/* =========================================================================== Doom 3 GPL Source Code Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 GPL Source Code ("Doom 3 Source Code"). Doom 3 Source Code is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Doom 3 Source Code is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Doom 3 Source Code. If not, see . In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #include "../../idlib/precompiled.h" #pragma hdrstop #include "win_local.h" #include #include #include #include #include #include #include #include #ifndef ID_DEDICATED #include #include #include #pragma comment (lib, "wbemuuid.lib") #endif /* ================ Sys_Milliseconds ================ */ int Sys_Milliseconds( void ) { int sys_curtime; static int sys_timeBase; static bool initialized = false; if ( !initialized ) { sys_timeBase = timeGetTime(); initialized = true; } sys_curtime = timeGetTime() - sys_timeBase; return sys_curtime; } /* ================ Sys_GetSystemRam returns amount of physical memory in MB ================ */ int Sys_GetSystemRam( void ) { MEMORYSTATUSEX statex; statex.dwLength = sizeof ( statex ); GlobalMemoryStatusEx (&statex); int physRam = statex.ullTotalPhys / ( 1024 * 1024 ); // HACK: For some reason, ullTotalPhys is sometimes off by a meg or two, so we round up to the nearest 16 megs physRam = ( physRam + 8 ) & ~15; return physRam; } /* ================ Sys_GetDriveFreeSpace returns in megabytes ================ */ int Sys_GetDriveFreeSpace( const char *path ) { DWORDLONG lpFreeBytesAvailable; DWORDLONG lpTotalNumberOfBytes; DWORDLONG lpTotalNumberOfFreeBytes; int ret = 26; //FIXME: see why this is failing on some machines if ( ::GetDiskFreeSpaceEx( path, (PULARGE_INTEGER)&lpFreeBytesAvailable, (PULARGE_INTEGER)&lpTotalNumberOfBytes, (PULARGE_INTEGER)&lpTotalNumberOfFreeBytes ) ) { ret = ( double )( lpFreeBytesAvailable ) / ( 1024.0 * 1024.0 ); } return ret; } /* ================ Sys_GetVideoRam returns in megabytes ================ */ int Sys_GetVideoRam( void ) { #ifdef ID_DEDICATED return 0; #else unsigned int retSize = 64; CComPtr spLoc = NULL; HRESULT hr = CoCreateInstance( CLSID_WbemLocator, 0, CLSCTX_SERVER, IID_IWbemLocator, ( LPVOID * ) &spLoc ); if ( hr != S_OK || spLoc == NULL ) { return retSize; } CComBSTR bstrNamespace( _T( "\\\\.\\root\\CIMV2" ) ); CComPtr spServices; // Connect to CIM hr = spLoc->ConnectServer( bstrNamespace, NULL, NULL, 0, NULL, 0, 0, &spServices ); if ( hr != WBEM_S_NO_ERROR ) { return retSize; } // Switch the security level to IMPERSONATE so that provider will grant access to system-level objects. hr = CoSetProxyBlanket( spServices, RPC_C_AUTHN_WINNT, RPC_C_AUTHZ_NONE, NULL, RPC_C_AUTHN_LEVEL_CALL, RPC_C_IMP_LEVEL_IMPERSONATE, NULL, EOAC_NONE ); if ( hr != S_OK ) { return retSize; } // Get the vid controller CComPtr spEnumInst = NULL; hr = spServices->CreateInstanceEnum( CComBSTR( "Win32_VideoController" ), WBEM_FLAG_SHALLOW, NULL, &spEnumInst ); if ( hr != WBEM_S_NO_ERROR || spEnumInst == NULL ) { return retSize; } ULONG uNumOfInstances = 0; CComPtr spInstance = NULL; hr = spEnumInst->Next( 10000, 1, &spInstance, &uNumOfInstances ); if ( hr == S_OK && spInstance ) { // Get properties from the object CComVariant varSize; hr = spInstance->Get( CComBSTR( _T( "AdapterRAM" ) ), 0, &varSize, 0, 0 ); if ( hr == S_OK ) { retSize = varSize.intVal / ( 1024 * 1024 ); if ( retSize == 0 ) { retSize = 64; } } } return retSize; #endif } /* ================ Sys_GetCurrentMemoryStatus returns OS mem info all values are in kB except the memoryload ================ */ void Sys_GetCurrentMemoryStatus( sysMemoryStats_t &stats ) { MEMORYSTATUSEX statex; unsigned __int64 work; memset( &statex, 0, sizeof( statex ) ); statex.dwLength = sizeof( statex ); GlobalMemoryStatusEx( &statex ); memset( &stats, 0, sizeof( stats ) ); stats.memoryLoad = statex.dwMemoryLoad; work = statex.ullTotalPhys >> 20; stats.totalPhysical = *(int*)&work; work = statex.ullAvailPhys >> 20; stats.availPhysical = *(int*)&work; work = statex.ullAvailPageFile >> 20; stats.availPageFile = *(int*)&work; work = statex.ullTotalPageFile >> 20; stats.totalPageFile = *(int*)&work; work = statex.ullTotalVirtual >> 20; stats.totalVirtual = *(int*)&work; work = statex.ullAvailVirtual >> 20; stats.availVirtual = *(int*)&work; work = statex.ullAvailExtendedVirtual >> 20; stats.availExtendedVirtual = *(int*)&work; } /* ================ Sys_LockMemory ================ */ bool Sys_LockMemory( void *ptr, int bytes ) { return ( VirtualLock( ptr, (SIZE_T)bytes ) != FALSE ); } /* ================ Sys_UnlockMemory ================ */ bool Sys_UnlockMemory( void *ptr, int bytes ) { return ( VirtualUnlock( ptr, (SIZE_T)bytes ) != FALSE ); } /* ================ Sys_SetPhysicalWorkMemory ================ */ void Sys_SetPhysicalWorkMemory( int minBytes, int maxBytes ) { ::SetProcessWorkingSetSize( GetCurrentProcess(), minBytes, maxBytes ); } /* ================ Sys_GetCurrentUser ================ */ char *Sys_GetCurrentUser( void ) { static char s_userName[1024]; unsigned long size = sizeof( s_userName ); if ( !GetUserName( s_userName, &size ) ) { strcpy( s_userName, "player" ); } if ( !s_userName[0] ) { strcpy( s_userName, "player" ); } return s_userName; } /* =============================================================================== Call stack =============================================================================== */ #define PROLOGUE_SIGNATURE 0x00EC8B55 #include const int UNDECORATE_FLAGS = UNDNAME_NO_MS_KEYWORDS | UNDNAME_NO_ACCESS_SPECIFIERS | UNDNAME_NO_FUNCTION_RETURNS | UNDNAME_NO_ALLOCATION_MODEL | UNDNAME_NO_ALLOCATION_LANGUAGE | UNDNAME_NO_MEMBER_TYPE; #if defined(_DEBUG) && 1 typedef struct symbol_s { int address; char * name; struct symbol_s * next; } symbol_t; typedef struct module_s { int address; char * name; symbol_t * symbols; struct module_s * next; } module_t; module_t *modules; /* ================== SkipRestOfLine ================== */ void SkipRestOfLine( const char **ptr ) { while( (**ptr) != '\0' && (**ptr) != '\n' && (**ptr) != '\r' ) { (*ptr)++; } while( (**ptr) == '\n' || (**ptr) == '\r' ) { (*ptr)++; } } /* ================== SkipWhiteSpace ================== */ void SkipWhiteSpace( const char **ptr ) { while( (**ptr) == ' ' ) { (*ptr)++; } } /* ================== ParseHexNumber ================== */ int ParseHexNumber( const char **ptr ) { int n = 0; while( (**ptr) >= '0' && (**ptr) <= '9' || (**ptr) >= 'a' && (**ptr) <= 'f' ) { n <<= 4; if ( **ptr >= '0' && **ptr <= '9' ) { n |= ( (**ptr) - '0' ); } else { n |= 10 + ( (**ptr) - 'a' ); } (*ptr)++; } return n; } /* ================== Sym_Init ================== */ void Sym_Init( long addr ) { TCHAR moduleName[MAX_STRING_CHARS]; MEMORY_BASIC_INFORMATION mbi; VirtualQuery( (void*)addr, &mbi, sizeof(mbi) ); GetModuleFileName( (HMODULE)mbi.AllocationBase, moduleName, sizeof( moduleName ) ); char *ext = moduleName + strlen( moduleName ); while( ext > moduleName && *ext != '.' ) { ext--; } if ( ext == moduleName ) { strcat( moduleName, ".map" ); } else { strcpy( ext, ".map" ); } module_t *module = (module_t *) malloc( sizeof( module_t ) ); module->name = (char *) malloc( strlen( moduleName ) + 1 ); strcpy( module->name, moduleName ); module->address = (int)mbi.AllocationBase; module->symbols = NULL; module->next = modules; modules = module; FILE *fp = fopen( moduleName, "rb" ); if ( fp == NULL ) { return; } int pos = ftell( fp ); fseek( fp, 0, SEEK_END ); int length = ftell( fp ); fseek( fp, pos, SEEK_SET ); char *text = (char *) malloc( length+1 ); fread( text, 1, length, fp ); text[length] = '\0'; fclose( fp ); const char *ptr = text; // skip up to " Address" on a new line while( *ptr != '\0' ) { SkipWhiteSpace( &ptr ); if ( idStr::Cmpn( ptr, "Address", 7 ) == 0 ) { SkipRestOfLine( &ptr ); break; } SkipRestOfLine( &ptr ); } int symbolAddress; int symbolLength; char symbolName[MAX_STRING_CHARS]; symbol_t *symbol; // parse symbols while( *ptr != '\0' ) { SkipWhiteSpace( &ptr ); ParseHexNumber( &ptr ); if ( *ptr == ':' ) { ptr++; } else { break; } ParseHexNumber( &ptr ); SkipWhiteSpace( &ptr ); // parse symbol name symbolLength = 0; while( *ptr != '\0' && *ptr != ' ' ) { symbolName[symbolLength++] = *ptr++; if ( symbolLength >= sizeof( symbolName ) - 1 ) { break; } } symbolName[symbolLength++] = '\0'; SkipWhiteSpace( &ptr ); // parse symbol address symbolAddress = ParseHexNumber( &ptr ); SkipRestOfLine( &ptr ); symbol = (symbol_t *) malloc( sizeof( symbol_t ) ); symbol->name = (char *) malloc( symbolLength ); strcpy( symbol->name, symbolName ); symbol->address = symbolAddress; symbol->next = module->symbols; module->symbols = symbol; } free( text ); } /* ================== Sym_Shutdown ================== */ void Sym_Shutdown( void ) { module_t *m; symbol_t *s; for ( m = modules; m != NULL; m = modules ) { modules = m->next; for ( s = m->symbols; s != NULL; s = m->symbols ) { m->symbols = s->next; free( s->name ); free( s ); } free( m->name ); free( m ); } modules = NULL; } /* ================== Sym_GetFuncInfo ================== */ void Sym_GetFuncInfo( long addr, idStr &module, idStr &funcName ) { MEMORY_BASIC_INFORMATION mbi; module_t *m; symbol_t *s; VirtualQuery( (void*)addr, &mbi, sizeof(mbi) ); for ( m = modules; m != NULL; m = m->next ) { if ( m->address == (int) mbi.AllocationBase ) { break; } } if ( !m ) { Sym_Init( addr ); m = modules; } for ( s = m->symbols; s != NULL; s = s->next ) { if ( s->address == addr ) { char undName[MAX_STRING_CHARS]; if ( UnDecorateSymbolName( s->name, undName, sizeof(undName), UNDECORATE_FLAGS ) ) { funcName = undName; } else { funcName = s->name; } for ( int i = 0; i < funcName.Length(); i++ ) { if ( funcName[i] == '(' ) { funcName.CapLength( i ); break; } } module = m->name; return; } } sprintf( funcName, "0x%08x", addr ); module = ""; } #elif defined(_DEBUG) DWORD lastAllocationBase = -1; HANDLE processHandle; idStr lastModule; /* ================== Sym_Init ================== */ void Sym_Init( long addr ) { TCHAR moduleName[MAX_STRING_CHARS]; TCHAR modShortNameBuf[MAX_STRING_CHARS]; MEMORY_BASIC_INFORMATION mbi; if ( lastAllocationBase != -1 ) { Sym_Shutdown(); } VirtualQuery( (void*)addr, &mbi, sizeof(mbi) ); GetModuleFileName( (HMODULE)mbi.AllocationBase, moduleName, sizeof( moduleName ) ); _splitpath( moduleName, NULL, NULL, modShortNameBuf, NULL ); lastModule = modShortNameBuf; processHandle = GetCurrentProcess(); if ( !SymInitialize( processHandle, NULL, FALSE ) ) { return; } if ( !SymLoadModule( processHandle, NULL, moduleName, NULL, (DWORD)mbi.AllocationBase, 0 ) ) { SymCleanup( processHandle ); return; } SymSetOptions( SymGetOptions() & ~SYMOPT_UNDNAME ); lastAllocationBase = (DWORD) mbi.AllocationBase; } /* ================== Sym_Shutdown ================== */ void Sym_Shutdown( void ) { SymUnloadModule( GetCurrentProcess(), lastAllocationBase ); SymCleanup( GetCurrentProcess() ); lastAllocationBase = -1; } /* ================== Sym_GetFuncInfo ================== */ void Sym_GetFuncInfo( long addr, idStr &module, idStr &funcName ) { MEMORY_BASIC_INFORMATION mbi; VirtualQuery( (void*)addr, &mbi, sizeof(mbi) ); if ( (DWORD) mbi.AllocationBase != lastAllocationBase ) { Sym_Init( addr ); } BYTE symbolBuffer[ sizeof(IMAGEHLP_SYMBOL) + MAX_STRING_CHARS ]; PIMAGEHLP_SYMBOL pSymbol = (PIMAGEHLP_SYMBOL)&symbolBuffer[0]; pSymbol->SizeOfStruct = sizeof(symbolBuffer); pSymbol->MaxNameLength = 1023; pSymbol->Address = 0; pSymbol->Flags = 0; pSymbol->Size =0; DWORD symDisplacement = 0; if ( SymGetSymFromAddr( processHandle, addr, &symDisplacement, pSymbol ) ) { // clean up name, throwing away decorations that don't affect uniqueness char undName[MAX_STRING_CHARS]; if ( UnDecorateSymbolName( pSymbol->Name, undName, sizeof(undName), UNDECORATE_FLAGS ) ) { funcName = undName; } else { funcName = pSymbol->Name; } module = lastModule; } else { LPVOID 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( lpMsgBuf ); // Couldn't retrieve symbol (no debug info?, can't load dbghelp.dll?) sprintf( funcName, "0x%08x", addr ); module = ""; } } #else /* ================== Sym_Init ================== */ void Sym_Init( long addr ) { } /* ================== Sym_Shutdown ================== */ void Sym_Shutdown( void ) { } /* ================== Sym_GetFuncInfo ================== */ void Sym_GetFuncInfo( long addr, idStr &module, idStr &funcName ) { module = ""; sprintf( funcName, "0x%08x", addr ); } #endif /* ================== GetFuncAddr ================== */ address_t GetFuncAddr( address_t midPtPtr ) { long temp; do { temp = (long)(*(long*)midPtPtr); if ( (temp&0x00FFFFFF) == PROLOGUE_SIGNATURE ) { break; } midPtPtr--; } while(true); return midPtPtr; } /* ================== GetCallerAddr ================== */ address_t GetCallerAddr( long _ebp ) { long midPtPtr; long res = 0; __asm { mov eax, _ebp mov ecx, [eax] // check for end of stack frames list test ecx, ecx // check for zero stack frame jz label mov eax, [eax+4] // get the ret address test eax, eax // check for zero return address jz label mov midPtPtr, eax } res = GetFuncAddr( midPtPtr ); label: return res; } /* ================== Sys_GetCallStack use /Oy option ================== */ void Sys_GetCallStack( address_t *callStack, const int callStackSize ) { #if 1 //def _DEBUG int i; long m_ebp; __asm { mov eax, ebp mov m_ebp, eax } // skip last two functions m_ebp = *((long*)m_ebp); m_ebp = *((long*)m_ebp); // list functions for ( i = 0; i < callStackSize; i++ ) { callStack[i] = GetCallerAddr( m_ebp ); if ( callStack[i] == 0 ) { break; } m_ebp = *((long*)m_ebp); } #else int i = 0; #endif while( i < callStackSize ) { callStack[i++] = 0; } } /* ================== Sys_GetCallStackStr ================== */ const char *Sys_GetCallStackStr( const address_t *callStack, const int callStackSize ) { static char string[MAX_STRING_CHARS*2]; int index, i; idStr module, funcName; index = 0; for ( i = callStackSize-1; i >= 0; i-- ) { Sym_GetFuncInfo( callStack[i], module, funcName ); index += sprintf( string+index, " -> %s", funcName.c_str() ); } return string; } /* ================== Sys_GetCallStackCurStr ================== */ const char *Sys_GetCallStackCurStr( int depth ) { address_t *callStack; callStack = (address_t *) _alloca( depth * sizeof( address_t ) ); Sys_GetCallStack( callStack, depth ); return Sys_GetCallStackStr( callStack, depth ); } /* ================== Sys_GetCallStackCurAddressStr ================== */ const char *Sys_GetCallStackCurAddressStr( int depth ) { static char string[MAX_STRING_CHARS*2]; address_t *callStack; int index, i; callStack = (address_t *) _alloca( depth * sizeof( address_t ) ); Sys_GetCallStack( callStack, depth ); index = 0; for ( i = depth-1; i >= 0; i-- ) { index += sprintf( string+index, " -> 0x%08x", callStack[i] ); } return string; } /* ================== Sys_ShutdownSymbols ================== */ void Sys_ShutdownSymbols( void ) { Sym_Shutdown(); }