Source code of Windows XP (NT5)
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/*++
Copyright (c) 1990 Microsoft Corporation
Module Name:
misc.c
Abstract:
This file implements the NT console server font routines.
Author:
Therese Stowell (thereses) 22-Jan-1991
Revision History:
--*/
#include "shellprv.h"
#pragma hdrstop
#include "lnkcon.h"
#define CONSOLE_REGISTRY_STRING (TEXT("Console"))
#define CONSOLE_REGISTRY_FONTSIZE (TEXT("FontSize"))
#define CONSOLE_REGISTRY_FONTFAMILY (TEXT("FontFamily"))
#define CONSOLE_REGISTRY_BUFFERSIZE (TEXT("ScreenBufferSize"))
#define CONSOLE_REGISTRY_CURSORSIZE (TEXT("CursorSize"))
#define CONSOLE_REGISTRY_WINDOWSIZE (TEXT("WindowSize"))
#define CONSOLE_REGISTRY_WINDOWPOS (TEXT("WindowPosition"))
#define CONSOLE_REGISTRY_FILLATTR (TEXT("ScreenColors"))
#define CONSOLE_REGISTRY_POPUPATTR (TEXT("PopupColors"))
#define CONSOLE_REGISTRY_FULLSCR (TEXT("FullScreen"))
#define CONSOLE_REGISTRY_QUICKEDIT (TEXT("QuickEdit"))
#define CONSOLE_REGISTRY_FACENAME (TEXT("FaceName"))
#define CONSOLE_REGISTRY_FONTWEIGHT (TEXT("FontWeight"))
#define CONSOLE_REGISTRY_INSERTMODE (TEXT("InsertMode"))
#define CONSOLE_REGISTRY_HISTORYSIZE (TEXT("HistoryBufferSize"))
#define CONSOLE_REGISTRY_HISTORYBUFS (TEXT("NumberOfHistoryBuffers"))
#define CONSOLE_REGISTRY_HISTORYNODUP (TEXT("HistoryNoDup"))
#define CONSOLE_REGISTRY_COLORTABLE (TEXT("ColorTable%02u"))
#define CONSOLE_REGISTRY_CODEPAGE (TEXT("CodePage"))
/*
* Initial default fonts and face names
*/
/*
* TTPoints -- Initial font pixel heights for TT fonts
*/
SHORT TTPoints[] = {
5, 6, 7, 8, 10, 12, 14, 16, 18, 20, 24, 28, 36, 72
};
/*
* TTPointsDbcs -- Initial font pixel heights for TT fonts of DBCS.
*/
SHORT TTPointsDbcs[] = {
6, 8, 10, 12, 14, 16, 18, 20, 24, 28, 36, 72
};
typedef struct _FONTENUMDATA {
CONSOLEPROP_DATA *pcpd;
HDC hDC;
BOOL bFindFaces;
ULONG ulFE;
PSHORT pTTPoints;
UINT nTTPoints;
UINT uDefCP;
} FONTENUMDATA, *PFONTENUMDATA;
FACENODE *
AddFaceNode(FACENODE * *ppStart, LPTSTR ptsz) {
FACENODE * pNew;
FACENODE * *ppTmp;
int cb;
/*
* Is it already here?
*/
for (ppTmp = ppStart; *ppTmp; ppTmp = &((*ppTmp)->pNext)) {
if (lstrcmp(((*ppTmp)->atch), ptsz) == 0) {
// already there !
return *ppTmp;
}
}
cb = (lstrlen(ptsz) + 1) * sizeof(TCHAR);
pNew = (FACENODE *)LocalAlloc(LPTR ,sizeof(FACENODE) + cb);
if (pNew == NULL) {
return NULL;
}
pNew->pNext = NULL;
pNew->dwFlag = 0;
lstrcpy(pNew->atch, ptsz);
*ppTmp = pNew;
return pNew;
}
VOID
DestroyFaceNodes( CONSOLEPROP_DATA *pcpd ) {
FACENODE * pNext;
FACENODE * pTmp;
pTmp = pcpd->gpFaceNames;
while (pTmp != NULL) {
pNext = pTmp->pNext;
LocalFree(pTmp);
pTmp = pNext;
}
pcpd->gpFaceNames = NULL;
}
int
AddFont(
CONSOLEPROP_DATA *pcpd,
ENUMLOGFONT *pelf,
NEWTEXTMETRIC *pntm,
int nFontType,
HDC hDC,
FACENODE * pFN
)
/*++
Add the font desribed by the LOGFONT structure to the font table if
it's not already there.
--*/
{
HFONT hFont;
TEXTMETRIC tm;
LONG nFont;
COORD SizeToShow;
COORD SizeActual;
COORD SizeWant;
BYTE tmFamily;
SIZE Size;
LPTSTR ptszFace = pelf->elfLogFont.lfFaceName;
/* get font info */
SizeWant.Y = (SHORT)pelf->elfLogFont.lfHeight;
SizeWant.X = (SHORT)pelf->elfLogFont.lfWidth;
CreateBoldFont:
hFont = CreateFontIndirect(&pelf->elfLogFont);
ASSERT(hFont);
if (!hFont) {
return FE_SKIPFONT; // same font in other sizes may still be suitable
}
//
// for reasons unbeknownst to me, removing this code causes GDI
// to yack, claiming that the font is owned by another process.
//
SelectObject(hDC, hFont);
GetTextMetrics(hDC, &tm);
GetTextExtentPoint32(hDC, TEXT("0"), 1, &Size);
SizeActual.X = (SHORT)Size.cx;
SizeActual.Y = (SHORT)(tm.tmHeight + tm.tmExternalLeading);
tmFamily = tm.tmPitchAndFamily;
if (TM_IS_TT_FONT(tmFamily) && (SizeWant.Y >= 0)) {
SizeToShow = SizeWant;
if (SizeWant.X == 0) {
// Asking for zero width height gets a default aspect-ratio width
// It's better to show that width rather than 0.
SizeToShow.X = SizeActual.X;
}
} else {
SizeToShow = SizeActual;
}
// there's a GDI bug - this assert fails occasionally
//ASSERT (tm.tmMaxCharWidth == pntm->tmMaxCharWidth);
/*
* NOW, determine whether this font entry has already been cached
* LATER : it may be possible to do this before creating the font, if
* we can trust the dimensions & other info from pntm.
* Sort by size:
* 1) By pixelheight (negative Y values)
* 2) By height (as shown)
* 3) By width (as shown)
*/
for (nFont = 0; nFont < (LONG)pcpd->NumberOfFonts; ++nFont) {
COORD SizeShown;
if (pcpd->FontInfo[nFont].hFont == NULL) {
continue;
}
if (pcpd->FontInfo[nFont].SizeWant.X > 0) {
SizeShown.X = pcpd->FontInfo[nFont].SizeWant.X;
} else {
SizeShown.X = pcpd->FontInfo[nFont].Size.X;
}
if (pcpd->FontInfo[nFont].SizeWant.Y > 0) {
// This is a font specified by cell height.
SizeShown.Y = pcpd->FontInfo[nFont].SizeWant.Y;
} else {
SizeShown.Y = pcpd->FontInfo[nFont].Size.Y;
if (pcpd->FontInfo[nFont].SizeWant.Y < 0) {
// This is a TT font specified by character height.
if (SizeWant.Y < 0 && SizeWant.Y > pcpd->FontInfo[nFont].SizeWant.Y) {
// Requested pixelheight is smaller than this one.
break;
}
}
}
if (SIZE_EQUAL(SizeShown, SizeToShow) &&
pcpd->FontInfo[nFont].Family == tmFamily &&
pcpd->FontInfo[nFont].Weight == tm.tmWeight &&
lstrcmp(pcpd->FontInfo[nFont].FaceName, ptszFace) == 0) {
/*
* Already have this font
*/
DeleteObject(hFont);
return FE_FONTOK;
}
if ((SizeToShow.Y < SizeShown.Y) ||
(SizeToShow.Y == SizeShown.Y && SizeToShow.X < SizeShown.X)) {
/*
* This new font is smaller than nFont
*/
break;
}
}
/*
* If we have to grow our font table, do it
*/
if (pcpd->NumberOfFonts == pcpd->FontInfoLength) {
FONT_INFO *Temp;
pcpd->FontInfoLength += FONT_INCREMENT;
Temp = (FONT_INFO *)LocalReAlloc(pcpd->FontInfo,
sizeof(FONT_INFO) * pcpd->FontInfoLength, LMEM_MOVEABLE|LMEM_ZEROINIT);
ASSERT(Temp);
if (Temp == NULL) {
pcpd->FontInfoLength -= FONT_INCREMENT;
return FE_ABANDONFONT; // no point enumerating more - no memory!
}
pcpd->FontInfo = Temp;
}
/*
* The font we are adding should be inserted into the list,
* if it is smaller than the last one.
*/
if (nFont < (LONG)pcpd->NumberOfFonts) {
MoveMemory( &pcpd->FontInfo[nFont+1],
&pcpd->FontInfo[nFont],
sizeof(FONT_INFO) * (pcpd->NumberOfFonts - nFont)
);
}
/*
* Store the font info
*/
pcpd->FontInfo[nFont].hFont = hFont;
pcpd->FontInfo[nFont].Family = tmFamily;
pcpd->FontInfo[nFont].Size = SizeActual;
if (TM_IS_TT_FONT(tmFamily)) {
pcpd->FontInfo[nFont].SizeWant = SizeWant;
} else {
pcpd->FontInfo[nFont].SizeWant.X = 0;
pcpd->FontInfo[nFont].SizeWant.Y = 0;
}
pcpd->FontInfo[nFont].Weight = tm.tmWeight;
pcpd->FontInfo[nFont].FaceName = pFN->atch;
pcpd->FontInfo[nFont].tmCharSet = tm.tmCharSet;
++pcpd->NumberOfFonts;
/*
* If this is a true type font, create a bold version too.
*/
if (nFontType == TRUETYPE_FONTTYPE && !IS_BOLD(pcpd->FontInfo[nFont].Weight)) {
pelf->elfLogFont.lfWeight = FW_BOLD;
goto CreateBoldFont;
}
return FE_FONTOK; // and continue enumeration
}
NTSTATUS
InitializeFonts( CONSOLEPROP_DATA *pcpd )
{
return EnumerateFonts( pcpd, EF_DEFFACE); // Just the Default font
}
STDAPI_(void) DestroyFonts( CONSOLEPROP_DATA *pcpd )
{
ULONG FontIndex;
if (pcpd->FontInfo != NULL) {
for (FontIndex = 0; FontIndex < pcpd->NumberOfFonts; FontIndex++) {
DeleteObject(pcpd->FontInfo[FontIndex].hFont);
}
LocalFree(pcpd->FontInfo);
pcpd->FontInfo = NULL;
pcpd->NumberOfFonts = 0;
}
DestroyFaceNodes( pcpd );
}
/*
* Returns bit combination
* FE_ABANDONFONT - do not continue enumerating this font
* FE_SKIPFONT - skip this font but keep enumerating
* FE_FONTOK - font was created and added to cache or already there
*/
int
FontEnum(
ENUMLOGFONT *pelf,
NEWTEXTMETRIC *pntm,
int nFontType,
PFONTENUMDATA pfed
)
/*++
Is called exactly once by GDI for each font in the system. This
routine is used to store the FONT_INFO structure.
--*/
{
UINT i;
LPTSTR ptszFace = pelf->elfLogFont.lfFaceName;
FACENODE * pFN;
BOOL bNegAC;
#ifdef DEBUG
OSVERSIONINFO osvi;
osvi.dwOSVersionInfoSize = sizeof(osvi);
GetVersionEx(&osvi);
// NTMW_STRUCTURE is different on 5.0+ platforms and the flag for 5.0+
// platforms now lives in NEWTEXTMETRIC structure.
AssertMsg(osvi.dwMajorVersion > 4, TEXT("We now only support running on Win2k or Millennium and later so we should never hit this."));
#endif
bNegAC = !(pntm->ntmFlags & NTM_NONNEGATIVE_AC);
//
// reject variable width and italic fonts, also tt fonts with neg ac
//
if
(
!(pelf->elfLogFont.lfPitchAndFamily & FIXED_PITCH) ||
(pelf->elfLogFont.lfItalic) ||
bNegAC
)
{
if (!IsAvailableTTFont(pfed->pcpd,ptszFace))
return pfed->bFindFaces ? FE_SKIPFONT : FE_ABANDONFONT;
}
/*
* reject TT fonts for whoom family is not modern, that is do not use
* FF_DONTCARE // may be surprised unpleasantly
* FF_DECORATIVE // likely to be symbol fonts
* FF_SCRIPT // cursive, inappropriate for console
* FF_SWISS OR FF_ROMAN // variable pitch
*/
if ((nFontType == TRUETYPE_FONTTYPE) &&
((pelf->elfLogFont.lfPitchAndFamily & 0xf0) != FF_MODERN)) {
return pfed->bFindFaces ? FE_SKIPFONT : FE_ABANDONFONT;
}
/*
* reject non-TT fonts that aren't OEM
*/
if ((nFontType != TRUETYPE_FONTTYPE) &&
(!IsFarEastCP(pfed->uDefCP) || !IS_ANY_DBCS_CHARSET(pelf->elfLogFont.lfCharSet)) &&
(pelf->elfLogFont.lfCharSet != OEM_CHARSET)) {
return pfed->bFindFaces ? FE_SKIPFONT : FE_ABANDONFONT;
}
/*
* reject non-TT vertical/non-Terminal Font for FE
*/
if (IsFarEastCP(pfed->uDefCP))
{
if ((nFontType != TRUETYPE_FONTTYPE) &&
((ptszFace[0] == TEXT('@')) ||
(lstrcmp(ptszFace, TEXT("Terminal")) != 0)))
{
return pfed->bFindFaces ? FE_SKIPFONT : FE_ABANDONFONT;
}
}
/*
* reject Far East TT fonts that aren't Far East charset.
*/
if (IsAvailableTTFont(pfed->pcpd, ptszFace) &&
!IS_ANY_DBCS_CHARSET(pelf->elfLogFont.lfCharSet) &&
!IsAvailableTTFontCP(pfed->pcpd, ptszFace,0)
) {
return FE_SKIPFONT; // should be enumerate next charset.
}
/*
* Add or find the facename
*/
pFN = AddFaceNode(&pfed->pcpd->gpFaceNames, ptszFace);
if (pFN == NULL) {
return FE_ABANDONFONT;
}
if (pfed->bFindFaces) {
DWORD dwFontType = 0;
if (nFontType == TRUETYPE_FONTTYPE) {
dwFontType = EF_TTFONT;
} else if (nFontType == RASTER_FONTTYPE) {
dwFontType = EF_OEMFONT;
}
pFN->dwFlag |= dwFontType | EF_NEW;
if (IS_ANY_DBCS_CHARSET(pelf->elfLogFont.lfCharSet))
pFN->dwFlag |= EF_DBCSFONT;
return FE_SKIPFONT;
}
if (IS_BOLD(pelf->elfLogFont.lfWeight)) {
// return FE_SKIPFONT;
}
/*
* Add the font to the table. If this is a true type font, add the
* sizes from the array. Otherwise, just add the size we got.
*/
if (nFontType & TRUETYPE_FONTTYPE) {
for (i = 0; i < pfed->nTTPoints; i++) {
pelf->elfLogFont.lfHeight = pfed->pTTPoints[i];
pelf->elfLogFont.lfWidth = 0;
pelf->elfLogFont.lfWeight = 400;
pfed->ulFE |= AddFont(pfed->pcpd, pelf, pntm, nFontType, pfed->hDC, pFN);
if (pfed->ulFE & FE_ABANDONFONT) {
return FE_ABANDONFONT;
}
}
} else {
pfed->ulFE |= AddFont(pfed->pcpd, pelf, pntm, nFontType, pfed->hDC, pFN);
if (pfed->ulFE & FE_ABANDONFONT) {
return FE_ABANDONFONT;
}
}
return FE_FONTOK; // and continue enumeration
}
BOOL
DoFontEnum(
CONSOLEPROP_DATA *pcpd,
HDC hDC,
LPTSTR ptszFace,
PSHORT pTTPoints,
UINT nTTPoints)
{
BOOL bDeleteDC = FALSE;
FONTENUMDATA fed;
LOGFONT LogFont;
if (hDC == NULL) {
hDC = CreateDC(TEXT("DISPLAY"), NULL, NULL, NULL);
bDeleteDC = TRUE;
}
fed.pcpd = pcpd;
fed.hDC = hDC;
fed.bFindFaces = (ptszFace == NULL);
fed.ulFE = 0;
fed.pTTPoints = pTTPoints;
fed.nTTPoints = nTTPoints;
fed.uDefCP = pcpd->uOEMCP;
RtlZeroMemory(&LogFont, sizeof(LOGFONT));
LogFont.lfCharSet = DEFAULT_CHARSET;
if (ptszFace)
_tcscpy(LogFont.lfFaceName, ptszFace);
/*
* EnumFontFamiliesEx function enumerates one font in every face in every character set.
*/
EnumFontFamiliesEx(hDC, &LogFont, (FONTENUMPROC)FontEnum, (LPARAM)&fed, 0);
if (bDeleteDC) {
DeleteDC(hDC);
}
return (fed.ulFE & FE_FONTOK) != 0;
}
VOID
RemoveFace(CONSOLEPROP_DATA *pcpd, LPTSTR ptszFace)
{
DWORD i;
int nToRemove = 0;
//
// Delete & Remove fonts with Face Name == ptszFace
//
for (i = 0; i < pcpd->NumberOfFonts; i++) {
if (lstrcmp(pcpd->FontInfo[i].FaceName, ptszFace) == 0) {
BOOL bDeleted = DeleteObject(pcpd->FontInfo[i].hFont);
pcpd->FontInfo[i].hFont = NULL;
nToRemove++;
} else if (nToRemove > 0) {
/*
* Shuffle from FontInfo[i] down nToRemove slots.
*/
MoveMemory( &pcpd->FontInfo[i - nToRemove],
&pcpd->FontInfo[i],
sizeof(FONT_INFO)*(pcpd->NumberOfFonts - i)
);
pcpd->NumberOfFonts -= nToRemove;
i -= nToRemove;
nToRemove = 0;
}
}
pcpd->NumberOfFonts -= nToRemove;
}
NTSTATUS
EnumerateFonts(
CONSOLEPROP_DATA *pcpd,
DWORD Flags)
{
TEXTMETRIC tm;
HDC hDC;
FACENODE * pFN;
ULONG ulOldEnumFilter;
BOOL bEnumOEMFace = TRUE;
DWORD FontIndex;
DWORD dwFontType = 0;
dwFontType = (EF_TTFONT|EF_OEMFONT|EF_DEFFACE) & Flags;
if (pcpd->FontInfo == NULL) {
//
// allocate memory for the font array
//
pcpd->NumberOfFonts = 0;
pcpd->FontInfo = (FONT_INFO *)LocalAlloc(LPTR, sizeof(FONT_INFO) * INITIAL_FONTS);
if (pcpd->FontInfo == NULL)
return STATUS_NO_MEMORY;
pcpd->FontInfoLength = INITIAL_FONTS;
}
hDC = CreateDC(TEXT("DISPLAY"), NULL, NULL, NULL);
// Before enumeration, turn off font enumeration filters.
ulOldEnumFilter = SetFontEnumeration(FE_FILTER_NONE);
if (Flags & EF_DEFFACE) {
SelectObject(hDC, GetStockObject(OEM_FIXED_FONT));
GetTextFace(hDC, LF_FACESIZE, pcpd->DefaultFaceName);
// Make sure we are going to enumerate the OEM face.
pFN = AddFaceNode(&pcpd->gpFaceNames, pcpd->DefaultFaceName);
if (NULL == pFN)
{
LocalFree(pcpd->FontInfo);
pcpd->FontInfo = NULL;
pcpd->FontInfoLength = 0;
pcpd->NumberOfFonts = 0;
SetFontEnumeration(ulOldEnumFilter);
DeleteDC(hDC);
return STATUS_NO_MEMORY;
}
pFN->dwFlag |= EF_DEFFACE | EF_OEMFONT;
GetTextMetrics(hDC, &tm);
pcpd->DefaultFontSize.X = (SHORT)(tm.tmMaxCharWidth);
pcpd->DefaultFontSize.Y = (SHORT)(tm.tmHeight+tm.tmExternalLeading);
pcpd->DefaultFontFamily = tm.tmPitchAndFamily;
if (IS_ANY_DBCS_CHARSET(tm.tmCharSet))
pcpd->DefaultFontSize.X /= 2;
}
if (pcpd->gbEnumerateFaces) {
/*
* Set the EF_OLD bit and clear the EF_NEW bit
* for all previously available faces
*/
for (pFN = pcpd->gpFaceNames; pFN; pFN = pFN->pNext) {
pFN->dwFlag |= EF_OLD;
pFN->dwFlag &= ~EF_NEW;
}
//
// Use DoFontEnum to get the names of all the suitable Faces
// All facenames found will be put in gpFaceNames with
// the EF_NEW bit set.
//
DoFontEnum(pcpd, hDC, NULL, TTPoints, 1);
pcpd->gbEnumerateFaces = FALSE;
}
// Use DoFontEnum to get all fonts from the system. Our FontEnum
// proc puts just the ones we want into an array
//
for (pFN = pcpd->gpFaceNames; pFN; pFN = pFN->pNext) {
if ((pFN->dwFlag & (EF_OLD|EF_NEW)) == EF_OLD) {
// The face is no longer available
RemoveFace(pcpd, pFN->atch);
pFN->dwFlag &= ~EF_ENUMERATED;
continue;
}
if ((pFN->dwFlag & dwFontType) == 0) {
// not the kind of face we want
continue;
}
if (pFN->dwFlag & EF_ENUMERATED) {
// we already enumerated this face
continue;
}
if (pFN->dwFlag & EF_TTFONT) {
if (IsFarEastCP(pcpd->uOEMCP) && !IsAvailableTTFontCP(pcpd, pFN->atch, 0))
DoFontEnum(pcpd, hDC, pFN->atch, TTPointsDbcs, NELEM(TTPointsDbcs));
else
DoFontEnum(pcpd, hDC, pFN->atch, TTPoints, NELEM(TTPoints));
} else {
DoFontEnum(pcpd, hDC, pFN->atch, NULL, 0);
// If we find that the face just enumerated is the same as OEM,
// reset flag so we don't try to enumerate it again.
if (lstrcmpi(pFN->atch, pcpd->DefaultFaceName) == 0)
{
bEnumOEMFace = FALSE;
}
}
pFN->dwFlag |= EF_ENUMERATED;
}
// After enumerating fonts, restore the font enumeration filter.
SetFontEnumeration(ulOldEnumFilter);
DeleteDC(hDC);
for (FontIndex = 0; FontIndex < pcpd->NumberOfFonts; FontIndex++) {
if (pcpd->FontInfo[FontIndex].Size.X == pcpd->DefaultFontSize.X &&
pcpd->FontInfo[FontIndex].Size.Y == pcpd->DefaultFontSize.Y &&
pcpd->FontInfo[FontIndex].Family == pcpd->DefaultFontFamily) {
break;
}
}
ASSERT(FontIndex < pcpd->NumberOfFonts);
if (FontIndex < pcpd->NumberOfFonts) {
pcpd->DefaultFontIndex = FontIndex;
} else {
pcpd->DefaultFontIndex = 0;
}
return STATUS_SUCCESS;
}
NTSTATUS
GetNumFonts(
CONSOLEPROP_DATA *pcpd,
OUT PULONG NumFonts
)
{
*NumFonts = pcpd->NumberOfFonts;
return STATUS_SUCCESS;
}
NTSTATUS
GetFontSize(
CONSOLEPROP_DATA *pcpd,
IN DWORD FontIndex,
OUT PCOORD FontSize
)
{
if (FontIndex >= pcpd->NumberOfFonts)
return STATUS_INVALID_PARAMETER;
*FontSize = pcpd->FontInfo[FontIndex].Size;
return STATUS_SUCCESS;
}
/*
* Get the font index for a new font
* If necessary, attempt to create the font.
* Always return a valid FontIndex (even if not correct)
* Family: Find/Create a font with of this Family
* 0 - don't care
* ptszFace: Find/Create a font with this face name.
* NULL or TEXT("") - use DefaultFaceName
* Size: Must match SizeWant or actual Size.
*/
int
FindCreateFont(
CONSOLEPROP_DATA *pcpd,
DWORD Family,
LPTSTR ptszFace,
COORD Size,
LONG Weight)
{
#define NOT_CREATED_NOR_FOUND -1
#define CREATED_BUT_NOT_FOUND -2
int i;
int FontIndex = NOT_CREATED_NOR_FOUND;
BOOL bFontOK;
TCHAR AltFaceName[LF_FACESIZE];
COORD AltFontSize;
BYTE AltFontFamily;
ULONG AltFontIndex = 0;
LPTSTR ptszAltFace = NULL;
UINT uCurrentCP = pcpd->lpFEConsole->uCodePage;
UINT uDefaultCP = pcpd->uOEMCP;
BYTE CharSet = CodePageToCharSet(uCurrentCP);
if (!IsFarEastCP(uDefaultCP) || IS_ANY_DBCS_CHARSET(CharSet))
{
if (ptszFace == NULL || *ptszFace == TEXT('\0')) {
ptszFace = pcpd->DefaultFaceName;
}
if (Size.Y == 0) {
Size = pcpd->DefaultFontSize;
}
}
else
{
MakeAltRasterFont(pcpd, uCurrentCP, &AltFontSize, &AltFontFamily, &AltFontIndex, AltFaceName);
if (ptszFace == NULL || *ptszFace == L'\0') {
ptszFace = AltFaceName;
}
if (Size.Y == 0) {
Size.X = AltFontSize.X;
Size.Y = AltFontSize.Y;
}
}
if (IsAvailableTTFont(pcpd, ptszFace)) {
ptszAltFace = GetAltFaceName(pcpd, ptszFace);
}
else {
ptszAltFace = ptszFace;
}
/*
* Try to find the exact font
*/
TryFindExactFont:
for (i=0; i < (int)pcpd->NumberOfFonts; i++) {
/*
* If looking for a particular Family, skip non-matches
*/
if ((Family != 0) &&
((BYTE)Family != pcpd->FontInfo[i].Family)) {
continue;
}
/*
* Skip non-matching sizes
*/
if ((!SIZE_EQUAL(pcpd->FontInfo[i].SizeWant, Size) &&
!SIZE_EQUAL(pcpd->FontInfo[i].Size, Size))) {
continue;
}
/*
* Skip non-matching weights
*/
if ((Weight != 0) && (Weight != pcpd->FontInfo[i].Weight)) {
continue;
}
/*
* Skip fonts that have unmatched charset
*/
if (!TM_IS_TT_FONT(pcpd->FontInfo[i].Family) &&
pcpd->FontInfo[i].tmCharSet != CharSet) {
continue;
}
/*
* Size (and maybe Family) match.
* If we don't care about the name, or if it matches, use this font.
* Else if name doesn't match and it is a raster font, consider it.
*/
if ((ptszFace == NULL) || (ptszFace[0] == TEXT('\0')) ||
(lstrcmp(pcpd->FontInfo[i].FaceName, ptszFace) == 0) ||
(lstrcmp(pcpd->FontInfo[i].FaceName, ptszAltFace) == 0) ) {
FontIndex = i;
goto FoundFont;
} else if (!TM_IS_TT_FONT(pcpd->FontInfo[i].Family)) {
FontIndex = i;
}
}
if (FontIndex == NOT_CREATED_NOR_FOUND) {
/*
* Didn't find the exact font, so try to create it
*/
ULONG ulOldEnumFilter;
ulOldEnumFilter = SetFontEnumeration(FE_FILTER_NONE);
if (Size.Y < 0) {
Size.Y = -Size.Y;
}
bFontOK = DoFontEnum(pcpd, NULL, ptszFace, &Size.Y, 1);
SetFontEnumeration(ulOldEnumFilter);
if (bFontOK) {
FontIndex = CREATED_BUT_NOT_FOUND;
goto TryFindExactFont;
} else {
}
} else if (FontIndex >= 0) {
// a close Raster Font fit - only the name doesn't match.
goto FoundFont;
}
/*
* Failed to find exact match, even after enumeration, so now try
* to find a font of same family and same size or bigger
*/
for (i=0; i < (int)pcpd->NumberOfFonts; i++) {
if ((Family != 0) &&
((BYTE)Family != pcpd->FontInfo[i].Family)) {
continue;
}
if (!TM_IS_TT_FONT(pcpd->FontInfo[i].Family) &&
pcpd->FontInfo[i].tmCharSet != CharSet) {
continue;
}
if (pcpd->FontInfo[i].Size.Y >= Size.Y &&
pcpd->FontInfo[i].Size.X >= Size.X) {
// Same family, size >= desired.
FontIndex = i;
break;
}
}
if (FontIndex < 0) {
if (uCurrentCP == uDefaultCP)
{
FontIndex = pcpd->DefaultFontIndex;
}
else
{
FontIndex = AltFontIndex;
}
}
FoundFont:
return FontIndex;
#undef NOT_CREATED_NOR_FOUND
#undef CREATED_BUT_NOT_FOUND
}
LPTSTR
TranslateConsoleTitle(
LPTSTR ConsoleTitle
)
/*++
this routine translates path characters into '_' characters because
the NT registry apis do not allow the creation of keys with
names that contain path characters. it allocates a buffer that
must be freed.
--*/
{
int ConsoleTitleLength, i;
LPTSTR TranslatedTitle;
ConsoleTitleLength = lstrlen(ConsoleTitle) + 1;
TranslatedTitle = LocalAlloc(LPTR,
ConsoleTitleLength * sizeof(TCHAR));
if (TranslatedTitle == NULL) {
return NULL;
}
for (i = 0; i < ConsoleTitleLength; i++) {
if (ConsoleTitle[i] == TEXT('\\')) {
TranslatedTitle[i] = TEXT('_');
} else {
TranslatedTitle[i] = ConsoleTitle[i];
}
}
return TranslatedTitle;
}
void
InitRegistryValues( CONSOLEPROP_DATA *pcpd )
/*++
Routine Description:
This routine allocates a state info structure and fill it in with
default values. It then tries to load the default settings for
console from the registry.
Arguments:
none
Return Value:
pStateInfo - pointer to structure to receive information
--*/
{
TCHAR chSave;
pcpd->lpConsole->wFillAttribute = 0x07; // white on black
pcpd->lpConsole->wPopupFillAttribute = 0xf5; // purple on white
pcpd->lpConsole->bInsertMode = FALSE;
pcpd->lpConsole->bQuickEdit = FALSE;
pcpd->lpConsole->bFullScreen = FALSE;
pcpd->lpConsole->dwScreenBufferSize.X = 80;
pcpd->lpConsole->dwScreenBufferSize.Y = 25;
pcpd->lpConsole->dwWindowSize.X = 80;
pcpd->lpConsole->dwWindowSize.Y = 25;
pcpd->lpConsole->dwWindowOrigin.X = 0;
pcpd->lpConsole->dwWindowOrigin.Y = 0;
pcpd->lpConsole->bAutoPosition = TRUE;
pcpd->lpConsole->dwFontSize.X = 0;
pcpd->lpConsole->dwFontSize.Y = 0;
pcpd->lpConsole->uFontFamily = 0;
pcpd->lpConsole->uFontWeight = 0;
#ifdef UNICODE
FillMemory( pcpd->lpConsole->FaceName, sizeof(pcpd->lpConsole->FaceName), 0 );
pcpd->lpFaceName = (LPTSTR)pcpd->lpConsole->FaceName;
#else
FillMemory( pcpd->szFaceName, sizeof(pcpd->szFaceName), 0 );
pcpd->lpFaceName = pcpd->szFaceName;
#endif
pcpd->lpConsole->uCursorSize = 25;
pcpd->lpConsole->uHistoryBufferSize = 25;
pcpd->lpConsole->uNumberOfHistoryBuffers = 4;
pcpd->lpConsole->bHistoryNoDup = 0;
pcpd->lpConsole->ColorTable[ 0] = RGB(0, 0, 0 );
pcpd->lpConsole->ColorTable[ 1] = RGB(0, 0, 0x80);
pcpd->lpConsole->ColorTable[ 2] = RGB(0, 0x80,0 );
pcpd->lpConsole->ColorTable[ 3] = RGB(0, 0x80,0x80);
pcpd->lpConsole->ColorTable[ 4] = RGB(0x80,0, 0 );
pcpd->lpConsole->ColorTable[ 5] = RGB(0x80,0, 0x80);
pcpd->lpConsole->ColorTable[ 6] = RGB(0x80,0x80,0 );
pcpd->lpConsole->ColorTable[ 7] = RGB(0xC0,0xC0,0xC0);
pcpd->lpConsole->ColorTable[ 8] = RGB(0x80,0x80,0x80);
pcpd->lpConsole->ColorTable[ 9] = RGB(0, 0, 0xFF);
pcpd->lpConsole->ColorTable[10] = RGB(0, 0xFF,0 );
pcpd->lpConsole->ColorTable[11] = RGB(0, 0xFF,0xFF);
pcpd->lpConsole->ColorTable[12] = RGB(0xFF,0, 0 );
pcpd->lpConsole->ColorTable[13] = RGB(0xFF,0, 0xFF);
pcpd->lpConsole->ColorTable[14] = RGB(0xFF,0xFF,0 );
pcpd->lpConsole->ColorTable[15] = RGB(0xFF,0xFF,0xFF);
pcpd->lpFEConsole->uCodePage = pcpd->uOEMCP;
// make console title NULL so we load the default settings for the console
chSave = pcpd->ConsoleTitle[0];
pcpd->ConsoleTitle[0] = TEXT('\0');
GetRegistryValues( pcpd );
// restore the console title
pcpd->ConsoleTitle[0] = chSave;
}
VOID
GetTitleFromLinkName(
LPTSTR szLinkName,
LPTSTR szTitle
)
{
DWORD dwLen;
LPTSTR pLnk, pDot;
LPTSTR pPath = szLinkName;
// Error checking
if (!szTitle)
return;
if (!szLinkName)
{
szTitle[0] = TEXT('\0');
return;
}
// find filename at end of fully qualified link name and point pLnk to it
for (pLnk = pPath; *pPath; pPath++)
{
if ( (pPath[0] == TEXT('\\') || pPath[0] == TEXT(':')) &&
pPath[1] &&
(pPath[1] != TEXT('\\'))
)
pLnk = pPath + 1;
}
// find extension (.lnk)
pPath = pLnk;
for (pDot = NULL; *pPath; pPath++)
{
switch (*pPath) {
case TEXT('.'):
pDot = pPath; // remember the last dot
break;
case TEXT('\\'):
case TEXT(' '): // extensions can't have spaces
pDot = NULL; // forget last dot, it was in a directory
break;
}
}
// if we found the extension, pDot points to it, if not, pDot
// is NULL.
if (pDot)
{
dwLen = min( (DWORD) (pDot - pLnk), (MAX_TITLE_LEN-1) );
}
else
{
dwLen = min( lstrlen(pLnk), (MAX_TITLE_LEN-1) );
}
CopyMemory(szTitle, pLnk, dwLen*sizeof(TCHAR));
szTitle[ dwLen ] = TEXT('\0');
}
VOID
GetRegistryValues(
CONSOLEPROP_DATA *pcpd
)
/*++
Routine Description:
This routine reads in values from the registry and places them
in the supplied structure.
Arguments:
pStateInfo - optional pointer to structure to receive information
Return Value:
current page number
--*/
{
HKEY hCurrentUserKey;
HKEY hConsoleKey;
HKEY hTitleKey;
LPTSTR TranslatedTitle;
DWORD dwValue, dwSize;
DWORD dwRet = 0;
DWORD i;
WCHAR awchBuffer[LF_FACESIZE];
//
// Open the current user registry key
//
if (RegOpenKey( HKEY_CURRENT_USER, NULL, &hCurrentUserKey)!=ERROR_SUCCESS)
return;
//
// Open the console registry key
//
if (RegOpenKey(hCurrentUserKey,CONSOLE_REGISTRY_STRING,&hConsoleKey)!=ERROR_SUCCESS)
{
RegCloseKey(hCurrentUserKey);
return;
}
//
// If there is no structure to fill out, just bail out
//
if ((!pcpd) || (!pcpd->lpConsole))
goto CloseKeys;
//
// Open the console title subkey, if there is one
//
if (pcpd->ConsoleTitle[0] != TEXT('\0'))
{
TranslatedTitle = TranslateConsoleTitle(pcpd->ConsoleTitle);
if (TranslatedTitle == NULL)
goto GetDefaultConsole;
dwValue = RegOpenKey( hConsoleKey,
TranslatedTitle,
&hTitleKey);
LocalFree(TranslatedTitle);
if (dwValue!=ERROR_SUCCESS)
goto GetDefaultConsole;
} else {
GetDefaultConsole:
hTitleKey = hConsoleKey;
}
//
// Initial screen fill
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FILLATTR,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->wFillAttribute = (WORD)dwValue;
}
//
// Initial popup fill
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_POPUPATTR,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->wPopupFillAttribute = (WORD)dwValue;
}
//
// Initial color table
//
for (i = 0; i < 16; i++)
{
wsprintf((LPTSTR)awchBuffer, CONSOLE_REGISTRY_COLORTABLE, i);
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
(LPTSTR)awchBuffer,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->ColorTable[i] = dwValue;
}
}
//
// Initial insert mode
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_INSERTMODE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->bInsertMode = !!dwValue;
}
//
// Initial quick edit mode
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_QUICKEDIT,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->bQuickEdit = !!dwValue;
}
#ifdef i386
//
// Initial full screen mode
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FULLSCR,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->bFullScreen = !!dwValue;
}
#endif
//
// Initial code page
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_CODEPAGE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpFEConsole->uCodePage = (UINT)dwValue;
}
//
// Initial screen buffer size
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_BUFFERSIZE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->dwScreenBufferSize.X = LOWORD(dwValue);
pcpd->lpConsole->dwScreenBufferSize.Y = HIWORD(dwValue);
}
//
// Initial window size
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_WINDOWSIZE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->dwWindowSize.X = LOWORD(dwValue);
pcpd->lpConsole->dwWindowSize.Y = HIWORD(dwValue);
}
//
// Initial window position
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_WINDOWPOS,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->dwWindowOrigin.X = (SHORT)LOWORD(dwValue);
pcpd->lpConsole->dwWindowOrigin.Y = (SHORT)HIWORD(dwValue);
pcpd->lpConsole->bAutoPosition = FALSE;
}
//
// Initial font size
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTSIZE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->dwFontSize.X = LOWORD(dwValue);
pcpd->lpConsole->dwFontSize.Y = HIWORD(dwValue);
}
//
// Initial font family
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTFAMILY,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->uFontFamily = dwValue;
}
//
// Initial font weight
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTWEIGHT,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->uFontWeight = dwValue;
}
//
// Initial font face name
//
dwSize = sizeof(awchBuffer);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_FACENAME,
NULL,
NULL,
(LPBYTE)awchBuffer,
&dwSize
) == ERROR_SUCCESS)
{
CopyMemory((LPBYTE)pcpd->lpFaceName, (LPBYTE)awchBuffer, LF_FACESIZE*sizeof(TCHAR));
}
//
// Initial cursor size
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_CURSORSIZE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->uCursorSize = dwValue;
}
//
// Initial history buffer size
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYSIZE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->uHistoryBufferSize = dwValue;
}
//
// Initial number of history buffers
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYBUFS,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->uNumberOfHistoryBuffers = dwValue;
}
//
// Initial history duplication mode
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYNODUP,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpConsole->bHistoryNoDup = dwValue;
}
//
// Close the registry keys
//
if (hTitleKey != hConsoleKey) {
RegCloseKey(hTitleKey);
}
CloseKeys:
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
}
VOID
SetRegistryValues(
CONSOLEPROP_DATA *pcpd
)
/*++
Routine Description:
This routine writes values to the registry from the supplied
structure.
Arguments:
pStateInfo - optional pointer to structure containing information
dwPage - current page number
Return Value:
none
--*/
{
HKEY hCurrentUserKey;
HKEY hConsoleKey;
HKEY hTitleKey;
LPTSTR TranslatedTitle;
DWORD dwValue;
DWORD i;
WCHAR awchBuffer[LF_FACESIZE];
//
// Open the current user registry key
//
if (RegOpenKey( HKEY_CURRENT_USER, NULL, &hCurrentUserKey )!=ERROR_SUCCESS)
{
return;
}
//
// Open the console registry key
//
if (RegCreateKey( hCurrentUserKey, CONSOLE_REGISTRY_STRING, &hConsoleKey )!=ERROR_SUCCESS)
{
RegCloseKey(hCurrentUserKey);
return;
}
//
// If we only want to save the current page, bail out
//
if (pcpd == NULL)
{
goto CloseKeys;
}
//
// Open the console title subkey, if there is one
//
if (pcpd->ConsoleTitle[0] != TEXT('\0'))
{
TranslatedTitle = TranslateConsoleTitle(pcpd->ConsoleTitle);
if (TranslatedTitle == NULL)
{
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
return;
}
dwValue = RegCreateKey( hConsoleKey,
TranslatedTitle,
&hTitleKey);
LocalFree(TranslatedTitle);
if (dwValue!=ERROR_SUCCESS)
{
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
return;
}
} else {
hTitleKey = hConsoleKey;
}
//
// Save screen and popup colors and color table
//
dwValue = pcpd->lpConsole->wFillAttribute;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FILLATTR,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->wPopupFillAttribute;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_POPUPATTR,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
for (i = 0; i < 16; i++)
{
dwValue = pcpd->lpConsole->ColorTable[i];
wsprintf((LPTSTR)awchBuffer, CONSOLE_REGISTRY_COLORTABLE, i);
RegSetValueEx( hTitleKey,
(LPTSTR)awchBuffer,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
}
//
// Save insert, quickedit, and fullscreen mode settings
//
dwValue = pcpd->lpConsole->bInsertMode;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_INSERTMODE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->bQuickEdit;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_QUICKEDIT,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
#ifdef i386
dwValue = pcpd->lpConsole->bFullScreen;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FULLSCR,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
#endif
//
// Save screen buffer size
//
dwValue = MAKELONG(pcpd->lpConsole->dwScreenBufferSize.X,
pcpd->lpConsole->dwScreenBufferSize.Y);
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_BUFFERSIZE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
//
// Save window size
//
dwValue = MAKELONG(pcpd->lpConsole->dwWindowSize.X,
pcpd->lpConsole->dwWindowSize.Y);
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_WINDOWSIZE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
//
// Save window position
//
if (pcpd->lpConsole->bAutoPosition) {
RegDeleteKey(hTitleKey, CONSOLE_REGISTRY_WINDOWPOS);
} else {
dwValue = MAKELONG(pcpd->lpConsole->dwWindowOrigin.X,
pcpd->lpConsole->dwWindowOrigin.Y);
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_WINDOWPOS,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
}
//
// Save font size, family, weight, and face name
//
dwValue = MAKELONG(pcpd->lpConsole->dwFontSize.X,
pcpd->lpConsole->dwFontSize.Y);
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTSIZE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->uFontFamily;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTFAMILY,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->uFontWeight;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FONTWEIGHT,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_FACENAME,
0,
REG_SZ,
(LPBYTE)pcpd->lpFaceName,
(lstrlen(pcpd->lpFaceName) + 1) * sizeof(TCHAR)
);
//
// Save cursor size
//
dwValue = pcpd->lpConsole->uCursorSize;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_CURSORSIZE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
//
// Save history buffer size and number
//
dwValue = pcpd->lpConsole->uHistoryBufferSize;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYSIZE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->uNumberOfHistoryBuffers;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYBUFS,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
dwValue = pcpd->lpConsole->bHistoryNoDup;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_HISTORYNODUP,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
//
// Close the registry keys
//
if (hTitleKey != hConsoleKey) {
RegCloseKey(hTitleKey);
}
CloseKeys:
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
}
void
InitFERegistryValues( CONSOLEPROP_DATA *pcpd )
/*++
Routine Description:
This routine allocates a state info structure and fill it in with
default values. It then tries to load the default settings for
console from the registry.
Arguments:
none
Return Value:
pStateInfo - pointer to structure to receive information
--*/
{
/*
* In this case: console reads a property of US version.
* It doesn't have code page information.
* Console should sets some code page as default.
* However, I don't know right value. 437 is temporary value.
*/
pcpd->lpFEConsole->uCodePage = 437;
GetFERegistryValues( pcpd );
}
VOID
GetFERegistryValues(
CONSOLEPROP_DATA *pcpd
)
/*++
Routine Description:
This routine reads in values from the registry and places them
in the supplied structure.
Arguments:
pStateInfo - optional pointer to structure to receive information
Return Value:
current page number
--*/
{
HKEY hCurrentUserKey;
HKEY hConsoleKey;
HKEY hTitleKey;
LPTSTR TranslatedTitle;
DWORD dwValue, dwSize;
DWORD dwRet = 0;
//
// Open the current user registry key
//
if (RegOpenKey( HKEY_CURRENT_USER, NULL, &hCurrentUserKey)!=ERROR_SUCCESS)
return;
//
// Open the console registry key
//
if (RegOpenKey(hCurrentUserKey,CONSOLE_REGISTRY_STRING,&hConsoleKey)!=ERROR_SUCCESS)
{
NtClose(hCurrentUserKey);
return;
}
//
// If there is no structure to fill out, just bail out
//
if ((!pcpd) || (!pcpd->lpFEConsole))
goto CloseKeys;
//
// Open the console title subkey, if there is one
//
if (pcpd->ConsoleTitle[0] != TEXT('\0'))
{
TranslatedTitle = TranslateConsoleTitle(pcpd->ConsoleTitle);
if (TranslatedTitle == NULL)
goto CloseKeys;
dwValue = RegOpenKey( hConsoleKey,
TranslatedTitle,
&hTitleKey);
LocalFree(TranslatedTitle);
if (dwValue!=ERROR_SUCCESS)
goto CloseKeys;
} else {
goto CloseKeys;
}
//
// Initial code page
//
dwSize = sizeof(dwValue);
if (SHQueryValueEx( hTitleKey,
CONSOLE_REGISTRY_CODEPAGE,
NULL,
NULL,
(LPBYTE)&dwValue,
&dwSize
) == ERROR_SUCCESS)
{
pcpd->lpFEConsole->uCodePage = (UINT)dwValue;
}
//
// Close the registry keys
//
if (hTitleKey != hConsoleKey) {
RegCloseKey(hTitleKey);
}
CloseKeys:
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
}
VOID
SetFERegistryValues(
CONSOLEPROP_DATA *pcpd
)
/*++
Routine Description:
This routine writes values to the registry from the supplied
structure.
Arguments:
pStateInfo - optional pointer to structure containing information
dwPage - current page number
Return Value:
none
--*/
{
HKEY hCurrentUserKey;
HKEY hConsoleKey;
HKEY hTitleKey;
LPTSTR TranslatedTitle;
DWORD dwValue;
//
// Open the current user registry key
//
if (RegOpenKey( HKEY_CURRENT_USER, NULL, &hCurrentUserKey )!=ERROR_SUCCESS)
{
return;
}
//
// Open the console registry key
//
if (RegCreateKey( hCurrentUserKey, CONSOLE_REGISTRY_STRING, &hConsoleKey )!=ERROR_SUCCESS)
{
RegCloseKey(hCurrentUserKey);
return;
}
//
// If we only want to save the current page, bail out
//
if (pcpd == NULL)
{
goto CloseKeys;
}
//
// Open the console title subkey, if there is one
//
if (pcpd->ConsoleTitle[0] != TEXT('\0'))
{
TranslatedTitle = TranslateConsoleTitle(pcpd->ConsoleTitle);
if (TranslatedTitle == NULL)
{
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
return;
}
dwValue = RegCreateKey( hConsoleKey,
TranslatedTitle,
&hTitleKey);
LocalFree(TranslatedTitle);
if (dwValue!=ERROR_SUCCESS)
{
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
return;
}
} else {
hTitleKey = hConsoleKey;
}
// scotthsu
dwValue = pcpd->lpFEConsole->uCodePage;
RegSetValueEx( hTitleKey,
CONSOLE_REGISTRY_CODEPAGE,
0,
REG_DWORD,
(LPBYTE)&dwValue,
sizeof(dwValue)
);
//
// Close the registry keys
//
if (hTitleKey != hConsoleKey) {
RegCloseKey(hTitleKey);
}
CloseKeys:
RegCloseKey(hConsoleKey);
RegCloseKey(hCurrentUserKey);
}