/* * msvcrt.dll drive/directory functions * * Copyright 1996,1998 Marcus Meissner * Copyright 1996 Jukka Iivonen * Copyright 1997,2000 Uwe Bonnes * Copyright 2000 Jon Griffiths * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include "wine/port.h" #include #include #include "windef.h" #include "winbase.h" #include "winreg.h" #include "winternl.h" #include "wine/unicode.h" #include "msvcrt.h" #include "wine/debug.h" WINE_DEFAULT_DEBUG_CHANNEL(msvcrt); /* INTERNAL: Translate WIN32_FIND_DATAA to finddata_t */ static void msvcrt_fttofd( const WIN32_FIND_DATAA *fd, struct MSVCRT__finddata_t* ft) { DWORD dw; if (fd->dwFileAttributes == FILE_ATTRIBUTE_NORMAL) ft->attrib = 0; else ft->attrib = fd->dwFileAttributes; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftCreationTime, &dw ); ft->time_create = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastAccessTime, &dw ); ft->time_access = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastWriteTime, &dw ); ft->time_write = dw; ft->size = fd->nFileSizeLow; strcpy(ft->name, fd->cFileName); } /* INTERNAL: Translate WIN32_FIND_DATAW to wfinddata_t */ static void msvcrt_wfttofd( const WIN32_FIND_DATAW *fd, struct MSVCRT__wfinddata_t* ft) { DWORD dw; if (fd->dwFileAttributes == FILE_ATTRIBUTE_NORMAL) ft->attrib = 0; else ft->attrib = fd->dwFileAttributes; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftCreationTime, &dw ); ft->time_create = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastAccessTime, &dw ); ft->time_access = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastWriteTime, &dw ); ft->time_write = dw; ft->size = fd->nFileSizeLow; strcpyW(ft->name, fd->cFileName); } /* INTERNAL: Translate WIN32_FIND_DATAA to finddatai64_t */ static void msvcrt_fttofdi64( const WIN32_FIND_DATAA *fd, struct MSVCRT__finddatai64_t* ft) { DWORD dw; if (fd->dwFileAttributes == FILE_ATTRIBUTE_NORMAL) ft->attrib = 0; else ft->attrib = fd->dwFileAttributes; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftCreationTime, &dw ); ft->time_create = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastAccessTime, &dw ); ft->time_access = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastWriteTime, &dw ); ft->time_write = dw; ft->size = ((__int64)fd->nFileSizeHigh) << 32 | fd->nFileSizeLow; strcpy(ft->name, fd->cFileName); } /* INTERNAL: Translate WIN32_FIND_DATAW to wfinddatai64_t */ static void msvcrt_wfttofdi64( const WIN32_FIND_DATAW *fd, struct MSVCRT__wfinddatai64_t* ft) { DWORD dw; if (fd->dwFileAttributes == FILE_ATTRIBUTE_NORMAL) ft->attrib = 0; else ft->attrib = fd->dwFileAttributes; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftCreationTime, &dw ); ft->time_create = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastAccessTime, &dw ); ft->time_access = dw; RtlTimeToSecondsSince1970( (const LARGE_INTEGER *)&fd->ftLastWriteTime, &dw ); ft->time_write = dw; ft->size = ((__int64)fd->nFileSizeHigh) << 32 | fd->nFileSizeLow; strcpyW(ft->name, fd->cFileName); } /********************************************************************* * _chdir (MSVCRT.@) * * Change the current working directory. * * PARAMS * newdir [I] Directory to change to * * RETURNS * Success: 0. The current working directory is set to newdir. * Failure: -1. errno indicates the error. * * NOTES * See SetCurrentDirectoryA. */ int _chdir(const char * newdir) { if (!SetCurrentDirectoryA(newdir)) { msvcrt_set_errno(newdir?GetLastError():0); return -1; } return 0; } /********************************************************************* * _wchdir (MSVCRT.@) * * Unicode version of _chdir. */ int _wchdir(const MSVCRT_wchar_t * newdir) { if (!SetCurrentDirectoryW(newdir)) { msvcrt_set_errno(newdir?GetLastError():0); return -1; } return 0; } /********************************************************************* * _chdrive (MSVCRT.@) * * Change the current drive. * * PARAMS * newdrive [I] Drive number to change to (1 = 'A', 2 = 'B', ...) * * RETURNS * Success: 0. The current drive is set to newdrive. * Failure: -1. errno indicates the error. * * NOTES * See SetCurrentDirectoryA. */ int _chdrive(int newdrive) { WCHAR buffer[3] = {'A', ':', 0}; buffer[0] += newdrive - 1; if (!SetCurrentDirectoryW( buffer )) { msvcrt_set_errno(GetLastError()); if (newdrive <= 0) *MSVCRT__errno() = MSVCRT_EACCES; return -1; } return 0; } /********************************************************************* * _findclose (MSVCRT.@) * * Close a handle returned by _findfirst(). * * PARAMS * hand [I] Handle to close * * RETURNS * Success: 0. All resources associated with hand are freed. * Failure: -1. errno indicates the error. * * NOTES * See FindClose. */ int MSVCRT__findclose(long hand) { TRACE(":handle %ld\n",hand); if (!FindClose((HANDLE)hand)) { msvcrt_set_errno(GetLastError()); return -1; } return 0; } /********************************************************************* * _findfirst (MSVCRT.@) * * Open a handle for iterating through a directory. * * PARAMS * fspec [I] File specification of files to iterate. * ft [O] Information for the first file found. * * RETURNS * Success: A handle suitable for passing to _findnext() and _findclose(). * ft is populated with the details of the found file. * Failure: -1. errno indicates the error. * * NOTES * See FindFirstFileA. */ long MSVCRT__findfirst(const char * fspec, struct MSVCRT__finddata_t* ft) { WIN32_FIND_DATAA find_data; HANDLE hfind; hfind = FindFirstFileA(fspec, &find_data); if (hfind == INVALID_HANDLE_VALUE) { msvcrt_set_errno(GetLastError()); return -1; } msvcrt_fttofd(&find_data,ft); TRACE(":got handle %p\n",hfind); return (long)hfind; } /********************************************************************* * _wfindfirst (MSVCRT.@) * * Unicode version of _findfirst. */ long MSVCRT__wfindfirst(const MSVCRT_wchar_t * fspec, struct MSVCRT__wfinddata_t* ft) { WIN32_FIND_DATAW find_data; HANDLE hfind; hfind = FindFirstFileW(fspec, &find_data); if (hfind == INVALID_HANDLE_VALUE) { msvcrt_set_errno(GetLastError()); return -1; } msvcrt_wfttofd(&find_data,ft); TRACE(":got handle %p\n",hfind); return (long)hfind; } /********************************************************************* * _findfirsti64 (MSVCRT.@) * * 64-bit version of _findfirst. */ long MSVCRT__findfirsti64(const char * fspec, struct MSVCRT__finddatai64_t* ft) { WIN32_FIND_DATAA find_data; HANDLE hfind; hfind = FindFirstFileA(fspec, &find_data); if (hfind == INVALID_HANDLE_VALUE) { msvcrt_set_errno(GetLastError()); return -1; } msvcrt_fttofdi64(&find_data,ft); TRACE(":got handle %p\n",hfind); return (long)hfind; } /********************************************************************* * _wfindfirsti64 (MSVCRT.@) * * Unicode version of _findfirsti64. */ long MSVCRT__wfindfirsti64(const MSVCRT_wchar_t * fspec, struct MSVCRT__wfinddatai64_t* ft) { WIN32_FIND_DATAW find_data; HANDLE hfind; hfind = FindFirstFileW(fspec, &find_data); if (hfind == INVALID_HANDLE_VALUE) { msvcrt_set_errno(GetLastError()); return -1; } msvcrt_wfttofdi64(&find_data,ft); TRACE(":got handle %p\n",hfind); return (long)hfind; } /********************************************************************* * _findnext (MSVCRT.@) * * Find the next file from a file search handle. * * PARAMS * hand [I] Handle to the search returned from _findfirst(). * ft [O] Information for the file found. * * RETURNS * Success: 0. ft is populated with the details of the found file. * Failure: -1. errno indicates the error. * * NOTES * See FindNextFileA. */ int MSVCRT__findnext(long hand, struct MSVCRT__finddata_t * ft) { WIN32_FIND_DATAA find_data; if (!FindNextFileA((HANDLE)hand, &find_data)) { *MSVCRT__errno() = MSVCRT_ENOENT; return -1; } msvcrt_fttofd(&find_data,ft); return 0; } /********************************************************************* * _wfindnext (MSVCRT.@) * * Unicode version of _findnext. */ int MSVCRT__wfindnext(long hand, struct MSVCRT__wfinddata_t * ft) { WIN32_FIND_DATAW find_data; if (!FindNextFileW((HANDLE)hand, &find_data)) { *MSVCRT__errno() = MSVCRT_ENOENT; return -1; } msvcrt_wfttofd(&find_data,ft); return 0; } /********************************************************************* * _findnexti64 (MSVCRT.@) * * 64-bit version of _findnext. */ int MSVCRT__findnexti64(long hand, struct MSVCRT__finddatai64_t * ft) { WIN32_FIND_DATAA find_data; if (!FindNextFileA((HANDLE)hand, &find_data)) { *MSVCRT__errno() = MSVCRT_ENOENT; return -1; } msvcrt_fttofdi64(&find_data,ft); return 0; } /********************************************************************* * _wfindnexti64 (MSVCRT.@) * * Unicode version of _findnexti64. */ int MSVCRT__wfindnexti64(long hand, struct MSVCRT__wfinddatai64_t * ft) { WIN32_FIND_DATAW find_data; if (!FindNextFileW((HANDLE)hand, &find_data)) { *MSVCRT__errno() = MSVCRT_ENOENT; return -1; } msvcrt_wfttofdi64(&find_data,ft); return 0; } /********************************************************************* * _getcwd (MSVCRT.@) * * Get the current working directory. * * PARAMS * buf [O] Destination for current working directory. * size [I] Size of buf in characters * * RETURNS * Success: If buf is NULL, returns an allocated string containing the path. * Otherwise populates buf with the path and returns it. * Failure: NULL. errno indicates the error. */ char* _getcwd(char * buf, int size) { char dir[MAX_PATH]; int dir_len = GetCurrentDirectoryA(MAX_PATH,dir); if (dir_len < 1) return NULL; /* FIXME: Real return value untested */ if (!buf) { if (size < 0) return _strdup(dir); return msvcrt_strndup(dir,size); } if (dir_len >= size) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; /* buf too small */ } strcpy(buf,dir); return buf; } /********************************************************************* * _wgetcwd (MSVCRT.@) * * Unicode version of _getcwd. */ MSVCRT_wchar_t* _wgetcwd(MSVCRT_wchar_t * buf, int size) { MSVCRT_wchar_t dir[MAX_PATH]; int dir_len = GetCurrentDirectoryW(MAX_PATH,dir); if (dir_len < 1) return NULL; /* FIXME: Real return value untested */ if (!buf) { if (size < 0) return _wcsdup(dir); return msvcrt_wstrndup(dir,size); } if (dir_len >= size) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; /* buf too small */ } strcpyW(buf,dir); return buf; } /********************************************************************* * _getdrive (MSVCRT.@) * * Get the current drive number. * * PARAMS * None. * * RETURNS * Success: The drive letter number from 1 to 26 ("A:" to "Z:"). * Failure: 0. */ int _getdrive(void) { WCHAR buffer[MAX_PATH]; if (GetCurrentDirectoryW( MAX_PATH, buffer ) && buffer[0] >= 'A' && buffer[0] <= 'z' && buffer[1] == ':') return toupperW(buffer[0]) - 'A' + 1; return 0; } /********************************************************************* * _getdcwd (MSVCRT.@) * * Get the current working directory on a given disk. * * PARAMS * drive [I] Drive letter to get the current working directory from. * buf [O] Destination for the current working directory. * size [I] Length of drive in characters. * * RETURNS * Success: If drive is NULL, returns an allocated string containing the path. * Otherwise populates drive with the path and returns it. * Failure: NULL. errno indicates the error. */ char* _getdcwd(int drive, char * buf, int size) { static char* dummy; TRACE(":drive %d(%c), size %d\n",drive, drive + 'A' - 1, size); if (!drive || drive == _getdrive()) return _getcwd(buf,size); /* current */ else { char dir[MAX_PATH]; char drivespec[4] = {'A', ':', 0}; int dir_len; drivespec[0] += drive - 1; if (GetDriveTypeA(drivespec) < DRIVE_REMOVABLE) { *MSVCRT__errno() = MSVCRT_EACCES; return NULL; } dir_len = GetFullPathNameA(drivespec,MAX_PATH,dir,&dummy); if (dir_len >= size || dir_len < 1) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; /* buf too small */ } TRACE(":returning '%s'\n", dir); if (!buf) return _strdup(dir); /* allocate */ strcpy(buf,dir); } return buf; } /********************************************************************* * _wgetdcwd (MSVCRT.@) * * Unicode version of _wgetdcwd. */ MSVCRT_wchar_t* _wgetdcwd(int drive, MSVCRT_wchar_t * buf, int size) { static MSVCRT_wchar_t* dummy; TRACE(":drive %d(%c), size %d\n",drive, drive + 'A' - 1, size); if (!drive || drive == _getdrive()) return _wgetcwd(buf,size); /* current */ else { MSVCRT_wchar_t dir[MAX_PATH]; MSVCRT_wchar_t drivespec[4] = {'A', ':', '\\', 0}; int dir_len; drivespec[0] += drive - 1; if (GetDriveTypeW(drivespec) < DRIVE_REMOVABLE) { *MSVCRT__errno() = MSVCRT_EACCES; return NULL; } dir_len = GetFullPathNameW(drivespec,MAX_PATH,dir,&dummy); if (dir_len >= size || dir_len < 1) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; /* buf too small */ } TRACE(":returning %s\n", debugstr_w(dir)); if (!buf) return _wcsdup(dir); /* allocate */ strcpyW(buf,dir); } return buf; } /********************************************************************* * _getdiskfree (MSVCRT.@) * * Get information about the free space on a drive. * * PARAMS * disk [I] Drive number to get information about (1 = 'A', 2 = 'B', ...) * info [O] Destination for the resulting information. * * RETURNS * Success: 0. info is updated with the free space information. * Failure: An error code from GetLastError(). * * NOTES * See GetLastError(). */ unsigned int MSVCRT__getdiskfree(unsigned int disk, struct MSVCRT__diskfree_t * d) { WCHAR drivespec[4] = {'@', ':', '\\', 0}; DWORD ret[4]; unsigned int err; if (disk > 26) return ERROR_INVALID_PARAMETER; /* MSVCRT doesn't set errno here */ drivespec[0] += disk; /* make a drive letter */ if (GetDiskFreeSpaceW(disk==0?NULL:drivespec,ret,ret+1,ret+2,ret+3)) { d->sectors_per_cluster = (unsigned)ret[0]; d->bytes_per_sector = (unsigned)ret[1]; d->avail_clusters = (unsigned)ret[2]; d->total_clusters = (unsigned)ret[3]; return 0; } err = GetLastError(); msvcrt_set_errno(err); return err; } /********************************************************************* * _mkdir (MSVCRT.@) * * Create a directory. * * PARAMS * newdir [I] Name of directory to create. * * RETURNS * Success: 0. The directory indicated by newdir is created. * Failure: -1. errno indicates the error. * * NOTES * See CreateDirectoryA. */ int _mkdir(const char * newdir) { if (CreateDirectoryA(newdir,NULL)) return 0; msvcrt_set_errno(GetLastError()); return -1; } /********************************************************************* * _wmkdir (MSVCRT.@) * * Unicode version of _mkdir. */ int _wmkdir(const MSVCRT_wchar_t* newdir) { if (CreateDirectoryW(newdir,NULL)) return 0; msvcrt_set_errno(GetLastError()); return -1; } /********************************************************************* * _rmdir (MSVCRT.@) * * Delete a directory. * * PARAMS * dir [I] Name of directory to delete. * * RETURNS * Success: 0. The directory indicated by newdir is deleted. * Failure: -1. errno indicates the error. * * NOTES * See RemoveDirectoryA. */ int _rmdir(const char * dir) { if (RemoveDirectoryA(dir)) return 0; msvcrt_set_errno(GetLastError()); return -1; } /********************************************************************* * _wrmdir (MSVCRT.@) * * Unicode version of _rmdir. */ int _wrmdir(const MSVCRT_wchar_t * dir) { if (RemoveDirectoryW(dir)) return 0; msvcrt_set_errno(GetLastError()); return -1; } /********************************************************************* * _wsplitpath (MSVCRT.@) * * Unicode version of _splitpath. */ void _wsplitpath(const MSVCRT_wchar_t *inpath, MSVCRT_wchar_t *drv, MSVCRT_wchar_t *dir, MSVCRT_wchar_t *fname, MSVCRT_wchar_t *ext ) { const MSVCRT_wchar_t *p, *end; if (inpath[0] && inpath[1] == ':') { if (drv) { drv[0] = inpath[0]; drv[1] = inpath[1]; drv[2] = 0; } inpath += 2; } else if (drv) drv[0] = 0; /* look for end of directory part */ end = NULL; for (p = inpath; *p; p++) if (*p == '/' || *p == '\\') end = p + 1; if (end) /* got a directory */ { if (dir) { memcpy( dir, inpath, (end - inpath) * sizeof(MSVCRT_wchar_t) ); dir[end - inpath] = 0; } inpath = end; } else if (dir) dir[0] = 0; /* look for extension: what's after the last dot */ end = NULL; for (p = inpath; *p; p++) if (*p == '.') end = p; if (!end) end = p; /* there's no extension */ if (fname) { memcpy( fname, inpath, (end - inpath) * sizeof(MSVCRT_wchar_t) ); fname[end - inpath] = 0; } if (ext) strcpyW( ext, end ); } /* INTERNAL: Helper for _fullpath. Modified PD code from 'snippets'. */ static void wmsvcrt_fln_fix(MSVCRT_wchar_t *path) { int dir_flag = 0, root_flag = 0; MSVCRT_wchar_t *r, *p, *q, *s; MSVCRT_wchar_t szbsdot[] = { '\\', '.', 0 }; /* Skip drive */ if (NULL == (r = strrchrW(path, ':'))) r = path; else ++r; /* Ignore leading slashes */ while ('\\' == *r) if ('\\' == r[1]) strcpyW(r, &r[1]); else { root_flag = 1; ++r; } p = r; /* Change "\\" to "\" */ while (NULL != (p = strchrW(p, '\\'))) if ('\\' == p[1]) strcpyW(p, &p[1]); else ++p; while ('.' == *r) /* Scrunch leading ".\" */ { if ('.' == r[1]) { /* Ignore leading ".." */ for (p = (r += 2); *p && (*p != '\\'); ++p) ; } else { for (p = r + 1 ;*p && (*p != '\\'); ++p) ; } strcpyW(r, p + ((*p) ? 1 : 0)); } while ('\\' == path[strlenW(path)-1]) /* Strip last '\\' */ { dir_flag = 1; path[strlenW(path)-1] = '\0'; } s = r; /* Look for "\." in path */ while (NULL != (p = strstrW(s, szbsdot))) { if ('.' == p[2]) { /* Execute this section if ".." found */ q = p - 1; while (q > r) /* Backup one level */ { if (*q == '\\') break; --q; } if (q > r) { strcpyW(q, p + 3); s = q; } else if ('.' != *q) { strcpyW(q + ((*q == '\\') ? 1 : 0), p + 3 + ((*(p + 3)) ? 1 : 0)); s = q; } else s = ++p; } else { /* Execute this section if "." found */ q = p + 2; for ( ;*q && (*q != '\\'); ++q) ; strcpyW (p, q); } } if (root_flag) /* Embedded ".." could have bubbled up to root */ { for (p = r; *p && ('.' == *p || '\\' == *p); ++p) ; if (r != p) strcpyW(r, p); } if (dir_flag) { MSVCRT_wchar_t szbs[] = { '\\', 0 }; strcatW(path, szbs); } } /********************************************************************* * _wfullpath (MSVCRT.@) * * Unicode version of _fullpath. */ MSVCRT_wchar_t *_wfullpath(MSVCRT_wchar_t * absPath, const MSVCRT_wchar_t* relPath, MSVCRT_size_t size) { MSVCRT_wchar_t drive[5],dir[MAX_PATH],file[MAX_PATH],ext[MAX_PATH]; MSVCRT_wchar_t res[MAX_PATH]; size_t len; MSVCRT_wchar_t szbs[] = { '\\', 0 }; res[0] = '\0'; if (!relPath || !*relPath) return _wgetcwd(absPath, size); if (size < 4) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; } TRACE(":resolving relative path '%s'\n",debugstr_w(relPath)); _wsplitpath(relPath, drive, dir, file, ext); /* Get Directory and drive into 'res' */ if (!dir[0] || (dir[0] != '/' && dir[0] != '\\')) { /* Relative or no directory given */ _wgetdcwd(drive[0] ? toupper(drive[0]) - 'A' + 1 : 0, res, MAX_PATH); strcatW(res,szbs); if (dir[0]) strcatW(res,dir); if (drive[0]) res[0] = drive[0]; /* If given a drive, preserve the letter case */ } else { strcpyW(res,drive); strcatW(res,dir); } strcatW(res,szbs); strcatW(res, file); strcatW(res, ext); wmsvcrt_fln_fix(res); len = strlenW(res); if (len >= MAX_PATH || len >= (size_t)size) return NULL; /* FIXME: errno? */ if (!absPath) return _wcsdup(res); strcpyW(absPath,res); return absPath; } /* INTERNAL: Helper for _fullpath. Modified PD code from 'snippets'. */ static void msvcrt_fln_fix(char *path) { int dir_flag = 0, root_flag = 0; char *r, *p, *q, *s; /* Skip drive */ if (NULL == (r = strrchr(path, ':'))) r = path; else ++r; /* Ignore leading slashes */ while ('\\' == *r) if ('\\' == r[1]) strcpy(r, &r[1]); else { root_flag = 1; ++r; } p = r; /* Change "\\" to "\" */ while (NULL != (p = strchr(p, '\\'))) if ('\\' == p[1]) strcpy(p, &p[1]); else ++p; while ('.' == *r) /* Scrunch leading ".\" */ { if ('.' == r[1]) { /* Ignore leading ".." */ for (p = (r += 2); *p && (*p != '\\'); ++p) ; } else { for (p = r + 1 ;*p && (*p != '\\'); ++p) ; } strcpy(r, p + ((*p) ? 1 : 0)); } while ('\\' == path[strlen(path)-1]) /* Strip last '\\' */ { dir_flag = 1; path[strlen(path)-1] = '\0'; } s = r; /* Look for "\." in path */ while (NULL != (p = strstr(s, "\\."))) { if ('.' == p[2]) { /* Execute this section if ".." found */ q = p - 1; while (q > r) /* Backup one level */ { if (*q == '\\') break; --q; } if (q > r) { strcpy(q, p + 3); s = q; } else if ('.' != *q) { strcpy(q + ((*q == '\\') ? 1 : 0), p + 3 + ((*(p + 3)) ? 1 : 0)); s = q; } else s = ++p; } else { /* Execute this section if "." found */ q = p + 2; for ( ;*q && (*q != '\\'); ++q) ; strcpy (p, q); } } if (root_flag) /* Embedded ".." could have bubbled up to root */ { for (p = r; *p && ('.' == *p || '\\' == *p); ++p) ; if (r != p) strcpy(r, p); } if (dir_flag) strcat(path, "\\"); } /********************************************************************* * _fullpath (MSVCRT.@) * * Create an absolute path from a relative path. * * PARAMS * absPath [O] Destination for absolute path * relPath [I] Relative path to convert to absolute * size [I] Length of absPath in characters. * * RETURNS * Success: If absPath is NULL, returns an allocated string containing the path. * Otherwise populates absPath with the path and returns it. * Failure: NULL. errno indicates the error. */ char *_fullpath(char * absPath, const char* relPath, unsigned int size) { char drive[5],dir[MAX_PATH],file[MAX_PATH],ext[MAX_PATH]; char res[MAX_PATH]; size_t len; res[0] = '\0'; if (!relPath || !*relPath) return _getcwd(absPath, size); if (size < 4) { *MSVCRT__errno() = MSVCRT_ERANGE; return NULL; } TRACE(":resolving relative path '%s'\n",relPath); _splitpath(relPath, drive, dir, file, ext); /* Get Directory and drive into 'res' */ if (!dir[0] || (dir[0] != '/' && dir[0] != '\\')) { /* Relative or no directory given */ _getdcwd(drive[0] ? toupper(drive[0]) - 'A' + 1 : 0, res, MAX_PATH); strcat(res,"\\"); if (dir[0]) strcat(res,dir); if (drive[0]) res[0] = drive[0]; /* If given a drive, preserve the letter case */ } else { strcpy(res,drive); strcat(res,dir); } strcat(res,"\\"); strcat(res, file); strcat(res, ext); msvcrt_fln_fix(res); len = strlen(res); if (len >= MAX_PATH || len >= (size_t)size) return NULL; /* FIXME: errno? */ if (!absPath) return _strdup(res); strcpy(absPath,res); return absPath; } /********************************************************************* * _makepath (MSVCRT.@) * * Create a pathname. * * PARAMS * path [O] Destination for created pathname * drive [I] Drive letter (e.g. "A:") * directory [I] Directory * filename [I] Name of the file, excluding extension * extension [I] File extension (e.g. ".TXT") * * RETURNS * Nothing. If path is not large enough to hold the resulting pathname, * random process memory will be overwritten. */ VOID _makepath(char * path, const char * drive, const char *directory, const char * filename, const char * extension) { char ch; char tmpPath[MAX_PATH]; TRACE("got %s %s %s %s\n", debugstr_a(drive), debugstr_a(directory), debugstr_a(filename), debugstr_a(extension) ); if ( !path ) return; tmpPath[0] = '\0'; if (drive && drive[0]) { tmpPath[0] = drive[0]; tmpPath[1] = ':'; tmpPath[2] = 0; } if (directory && directory[0]) { strcat(tmpPath, directory); ch = tmpPath[strlen(tmpPath)-1]; if (ch != '/' && ch != '\\') strcat(tmpPath,"\\"); } if (filename && filename[0]) { strcat(tmpPath, filename); if (extension && extension[0]) { if ( extension[0] != '.' ) strcat(tmpPath,"."); strcat(tmpPath,extension); } } strcpy( path, tmpPath ); TRACE("returning %s\n",path); } /********************************************************************* * _wmakepath (MSVCRT.@) * * Unicode version of _wmakepath. */ VOID _wmakepath(MSVCRT_wchar_t *path, const MSVCRT_wchar_t *drive, const MSVCRT_wchar_t *directory, const MSVCRT_wchar_t *filename, const MSVCRT_wchar_t *extension) { MSVCRT_wchar_t ch; TRACE("%s %s %s %s\n", debugstr_w(drive), debugstr_w(directory), debugstr_w(filename), debugstr_w(extension)); if ( !path ) return; path[0] = 0; if (drive && drive[0]) { path[0] = drive[0]; path[1] = ':'; path[2] = 0; } if (directory && directory[0]) { strcatW(path, directory); ch = path[strlenW(path) - 1]; if (ch != '/' && ch != '\\') { static const MSVCRT_wchar_t backslashW[] = {'\\',0}; strcatW(path, backslashW); } } if (filename && filename[0]) { strcatW(path, filename); if (extension && extension[0]) { if ( extension[0] != '.' ) { static const MSVCRT_wchar_t dotW[] = {'.',0}; strcatW(path, dotW); } strcatW(path, extension); } } TRACE("returning %s\n", debugstr_w(path)); } /********************************************************************* * _searchenv (MSVCRT.@) * * Search for a file in a list of paths from an envronment variable. * * PARAMS * file [I] Name of the file to search for. * env [I] Name of the environment variable containing a list of paths. * buf [O] Destination for the found file path. * * RETURNS * Nothing. If the file is not found, buf will contain an empty string * and errno is set. */ void _searchenv(const char* file, const char* env, char *buf) { char*envVal, *penv; char curPath[MAX_PATH]; *buf = '\0'; /* Try CWD first */ if (GetFileAttributesA( file ) != INVALID_FILE_ATTRIBUTES) { GetFullPathNameA( file, MAX_PATH, buf, NULL ); /* Sigh. This error is *always* set, regardless of success */ msvcrt_set_errno(ERROR_FILE_NOT_FOUND); return; } /* Search given environment variable */ envVal = MSVCRT_getenv(env); if (!envVal) { msvcrt_set_errno(ERROR_FILE_NOT_FOUND); return; } penv = envVal; TRACE(":searching for %s in paths %s\n", file, envVal); do { char *end = penv; while(*end && *end != ';') end++; /* Find end of next path */ if (penv == end || !*penv) { msvcrt_set_errno(ERROR_FILE_NOT_FOUND); return; } memcpy(curPath, penv, end - penv); if (curPath[end - penv] != '/' || curPath[end - penv] != '\\') { curPath[end - penv] = '\\'; curPath[end - penv + 1] = '\0'; } else curPath[end - penv] = '\0'; strcat(curPath, file); TRACE("Checking for file %s\n", curPath); if (GetFileAttributesA( curPath ) != INVALID_FILE_ATTRIBUTES) { strcpy(buf, curPath); msvcrt_set_errno(ERROR_FILE_NOT_FOUND); return; /* Found */ } penv = *end ? end + 1 : end; } while(1); }