Leaked source code of windows server 2003
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24 KiB

// Created 07-Jan-1993 11:20am by Jeff Parsons
#include "shellprv.h"
#pragma hdrstop
#include <setupapi.h>
#ifdef _X86_
const TCHAR szRegKeyMSDOSApps[] = REGSTR_PATH_NEWDOSBOX;
const TCHAR szParams[] = KEY_PARAMS;
const TCHAR szBatchFile[] = KEY_BATCHFILE;
const TCHAR szLowMem[] = KEY_LOWMEM;
const TCHAR szEmsMem[] = KEY_EMSMEM;
const TCHAR szXmsMem[] = KEY_XMSMEM;
const TCHAR szDpmiMem[] = KEY_DPMIMEM;
const TCHAR szEnable[] = KEY_ENABLE;
const TCHAR szDisable[] = KEY_DISABLE;
const TCHAR szWindowed[] = KEYVAL_WINDOWED;
const TCHAR szBackground[] = KEYVAL_BACKGROUND;
const TCHAR szExclusive[] = KEYVAL_EXCLUSIVE;
const TCHAR szDetectIdle[] = KEYVAL_DETECTIDLE;
const TCHAR szLowLocked[] = KEYVAL_LOWLOCKED;
const TCHAR szEMSLocked[] = KEYVAL_EMSLOCKED;
const TCHAR szXMSLocked[] = KEYVAL_XMSLOCKED;
const TCHAR szUseHMA[] = KEYVAL_USEHMA;
const TCHAR szEmulateROM[] = KEYVAL_EMULATEROM;
const TCHAR szRetainVRAM[] = KEYVAL_RETAINVRAM;
const TCHAR szFastPaste[] = KEYVAL_FASTPASTE;
const TCHAR szALTTAB[] = KEYVAL_ALTTAB;
const TCHAR szALTESC[] = KEYVAL_ALTESC;
const TCHAR szCTRLESC[] = KEYVAL_CTRLESC;
const TCHAR szPRTSCRN[] = KEYVAL_PRTSCRN;
const TCHAR szALTPRTSCRN[] = KEYVAL_ALTPRTSCRN;
const TCHAR szALTSPACE[] = KEYVAL_ALTSPACE;
const TCHAR szALTENTER[] = KEYVAL_ALTENTER;
const TCHAR szWinLie[] = KEYVAL_WINLIE;
const TCHAR szGlobalMem[] = KEYVAL_GLOBALMEM;
const TCHAR szRealMode[] = KEYVAL_REALMODE;
const TCHAR szMouse[] = KEYVAL_MOUSE;
const TCHAR szEMS[] = KEYVAL_EMS;
const TCHAR szCDROM[] = KEYVAL_CDROM;
const TCHAR szNetwork[] = KEYVAL_NETWORK;
const TCHAR szDiskLock[] = KEYVAL_DISKLOCK;
const TCHAR szPrivateCFG[] = KEYVAL_PRIVATECFG;
const TCHAR szCloseOnExit[] = KEYVAL_CLOSEONEXIT;
const TCHAR szAllowSSaver[] = KEYVAL_ALLOWSSAVER;
const TCHAR szUniqueSettings[] = KEYVAL_UNIQUESETTINGS;
const LPCTSTR apszKey[] = {
szParams,
szBatchFile,
szLowMem,
szEmsMem,
szXmsMem,
szDpmiMem,
szEnable,
szDisable,
};
const LPCTSTR apszKeyVal[] = {
szWindowed, // abKeyValIDBits[0]
szBackground, // abKeyValIDBits[1]
szExclusive, // abKeyValIDBits[2]
szDetectIdle, // abKeyValIDBits[3]
szLowLocked, // abKeyValIDBits[4]
szEMSLocked, // abKeyValIDBits[5]
szXMSLocked, // abKeyValIDBits[6]
szUseHMA, // abKeyValIDBits[7]
szEmulateROM, // abKeyValIDBits[8]
szRetainVRAM, // abKeyValIDBits[9]
szFastPaste, // abKeyValIDBits[10]
szALTTAB, // abKeyValIDBits[11]
szALTESC, // abKeyValIDBits[12]
szCTRLESC, // abKeyValIDBits[13]
szPRTSCRN, // abKeyValIDBits[14]
szALTPRTSCRN, // abKeyValIDBits[15]
szALTSPACE, // abKeyValIDBits[16]
szALTENTER, // abKeyValIDBits[17]
szWinLie, // abKeyValIDBits[18]
szGlobalMem, // abKeyValIDBits[19]
szRealMode, // abKeyValIDBits[20]
szMouse, // abRMKeyValIDBits[0]
szEMS, // abRMKeyValIDBits[1]
szCDROM, // abRMKeyValIDBits[2]
szNetwork, // abRMKeyValIDBits[3]
szDiskLock, // abRMKeyValIDBits[4]
szPrivateCFG, // abRMKeyValIDBits[5]
szCloseOnExit, // special case 0 (see "special case 0" below)
szAllowSSaver, // special case 1 (see "special case 1" below)
szUniqueSettings, // Never transferred to PIF - Used to populate registry
};
// Array of bit numbers that must be kept in sync with KEYVALIDs
//
// 0x80 means bit must be inverted
// 0x40 means bit must be set in PfW386Flags2 instead of PfW386Flags
const BYTE abKeyValIDBits[] = {
BITNUM(fFullScreen) | 0x80,
BITNUM(fBackground),
BITNUM(fExclusive),
BITNUM(fPollingDetect),
BITNUM(fVMLocked),
BITNUM(fEMSLocked),
BITNUM(fXMSLocked),
BITNUM(fNoHMA) | 0x80,
BITNUM(fVidTxtEmulate) | 0x40,
BITNUM(fVidRetainAllo) | 0x40,
BITNUM(fINT16Paste),
BITNUM(fALTTABdis) | 0x80,
BITNUM(fALTESCdis) | 0x80,
BITNUM(fCTRLESCdis) | 0x80,
BITNUM(fPRTSCdis) | 0x80,
BITNUM(fALTPRTSCdis) | 0x80,
BITNUM(fALTSPACEdis) | 0x80,
BITNUM(fALTENTERdis) | 0x80,
BITNUM(fWinLie),
BITNUM(fGlobalProtect),
BITNUM(fRealMode),
};
const BYTE abRMKeyValIDBits[] = {
BITNUM(RMOPT_MOUSE),
BITNUM(RMOPT_EMS),
BITNUM(RMOPT_CDROM),
BITNUM(RMOPT_NETWORK),
BITNUM(RMOPT_DISKLOCK),
BITNUM(RMOPT_PRIVATECFG),
BITNUM(RMOPT_VESA),
};
// FEATURE: other bits to be supported (maybe):
// WIN_TOOLBAR,
// WIN_SAVESETTINGS,
// MSE_WINDOWENABLE | 0x80,
// MSE_EXCLUSIVE,
// TSK_NOWARNTERMINATE | 0x80,
void InitWorkDir(PPROPLINK ppl, LPPROPPRG lpPrg, LPPROPNT40 lpnt40)
{
int i;
if (lpnt40)
{
lstrcpyn((LPTSTR)lpnt40->awchWorkDir,
ppl->szPathName,
min(ARRAYSIZE(lpnt40->awchWorkDir),ppl->iFileName+1));
// Working directories like C:\ are ok, but C:\FOO\ are not,
// so remove trailing '\' in that case
i = lstrlen((LPTSTR)lpnt40->awchWorkDir)-1;
if (i > 2 && lpnt40->awchWorkDir[i] == TEXT('\\'))
lpnt40->awchWorkDir[i] = TEXT('\0');
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchWorkDir, -1, lpPrg->achWorkDir, ARRAYSIZE(lpPrg->achWorkDir), NULL, NULL );
}
else
{
WideCharToMultiByte( CP_ACP, 0,
ppl->szPathName,
min(ARRAYSIZE(lpPrg->achWorkDir),ppl->iFileName+1),
(LPSTR)lpPrg->achWorkDir,
ARRAYSIZE(lpPrg->achWorkDir),
NULL,
NULL
);
// Working directories like C:\ are ok, but C:\FOO\ are not,
// so remove trailing '\' in that case
i = lstrlenA(lpPrg->achWorkDir)-1;
if (i > 2 && lpPrg->achWorkDir[i] == '\\')
lpPrg->achWorkDir[i] = '\0';
}
}
BOOL FAR GetAppsInfData(PPROPLINK ppl, LPPROPPRG lpPrg, LPPROPNT40 lpnt40, HINF hInf, LPCTSTR lpszApp, BOOL fNotAmbiguous, int flOpt)
{
HINF hinfApps;
int id, i;
TCHAR szTmp[MAX_PATH];
TCHAR szPIFSection[MAX_KEY_SIZE];
BOOL fSuccess = FALSE;
INFCONTEXT InfContext;
DWORD dwSize;
FunctionName(GetAppsInfData);
//
// Although not strictly part of INF processing, it's most
// convenient here to search for any ICO file that might exist
// in the same directory as the app, and select it for our default icon.
//
lstrcpyn(szTmp, ppl->szPathName, ppl->iFileExt+1);
lstrcpy(szTmp + ppl->iFileExt, TEXT(".ICO"));
if ((int)GetFileAttributes(szTmp) != -1) {
StringCchCopy((LPTSTR)lpnt40->awchIconFile, ARRAYSIZE(lpnt40->awchIconFile), szTmp);
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchIconFile, -1, lpPrg->achIconFile, ARRAYSIZE(lpPrg->achIconFile), NULL, NULL );
lpPrg->wIconIndex = 0;
PifMgr_SetProperties(ppl, MAKELP(0,GROUP_PRG),
lpPrg, SIZEOF(*lpPrg), SETPROPS_CACHE);
PifMgr_SetProperties(ppl, MAKELP(0,GROUP_NT40),
lpnt40, SIZEOF(*lpnt40), SETPROPS_CACHE);
}
if (hInf)
hinfApps = hInf;
else
hinfApps = SetupOpenInfFileW(LoadStringSafe(NULL,
IDS_APPSINF,
szTmp,
ARRAYSIZE(szTmp)),
0, INF_STYLE_WIN4, NULL );
if (hinfApps==INVALID_HANDLE_VALUE) {
id = IDS_CANTOPENAPPSINF;
if (GetLastError()==ERROR_FILE_NOT_FOUND)
id = IDS_NOAPPSINF;
Warning((HWND)ppl, (WORD)id, MB_ICONEXCLAMATION | MB_OK | MB_NOFOCUS);
goto CloseDLL;
}
// OK, now we have APPS.INF open, so let's bounce around the [pif95]
// section and try to find the app of interest.
if (!SetupFindFirstLine(hinfApps, TEXT("pif95"), NULL, &InfContext)) {
Warning((HWND)ppl, IDS_APPSINFERROR, MB_ICONEXCLAMATION | MB_OK | MB_NOFOCUS);
goto CloseInf;
}
// OK, we've found the [pif95] section, so let's go to it
do {
if (!SetupGetStringFieldW(&InfContext, APPSINF_FILENAME, szTmp, ARRAYSIZE(szTmp), &dwSize))
continue;
// We need to read the rest of the fields now, before we do any
// more processing, because otherwise we lose our place in the file
if (lstrcmpi(szTmp, ppl->szPathName+ppl->iFileName) == 0) {
// See if Other File was specified, and then make sure it
// exists. If it doesn't, then we need to continue the search.
// Initialize szTmp with only the path portion of the app's
// fully-qualified name. Giving lstrcpyn a length of iFileName+1
// insures that szTmp[ppl->iFileName] will be NULL.
lstrcpyn(szTmp, ppl->szPathName, ppl->iFileName+1);
SetupGetStringFieldW(&InfContext, APPSINF_OTHERFILE,
&szTmp[ppl->iFileName], ARRAYSIZE(lpPrg->achOtherFile), &dwSize);
// If szTmp[ppl->iFileName] is no longer NULL, then
// GetStringField filled it in. See if the file exists.
if (szTmp[ppl->iFileName]) {
if ((int)GetFileAttributes(szTmp) == -1)
continue; // Other File didn't exist, continue search
}
// If the PIF data we have is ambiguous, and it has already
// been initialized with data from this APPS.INF entry, then just
// leave the PIF data alone and LEAVE.
if (lpPrg->flPrgInit & PRGINIT_AMBIGUOUSPIF) {
if (lstrcmpi((LPWSTR)lpnt40->awchOtherFile, szTmp+ppl->iFileName) == 0) {
if (!szTmp[ppl->iFileName]) {
// The comparison was inconclusive; both filenames
// are blank. See if the filename contained in
// lpPrg->achCmdLine matches lpszApp; if not, again
// we should fail the search.
//
// It's ok to whack lpPrg->achCmdLine with a null;
// OpenProperties (our only caller) doesn't depend on
// that data in lpPrg.
lpnt40->awchCmdLine[lstrskipfnameA(lpPrg->achCmdLine)] = L'\0';
if (lstrcmpi((LPWSTR)lpnt40->awchCmdLine, lpszApp) != 0)
goto CloseInf; // unsuccessful search
}
fSuccess++; // successful search
}
// Otherwise, this APPS.INF entry isn't a match, implying
// some of the PIF's settings don't really apply. We need
// to fail this search, get back to OpenProperties, look ONLY
// for _DEFAULT.PIF, and let it try to call GetAppsInfData
// one more time.
goto CloseInf;
}
// Otherwise, update Other File. THIS is the APPS.INF entry
// we're going to use!
StringCchCopy((LPWSTR)lpnt40->awchOtherFile, ARRAYSIZE(lpnt40->awchOtherFile), szTmp + ppl->iFileName);
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchOtherFile, -1, lpPrg->achOtherFile, ARRAYSIZE( lpPrg->achOtherFile ), NULL, NULL );
SetupGetStringFieldW(&InfContext, APPSINF_TITLE, (LPWSTR)lpnt40->awchTitle, ARRAYSIZE(lpnt40->awchTitle), &dwSize);
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchTitle, -1, lpPrg->achTitle, ARRAYSIZE( lpPrg->achTitle ), NULL, NULL );
StringCchCopy((LPWSTR)lpnt40->awchCmdLine, ARRAYSIZE(lpnt40->awchCmdLine), lpszApp);
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchCmdLine, -1, lpPrg->achCmdLine, ARRAYSIZE( lpPrg->achCmdLine ), NULL, NULL );
i = 0;
SetupGetIntField(&InfContext, APPSINF_NOWORKDIR, &i);
// Only set the working directory if "NoWorkDir" in the INF
// is FALSE and no working directory was supplied by the caller.
if (i == 0 && !lpnt40->awchWorkDir[0]) {
// No hard-coded working directory, so let's provide one
InitWorkDir(ppl, lpPrg, lpnt40);
}
szTmp[0] = 0;
SetupGetStringFieldW(&InfContext, APPSINF_ICONFILE, szTmp, ARRAYSIZE(szTmp), &dwSize);
if (!szTmp[0])
StringCchCopy(szTmp, ARRAYSIZE(szTmp), TEXT("SHELL32.DLL"));
i = 0;
SetupGetIntField(&InfContext, APPSINF_ICONINDEX, &i);
// Update the icon info now, if it's valid
if (i != 0) {
StringCchCopy((LPWSTR)lpnt40->awchIconFile, ARRAYSIZE(lpnt40->awchIconFile), szTmp);
WideCharToMultiByte( CP_ACP, 0, (LPWSTR)lpnt40->awchIconFile, -1, lpPrg->achIconFile, ARRAYSIZE( lpPrg->achIconFile ), NULL, NULL );
lpPrg->wIconIndex = (WORD) i;
}
SetupGetStringFieldW(&InfContext, APPSINF_SECTIONID,
szPIFSection, ARRAYSIZE(szPIFSection), &dwSize);
szTmp[0] = TEXT('\0');
SetupGetStringFieldW(&InfContext, APPSINF_NOPIF,
szTmp, ARRAYSIZE(szTmp), &dwSize);
// This code used to set INHBITPIF if the app was NOT on a
// fixed disk, knowing that we would otherwise try to create
// a PIF in the PIF directory instead of the app's directory;
// in other words, NOPIF really meant "no PIF in the PIF
// directory please, because this app is ambiguously named".
// Now, we want to always allow PIF creation, so the user
// always has a place to save properties for an app. But we
// also need to propagate the old NOPIF flag to AMBIGUOUSPIF,
// so that we'll always check to see if the PIF should be
// regenerated (based on the presence of a NEW Other File).
lpPrg->flPrgInit &= ~PRGINIT_AMBIGUOUSPIF;
if (!fNotAmbiguous && szTmp[0] == TEXT('1'))
lpPrg->flPrgInit |= PRGINIT_AMBIGUOUSPIF;
if (flOpt & OPENPROPS_FORCEREALMODE)
lpPrg->flPrgInit |= PRGINIT_REALMODE;
// Time to dirty those properties!
PifMgr_SetProperties(ppl, MAKELP(0,GROUP_PRG),
lpPrg, SIZEOF(*lpPrg), SETPROPS_CACHE);
PifMgr_SetProperties(ppl, MAKELP(0,GROUP_NT40),
lpnt40, SIZEOF(*lpnt40), SETPROPS_CACHE);
GetAppsInfSectionData(&InfContext, APPSINF_DEFAULT_SECTION, ppl);
if (*szPIFSection)
GetAppsInfSectionData(&InfContext, szPIFSection, ppl);
// Make a note that we found INF settings (appwiz cares)
ppl->flProp |= PROP_INFSETTINGS;
// GetAppsInfSectionData affects program props, so get fresh copy
PifMgr_GetProperties(ppl, MAKELP(0,GROUP_PRG),
lpPrg, SIZEOF(*lpPrg), GETPROPS_NONE);
// Now call appwiz in "silent configuration mode", to create the
// per-app config and autoexec images, if app runs in real mode;
// BUT don't do this if the caller (NOT the INF) specified no PIF,
// to avoid unwanted dialog boxes popping up from appwiz. Yes, I'm
// telling appwiz to be quiet, but sometimes he just can't contain
// himself (ie, silent configuration may not be possible given the
// the real-mode configuration required).
if (!(ppl->flProp & PROP_INHIBITPIF)) {
if (lpPrg->flPrgInit & PRGINIT_REALMODE)
AppWizard(NULL, ppl, WIZACTION_SILENTCONFIGPROP);
}
FlushPIFData(ppl, FALSE);
fSuccess++; // successful search
goto CloseInf;
}
} while (SetupFindNextLine(&InfContext, &InfContext));
CloseInf:
if (!hInf)
SetupCloseInfFile(hinfApps);
CloseDLL:
return fSuccess;
}
void GetAppsInfSectionData(PINFCONTEXT pInfContext, LPCTSTR lpszSection, PPROPLINK ppl)
{
int i, j, idKey;
LPSTDPIF lpstd;
LPW386PIF30 lp386;
LPWENHPIF40 lpenh;
TCHAR szVal[MAX_KEYVAL_SIZE];
TCHAR szVal2[MAX_KEYVAL_SIZE];
FunctionName(GetAppsInfSectionData);
if (!SetupFindFirstLineW(pInfContext, lpszSection, NULL, NULL))
return;
ppl->cLocks++;
lpstd = (LPSTDPIF)ppl->lpPIFData;
// lp386 may or may not exist, but we'll create if not
lp386 = GetGroupData(ppl, szW386HDRSIG30, NULL, NULL);
if (!lp386) {
if (AddGroupData(ppl, szW386HDRSIG30, NULL, SIZEOF(W386PIF30))) {
lp386 = GetGroupData(ppl, szW386HDRSIG30, NULL, NULL);
if (!lp386)
goto UnlockPIF;
}
}
// lpenh may or may not exist, but we'll create if not
lpenh = GetGroupData(ppl, szWENHHDRSIG40, NULL, NULL);
if (!lpenh) {
if (AddGroupData(ppl, szWENHHDRSIG40, NULL, SIZEOF(WENHPIF40))) {
lpenh = GetGroupData(ppl, szWENHHDRSIG40, NULL, NULL);
if (!lpenh)
goto UnlockPIF;
}
}
do {
BYTE bInvert;
DWORD dwSize;
idKey = GetKeyID(pInfContext);
if (!SetupGetStringFieldW(pInfContext, APPSINF_KEYVAL, szVal, ARRAYSIZE(szVal), &dwSize))
continue;
szVal2[0] = TEXT('\0');
if (idKey >= KEYID_LOWMEM && idKey <= KEYID_DPMIMEM)
SetupGetStringFieldW(pInfContext, APPSINF_KEYVAL2, szVal2, ARRAYSIZE(szVal2), &dwSize);
bInvert = 0;
switch (idKey)
{
case KEYID_UNKNOWN:
ASSERTFAIL();
break;
case KEYID_NONE:
break;
case KEYID_PARAMS:
{
WCHAR szTmp[ ARRAYSIZE(lp386->PfW386params) ];
MultiByteToWideChar( CP_ACP, 0, (LPSTR)lp386->PfW386params, -1, szTmp, ARRAYSIZE(szTmp) );
SetupGetStringFieldW(pInfContext, APPSINF_KEYVAL, szTmp, SIZEOF(lp386->PfW386params), &dwSize);
}
break;
case KEYID_BATCHFILE:
break;
case KEYID_LOWMEM:
if (!lstrcmpi(szVal, g_szAuto))
lp386->PfW386minmem = 0xFFFF;
else
lp386->PfW386minmem = (WORD) StrToInt(szVal);
if (!szVal2[0])
lp386->PfW386maxmem = 0xFFFF;
else
lp386->PfW386maxmem = (WORD) StrToInt(szVal2);
break;
case KEYID_EMSMEM:
if (!lstrcmpi(szVal, g_szNone)) {
lp386->PfMaxEMMK = lp386->PfMinEMMK = 0;
}
if (!lstrcmpi(szVal, g_szAuto)) {
lp386->PfMinEMMK = 0;
lp386->PfMaxEMMK = 0xFFFF;
}
else
lp386->PfMaxEMMK = lp386->PfMinEMMK = (WORD) StrToInt(szVal);
if (szVal2[0])
lp386->PfMaxEMMK = (WORD) StrToInt(szVal2);
break;
case KEYID_XMSMEM:
if (!lstrcmpi(szVal, g_szNone)) {
lp386->PfMaxXmsK = lp386->PfMinXmsK = 0;
}
if (!lstrcmpi(szVal, g_szAuto)) {
lp386->PfMinXmsK = 0;
lp386->PfMaxXmsK = 0xFFFF;
}
else
lp386->PfMaxXmsK = lp386->PfMinXmsK = (WORD) StrToInt(szVal);
if (szVal2[0])
lp386->PfMaxXmsK = (WORD) StrToInt(szVal2);
break;
case KEYID_DPMIMEM:
if (!lstrcmpi(szVal, g_szAuto))
lpenh->envProp.wMaxDPMI = 0;
else
lpenh->envProp.wMaxDPMI = (WORD) StrToInt(szVal);
break;
case KEYID_DISABLE:
bInvert = 0x80;
// fall into KEYID_ENABLE...
case KEYID_ENABLE:
for (i=1; 0 != (j = GetKeyValID(pInfContext, i)); i++)
{
int s;
BYTE b;
if (j == KEYVAL_ID_UNKNOWN) {
ASSERTFAIL();
continue;
}
if (j == KEYVAL_ID_UNIQUESETTINGS) {
continue;
}
j--;
if (j < ARRAYSIZE(abKeyValIDBits)) {
b = abKeyValIDBits[j];
s = b & 0x3F;
b ^= bInvert;
if (!(b & 0x80)) {
if (!(b & 0x40)) {
lp386->PfW386Flags |= 1L << s;
}
else
lp386->PfW386Flags2 |= 1L << s;
}
else {
if (!(b & 0x40))
lp386->PfW386Flags &= ~(1L << s);
else
lp386->PfW386Flags2 &= ~(1L << s);
}
}
else {
j -= ARRAYSIZE(abKeyValIDBits);
if (j < ARRAYSIZE(abRMKeyValIDBits)) {
b = abRMKeyValIDBits[j];
s = b & 0x3F;
b ^= bInvert;
if (!(b & 0x80))
lpenh->dwRealModeFlagsProp |= 1L << s;
else
lpenh->dwRealModeFlagsProp &= ~(1L << s);
}
else {
j -= ARRAYSIZE(abRMKeyValIDBits);
switch(j) {
case 0: // special case 0
if (!bInvert)
lpstd->MSflags |= EXITMASK;
else
lpstd->MSflags &= ~EXITMASK;
break;
case 1: // special case 1
if (bInvert)
lpenh->tskProp.flTsk |= TSK_NOSCREENSAVER;
else
lpenh->tskProp.flTsk &= ~TSK_NOSCREENSAVER;
break;
default:
ASSERTFAIL();
break;
}
}
}
}
break;
}
} while (SetupFindNextLine(pInfContext, pInfContext));
UnlockPIF:
ppl->cLocks--;
}
int GetKeyID(PINFCONTEXT pInfContext)
{
int i;
TCHAR szCurKey[MAX_KEY_SIZE];
DWORD dwSize;
FunctionName(GetKeyID);
if (SetupGetStringFieldW(pInfContext, APPSINF_KEY, szCurKey, ARRAYSIZE(szCurKey), &dwSize)) {
for (i=0; i<ARRAYSIZE(apszKey); i++) {
if (!lstrcmpi(szCurKey, apszKey[i]))
return i+1;
}
return KEYID_UNKNOWN;
}
return KEYID_NONE;
}
int GetKeyValID(PINFCONTEXT pInfContext, int i)
{
TCHAR szCurKeyVal[MAX_KEYVAL_SIZE];
DWORD dwSize;
FunctionName(GetKeyValID);
if (SetupGetStringFieldW(pInfContext, i, szCurKeyVal, ARRAYSIZE(szCurKeyVal), &dwSize)) {
for (i=0; i<ARRAYSIZE(apszKeyVal); i++) {
if (!lstrcmpi(szCurKeyVal, apszKeyVal[i]))
return i+1;
}
return KEYVAL_ID_UNKNOWN;
}
return KEYVAL_ID_NONE;
}
#endif