// PSeuDO CURrentDirectory module (psdocurd.c) // // This was swiped from cmd.exe sources to use the environment to emulate // per process per drive current directory stuff. // // This uses the special '=A:=' environment strings to remember the // current directories. // // Since the library is a DLL, all globals are process based. // #define UNICODE 1 #include "shellprv.h" #pragma hdrstop #define SUCCESS FALSE #define FAILURE TRUE #define GD_DEFAULT 0 WCHAR CurDrvDirW[MAX_PATH] = L""; #define DBL_BSLASH(sz) \ (*(WCHAR *)(sz) == CHAR_BSLASH) && \ (*(WCHAR *)((sz)+1) == CHAR_BSLASH) INT SheSetEnvVarW( WCHAR *varname, WCHAR *varvalue ) { if (!wcslen(varvalue)) { varvalue = NULL; // null to remove from env } return (!SetEnvironmentVariable(varname, varvalue)); } WCHAR * SheGetEnvVarW( WCHAR *varname) { static WCHAR GetEnvVarBuffer[ 1024 ]; if (GetEnvironmentVariableW(varname, GetEnvVarBuffer, 1024)) { return(GetEnvVarBuffer); } else { return(NULL); } } INT SheGetPathOffsetW( LPWSTR lpszDir) { // sanity if (!lpszDir || !*lpszDir) { return(-1); } if ((*(lpszDir+1) == WCHAR_COLON) && ((*(lpszDir+2) == WCHAR_BSLASH) || (*(lpszDir+2) == WCHAR_SLASH) || (*(lpszDir+2) == WCHAR_NULL)) ) { return(2); } else if (DBL_BSLASH(lpszDir)) { // Deviceless, assume LanMan Provided UNC names (i.e. DBL_BSLASH above) INT cchServerShareLen = -1; DWORD dwSlashesSeen = 0; // There are exactly 4 b-slashes from here while (dwSlashesSeen != 4) { cchServerShareLen++; if (!*lpszDir) { if (dwSlashesSeen == 3) { return(cchServerShareLen); } else { return(-1); } } if ((*lpszDir == CHAR_BSLASH) || (*lpszDir == CHAR_SLASH)) { dwSlashesSeen++; } lpszDir++; } return(cchServerShareLen); } else { // unrecognized format return(-1); } } INT SheGetDirW( INT iDrive, // 0 = default, 1=A.... WCHAR *str ) { WCHAR denvname[ 4 ]; WCHAR *denvvalue; WCHAR *strT = str; if (iDrive-- == GD_DEFAULT) { GetCurrentDirectoryW(MAX_PATH, str); return(SUCCESS); } denvname[ 0 ] = WCHAR_EQUAL; denvname[ 1 ] = (WCHAR)(WCHAR_CAP_A + (WCHAR)iDrive); denvname[ 2 ] = WCHAR_COLON; denvname[ 3 ] = WCHAR_NULL; denvvalue = SheGetEnvVarW( denvname ); if (!denvvalue) { *str++ = (WCHAR)(WCHAR_CAP_A + (WCHAR)iDrive); *str++ = WCHAR_COLON; *str++ = WCHAR_BSLASH; *str = WCHAR_NULL; } else { wcscpy( str, denvvalue ); } // there is a subtle difference between getcurrentdirectory() of DOS and the // equivalent SheGetDir() of NT. On dos, getcurrentdirectory() accesses the // floppy drives while in NT SheGetDir() returns the values that are set in // the environment variables. So we hit the disk on NT too, by calling // GetFileAttributes. We return SUCCESS or FAILURE based on the return value // of GetFileAttributes. if (GetFileAttributesW(strT) == (DWORD)0xffffffff) return(FAILURE); else return(SUCCESS); } // Should be BOOL, but possible mips breakage INT SheGetDirA( INT iDrive, // 0 = default, 1=A.... CHAR *szDirA) { WCHAR szDirW[MAX_PATH]; BOOL fDefCharUsed; INT nRet; if (!szDirA) { return(FAILURE); } nRet = SheGetDirW(iDrive, szDirW); WideCharToMultiByte(CP_ACP, 0, (LPWSTR)szDirW, -1, (LPSTR)szDirA, MAX_PATH, NULL, &fDefCharUsed); return(nRet); } INT SheChangeDirW( WCHAR *newdir ) { WCHAR denvname[ 4 ]; WCHAR newpath[ MAX_PATH ]; WCHAR denvvalue[ MAX_PATH ]; WCHAR c, *s; DWORD attr; GetCurrentDirectoryW( MAX_PATH, denvvalue ); c = (WCHAR)(DWORD_PTR)CharUpperW((LPTSTR)(DWORD_PTR)denvvalue[0]); denvname[0] = WCHAR_EQUAL; if (IsCharAlphaW(*newdir) && newdir[1] == WCHAR_COLON) { denvname[1] = (WCHAR)(DWORD_PTR)CharUpperW((LPTSTR)(DWORD_PTR)*newdir); newdir += 2; } else { denvname[ 1 ] = c; } denvname[ 2 ] = WCHAR_COLON; denvname[ 3 ] = WCHAR_NULL; if ((*newdir == WCHAR_BSLASH) || (*newdir == WCHAR_SLASH)) { newpath[ 0 ] = denvname[ 1 ]; newpath[ 1 ] = denvname[ 2 ]; wcscpy( &newpath[ 2 ], newdir ); } else { if (NULL != (s = SheGetEnvVarW( denvname ))) { wcscpy( newpath, s ); } else { newpath[ 0 ] = denvname[ 1 ]; newpath[ 1 ] = denvname[ 2 ]; newpath[ 2 ] = WCHAR_NULL; } s = newpath + wcslen( newpath ); *s++ = WCHAR_BSLASH; wcscpy( s, newdir ); } if (!GetFullPathNameW(newpath, MAX_PATH, denvvalue, &s )) { return( ERROR_ACCESS_DENIED ); } attr = GetFileAttributesW( denvvalue ); if (attr == -1 || !(attr & FILE_ATTRIBUTE_DIRECTORY)) { return( ERROR_ACCESS_DENIED ); } if (SheSetEnvVarW(denvname,denvvalue)) { return( ERROR_NOT_ENOUGH_MEMORY ); } SetCurrentDirectoryW( denvvalue ); // this seems wrong... SheGetDir(GD_DEFAULT, CurDrvDirW) ; wcscpy(CurDrvDirW, denvvalue); // this seems right to me. return(SUCCESS) ; } INT SheChangeDirA( CHAR *szNewDirA ) { WCHAR szNewDirW[MAX_PATH]; if (szNewDirA) { MultiByteToWideChar(CP_ACP, 0, (LPSTR)szNewDirA, -1, szNewDirW, MAX_PATH); return(SheChangeDirW(szNewDirW)); } else { return(FAILURE); } } INT SheChangeDirExW( WCHAR *newdir) { WCHAR wcEnvName[MAX_PATH]; WCHAR wcNewPath[MAX_PATH]; WCHAR wcEnvValue[MAX_PATH]; DWORD cchPathOffset; WCHAR *s; DWORD attr; BOOL bUsedEnv = FALSE; if (newdir && *newdir && ((cchPathOffset = SheGetPathOffsetW((LPWSTR)newdir)) != 0xFFFFFFFF)) { WCHAR wc = newdir[cchPathOffset]; newdir[cchPathOffset] = WCHAR_NULL; wcscpy((LPWSTR)&wcEnvName[1], (LPWSTR)newdir); newdir[cchPathOffset] = wc; newdir += cchPathOffset; } else { GetCurrentDirectoryW(MAX_PATH, wcEnvValue); wcscpy((LPWSTR)&wcEnvName[1], (LPWSTR)wcEnvValue); } wcEnvName[0] = WCHAR_EQUAL; if ((cchPathOffset = SheGetPathOffsetW((LPWSTR)&wcEnvName[1])) != 0xFFFFFFFF) { // add one since the first character is "=" wcEnvName[cchPathOffset + 1] = WCHAR_NULL; } // // If return value is 2, then we are a drive letter like A: // We need to uppercase the drive letter here, since the environ // vars are usually set as uppercase. // if (cchPathOffset == 2) { wcEnvName[1] = (WCHAR)(DWORD_PTR)CharUpper((LPWSTR)(DWORD_PTR) wcEnvName[1]); } if (newdir && *newdir && ((*newdir == WCHAR_BSLASH) || (*newdir == WCHAR_SLASH))) { wcscpy((LPWSTR)wcNewPath, (LPWSTR)&wcEnvName[1]); if (lstrlen(wcNewPath) + lstrlen(newdir) < MAX_PATH ) { lstrcat((LPWSTR)wcNewPath, (LPWSTR)newdir); } } else { LPWSTR lpszEnvName; if (NULL != (lpszEnvName = (LPWSTR)SheGetEnvVarW(wcEnvName))) { wcscpy((LPWSTR)wcNewPath, lpszEnvName); bUsedEnv = TRUE; } else { wcscpy((LPWSTR)wcNewPath, (LPWSTR)&wcEnvName[1]); } if (newdir && *newdir) { if (wcNewPath[lstrlen(wcNewPath)-1] != WCHAR_BSLASH) { lstrcat((LPWSTR)wcNewPath, TEXT("\\")); } if (lstrlen(wcNewPath) + lstrlen(newdir) < MAX_PATH ) { lstrcat((LPWSTR)wcNewPath, (LPWSTR)newdir); } } } if (!GetFullPathNameW((LPWSTR)wcNewPath, MAX_PATH, wcEnvValue, &s)) { return( ERROR_ACCESS_DENIED ); } attr = GetFileAttributesW((LPWSTR)wcEnvValue); if ((attr == 0xFFFFFFFF || ((attr & FILE_ATTRIBUTE_DIRECTORY) && !SetCurrentDirectoryW((LPWSTR)wcEnvValue))) && bUsedEnv ) { wcscpy((LPWSTR)wcEnvValue, (LPWSTR)&wcEnvName[1]); lstrcat((LPWSTR)wcEnvValue, TEXT("\\")); attr = GetFileAttributesW((LPWSTR)wcEnvValue); } if (attr == 0xFFFFFFFF || !(attr & FILE_ATTRIBUTE_DIRECTORY)) { return(ERROR_ACCESS_DENIED); } if (!SetCurrentDirectoryW((LPWSTR)wcEnvValue)) { return( ERROR_ACCESS_DENIED ); } // It's ok if this fails SheSetEnvVarW(wcEnvName, wcEnvValue); wcscpy(CurDrvDirW, (LPWSTR)wcEnvValue); // this seems right to me. return(SUCCESS) ; } INT SheChangeDirExA( CHAR *szNewDirA ) { WCHAR szNewDirW[MAX_PATH]; if (szNewDirA) { MultiByteToWideChar(CP_ACP, 0, (LPSTR)szNewDirA, -1, szNewDirW, MAX_PATH); return(SheChangeDirExW(szNewDirW)); } else { return(FAILURE); } } INT SheGetCurDrive() { if (!CurDrvDirW[0]) { SheGetDirW(GD_DEFAULT, CurDrvDirW) ; } return(CurDrvDirW[0] - WCHAR_CAP_A); } INT SheSetCurDrive( INT iDrive ) { WCHAR chT[MAX_PATH]; if (CurDrvDirW[0] != (WCHAR)(WCHAR_CAP_A + iDrive)) { SheGetDirW(iDrive + 1, chT); return(SheChangeDirW(chT)); } return(SUCCESS); } INT SheFullPathA( CHAR *fname, DWORD sizpath, CHAR *buf) { DWORD rc = SUCCESS; /* prime with good rc */ DWORD buflen; /* buffer length */ CHAR *filepart; if (*fname == CHAR_NULL) { SheGetDirA(GD_DEFAULT, buf); buf += 2; /* Inc past drivespec */ buflen = strlen(buf); /* Is curdir root only? */ if (buflen >= MAX_PATH-3) { /* If too big then stop */ rc = FAILURE; } else if (buflen != 1) { /* if not root then append */ *(buf+buflen++) = CHAR_BSLASH; /* ...a pathchar and... */ *(buf+buflen) = CHAR_NULL ; /* ...a null CHAR... */ } /* */ } else { if ((strlen(fname) == 2) && (*(fname + 1) == CHAR_COLON) // && (!is_dbcsleadchar(*fname)) ) { SheGetDirA((CHAR)(DWORD_PTR)CharUpperA((LPSTR)(DWORD_PTR)*fname) - CHAR_CAP_A, buf); /* Get curdrvdir */ if ((buflen = strlen(buf)) > 3) { *(buf+buflen++) = CHAR_BSLASH; /* ...a pathchar and... */ *(buf+buflen) = CHAR_NULL ; /* ...a null CHAR... */ } } else { if (!GetFullPathNameA( fname, sizpath, buf, &filepart )) { rc = FAILURE; } } } return(rc); } INT SheFullPathW( WCHAR *fname, DWORD sizpath, WCHAR *buf) { DWORD rc = SUCCESS; /* prime with good rc */ DWORD buflen; /* buffer length */ WCHAR *filepart; if (*fname == WCHAR_NULL) { SheGetDirW(GD_DEFAULT, buf); buf += 2; /* Inc past drivespec */ buflen = wcslen(buf); /* Is curdir root only? */ if (buflen >= MAX_PATH-3) { /* If too big then stop */ rc = FAILURE; } else if (buflen != 1) { /* if not root then append */ *(buf+buflen++) = WCHAR_BSLASH; /* ...a pathchar and... */ *(buf+buflen) = WCHAR_NULL ; /* ...a null CHAR... */ } /* */ } else { if ((wcslen(fname) == 2) && (*(fname + 1) == WCHAR_COLON) // && (!is_dbcsleadchar(*fname)) ) { SheGetDirW((WCHAR)(DWORD_PTR)CharUpperW((LPWSTR)(DWORD_PTR)*fname) - WCHAR_CAP_A, buf); /* Get curdrvdir */ if ((buflen = wcslen(buf)) > 3) { *(buf+buflen++) = WCHAR_BSLASH; /* ...a pathchar and... */ *(buf+buflen) = WCHAR_NULL ; /* ...a null CHAR... */ } } else { if (!GetFullPathNameW( fname, sizpath, buf, &filepart )) { rc = FAILURE; } } } return(rc); } BOOL SheGetDirExW( LPWSTR lpszCurDisk, LPDWORD lpcchCurDir, LPWSTR lpszCurDir) { WCHAR wcEnvName[MAX_PATH]; LPWSTR lpszEnvValue; INT cchPathOffset; // if lpszCurDisk NULL, do default if (!lpszCurDisk) { DWORD dwRet = GetCurrentDirectoryW(*lpcchCurDir, lpszCurDir); if (dwRet) { *lpcchCurDir = dwRet; return(TRUE); } else { return(FALSE); } } cchPathOffset = SheGetPathOffsetW(lpszCurDisk); if (cchPathOffset != 0xFFFFFFFF) { WCHAR wc = *(lpszCurDisk + cchPathOffset); *(lpszCurDisk + cchPathOffset) = WCHAR_NULL; lstrcpy(&wcEnvName[1], lpszCurDisk); wcEnvName[0] = WCHAR_EQUAL; *(lpszCurDisk + cchPathOffset) = wc; if (NULL != (lpszEnvValue = SheGetEnvVarW(wcEnvName))) { DWORD cchEnvValue = lstrlen(lpszEnvValue) + 1; if (cchEnvValue <= *lpcchCurDir) { wcscpy(lpszCurDir, lpszEnvValue); return(TRUE); } else { *lpcchCurDir = cchEnvValue; return(FALSE); } } wcscpy(lpszCurDir, lpszCurDisk); *(lpszCurDir + cchPathOffset) = WCHAR_BSLASH; *(lpszCurDir + cchPathOffset + 1) = WCHAR_NULL; return(TRUE); } else { // parsing error return(FALSE); } }