/* vdir.h * * (c) 1999 Microsoft Corporation. All rights reserved. * Portions (c) 1999 ActiveState Tool Corp, http://www.ActiveState.com/ * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. */ #ifndef ___VDir_H___ #define ___VDir_H___ /* * Allow one slot for each possible drive letter * and one additional slot for a UNC name */ const int driveCount = ('Z'-'A')+1+1; const int driveLetterCount = ('Z'-'A')+1; class VDir { public: VDir(int bManageDir = 1); ~VDir() {}; void Init(VDir* pDir, VMem *pMem); void SetDefaultA(char const *pDefault); void SetDefaultW(WCHAR const *pDefault); char* MapPathA(const char *pInName); WCHAR* MapPathW(const WCHAR *pInName); int SetCurrentDirectoryA(char *lpBuffer); int SetCurrentDirectoryW(WCHAR *lpBuffer); inline int GetDefault(void) { return nDefault; }; inline char* GetCurrentDirectoryA(int dwBufSize, char *lpBuffer) { char* ptr = dirTableA[nDefault]; while (--dwBufSize) { if ((*lpBuffer++ = *ptr++) == '\0') break; } *lpBuffer = '\0'; return /* unused */ NULL; }; inline WCHAR* GetCurrentDirectoryW(int dwBufSize, WCHAR *lpBuffer) { WCHAR* ptr = dirTableW[nDefault]; while (--dwBufSize) { if ((*lpBuffer++ = *ptr++) == '\0') break; } *lpBuffer = '\0'; return /* unused */ NULL; }; DWORD CalculateEnvironmentSpace(void); LPSTR BuildEnvironmentSpace(LPSTR lpStr); protected: int SetDirA(char const *pPath, int index); int SetDirW(WCHAR const *pPath, int index); void FromEnvA(char *pEnv, int index); void FromEnvW(WCHAR *pEnv, int index); inline const char *GetDefaultDirA(void) { return dirTableA[nDefault]; }; inline void SetDefaultDirA(char const *pPath, int index) { SetDirA(pPath, index); nDefault = index; }; inline const WCHAR *GetDefaultDirW(void) { return dirTableW[nDefault]; }; inline void SetDefaultDirW(WCHAR const *pPath, int index) { SetDirW(pPath, index); nDefault = index; }; inline const char *GetDirA(int index) { char *ptr = dirTableA[index]; if (!ptr) { /* simulate the existence of this drive */ ptr = szLocalBufferA; ptr[0] = 'A' + index; ptr[1] = ':'; ptr[2] = '\\'; ptr[3] = 0; } return ptr; }; inline const WCHAR *GetDirW(int index) { WCHAR *ptr = dirTableW[index]; if (!ptr) { /* simulate the existence of this drive */ ptr = szLocalBufferW; ptr[0] = 'A' + index; ptr[1] = ':'; ptr[2] = '\\'; ptr[3] = 0; } return ptr; }; inline int DriveIndex(char chr) { if (chr == '\\' || chr == '/') return ('Z'-'A')+1; return (chr | 0x20)-'a'; }; VMem *pMem; int nDefault, bManageDirectory; char *dirTableA[driveCount]; char szLocalBufferA[MAX_PATH+1]; WCHAR *dirTableW[driveCount]; WCHAR szLocalBufferW[MAX_PATH+1]; }; VDir::VDir(int bManageDir /* = 1 */) { nDefault = 0; bManageDirectory = bManageDir; memset(dirTableA, 0, sizeof(dirTableA)); memset(dirTableW, 0, sizeof(dirTableW)); } void VDir::Init(VDir* pDir, VMem *p) { int index; pMem = p; if (pDir) { for (index = 0; index < driveCount; ++index) { SetDirW(pDir->GetDirW(index), index); } nDefault = pDir->GetDefault(); } else { int bSave = bManageDirectory; DWORD driveBits = GetLogicalDrives(); bManageDirectory = 0; WCHAR szBuffer[MAX_PATH*driveCount]; if (GetLogicalDriveStringsW(sizeof(szBuffer), szBuffer)) { WCHAR* pEnv = GetEnvironmentStringsW(); WCHAR* ptr = szBuffer; for (index = 0; index < driveCount; ++index) { if (driveBits & (1<Free(dirTableA[index]); ptr = dirTableA[index] = (char*)pMem->Malloc(length+2); if (ptr != NULL) { strcpy(ptr, pPath); ptr += length-1; chr = *ptr++; if (chr != '\\' && chr != '/') { *ptr++ = '\\'; *ptr = '\0'; } MultiByteToWideChar(CP_ACP, 0, dirTableA[index], -1, wBuffer, (sizeof(wBuffer)/sizeof(WCHAR))); length = wcslen(wBuffer); pMem->Free(dirTableW[index]); dirTableW[index] = (WCHAR*)pMem->Malloc((length+1)*2); if (dirTableW[index] != NULL) { wcscpy(dirTableW[index], wBuffer); } } } if(bManageDirectory) ::SetCurrentDirectoryA(pPath); return length; } void VDir::FromEnvA(char *pEnv, int index) { /* gets the directory for index from the environment variable. */ while (*pEnv != '\0') { if ((pEnv[0] == '=') && (DriveIndex(pEnv[1]) == index) && pEnv[2] == ':' && pEnv[3] == '=') { SetDirA(&pEnv[4], index); break; } else pEnv += strlen(pEnv)+1; } } void VDir::FromEnvW(WCHAR *pEnv, int index) { /* gets the directory for index from the environment variable. */ while (*pEnv != '\0') { if ((pEnv[0] == '=') && (DriveIndex((char)pEnv[1]) == index) && pEnv[2] == ':' && pEnv[3] == '=') { SetDirW(&pEnv[4], index); break; } else pEnv += wcslen(pEnv)+1; } } void VDir::SetDefaultA(char const *pDefault) { char szBuffer[MAX_PATH+1]; char *pPtr; if (GetFullPathNameA(pDefault, sizeof(szBuffer), szBuffer, &pPtr)) { if (*pDefault != '.' && pPtr != NULL) *pPtr = '\0'; SetDefaultDirA(szBuffer, DriveIndex(szBuffer[0])); } } int VDir::SetDirW(WCHAR const *pPath, int index) { WCHAR chr, *ptr; int length = 0; if (index < driveCount && pPath != NULL) { length = wcslen(pPath); pMem->Free(dirTableW[index]); ptr = dirTableW[index] = (WCHAR*)pMem->Malloc((length+2)*2); if (ptr != NULL) { char *ansi; wcscpy(ptr, pPath); ptr += length-1; chr = *ptr++; if (chr != '\\' && chr != '/') { *ptr++ = '\\'; *ptr = '\0'; } ansi = win32_ansipath(dirTableW[index]); length = strlen(ansi); pMem->Free(dirTableA[index]); dirTableA[index] = (char*)pMem->Malloc(length+1); if (dirTableA[index] != NULL) { strcpy(dirTableA[index], ansi); } win32_free(ansi); } } if(bManageDirectory) ::SetCurrentDirectoryW(pPath); return length; } void VDir::SetDefaultW(WCHAR const *pDefault) { WCHAR szBuffer[MAX_PATH+1]; WCHAR *pPtr; if (GetFullPathNameW(pDefault, (sizeof(szBuffer)/sizeof(WCHAR)), szBuffer, &pPtr)) { if (*pDefault != '.' && pPtr != NULL) *pPtr = '\0'; SetDefaultDirW(szBuffer, DriveIndex((char)szBuffer[0])); } } inline BOOL IsPathSep(char ch) { return (ch == '\\' || ch == '/'); } inline void DoGetFullPathNameA(char* lpBuffer, DWORD dwSize, char* Dest) { char *pPtr; /* * On WinNT GetFullPathName does not fail, (or at least always * succeeds when the drive is valid) WinNT does set *Dest to NULL * On Win98 GetFullPathName will set last error if it fails, but * does not touch *Dest */ *Dest = '\0'; GetFullPathNameA(lpBuffer, dwSize, Dest, &pPtr); } inline bool IsSpecialFileName(const char* pName) { /* specical file names are devices that the system can open * these include AUX, CON, NUL, PRN, COMx, LPTx, CLOCK$, CONIN$, CONOUT$ * (x is a single digit, and names are case-insensitive) */ char ch = (pName[0] & ~0x20); switch (ch) { case 'A': /* AUX */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'X') && !pName[3]) return true; break; case 'C': /* CLOCK$, COMx, CON, CONIN$ CONOUT$ */ ch = (pName[1] & ~0x20); switch (ch) { case 'L': /* CLOCK$ */ if (((pName[2] & ~0x20) == 'O') && ((pName[3] & ~0x20) == 'C') && ((pName[4] & ~0x20) == 'K') && (pName[5] == '$') && !pName[6]) return true; break; case 'O': /* COMx, CON, CONIN$ CONOUT$ */ if ((pName[2] & ~0x20) == 'M') { if ( inRANGE(pName[3], '1', '9') && !pName[4]) return true; } else if ((pName[2] & ~0x20) == 'N') { if (!pName[3]) return true; else if ((pName[3] & ~0x20) == 'I') { if (((pName[4] & ~0x20) == 'N') && (pName[5] == '$') && !pName[6]) return true; } else if ((pName[3] & ~0x20) == 'O') { if (((pName[4] & ~0x20) == 'U') && ((pName[5] & ~0x20) == 'T') && (pName[6] == '$') && !pName[7]) return true; } } break; } break; case 'L': /* LPTx */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'X') && inRANGE(pName[3], '1', '9') && !pName[4]) return true; break; case 'N': /* NUL */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'L') && !pName[3]) return true; break; case 'P': /* PRN */ if (((pName[1] & ~0x20) == 'R') && ((pName[2] & ~0x20) == 'N') && !pName[3]) return true; break; } return false; } char *VDir::MapPathA(const char *pInName) { /* * possiblities -- relative path or absolute path with or without drive letter * OR UNC name */ int driveIndex; char szBuffer[(MAX_PATH+1)*2]; char szlBuf[MAX_PATH+1]; int length = strlen(pInName); if (!length) return (char*)pInName; if (length > MAX_PATH) { strncpy(szlBuf, pInName, MAX_PATH); if (IsPathSep(pInName[0]) && !IsPathSep(pInName[1])) { /* absolute path - reduce length by 2 for drive specifier */ szlBuf[MAX_PATH-2] = '\0'; } else szlBuf[MAX_PATH] = '\0'; pInName = szlBuf; } /* strlen(pInName) is now <= MAX_PATH */ if (length > 1 && pInName[1] == ':') { /* has drive letter */ if (length > 2 && IsPathSep(pInName[2])) { /* absolute with drive letter */ DoGetFullPathNameA((char*)pInName, sizeof(szLocalBufferA), szLocalBufferA); } else { /* relative path with drive letter */ driveIndex = DriveIndex(*pInName); if (driveIndex < 0 || driveIndex >= driveLetterCount) return (char *)pInName; strcpy(szBuffer, GetDirA(driveIndex)); strcat(szBuffer, &pInName[2]); if(strlen(szBuffer) > MAX_PATH) szBuffer[MAX_PATH] = '\0'; DoGetFullPathNameA(szBuffer, sizeof(szLocalBufferA), szLocalBufferA); } } else { /* no drive letter */ if (length > 1 && IsPathSep(pInName[1]) && IsPathSep(pInName[0])) { /* UNC name */ DoGetFullPathNameA((char*)pInName, sizeof(szLocalBufferA), szLocalBufferA); } else { strcpy(szBuffer, GetDefaultDirA()); if (IsPathSep(pInName[0])) { /* absolute path */ strcpy(&szBuffer[2], pInName); DoGetFullPathNameA(szBuffer, sizeof(szLocalBufferA), szLocalBufferA); } else { /* relative path */ if (IsSpecialFileName(pInName)) { return (char*)pInName; } else { strcat(szBuffer, pInName); if (strlen(szBuffer) > MAX_PATH) szBuffer[MAX_PATH] = '\0'; DoGetFullPathNameA(szBuffer, sizeof(szLocalBufferA), szLocalBufferA); } } } } return szLocalBufferA; } int VDir::SetCurrentDirectoryA(char *lpBuffer) { char *pPtr; int length, nRet = -1; pPtr = MapPathA(lpBuffer); length = strlen(pPtr); if(length > 3 && IsPathSep(pPtr[length-1])) { /* don't remove the trailing slash from 'x:\' */ pPtr[length-1] = '\0'; } DWORD r = GetFileAttributesA(pPtr); if ((r != 0xffffffff) && (r & FILE_ATTRIBUTE_DIRECTORY)) { char szBuffer[(MAX_PATH+1)*2]; DoGetFullPathNameA(pPtr, sizeof(szBuffer), szBuffer); SetDefaultDirA(szBuffer, DriveIndex(szBuffer[0])); nRet = 0; } return nRet; } DWORD VDir::CalculateEnvironmentSpace(void) { /* the current directory environment strings are stored as '=D:=d:\path' */ int index; DWORD dwSize = 0; for (index = 0; index < driveCount; ++index) { if (dirTableA[index] != NULL) { dwSize += strlen(dirTableA[index]) + 5; /* add 1 for trailing NULL and 4 for '=D:=' */ } } return dwSize; } LPSTR VDir::BuildEnvironmentSpace(LPSTR lpStr) { /* store the current directory environment strings as '=D:=d:\path' */ int index, length; LPSTR lpDirStr; for (index = 0; index < driveCount; ++index) { lpDirStr = dirTableA[index]; if (lpDirStr != NULL) { lpStr[0] = '='; lpStr[1] = lpDirStr[0]; lpStr[2] = '\0'; CharUpper(&lpStr[1]); lpStr[2] = ':'; lpStr[3] = '='; strcpy(&lpStr[4], lpDirStr); length = strlen(lpDirStr); lpStr += length + 5; /* add 1 for trailing NULL and 4 for '=D:=' */ if (length > 3 && IsPathSep(lpStr[-2])) { lpStr[-2] = '\0'; /* remove the trailing path separator */ --lpStr; } } } return lpStr; } inline BOOL IsPathSep(WCHAR ch) { return (ch == '\\' || ch == '/'); } inline void DoGetFullPathNameW(WCHAR* lpBuffer, DWORD dwSize, WCHAR* Dest) { WCHAR *pPtr; /* * On WinNT GetFullPathName does not fail, (or at least always * succeeds when the drive is valid) WinNT does set *Dest to NULL * On Win98 GetFullPathName will set last error if it fails, but * does not touch *Dest */ *Dest = '\0'; GetFullPathNameW(lpBuffer, dwSize, Dest, &pPtr); } inline bool IsSpecialFileName(const WCHAR* pName) { /* specical file names are devices that the system can open * these include AUX, CON, NUL, PRN, COMx, LPTx, CLOCK$, CONIN$, CONOUT$ * (x is a single digit, and names are case-insensitive) */ WCHAR ch = (pName[0] & ~0x20); switch (ch) { case 'A': /* AUX */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'X') && !pName[3]) return true; break; case 'C': /* CLOCK$, COMx, CON, CONIN$ CONOUT$ */ ch = (pName[1] & ~0x20); switch (ch) { case 'L': /* CLOCK$ */ if (((pName[2] & ~0x20) == 'O') && ((pName[3] & ~0x20) == 'C') && ((pName[4] & ~0x20) == 'K') && (pName[5] == '$') && !pName[6]) return true; break; case 'O': /* COMx, CON, CONIN$ CONOUT$ */ if ((pName[2] & ~0x20) == 'M') { if ( inRANGE(pName[3], '1', '9') && !pName[4]) return true; } else if ((pName[2] & ~0x20) == 'N') { if (!pName[3]) return true; else if ((pName[3] & ~0x20) == 'I') { if (((pName[4] & ~0x20) == 'N') && (pName[5] == '$') && !pName[6]) return true; } else if ((pName[3] & ~0x20) == 'O') { if (((pName[4] & ~0x20) == 'U') && ((pName[5] & ~0x20) == 'T') && (pName[6] == '$') && !pName[7]) return true; } } break; } break; case 'L': /* LPTx */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'X') && inRANGE(pName[3], '1', '9') && !pName[4]) return true; break; case 'N': /* NUL */ if (((pName[1] & ~0x20) == 'U') && ((pName[2] & ~0x20) == 'L') && !pName[3]) return true; break; case 'P': /* PRN */ if (((pName[1] & ~0x20) == 'R') && ((pName[2] & ~0x20) == 'N') && !pName[3]) return true; break; } return false; } WCHAR* VDir::MapPathW(const WCHAR *pInName) { /* * possiblities -- relative path or absolute path with or without drive letter * OR UNC name */ int driveIndex; WCHAR szBuffer[(MAX_PATH+1)*2]; WCHAR szlBuf[MAX_PATH+1]; int length = wcslen(pInName); if (!length) return (WCHAR*)pInName; if (length > MAX_PATH) { wcsncpy(szlBuf, pInName, MAX_PATH); if (IsPathSep(pInName[0]) && !IsPathSep(pInName[1])) { /* absolute path - reduce length by 2 for drive specifier */ szlBuf[MAX_PATH-2] = '\0'; } else szlBuf[MAX_PATH] = '\0'; pInName = szlBuf; } /* strlen(pInName) is now <= MAX_PATH */ if (length > 1 && pInName[1] == ':') { /* has drive letter */ if (IsPathSep(pInName[2])) { /* absolute with drive letter */ DoGetFullPathNameW((WCHAR*)pInName, (sizeof(szLocalBufferW)/sizeof(WCHAR)), szLocalBufferW); } else { /* relative path with drive letter */ driveIndex = DriveIndex(*pInName); if (driveIndex < 0 || driveIndex >= driveLetterCount) return (WCHAR *)pInName; wcscpy(szBuffer, GetDirW(driveIndex)); wcscat(szBuffer, &pInName[2]); if(wcslen(szBuffer) > MAX_PATH) szBuffer[MAX_PATH] = '\0'; DoGetFullPathNameW(szBuffer, (sizeof(szLocalBufferW)/sizeof(WCHAR)), szLocalBufferW); } } else { /* no drive letter */ if (length > 1 && IsPathSep(pInName[1]) && IsPathSep(pInName[0])) { /* UNC name */ DoGetFullPathNameW((WCHAR*)pInName, (sizeof(szLocalBufferW)/sizeof(WCHAR)), szLocalBufferW); } else { wcscpy(szBuffer, GetDefaultDirW()); if (IsPathSep(pInName[0])) { /* absolute path */ wcscpy(&szBuffer[2], pInName); DoGetFullPathNameW(szBuffer, (sizeof(szLocalBufferW)/sizeof(WCHAR)), szLocalBufferW); } else { /* relative path */ if (IsSpecialFileName(pInName)) { return (WCHAR*)pInName; } else { wcscat(szBuffer, pInName); if (wcslen(szBuffer) > MAX_PATH) szBuffer[MAX_PATH] = '\0'; DoGetFullPathNameW(szBuffer, (sizeof(szLocalBufferW)/sizeof(WCHAR)), szLocalBufferW); } } } } return szLocalBufferW; } int VDir::SetCurrentDirectoryW(WCHAR *lpBuffer) { WCHAR *pPtr; int length, nRet = -1; pPtr = MapPathW(lpBuffer); length = wcslen(pPtr); if(length > 3 && IsPathSep(pPtr[length-1])) { /* don't remove the trailing slash from 'x:\' */ pPtr[length-1] = '\0'; } DWORD r = GetFileAttributesW(pPtr); if ((r != 0xffffffff) && (r & FILE_ATTRIBUTE_DIRECTORY)) { WCHAR wBuffer[(MAX_PATH+1)*2]; DoGetFullPathNameW(pPtr, (sizeof(wBuffer)/sizeof(WCHAR)), wBuffer); SetDefaultDirW(wBuffer, DriveIndex((char)wBuffer[0])); nRet = 0; } return nRet; } #endif /* ___VDir_H___ */