/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "apr.h" #include <aclapi.h> #include "apr_private.h" #include "apr_arch_file_io.h" #include "apr_file_io.h" #include "apr_general.h" #include "apr_strings.h" #include "apr_errno.h" #include "apr_time.h" #include <sys/stat.h> #include "apr_arch_atime.h" #include "apr_arch_misc.h" /* We have to assure that the file name contains no '*'s, or other * wildcards when using FindFirstFile to recover the true file name. */ static apr_status_t test_safe_name(const char *name) { /* Only accept ':' in the second position of the filename, * as the drive letter delimiter: */ if (apr_isalpha(*name) && (name[1] == ':')) { name += 2; } while (*name) { if (!IS_FNCHAR(*name) && (*name != '\\') && (*name != '/')) { if (*name == '?' || *name == '*') return APR_EPATHWILD; else return APR_EBADPATH; } ++name; } return APR_SUCCESS; } static apr_status_t free_localheap(void *heap) { LocalFree(heap); return APR_SUCCESS; } static apr_gid_t worldid = NULL; static void free_world(void) { if (worldid) { FreeSid(worldid); worldid = NULL; } } /* Left bit shifts from World scope to given scope */ typedef enum prot_scope_e { prot_scope_world = 0, prot_scope_group = 4, prot_scope_user = 8 } prot_scope_e; static apr_fileperms_t convert_prot(ACCESS_MASK acc, prot_scope_e scope) { /* These choices are based on the single filesystem bit that controls * the given behavior. They are -not- recommended for any set protection * function, such a function should -set- use GENERIC_READ/WRITE/EXECUTE */ apr_fileperms_t prot = 0; if (acc & FILE_EXECUTE) prot |= APR_WEXECUTE; if (acc & FILE_WRITE_DATA) prot |= APR_WWRITE; if (acc & FILE_READ_DATA) prot |= APR_WREAD; return (prot << scope); } static void resolve_prot(apr_finfo_t *finfo, apr_int32_t wanted, PACL dacl) { TRUSTEE_W ident = {NULL, NO_MULTIPLE_TRUSTEE, TRUSTEE_IS_SID}; ACCESS_MASK acc; /* * This function is only invoked for WinNT, * there is no reason for os_level testing here. */ if ((wanted & APR_FINFO_WPROT) && !worldid) { SID_IDENTIFIER_AUTHORITY SIDAuth = SECURITY_WORLD_SID_AUTHORITY; if (AllocateAndInitializeSid(&SIDAuth, 1, SECURITY_WORLD_RID, 0, 0, 0, 0, 0, 0, 0, &worldid)) atexit(free_world); else worldid = NULL; } if ((wanted & APR_FINFO_UPROT) && (finfo->valid & APR_FINFO_USER)) { ident.TrusteeType = TRUSTEE_IS_USER; ident.ptstrName = finfo->user; /* GetEffectiveRightsFromAcl isn't supported under Win9x, * which shouldn't come as a surprize. Since we are passing * TRUSTEE_IS_SID, always skip the A->W layer. */ if (GetEffectiveRightsFromAclW(dacl, &ident, &acc) == ERROR_SUCCESS) { finfo->protection |= convert_prot(acc, prot_scope_user); finfo->valid |= APR_FINFO_UPROT; } } /* Windows NT: did not return group rights. * Windows 2000 returns group rights information. * Since WinNT kernels don't follow the unix model of * group associations, this all all pretty mute. */ if ((wanted & APR_FINFO_GPROT) && (finfo->valid & APR_FINFO_GROUP)) { ident.TrusteeType = TRUSTEE_IS_GROUP; ident.ptstrName = finfo->group; if (GetEffectiveRightsFromAclW(dacl, &ident, &acc) == ERROR_SUCCESS) { finfo->protection |= convert_prot(acc, prot_scope_group); finfo->valid |= APR_FINFO_GPROT; } } if ((wanted & APR_FINFO_WPROT) && (worldid)) { ident.TrusteeType = TRUSTEE_IS_WELL_KNOWN_GROUP; ident.ptstrName = worldid; if (GetEffectiveRightsFromAclW(dacl, &ident, &acc) == ERROR_SUCCESS) { finfo->protection |= convert_prot(acc, prot_scope_world); finfo->valid |= APR_FINFO_WPROT; } } } static apr_status_t resolve_ident(apr_finfo_t *finfo, const char *fname, apr_int32_t wanted, apr_pool_t *pool) { apr_file_t *thefile = NULL; apr_status_t rv; /* * NT5 (W2K) only supports symlinks in the same manner as mount points. * This code should eventually take that into account, for now treat * every reparse point as a symlink... * * We must open the file with READ_CONTROL if we plan to retrieve the * user, group or permissions. */ if ((rv = apr_file_open(&thefile, fname, APR_OPENINFO | ((wanted & APR_FINFO_LINK) ? APR_OPENLINK : 0) | ((wanted & (APR_FINFO_PROT | APR_FINFO_OWNER)) ? APR_READCONTROL : 0), APR_OS_DEFAULT, pool)) == APR_SUCCESS) { rv = apr_file_info_get(finfo, wanted, thefile); finfo->filehand = NULL; apr_file_close(thefile); } else if (APR_STATUS_IS_EACCES(rv) && (wanted & (APR_FINFO_PROT | APR_FINFO_OWNER))) { /* We have a backup plan. Perhaps we couldn't grab READ_CONTROL? * proceed without asking for that permission... */ if ((rv = apr_file_open(&thefile, fname, APR_OPENINFO | ((wanted & APR_FINFO_LINK) ? APR_OPENLINK : 0), APR_OS_DEFAULT, pool)) == APR_SUCCESS) { rv = apr_file_info_get(finfo, wanted & ~(APR_FINFO_PROT | APR_FINFO_OWNER), thefile); finfo->filehand = NULL; apr_file_close(thefile); } } if (rv != APR_SUCCESS && rv != APR_INCOMPLETE) return (rv); /* We picked up this case above and had opened the link's properties */ if (wanted & APR_FINFO_LINK) finfo->valid |= APR_FINFO_LINK; return rv; } static apr_status_t guess_protection_bits(apr_finfo_t *finfo, apr_int32_t wanted) { /* Read, write execute for owner. In the Win9x environment, any * readable file is executable (well, not entirely 100% true, but * still looking for some cheap logic that would help us here.) * The same holds on NT if a file doesn't have a DACL (e.g., on FAT) */ if (finfo->protection & APR_FREADONLY) { finfo->protection |= APR_WREAD | APR_WEXECUTE; } else { finfo->protection |= APR_WREAD | APR_WEXECUTE | APR_WWRITE; } finfo->protection |= (finfo->protection << prot_scope_group) | (finfo->protection << prot_scope_user); finfo->valid |= APR_FINFO_UPROT | APR_FINFO_GPROT | APR_FINFO_WPROT; return ((wanted & ~finfo->valid) ? APR_INCOMPLETE : APR_SUCCESS); } apr_status_t more_finfo(apr_finfo_t *finfo, const void *ufile, apr_int32_t wanted, int whatfile) { PSID user = NULL, grp = NULL; PACL dacl = NULL; apr_status_t rv; if (apr_os_level < APR_WIN_NT) return guess_protection_bits(finfo, wanted); if (wanted & (APR_FINFO_PROT | APR_FINFO_OWNER)) { /* On NT this request is incredibly expensive, but accurate. * Since the WinNT-only functions below are protected by the * (apr_os_level < APR_WIN_NT) case above, we need no extra * tests, but remember GetNamedSecurityInfo & GetSecurityInfo * are not supported on 9x. */ SECURITY_INFORMATION sinf = 0; PSECURITY_DESCRIPTOR pdesc = NULL; if (wanted & (APR_FINFO_USER | APR_FINFO_UPROT)) sinf |= OWNER_SECURITY_INFORMATION; if (wanted & (APR_FINFO_GROUP | APR_FINFO_GPROT)) sinf |= GROUP_SECURITY_INFORMATION; if (wanted & APR_FINFO_PROT) sinf |= DACL_SECURITY_INFORMATION; if (whatfile == MORE_OF_WFSPEC) { apr_wchar_t *wfile = (apr_wchar_t*) ufile; int fix = 0; if (wcsncmp(wfile, L"\\\\?\\", 4) == 0) { fix = 4; if (wcsncmp(wfile + fix, L"UNC\\", 4) == 0) wfile[6] = L'\\', fix = 6; } rv = GetNamedSecurityInfoW(wfile + fix, SE_FILE_OBJECT, sinf, ((wanted & (APR_FINFO_USER | APR_FINFO_UPROT)) ? &user : NULL), ((wanted & (APR_FINFO_GROUP | APR_FINFO_GPROT)) ? &grp : NULL), ((wanted & APR_FINFO_PROT) ? &dacl : NULL), NULL, &pdesc); if (fix == 6) wfile[6] = L'C'; } else if (whatfile == MORE_OF_FSPEC) rv = GetNamedSecurityInfoA((char*)ufile, SE_FILE_OBJECT, sinf, ((wanted & (APR_FINFO_USER | APR_FINFO_UPROT)) ? &user : NULL), ((wanted & (APR_FINFO_GROUP | APR_FINFO_GPROT)) ? &grp : NULL), ((wanted & APR_FINFO_PROT) ? &dacl : NULL), NULL, &pdesc); else if (whatfile == MORE_OF_HANDLE) rv = GetSecurityInfo((HANDLE)ufile, SE_FILE_OBJECT, sinf, ((wanted & (APR_FINFO_USER | APR_FINFO_UPROT)) ? &user : NULL), ((wanted & (APR_FINFO_GROUP | APR_FINFO_GPROT)) ? &grp : NULL), ((wanted & APR_FINFO_PROT) ? &dacl : NULL), NULL, &pdesc); else return APR_INCOMPLETE; if (rv == ERROR_SUCCESS) apr_pool_cleanup_register(finfo->pool, pdesc, free_localheap, apr_pool_cleanup_null); else user = grp = dacl = NULL; if (user) { finfo->user = user; finfo->valid |= APR_FINFO_USER; } if (grp) { finfo->group = grp; finfo->valid |= APR_FINFO_GROUP; } if (dacl) { /* Retrieved the discresionary access list */ resolve_prot(finfo, wanted, dacl); } else if (wanted & APR_FINFO_PROT) guess_protection_bits(finfo, wanted); } if ((apr_os_level >= APR_WIN_2000) && (wanted & APR_FINFO_CSIZE) && (finfo->filetype == APR_REG)) { DWORD sizelo, sizehi; if (whatfile == MORE_OF_HANDLE) { /* Not available for development and implementation under * a reasonable license; if you review the licensing * terms and conditions of; * http://go.microsoft.com/fwlink/?linkid=84083 * you probably understand why APR chooses not to implement. */ IOSB sb; FSI fi; if ((ZwQueryInformationFile((HANDLE)ufile, &sb, &fi, sizeof(fi), 5) == 0) && (sb.Status == 0)) { finfo->csize = fi.AllocationSize; finfo->valid |= APR_FINFO_CSIZE; } } else { SetLastError(NO_ERROR); if (whatfile == MORE_OF_WFSPEC) sizelo = GetCompressedFileSizeW((apr_wchar_t*)ufile, &sizehi); else if (whatfile == MORE_OF_FSPEC) sizelo = GetCompressedFileSizeA((char*)ufile, &sizehi); if (sizelo != INVALID_FILE_SIZE || GetLastError() == NO_ERROR) { #if APR_HAS_LARGE_FILES finfo->csize = (apr_off_t)sizelo | ((apr_off_t)sizehi << 32); #else finfo->csize = (apr_off_t)sizelo; if (finfo->csize < 0 || sizehi) finfo->csize = 0x7fffffff; #endif finfo->valid |= APR_FINFO_CSIZE; } } } return ((wanted & ~finfo->valid) ? APR_INCOMPLETE : APR_SUCCESS); } /* This generic fillin depends upon byhandle to be passed as 0 when * a WIN32_FILE_ATTRIBUTE_DATA or either WIN32_FIND_DATA [A or W] is * passed for wininfo. When the BY_HANDLE_FILE_INFORMATION structure * is passed for wininfo, byhandle is passed as 1 to offset the one * dword discrepancy in offset of the High/Low size structure members. * * The generic fillin returns 1 if the caller should further inquire * if this is a CHR filetype. If it's reasonably certain it can't be, * then the function returns 0. */ int fillin_fileinfo(apr_finfo_t *finfo, WIN32_FILE_ATTRIBUTE_DATA *wininfo, int byhandle, apr_int32_t wanted) { DWORD *sizes = &wininfo->nFileSizeHigh + byhandle; int warn = 0; memset(finfo, '\0', sizeof(*finfo)); FileTimeToAprTime(&finfo->atime, &wininfo->ftLastAccessTime); FileTimeToAprTime(&finfo->ctime, &wininfo->ftCreationTime); FileTimeToAprTime(&finfo->mtime, &wininfo->ftLastWriteTime); #if APR_HAS_LARGE_FILES finfo->size = (apr_off_t)sizes[1] | ((apr_off_t)sizes[0] << 32); #else finfo->size = (apr_off_t)sizes[1]; if (finfo->size < 0 || sizes[0]) finfo->size = 0x7fffffff; #endif if (wanted & APR_FINFO_LINK && wininfo->dwFileAttributes & FILE_ATTRIBUTE_REPARSE_POINT) { finfo->filetype = APR_LNK; } else if (wininfo->dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { finfo->filetype = APR_DIR; } else if (wininfo->dwFileAttributes & FILE_ATTRIBUTE_DEVICE) { /* Warning: This test only succeeds on Win9x, on NT these files * (con, aux, nul, lpt#, com# etc) escape early detection! */ finfo->filetype = APR_CHR; } else { /* Warning: Short of opening the handle to the file, the 'FileType' * appears to be unknowable (in any trustworthy or consistent sense) * on WinNT/2K as far as PIPE, CHR, etc are concerned. */ if (!wininfo->ftLastWriteTime.dwLowDateTime && !wininfo->ftLastWriteTime.dwHighDateTime && !finfo->size) warn = 1; finfo->filetype = APR_REG; } /* The following flags are [for this moment] private to Win32. * That's the only excuse for not toggling valid bits to reflect them. */ if (wininfo->dwFileAttributes & FILE_ATTRIBUTE_READONLY) finfo->protection = APR_FREADONLY; finfo->valid = APR_FINFO_ATIME | APR_FINFO_CTIME | APR_FINFO_MTIME | APR_FINFO_SIZE | APR_FINFO_TYPE; /* == APR_FINFO_MIN */ /* Only byhandle optionally tests link targets, so tell that caller * what it wants to hear, otherwise the byattributes is never * reporting anything but the link. */ if (!byhandle || (wanted & APR_FINFO_LINK)) finfo->valid |= APR_FINFO_LINK; return warn; } APR_DECLARE(apr_status_t) apr_file_info_get(apr_finfo_t *finfo, apr_int32_t wanted, apr_file_t *thefile) { BY_HANDLE_FILE_INFORMATION FileInfo; if (thefile->buffered) { /* XXX: flush here is not mutex protected */ apr_status_t rv = apr_file_flush(thefile); if (rv != APR_SUCCESS) return rv; } if (!GetFileInformationByHandle(thefile->filehand, &FileInfo)) { return apr_get_os_error(); } fillin_fileinfo(finfo, (WIN32_FILE_ATTRIBUTE_DATA *) &FileInfo, 1, wanted); if (finfo->filetype == APR_REG) { /* Go the extra mile to be -certain- that we have a real, regular * file, since the attribute bits aren't a certain thing. Even * though fillin should have hinted if we *must* do this, we * don't need to take chances while the handle is already open. */ DWORD FileType; if (FileType = GetFileType(thefile->filehand)) { if (FileType == FILE_TYPE_CHAR) { finfo->filetype = APR_CHR; } else if (FileType == FILE_TYPE_PIPE) { finfo->filetype = APR_PIPE; } /* Otherwise leave the original conclusion alone */ } } finfo->pool = thefile->pool; /* ### The finfo lifetime may exceed the lifetime of thefile->pool * but finfo's aren't managed in pools, so where on earth would * we pstrdup the fname into??? */ finfo->fname = thefile->fname; /* Extra goodies known only by GetFileInformationByHandle() */ finfo->inode = (apr_ino_t)FileInfo.nFileIndexLow | ((apr_ino_t)FileInfo.nFileIndexHigh << 32); finfo->device = FileInfo.dwVolumeSerialNumber; finfo->nlink = FileInfo.nNumberOfLinks; finfo->valid |= APR_FINFO_IDENT | APR_FINFO_NLINK; /* If we still want something more (besides the name) go get it! */ if ((wanted &= ~finfo->valid) & ~APR_FINFO_NAME) { return more_finfo(finfo, thefile->filehand, wanted, MORE_OF_HANDLE); } return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_file_perms_set(const char *fname, apr_fileperms_t perms) { return APR_ENOTIMPL; } APR_DECLARE(apr_status_t) apr_stat(apr_finfo_t *finfo, const char *fname, apr_int32_t wanted, apr_pool_t *pool) { /* XXX: is constant - needs testing - which requires a lighter-weight root test fn */ int isroot = 0; apr_status_t ident_rv = 0; apr_status_t rv; #if APR_HAS_UNICODE_FS apr_wchar_t wfname[APR_PATH_MAX]; #endif char *filename = NULL; /* These all share a common subset of this structure */ union { WIN32_FIND_DATAW w; WIN32_FIND_DATAA n; WIN32_FILE_ATTRIBUTE_DATA i; } FileInfo; /* Catch fname length == MAX_PATH since GetFileAttributesEx fails * with PATH_NOT_FOUND. We would rather indicate length error than * 'not found' */ if (strlen(fname) >= APR_PATH_MAX) { return APR_ENAMETOOLONG; } #if APR_HAS_UNICODE_FS IF_WIN_OS_IS_UNICODE { if ((wanted & (APR_FINFO_IDENT | APR_FINFO_NLINK)) || (~wanted & APR_FINFO_LINK)) { /* FindFirstFile and GetFileAttributesEx can't figure the inode, * device or number of links, so we need to resolve with an open * file handle. If the user has asked for these fields, fall over * to the get file info by handle method. If we fail, or the user * also asks for the file name, continue by our usual means. * * We also must use this method for a 'true' stat, that resolves * a symlink (NTFS Junction) target. This is because all fileinfo * on a Junction always returns the junction, opening the target * is the only way to resolve the target's attributes. */ if ((ident_rv = resolve_ident(finfo, fname, wanted, pool)) == APR_SUCCESS) return ident_rv; else if (ident_rv == APR_INCOMPLETE) wanted &= ~finfo->valid; } if (rv = utf8_to_unicode_path(wfname, sizeof(wfname) / sizeof(apr_wchar_t), fname)) return rv; if (!(wanted & APR_FINFO_NAME)) { if (!GetFileAttributesExW(wfname, GetFileExInfoStandard, &FileInfo.i)) return apr_get_os_error(); } else { /* Guard against bogus wildcards and retrieve by name * since we want the true name, and set aside a long * enough string to handle the longest file name. */ char tmpname[APR_FILE_MAX * 3 + 1]; HANDLE hFind; if ((rv = test_safe_name(fname)) != APR_SUCCESS) { return rv; } hFind = FindFirstFileW(wfname, &FileInfo.w); if (hFind == INVALID_HANDLE_VALUE) return apr_get_os_error(); FindClose(hFind); if (unicode_to_utf8_path(tmpname, sizeof(tmpname), FileInfo.w.cFileName)) { return APR_ENAMETOOLONG; } filename = apr_pstrdup(pool, tmpname); } } #endif #if APR_HAS_ANSI_FS ELSE_WIN_OS_IS_ANSI { char *root = NULL; const char *test = fname; rv = apr_filepath_root(&root, &test, APR_FILEPATH_NATIVE, pool); isroot = (root && *root && !(*test)); if ((apr_os_level >= APR_WIN_98) && (!(wanted & APR_FINFO_NAME) || isroot)) { /* cannot use FindFile on a Win98 root, it returns \* * GetFileAttributesExA is not available on Win95 */ if (!GetFileAttributesExA(fname, GetFileExInfoStandard, &FileInfo.i)) { return apr_get_os_error(); } } else if (isroot) { /* This is Win95 and we are trying to stat a root. Lie. */ if (GetDriveType(fname) != DRIVE_UNKNOWN) { finfo->pool = pool; finfo->filetype = 0; finfo->mtime = apr_time_now(); finfo->protection |= APR_WREAD | APR_WEXECUTE | APR_WWRITE; finfo->protection |= (finfo->protection << prot_scope_group) | (finfo->protection << prot_scope_user); finfo->valid |= APR_FINFO_TYPE | APR_FINFO_PROT | APR_FINFO_MTIME | (wanted & APR_FINFO_LINK); return (wanted &= ~finfo->valid) ? APR_INCOMPLETE : APR_SUCCESS; } else return APR_FROM_OS_ERROR(ERROR_PATH_NOT_FOUND); } else { /* Guard against bogus wildcards and retrieve by name * since we want the true name, or are stuck in Win95, * or are looking for the root of a Win98 drive. */ HANDLE hFind; if ((rv = test_safe_name(fname)) != APR_SUCCESS) { return rv; } hFind = FindFirstFileA(fname, &FileInfo.n); if (hFind == INVALID_HANDLE_VALUE) { return apr_get_os_error(); } FindClose(hFind); filename = apr_pstrdup(pool, FileInfo.n.cFileName); } } #endif if (ident_rv != APR_INCOMPLETE) { if (fillin_fileinfo(finfo, (WIN32_FILE_ATTRIBUTE_DATA *) &FileInfo, 0, wanted)) { /* Go the extra mile to assure we have a file. WinNT/2000 seems * to reliably translate char devices to the path '\\.\device' * so go ask for the full path. */ if (apr_os_level >= APR_WIN_NT) { #if APR_HAS_UNICODE_FS apr_wchar_t tmpname[APR_FILE_MAX]; apr_wchar_t *tmpoff = NULL; if (GetFullPathNameW(wfname, sizeof(tmpname) / sizeof(apr_wchar_t), tmpname, &tmpoff)) { if (!wcsncmp(tmpname, L"\\\\.\\", 4)) { #else /* Same initial logic as above, but * only for WinNT/non-UTF-8 builds of APR: */ char tmpname[APR_FILE_MAX]; char *tmpoff; if (GetFullPathName(fname, sizeof(tmpname), tmpname, &tmpoff)) { if (!strncmp(tmpname, "\\\\.\\", 4)) { #endif if (tmpoff == tmpname + 4) { finfo->filetype = APR_CHR; } /* For WHATEVER reason, CHR devices such as \\.\con * or \\.\lpt1 *may*not* update tmpoff; in fact the * resulting tmpoff is set to NULL. Guard against * either case. * * This code is identical for wide and narrow chars... */ else if (!tmpoff) { tmpoff = tmpname + 4; while (*tmpoff) { if (*tmpoff == '\\' || *tmpoff == '/') { break; } ++tmpoff; } if (!*tmpoff) { finfo->filetype = APR_CHR; } } } } else { finfo->valid &= ~APR_FINFO_TYPE; } } else { finfo->valid &= ~APR_FINFO_TYPE; } } finfo->pool = pool; } if (filename && !isroot) { finfo->name = filename; finfo->valid |= APR_FINFO_NAME; } if (wanted &= ~finfo->valid) { /* Caller wants more than APR_FINFO_MIN | APR_FINFO_NAME */ #if APR_HAS_UNICODE_FS if (apr_os_level >= APR_WIN_NT) return more_finfo(finfo, wfname, wanted, MORE_OF_WFSPEC); #endif return more_finfo(finfo, fname, wanted, MORE_OF_FSPEC); } return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_file_attrs_set(const char *fname, apr_fileattrs_t attributes, apr_fileattrs_t attr_mask, apr_pool_t *pool) { DWORD flags; apr_status_t rv; #if APR_HAS_UNICODE_FS apr_wchar_t wfname[APR_PATH_MAX]; #endif /* Don't do anything if we can't handle the requested attributes */ if (!(attr_mask & (APR_FILE_ATTR_READONLY | APR_FILE_ATTR_HIDDEN))) return APR_SUCCESS; #if APR_HAS_UNICODE_FS IF_WIN_OS_IS_UNICODE { if (rv = utf8_to_unicode_path(wfname, sizeof(wfname) / sizeof(wfname[0]), fname)) return rv; flags = GetFileAttributesW(wfname); } #endif #if APR_HAS_ANSI_FS ELSE_WIN_OS_IS_ANSI { flags = GetFileAttributesA(fname); } #endif if (flags == 0xFFFFFFFF) return apr_get_os_error(); if (attr_mask & APR_FILE_ATTR_READONLY) { if (attributes & APR_FILE_ATTR_READONLY) flags |= FILE_ATTRIBUTE_READONLY; else flags &= ~FILE_ATTRIBUTE_READONLY; } if (attr_mask & APR_FILE_ATTR_HIDDEN) { if (attributes & APR_FILE_ATTR_HIDDEN) flags |= FILE_ATTRIBUTE_HIDDEN; else flags &= ~FILE_ATTRIBUTE_HIDDEN; } #if APR_HAS_UNICODE_FS IF_WIN_OS_IS_UNICODE { rv = SetFileAttributesW(wfname, flags); } #endif #if APR_HAS_ANSI_FS ELSE_WIN_OS_IS_ANSI { rv = SetFileAttributesA(fname, flags); } #endif if (rv == 0) return apr_get_os_error(); return APR_SUCCESS; } APR_DECLARE(apr_status_t) apr_file_mtime_set(const char *fname, apr_time_t mtime, apr_pool_t *pool) { apr_file_t *thefile; apr_status_t rv; rv = apr_file_open(&thefile, fname, APR_READ | APR_WRITEATTRS, APR_OS_DEFAULT, pool); if (!rv) { FILETIME file_ctime; FILETIME file_atime; FILETIME file_mtime; if (!GetFileTime(thefile->filehand, &file_ctime, &file_atime, &file_mtime)) rv = apr_get_os_error(); else { AprTimeToFileTime(&file_mtime, mtime); if (!SetFileTime(thefile->filehand, &file_ctime, &file_atime, &file_mtime)) rv = apr_get_os_error(); } apr_file_close(thefile); } return rv; }
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