX(DPFPREP, 1, "Using multicast UPnP discovery messages."); } else { // // This is actually default behavior, but print out a statement // anyway. // DPFX(DPFPREP, 1, "Multicasted UPnP discovery is disallowed by registry key."); } } // // If we successfully read a new default gateway, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_DEFAULTGATEWAYV4, &dwNewValue)) { g_dwDefaultGatewayV4 = dwNewValue; DPFX(DPFPREP, 1, "Using default gateway 0x%08lx.", g_dwDefaultGatewayV4); } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_POLLINTERVALBACKOFF, &dwNewValue)) { if (dwNewValue != 0) { g_dwPollIntervalBackoff = dwNewValue; DPFX(DPFPREP, 1, "Using poll interval backoff between 0 and %u ms.", g_dwPollIntervalBackoff); } else { DPFX(DPFPREP, 0, "Ignoring invalid poll interval backoff setting, using default between 0 and %u ms!", g_dwPollIntervalBackoff); } } // // If we successfully read a new interval, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_MAXPOLLINTERVAL, &dwNewValue)) { // // Make sure the value is greater than the starting value. // if (dwNewValue >= g_dwNoActiveNotifyPollInterval) { g_dwMaxPollInterval = dwNewValue; DPFX(DPFPREP, 1, "Using max poll interval of %u ms.", g_dwMaxPollInterval); } else { g_dwMaxPollInterval = g_dwNoActiveNotifyPollInterval; DPFX(DPFPREP, 0, "Ignoring max poll interval of %u ms, the starting value is %u ms.", g_dwMaxPollInterval); } } else { // // Make sure the max poll interval default value is greater than // the starting value because we may have read in a new // g_dwNoActiveNotifyPollInterval that makes the default // g_dwMaxPollInterval invalid. // if (g_dwMaxPollInterval < g_dwNoActiveNotifyPollInterval) { g_dwMaxPollInterval = g_dwNoActiveNotifyPollInterval; DPFX(DPFPREP, 0, "Resetting max poll interval to %u ms so as to meet starting value.", g_dwMaxPollInterval); } } // // If we successfully read a new boolean, save it. // if (RegObject.ReadBOOL(REGKEY_VALUE_KEEPPOLLINGFORREMOTEGATEWAY, &fNewValue)) { g_fKeepPollingForRemoteGateway = fNewValue; if (g_fKeepPollingForRemoteGateway) { DPFX(DPFPREP, 1, "Will continue to poll for remote gateways."); } else { // // This is actually default behavior, but print out a statement // anyway. // DPFX(DPFPREP, 1, "Continually polling for remote gateways is disallowed by registry key."); } } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_REUSEPORTTIME, &dwNewValue)) { g_dwReusePortTime = dwNewValue; DPFX(DPFPREP, 1, "Reusing remote gateway discovery ports for %u ms.", g_dwReusePortTime); } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_CACHELIFEFOUND, &dwNewValue)) { g_dwCacheLifeFound = dwNewValue; DPFX(DPFPREP, 1, "Caching found addresses for %u ms.", g_dwCacheLifeFound); } // // If we successfully read a new value, save it. // if (RegObject.ReadDWORD(REGKEY_VALUE_CACHELIFENOTFOUND, &dwNewValue)) { g_dwCacheLifeNotFound = dwNewValue; DPFX(DPFPREP, 1, "Caching not-found addresses for %u ms.", g_dwCacheLifeNotFound); } #ifdef DBG // // If we successfully read a log string, print that out. // dwLength = sizeof(g_wszUPnPTransactionLog) / sizeof(WCHAR); if (RegObject.ReadString(REGKEY_VALUE_UPNPTRANSACTIONLOG, g_wszUPnPTransactionLog, &dwLength)) { DPFX(DPFPREP, 1, "Using UPnP transaction log \"%ls\".", g_wszUPnPTransactionLog); } #endif // DBG // // Okay, we're done. Drop the lock. // DNLeaveCriticalSection(&g_csGlobalsLock); // // Done reading registry. // RegObject.Close(); } } // ReadRegistrySettings #ifndef WINCE #undef DPF_MODNAME #define DPF_MODNAME "SetDefaultProxyBlanket" //============================================================================= // SetDefaultProxyBlanket //----------------------------------------------------------------------------- // // Description: Taken from the HomeNet config utils. // // This sets the standard COM security settings on the proxy // for an object. Even if the CoSetProxyBlanket calls fail, pUnk // remains in a usable state. Failure is expected in certain // contexts, such as when, for example, we're being called within // the desired process where we have direct pointers to the // objects instead of going through a proxy. // // COM is assumed to have been initialized. // // Arguments: // IUnknown * pUnk - The object on which to set the proxy blanket. // char * szObjectName - (debug only) The name of the object. // // Returns: None. //============================================================================= #ifdef DBG void SetDefaultProxyBlanket(IUnknown * pUnk, const char * const szObjectName) #else // ! DBG void SetDefaultProxyBlanket(IUnknown * pUnk) #endif // ! DBG { HRESULT hr; //IUnknown * pUnkSet = NULL; hr = CoSetProxyBlanket(pUnk, RPC_C_AUTHN_WINNT, // use NT default security RPC_C_AUTHN_NONE, // use NT default authentication NULL, // must be NULL if default RPC_C_AUTHN_LEVEL_CALL, // call level authentication RPC_C_IMP_LEVEL_IMPERSONATE, NULL, // use process token EOAC_NONE); if (SUCCEEDED(hr)) { /* hr = pUnk->QueryInterface(&pUnkSet); if (SUCCEEDED(hr)) { hr = CoSetProxyBlanket(pUnk, RPC_C_AUTHN_WINNT, // use NT default security RPC_C_AUTHN_NONE, // use NT default authentication NULL, // must be NULL if default RPC_C_AUTHN_LEVEL_CALL, // call level authentication RPC_C_IMP_LEVEL_IMPERSONATE, NULL, // use process token EOAC_NONE); if (SUCCEEDED(hr)) { // // This is what we want. // } else { DPFX(DPFPREP, 1, "Couldn't set security blanket (2) on %hs object 0x%p (err = 0x%lx)! Continuing.", szObjectName, pUnk, hr); } pUnkSet->Release(); pUnkSet = NULL; } else { DPFX(DPFPREP, 1, "Couldn't query for IUnknown interface on %hs object 0x%p (err = 0x%lx)! Continuing.", szObjectName, pUnk, hr); } */ } else { DPFX(DPFPREP, 1, "Couldn't set security blanket (1) on %hs object 0x%p (err = 0x%lx)! Continuing.", szObjectName, pUnk, hr); } } // SetDefaultProxyBlanket #endif // ! WINCE #undef DPF_MODNAME #define DPF_MODNAME "InitializeGlobalRand" //============================================================================= // InitializeGlobalRand //----------------------------------------------------------------------------- // // Description: Initializes the fallback global psuedo-random number // generator, using the given seed value. // // Arguments: // DWORD dwSeed - Seed to use. // // Returns: None. //============================================================================= void InitializeGlobalRand(const DWORD dwSeed) { // // We don't need to hold a lock, since this should only be done once, // during initialization time. // g_dwHoldRand = dwSeed; } // InitializeGlobalRand #undef DPF_MODNAME #define DPF_MODNAME "GetGlobalRand" //============================================================================= // GetGlobalRand //----------------------------------------------------------------------------- // // Description: Generates a pseudo-random DWORD. // // Arguments: None. // // Returns: Pseudo-random number. //============================================================================= DWORD GetGlobalRand(void) { HCRYPTPROV hCryptProv; DWORD dwResult; WORD wResult1; WORD wResult2; #ifdef DBG DWORD dwError; #endif // DBG if (CryptAcquireContext(&hCryptProv, NULL, NULL, PROV_RSA_FULL, CRYPT_VERIFYCONTEXT)) { if (CryptGenRandom(hCryptProv, sizeof(dwResult), (BYTE*) (&dwResult))) { CryptReleaseContext(hCryptProv, 0); return dwResult; } #ifdef DBG else { dwError = GetLastError(); DPFX(DPFPREP, 0, "Crypto couldn't generate random number (err = %u)!", dwError); } #endif // DBG CryptReleaseContext(hCryptProv, 0); } #ifdef DBG else { dwError = GetLastError(); DPFX(DPFPREP, 0, "Couldn't acquire crypto provider context (err = %u)!", dwError); } #endif // DBG // // We couldn't use the crypto API to generate a random number, so make // our own based off the C run time source. // DNEnterCriticalSection(&g_csGlobalsLock); g_dwHoldRand = ((g_dwHoldRand * 214013L + 2531011L) >> 16) & 0x7fff; wResult1 = (WORD) g_dwHoldRand; g_dwHoldRand = ((g_dwHoldRand * 214013L + 2531011L) >> 16) & 0x7fff; wResult2 = (WORD) g_dwHoldRand; DNLeaveCriticalSection(&g_csGlobalsLock); return MAKELONG(wResult1, wResult2); } // GetGlobalRand #undef DPF_MODNAME #define DPF_MODNAME "DoCreateInstance" //============================================================================= // DoCreateInstance //----------------------------------------------------------------------------- // // Description: Creates an instance of an interface. Required by the general // purpose class factory functions. // // Arguments: // LPCLASSFACTORY This - Pointer to class factory. // LPUNKNOWN pUnkOuter - Pointer to unknown interface. // REFCLSID rclsid - Reference of GUID of desired interface. // REFIID riid - Reference to another GUID? // LPVOID * ppvObj - Pointer to pointer to interface. // // Returns: HRESULT //============================================================================= HRESULT DoCreateInstance(LPCLASSFACTORY This, LPUNKNOWN pUnkOuter, REFCLSID rclsid, REFIID riid, LPVOID * ppvObj) { HRESULT hr; BOOL fNotCreatedWithCOM; CNATHelpUPnP * pNATHelpUPnP = NULL; DNASSERT(ppvObj != NULL); if (! IsEqualCLSID(rclsid, CLSID_DirectPlayNATHelpUPnP)) { // // This shouldn't happen if they called IClassFactory::CreateObject // correctly. // DNASSERT(FALSE); // // Return an error. // hr = E_UNEXPECTED; goto Failure; } // // If the class factory pointer is NULL, then we were called by the // DirectPlayNATHelpCreate function. // if (This == NULL) { fNotCreatedWithCOM = TRUE; } else { fNotCreatedWithCOM = FALSE; } // // Create the object instance. // pNATHelpUPnP = new CNATHelpUPnP(fNotCreatedWithCOM); if (pNATHelpUPnP == NULL) { hr = E_OUTOFMEMORY; goto Failure; } // // Initialize the base object (which might fail). // hr = pNATHelpUPnP->InitializeObject(); if (hr != S_OK) { DPFX(DPFPREP, 0, "Couldn't initialize object!"); delete pNATHelpUPnP; pNATHelpUPnP = NULL; goto Failure; } // // Add it to the global list. // DNEnterCriticalSection(&g_csGlobalsLock); pNATHelpUPnP->m_blList.InsertBefore(&g_blNATHelpUPnPObjs); g_lOutstandingInterfaceCount++; // update count so DllCanUnloadNow works correctly DNLeaveCriticalSection(&g_csGlobalsLock); // // Get the right interface for the caller and bump the refcount. // hr = pNATHelpUPnP->QueryInterface(riid, ppvObj); if (hr != S_OK) { goto Failure; } Exit: // // Release the local reference to the object. If this function was // successful, there's still a reference in ppvObj. // if (pNATHelpUPnP != NULL) { pNATHelpUPnP->Release(); pNATHelpUPnP = NULL; } return hr; Failure: // // Make sure we don't hand back a pointer. // (*ppvObj) = NULL; goto Exit; } // DoCreateInstance #undef DPF_MODNAME #define DPF_MODNAME "IsClassImplemented" //============================================================================= // IsClassImplemented //----------------------------------------------------------------------------- // // Description: Determine if a class is implemented in this DLL. Required by // the general purpose class factory functions. // // Arguments: // REFCLSID rclsid - Reference to class GUID. // // Returns: BOOL // TRUE - This DLL implements the class. // FALSE - This DLL doesn't implement the class. //============================================================================= BOOL IsClassImplemented(REFCLSID rclsid) { return (IsEqualCLSID(rclsid, CLSID_DirectPlayNATHelpUPnP)); } // IsClassImplemented