Serious-Engine/Sources/Engine/Engine.cpp

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2016-03-11 14:57:17 +01:00
/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */
#include "StdH.h"
#include <Engine/Build.h>
#include <Engine/Base/Profiling.h>
#include <Engine/Base/Input.h>
#include <Engine/Base/Protection.h>
#include <Engine/Base/Console.h>
#include <Engine/Base/Console_internal.h>
#include <Engine/Base/Statistics_Internal.h>
#include <Engine/Base/Shell.h>
#include <Engine/Base/CRC.h>
#include <Engine/Base/CRCTable.h>
#include <Engine/Base/ProgressHook.h>
#include <Engine/Sound/SoundListener.h>
#include <Engine/Sound/SoundLibrary.h>
#include <Engine/Graphics/GfxLibrary.h>
#include <Engine/Graphics/Font.h>
#include <Engine/Network/Network.h>
#include <Engine/templates/DynamicContainer.cpp>
#include <Engine/Templates/Stock_CAnimData.h>
#include <Engine/Templates/Stock_CTextureData.h>
#include <Engine/Templates/Stock_CSoundData.h>
#include <Engine/Templates/Stock_CModelData.h>
#include <Engine/Templates/Stock_CEntityClass.h>
#include <Engine/Templates/Stock_CMesh.h>
#include <Engine/Templates/Stock_CSkeleton.h>
#include <Engine/Templates/Stock_CAnimSet.h>
#include <Engine/Templates/Stock_CShader.h>
#include <Engine/Templates/StaticArray.cpp>
#include <Engine/Base/IFeel.h>
// this version string can be referenced from outside the engine
ENGINE_API CTString _strEngineBuild = "";
ENGINE_API ULONG _ulEngineBuildMajor = _SE_BUILD_MAJOR;
ENGINE_API ULONG _ulEngineBuildMinor = _SE_BUILD_MINOR;
ENGINE_API BOOL _bDedicatedServer = FALSE;
ENGINE_API BOOL _bWorldEditorApp = FALSE;
ENGINE_API CTString _strLogFile = "";
// global handle for application window
extern HWND _hwndMain = NULL;
extern BOOL _bFullScreen = FALSE;
// critical section for access to zlib functions
CTCriticalSection zip_csLock;
// to keep system gamma table
static UWORD auwSystemGamma[256*3];
// OS info
static CTString sys_strOS = "";
static INDEX sys_iOSMajor = 0;
static INDEX sys_iOSMinor = 0;
static INDEX sys_iOSBuild = 0;
static CTString sys_strOSMisc = "";
// CPU info
static CTString sys_strCPUVendor = "";
static INDEX sys_iCPUType = 0;
static INDEX sys_iCPUFamily = 0;
static INDEX sys_iCPUModel = 0;
static INDEX sys_iCPUStepping = 0;
static BOOL sys_bCPUHasMMX = 0;
static BOOL sys_bCPUHasCMOV = 0;
static INDEX sys_iCPUMHz = 0;
INDEX sys_iCPUMisc = 0;
// RAM info
static INDEX sys_iRAMPhys = 0;
static INDEX sys_iRAMSwap = 0;
// HDD info
static INDEX sys_iHDDSize = 0;
static INDEX sys_iHDDFree = 0;
static INDEX sys_iHDDMisc = 0;
// MOD info
static CTString sys_strModName = "";
static CTString sys_strModExt = "";
// enables paranoia checks for allocation array
extern BOOL _bAllocationArrayParanoiaCheck = FALSE;
BOOL APIENTRY DllMain( HANDLE hModule, DWORD ul_reason_for_call, LPVOID lpReserved)
{
switch (ul_reason_for_call)
{
case DLL_PROCESS_ATTACH:
break;
case DLL_THREAD_ATTACH:
case DLL_THREAD_DETACH:
case DLL_PROCESS_DETACH:
break;
default:
ASSERT(FALSE);
}
return TRUE;
}
static void DetectCPU(void)
{
char strVendor[12+1];
strVendor[12] = 0;
ULONG ulTFMS;
ULONG ulFeatures;
// test MMX presence and update flag
__asm {
mov eax,0 ;// request for basic id
cpuid
mov dword ptr [strVendor+0], ebx
mov dword ptr [strVendor+4], edx
mov dword ptr [strVendor+8], ecx
mov eax,1 ;// request for TFMS feature flags
cpuid
mov dword ptr [ulTFMS], eax ;// remember type, family, model and stepping
mov dword ptr [ulFeatures], edx
}
INDEX iType = (ulTFMS>>12)&0x3;
INDEX iFamily = (ulTFMS>> 8)&0xF;
INDEX iModel = (ulTFMS>> 4)&0xF;
INDEX iStepping = (ulTFMS>> 0)&0xF;
CPrintF(TRANS(" Vendor: %s\n"), strVendor);
CPrintF(TRANS(" Type: %d, Family: %d, Model: %d, Stepping: %d\n"),
iType, iFamily, iModel, iStepping);
BOOL bMMX = ulFeatures & (1<<23);
BOOL bCMOV = ulFeatures & (1<<15);
CTString strYes = TRANS("Yes");
CTString strNo = TRANS("No");
CPrintF(TRANS(" MMX : %s\n"), bMMX ?strYes:strNo);
CPrintF(TRANS(" CMOV: %s\n"), bCMOV?strYes:strNo);
CPrintF(TRANS(" Clock: %.0fMHz\n"), _pTimer->tm_llCPUSpeedHZ/1E6);
sys_strCPUVendor = strVendor;
sys_iCPUType = iType;
sys_iCPUFamily = iFamily;
sys_iCPUModel = iModel;
sys_iCPUStepping = iStepping;
sys_bCPUHasMMX = bMMX!=0;
sys_bCPUHasCMOV = bCMOV!=0;
sys_iCPUMHz = INDEX(_pTimer->tm_llCPUSpeedHZ/1E6);
if( !bMMX) FatalError( TRANS("MMX support required but not present!"));
}
static void DetectCPUWrapper(void)
{
__try {
DetectCPU();
} __except(EXCEPTION_EXECUTE_HANDLER) {
CPrintF( TRANS("Cannot detect CPU: exception raised.\n"));
}
}
// reverses string
void StrRev( char *str) {
char ctmp;
char *pch0 = str;
char *pch1 = str+strlen(str)-1;
while( pch1>pch0) {
ctmp = *pch0;
*pch0 = *pch1;
*pch1 = ctmp;
pch0++;
pch1--;
}
}
static char strExePath[MAX_PATH] = "";
static char strDirPath[MAX_PATH] = "";
static void AnalyzeApplicationPath(void)
{
strcpy(strDirPath, "D:\\");
strcpy(strExePath, "D:\\TestExe.xbe");
char strTmpPath[MAX_PATH] = "";
// get full path to the exe
GetModuleFileNameA( NULL, strExePath, sizeof(strExePath)-1);
// copy that to the path
strncpy(strTmpPath, strExePath, sizeof(strTmpPath)-1);
strDirPath[sizeof(strTmpPath)-1] = 0;
// remove name from application path
StrRev(strTmpPath);
// find last backslash
char *pstr = strchr( strTmpPath, '\\');
if( pstr==NULL) {
// not found - path is just "\"
strcpy( strTmpPath, "\\");
pstr = strTmpPath;
}
// remove 'debug' from app path if needed
if( strnicmp( pstr, "\\gubed", 6)==0) pstr += 6;
if( pstr[0] = '\\') pstr++;
char *pstrFin = strchr( pstr, '\\');
if( pstrFin==NULL) {
strcpy( pstr, "\\");
pstrFin = pstr;
}
// copy that to the path
StrRev(pstrFin);
strncpy( strDirPath, pstrFin, sizeof(strDirPath)-1);
strDirPath[sizeof(strDirPath)-1] = 0;
}
// startup engine
ENGINE_API void SE_InitEngine(CTString strGameID)
{
#pragma message(">> Remove this from SE_InitEngine : _bWorldEditorApp")
if(strGameID=="SeriousEditor") {
_bWorldEditorApp = TRUE;
}
AnalyzeApplicationPath();
_fnmApplicationPath = CTString(strDirPath);
_fnmApplicationExe = CTString(strExePath);
try {
_fnmApplicationExe.RemoveApplicationPath_t();
} catch (char *strError) {
(void) strError;
ASSERT(FALSE);
}
_pConsole = new CConsole;
if (_strLogFile=="") {
_strLogFile = CTFileName(CTString(strExePath)).FileName();
}
_pConsole->Initialize(_fnmApplicationPath+_strLogFile+".log", 90, 512);
_pAnimStock = new CStock_CAnimData;
_pTextureStock = new CStock_CTextureData;
_pSoundStock = new CStock_CSoundData;
_pModelStock = new CStock_CModelData;
_pEntityClassStock = new CStock_CEntityClass;
_pMeshStock = new CStock_CMesh;
_pSkeletonStock = new CStock_CSkeleton;
_pAnimSetStock = new CStock_CAnimSet;
_pShaderStock = new CStock_CShader;
_pTimer = new CTimer;
_pGfx = new CGfxLibrary;
_pSound = new CSoundLibrary;
_pInput = new CInput;
_pNetwork = new CNetworkLibrary;
CRCT_Init();
_strEngineBuild.PrintF( TRANS("SeriousEngine Build: %d.%d"), _SE_BUILD_MAJOR, _SE_BUILD_MINOR);
// print basic engine info
CPrintF(TRANS("--- Serious Engine Startup ---\n"));
CPrintF(" %s\n\n", _strEngineBuild);
// print info on the started application
CPrintF(TRANS("Executable: %s\n"), strExePath);
CPrintF(TRANS("Assumed engine directory: %s\n"), _fnmApplicationPath);
CPrintF("\n");
// report os info
CPrintF(TRANS("Examining underlying OS...\n"));
OSVERSIONINFOA osv;
memset(&osv, 0, sizeof(osv));
osv.dwOSVersionInfoSize = sizeof(osv);
if (GetVersionExA(&osv)) {
switch (osv.dwPlatformId) {
case VER_PLATFORM_WIN32s: sys_strOS = "Win32s"; break;
case VER_PLATFORM_WIN32_WINDOWS: sys_strOS = "Win9x"; break;
case VER_PLATFORM_WIN32_NT: sys_strOS = "WinNT"; break;
default: sys_strOS = "Unknown\n"; break;
}
sys_iOSMajor = osv.dwMajorVersion;
sys_iOSMinor = osv.dwMinorVersion;
sys_iOSBuild = osv.dwBuildNumber & 0xFFFF;
sys_strOSMisc = osv.szCSDVersion;
CPrintF(TRANS(" Type: %s\n"), (const char*)sys_strOS);
CPrintF(TRANS(" Version: %d.%d, build %d\n"),
osv.dwMajorVersion, osv.dwMinorVersion, osv.dwBuildNumber & 0xFFFF);
CPrintF(TRANS(" Misc: %s\n"), osv.szCSDVersion);
} else {
CPrintF(TRANS("Error getting OS info: %s\n"), GetWindowsError(GetLastError()) );
}
CPrintF("\n");
// init main shell
_pShell = new CShell;
_pShell->Initialize();
// report CPU
CPrintF(TRANS("Detecting CPU...\n"));
DetectCPUWrapper();
CPrintF("\n");
// report memory info
extern void ReportGlobalMemoryStatus(void);
ReportGlobalMemoryStatus();
MEMORYSTATUS ms;
GlobalMemoryStatus(&ms);
#define MB (1024*1024)
sys_iRAMPhys = ms.dwTotalPhys /MB;
sys_iRAMSwap = ms.dwTotalPageFile/MB;
// initialize zip semaphore
zip_csLock.cs_iIndex = -1; // not checked for locking order
// get info on the first disk in system
DWORD dwSerial;
DWORD dwFreeClusters;
DWORD dwClusters;
DWORD dwSectors;
DWORD dwBytes;
char strDrive[] = "C:\\";
strDrive[0] = strExePath[0];
GetVolumeInformationA(strDrive, NULL, 0, &dwSerial, NULL, NULL, NULL, 0);
GetDiskFreeSpaceA(strDrive, &dwSectors, &dwBytes, &dwFreeClusters, &dwClusters);
sys_iHDDSize = __int64(dwSectors)*dwBytes*dwClusters/MB;
sys_iHDDFree = __int64(dwSectors)*dwBytes*dwFreeClusters/MB;
sys_iHDDMisc = dwSerial;
// add console variables
extern INDEX con_bNoWarnings;
extern INDEX wld_bFastObjectOptimization;
extern INDEX fil_bPreferZips;
extern FLOAT mth_fCSGEpsilon;
_pShell->DeclareSymbol("user INDEX con_bNoWarnings;", &con_bNoWarnings);
_pShell->DeclareSymbol("user INDEX wld_bFastObjectOptimization;", &wld_bFastObjectOptimization);
_pShell->DeclareSymbol("user FLOAT mth_fCSGEpsilon;", &mth_fCSGEpsilon);
_pShell->DeclareSymbol("persistent user INDEX fil_bPreferZips;", &fil_bPreferZips);
// OS info
_pShell->DeclareSymbol("user const CTString sys_strOS ;", &sys_strOS);
_pShell->DeclareSymbol("user const INDEX sys_iOSMajor ;", &sys_iOSMajor);
_pShell->DeclareSymbol("user const INDEX sys_iOSMinor ;", &sys_iOSMinor);
_pShell->DeclareSymbol("user const INDEX sys_iOSBuild ;", &sys_iOSBuild);
_pShell->DeclareSymbol("user const CTString sys_strOSMisc;", &sys_strOSMisc);
// CPU info
_pShell->DeclareSymbol("user const CTString sys_strCPUVendor;", &sys_strCPUVendor);
_pShell->DeclareSymbol("user const INDEX sys_iCPUType ;", &sys_iCPUType );
_pShell->DeclareSymbol("user const INDEX sys_iCPUFamily ;", &sys_iCPUFamily );
_pShell->DeclareSymbol("user const INDEX sys_iCPUModel ;", &sys_iCPUModel );
_pShell->DeclareSymbol("user const INDEX sys_iCPUStepping ;", &sys_iCPUStepping);
_pShell->DeclareSymbol("user const INDEX sys_bCPUHasMMX ;", &sys_bCPUHasMMX );
_pShell->DeclareSymbol("user const INDEX sys_bCPUHasCMOV ;", &sys_bCPUHasCMOV );
_pShell->DeclareSymbol("user const INDEX sys_iCPUMHz ;", &sys_iCPUMHz );
_pShell->DeclareSymbol(" const INDEX sys_iCPUMisc ;", &sys_iCPUMisc );
// RAM info
_pShell->DeclareSymbol("user const INDEX sys_iRAMPhys;", &sys_iRAMPhys);
_pShell->DeclareSymbol("user const INDEX sys_iRAMSwap;", &sys_iRAMSwap);
_pShell->DeclareSymbol("user const INDEX sys_iHDDSize;", &sys_iHDDSize);
_pShell->DeclareSymbol("user const INDEX sys_iHDDFree;", &sys_iHDDFree);
_pShell->DeclareSymbol(" const INDEX sys_iHDDMisc;", &sys_iHDDMisc);
// MOD info
_pShell->DeclareSymbol("user const CTString sys_strModName;", &sys_strModName);
_pShell->DeclareSymbol("user const CTString sys_strModExt;", &sys_strModExt);
// Stock clearing
extern void FreeUnusedStock(void);
_pShell->DeclareSymbol("user void FreeUnusedStock(void);", &FreeUnusedStock);
// Timer tick quantum
_pShell->DeclareSymbol("user const FLOAT fTickQuantum;", (FLOAT*)&_pTimer->TickQuantum);
// init MODs and stuff ...
extern void InitStreams(void);
InitStreams();
// keep mod name in sys cvar
sys_strModName = _strModName;
sys_strModExt = _strModExt;
// checking of crc
#if 0
ULONG ulCRCActual = -2;
SLONG ulCRCExpected = -1;
try {
// get the checksum of engine
#ifndef NDEBUG
#define SELFFILE "Bin\\Debug\\EngineD.dll"
#define SELFCRCFILE "Bin\\Debug\\EngineD.crc"
#else
#define SELFFILE "Bin\\Engine.dll"
#define SELFCRCFILE "Bin\\Engine.crc"
#endif
ulCRCActual = GetFileCRC32_t(CTString(SELFFILE));
// load expected checksum from the file on disk
ulCRCExpected = 0;
LoadIntVar(CTString(SELFCRCFILE), ulCRCExpected);
} catch (char *strError) {
CPrintF("%s\n", strError);
}
// if not same
if (ulCRCActual!=ulCRCExpected) {
// don't run
//FatalError(TRANS("Engine CRC is invalid.\nExpected %08x, but found %08x.\n"), ulCRCExpected, ulCRCActual);
}
#endif
_pInput->Initialize();
_pGfx->Init();
_pSound->Init();
if (strGameID!="") {
_pNetwork->Init(strGameID);
// just make classes declare their shell variables
try {
CEntityClass* pec = _pEntityClassStock->Obtain_t(CTString("Classes\\Player.ecl"));
ASSERT(pec != NULL);
_pEntityClassStock->Release(pec); // this must not be a dependency!
// if couldn't find player class
} catch (char *strError) {
FatalError(TRANS("Cannot initialize classes:\n%s"), strError);
}
} else {
_pNetwork = NULL;
}
// mark that default fonts aren't loaded (yet)
_pfdDisplayFont = NULL;
_pfdConsoleFont = NULL;
// readout system gamma table
HDC hdc = GetDC(NULL);
BOOL bOK = GetDeviceGammaRamp( hdc, &auwSystemGamma[0]);
_pGfx->gl_ulFlags |= GLF_ADJUSTABLEGAMMA;
if( !bOK) {
_pGfx->gl_ulFlags &= ~GLF_ADJUSTABLEGAMMA;
CPrintF( TRANS("\nWARNING: Gamma, brightness and contrast are not adjustable!\n\n"));
} // done
ReleaseDC( NULL, hdc);
// init IFeel
HWND hwnd = NULL;//GetDesktopWindow();
HINSTANCE hInstance = GetModuleHandle(NULL);
if(IFeel_InitDevice(hInstance,hwnd))
{
CTString strDefaultProject = "Data\\Default.ifr";
// get project file name for this device
CTString strIFeel = IFeel_GetProjectFileName();
// if no file name is returned use default file
if(strIFeel.Length()==0) strIFeel = strDefaultProject;
if(!IFeel_LoadFile(strIFeel))
{
if(strIFeel!=strDefaultProject)
{
IFeel_LoadFile(strDefaultProject);
}
}
CPrintF("\n");
}
}
// shutdown entire engine
ENGINE_API void SE_EndEngine(void)
{
// restore system gamma table (if needed)
if( _pGfx->gl_ulFlags&GLF_ADJUSTABLEGAMMA) {
HDC hdc = GetDC(NULL);
BOOL bOK = SetDeviceGammaRamp( hdc, &auwSystemGamma[0]);
//ASSERT(bOK);
ReleaseDC( NULL, hdc);
}
// free stocks
delete _pEntityClassStock; _pEntityClassStock = NULL;
delete _pModelStock; _pModelStock = NULL;
delete _pSoundStock; _pSoundStock = NULL;
delete _pTextureStock; _pTextureStock = NULL;
delete _pAnimStock; _pAnimStock = NULL;
delete _pMeshStock; _pMeshStock = NULL;
delete _pSkeletonStock; _pSkeletonStock = NULL;
delete _pAnimSetStock; _pAnimSetStock = NULL;
delete _pShaderStock; _pShaderStock = NULL;
// free all memory used by the crc cache
CRCT_Clear();
// shutdown
if( _pNetwork != NULL) { delete _pNetwork; _pNetwork=NULL; }
delete _pInput; _pInput = NULL;
delete _pSound; _pSound = NULL;
delete _pGfx; _pGfx = NULL;
delete _pTimer; _pTimer = NULL;
delete _pShell; _pShell = NULL;
delete _pConsole; _pConsole = NULL;
extern void EndStreams(void);
EndStreams();
// shutdown profilers
_sfStats.Clear();
_pfGfxProfile .pf_apcCounters.Clear();
_pfGfxProfile .pf_aptTimers .Clear();
_pfModelProfile .pf_apcCounters.Clear();
_pfModelProfile .pf_aptTimers .Clear();
_pfSoundProfile .pf_apcCounters.Clear();
_pfSoundProfile .pf_aptTimers .Clear();
_pfNetworkProfile .pf_apcCounters.Clear();
_pfNetworkProfile .pf_aptTimers .Clear();
_pfRenderProfile .pf_apcCounters.Clear();
_pfRenderProfile .pf_aptTimers .Clear();
_pfWorldEditingProfile .pf_apcCounters.Clear();
_pfWorldEditingProfile .pf_aptTimers .Clear();
_pfPhysicsProfile .pf_apcCounters.Clear();
_pfPhysicsProfile .pf_aptTimers .Clear();
// remove default fonts if needed
if( _pfdDisplayFont != NULL) { delete _pfdDisplayFont; _pfdDisplayFont=NULL; }
if( _pfdConsoleFont != NULL) { delete _pfdConsoleFont; _pfdConsoleFont=NULL; }
// deinit IFeel
IFeel_DeleteDevice();
}
// prepare and load some default fonts
ENGINE_API void SE_LoadDefaultFonts(void)
{
_pfdDisplayFont = new CFontData;
_pfdConsoleFont = new CFontData;
// try to load default fonts
try {
_pfdDisplayFont->Load_t( CTFILENAME( "Fonts\\Display3-narrow.fnt"));
_pfdConsoleFont->Load_t( CTFILENAME( "Fonts\\Console1.fnt"));
}
catch (char *strError) {
FatalError( TRANS("Error loading font: %s."), strError);
}
// change fonts' default spacing a bit
_pfdDisplayFont->SetCharSpacing( 0);
_pfdDisplayFont->SetLineSpacing(+1);
_pfdConsoleFont->SetCharSpacing(-1);
_pfdConsoleFont->SetLineSpacing(+1);
_pfdConsoleFont->SetFixedWidth();
}
// updates main windows' handles for windowed mode and fullscreen
ENGINE_API void SE_UpdateWindowHandle( HWND hwndMain)
{
ASSERT( hwndMain!=NULL);
_hwndMain = hwndMain;
_bFullScreen = _pGfx!=NULL && (_pGfx->gl_ulFlags&GLF_FULLSCREEN);
}
static BOOL TouchBlock(UBYTE *pubMemoryBlock, INDEX ctBlockSize)
{
// cannot pretouch block that are smaller than 64KB :(
ctBlockSize -= 16*0x1000;
if( ctBlockSize<4) return FALSE;
__try {
// 4 times should be just enough
for( INDEX i=0; i<4; i++) {
// must do it in asm - don't know what VC will try to optimize
__asm {
// The 16-page skip is to keep Win 95 from thinking we're trying to page ourselves in
// (we are doing that, of course, but there's no reason we shouldn't) - THANX JOHN! :)
mov esi,dword ptr [pubMemoryBlock]
mov ecx,dword ptr [ctBlockSize]
shr ecx,2
touchLoop:
mov eax,dword ptr [esi]
mov ebx,dword ptr [esi+16*0x1000]
add eax,ebx // BLA, BLA, TROOCH, TRUCH
add esi,4
dec ecx
jnz touchLoop
}
}
}
__except(EXCEPTION_EXECUTE_HANDLER) {
return FALSE;
}
return TRUE;
}
// pretouch all memory commited by process
extern BOOL _bNeedPretouch = FALSE;
ENGINE_API extern void SE_PretouchIfNeeded(void)
{
// only if pretouching is needed?
extern INDEX gam_bPretouch;
if( !_bNeedPretouch || !gam_bPretouch) return;
_bNeedPretouch = FALSE;
// set progress bar
SetProgressDescription( TRANS("pretouching"));
CallProgressHook_t(0.0f);
// need to do this two times - 1st for numerations, and 2nd for real (progress bar and that shit)
BOOL bPretouched = TRUE;
INDEX ctFails, ctBytes, ctBlocks;
INDEX ctPassBytes, ctTotalBlocks;
for( INDEX iPass=1; iPass<=2; iPass++)
{
// flush variables
ctFails=0; ctBytes=0; ctBlocks=0; ctTotalBlocks=0;
void *pvNextBlock = NULL;
MEMORY_BASIC_INFORMATION mbi;
// lets walk thru memory blocks
while( VirtualQuery( pvNextBlock, &mbi, sizeof(mbi)))
{
// don't mess with kernel's memory and zero-sized blocks
if( ((ULONG)pvNextBlock)>0x7FFF0000UL || mbi.RegionSize<1) break;
// if this region of memory belongs to our process
BOOL bCanAccess = (mbi.Protect==PAGE_READWRITE); // || (mbi.Protect==PAGE_EXECUTE_READWRITE);
if( mbi.State==MEM_COMMIT && bCanAccess && mbi.Type==MEM_PRIVATE) // && !IsBadReadPtr( mbi.BaseAddress, 1)
{
// increase counters
ctBlocks++;
ctBytes += mbi.RegionSize;
// in first pass we only count
if( iPass==1) goto nextRegion;
// update progress bar
CallProgressHook_t( (FLOAT)ctBytes/ctPassBytes);
// pretouch
ASSERT( mbi.RegionSize>0);
BOOL bOK = TouchBlock((UBYTE *)mbi.BaseAddress, mbi.RegionSize);
if( !bOK) {
// whoops!
ctFails++;
}
// for easier debugging (didn't help much, though)
//Sleep(5);
}
nextRegion:
// advance to next region
pvNextBlock = ((UBYTE*)mbi.BaseAddress) + mbi.RegionSize;
ctTotalBlocks++;
}
// done with one pass
ctPassBytes = ctBytes;
if( (ctPassBytes/1024/1024)>sys_iRAMPhys) {
// not enough RAM, sorry :(
bPretouched = FALSE;
break;
}
}
// report
if( bPretouched) {
// success
CPrintF( TRANS("Pretouched %d KB of memory in %d blocks.\n"), ctBytes/1024, ctBlocks); //, ctTotalBlocks);
} else {
// fail
CPrintF( TRANS("Cannot pretouch due to lack of physical memory (%d KB of overflow).\n"), ctPassBytes/1024-sys_iRAMPhys*1024);
}
// some blocks failed?
if( ctFails>1) CPrintF( TRANS("(%d blocks were skipped)\n"), ctFails);
//_pShell->Execute("StockDump();");
}
#if 0
// printout block info
CPrintF("--------\n");
CTString strTmp1, strTmp2;
CPrintF("Base/Alloc Address: 0x%8X / 0x%8X - Size: %d KB\n", mbi.BaseAddress, mbi.AllocationBase, mbi.RegionSize/1024);
switch( mbi.Protect) {
case PAGE_READONLY: strTmp1 = "PAGE_READONLY"; break;
case PAGE_READWRITE: strTmp1 = "PAGE_READWRITE"; break;
case PAGE_WRITECOPY: strTmp1 = "PAGE_WRITECOPY"; break;
case PAGE_EXECUTE: strTmp1 = "PAGE_EXECUTE"; break;
case PAGE_EXECUTE_READ: strTmp1 = "PAGE_EXECUTE_READ"; break;
case PAGE_EXECUTE_READWRITE: strTmp1 = "PAGE_EXECUTE_READWRITE"; break;
case PAGE_GUARD: strTmp1 = "PAGE_GUARD"; break;
case PAGE_NOACCESS: strTmp1 = "PAGE_NOACCESS"; break;
case PAGE_NOCACHE: strTmp1 = "PAGE_NOCACHE"; break;
}
switch( mbi.AllocationProtect) {
case PAGE_READONLY: strTmp2 = "PAGE_READONLY"; break;
case PAGE_READWRITE: strTmp2 = "PAGE_READWRITE"; break;
case PAGE_WRITECOPY: strTmp2 = "PAGE_WRITECOPY"; break;
case PAGE_EXECUTE: strTmp2 = "PAGE_EXECUTE"; break;
case PAGE_EXECUTE_READ: strTmp2 = "PAGE_EXECUTE_READ"; break;
case PAGE_EXECUTE_READWRITE: strTmp2 = "PAGE_EXECUTE_READWRITE"; break;
case PAGE_GUARD: strTmp2 = "PAGE_GUARD"; break;
case PAGE_NOACCESS: strTmp2 = "PAGE_NOACCESS"; break;
case PAGE_NOCACHE: strTmp2 = "PAGE_NOCACHE"; break;
}
CPrintF("Current/Alloc protect: %s / %s\n", strTmp1, strTmp2);
switch( mbi.State) {
case MEM_COMMIT: strTmp1 = "MEM_COMMIT"; break;
case MEM_FREE: strTmp1 = "MEM_FREE"; break;
case MEM_RESERVE: strTmp1 = "MEM_RESERVE"; break;
}
switch( mbi.Type) {
case MEM_IMAGE: strTmp2 = "MEM_IMAGE"; break;
case MEM_MAPPED: strTmp2 = "MEM_MAPPED"; break;
case MEM_PRIVATE: strTmp2 = "MEM_PRIVATE"; break;
}
CPrintF("State/Type: %s / %s\n", strTmp1, strTmp2);
#endif