//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: // //===========================================================================// #if defined( _WIN32 ) && !defined( _X360 ) #include #endif #if !defined( DONT_PROTECT_FILEIO_FUNCTIONS ) #define DONT_PROTECT_FILEIO_FUNCTIONS // for protected_things.h #endif #if defined( PROTECTED_THINGS_ENABLE ) #undef PROTECTED_THINGS_ENABLE // from protected_things.h #endif #include #include "interface.h" #include "basetypes.h" #include "tier0/dbg.h" #include #include #include "tier1/strtools.h" #include "tier0/icommandline.h" #include "tier0/dbg.h" #include "tier0/threadtools.h" #ifdef _WIN32 #include // getcwd #elif POSIX #include #include #define _getcwd getcwd #endif #if defined( _X360 ) #include "xbox/xbox_win32stubs.h" #endif #ifdef POSIX #include #endif // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" // ------------------------------------------------------------------------------------ // // InterfaceReg. // ------------------------------------------------------------------------------------ // InterfaceReg *InterfaceReg::s_pInterfaceRegs = NULL; InterfaceReg::InterfaceReg( InstantiateInterfaceFn fn, const char *pName ) : m_pName(pName) { m_CreateFn = fn; m_pNext = s_pInterfaceRegs; s_pInterfaceRegs = this; } // ------------------------------------------------------------------------------------ // // CreateInterface. // This is the primary exported function by a dll, referenced by name via dynamic binding // that exposes an opqaue function pointer to the interface. // // We have the Internal variant so Sys_GetFactoryThis() returns the correct internal // symbol under GCC/Linux/Mac as CreateInterface is DLL_EXPORT so its global so the loaders // on those OS's pick exactly 1 of the CreateInterface symbols to be the one that is process wide and // all Sys_GetFactoryThis() calls find that one, which doesn't work. Using the internal walkthrough here // makes sure Sys_GetFactoryThis() has the dll specific symbol and GetProcAddress() returns the module specific // function for CreateInterface again getting the dll specific symbol we need. // ------------------------------------------------------------------------------------ // void* CreateInterfaceInternal( const char *pName, int *pReturnCode ) { InterfaceReg *pCur; for (pCur=InterfaceReg::s_pInterfaceRegs; pCur; pCur=pCur->m_pNext) { if (strcmp(pCur->m_pName, pName) == 0) { if (pReturnCode) { *pReturnCode = IFACE_OK; } return pCur->m_CreateFn(); } } if (pReturnCode) { *pReturnCode = IFACE_FAILED; } return NULL; } void* CreateInterface( const char *pName, int *pReturnCode ) { return CreateInterfaceInternal( pName, pReturnCode ); } #ifdef POSIX // Linux doesn't have this function so this emulates its functionality void *GetModuleHandle(const char *name) { void *handle; if( name == NULL ) { // hmm, how can this be handled under linux.... // is it even needed? return NULL; } if( (handle=dlopen(name, RTLD_NOW))==NULL) { printf("DLOPEN Error:%s\n",dlerror()); // couldn't open this file return NULL; } // read "man dlopen" for details // in short dlopen() inc a ref count // so dec the ref count by performing the close dlclose(handle); return handle; } #endif #if defined( _WIN32 ) && !defined( _X360 ) #define WIN32_LEAN_AND_MEAN #include "windows.h" #endif //----------------------------------------------------------------------------- // Purpose: returns a pointer to a function, given a module // Input : pModuleName - module name // *pName - proc name //----------------------------------------------------------------------------- static void *Sys_GetProcAddress( const char *pModuleName, const char *pName ) { HMODULE hModule = (HMODULE)GetModuleHandle( pModuleName ); #ifdef WIN32 return (void *)GetProcAddress( hModule, pName ); #else return (void *)dlsym( (void *)hModule, pName ); #endif } #if !defined(LINUX) static void *Sys_GetProcAddress( HMODULE hModule, const char *pName ) { #ifdef WIN32 return (void *)GetProcAddress( hModule, pName ); #else return (void *)dlsym( (void *)hModule, pName ); #endif } #endif bool Sys_IsDebuggerPresent() { return Plat_IsInDebugSession(); } struct ThreadedLoadLibaryContext_t { const char *m_pLibraryName; HMODULE m_hLibrary; }; #ifdef _WIN32 // wraps LoadLibraryEx() since 360 doesn't support that static HMODULE InternalLoadLibrary( const char *pName, Sys_Flags flags ) { #if defined(_X360) return LoadLibrary( pName ); #else if ( flags & SYS_NOLOAD ) return GetModuleHandle( pName ); else return LoadLibraryEx( pName, NULL, LOAD_WITH_ALTERED_SEARCH_PATH ); #endif } unsigned ThreadedLoadLibraryFunc( void *pParam ) { ThreadedLoadLibaryContext_t *pContext = (ThreadedLoadLibaryContext_t*)pParam; pContext->m_hLibrary = InternalLoadLibrary( pContext->m_pLibraryName, SYS_NOFLAGS ); return 0; } #endif // _WIN32 HMODULE Sys_LoadLibrary( const char *pLibraryName, Sys_Flags flags ) { char str[ 1024 ]; // Note: DLL_EXT_STRING can be "_srv.so" or "_360.dll". So be careful // when using the V_*Extension* routines... const char *pDllStringExtension = V_GetFileExtension( DLL_EXT_STRING ); const char *pModuleExtension = pDllStringExtension ? ( pDllStringExtension - 1 ) : DLL_EXT_STRING; Q_strncpy( str, pLibraryName, sizeof(str) ); if ( IsX360() ) { // old, probably busted, behavior for xbox if ( !Q_stristr( str, pModuleExtension ) ) { V_SetExtension( str, pModuleExtension, sizeof(str) ); } } else { // always force the final extension to be .dll V_SetExtension( str, pModuleExtension, sizeof(str) ); } Q_FixSlashes( str ); #ifdef _WIN32 ThreadedLoadLibraryFunc_t threadFunc = GetThreadedLoadLibraryFunc(); if ( !threadFunc ) return InternalLoadLibrary( str, flags ); // We shouldn't be passing noload while threaded. Assert( !( flags & SYS_NOLOAD ) ); ThreadedLoadLibaryContext_t context; context.m_pLibraryName = str; context.m_hLibrary = 0; ThreadHandle_t h = CreateSimpleThread( ThreadedLoadLibraryFunc, &context ); #ifdef _X360 ThreadSetAffinity( h, XBOX_PROCESSOR_3 ); #endif unsigned int nTimeout = 0; while( ThreadWaitForObject( h, true, nTimeout ) == TW_TIMEOUT ) { nTimeout = threadFunc(); } ReleaseThreadHandle( h ); return context.m_hLibrary; #elif POSIX int dlopen_mode = RTLD_NOW; #ifndef ANDROID if ( flags & SYS_NOLOAD ) dlopen_mode |= RTLD_NOLOAD; #endif HMODULE ret = ( HMODULE )dlopen( str, dlopen_mode ); if ( !ret && !( flags & SYS_NOLOAD ) ) { const char *pError = dlerror(); if ( pError && ( strstr( pError, "No such file" ) == 0 ) && ( strstr( pError, "image not found" ) == 0 ) ) { Msg( " failed to dlopen %s error=%s\n", str, pError ); } } return ret; #endif } static bool s_bRunningWithDebugModules = false; //----------------------------------------------------------------------------- // Purpose: Loads a DLL/component from disk and returns a handle to it // Input : *pModuleName - filename of the component // Output : opaque handle to the module (hides system dependency) //----------------------------------------------------------------------------- CSysModule *Sys_LoadModule( const char *pModuleName, Sys_Flags flags /* = SYS_NOFLAGS (0) */ ) { // If using the Steam filesystem, either the DLL must be a minimum footprint // file in the depot (MFP) or a filesystem GetLocalCopy() call must be made // prior to the call to this routine. char szCwd[1024]; char szModuleName[1024]; HMODULE hDLL = NULL; if ( !Q_IsAbsolutePath( pModuleName ) ) { // full path wasn't passed in, using the current working dir _getcwd( szCwd, sizeof( szCwd ) ); if ( IsX360() ) { int i = CommandLine()->FindParm( "-basedir" ); if ( i ) { V_strcpy_safe( szCwd, CommandLine()->GetParm( i + 1 ) ); } } if (szCwd[strlen(szCwd) - 1] == '/' || szCwd[strlen(szCwd) - 1] == '\\' ) { szCwd[strlen(szCwd) - 1] = 0; } char szAbsoluteModuleName[1024]; size_t cCwd = strlen( szCwd ); bool bUseLibPrefix = false; #ifdef ANDROID struct stat statBuf; char *libPath = getenv("APP_LIB_PATH"); char *modLibPath = getenv("APP_MOD_LIB"); if( modLibPath && *modLibPath ) // first load library from mod launcher { Q_snprintf(szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/lib%s", modLibPath, pModuleName); if( stat(szAbsoluteModuleName, &statBuf) != 0 ) Q_snprintf(szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/%s", modLibPath, pModuleName); hDLL = Sys_LoadLibrary(szAbsoluteModuleName, flags); } Q_snprintf(szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/lib%s", libPath ,pModuleName); if( stat(szAbsoluteModuleName, &statBuf) != 0 ) Q_snprintf(szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/%s", libPath ,pModuleName); #else #ifdef POSIX struct stat statBuf; Q_snprintf(szModuleName, sizeof(szModuleName), "bin/lib%s", pModuleName); bUseLibPrefix |= stat(szModuleName, &statBuf) == 0; #endif if( bUseLibPrefix ) Q_snprintf( szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/bin/lib%s", szCwd, pModuleName ); else Q_snprintf( szAbsoluteModuleName, sizeof(szAbsoluteModuleName), "%s/bin/%s", szCwd, pModuleName ); #endif // ANDROID Msg("LoadLibrary: pModule: %s, path: %s\n", pModuleName, szAbsoluteModuleName); if( !hDLL ) hDLL = Sys_LoadLibrary( szAbsoluteModuleName, flags ); } else Msg("LoadLibrary: path: %s\n", pModuleName); if ( !hDLL ) { // full path failed, let LoadLibrary() try to search the PATH now hDLL = Sys_LoadLibrary( pModuleName, flags ); #if defined( _DEBUG ) if ( !hDLL ) { // So you can see what the error is in the debugger... #if defined( _WIN32 ) && !defined( _X360 ) char *lpMsgBuf; FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, GetLastError(), MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), // Default language (LPTSTR) &lpMsgBuf, 0, NULL ); LocalFree( (HLOCAL)lpMsgBuf ); #elif defined( _X360 ) DWORD error = GetLastError(); Msg( "Error(%d) - Failed to load %s:\n", error, pModuleName ); #else Msg( "Failed to load %s: %s\n", pModuleName, dlerror() ); #endif // _WIN32 } #endif // DEBUG } #if !defined(LINUX) // If running in the debugger, assume debug binaries are okay, otherwise they must run with -allowdebug if ( Sys_GetProcAddress( hDLL, "BuiltDebug" ) ) { if ( !IsX360() && hDLL && !CommandLine()->FindParm( "-allowdebug" ) && !Sys_IsDebuggerPresent() ) { Error( "Module %s is a debug build\n", pModuleName ); } DevWarning( "Module %s is a debug build\n", pModuleName ); if ( !s_bRunningWithDebugModules ) { s_bRunningWithDebugModules = true; #if 0 //def IS_WINDOWS_PC char chMemoryName[ MAX_PATH ]; DebugKernelMemoryObjectName( chMemoryName ); (void) CreateFileMapping( INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE, 0, 1024, chMemoryName ); // Created a shared memory kernel object specific to process id // Existence of this object indicates that we have debug modules loaded #endif } } #endif return reinterpret_cast(hDLL); } //----------------------------------------------------------------------------- // Purpose: Determine if any debug modules were loaded //----------------------------------------------------------------------------- bool Sys_RunningWithDebugModules() { if ( !s_bRunningWithDebugModules ) { #if 0 //def IS_WINDOWS_PC char chMemoryName[ MAX_PATH ]; DebugKernelMemoryObjectName( chMemoryName ); HANDLE hObject = OpenFileMapping( FILE_MAP_READ, FALSE, chMemoryName ); if ( hObject && hObject != INVALID_HANDLE_VALUE ) { CloseHandle( hObject ); s_bRunningWithDebugModules = true; } #endif } return s_bRunningWithDebugModules; } //----------------------------------------------------------------------------- // Purpose: Unloads a DLL/component from // Input : *pModuleName - filename of the component // Output : opaque handle to the module (hides system dependency) //----------------------------------------------------------------------------- void Sys_UnloadModule( CSysModule *pModule ) { if ( !pModule ) return; HMODULE hDLL = reinterpret_cast(pModule); #ifdef _WIN32 FreeLibrary( hDLL ); #elif defined(POSIX) dlclose((void *)hDLL); #endif } //----------------------------------------------------------------------------- // Purpose: returns a pointer to a function, given a module // Input : module - windows HMODULE from Sys_LoadModule() // *pName - proc name // Output : factory for this module //----------------------------------------------------------------------------- CreateInterfaceFn Sys_GetFactory( CSysModule *pModule ) { if ( !pModule ) return NULL; HMODULE hDLL = reinterpret_cast(pModule); #ifdef _WIN32 return reinterpret_cast(GetProcAddress( hDLL, CREATEINTERFACE_PROCNAME )); #elif defined(POSIX) // Linux gives this error: //../public/interface.cpp: In function `IBaseInterface *(*Sys_GetFactory //(CSysModule *)) (const char *, int *)': //../public/interface.cpp:154: ISO C++ forbids casting between //pointer-to-function and pointer-to-object // // so lets get around it :) return (CreateInterfaceFn)(GetProcAddress( (void *)hDLL, CREATEINTERFACE_PROCNAME )); #endif } //----------------------------------------------------------------------------- // Purpose: returns the instance of this module // Output : interface_instance_t //----------------------------------------------------------------------------- CreateInterfaceFn Sys_GetFactoryThis( void ) { return &CreateInterfaceInternal; } //----------------------------------------------------------------------------- // Purpose: returns the instance of the named module // Input : *pModuleName - name of the module // Output : interface_instance_t - instance of that module //----------------------------------------------------------------------------- CreateInterfaceFn Sys_GetFactory( const char *pModuleName ) { #ifdef _WIN32 return static_cast( Sys_GetProcAddress( pModuleName, CREATEINTERFACE_PROCNAME ) ); #elif defined(POSIX) // see Sys_GetFactory( CSysModule *pModule ) for an explanation return (CreateInterfaceFn)( Sys_GetProcAddress( pModuleName, CREATEINTERFACE_PROCNAME ) ); #endif } //----------------------------------------------------------------------------- // Purpose: get the interface for the specified module and version // Input : // Output : //----------------------------------------------------------------------------- bool Sys_LoadInterface( const char *pModuleName, const char *pInterfaceVersionName, CSysModule **pOutModule, void **pOutInterface ) { CSysModule *pMod = Sys_LoadModule( pModuleName ); if ( !pMod ) return false; CreateInterfaceFn fn = Sys_GetFactory( pMod ); if ( !fn ) { Sys_UnloadModule( pMod ); return false; } *pOutInterface = fn( pInterfaceVersionName, NULL ); if ( !( *pOutInterface ) ) { Sys_UnloadModule( pMod ); return false; } if ( pOutModule ) *pOutModule = pMod; return true; } //----------------------------------------------------------------------------- // Purpose: Place this as a singleton at module scope (e.g.) and use it to get the factory from the specified module name. // // When the singleton goes out of scope (.dll unload if at module scope), // then it'll call Sys_UnloadModule on the module so that the refcount is decremented // and the .dll actually can unload from memory. //----------------------------------------------------------------------------- CDllDemandLoader::CDllDemandLoader( char const *pchModuleName ) : m_pchModuleName( pchModuleName ), m_hModule( 0 ), m_bLoadAttempted( false ) { } CDllDemandLoader::~CDllDemandLoader() { Unload(); } CreateInterfaceFn CDllDemandLoader::GetFactory() { if ( !m_hModule && !m_bLoadAttempted ) { m_bLoadAttempted = true; m_hModule = Sys_LoadModule( m_pchModuleName ); } if ( !m_hModule ) { return NULL; } return Sys_GetFactory( m_hModule ); } void CDllDemandLoader::Unload() { if ( m_hModule ) { Sys_UnloadModule( m_hModule ); m_hModule = 0; } } #if defined( STAGING_ONLY ) && defined( _WIN32 ) typedef USHORT( WINAPI RtlCaptureStackBackTrace_FUNC )( ULONG frames_to_skip, ULONG frames_to_capture, PVOID *backtrace, PULONG backtrace_hash ); extern "C" int backtrace( void **buffer, int size ) { HMODULE hNTDll = GetModuleHandleA( "ntdll.dll" ); static RtlCaptureStackBackTrace_FUNC * const pfnRtlCaptureStackBackTrace = ( RtlCaptureStackBackTrace_FUNC * )GetProcAddress( hNTDll, "RtlCaptureStackBackTrace" ); if ( !pfnRtlCaptureStackBackTrace ) return 0; return (int)pfnRtlCaptureStackBackTrace( 2, size, buffer, 0 ); } #endif // STAGING_ONLY && _WIN32