reactos/dll/win32/imm32/utils.c
Katayama Hirofumi MZ 85e292d58f
[NTUSER][USER32][IMM32] Initialize pKL->piiex by using ImmLoadLayout (#4645)
To recognize IME, we have to initialize pKL->piiex.
- Add co_ClientImmLoadLayout and User32CallImmLoadLayoutFromKernel functions to call imm32!ImmLoadLayout on user mode from kernel.
- Use co_ClientImmLoadLayout in NtUserLoadKeyboardLayoutEx.
- Improve Imm32LoadIME to sanitize the IME table.
CORE-11700
2022-09-05 08:34:00 +09:00

1227 lines
34 KiB
C

/*
* PROJECT: ReactOS IMM32
* LICENSE: LGPL-2.1-or-later (https://spdx.org/licenses/LGPL-2.1-or-later)
* PURPOSE: Implementing IMM32 helper functions
* COPYRIGHT: Copyright 1998 Patrik Stridvall
* Copyright 2002, 2003, 2007 CodeWeavers, Aric Stewart
* Copyright 2017 James Tabor <james.tabor@reactos.org>
* Copyright 2018 Amine Khaldi <amine.khaldi@reactos.org>
* Copyright 2020-2021 Katayama Hirofumi MZ <katayama.hirofumi.mz@gmail.com>
*/
#include "precomp.h"
WINE_DEFAULT_DEBUG_CHANNEL(imm);
HANDLE ghImmHeap = NULL; // Win: pImmHeap
// Win: StrToUInt
HRESULT APIENTRY
Imm32StrToUInt(LPCWSTR pszText, LPDWORD pdwValue, ULONG nBase)
{
NTSTATUS Status;
UNICODE_STRING UnicodeString;
RtlInitUnicodeString(&UnicodeString, pszText);
Status = RtlUnicodeStringToInteger(&UnicodeString, nBase, pdwValue);
if (!NT_SUCCESS(Status))
return E_FAIL;
return S_OK;
}
// Win: UIntToStr
HRESULT APIENTRY
Imm32UIntToStr(DWORD dwValue, ULONG nBase, LPWSTR pszBuff, USHORT cchBuff)
{
NTSTATUS Status;
UNICODE_STRING UnicodeString;
UnicodeString.Buffer = pszBuff;
UnicodeString.MaximumLength = cchBuff * sizeof(WCHAR);
Status = RtlIntegerToUnicodeString(dwValue, nBase, &UnicodeString);
if (!NT_SUCCESS(Status))
return E_FAIL;
return S_OK;
}
BOOL APIENTRY Imm32IsSystemJapaneseOrKorean(VOID)
{
LCID lcid = GetSystemDefaultLCID();
LANGID LangID = LANGIDFROMLCID(lcid);
WORD wPrimary = PRIMARYLANGID(LangID);
return (wPrimary == LANG_JAPANESE || wPrimary == LANG_KOREAN);
}
typedef struct tagBITMAPCOREINFO256
{
BITMAPCOREHEADER bmciHeader;
RGBTRIPLE bmciColors[256];
} BITMAPCOREINFO256, *PBITMAPCOREINFO256;
HBITMAP Imm32LoadBitmapFromBytes(const BYTE *pb)
{
HBITMAP hbm = NULL;
const BITMAPCOREINFO256 *pbmci;
LPVOID pvBits;
DWORD ib, cbBytes, cColors;
BITMAP bm;
cbBytes = *(const DWORD *)pb;
if (cbBytes == 0)
return NULL;
pb += sizeof(DWORD);
ib = sizeof(DWORD);
pbmci = (const BITMAPCOREINFO256 *)pb;
hbm = CreateDIBSection(NULL, (LPBITMAPINFO)pbmci, DIB_RGB_COLORS, &pvBits, NULL, 0);
if (!hbm || !GetObject(hbm, sizeof(BITMAP), &bm))
return NULL;
switch (pbmci->bmciHeader.bcBitCount)
{
case 1: cColors = 2; break;
case 4: cColors = 16; break;
case 8: cColors = 256; break;
case 24: case 32:
cColors = 0;
break;
default:
DeleteObject(hbm);
return NULL;
}
ib += sizeof(BITMAPCOREHEADER);
pb += sizeof(BITMAPCOREHEADER);
ib += cColors * sizeof(RGBTRIPLE);
pb += cColors * sizeof(RGBTRIPLE);
ib += bm.bmWidthBytes * bm.bmHeight;
if (ib > cbBytes)
{
DeleteObject(hbm);
return NULL;
}
CopyMemory(pvBits, pb, bm.bmWidthBytes * bm.bmHeight);
return hbm;
}
BOOL Imm32StoreBitmapToBytes(HBITMAP hbm, LPBYTE pbData, DWORD cbDataMax)
{
HDC hDC;
BITMAP bm;
DWORD cbBytes, cColors;
BITMAPCOREINFO256 bmci;
BOOL ret;
LPBYTE pb = pbData;
*(LPDWORD)pb = 0;
if (!GetObject(hbm, sizeof(BITMAP), &bm))
return FALSE;
ZeroMemory(&bmci, sizeof(bmci));
bmci.bmciHeader.bcSize = sizeof(BITMAPCOREHEADER);
bmci.bmciHeader.bcWidth = bm.bmWidth;
bmci.bmciHeader.bcHeight = bm.bmHeight;
bmci.bmciHeader.bcPlanes = 1;
bmci.bmciHeader.bcBitCount = bm.bmBitsPixel;
switch (bm.bmBitsPixel)
{
case 1: cColors = 2; break;
case 4: cColors = 16; break;
case 8: cColors = 256; break;
case 24: case 32:
cColors = 0;
break;
default:
return FALSE;
}
cbBytes = sizeof(DWORD);
cbBytes += sizeof(BITMAPCOREHEADER);
cbBytes += cColors * sizeof(RGBTRIPLE);
cbBytes += bm.bmWidthBytes * bm.bmHeight;
if (cbBytes > cbDataMax)
return FALSE;
hDC = CreateCompatibleDC(NULL);
ret = GetDIBits(hDC, hbm, 0, bm.bmHeight, NULL, (LPBITMAPINFO)&bmci, DIB_RGB_COLORS);
if (ret)
{
*(LPDWORD)pb = cbBytes;
pb += sizeof(DWORD);
CopyMemory(pb, &bmci.bmciHeader, sizeof(BITMAPCOREHEADER));
pb += sizeof(BITMAPCOREHEADER);
CopyMemory(pb, &bmci.bmciColors, cColors * sizeof(RGBTRIPLE));
pb += cColors * sizeof(RGBTRIPLE);
ret = GetDIBits(hDC, hbm, 0, bm.bmHeight, pb, (LPBITMAPINFO)&bmci, DIB_RGB_COLORS);
if (!ret)
*(LPDWORD)pbData = 0;
}
DeleteDC(hDC);
return ret;
}
// Win: IsAnsiIMC
BOOL WINAPI Imm32IsImcAnsi(HIMC hIMC)
{
BOOL ret;
PCLIENTIMC pClientImc = ImmLockClientImc(hIMC);
if (!pClientImc)
return -1;
ret = !(pClientImc->dwFlags & CLIENTIMC_WIDE);
ImmUnlockClientImc(pClientImc);
return ret;
}
LPWSTR APIENTRY Imm32WideFromAnsi(LPCSTR pszA)
{
INT cch = lstrlenA(pszA);
LPWSTR pszW = ImmLocalAlloc(0, (cch + 1) * sizeof(WCHAR));
if (pszW == NULL)
return NULL;
cch = MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, pszA, cch, pszW, cch + 1);
pszW[cch] = 0;
return pszW;
}
LPSTR APIENTRY Imm32AnsiFromWide(LPCWSTR pszW)
{
INT cchW = lstrlenW(pszW);
INT cchA = (cchW + 1) * sizeof(WCHAR);
LPSTR pszA = ImmLocalAlloc(0, cchA);
if (!pszA)
return NULL;
cchA = WideCharToMultiByte(CP_ACP, 0, pszW, cchW, pszA, cchA, NULL, NULL);
pszA[cchA] = 0;
return pszA;
}
/* Converts the character index */
LONG APIENTRY IchWideFromAnsi(LONG cchAnsi, LPCSTR pchAnsi, UINT uCodePage)
{
LONG cchWide;
for (cchWide = 0; cchAnsi > 0; ++cchWide)
{
if (IsDBCSLeadByteEx(uCodePage, *pchAnsi) && pchAnsi[1])
{
cchAnsi -= 2;
pchAnsi += 2;
}
else
{
--cchAnsi;
++pchAnsi;
}
}
return cchWide;
}
/* Converts the character index */
LONG APIENTRY IchAnsiFromWide(LONG cchWide, LPCWSTR pchWide, UINT uCodePage)
{
LONG cb, cchAnsi;
for (cchAnsi = 0; cchWide > 0; ++cchAnsi, ++pchWide, --cchWide)
{
cb = WideCharToMultiByte(uCodePage, 0, pchWide, 1, NULL, 0, NULL, NULL);
if (cb > 1)
++cchAnsi;
}
return cchAnsi;
}
// Win: InternalGetSystemPathName
BOOL Imm32GetSystemLibraryPath(LPWSTR pszPath, DWORD cchPath, LPCWSTR pszFileName)
{
if (!pszFileName[0] || !GetSystemDirectoryW(pszPath, cchPath))
return FALSE;
StringCchCatW(pszPath, cchPath, L"\\");
StringCchCatW(pszPath, cchPath, pszFileName);
return TRUE;
}
// Win: LFontAtoLFontW
VOID APIENTRY LogFontAnsiToWide(const LOGFONTA *plfA, LPLOGFONTW plfW)
{
size_t cch;
RtlCopyMemory(plfW, plfA, offsetof(LOGFONTA, lfFaceName));
StringCchLengthA(plfA->lfFaceName, _countof(plfA->lfFaceName), &cch);
cch = MultiByteToWideChar(CP_ACP, MB_PRECOMPOSED, plfA->lfFaceName, (INT)cch,
plfW->lfFaceName, _countof(plfW->lfFaceName));
if (cch > _countof(plfW->lfFaceName) - 1)
cch = _countof(plfW->lfFaceName) - 1;
plfW->lfFaceName[cch] = 0;
}
// Win: LFontWtoLFontA
VOID APIENTRY LogFontWideToAnsi(const LOGFONTW *plfW, LPLOGFONTA plfA)
{
size_t cch;
RtlCopyMemory(plfA, plfW, offsetof(LOGFONTW, lfFaceName));
StringCchLengthW(plfW->lfFaceName, _countof(plfW->lfFaceName), &cch);
cch = WideCharToMultiByte(CP_ACP, 0, plfW->lfFaceName, (INT)cch,
plfA->lfFaceName, _countof(plfA->lfFaceName), NULL, NULL);
if (cch > _countof(plfA->lfFaceName) - 1)
cch = _countof(plfA->lfFaceName) - 1;
plfA->lfFaceName[cch] = 0;
}
static PVOID FASTCALL DesktopPtrToUser(PVOID ptr)
{
PCLIENTINFO pci = GetWin32ClientInfo();
PDESKTOPINFO pdi = pci->pDeskInfo;
ASSERT(ptr != NULL);
ASSERT(pdi != NULL);
if (pdi->pvDesktopBase <= ptr && ptr < pdi->pvDesktopLimit)
return (PVOID)((ULONG_PTR)ptr - pci->ulClientDelta);
else
return (PVOID)NtUserCallOneParam((DWORD_PTR)ptr, ONEPARAM_ROUTINE_GETDESKTOPMAPPING);
}
// Win: HMValidateHandleNoRip
LPVOID FASTCALL ValidateHandleNoErr(HANDLE hObject, UINT uType)
{
UINT index;
PUSER_HANDLE_TABLE ht;
PUSER_HANDLE_ENTRY he;
WORD generation;
LPVOID ptr;
if (!NtUserValidateHandleSecure(hObject))
return NULL;
ht = gSharedInfo.aheList; /* handle table */
ASSERT(ht);
/* ReactOS-Specific! */
ASSERT(gSharedInfo.ulSharedDelta != 0);
he = (PUSER_HANDLE_ENTRY)((ULONG_PTR)ht->handles - gSharedInfo.ulSharedDelta);
index = (LOWORD(hObject) - FIRST_USER_HANDLE) >> 1;
if ((INT)index < 0 || ht->nb_handles <= index || he[index].type != uType)
return NULL;
if (he[index].flags & HANDLEENTRY_DESTROY)
return NULL;
generation = HIWORD(hObject);
if (generation != he[index].generation && generation && generation != 0xFFFF)
return NULL;
ptr = he[index].ptr;
if (ptr)
ptr = DesktopPtrToUser(ptr);
return ptr;
}
// Win: HMValidateHandle
LPVOID FASTCALL ValidateHandle(HANDLE hObject, UINT uType)
{
LPVOID pvObj = ValidateHandleNoErr(hObject, uType);
if (pvObj)
return pvObj;
if (uType == TYPE_WINDOW)
SetLastError(ERROR_INVALID_WINDOW_HANDLE);
else
SetLastError(ERROR_INVALID_HANDLE);
return NULL;
}
// Win: TestInputContextProcess
BOOL APIENTRY Imm32CheckImcProcess(PIMC pIMC)
{
HIMC hIMC;
DWORD dwProcessID;
if (pIMC->head.pti == Imm32CurrentPti())
return TRUE;
hIMC = pIMC->head.h;
dwProcessID = (DWORD)NtUserQueryInputContext(hIMC, QIC_INPUTPROCESSID);
return dwProcessID == (DWORD_PTR)NtCurrentTeb()->ClientId.UniqueProcess;
}
// Win: ImmLocalAlloc
LPVOID APIENTRY ImmLocalAlloc(DWORD dwFlags, DWORD dwBytes)
{
if (!ghImmHeap)
{
ghImmHeap = RtlGetProcessHeap();
if (ghImmHeap == NULL)
return NULL;
}
return HeapAlloc(ghImmHeap, dwFlags, dwBytes);
}
// Win: MakeIMENotify
BOOL APIENTRY
Imm32MakeIMENotify(HIMC hIMC, HWND hwnd, DWORD dwAction, DWORD_PTR dwIndex, DWORD_PTR dwValue,
DWORD_PTR dwCommand, DWORD_PTR dwData)
{
DWORD dwThreadId;
HKL hKL;
PIMEDPI pImeDpi;
if (dwAction)
{
dwThreadId = (DWORD)NtUserQueryInputContext(hIMC, QIC_INPUTTHREADID);
if (dwThreadId)
{
/* find keyboard layout and lock it */
hKL = GetKeyboardLayout(dwThreadId);
pImeDpi = ImmLockImeDpi(hKL);
if (pImeDpi)
{
/* do notify */
pImeDpi->NotifyIME(hIMC, dwAction, dwIndex, dwValue);
ImmUnlockImeDpi(pImeDpi); /* unlock */
}
}
}
if (hwnd && dwCommand)
SendMessageW(hwnd, WM_IME_NOTIFY, dwCommand, dwData);
return TRUE;
}
// Win: BuildHimcList
DWORD APIENTRY Imm32BuildHimcList(DWORD dwThreadId, HIMC **pphList)
{
#define INITIAL_COUNT 0x40
#define MAX_RETRY 10
NTSTATUS Status;
DWORD dwCount = INITIAL_COUNT, cRetry = 0;
HIMC *phNewList;
phNewList = ImmLocalAlloc(0, dwCount * sizeof(HIMC));
if (phNewList == NULL)
return 0;
Status = NtUserBuildHimcList(dwThreadId, dwCount, phNewList, &dwCount);
while (Status == STATUS_BUFFER_TOO_SMALL)
{
ImmLocalFree(phNewList);
if (cRetry++ >= MAX_RETRY)
return 0;
phNewList = ImmLocalAlloc(0, dwCount * sizeof(HIMC));
if (phNewList == NULL)
return 0;
Status = NtUserBuildHimcList(dwThreadId, dwCount, phNewList, &dwCount);
}
if (NT_ERROR(Status) || !dwCount)
{
ImmLocalFree(phNewList);
return 0;
}
*pphList = phNewList;
return dwCount;
#undef INITIAL_COUNT
#undef MAX_RETRY
}
// Win: ConvertImeMenuItemInfoAtoW
INT APIENTRY
Imm32ImeMenuAnsiToWide(const IMEMENUITEMINFOA *pItemA, LPIMEMENUITEMINFOW pItemW,
UINT uCodePage, BOOL bBitmap)
{
INT ret;
pItemW->cbSize = pItemA->cbSize;
pItemW->fType = pItemA->fType;
pItemW->fState = pItemA->fState;
pItemW->wID = pItemA->wID;
if (bBitmap)
{
pItemW->hbmpChecked = pItemA->hbmpChecked;
pItemW->hbmpUnchecked = pItemA->hbmpUnchecked;
pItemW->hbmpItem = pItemA->hbmpItem;
}
pItemW->dwItemData = pItemA->dwItemData;
ret = MultiByteToWideChar(uCodePage, 0, pItemA->szString, -1,
pItemW->szString, _countof(pItemW->szString));
if (ret >= _countof(pItemW->szString))
{
ret = 0;
pItemW->szString[0] = 0;
}
return ret;
}
// Win: ConvertImeMenuItemInfoWtoA
INT APIENTRY
Imm32ImeMenuWideToAnsi(const IMEMENUITEMINFOW *pItemW, LPIMEMENUITEMINFOA pItemA,
UINT uCodePage)
{
INT ret;
pItemA->cbSize = pItemW->cbSize;
pItemA->fType = pItemW->fType;
pItemA->fState = pItemW->fState;
pItemA->wID = pItemW->wID;
pItemA->hbmpChecked = pItemW->hbmpChecked;
pItemA->hbmpUnchecked = pItemW->hbmpUnchecked;
pItemA->dwItemData = pItemW->dwItemData;
pItemA->hbmpItem = pItemW->hbmpItem;
ret = WideCharToMultiByte(uCodePage, 0, pItemW->szString, -1,
pItemA->szString, _countof(pItemA->szString), NULL, NULL);
if (ret >= _countof(pItemA->szString))
{
ret = 0;
pItemA->szString[0] = 0;
}
return ret;
}
// Win: GetImeModeSaver
PIME_STATE APIENTRY
Imm32FetchImeState(LPINPUTCONTEXTDX pIC, HKL hKL)
{
PIME_STATE pState;
WORD Lang = PRIMARYLANGID(LOWORD(hKL));
for (pState = pIC->pState; pState; pState = pState->pNext)
{
if (pState->wLang == Lang)
break;
}
if (!pState)
{
pState = ImmLocalAlloc(HEAP_ZERO_MEMORY, sizeof(IME_STATE));
if (pState)
{
pState->wLang = Lang;
pState->pNext = pIC->pState;
pIC->pState = pState;
}
}
return pState;
}
// Win: GetImePrivateModeSaver
PIME_SUBSTATE APIENTRY
Imm32FetchImeSubState(PIME_STATE pState, HKL hKL)
{
PIME_SUBSTATE pSubState;
for (pSubState = pState->pSubState; pSubState; pSubState = pSubState->pNext)
{
if (pSubState->hKL == hKL)
return pSubState;
}
pSubState = ImmLocalAlloc(0, sizeof(IME_SUBSTATE));
if (!pSubState)
return NULL;
pSubState->dwValue = 0;
pSubState->hKL = hKL;
pSubState->pNext = pState->pSubState;
pState->pSubState = pSubState;
return pSubState;
}
// Win: RestorePrivateMode
BOOL APIENTRY
Imm32LoadImeStateSentence(LPINPUTCONTEXTDX pIC, PIME_STATE pState, HKL hKL)
{
PIME_SUBSTATE pSubState = Imm32FetchImeSubState(pState, hKL);
if (pSubState)
{
pIC->fdwSentence |= pSubState->dwValue;
return TRUE;
}
return FALSE;
}
// Win: SavePrivateMode
BOOL APIENTRY
Imm32SaveImeStateSentence(LPINPUTCONTEXTDX pIC, PIME_STATE pState, HKL hKL)
{
PIME_SUBSTATE pSubState = Imm32FetchImeSubState(pState, hKL);
if (pSubState)
{
pSubState->dwValue = (pIC->fdwSentence & 0xffff0000);
return TRUE;
}
return FALSE;
}
/*
* See RECONVERTSTRING structure:
* https://katahiromz.web.fc2.com/colony3rd/imehackerz/en/RECONVERTSTRING.html
*
* The dwCompStrOffset and dwTargetOffset members are the relative position of dwStrOffset.
* dwStrLen, dwCompStrLen, and dwTargetStrLen are the TCHAR count. dwStrOffset,
* dwCompStrOffset, and dwTargetStrOffset are the byte offset.
*/
DWORD APIENTRY
Imm32ReconvertWideFromAnsi(LPRECONVERTSTRING pDest, const RECONVERTSTRING *pSrc, UINT uCodePage)
{
DWORD cch0, cchDest, cbDest;
LPCSTR pchSrc = (LPCSTR)pSrc + pSrc->dwStrOffset;
LPWSTR pchDest;
if (pSrc->dwVersion != 0)
return 0;
cchDest = MultiByteToWideChar(uCodePage, MB_PRECOMPOSED, pchSrc, pSrc->dwStrLen,
NULL, 0);
cbDest = sizeof(RECONVERTSTRING) + (cchDest + 1) * sizeof(WCHAR);
if (!pDest)
return cbDest;
if (pDest->dwSize < cbDest)
return 0;
/* dwSize */
pDest->dwSize = cbDest;
/* dwVersion */
pDest->dwVersion = 0;
/* dwStrOffset */
pDest->dwStrOffset = sizeof(RECONVERTSTRING);
/* dwCompStrOffset */
cch0 = IchWideFromAnsi(pSrc->dwCompStrOffset, pchSrc, uCodePage);
pDest->dwCompStrOffset = cch0 * sizeof(WCHAR);
/* dwCompStrLen */
cch0 = IchWideFromAnsi(pSrc->dwCompStrOffset + pSrc->dwCompStrLen, pchSrc, uCodePage);
pDest->dwCompStrLen = (cch0 * sizeof(WCHAR) - pDest->dwCompStrOffset) / sizeof(WCHAR);
/* dwTargetStrOffset */
cch0 = IchWideFromAnsi(pSrc->dwTargetStrOffset, pchSrc, uCodePage);
pDest->dwTargetStrOffset = cch0 * sizeof(WCHAR);
/* dwTargetStrLen */
cch0 = IchWideFromAnsi(pSrc->dwTargetStrOffset + pSrc->dwTargetStrLen, pchSrc, uCodePage);
pDest->dwTargetStrLen = (cch0 * sizeof(WCHAR) - pSrc->dwTargetStrOffset) / sizeof(WCHAR);
/* dwStrLen */
pDest->dwStrLen = cchDest;
/* the string */
pchDest = (LPWSTR)((LPBYTE)pDest + pDest->dwStrOffset);
cchDest = MultiByteToWideChar(uCodePage, MB_PRECOMPOSED, pchSrc, pSrc->dwStrLen,
pchDest, cchDest);
pchDest[cchDest] = 0;
return cbDest;
}
DWORD APIENTRY
Imm32ReconvertAnsiFromWide(LPRECONVERTSTRING pDest, const RECONVERTSTRING *pSrc, UINT uCodePage)
{
DWORD cch0, cch1, cchDest, cbDest;
LPCWSTR pchSrc = (LPCWSTR)((LPCSTR)pSrc + pSrc->dwStrOffset);
LPSTR pchDest;
if (pSrc->dwVersion != 0)
return 0;
cchDest = WideCharToMultiByte(uCodePage, 0, pchSrc, pSrc->dwStrLen,
NULL, 0, NULL, NULL);
cbDest = sizeof(RECONVERTSTRING) + (cchDest + 1) * sizeof(CHAR);
if (!pDest)
return cbDest;
if (pDest->dwSize < cbDest)
return 0;
/* dwSize */
pDest->dwSize = cbDest;
/* dwVersion */
pDest->dwVersion = 0;
/* dwStrOffset */
pDest->dwStrOffset = sizeof(RECONVERTSTRING);
/* dwCompStrOffset */
cch1 = pSrc->dwCompStrOffset / sizeof(WCHAR);
cch0 = IchAnsiFromWide(cch1, pchSrc, uCodePage);
pDest->dwCompStrOffset = cch0 * sizeof(CHAR);
/* dwCompStrLen */
cch0 = IchAnsiFromWide(cch1 + pSrc->dwCompStrLen, pchSrc, uCodePage);
pDest->dwCompStrLen = cch0 * sizeof(CHAR) - pDest->dwCompStrOffset;
/* dwTargetStrOffset */
cch1 = pSrc->dwTargetStrOffset / sizeof(WCHAR);
cch0 = IchAnsiFromWide(cch1, pchSrc, uCodePage);
pDest->dwTargetStrOffset = cch0 * sizeof(CHAR);
/* dwTargetStrLen */
cch0 = IchAnsiFromWide(cch1 + pSrc->dwTargetStrLen, pchSrc, uCodePage);
pDest->dwTargetStrLen = cch0 * sizeof(CHAR) - pDest->dwTargetStrOffset;
/* dwStrLen */
pDest->dwStrLen = cchDest;
/* the string */
pchDest = (LPSTR)pDest + pDest->dwStrOffset;
cchDest = WideCharToMultiByte(uCodePage, 0, pchSrc, pSrc->dwStrLen,
pchDest, cchDest, NULL, NULL);
pchDest[cchDest] = 0;
return cbDest;
}
typedef BOOL (WINAPI *FN_GetFileVersionInfoW)(LPCWSTR, DWORD, DWORD, LPVOID);
typedef DWORD (WINAPI *FN_GetFileVersionInfoSizeW)(LPCWSTR, LPDWORD);
typedef BOOL (WINAPI *FN_VerQueryValueW)(LPCVOID, LPCWSTR, LPVOID*, PUINT);
static FN_GetFileVersionInfoW s_fnGetFileVersionInfoW = NULL;
static FN_GetFileVersionInfoSizeW s_fnGetFileVersionInfoSizeW = NULL;
static FN_VerQueryValueW s_fnVerQueryValueW = NULL;
// Win: LoadFixVersionInfo
static BOOL APIENTRY Imm32LoadImeFixedInfo(PIMEINFOEX pInfoEx, LPCVOID pVerInfo)
{
UINT cbFixed = 0;
VS_FIXEDFILEINFO *pFixed;
if (!s_fnVerQueryValueW(pVerInfo, L"\\", (LPVOID*)&pFixed, &cbFixed) || !cbFixed)
return FALSE;
/* NOTE: The IME module must contain a version info of input method driver. */
if (pFixed->dwFileType != VFT_DRV || pFixed->dwFileSubtype != VFT2_DRV_INPUTMETHOD)
return FALSE;
pInfoEx->dwProdVersion = pFixed->dwProductVersionMS;
pInfoEx->dwImeWinVersion = 0x40000;
return TRUE;
}
// Win: GetVersionDatum
static LPWSTR APIENTRY
Imm32GetVerInfoValue(LPCVOID pVerInfo, LPWSTR pszKey, DWORD cchKey, LPCWSTR pszName)
{
size_t cchExtra;
LPWSTR pszValue;
UINT cbValue = 0;
StringCchLengthW(pszKey, cchKey, &cchExtra);
StringCchCatW(pszKey, cchKey, pszName);
s_fnVerQueryValueW(pVerInfo, pszKey, (LPVOID*)&pszValue, &cbValue);
pszKey[cchExtra] = 0;
return (cbValue ? pszValue : NULL);
}
// Win: LoadVarVersionInfo
BOOL APIENTRY Imm32LoadImeLangAndDesc(PIMEINFOEX pInfoEx, LPCVOID pVerInfo)
{
BOOL ret;
WCHAR szKey[80];
LPWSTR pszDesc;
LPWORD pw;
UINT cbData;
LANGID LangID;
/* Getting the version info. See VerQueryValue */
ret = s_fnVerQueryValueW(pVerInfo, L"\\VarFileInfo\\Translation", (LPVOID*)&pw, &cbData);
if (!ret || !cbData)
return FALSE;
if (pInfoEx->hkl == NULL)
pInfoEx->hkl = (HKL)(DWORD_PTR)*pw; /* This is an invalid HKL */
/* Try the current language and the Unicode codepage (0x04B0) */
LangID = LANGIDFROMLCID(GetThreadLocale());
StringCchPrintfW(szKey, _countof(szKey), L"\\StringFileInfo\\%04X04B0\\", LangID);
pszDesc = Imm32GetVerInfoValue(pVerInfo, szKey, _countof(szKey), L"FileDescription");
if (!pszDesc)
{
/* Retry the language and codepage of the IME module */
StringCchPrintfW(szKey, _countof(szKey), L"\\StringFileInfo\\%04X%04X\\", pw[0], pw[1]);
pszDesc = Imm32GetVerInfoValue(pVerInfo, szKey, _countof(szKey), L"FileDescription");
}
/* The description */
if (pszDesc)
StringCchCopyW(pInfoEx->wszImeDescription, _countof(pInfoEx->wszImeDescription), pszDesc);
else
pInfoEx->wszImeDescription[0] = 0;
return TRUE;
}
// Win: LoadVersionInfo
BOOL APIENTRY Imm32LoadImeVerInfo(PIMEINFOEX pImeInfoEx)
{
HINSTANCE hinstVersion;
BOOL ret = FALSE, bLoaded = FALSE;
WCHAR szPath[MAX_PATH];
LPVOID pVerInfo;
DWORD cbVerInfo, dwHandle;
/* Load version.dll to use the version info API */
Imm32GetSystemLibraryPath(szPath, _countof(szPath), L"version.dll");
hinstVersion = GetModuleHandleW(szPath);
if (!hinstVersion)
{
hinstVersion = LoadLibraryW(szPath);
if (!hinstVersion)
return FALSE;
bLoaded = TRUE;
}
#define GET_FN(name) do { \
s_fn##name = (FN_##name)GetProcAddress(hinstVersion, #name); \
if (!s_fn##name) goto Quit; \
} while (0)
GET_FN(GetFileVersionInfoW);
GET_FN(GetFileVersionInfoSizeW);
GET_FN(VerQueryValueW);
#undef GET_FN
/* The path of the IME module */
Imm32GetSystemLibraryPath(szPath, _countof(szPath), pImeInfoEx->wszImeFile);
cbVerInfo = s_fnGetFileVersionInfoSizeW(szPath, &dwHandle);
if (!cbVerInfo)
goto Quit;
pVerInfo = ImmLocalAlloc(0, cbVerInfo);
if (!pVerInfo)
goto Quit;
/* Load the version info of the IME module */
if (s_fnGetFileVersionInfoW(szPath, dwHandle, cbVerInfo, pVerInfo) &&
Imm32LoadImeFixedInfo(pImeInfoEx, pVerInfo))
{
ret = Imm32LoadImeLangAndDesc(pImeInfoEx, pVerInfo);
}
ImmLocalFree(pVerInfo);
Quit:
if (bLoaded)
FreeLibrary(hinstVersion);
return ret;
}
// Win: AssignNewLayout
HKL APIENTRY Imm32AssignNewLayout(UINT cKLs, const REG_IME *pLayouts, WORD wLangID)
{
UINT iKL, wID, wLow = 0xE0FF, wHigh = 0xE01F, wNextID = 0;
for (iKL = 0; iKL < cKLs; ++iKL)
{
wHigh = max(wHigh, HIWORD(pLayouts[iKL].hKL));
wLow = min(wLow, HIWORD(pLayouts[iKL].hKL));
}
if (wHigh < 0xE0FF)
{
wNextID = wHigh + 1;
}
else if (wLow > 0xE001)
{
wNextID = wLow - 1;
}
else
{
for (wID = 0xE020; wID <= 0xE0FF; ++wID)
{
for (iKL = 0; iKL < cKLs; ++iKL)
{
if (LOWORD(pLayouts[iKL].hKL) == wLangID &&
HIWORD(pLayouts[iKL].hKL) == wID)
{
break;
}
}
if (iKL >= cKLs)
break;
}
if (wID <= 0xE0FF)
wNextID = wID;
}
if (!wNextID)
return NULL;
return (HKL)(DWORD_PTR)MAKELONG(wLangID, wNextID);
}
// Win: GetImeLayout
UINT APIENTRY Imm32GetImeLayout(PREG_IME pLayouts, UINT cLayouts)
{
HKEY hkeyLayouts, hkeyIME;
WCHAR szImeFileName[80], szImeKey[20];
UINT iKey, nCount;
DWORD cbData;
LONG lError;
ULONG Value;
HKL hKL;
/* Open the registry keyboard layouts */
lError = RegOpenKeyW(HKEY_LOCAL_MACHINE, REGKEY_KEYBOARD_LAYOUTS, &hkeyLayouts);
if (lError != ERROR_SUCCESS)
return 0;
for (iKey = nCount = 0; ; ++iKey)
{
/* Get the key name */
lError = RegEnumKeyW(hkeyLayouts, iKey, szImeKey, _countof(szImeKey));
if (lError != ERROR_SUCCESS)
break;
if (szImeKey[0] != L'E' && szImeKey[0] != L'e')
continue; /* Not an IME layout */
if (pLayouts == NULL) /* for counting only */
{
++nCount;
continue;
}
if (cLayouts <= nCount)
break;
lError = RegOpenKeyW(hkeyLayouts, szImeKey, &hkeyIME); /* Open the IME key */
if (lError != ERROR_SUCCESS)
break;
/* Load the "Ime File" value */
szImeFileName[0] = 0;
cbData = sizeof(szImeFileName);
RegQueryValueExW(hkeyIME, L"Ime File", NULL, NULL, (LPBYTE)szImeFileName, &cbData);
szImeFileName[_countof(szImeFileName) - 1] = 0;
RegCloseKey(hkeyIME);
if (!szImeFileName[0])
break;
Imm32StrToUInt(szImeKey, &Value, 16);
hKL = (HKL)(DWORD_PTR)Value;
if (!IS_IME_HKL(hKL))
break;
/* Store the IME key and the IME filename */
pLayouts[nCount].hKL = hKL;
StringCchCopyW(pLayouts[nCount].szImeKey, _countof(pLayouts[nCount].szImeKey), szImeKey);
CharUpperW(szImeFileName);
StringCchCopyW(pLayouts[nCount].szFileName, _countof(pLayouts[nCount].szFileName),
szImeFileName);
++nCount;
}
RegCloseKey(hkeyLayouts);
return nCount;
}
// Win: WriteImeLayout
BOOL APIENTRY Imm32WriteImeLayout(HKL hKL, LPCWSTR pchFilePart, LPCWSTR pszLayout)
{
UINT iPreload;
HKEY hkeyLayouts, hkeyIME, hkeyPreload;
WCHAR szImeKey[20], szPreloadNumber[20], szPreloadKey[20], szImeFileName[80];
DWORD cbData;
LANGID LangID;
LONG lError;
LPCWSTR pszLayoutFile;
/* Open the registry keyboard layouts */
lError = RegOpenKeyW(HKEY_LOCAL_MACHINE, REGKEY_KEYBOARD_LAYOUTS, &hkeyLayouts);
if (lError != ERROR_SUCCESS)
return FALSE;
/* Get the IME key from hKL */
Imm32UIntToStr((DWORD)(DWORD_PTR)hKL, 16, szImeKey, _countof(szImeKey));
/* Create a registry IME key */
lError = RegCreateKeyW(hkeyLayouts, szImeKey, &hkeyIME);
if (lError != ERROR_SUCCESS)
goto Failure;
/* Write "Ime File" */
cbData = (wcslen(pchFilePart) + 1) * sizeof(WCHAR);
lError = RegSetValueExW(hkeyIME, L"Ime File", 0, REG_SZ, (LPBYTE)pchFilePart, cbData);
if (lError != ERROR_SUCCESS)
goto Failure;
/* Write "Layout Text" */
cbData = (wcslen(pszLayout) + 1) * sizeof(WCHAR);
lError = RegSetValueExW(hkeyIME, L"Layout Text", 0, REG_SZ, (LPBYTE)pszLayout, cbData);
if (lError != ERROR_SUCCESS)
goto Failure;
/* Choose "Layout File" from hKL */
LangID = LOWORD(hKL);
switch (LOBYTE(LangID))
{
case LANG_JAPANESE: pszLayoutFile = L"kbdjpn.dll"; break;
case LANG_KOREAN: pszLayoutFile = L"kbdkor.dll"; break;
default: pszLayoutFile = L"kbdus.dll"; break;
}
StringCchCopyW(szImeFileName, _countof(szImeFileName), pszLayoutFile);
/* Write "Layout File" */
cbData = (wcslen(szImeFileName) + 1) * sizeof(WCHAR);
lError = RegSetValueExW(hkeyIME, L"Layout File", 0, REG_SZ, (LPBYTE)szImeFileName, cbData);
if (lError != ERROR_SUCCESS)
goto Failure;
RegCloseKey(hkeyIME);
RegCloseKey(hkeyLayouts);
/* Create "Preload" key */
RegCreateKeyW(HKEY_CURRENT_USER, L"Keyboard Layout\\Preload", &hkeyPreload);
#define MAX_PRELOAD 0x400
for (iPreload = 1; iPreload < MAX_PRELOAD; ++iPreload)
{
Imm32UIntToStr(iPreload, 10, szPreloadNumber, _countof(szPreloadNumber));
/* Load the key of the preload number */
cbData = sizeof(szPreloadKey);
lError = RegQueryValueExW(hkeyPreload, szPreloadNumber, NULL, NULL,
(LPBYTE)szPreloadKey, &cbData);
szPreloadKey[_countof(szPreloadKey) - 1] = 0;
if (lError != ERROR_SUCCESS || lstrcmpiW(szImeKey, szPreloadKey) == 0)
break; /* Found an empty room or the same key */
}
if (iPreload >= MAX_PRELOAD) /* Not found */
{
RegCloseKey(hkeyPreload);
return FALSE;
}
#undef MAX_PRELOAD
/* Write the IME key to the preload number */
cbData = (wcslen(szImeKey) + 1) * sizeof(WCHAR);
lError = RegSetValueExW(hkeyPreload, szPreloadNumber, 0, REG_SZ, (LPBYTE)szImeKey, cbData);
RegCloseKey(hkeyPreload);
return lError == ERROR_SUCCESS;
Failure:
RegCloseKey(hkeyIME);
RegDeleteKeyW(hkeyLayouts, szImeKey);
RegCloseKey(hkeyLayouts);
return FALSE;
}
typedef INT (WINAPI *FN_LZOpenFileW)(LPWSTR, LPOFSTRUCT, WORD);
typedef LONG (WINAPI *FN_LZCopy)(INT, INT);
typedef VOID (WINAPI *FN_LZClose)(INT);
// Win: CopyImeFile
BOOL APIENTRY Imm32CopyImeFile(LPWSTR pszOldFile, LPCWSTR pszNewFile)
{
BOOL ret = FALSE, bLoaded = FALSE;
HMODULE hinstLZ32;
WCHAR szLZ32Path[MAX_PATH];
CHAR szDestA[MAX_PATH];
OFSTRUCT OFStruct;
FN_LZOpenFileW fnLZOpenFileW;
FN_LZCopy fnLZCopy;
FN_LZClose fnLZClose;
HFILE hfDest, hfSrc;
/* Load LZ32.dll for copying/decompressing file */
Imm32GetSystemLibraryPath(szLZ32Path, _countof(szLZ32Path), L"LZ32");
hinstLZ32 = GetModuleHandleW(szLZ32Path);
if (!hinstLZ32)
{
hinstLZ32 = LoadLibraryW(szLZ32Path);
if (!hinstLZ32)
return FALSE;
bLoaded = TRUE;
}
#define GET_FN(name) do { \
fn##name = (FN_##name)GetProcAddress(hinstLZ32, #name); \
if (!fn##name) goto Quit; \
} while (0)
GET_FN(LZOpenFileW);
GET_FN(LZCopy);
GET_FN(LZClose);
#undef GET_FN
if (!WideCharToMultiByte(CP_ACP, 0, pszNewFile, -1, szDestA, _countof(szDestA), NULL, NULL))
goto Quit;
szDestA[_countof(szDestA) - 1] = 0;
hfSrc = fnLZOpenFileW(pszOldFile, &OFStruct, OF_READ);
if (hfSrc < 0)
goto Quit;
hfDest = OpenFile(szDestA, &OFStruct, OF_CREATE);
if (hfDest != HFILE_ERROR)
{
ret = (fnLZCopy(hfSrc, hfDest) >= 0);
_lclose(hfDest);
}
fnLZClose(hfSrc);
Quit:
if (bLoaded)
FreeLibrary(hinstLZ32);
return ret;
}
/***********************************************************************
* ImmCreateIMCC(IMM32.@)
*/
HIMCC WINAPI ImmCreateIMCC(DWORD size)
{
if (size < sizeof(DWORD))
size = sizeof(DWORD);
return LocalAlloc(LHND, size);
}
/***********************************************************************
* ImmDestroyIMCC(IMM32.@)
*/
HIMCC WINAPI ImmDestroyIMCC(HIMCC block)
{
if (block)
return LocalFree(block);
return NULL;
}
/***********************************************************************
* ImmLockIMCC(IMM32.@)
*/
LPVOID WINAPI ImmLockIMCC(HIMCC imcc)
{
if (imcc)
return LocalLock(imcc);
return NULL;
}
/***********************************************************************
* ImmUnlockIMCC(IMM32.@)
*/
BOOL WINAPI ImmUnlockIMCC(HIMCC imcc)
{
if (imcc)
return LocalUnlock(imcc);
return FALSE;
}
/***********************************************************************
* ImmGetIMCCLockCount(IMM32.@)
*/
DWORD WINAPI ImmGetIMCCLockCount(HIMCC imcc)
{
return LocalFlags(imcc) & LMEM_LOCKCOUNT;
}
/***********************************************************************
* ImmReSizeIMCC(IMM32.@)
*/
HIMCC WINAPI ImmReSizeIMCC(HIMCC imcc, DWORD size)
{
if (!imcc)
return NULL;
return LocalReAlloc(imcc, size, LHND);
}
/***********************************************************************
* ImmGetIMCCSize(IMM32.@)
*/
DWORD WINAPI ImmGetIMCCSize(HIMCC imcc)
{
if (imcc)
return LocalSize(imcc);
return 0;
}
/***********************************************************************
* ImmGetIMCLockCount(IMM32.@)
*/
DWORD WINAPI ImmGetIMCLockCount(HIMC hIMC)
{
DWORD ret;
HANDLE hInputContext;
PCLIENTIMC pClientImc;
pClientImc = ImmLockClientImc(hIMC);
if (pClientImc == NULL)
return 0;
ret = 0;
hInputContext = pClientImc->hInputContext;
if (hInputContext)
ret = (LocalFlags(hInputContext) & LMEM_LOCKCOUNT);
ImmUnlockClientImc(pClientImc);
return ret;
}
/***********************************************************************
* ImmIMPGetIMEA(IMM32.@)
*/
BOOL WINAPI ImmIMPGetIMEA(HWND hWnd, LPIMEPROA pImePro)
{
FIXME("(%p, %p)\n", hWnd, pImePro);
return FALSE;
}
/***********************************************************************
* ImmIMPGetIMEW(IMM32.@)
*/
BOOL WINAPI ImmIMPGetIMEW(HWND hWnd, LPIMEPROW pImePro)
{
FIXME("(%p, %p)\n", hWnd, pImePro);
return FALSE;
}
/***********************************************************************
* ImmIMPQueryIMEA(IMM32.@)
*/
BOOL WINAPI ImmIMPQueryIMEA(LPIMEPROA pImePro)
{
FIXME("(%p)\n", pImePro);
return FALSE;
}
/***********************************************************************
* ImmIMPQueryIMEW(IMM32.@)
*/
BOOL WINAPI ImmIMPQueryIMEW(LPIMEPROW pImePro)
{
FIXME("(%p)\n", pImePro);
return FALSE;
}
/***********************************************************************
* ImmIMPSetIMEA(IMM32.@)
*/
BOOL WINAPI ImmIMPSetIMEA(HWND hWnd, LPIMEPROA pImePro)
{
FIXME("(%p, %p)\n", hWnd, pImePro);
return FALSE;
}
/***********************************************************************
* ImmIMPSetIMEW(IMM32.@)
*/
BOOL WINAPI ImmIMPSetIMEW(HWND hWnd, LPIMEPROW pImePro)
{
FIXME("(%p, %p)\n", hWnd, pImePro);
return FALSE;
}