#include "ctlspriv.h" #include #define MRU_ORDERDIRTY 0x1000 #define DM_MRULAZY DM_TRACE #define MAX_CHAR 126 #define BASE_CHAR TEXT('a') typedef struct tagMRUDATA { UINT fFlags; UINT uMax; LPVOID lpfnCompare; HKEY hKey; #ifdef DEBUG TCHAR szSubKey[32]; #endif LPTSTR cOrder; } MRUDATA, *PMRUDATA; #define c_szMRU TEXT("MRUList") #define NTHSTRING(p, n) (*((LPTSTR *)((LPBYTE)p+sizeof(MRUDATA))+n)) #define NTHDATA(p, n) (*((LPBYTE *)((LPBYTE)p+sizeof(MRUDATA))+n)) #define NUM_OVERHEAD 3 #ifdef VSTF /*---------------------------------------------------------- Purpose: Validate the MRU structure */ BOOL IsValidPMRUDATA(PMRUDATA pmru) { return (IS_VALID_WRITE_PTR(pmru, MRUDATA) && (NULL == pmru->lpfnCompare || IS_VALID_CODE_PTR(pmru->lpfnCompare, void))); } #endif // VSTF //---------------------------------------------------------------------------- // Internal memcmp - saves loading crt's, cdecl so we can use // as MRUCMPDATAPROC int CDECL _mymemcmp(const void *pBuf1, const void *pBuf2, size_t cb) { // Take advantage of the intrinsic version from crtfree.h return memcmp(pBuf1, pBuf2, cb); } // Use this macro to get the original size of the data. #define DATASIZE(p) (*((LPDWORD)p)) // And this to get a pointer to the original data. #define DATAPDATA(p) (p+sizeof(DWORD)) //---------------------------------------------------------------------------- // For binary data we stick the size of the data at the begining and store the // whole thing in one go. BOOL MRUIsSameData(PMRUDATA pMRU, BYTE* pVal, const void *lpData, UINT cbData) { int cbUseSize; MRUCMPDATAPROC lpfnCompare; ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); lpfnCompare = pMRU->lpfnCompare; ASSERT(IS_VALID_CODE_PTR(lpfnCompare, MRUCMPDATAPROC)); // if there's something other than a mem compare, // don't require the sizes to be equal in order for the // data to be equivalent. if (pMRU->lpfnCompare == _mymemcmp) { if (DATASIZE(pVal) != cbData) return FALSE; cbUseSize = cbData; } else cbUseSize = min(DATASIZE(pVal), cbData); return ((*lpfnCompare)(lpData, DATAPDATA(pVal), cbUseSize) == 0); } //---------------------------------------------------------------------------- HANDLE WINAPI CreateMRUListLazy(LPMRUINFO lpmi, const void *lpData, UINT cbData, LPINT lpiSlot) { PTSTR pOrder, pNewOrder, pTemp; LPBYTE pVal; LONG cbVal; DWORD dwDisposition; DWORD dwType; PMRUDATA pMRU = NULL; HKEY hkeySubKey = NULL; TCHAR szTemp[2]; UINT uMax = lpmi->uMax; HKEY hKey = lpmi->hKey; LPCTSTR lpszSubKey = lpmi->lpszSubKey; MRUCMPPROC lpfnCompare = lpmi->lpfnCompare; int cb; #ifdef DEBUG DWORD dwStart = GetTickCount(); #endif if (!lpfnCompare) { lpfnCompare = (lpmi->fFlags & MRU_BINARY) ? (MRUCMPPROC)_mymemcmp : ((lpmi->fFlags & MRU_ANSI) ? (MRUCMPPROC)lstrcmpiA : (MRUCMPPROC)lstrcmpi); } // limit to 126 so that we don't use extended chars if (uMax > MAX_CHAR-BASE_CHAR) uMax = MAX_CHAR-BASE_CHAR; if (RegCreateKeyEx(hKey, lpszSubKey, 0L, (LPTSTR)c_szShell, REG_OPTION_NON_VOLATILE, KEY_READ | KEY_WRITE, NULL, &hkeySubKey, &dwDisposition) != ERROR_SUCCESS) { goto Error1; } pOrder = (PTSTR)Alloc((uMax + 1) * sizeof(TCHAR)); if (!pOrder) { goto Error1; } cbVal = ((LONG)uMax + 1) * sizeof(TCHAR); if (RegQueryValueEx(hkeySubKey, (LPTSTR)c_szMRU, NULL, &dwType, (LPBYTE)pOrder, &cbVal) != ERROR_SUCCESS) { // if not already in the registry, then start fresh *pOrder = 0; } // Uppercase is not allowed CharLower(pOrder); // We allocate room for the MRUDATA structure, plus the order list, // and the list of strings. cb = (lpmi->fFlags & MRU_BINARY) ? sizeof(LPBYTE) : sizeof(LPTSTR); pMRU = (PMRUDATA)Alloc(sizeof(MRUDATA)+(uMax*cb)); if (!pMRU) { goto Error2; } // Allocate space for the order list pMRU->cOrder = (LPTSTR)Alloc((uMax+1)*sizeof(TCHAR)); if (!pMRU->cOrder) { Free(pMRU); pMRU = NULL; goto Error2; } pMRU->fFlags = lpmi->fFlags; pMRU->uMax = uMax; pMRU->lpfnCompare = lpfnCompare; pMRU->hKey = hkeySubKey; #ifdef DEBUG lstrcpyn(pMRU->szSubKey, lpszSubKey, ARRAYSIZE(pMRU->szSubKey)); #endif // Traverse through the MRU list, adding strings to the end of the // list. szTemp[1] = TEXT('\0'); for (pTemp = pOrder, pNewOrder = pMRU->cOrder; ; ++pTemp) { // Stop when we get to the end of the list. szTemp[0] = *pTemp; if (!szTemp[0]) { break; } if (lpmi->fFlags & MRU_BINARY) { // Check if in range and if we have already used this letter. if ((UINT)(szTemp[0]-BASE_CHAR)>=uMax || NTHDATA(pMRU, szTemp[0]-BASE_CHAR)) { continue; } // Get the value from the registry cbVal = 0; // first find the size if ((RegQueryValueEx(hkeySubKey, szTemp, NULL, &dwType, NULL, &cbVal) != ERROR_SUCCESS) || (dwType != REG_BINARY)) { continue; } // Binary data has the size at the begining so we'll need a little extra room. pVal = (LPBYTE)Alloc(cbVal + sizeof(DWORD)); if (!pVal) { // REARCHITECT perhaps sort of error is in order. continue; } // now really get it DATASIZE(pVal) = cbVal; if (RegQueryValueEx(hkeySubKey, szTemp, NULL, &dwType, pVal+sizeof(DWORD), (LPDWORD)pVal) != ERROR_SUCCESS) { continue; } // Note that blank elements ARE allowed in the list. NTHDATA(pMRU, szTemp[0]-BASE_CHAR) = pVal; *pNewOrder++ = szTemp[0]; // // OPTIMIZATION // If lpData and lpiSlot are specified, we stop the enumeratation // when we find the item. // if (lpData && lpiSlot) { // Check if we have the specified one or not. if (MRUIsSameData(pMRU, pVal, lpData, cbData)) { // Found it. *lpiSlot = (INT) (pNewOrder - pMRU->cOrder); TraceMsg(DM_MRULAZY, "CreateMRUListLazy found it. Copying %s", pTemp); pMRU->fFlags |= MRU_LAZY; // // Copy the rest of slot. Notice that we don't load // data for those slot. // for (pTemp++; *pTemp; pTemp++) { *pNewOrder++ = *pTemp; } break; } } } else { // Check if in range and if we have already used this letter. if ((UINT)(szTemp[0]-BASE_CHAR)>=uMax || NTHSTRING(pMRU, szTemp[0]-BASE_CHAR)) { continue; } // Get the value from the registry cbVal = 0; // first find the size if ((RegQueryValueEx(hkeySubKey, szTemp, NULL, &dwType, NULL, &cbVal) != ERROR_SUCCESS) || (dwType != REG_SZ)) { continue; } cbVal *= sizeof(TCHAR); pVal = (LPBYTE)Alloc(cbVal); if (!pVal) { // REARCHITECT perhaps sort of error is in order. continue; } // now really get it if (RegQueryValueEx(hkeySubKey, szTemp, NULL, &dwType, (LPBYTE)pVal, &cbVal) != ERROR_SUCCESS) { continue; } // Note that blank elements are not allowed in the list. if (*((LPTSTR)pVal)) { NTHSTRING(pMRU, szTemp[0]-BASE_CHAR) = (LPTSTR)pVal; *pNewOrder++ = szTemp[0]; } else { Free(pVal); pVal = NULL; } } } /* NULL terminate the order list so we can tell how many strings there * are. */ *pNewOrder = TEXT('\0'); if (lpData && lpiSlot) { TraceMsg(DM_MRULAZY, "CreateMRUListLazy. End of loop. %s", pMRU->cOrder); // If we failed to find, put -1 in it. if (!(pMRU->fFlags & MRU_LAZY)) { *lpiSlot = -1; } } /* Actually, this is success rather than an error. */ goto Error2; Error2: if (pOrder) { Free((HLOCAL)pOrder); pOrder = NULL; } Error1: if (!pMRU && hkeySubKey) RegCloseKey(hkeySubKey); return((HANDLE)pMRU); } HANDLE WINAPI CreateMRUList(LPMRUINFO lpmi) { return CreateMRUListLazy(lpmi, NULL, 0, NULL); } #ifdef UNICODE // // ANSI thunk // HANDLE WINAPI CreateMRUListLazyA(LPMRUINFOA lpmi, const void *lpData, UINT cbData, LPINT lpiSlot) { MRUINFOW MRUInfoW; HANDLE hMRU; MRUInfoW.cbSize = sizeof (MRUINFOW); MRUInfoW.uMax = lpmi->uMax; MRUInfoW.fFlags = lpmi->fFlags; MRUInfoW.hKey = lpmi->hKey; MRUInfoW.lpszSubKey = ProduceWFromA(CP_ACP, lpmi->lpszSubKey); MRUInfoW.lpfnCompare = (MRUCMPPROCW)lpmi->lpfnCompare; MRUInfoW.fFlags |= MRU_ANSI; hMRU = CreateMRUListLazy(&MRUInfoW, lpData, cbData, lpiSlot); FreeProducedString((LPWSTR)MRUInfoW.lpszSubKey); return hMRU; } HANDLE WINAPI CreateMRUListA(LPMRUINFOA lpmi) { return CreateMRUListLazyA(lpmi, NULL, 0, NULL); } #else // // Unicode stub when this code is built ANSI // HANDLE WINAPI CreateMRUListW(LPMRUINFOW lpmi) { SetLastErrorEx(ERROR_CALL_NOT_IMPLEMENTED, SLE_WARNING); return NULL; } HANDLE WINAPI CreateMRUListLazyW(LPMRUINFOW lpmi, const void *lpData, UINT cbData, LPINT lpiSlot) { SetLastErrorEx(ERROR_CALL_NOT_IMPLEMENTED, SLE_WARNING); return NULL; } #endif //---------------------------------------------------------------------------- STDAPI_(void) FreeMRUList(HANDLE hMRU) { int i; LPVOID *pTemp; PMRUDATA pMRU = (PMRUDATA)hMRU; ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (pMRU) { pTemp = (pMRU->fFlags & MRU_BINARY) ? &NTHDATA(pMRU, 0) : (LPBYTE *)&NTHSTRING(pMRU, 0); if (pMRU->fFlags & MRU_ORDERDIRTY) { RegSetValueEx(pMRU->hKey, c_szMRU, 0L, REG_SZ, (CONST BYTE *)pMRU->cOrder, sizeof(TCHAR) * (lstrlen(pMRU->cOrder) + 1)); } for (i=pMRU->uMax-1; i>=0; --i, ++pTemp) { if (*pTemp) { if (pMRU->fFlags & MRU_BINARY) { Free((LPBYTE)*pTemp); *pTemp = NULL; } else Str_SetPtr((LPTSTR *)pTemp, NULL); } } RegCloseKey(pMRU->hKey); Free(pMRU->cOrder); Free((HLOCAL)pMRU); } } /* Add a string to an MRU list. */ STDAPI_(int) AddMRUString(HANDLE hMRU, LPCTSTR szString) { /* The extra +1 is so that the list is NULL terminated. */ TCHAR cFirst; int iSlot = -1; LPTSTR lpTemp; LPTSTR * pTemp; int i; UINT uMax; MRUCMPPROC lpfnCompare; BOOL fShouldWrite; PMRUDATA pMRU = (PMRUDATA)hMRU; #ifdef DEBUG DWORD dwStart = GetTickCount(); #endif ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (hMRU == NULL) return(-1); // Error fShouldWrite = !(pMRU->fFlags & MRU_CACHEWRITE); uMax = pMRU->uMax; lpfnCompare = (MRUCMPPROC)pMRU->lpfnCompare; /* Check if the string already exists in the list. */ for (i=0, pTemp=&NTHSTRING(pMRU, 0); (UINT)ifFlags & MRU_ANSI) { LPSTR lpStringA, lpTempA; lpStringA = ProduceAFromW (CP_ACP, szString); lpTempA = ProduceAFromW (CP_ACP, (LPWSTR)*pTemp); iResult = (*lpfnCompare)((const void *)lpStringA, (const void *)lpTempA); FreeProducedString (lpStringA); FreeProducedString (lpTempA); } else #endif { iResult = (*lpfnCompare)((const void *)szString, (const void *)*pTemp); } if (!iResult) { // found it, so don't do the write out cFirst = i + BASE_CHAR; iSlot = i; goto FoundEntry; } } } /* Attempt to find an unused entry. Count up the used entries at the * same time. */ for (i=0, pTemp=&NTHSTRING(pMRU, 0); ; ++i, ++pTemp) { if ((UINT)i >= uMax) // If we got to the end of the list. { // use the entry at the end of the cOrder list cFirst = pMRU->cOrder[uMax-1]; pTemp = &NTHSTRING(pMRU, cFirst-BASE_CHAR); break; } // Is the entry not used? if (!*pTemp) { // yes cFirst = i+BASE_CHAR; break; } } if (Str_SetPtr(pTemp, szString)) { TCHAR szTemp[2]; iSlot = (int)(cFirst-BASE_CHAR); szTemp[0] = cFirst; szTemp[1] = TEXT('\0'); RegSetValueEx(pMRU->hKey, szTemp, 0L, REG_SZ, (CONST BYTE *)szString, sizeof(TCHAR) * (lstrlen(szString) + 1)); fShouldWrite = TRUE; } else { /* Since iSlot == -1, we will remove the reference to cFirst * below. */ } FoundEntry: /* Remove any previous reference to cFirst. */ lpTemp = StrChr(pMRU->cOrder, cFirst); if (lpTemp) { lstrcpy(lpTemp, lpTemp+1); } if (iSlot != -1) { // shift everything over and put cFirst at the front hmemcpy(pMRU->cOrder+1, pMRU->cOrder, pMRU->uMax*sizeof(TCHAR)); pMRU->cOrder[0] = cFirst; } if (fShouldWrite) { RegSetValueEx(pMRU->hKey, c_szMRU, 0L, REG_SZ, (CONST BYTE *)pMRU->cOrder, sizeof(TCHAR) * (lstrlen(pMRU->cOrder) + 1)); pMRU->fFlags &= ~MRU_ORDERDIRTY; } else pMRU->fFlags |= MRU_ORDERDIRTY; #ifdef DEBUG // DebugMsg(DM_TRACE, TEXT("AddMRU: %d msec"), LOWORD(GetTickCount()-dwStart)); #endif return(iSlot); } #ifdef UNICODE // // ANSI thunk // STDAPI_(int) AddMRUStringA(HANDLE hMRU, LPCSTR szString) { LPWSTR lpStringW; INT iResult; lpStringW = ProduceWFromA(CP_ACP, szString); iResult = AddMRUString(hMRU, lpStringW); FreeProducedString (lpStringW); return iResult; } #else // // Unicode stub when this code is build ANSI // STDAPI_(int) AddMRUStringW(HANDLE hMRU, LPCWSTR szString) { SetLastErrorEx(ERROR_CALL_NOT_IMPLEMENTED, SLE_WARNING); return -1; } #endif /* Remove a string from an MRU list. */ STDAPI_(int) DelMRUString(HANDLE hMRU, int nItem) { BOOL bRet = FALSE; LPTSTR lpTemp; PMRUDATA pMRU = (PMRUDATA)hMRU; ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (pMRU) { // // Make sure the index value is within the length of // the string so we don't pick up some random value. // if (!InRange(nItem, 0, pMRU->uMax) || nItem >= lstrlen(pMRU->cOrder)) return FALSE; // Be easy -- just remove the entry from the cOrder list lpTemp = &pMRU->cOrder[nItem]; if (lpTemp) { int iSlot = *lpTemp - BASE_CHAR; if (iSlot >= 0 && iSlot < MAX_CHAR - BASE_CHAR) Str_SetPtr(&NTHSTRING(pMRU, iSlot), NULL); lstrcpy(lpTemp, lpTemp+1); if (!(pMRU->fFlags & MRU_CACHEWRITE)) { RegSetValueEx(pMRU->hKey, c_szMRU, 0L, REG_SZ, (CONST BYTE *)pMRU->cOrder, sizeof(TCHAR) * (lstrlen(pMRU->cOrder) + 1)); pMRU->fFlags &= ~MRU_ORDERDIRTY; } else { pMRU->fFlags |= MRU_ORDERDIRTY; } bRet = TRUE; } } return bRet; } //---------------------------------------------------------------------------- // Add data to an MRU list. STDAPI_(int) AddMRUData(HANDLE hMRU, const void *lpData, UINT cbData) { TCHAR cFirst; int iSlot = -1; LPTSTR lpTemp; LPBYTE *ppData; int i; UINT uMax; MRUCMPDATAPROC lpfnCompare; PMRUDATA pMRU = (PMRUDATA)hMRU; BOOL fShouldWrite; #ifdef DEBUG DWORD dwStart = GetTickCount(); #endif ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (hMRU == NULL) return(-1); // Error fShouldWrite = !(pMRU->fFlags & MRU_CACHEWRITE); uMax = pMRU->uMax; lpfnCompare = (MRUCMPDATAPROC)pMRU->lpfnCompare; // Check if the data already exists in the list. for (i=0, ppData=&NTHDATA(pMRU, 0); (UINT)ifFlags & MRU_LAZY) { ASSERT(0); return -1; } // Attempt to find an unused entry. Count up the used entries at the // same time. for (i=0, ppData=&NTHDATA(pMRU, 0); ; ++i, ++ppData) { if ((UINT)i >= uMax) // If we got to the end of the list. { // use the entry at the end of the cOrder list cFirst = pMRU->cOrder[uMax-1]; ppData = &NTHDATA(pMRU, cFirst-BASE_CHAR); break; } if (!*ppData) // If the entry is not used. { cFirst = i+BASE_CHAR; break; } } *ppData = ReAlloc(*ppData, cbData+sizeof(DWORD)); if (*ppData) { TCHAR szTemp[2]; *((LPDWORD)(*ppData)) = cbData; hmemcpy(DATAPDATA(*ppData), lpData, cbData); iSlot = (int)(cFirst-BASE_CHAR); szTemp[0] = cFirst; szTemp[1] = TEXT('\0'); RegSetValueEx(pMRU->hKey, szTemp, 0L, REG_BINARY, (LPVOID)lpData, cbData); fShouldWrite = TRUE; } else { // Since iSlot == -1, we will remove the reference to cFirst // below. } FoundEntry: // Remove any previous reference to cFirst. lpTemp = StrChr(pMRU->cOrder, cFirst); if (lpTemp) { lstrcpy(lpTemp, lpTemp+1); } if (iSlot != -1) { // shift everything over and put cFirst at the front hmemcpy(pMRU->cOrder+1, pMRU->cOrder, pMRU->uMax*sizeof(TCHAR)); pMRU->cOrder[0] = cFirst; } if (fShouldWrite) { RegSetValueEx(pMRU->hKey, c_szMRU, 0L, REG_SZ, (CONST BYTE *)pMRU->cOrder, sizeof(TCHAR) * (lstrlen(pMRU->cOrder) + 1)); pMRU->fFlags &= ~MRU_ORDERDIRTY; } else pMRU->fFlags |= MRU_ORDERDIRTY; #ifdef DEBUG // DebugMsg(DM_TRACE, TEXT("AddMRU: %d msec"), LOWORD(GetTickCount()-dwStart)); #endif return(iSlot); } //---------------------------------------------------------------------------- // Find data in an MRU list. // Returns the slot number. STDAPI_(int) FindMRUData(HANDLE hMRU, const void *lpData, UINT cbData, LPINT lpiSlot) { TCHAR cFirst; int iSlot = -1; LPTSTR lpTemp; LPBYTE *ppData; int i; UINT uMax; PMRUDATA pMRU = (PMRUDATA)hMRU; #ifdef DEBUG DWORD dwStart = GetTickCount(); #endif ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (hMRU == NULL) return(-1); // Error state. // Can't call this API when it's created lazily. if (pMRU->fFlags & MRU_LAZY) { ASSERT(0); return -1; } uMax = pMRU->uMax; /* Find the item in the list. */ for (i=0, ppData=&NTHDATA(pMRU, 0); (UINT)icOrder, cFirst); ASSERT(lpTemp); return((lpTemp == NULL)? -1 : (int)(lpTemp - (LPTSTR)pMRU->cOrder)); } } return -1; } /* Find a string in an MRU list. */ STDAPI_(int) FindMRUString(HANDLE hMRU, LPCTSTR szString, LPINT lpiSlot) { /* The extra +1 is so that the list is NULL terminated. */ TCHAR cFirst; int iSlot = -1; LPTSTR lpTemp; LPTSTR *pTemp; int i; UINT uMax; MRUCMPPROC lpfnCompare; PMRUDATA pMRU = (PMRUDATA)hMRU; #ifdef DEBUG DWORD dwStart = GetTickCount(); #endif ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (hMRU == NULL) return(-1); // Error state. uMax = pMRU->uMax; lpfnCompare = (MRUCMPPROC)pMRU->lpfnCompare; /* Find the item in the list. */ for (i=0, pTemp=&NTHSTRING(pMRU, 0); (UINT)ifFlags & MRU_ANSI) { LPSTR lpStringA, lpTempA; lpStringA = ProduceAFromW (CP_ACP, szString); lpTempA = ProduceAFromW (CP_ACP, (LPWSTR)*pTemp); iResult = (*lpfnCompare)((const void *)lpStringA, (const void *)lpTempA); FreeProducedString (lpStringA); FreeProducedString (lpTempA); } else #endif { iResult = (*lpfnCompare)((CONST VOID *)szString, (CONST VOID *)*pTemp); } if (!iResult) { // So i now has the slot number in it. if (lpiSlot != NULL) *lpiSlot = i; // Now convert the slot number into an index number cFirst = i + BASE_CHAR; lpTemp = StrChr(pMRU->cOrder, cFirst); return((lpTemp == NULL)? -1 : (int)(lpTemp - (LPTSTR)pMRU->cOrder)); } } } return(-1); } #ifdef UNICODE // // ANSI thunk // int WINAPI FindMRUStringA(HANDLE hMRU, LPCSTR szString, LPINT lpiSlot) { LPWSTR lpStringW; INT iResult; lpStringW = ProduceWFromA(CP_ACP, szString); iResult = FindMRUString(hMRU, lpStringW, lpiSlot); FreeProducedString (lpStringW); return iResult; } #else // // Unicode stub when build ANSI // int WINAPI FindMRUStringW(HANDLE hMRU, LPCWSTR szString, LPINT lpiSlot) { SetLastErrorEx(ERROR_CALL_NOT_IMPLEMENTED, SLE_WARNING); return -1; } #endif /* If lpszString is NULL, then this returns the number of MRU items or less than * 0 on error. * if nItem < 0, we'll return the number of items currently in the MRU. * Otherwise, fill in as much of the buffer as possible (uLen includes the * terminating NULL) and return the actual length of the string (including the * terminating NULL) or less than 0 on error. */ STDAPI_(int) EnumMRUList(HANDLE hMRU, int nItem, LPVOID lpData, UINT uLen) { PMRUDATA pMRU = (PMRUDATA)hMRU; int nItems = -1; LPTSTR pTemp; LPBYTE pData; ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (pMRU) { nItems = lstrlen(pMRU->cOrder); if (nItem < 0 || !lpData) return nItems; if (nItem < nItems) { if (pMRU->fFlags & MRU_BINARY) { pData = NTHDATA(pMRU, pMRU->cOrder[nItem]-BASE_CHAR); if (!pData) return -1; uLen = min((UINT)DATASIZE(pData), uLen); hmemcpy(lpData, DATAPDATA(pData), uLen); nItems = uLen; } else { pTemp = NTHSTRING(pMRU, pMRU->cOrder[nItem]-BASE_CHAR); if (!pTemp) return -1; lstrcpyn((LPTSTR)lpData, pTemp, uLen); nItems = lstrlen(pTemp); } } else // revert to error condition nItems = -1; } return nItems; } #ifdef UNICODE STDAPI_(int) EnumMRUListA(HANDLE hMRU, int nItem, LPVOID lpData, UINT uLen) { int iResult = -1; PMRUDATA pMRU = (PMRUDATA)hMRU; ASSERT(IS_VALID_STRUCT_PTR(pMRU, MRUDATA)); if (pMRU) { LPVOID lpDataW; BOOL bAllocatedMemory = FALSE; // // we need a temp buffer if the data is a string. // but if it is binary, then we trust the callers buffer. // if (!(pMRU->fFlags & MRU_BINARY) && uLen && lpData) { lpDataW = LocalAlloc(LPTR, uLen * sizeof(TCHAR)); if (!lpDataW) return -1; bAllocatedMemory = TRUE; } else lpDataW = lpData; // call the real thing iResult = EnumMRUList(hMRU, nItem, lpDataW, uLen); // // if the buffer was a string that we allocated // then we need to thunk the string into the callers buffer // if (!(pMRU->fFlags & MRU_BINARY) && lpData && uLen && (iResult != -1)) { WideCharToMultiByte(CP_ACP, 0, (LPWSTR)lpDataW, -1, (LPSTR)lpData, uLen, NULL, NULL); } if (bAllocatedMemory) LocalFree(lpDataW); } return iResult; } #else STDAPI_(int) EnumMRUListW(HANDLE hMRU, int nItem, LPVOID lpData, UINT uLen) { SetLastErrorEx(ERROR_CALL_NOT_IMPLEMENTED, SLE_WARNING); return 0; } #endif // UNICODE