// ************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: http://www.gnu.org/licenses/gpl-3.0 * // * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved * // ************************************************************************** #include "file_access.h" #include #include #include #include "int64.h" #include "file_traverser.h" #include "scope_guard.h" #include "symlink_target.h" #include "file_io.h" #include "file_id_def.h" #ifdef ZEN_WIN #include #include "privilege.h" #include "dll.h" #include "long_path_prefix.h" #include "win_ver.h" #include "IFileOperation/file_op.h" #elif defined ZEN_LINUX #include //statfs #include //AT_SYMLINK_NOFOLLOW, UTIME_OMIT #ifdef HAVE_SELINUX #include #endif #elif defined ZEN_MAC #include //statfs #include #endif #if defined ZEN_LINUX || defined ZEN_MAC #include #include //lutimes #endif using namespace zen; bool zen::fileExists(const Zstring& filepath) { //symbolic links (broken or not) are also treated as existing files! #ifdef ZEN_WIN const DWORD attr = ::GetFileAttributes(applyLongPathPrefix(filepath).c_str()); if (attr != INVALID_FILE_ATTRIBUTES) return (attr & FILE_ATTRIBUTE_DIRECTORY) == 0; //returns true for (file-)symlinks also #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat fileInfo = {}; if (::stat(filepath.c_str(), &fileInfo) == 0) //follow symlinks! return S_ISREG(fileInfo.st_mode); #endif return false; } bool zen::dirExists(const Zstring& dirpath) { //symbolic links (broken or not) are also treated as existing directories! #ifdef ZEN_WIN const DWORD attr = ::GetFileAttributes(applyLongPathPrefix(dirpath).c_str()); if (attr != INVALID_FILE_ATTRIBUTES) return (attr & FILE_ATTRIBUTE_DIRECTORY) != 0; //returns true for (dir-)symlinks also #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat dirInfo = {}; if (::stat(dirpath.c_str(), &dirInfo) == 0) //follow symlinks! return S_ISDIR(dirInfo.st_mode); #endif return false; } bool zen::symlinkExists(const Zstring& linkname) { #ifdef ZEN_WIN WIN32_FIND_DATA linkInfo = {}; const HANDLE searchHandle = ::FindFirstFile(applyLongPathPrefix(linkname).c_str(), &linkInfo); if (searchHandle != INVALID_HANDLE_VALUE) { ::FindClose(searchHandle); return isSymlink(linkInfo); } #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat linkInfo = {}; if (::lstat(linkname.c_str(), &linkInfo) == 0) return S_ISLNK(linkInfo.st_mode); #endif return false; } bool zen::somethingExists(const Zstring& objname) { #ifdef ZEN_WIN const DWORD attr = ::GetFileAttributes(applyLongPathPrefix(objname).c_str()); if (attr != INVALID_FILE_ATTRIBUTES) return true; const DWORD lastError = ::GetLastError(); //handle obscure file permission problem where ::GetFileAttributes() fails with ERROR_ACCESS_DENIED or ERROR_SHARING_VIOLATION //while parent directory traversal is successful: e.g. "C:\pagefile.sys" if (lastError != ERROR_PATH_NOT_FOUND && //perf: short circuit for common "not existing" error codes lastError != ERROR_FILE_NOT_FOUND && // lastError != ERROR_BAD_NETPATH && // lastError != ERROR_BAD_NET_NAME) // { WIN32_FIND_DATA fileInfo = {}; const HANDLE searchHandle = ::FindFirstFile(applyLongPathPrefix(objname).c_str(), &fileInfo); if (searchHandle != INVALID_HANDLE_VALUE) { ::FindClose(searchHandle); return true; } } #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat fileInfo = {}; if (::lstat(objname.c_str(), &fileInfo) == 0) return true; #endif return false; } namespace { #ifdef ZEN_WIN //fast ::GetVolumePathName() clone: let's hope it's not too simple (doesn't honor mount points) Zstring getVolumeNameFast(const Zstring& filepath) { //this call is expensive: ~1.5 ms! // if (!::GetVolumePathName(filepath.c_str(), //__in LPCTSTR lpszFileName, // fsName, //__out LPTSTR lpszVolumePathName, // BUFFER_SIZE)) //__in DWORD cchBufferLength // ... // Zstring volumePath = appendSeparator(fsName); const Zstring nameFmt = appendSeparator(removeLongPathPrefix(filepath)); //throw() if (startsWith(nameFmt, Zstr("\\\\"))) //UNC path: "\\ComputerName\SharedFolder\" { size_t nameSize = nameFmt.size(); const size_t posFirstSlash = nameFmt.find(Zstr("\\"), 2); if (posFirstSlash != Zstring::npos) { nameSize = posFirstSlash + 1; const size_t posSecondSlash = nameFmt.find(Zstr("\\"), posFirstSlash + 1); if (posSecondSlash != Zstring::npos) nameSize = posSecondSlash + 1; } return Zstring(nameFmt.c_str(), nameSize); //include trailing backslash! } else //local path: "C:\Folder\" { const size_t pos = nameFmt.find(Zstr(":\\")); if (pos == 1) //expect single letter volume return Zstring(nameFmt.c_str(), 3); } return Zstring(); } bool isFatDrive(const Zstring& filepath) //throw() { const Zstring volumePath = getVolumeNameFast(filepath); if (volumePath.empty()) return false; const DWORD bufferSize = MAX_PATH + 1; wchar_t fsName[bufferSize] = {}; //suprisingly fast: ca. 0.03 ms per call! if (!::GetVolumeInformation(appendSeparator(volumePath).c_str(), //__in_opt LPCTSTR lpRootPathName, nullptr, //__out LPTSTR lpVolumeNameBuffer, 0, //__in DWORD nVolumeNameSize, nullptr, //__out_opt LPDWORD lpVolumeSerialNumber, nullptr, //__out_opt LPDWORD lpMaximumComponentLength, nullptr, //__out_opt LPDWORD lpFileSystemFlags, fsName, //__out LPTSTR lpFileSystemNameBuffer, bufferSize)) //__in DWORD nFileSystemNameSize { assert(false); //shouldn't happen return false; } //DST hack seems to be working equally well for FAT and FAT32 (in particular creation time has 10^-2 s precision as advertised) return fsName == Zstring(L"FAT") || fsName == Zstring(L"FAT32"); } //(try to) enhance error messages by showing which processes lock the file Zstring getLockingProcessNames(const Zstring& filepath) //throw(), empty string if none found or error occurred { if (vistaOrLater()) { using namespace fileop; const DllFun getLockingProcesses(getDllName(), funName_getLockingProcesses); const DllFun freeString (getDllName(), funName_freeString); if (getLockingProcesses && freeString) if (const wchar_t* procList = getLockingProcesses(filepath.c_str())) { ZEN_ON_SCOPE_EXIT(freeString(procList)); return procList; } } return Zstring(); } #endif } std::uint64_t zen::getFilesize(const Zstring& filepath) //throw FileError { #ifdef ZEN_WIN { WIN32_FIND_DATA fileInfo = {}; const HANDLE searchHandle = ::FindFirstFile(applyLongPathPrefix(filepath).c_str(), &fileInfo); if (searchHandle == INVALID_HANDLE_VALUE) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(filepath)), L"FindFirstFile", getLastError()); ::FindClose(searchHandle); if (!isSymlink(fileInfo)) return get64BitUInt(fileInfo.nFileSizeLow, fileInfo.nFileSizeHigh); } // WIN32_FILE_ATTRIBUTE_DATA sourceAttr = {}; // if (!::GetFileAttributesEx(applyLongPathPrefix(filepath).c_str(), //__in LPCTSTR lpFileName, // GetFileExInfoStandard, //__in GET_FILEEX_INFO_LEVELS fInfoLevelId, // &sourceAttr)) //__out LPVOID lpFileInformation //open handle to target of symbolic link const HANDLE hFile = ::CreateFile(applyLongPathPrefix(filepath).c_str(), //_In_ LPCTSTR lpFileName, 0, //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, FILE_FLAG_BACKUP_SEMANTICS, /*needed to open a directory*/ //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hFile == INVALID_HANDLE_VALUE) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(filepath)), L"CreateFile", getLastError()); ZEN_ON_SCOPE_EXIT(::CloseHandle(hFile)); BY_HANDLE_FILE_INFORMATION fileInfoHnd = {}; if (!::GetFileInformationByHandle(hFile, &fileInfoHnd)) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(filepath)), L"GetFileInformationByHandle", getLastError()); return get64BitUInt(fileInfoHnd.nFileSizeLow, fileInfoHnd.nFileSizeHigh); #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat fileInfo = {}; if (::stat(filepath.c_str(), &fileInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(filepath)), L"stat", getLastError()); return fileInfo.st_size; #endif } std::uint64_t zen::getFreeDiskSpace(const Zstring& path) //throw FileError { #ifdef ZEN_WIN ULARGE_INTEGER bytesFree = {}; if (!::GetDiskFreeSpaceEx(appendSeparator(path).c_str(), //__in_opt LPCTSTR lpDirectoryName, -> "UNC name [...] must include a trailing backslash, for example, "\\MyServer\MyShare\" &bytesFree, //__out_opt PULARGE_INTEGER lpFreeBytesAvailable, nullptr, //__out_opt PULARGE_INTEGER lpTotalNumberOfBytes, nullptr)) //__out_opt PULARGE_INTEGER lpTotalNumberOfFreeBytes throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(path)), L"GetDiskFreeSpaceEx", getLastError()); return get64BitUInt(bytesFree.LowPart, bytesFree.HighPart); #elif defined ZEN_LINUX || defined ZEN_MAC struct ::statfs info = {}; if (::statfs(path.c_str(), &info) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(path)), L"statfs", getLastError()); return static_cast(info.f_bsize) * info.f_bavail; #endif } bool zen::removeFile(const Zstring& filepath) //throw FileError { #ifdef ZEN_WIN const wchar_t functionName[] = L"DeleteFile"; const Zstring& filepathFmt = applyLongPathPrefix(filepath); if (!::DeleteFile(filepathFmt.c_str())) #elif defined ZEN_LINUX || defined ZEN_MAC const wchar_t functionName[] = L"unlink"; if (::unlink(filepath.c_str()) != 0) #endif { ErrorCode lastError = getLastError(); #ifdef ZEN_WIN if (lastError == ERROR_ACCESS_DENIED) //function fails if file is read-only { ::SetFileAttributes(filepathFmt.c_str(), FILE_ATTRIBUTE_NORMAL); //(try to) normalize file attributes if (::DeleteFile(filepathFmt.c_str())) //now try again... return true; lastError = ::GetLastError(); } #endif if (!somethingExists(filepath)) //warning: changes global error code!! return false; //neither file nor any other object (e.g. broken symlink) with that name existing - caveat: what if "access is denied"!?!??!?!? //begin of "regular" error reporting const std::wstring errorMsg = replaceCpy(_("Cannot delete file %x."), L"%x", fmtFileName(filepath)); std::wstring errorDescr = formatSystemError(functionName, lastError); #ifdef ZEN_WIN if (lastError == ERROR_SHARING_VIOLATION || //-> enhance error message! lastError == ERROR_LOCK_VIOLATION) { const Zstring procList = getLockingProcessNames(filepath); //throw() if (!procList.empty()) errorDescr = _("The file is locked by another process:") + L"\n" + procList; } #endif throw FileError(errorMsg, errorDescr); } return true; } namespace { /* Usage overview: (avoid circular pattern!) renameFile() --> renameFile_sub() | /|\ \|/ | Fix8Dot3NameClash() */ //wrapper for file system rename function: void renameFile_sub(const Zstring& oldName, const Zstring& newName) //throw FileError, ErrorDifferentVolume, ErrorTargetExisting { #ifdef ZEN_WIN const Zstring oldNameFmt = applyLongPathPrefix(oldName); const Zstring newNameFmt = applyLongPathPrefix(newName); if (!::MoveFileEx(oldNameFmt.c_str(), //__in LPCTSTR lpExistingFileName, newNameFmt.c_str(), //__in_opt LPCTSTR lpNewFileName, 0)) //__in DWORD dwFlags { DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! if (lastError == ERROR_ACCESS_DENIED) //MoveFileEx may fail to rename a read-only file on a SAMBA-share -> (try to) handle this { const DWORD oldAttr = ::GetFileAttributes(oldNameFmt.c_str()); if (oldAttr != INVALID_FILE_ATTRIBUTES && (oldAttr & FILE_ATTRIBUTE_READONLY)) { if (::SetFileAttributes(oldNameFmt.c_str(), FILE_ATTRIBUTE_NORMAL)) //remove readonly-attribute { //try again... if (::MoveFileEx(oldNameFmt.c_str(), //__in LPCTSTR lpExistingFileName, newNameFmt.c_str(), //__in_opt LPCTSTR lpNewFileName, 0)) //__in DWORD dwFlags { //(try to) restore file attributes ::SetFileAttributes(newNameFmt.c_str(), oldAttr); //don't handle error return; } else { lastError = ::GetLastError(); //use error code from second call to ::MoveFileEx() //cleanup: (try to) restore file attributes: assume oldName is still existing ::SetFileAttributes(oldNameFmt.c_str(), oldAttr); } } } } const std::wstring errorMsg = replaceCpy(replaceCpy(_("Cannot move file %x to %y."), L"%x", L"\n" + fmtFileName(oldName)), L"%y", L"\n" + fmtFileName(newName)); std::wstring errorDescr = formatSystemError(L"MoveFileEx", lastError); //try to enhance error message: if (lastError == ERROR_SHARING_VIOLATION || lastError == ERROR_LOCK_VIOLATION) { const Zstring procList = getLockingProcessNames(oldName); //throw() if (!procList.empty()) errorDescr = _("The file is locked by another process:") + L"\n" + procList; } if (lastError == ERROR_NOT_SAME_DEVICE) throw ErrorDifferentVolume(errorMsg, errorDescr); else if (lastError == ERROR_ALREADY_EXISTS || //-> used on Win7 x64 lastError == ERROR_FILE_EXISTS) //-> used by XP??? throw ErrorTargetExisting(errorMsg, errorDescr); else throw FileError(errorMsg, errorDescr); } #elif defined ZEN_LINUX || defined ZEN_MAC if (::rename(oldName.c_str(), newName.c_str()) != 0) { const int lastError = errno; //copy before directly or indirectly making other system calls! const std::wstring errorMsg = replaceCpy(replaceCpy(_("Cannot move file %x to %y."), L"%x", L"\n" + fmtFileName(oldName)), L"%y", L"\n" + fmtFileName(newName)); const std::wstring errorDescr = formatSystemError(L"rename", lastError); if (lastError == EXDEV) throw ErrorDifferentVolume(errorMsg, errorDescr); else if (lastError == EEXIST) throw ErrorTargetExisting(errorMsg, errorDescr); else throw FileError(errorMsg, errorDescr); } #endif } #ifdef ZEN_WIN /*small wrapper around ::GetShortPathName() ::GetLongPathName() */ template Zstring getFilenameFmt(const Zstring& filepath, Function fun) //throw(); returns empty string on error { const Zstring filepathFmt = applyLongPathPrefix(filepath); const DWORD bufferSize = fun(filepathFmt.c_str(), nullptr, 0); if (bufferSize == 0) return Zstring(); std::vector buffer(bufferSize); const DWORD charsWritten = fun(filepathFmt.c_str(), //__in LPCTSTR lpszShortPath, &buffer[0], //__out LPTSTR lpszLongPath, bufferSize); //__in DWORD cchBuffer if (charsWritten == 0 || charsWritten >= bufferSize) return Zstring(); return &buffer[0]; } Zstring findUnused8Dot3Name(const Zstring& filepath) //find a unique 8.3 short name { const Zstring pathPrefix = contains(filepath, FILE_NAME_SEPARATOR) ? (beforeLast(filepath, FILE_NAME_SEPARATOR) + FILE_NAME_SEPARATOR) : Zstring(); Zstring extension = afterLast(afterLast(filepath, FILE_NAME_SEPARATOR), Zchar('.')); //extension needn't contain reasonable data if (extension.empty()) extension = Zstr("FFS"); else if (extension.length() > 3) extension.resize(3); for (int index = 0; index < 100000000; ++index) //filepath must be representable by <= 8 characters { const Zstring output = pathPrefix + numberTo(index) + Zchar('.') + extension; if (!somethingExists(output)) //ensure uniqueness return output; } throw std::runtime_error(std::string("100000000 files, one for each number, exist in this directory? You're kidding...") + utfCvrtTo(pathPrefix)); } bool have8dot3NameClash(const Zstring& filepath) { if (!contains(filepath, FILE_NAME_SEPARATOR)) return false; if (somethingExists(filepath)) //name OR directory! { const Zstring origName = afterLast(filepath, FILE_NAME_SEPARATOR); //returns the whole string if ch not found const Zstring shortName = afterLast(getFilenameFmt(filepath, ::GetShortPathName), FILE_NAME_SEPARATOR); //throw() returns empty string on error const Zstring longName = afterLast(getFilenameFmt(filepath, ::GetLongPathName ), FILE_NAME_SEPARATOR); // if (!shortName.empty() && !longName .empty() && EqualFilename()(origName, shortName) && !EqualFilename()(shortName, longName)) { //for filepath short and long file name are equal and another unrelated file happens to have the same short name //e.g. filepath == "TESTWE~1", but another file is existing named "TestWeb" with short name ""TESTWE~1" return true; } } return false; } class Fix8Dot3NameClash //throw FileError { public: Fix8Dot3NameClash(const Zstring& filepath) { const Zstring longName = afterLast(getFilenameFmt(filepath, ::GetLongPathName), FILE_NAME_SEPARATOR); //throw() returns empty string on error unrelatedFile = beforeLast(filepath, FILE_NAME_SEPARATOR) + FILE_NAME_SEPARATOR + longName; //find another name in short format: this ensures the actual short name WILL be renamed as well! unrelatedFileParked = findUnused8Dot3Name(filepath); //move already existing short name out of the way for now renameFile_sub(unrelatedFile, unrelatedFileParked); //throw FileError, ErrorDifferentVolume //DON'T call renameFile() to avoid reentrance! } ~Fix8Dot3NameClash() { //the file system should assign this unrelated file a new (unique) short name try { renameFile_sub(unrelatedFileParked, unrelatedFile); //throw FileError, ErrorDifferentVolume } catch (FileError&) {} } private: Zstring unrelatedFile; Zstring unrelatedFileParked; }; #endif } //rename file: no copying!!! void zen::renameFile(const Zstring& oldName, const Zstring& newName) //throw FileError, ErrorDifferentVolume, ErrorTargetExisting { try { renameFile_sub(oldName, newName); //throw FileError, ErrorDifferentVolume, ErrorTargetExisting } catch (const ErrorTargetExisting&) { #ifdef ZEN_WIN //try to handle issues with already existing short 8.3 file names on Windows if (have8dot3NameClash(newName)) { Fix8Dot3NameClash dummy(newName); //throw FileError; move clashing filepath to the side //now try again... renameFile_sub(oldName, newName); //throw FileError return; } #endif throw; } } namespace { class CollectFilesFlat : public zen::TraverseCallback { public: CollectFilesFlat(std::vector& files, std::vector& dirs) : files_(files), dirs_(dirs) {} void onFile(const Zchar* shortName, const Zstring& filepath, const FileInfo& details) override { files_.push_back(filepath); } HandleLink onSymlink(const Zchar* shortName, const Zstring& linkpath, const SymlinkInfo& details) override { if (dirExists(linkpath)) //dir symlink dirs_.push_back(linkpath); else //file symlink, broken symlink files_.push_back(linkpath); return LINK_SKIP; } TraverseCallback* onDir(const Zchar* shortName, const Zstring& dirpath) override { dirs_.push_back(dirpath); return nullptr; //DON'T traverse into subdirs; removeDirectory works recursively! } HandleError reportDirError (const std::wstring& msg, size_t retryNumber) override { throw FileError(msg); } HandleError reportItemError(const std::wstring& msg, size_t retryNumber, const Zchar* shortName) override { throw FileError(msg); } private: CollectFilesFlat (const CollectFilesFlat&) = delete; CollectFilesFlat& operator=(const CollectFilesFlat&) = delete; std::vector& files_; std::vector& dirs_; }; void removeDirectoryImpl(const Zstring& directory, //throw FileError const std::function& onBeforeFileDeletion, const std::function& onBeforeDirDeletion) { assert(somethingExists(directory)); //[!] #ifdef ZEN_WIN const Zstring directoryFmt = applyLongPathPrefix(directory); //support for \\?\-prefix //(try to) normalize file attributes: actually NEEDED for symbolic links also! ::SetFileAttributes(directoryFmt.c_str(), FILE_ATTRIBUTE_NORMAL); #endif //attention: check if directory is a symlink! Do NOT traverse into it deleting contained files!!! if (symlinkExists(directory)) //remove symlink directly { if (onBeforeDirDeletion) onBeforeDirDeletion(directory); //once per symlink #ifdef ZEN_WIN const wchar_t functionName[] = L"RemoveDirectory"; if (!::RemoveDirectory(directoryFmt.c_str())) #elif defined ZEN_LINUX || defined ZEN_MAC const wchar_t functionName[] = L"unlink"; if (::unlink(directory.c_str()) != 0) #endif throwFileError(replaceCpy(_("Cannot delete directory %x."), L"%x", fmtFileName(directory)), functionName, getLastError()); } else { std::vector fileList; std::vector dirList; { //get all files and directories from current directory (WITHOUT subdirectories!) CollectFilesFlat cff(fileList, dirList); traverseFolder(directory, cff); //don't follow symlinks } //delete directories recursively for (const Zstring& dirpath : dirList) removeDirectoryImpl(dirpath, onBeforeFileDeletion, onBeforeDirDeletion); //throw FileError; call recursively to correctly handle symbolic links //delete files for (const Zstring& filepath : fileList) { if (onBeforeFileDeletion) onBeforeFileDeletion(filepath); //call once per file removeFile(filepath); //throw FileError } //parent directory is deleted last if (onBeforeDirDeletion) onBeforeDirDeletion(directory); //and once per folder #ifdef ZEN_WIN const wchar_t functionName[] = L"RemoveDirectory"; if (!::RemoveDirectory(directoryFmt.c_str())) #elif defined ZEN_LINUX || defined ZEN_MAC const wchar_t functionName[] = L"rmdir"; if (::rmdir(directory.c_str()) != 0) #endif throwFileError(replaceCpy(_("Cannot delete directory %x."), L"%x", fmtFileName(directory)), functionName, getLastError()); //may spuriously fail with ERROR_DIR_NOT_EMPTY(145) even though all child items have //successfully been *marked* for deletion, but some application still has a handle open! //e.g. Open "C:\Test\Dir1\Dir2" (filled with lots of files) in Explorer, then delete "C:\Test\Dir1" via ::RemoveDirectory() => Error 145 //Sample code: http://us.generation-nt.com/answer/createfile-directory-handles-removing-parent-help-29126332.html } } #ifdef ZEN_WIN void setFileTimeRaw(const Zstring& filepath, const FILETIME* creationTime, //optional const FILETIME& lastWriteTime, ProcSymlink procSl) //throw FileError { { //extra scope for debug check below //privilege SE_BACKUP_NAME doesn't seem to be required here for symbolic links //note: setting privileges requires admin rights! //opening newly created target file may fail due to some AV-software scanning it: no error, we will wait! //http://support.microsoft.com/?scid=kb%3Ben-us%3B316609&x=17&y=20 //-> enable as soon it turns out it is required! /*const int retryInterval = 50; const int maxRetries = 2000 / retryInterval; for (int i = 0; i < maxRetries; ++i) { */ /* if (hTarget == INVALID_HANDLE_VALUE && ::GetLastError() == ERROR_SHARING_VIOLATION) ::Sleep(retryInterval); //wait then retry else //success or unknown failure break; } */ //temporarily reset read-only flag if required DWORD attribs = INVALID_FILE_ATTRIBUTES; ZEN_ON_SCOPE_EXIT( if (attribs != INVALID_FILE_ATTRIBUTES) ::SetFileAttributes(applyLongPathPrefix(filepath).c_str(), attribs); ); auto removeReadonly = [&]() -> bool //throw FileError; may need to remove the readonly-attribute (e.g. on FAT usb drives) { if (attribs == INVALID_FILE_ATTRIBUTES) { const DWORD tmpAttr = ::GetFileAttributes(applyLongPathPrefix(filepath).c_str()); if (tmpAttr == INVALID_FILE_ATTRIBUTES) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(filepath)), L"GetFileAttributes", getLastError()); if (tmpAttr & FILE_ATTRIBUTE_READONLY) { if (!::SetFileAttributes(applyLongPathPrefix(filepath).c_str(), FILE_ATTRIBUTE_NORMAL)) throwFileError(replaceCpy(_("Cannot write file attributes of %x."), L"%x", fmtFileName(filepath)), L"SetFileAttributes", getLastError()); attribs = tmpAttr; //reapplied on scope exit return true; } } return false; }; auto openFile = [&](bool conservativeApproach) { return ::CreateFile(applyLongPathPrefix(filepath).c_str(), //_In_ LPCTSTR lpFileName, (conservativeApproach ? //some NAS seem to have issues with FILE_WRITE_ATTRIBUTES, even worse, they may fail silently! //http://sourceforge.net/tracker/?func=detail&atid=1093081&aid=3536680&group_id=234430 //Citrix shares seem to have this issue, too, but at least fail with "access denied" => try generic access first: GENERIC_READ | GENERIC_WRITE : //avoids mysterious "access denied" when using "GENERIC_READ | GENERIC_WRITE" on a read-only file, even *after* read-only was removed directly before the call! //http://sourceforge.net/tracker/?func=detail&atid=1093080&aid=3514569&group_id=234430 //since former gives an error notification we may very well try FILE_WRITE_ATTRIBUTES second. FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES), //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, (procSl == ProcSymlink::DIRECT ? FILE_FLAG_OPEN_REPARSE_POINT : 0) | FILE_FLAG_BACKUP_SEMANTICS, /*needed to open a directory*/ //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile }; HANDLE hFile = INVALID_HANDLE_VALUE; for (int i = 0; i < 2; ++i) //we will get this handle, no matter what! :) { //1. be conservative hFile = openFile(true); if (hFile == INVALID_HANDLE_VALUE) { if (::GetLastError() == ERROR_ACCESS_DENIED) //fails if file is read-only (or for "other" reasons) if (removeReadonly()) //throw FileError continue; //2. be a *little* fancy hFile = openFile(false); if (hFile == INVALID_HANDLE_VALUE) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! if (lastError == ERROR_ACCESS_DENIED) if (removeReadonly()) //throw FileError continue; //3. after these herculean stunts we give up... throwFileError(replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(filepath)), L"CreateFile", lastError); } } break; } ZEN_ON_SCOPE_EXIT(::CloseHandle(hFile)); if (!::SetFileTime(hFile, //__in HANDLE hFile, creationTime, //__in_opt const FILETIME *lpCreationTime, nullptr, //__in_opt const FILETIME *lpLastAccessTime, &lastWriteTime)) //__in_opt const FILETIME *lpLastWriteTime { ErrorCode lastError = getLastError(); //copy before directly or indirectly making other system calls! //function may fail if file is read-only: https://sourceforge.net/tracker/?func=detail&atid=1093080&aid=3514569&group_id=234430 if (lastError == ERROR_ACCESS_DENIED) { //dynamically load windows API function: available with Windows Vista and later typedef BOOL (WINAPI* SetFileInformationByHandleFunc)(HANDLE hFile, FILE_INFO_BY_HANDLE_CLASS FileInformationClass, LPVOID lpFileInformation, DWORD dwBufferSize); const SysDllFun setFileInformationByHandle(L"kernel32.dll", "SetFileInformationByHandle"); if (setFileInformationByHandle) //if not: let the original error propagate! { auto setFileInfo = [&](FILE_BASIC_INFO basicInfo) //throw FileError; no const& since SetFileInformationByHandle() requires non-const parameter! { if (!setFileInformationByHandle(hFile, //__in HANDLE hFile, FileBasicInfo, //__in FILE_INFO_BY_HANDLE_CLASS FileInformationClass, &basicInfo, //__in LPVOID lpFileInformation, sizeof(basicInfo))) //__in DWORD dwBufferSize throwFileError(replaceCpy(_("Cannot write file attributes of %x."), L"%x", fmtFileName(filepath)), L"SetFileInformationByHandle", getLastError()); }; auto toLargeInteger = [](const FILETIME& ft) -> LARGE_INTEGER { LARGE_INTEGER tmp = {}; tmp.LowPart = ft.dwLowDateTime; tmp.HighPart = ft.dwHighDateTime; return tmp; }; //--------------------------------------------------------------------------- BY_HANDLE_FILE_INFORMATION fileInfo = {}; if (::GetFileInformationByHandle(hFile, &fileInfo)) if (fileInfo.dwFileAttributes & FILE_ATTRIBUTE_READONLY) { FILE_BASIC_INFO basicInfo = {}; //undocumented: file times of "0" stand for "don't change" basicInfo.FileAttributes = FILE_ATTRIBUTE_NORMAL; //[!] the bug in the ticket above requires we set this together with file times!!! basicInfo.LastWriteTime = toLargeInteger(lastWriteTime); // if (creationTime) basicInfo.CreationTime = toLargeInteger(*creationTime); //set file time + attributes setFileInfo(basicInfo); //throw FileError try //... to restore original file attributes { FILE_BASIC_INFO basicInfo2 = {}; basicInfo2.FileAttributes = fileInfo.dwFileAttributes; setFileInfo(basicInfo2); //throw FileError } catch (FileError&) {} lastError = ERROR_SUCCESS; } } } std::wstring errorMsg = replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(filepath)); //add more meaningful message: FAT accepts only a subset of the NTFS date range if (lastError == ERROR_INVALID_PARAMETER && isFatDrive(filepath)) { //we need a low-level reliable routine to format a potentially invalid date => don't use strftime!!! auto fmtDate = [](const FILETIME& ft) -> Zstring { SYSTEMTIME st = {}; if (!::FileTimeToSystemTime(&ft, //__in const FILETIME *lpFileTime, &st)) //__out LPSYSTEMTIME lpSystemTime return Zstring(); Zstring dateTime; { const int bufferSize = ::GetDateFormat(LOCALE_USER_DEFAULT, 0, &st, nullptr, nullptr, 0); if (bufferSize > 0) { std::vector buffer(bufferSize); if (::GetDateFormat(LOCALE_USER_DEFAULT, //_In_ LCID Locale, 0, //_In_ DWORD dwFlags, &st, //_In_opt_ const SYSTEMTIME *lpDate, nullptr, //_In_opt_ LPCTSTR lpFormat, &buffer[0], //_Out_opt_ LPTSTR lpDateStr, bufferSize) > 0) //_In_ int cchDate dateTime = &buffer[0]; //GetDateFormat() returns char count *including* 0-termination! } } const int bufferSize = ::GetTimeFormat(LOCALE_USER_DEFAULT, 0, &st, nullptr, nullptr, 0); if (bufferSize > 0) { std::vector buffer(bufferSize); if (::GetTimeFormat(LOCALE_USER_DEFAULT, 0, &st, nullptr, &buffer[0], bufferSize) > 0) { dateTime += L" "; dateTime += &buffer[0]; //GetDateFormat() returns char count *including* 0-termination! } } return dateTime; }; errorMsg += std::wstring(L"\nA FAT volume can only store dates between 1980 and 2107:\n") + L"\twrite (UTC): \t" + fmtDate(lastWriteTime) + (creationTime ? L"\n\tcreate (UTC): \t" + fmtDate(*creationTime) : L""); } if (lastError != ERROR_SUCCESS) throwFileError(errorMsg, L"SetFileTime", lastError); } } #ifndef NDEBUG //verify written data: mainly required to check consistency of DST hack FILETIME creationTimeDbg = {}; FILETIME lastWriteTimeDbg = {}; HANDLE hFile = ::CreateFile(applyLongPathPrefix(filepath).c_str(), //_In_ LPCTSTR lpFileName, FILE_READ_ATTRIBUTES | FILE_WRITE_ATTRIBUTES, //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, (procSl == ProcSymlink::DIRECT ? FILE_FLAG_OPEN_REPARSE_POINT : 0) | FILE_FLAG_BACKUP_SEMANTICS, /*needed to open a directory*/ //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile assert(hFile != INVALID_HANDLE_VALUE); ZEN_ON_SCOPE_EXIT(::CloseHandle(hFile)); assert(::GetFileTime(hFile, //probably more up to date than GetFileAttributesEx()!? &creationTimeDbg, nullptr, &lastWriteTimeDbg)); assert(std::abs(filetimeToTimeT(lastWriteTimeDbg) - filetimeToTimeT(lastWriteTime)) <= 2); //respect 2 second FAT/FAT32 precision //assert(std::abs(filetimeToTimeT(creationTimeDbg ) - filetimeToTimeT(creationTime )) <= 2); -> creation time not available for Linux-hosted Samba shares! #endif } #endif } void zen::removeDirectory(const Zstring& directory, //throw FileError const std::function& onBeforeFileDeletion, const std::function& onBeforeDirDeletion) { //no error situation if directory is not existing! manual deletion relies on it! if (!somethingExists(directory)) return; //neither directory nor any other object (e.g. broken symlink) with that name existing removeDirectoryImpl(directory, onBeforeFileDeletion, onBeforeDirDeletion); } void zen::setFileTime(const Zstring& filepath, std::int64_t modTime, ProcSymlink procSl) //throw FileError { #ifdef ZEN_WIN setFileTimeRaw(filepath, nullptr, timetToFileTime(modTime), procSl); //throw FileError #elif defined ZEN_LINUX || defined ZEN_MAC //sigh, we can't use utimensat on NTFS volumes on Ubuntu: silent failure!!! what morons are programming this shit??? // struct ::timespec newTimes[2] = {}; // newTimes[0].tv_nsec = UTIME_OMIT; //omit access time // newTimes[1].tv_sec = to(modTime); //modification time (seconds) // // if (::utimensat(AT_FDCWD, filepath.c_str(), newTimes, procSl == SYMLINK_DIRECT ? AT_SYMLINK_NOFOLLOW : 0) != 0) // throwFileError(replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(filepath)), L"utimensat", getLastError()); //=> fallback to "retarded-idiot version"! -- DarkByte //OS X: utime() is obsoleted by utimes()! utimensat() not yet implemented struct ::timeval newTimes[2] = {}; newTimes[0].tv_sec = ::time(nullptr); //access time (seconds) newTimes[1].tv_sec = modTime; //modification time (seconds) const int rv = procSl == ProcSymlink::FOLLOW ? :: utimes(filepath.c_str(), newTimes) : ::lutimes(filepath.c_str(), newTimes); if (rv != 0) throwFileError(replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(filepath)), L"utimes", getLastError()); #endif } bool zen::supportsPermissions(const Zstring& dirpath) //throw FileError { #ifdef ZEN_WIN const DWORD bufferSize = MAX_PATH + 1; std::vector buffer(bufferSize); if (!::GetVolumePathName(dirpath.c_str(), //__in LPCTSTR lpszFileName, &buffer[0], //__out LPTSTR lpszVolumePathName, bufferSize)) //__in DWORD cchBufferLength throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(dirpath)), L"GetVolumePathName", getLastError()); DWORD fsFlags = 0; if (!::GetVolumeInformation(&buffer[0], //__in_opt LPCTSTR lpRootPathName, nullptr, //__out LPTSTR lpVolumeNameBuffer, 0, //__in DWORD nVolumeNameSize, nullptr, //__out_opt LPDWORD lpVolumeSerialNumber, nullptr, //__out_opt LPDWORD lpMaximumComponentLength, &fsFlags, //__out_opt LPDWORD lpFileSystemFlags, nullptr, //__out LPTSTR lpFileSystemNameBuffer, 0)) //__in DWORD nFileSystemNameSize throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(dirpath)), L"GetVolumeInformation", getLastError()); return (fsFlags & FILE_PERSISTENT_ACLS) != 0; #elif defined ZEN_LINUX || defined ZEN_MAC return true; #endif } namespace { #ifdef HAVE_SELINUX //copy SELinux security context void copySecurityContext(const Zstring& source, const Zstring& target, ProcSymlink procSl) //throw FileError { security_context_t contextSource = nullptr; const int rv = procSl == ProcSymlink::FOLLOW ? ::getfilecon(source.c_str(), &contextSource) : ::lgetfilecon(source.c_str(), &contextSource); if (rv < 0) { if (errno == ENODATA || //no security context (allegedly) is not an error condition on SELinux errno == EOPNOTSUPP) //extended attributes are not supported by the filesystem return; throwFileError(replaceCpy(_("Cannot read security context of %x."), L"%x", fmtFileName(source)), L"getfilecon", getLastError()); } ZEN_ON_SCOPE_EXIT(::freecon(contextSource)); { security_context_t contextTarget = nullptr; const int rv2 = procSl == ProcSymlink::FOLLOW ? ::getfilecon(target.c_str(), &contextTarget) : ::lgetfilecon(target.c_str(), &contextTarget); if (rv2 < 0) { if (errno == EOPNOTSUPP) return; //else: still try to set security context } else { ZEN_ON_SCOPE_EXIT(::freecon(contextTarget)); if (::strcmp(contextSource, contextTarget) == 0) //nothing to do return; } } const int rv3 = procSl == ProcSymlink::FOLLOW ? ::setfilecon(target.c_str(), contextSource) : ::lsetfilecon(target.c_str(), contextSource); if (rv3 < 0) throwFileError(replaceCpy(_("Cannot write security context of %x."), L"%x", fmtFileName(target)), L"setfilecon", getLastError()); } #endif //HAVE_SELINUX //copy permissions for files, directories or symbolic links: requires admin rights void copyObjectPermissions(const Zstring& source, const Zstring& target, ProcSymlink procSl) //throw FileError { #ifdef ZEN_WIN //in contrast to ::SetSecurityInfo(), ::SetFileSecurity() seems to honor the "inherit DACL/SACL" flags //CAVEAT: if a file system does not support ACLs, GetFileSecurity() will return successfully with a *valid* security descriptor containing *no* ACL entries! //NOTE: ::GetFileSecurity()/::SetFileSecurity() do NOT follow Symlinks! getResolvedFilePath() requires Vista or later! const Zstring sourceResolved = procSl == ProcSymlink::FOLLOW && symlinkExists(source) ? getResolvedFilePath(source) : source; //throw FileError const Zstring targetResolved = procSl == ProcSymlink::FOLLOW && symlinkExists(target) ? getResolvedFilePath(target) : target; // //setting privileges requires admin rights! try { //enable privilege: required to read/write SACL information (only) activatePrivilege(SE_SECURITY_NAME); //throw FileError //Note: trying to copy SACL (SACL_SECURITY_INFORMATION) may return ERROR_PRIVILEGE_NOT_HELD (1314) on Samba shares. This is not due to missing privileges! //However, this is okay, since copying NTFS permissions doesn't make sense in this case anyway //enable privilege: required to copy owner information activatePrivilege(SE_RESTORE_NAME); //throw FileError //the following privilege may be required according to http://msdn.microsoft.com/en-us/library/aa364399(VS.85).aspx (although not needed nor active in my tests) activatePrivilege(SE_BACKUP_NAME); //throw FileError } catch (const FileError& e)//add some more context description (e.g. user is not an admin) { throw FileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(sourceResolved)), e.toString()); } std::vector buffer(10000); //example of actually required buffer size: 192 bytes for (;;) { DWORD bytesNeeded = 0; if (::GetFileSecurity(applyLongPathPrefix(sourceResolved).c_str(), //__in LPCTSTR lpFileName, -> long path prefix IS needed, although it is NOT mentioned on MSDN!!! OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION, //__in SECURITY_INFORMATION RequestedInformation, reinterpret_cast(&buffer[0]), //__out_opt PSECURITY_DESCRIPTOR pSecurityDescriptor, static_cast(buffer.size()), //__in DWORD nLength, &bytesNeeded)) //__out LPDWORD lpnLengthNeeded break; //failure: ... if (bytesNeeded > buffer.size()) buffer.resize(bytesNeeded); else throwFileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(sourceResolved)), L"GetFileSecurity", getLastError()); } SECURITY_DESCRIPTOR& secDescr = reinterpret_cast(buffer[0]); /* SECURITY_DESCRIPTOR_CONTROL secCtrl = 0; { DWORD ctrlRev = 0; if (!::GetSecurityDescriptorControl(&secDescr, // __in PSECURITY_DESCRIPTOR pSecurityDescriptor, &secCtrl, // __out PSECURITY_DESCRIPTOR_CONTROL pControl, &ctrlRev)) //__out LPDWORD lpdwRevision throw FileErro } //interesting flags: //#define SE_DACL_PRESENT (0x0004) //#define SE_SACL_PRESENT (0x0010) //#define SE_DACL_PROTECTED (0x1000) //#define SE_SACL_PROTECTED (0x2000) */ if (!::SetFileSecurity(applyLongPathPrefix(targetResolved).c_str(), //__in LPCTSTR lpFileName, -> long path prefix IS needed, although it is NOT mentioned on MSDN!!! OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION, //__in SECURITY_INFORMATION SecurityInformation, &secDescr)) //__in PSECURITY_DESCRIPTOR pSecurityDescriptor throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(targetResolved)), L"SetFileSecurity", getLastError()); /* PSECURITY_DESCRIPTOR buffer = nullptr; PSID owner = nullptr; PSID group = nullptr; PACL dacl = nullptr; PACL sacl = nullptr; //File Security and Access Rights: http://msdn.microsoft.com/en-us/library/aa364399(v=VS.85).aspx //SECURITY_INFORMATION Access Rights: http://msdn.microsoft.com/en-us/library/windows/desktop/aa379573(v=vs.85).aspx const HANDLE hSource = ::CreateFile(applyLongPathPrefix(source).c_str(), READ_CONTROL | ACCESS_SYSTEM_SECURITY, //ACCESS_SYSTEM_SECURITY required for SACL access FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nullptr, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | (procSl == SYMLINK_DIRECT ? FILE_FLAG_OPEN_REPARSE_POINT : 0), //FILE_FLAG_BACKUP_SEMANTICS needed to open a directory nullptr); if (hSource == INVALID_HANDLE_VALUE) throw FileError ZEN_ON_SCOPE_EXIT(::CloseHandle(hSource)); // DWORD rc = ::GetNamedSecurityInfo(const_cast(applyLongPathPrefix(source).c_str()), -> does NOT dereference symlinks! DWORD rc = ::GetSecurityInfo(hSource, //__in LPTSTR pObjectName, SE_FILE_OBJECT, //__in SE_OBJECT_TYPE ObjectType, OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION, //__in SECURITY_INFORMATION SecurityInfo, &owner, //__out_opt PSID *ppsidOwner, &group, //__out_opt PSID *ppsidGroup, &dacl, //__out_opt PACL *ppDacl, &sacl, //__out_opt PACL *ppSacl, &buffer); //__out_opt PSECURITY_DESCRIPTOR *ppSecurityDescriptor if (rc != ERROR_SUCCESS) throw FileError ZEN_ON_SCOPE_EXIT(::LocalFree(buffer)); SECURITY_DESCRIPTOR_CONTROL secCtrl = 0; { DWORD ctrlRev = 0; if (!::GetSecurityDescriptorControl(buffer, // __in PSECURITY_DESCRIPTOR pSecurityDescriptor, &secCtrl, // __out PSECURITY_DESCRIPTOR_CONTROL pControl, &ctrlRev))//__out LPDWORD lpdwRevision throw FileError } //may need to remove the readonly-attribute FileUpdateHandle targetHandle(target, [=] { return ::CreateFile(applyLongPathPrefix(target).c_str(), // lpFileName GENERIC_WRITE | WRITE_OWNER | WRITE_DAC | ACCESS_SYSTEM_SECURITY, // dwDesiredAccess: all four seem to be required!!! FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, // dwShareMode nullptr, // lpSecurityAttributes OPEN_EXISTING, // dwCreationDisposition FILE_FLAG_BACKUP_SEMANTICS | (procSl == SYMLINK_DIRECT ? FILE_FLAG_OPEN_REPARSE_POINT : 0), // dwFlagsAndAttributes nullptr); // hTemplateFile }); if (targetHandle.get() == INVALID_HANDLE_VALUE) throw FileError SECURITY_INFORMATION secFlags = OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION | SACL_SECURITY_INFORMATION; //SACL/DACL inheritence flag is NOT copied by default: we have to tell ::SetSecurityInfo(() to enable/disable it manually! //if (secCtrl & SE_DACL_PRESENT) secFlags |= (secCtrl & SE_DACL_PROTECTED) ? PROTECTED_DACL_SECURITY_INFORMATION : UNPROTECTED_DACL_SECURITY_INFORMATION; //if (secCtrl & SE_SACL_PRESENT) secFlags |= (secCtrl & SE_SACL_PROTECTED) ? PROTECTED_SACL_SECURITY_INFORMATION : UNPROTECTED_SACL_SECURITY_INFORMATION; // rc = ::SetNamedSecurityInfo(const_cast(applyLongPathPrefix(target).c_str()), //__in LPTSTR pObjectName, -> does NOT dereference symlinks! rc = ::SetSecurityInfo(targetHandle.get(), //__in LPTSTR pObjectName, SE_FILE_OBJECT, //__in SE_OBJECT_TYPE ObjectType, secFlags, //__in SECURITY_INFORMATION SecurityInfo, owner, //__in_opt PSID psidOwner, group, //__in_opt PSID psidGroup, dacl, //__in_opt PACL pDacl, sacl); //__in_opt PACL pSacl if (rc != ERROR_SUCCESS) throw FileError */ #elif defined ZEN_LINUX #ifdef HAVE_SELINUX //copy SELinux security context copySecurityContext(source, target, procSl); //throw FileError #endif struct ::stat fileInfo = {}; if (procSl == ProcSymlink::FOLLOW) { if (::stat(source.c_str(), &fileInfo) != 0) throwFileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(source)), L"stat", getLastError()); if (::chown(target.c_str(), fileInfo.st_uid, fileInfo.st_gid) != 0) // may require admin rights! throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"chown", getLastError()); if (::chmod(target.c_str(), fileInfo.st_mode) != 0) throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"chmod", getLastError()); } else { if (::lstat(source.c_str(), &fileInfo) != 0) throwFileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(source)), L"lstat", getLastError()); if (::lchown(target.c_str(), fileInfo.st_uid, fileInfo.st_gid) != 0) // may require admin rights! throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"lchown", getLastError()); if (!symlinkExists(target) && //setting access permissions doesn't make sense for symlinks on Linux: there is no lchmod() ::chmod(target.c_str(), fileInfo.st_mode) != 0) throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"chmod", getLastError()); } #elif defined ZEN_MAC copyfile_flags_t flags = COPYFILE_ACL | COPYFILE_STAT; //unfortunately COPYFILE_STAT copies modtime, too! if (procSl == ProcSymlink::DIRECT) flags |= COPYFILE_NOFOLLOW; if (::copyfile(source.c_str(), target.c_str(), 0, flags) != 0) throwFileError(replaceCpy(replaceCpy(_("Cannot copy permissions from %x to %y."), L"%x", L"\n" + fmtFileName(source)), L"%y", L"\n" + fmtFileName(target)), L"copyfile", getLastError()); //owner is *not* copied with ::copyfile(): struct ::stat fileInfo = {}; if (procSl == ProcSymlink::FOLLOW) { if (::stat(source.c_str(), &fileInfo) != 0) throwFileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(source)), L"stat", getLastError()); if (::chown(target.c_str(), fileInfo.st_uid, fileInfo.st_gid) != 0) // may require admin rights! throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"chown", getLastError()); } else { if (::lstat(source.c_str(), &fileInfo) != 0) throwFileError(replaceCpy(_("Cannot read permissions of %x."), L"%x", fmtFileName(source)), L"lstat", getLastError()); if (::lchown(target.c_str(), fileInfo.st_uid, fileInfo.st_gid) != 0) // may require admin rights! throwFileError(replaceCpy(_("Cannot write permissions of %x."), L"%x", fmtFileName(target)), L"lchown", getLastError()); } #endif } void makeDirectoryRecursively(const Zstring& directory) //FileError, ErrorTargetExisting { assert(!endsWith(directory, FILE_NAME_SEPARATOR)); //even "C:\" should be "C:" as input! try { makeDirectoryPlain(directory, Zstring(), false); //throw FileError, ErrorTargetExisting, ErrorTargetPathMissing } catch (const ErrorTargetPathMissing&) { //we need to create parent directories first const Zstring dirParent = beforeLast(directory, FILE_NAME_SEPARATOR); if (!dirParent.empty()) { //recurse... try { makeDirectoryRecursively(dirParent); //throw FileError, (ErrorTargetExisting) } catch (const ErrorTargetExisting&) { /*parent directory created externally in the meantime? => NOT AN ERROR*/ } //now try again... makeDirectoryPlain(directory, Zstring(), false); //throw FileError, (ErrorTargetExisting), (ErrorTargetPathMissing) return; } throw; } } } void zen::makeDirectory(const Zstring& directory, bool failIfExists) //throw FileError, ErrorTargetExisting { //remove trailing separator (even for C:\ root directories) const Zstring dirFormatted = endsWith(directory, FILE_NAME_SEPARATOR) ? beforeLast(directory, FILE_NAME_SEPARATOR) : directory; try { makeDirectoryRecursively(dirFormatted); //FileError, ErrorTargetExisting } catch (const ErrorTargetExisting&) { //avoid any file system race-condition by *not* checking directory existence again here!!! if (failIfExists) throw; } catch (const FileError&) { /* could there be situations where a directory/network path exists, but creation fails with error different than "ErrorTargetExisting"?? - creation of C:\ fails with ERROR_ACCESS_DENIED rather than ERROR_ALREADY_EXISTS */ if (somethingExists(directory)) //a file system race-condition! don't use dirExists() => harmonize with ErrorTargetExisting! { assert(false); if (failIfExists) throw; //do NOT convert to ErrorTargetExisting: if "failIfExists", not getting a ErrorTargetExisting *atomically* is unexpected! } else throw; } } void zen::makeDirectoryPlain(const Zstring& directory, //throw FileError, ErrorTargetExisting, ErrorTargetPathMissing const Zstring& templateDir, bool copyFilePermissions) { #ifdef ZEN_WIN //special handling for volume root: trying to create existing root directory results in ERROR_ACCESS_DENIED rather than ERROR_ALREADY_EXISTS! Zstring dirTmp = removeLongPathPrefix(endsWith(directory, FILE_NAME_SEPARATOR) ? beforeLast(directory, FILE_NAME_SEPARATOR) : directory); if (dirTmp.size() == 2 && std::iswalpha(dirTmp[0]) && dirTmp[1] == L':') { dirTmp += FILE_NAME_SEPARATOR; //we do not support "C:" to represent a relative path! const ErrorCode lastError = somethingExists(dirTmp) ? ERROR_ALREADY_EXISTS : ERROR_PATH_NOT_FOUND; //don't use dirExists() => harmonize with ErrorTargetExisting! const std::wstring errorMsg = replaceCpy(_("Cannot create directory %x."), L"%x", fmtFileName(dirTmp)); const std::wstring errorDescr = formatSystemError(L"CreateDirectory", lastError); if (lastError == ERROR_ALREADY_EXISTS) throw ErrorTargetExisting(errorMsg, errorDescr); throw FileError(errorMsg, errorDescr); //[!] this is NOT a ErrorTargetPathMissing case! } //don't use ::CreateDirectoryEx: //- it may fail with "wrong parameter (error code 87)" when source is on mapped online storage //- automatically copies symbolic links if encountered: unfortunately it doesn't copy symlinks over network shares but silently creates empty folders instead (on XP)! //- it isn't able to copy most junctions because of missing permissions (although target path can be retrieved alternatively!) if (!::CreateDirectory(applyLongPathPrefixCreateDir(directory).c_str(), //__in LPCTSTR lpPathName, nullptr)) //__in_opt LPSECURITY_ATTRIBUTES lpSecurityAttributes { DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! //handle issues with already existing short 8.3 file names on Windows if (lastError == ERROR_ALREADY_EXISTS) if (have8dot3NameClash(directory)) { Fix8Dot3NameClash dummy(directory); //throw FileError; move clashing object to the side //now try again... if (::CreateDirectory(applyLongPathPrefixCreateDir(directory).c_str(), nullptr)) lastError = ERROR_SUCCESS; else lastError = ::GetLastError(); } if (lastError != ERROR_SUCCESS) { const std::wstring errorMsg = replaceCpy(_("Cannot create directory %x."), L"%x", fmtFileName(directory)); const std::wstring errorDescr = formatSystemError(L"CreateDirectory", lastError); if (lastError == ERROR_ALREADY_EXISTS) throw ErrorTargetExisting(errorMsg, errorDescr); else if (lastError == ERROR_PATH_NOT_FOUND) throw ErrorTargetPathMissing(errorMsg, errorDescr); throw FileError(errorMsg, errorDescr); } } #elif defined ZEN_LINUX || defined ZEN_MAC mode_t mode = S_IRWXU | S_IRWXG | S_IRWXO; //= default for newly created directory struct ::stat dirInfo = {}; if (!templateDir.empty()) if (::stat(templateDir.c_str(), &dirInfo) == 0) { mode = dirInfo.st_mode; //analog to "cp" which copies "mode" (considering umask) by default mode |= S_IRWXU; //FFS only: we need full access to copy child items! "cp" seems to apply permissions *after* copying child items } //=> need copyObjectPermissions() only for "chown" and umask-agnostic permissions if (::mkdir(directory.c_str(), mode) != 0) { const int lastError = errno; //copy before directly or indirectly making other system calls! const std::wstring errorMsg = replaceCpy(_("Cannot create directory %x."), L"%x", fmtFileName(directory)); const std::wstring errorDescr = formatSystemError(L"mkdir", lastError); if (lastError == EEXIST) throw ErrorTargetExisting(errorMsg, errorDescr); else if (lastError == ENOENT) throw ErrorTargetPathMissing(errorMsg, errorDescr); throw FileError(errorMsg, errorDescr); } #endif if (!templateDir.empty()) { #ifdef ZEN_WIN //optional: try to copy file attributes (dereference symlinks and junctions) const HANDLE hDirSrc = ::CreateFile(zen::applyLongPathPrefix(templateDir).c_str(), //_In_ LPCTSTR lpFileName, 0, //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, // FILE_FLAG_OPEN_REPARSE_POINT -> no, we follow symlinks! FILE_FLAG_BACKUP_SEMANTICS, /*needed to open a directory*/ //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hDirSrc != INVALID_HANDLE_VALUE) //dereferencing a symbolic link usually fails if it is located on network drive or client is XP: NOT really an error... { ZEN_ON_SCOPE_EXIT(::CloseHandle(hDirSrc)); BY_HANDLE_FILE_INFORMATION dirInfo = {}; if (::GetFileInformationByHandle(hDirSrc, &dirInfo)) { ::SetFileAttributes(applyLongPathPrefix(directory).c_str(), dirInfo.dwFileAttributes); //copy "read-only and system attributes": http://blogs.msdn.com/b/oldnewthing/archive/2003/09/30/55100.aspx const bool isEncrypted = (dirInfo.dwFileAttributes & FILE_ATTRIBUTE_ENCRYPTED) != 0; const bool isCompressed = (dirInfo.dwFileAttributes & FILE_ATTRIBUTE_COMPRESSED) != 0; if (isEncrypted) ::EncryptFile(directory.c_str()); //seems no long path is required (check passed!) HANDLE hDirTrg = ::CreateFile(applyLongPathPrefix(directory).c_str(), //_In_ LPCTSTR lpFileName, GENERIC_READ | GENERIC_WRITE, //_In_ DWORD dwDesiredAccess, /*read access required for FSCTL_SET_COMPRESSION*/ FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, FILE_FLAG_BACKUP_SEMANTICS, //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hDirTrg != INVALID_HANDLE_VALUE) { ZEN_ON_SCOPE_EXIT(::CloseHandle(hDirTrg)); if (isCompressed) { USHORT cmpState = COMPRESSION_FORMAT_DEFAULT; DWORD bytesReturned = 0; /*bool rv = */::DeviceIoControl(hDirTrg, //_In_ HANDLE hDevice, FSCTL_SET_COMPRESSION, //_In_ DWORD dwIoControlCode, &cmpState, //_In_opt_ LPVOID lpInBuffer, sizeof(cmpState), //_In_ DWORD nInBufferSize, nullptr, //_Out_opt_ LPVOID lpOutBuffer, 0, //_In_ DWORD nOutBufferSize, &bytesReturned, //_Out_opt_ LPDWORD lpBytesReturned, nullptr); //_Inout_opt_ LPOVERLAPPED lpOverlapped } //(try to) set creation and modification time /*bool rv = */::SetFileTime(hDirTrg, //_In_ HANDLE hFile, &dirInfo.ftCreationTime, //_Out_opt_ LPFILETIME lpCreationTime, nullptr, //_Out_opt_ LPFILETIME lpLastAccessTime, &dirInfo.ftLastWriteTime); //_Out_opt_ LPFILETIME lpLastWriteTime } } } #elif defined ZEN_MAC /*int rv =*/ ::copyfile(templateDir.c_str(), directory.c_str(), 0, COPYFILE_XATTR); #endif zen::ScopeGuard guardNewDir = zen::makeGuard([&] { try { removeDirectory(directory); } catch (FileError&) {} }); //ensure cleanup: //enforce copying file permissions: it's advertized on GUI... if (copyFilePermissions) copyObjectPermissions(templateDir, directory, ProcSymlink::FOLLOW); //throw FileError guardNewDir.dismiss(); //target has been created successfully! } } void zen::copySymlink(const Zstring& sourceLink, const Zstring& targetLink, bool copyFilePermissions) //throw FileError { const Zstring linkPath = getSymlinkTargetRaw(sourceLink); //throw FileError; accept broken symlinks #ifdef ZEN_WIN const bool isDirLink = [&]() -> bool { const DWORD ret = ::GetFileAttributes(applyLongPathPrefix(sourceLink).c_str()); return ret != INVALID_FILE_ATTRIBUTES && (ret & FILE_ATTRIBUTE_DIRECTORY); }(); typedef BOOLEAN (WINAPI* CreateSymbolicLinkFunc)(LPCTSTR lpSymlinkFileName, LPCTSTR lpTargetFileName, DWORD dwFlags); const SysDllFun createSymbolicLink(L"kernel32.dll", "CreateSymbolicLinkW"); if (!createSymbolicLink) throw FileError(replaceCpy(replaceCpy(_("Cannot copy symbolic link %x to %y."), L"%x", L"\n" + fmtFileName(sourceLink)), L"%y", L"\n" + fmtFileName(targetLink)), replaceCpy(_("Cannot find system function %x."), L"%x", L"\"CreateSymbolicLinkW\"")); const wchar_t functionName[] = L"CreateSymbolicLinkW"; if (!createSymbolicLink(targetLink.c_str(), //__in LPTSTR lpSymlinkFileName, - seems no long path prefix is required... linkPath.c_str(), //__in LPTSTR lpTargetFileName, (isDirLink ? SYMBOLIC_LINK_FLAG_DIRECTORY : 0))) //__in DWORD dwFlags #elif defined ZEN_LINUX || defined ZEN_MAC const wchar_t functionName[] = L"symlink"; if (::symlink(linkPath.c_str(), targetLink.c_str()) != 0) #endif throwFileError(replaceCpy(replaceCpy(_("Cannot copy symbolic link %x to %y."), L"%x", L"\n" + fmtFileName(sourceLink)), L"%y", L"\n" + fmtFileName(targetLink)), functionName, getLastError()); //allow only consistent objects to be created -> don't place before ::symlink, targetLink may already exist! zen::ScopeGuard guardNewLink = zen::makeGuard([&] { try { #ifdef ZEN_WIN if (isDirLink) removeDirectory(targetLink); //throw FileError else #endif removeFile(targetLink); //throw FileError } catch (FileError&) {} }); //file times: essential for sync'ing a symlink: enforce this! (don't just try!) #ifdef ZEN_WIN WIN32_FILE_ATTRIBUTE_DATA sourceAttr = {}; if (!::GetFileAttributesEx(applyLongPathPrefix(sourceLink).c_str(), //__in LPCTSTR lpFileName, GetFileExInfoStandard, //__in GET_FILEEX_INFO_LEVELS fInfoLevelId, &sourceAttr)) //__out LPVOID lpFileInformation throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(sourceLink)), L"GetFileAttributesEx", getLastError()); setFileTimeRaw(targetLink, &sourceAttr.ftCreationTime, sourceAttr.ftLastWriteTime, ProcSymlink::DIRECT); //throw FileError #elif defined ZEN_LINUX || defined ZEN_MAC struct ::stat srcInfo = {}; if (::lstat(sourceLink.c_str(), &srcInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(sourceLink)), L"lstat", getLastError()); setFileTime(targetLink, srcInfo.st_mtime, ProcSymlink::DIRECT); //throw FileError #endif #ifdef ZEN_MAC if (::copyfile(sourceLink.c_str(), targetLink.c_str(), 0, COPYFILE_XATTR | COPYFILE_NOFOLLOW) != 0) throwFileError(replaceCpy(replaceCpy(_("Cannot copy attributes from %x to %y."), L"%x", L"\n" + fmtFileName(sourceLink)), L"%y", L"\n" + fmtFileName(targetLink)), L"copyfile", getLastError()); #endif if (copyFilePermissions) copyObjectPermissions(sourceLink, targetLink, ProcSymlink::DIRECT); //throw FileError guardNewLink.dismiss(); //target has been created successfully! } namespace { #ifdef ZEN_WIN /* CopyFileEx() BackupRead() FileRead() -------------------------------------------- Attributes YES NO NO create time NO NO NO ADS YES YES NO Encrypted YES NO(silent fail!) NO Compressed NO NO NO Sparse NO YES NO Nonstandard FS YES UNKNOWN -> issues writing ADS to Samba, issues reading from NAS, error copying files having "blocked" state... ect. PERF - 6% faster Mark stream as compressed: FSCTL_SET_COMPRESSION - compatible with both BackupRead() and FileRead() Current support for combinations of NTFS extended attributes: source attr | tf normal | tf compressed | tf encrypted | handled by ============|================================================================== --- | --- -C- E-- copyFileWindowsDefault --S | --S -CS E-S copyFileWindowsSparse -C- | -C- -C- E-- copyFileWindowsDefault -CS | -CS -CS E-S copyFileWindowsSparse E-- | E-- E-- E-- copyFileWindowsDefault E-S | E-- (NOK) E-- (NOK) E-- (NOK) copyFileWindowsDefault -> may fail with ERROR_DISK_FULL!! tf := target folder E := encrypted C := compressed S := sparse NOK := current behavior is not optimal/OK yet. Note: - if target parent folder is compressed or encrypted, both attributes are added automatically during file creation! - "compressed" and "encrypted" are mutually exclusive: http://support.microsoft.com/kb/223093/en-us */ //due to issues on non-NTFS volumes, we should use the copy-as-sparse routine only if required and supported! bool canCopyAsSparse(DWORD fileAttrSource, const Zstring& targetFile) //throw () { const bool sourceIsEncrypted = (fileAttrSource & FILE_ATTRIBUTE_ENCRYPTED) != 0; const bool sourceIsSparse = (fileAttrSource & FILE_ATTRIBUTE_SPARSE_FILE) != 0; if (sourceIsEncrypted || !sourceIsSparse) //BackupRead() silently fails reading encrypted files! return false; //small perf optimization: don't check "targetFile" if not needed //------------------------------------------------------------------------------------ const DWORD bufferSize = 10000; std::vector buffer(bufferSize); //full pathName need not yet exist! if (!::GetVolumePathName(targetFile.c_str(), //__in LPCTSTR lpszFileName, &buffer[0], //__out LPTSTR lpszVolumePathName, bufferSize)) //__in DWORD cchBufferLength return false; DWORD fsFlagsTarget = 0; if (!::GetVolumeInformation(&buffer[0], //__in_opt LPCTSTR lpRootPathName nullptr, //__out_opt LPTSTR lpVolumeNameBuffer, 0, //__in DWORD nVolumeNameSize, nullptr, //__out_opt LPDWORD lpVolumeSerialNumber, nullptr, //__out_opt LPDWORD lpMaximumComponentLength, &fsFlagsTarget, //__out_opt LPDWORD lpFileSystemFlags, nullptr, //__out LPTSTR lpFileSystemNameBuffer, 0)) //__in DWORD nFileSystemNameSize return false; const bool targetSupportSparse = (fsFlagsTarget & FILE_SUPPORTS_SPARSE_FILES) != 0; return targetSupportSparse; //both source and target must not be FAT since copyFileWindowsSparse() does no DST hack! implicitly guaranteed at this point! } bool canCopyAsSparse(const Zstring& sourceFile, const Zstring& targetFile) //throw () { //follow symlinks! HANDLE hSource = ::CreateFile(applyLongPathPrefix(sourceFile).c_str(), //_In_ LPCTSTR lpFileName, 0, //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | //all shared modes are required to read files that are open in other applications FILE_SHARE_WRITE | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, 0, //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hSource == INVALID_HANDLE_VALUE) return false; ZEN_ON_SCOPE_EXIT(::CloseHandle(hSource)); BY_HANDLE_FILE_INFORMATION fileInfoSource = {}; if (!::GetFileInformationByHandle(hSource, &fileInfoSource)) return false; return canCopyAsSparse(fileInfoSource.dwFileAttributes, targetFile); //throw () } //precondition: canCopyAsSparse() must return "true"! void copyFileWindowsSparse(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* newAttrib) //throw FileError, ErrorTargetExisting, ErrorFileLocked { assert(canCopyAsSparse(sourceFile, targetFile)); //try to get backup read and write privileges: who knows, maybe this helps solve some obscure "access denied" errors try { activatePrivilege(SE_BACKUP_NAME); } catch (const FileError&) {} try { activatePrivilege(SE_RESTORE_NAME); } catch (const FileError&) {} //open sourceFile for reading HANDLE hFileSource = ::CreateFile(applyLongPathPrefix(sourceFile).c_str(), //_In_ LPCTSTR lpFileName, GENERIC_READ, //_In_ DWORD dwDesiredAccess, FILE_SHARE_READ | FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, OPEN_EXISTING, //_In_ DWORD dwCreationDisposition, //FILE_FLAG_OVERLAPPED must not be used! //FILE_FLAG_NO_BUFFERING should not be used! FILE_FLAG_SEQUENTIAL_SCAN | FILE_FLAG_BACKUP_SEMANTICS, //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hFileSource == INVALID_HANDLE_VALUE) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! const std::wstring errorMsg = replaceCpy(_("Cannot read file %x."), L"%x", fmtFileName(sourceFile)); std::wstring errorDescr = formatSystemError(L"CreateFile", lastError); //if file is locked throw "ErrorFileLocked" instead! if (lastError == ERROR_SHARING_VIOLATION || lastError == ERROR_LOCK_VIOLATION) { const Zstring procList = getLockingProcessNames(sourceFile); //throw() if (!procList.empty()) errorDescr = _("The file is locked by another process:") + L"\n" + procList; throw ErrorFileLocked(errorMsg, errorDescr); } throw FileError(errorMsg, errorDescr); } ZEN_ON_SCOPE_EXIT(::CloseHandle(hFileSource)); //---------------------------------------------------------------------- BY_HANDLE_FILE_INFORMATION fileInfoSource = {}; if (!::GetFileInformationByHandle(hFileSource, &fileInfoSource)) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(sourceFile)), L"GetFileInformationByHandle", getLastError()); //---------------------------------------------------------------------- const DWORD validAttribs = FILE_ATTRIBUTE_NORMAL | //"This attribute is valid only if used alone." FILE_ATTRIBUTE_READONLY | FILE_ATTRIBUTE_HIDDEN | FILE_ATTRIBUTE_SYSTEM | FILE_ATTRIBUTE_ARCHIVE | //those two are not set properly (not worse than ::CopyFileEx()) FILE_ATTRIBUTE_NOT_CONTENT_INDEXED; // //FILE_ATTRIBUTE_ENCRYPTED -> no! //create targetFile and open it for writing HANDLE hFileTarget = ::CreateFile(applyLongPathPrefix(targetFile).c_str(), //_In_ LPCTSTR lpFileName, GENERIC_READ | GENERIC_WRITE, //_In_ DWORD dwDesiredAccess, //read access required for FSCTL_SET_COMPRESSION FILE_SHARE_DELETE, //_In_ DWORD dwShareMode, //FILE_SHARE_DELETE is required to rename file while handle is open! nullptr, //_In_opt_ LPSECURITY_ATTRIBUTES lpSecurityAttributes, CREATE_NEW, //_In_ DWORD dwCreationDisposition, //FILE_FLAG_OVERLAPPED must not be used! FILE_FLAG_NO_BUFFERING should not be used! (fileInfoSource.dwFileAttributes & validAttribs) | FILE_FLAG_SEQUENTIAL_SCAN | FILE_FLAG_BACKUP_SEMANTICS, //_In_ DWORD dwFlagsAndAttributes, nullptr); //_In_opt_ HANDLE hTemplateFile if (hFileTarget == INVALID_HANDLE_VALUE) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! const std::wstring errorMsg = replaceCpy(_("Cannot write file %x."), L"%x", fmtFileName(targetFile)); const std::wstring errorDescr = formatSystemError(L"CreateFile", lastError); if (lastError == ERROR_FILE_EXISTS || //confirmed to be used lastError == ERROR_ALREADY_EXISTS) //comment on msdn claims, this one is used on Windows Mobile 6 throw ErrorTargetExisting(errorMsg, errorDescr); //if (lastError == ERROR_PATH_NOT_FOUND) throw ErrorTargetPathMissing(errorMsg, errorDescr); throw FileError(errorMsg, errorDescr); } ScopeGuard guardTarget = makeGuard([&] { try { removeFile(targetFile); } catch (FileError&) {} }); //transactional behavior: guard just after opening target and before managing hFileTarget ZEN_ON_SCOPE_EXIT(::CloseHandle(hFileTarget)); //---------------------------------------------------------------------- BY_HANDLE_FILE_INFORMATION fileInfoTarget = {}; if (!::GetFileInformationByHandle(hFileTarget, &fileInfoTarget)) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(targetFile)), L"GetFileInformationByHandle", getLastError()); //return up-to-date file attributes if (newAttrib) { newAttrib->fileSize = get64BitUInt(fileInfoSource.nFileSizeLow, fileInfoSource.nFileSizeHigh); newAttrib->modificationTime = filetimeToTimeT(fileInfoSource.ftLastWriteTime); //no DST hack (yet) newAttrib->sourceFileId = extractFileId(fileInfoSource); newAttrib->targetFileId = extractFileId(fileInfoTarget); } //#################### copy NTFS compressed attribute ######################### const bool sourceIsCompressed = (fileInfoSource.dwFileAttributes & FILE_ATTRIBUTE_COMPRESSED) != 0; const bool targetIsCompressed = (fileInfoTarget.dwFileAttributes & FILE_ATTRIBUTE_COMPRESSED) != 0; //already set by CreateFile if target parent folder is compressed! if (sourceIsCompressed && !targetIsCompressed) { USHORT cmpState = COMPRESSION_FORMAT_DEFAULT; DWORD bytesReturned = 0; if (!::DeviceIoControl(hFileTarget, //_In_ HANDLE hDevice, FSCTL_SET_COMPRESSION, //_In_ DWORD dwIoControlCode, &cmpState, //_In_opt_ LPVOID lpInBuffer, sizeof(cmpState), //_In_ DWORD nInBufferSize, nullptr, //_Out_opt_ LPVOID lpOutBuffer, 0, //_In_ DWORD nOutBufferSize, &bytesReturned, //_Out_opt_ LPDWORD lpBytesReturned, nullptr)) //_Inout_opt_ LPOVERLAPPED lpOverlapped {} //may legitimately fail with ERROR_INVALID_FUNCTION if: // - target folder is encrypted // - target volume does not support compressed attribute -> unlikely in this context } //############################################################################# //although it seems the sparse attribute is set automatically by BackupWrite, we are required to do this manually: http://support.microsoft.com/kb/271398/en-us //Quote: It is the responsibility of the backup utility to apply file attributes to a file after it is restored by using BackupWrite. //The application should retrieve the attributes by using GetFileAttributes prior to creating a backup with BackupRead. //If a file originally had the sparse attribute (FILE_ATTRIBUTE_SPARSE_FILE), the backup utility must explicitly set the //attribute on the restored file. //if (sourceIsSparse && targetSupportsSparse) -> no need to check, this is our precondition! { DWORD bytesReturned = 0; if (!::DeviceIoControl(hFileTarget, //_In_ HANDLE hDevice, FSCTL_SET_SPARSE, //_In_ DWORD dwIoControlCode, nullptr, //_In_opt_ LPVOID lpInBuffer, 0, //_In_ DWORD nInBufferSize, nullptr, //_Out_opt_ LPVOID lpOutBuffer, 0, //_In_ DWORD nOutBufferSize, &bytesReturned, //_Out_opt_ LPDWORD lpBytesReturned, nullptr)) //_Inout_opt_ LPOVERLAPPED lpOverlapped throwFileError(replaceCpy(_("Cannot write file attributes of %x."), L"%x", fmtFileName(targetFile)), L"DeviceIoControl, FSCTL_SET_SPARSE", getLastError()); } //---------------------------------------------------------------------- const DWORD BUFFER_SIZE = 128 * 1024; //must be greater than sizeof(WIN32_STREAM_ID) std::vector buffer(BUFFER_SIZE); LPVOID contextRead = nullptr; //manage context for BackupRead()/BackupWrite() LPVOID contextWrite = nullptr; // ZEN_ON_SCOPE_EXIT( if (contextRead ) ::BackupRead (0, nullptr, 0, nullptr, true, false, &contextRead); //MSDN: "lpContext must be passed [...] all other parameters are ignored." if (contextWrite) ::BackupWrite(0, nullptr, 0, nullptr, true, false, &contextWrite); ); //stream-copy sourceFile to targetFile bool eof = false; bool someBytesWritten = false; //try to detect failure reading encrypted files do { DWORD bytesRead = 0; if (!::BackupRead(hFileSource, //__in HANDLE hFile, &buffer[0], //__out LPBYTE lpBuffer, BUFFER_SIZE, //__in DWORD nNumberOfBytesToRead, &bytesRead, //__out LPDWORD lpNumberOfBytesRead, false, //__in BOOL bAbort, false, //__in BOOL bProcessSecurity, &contextRead)) //__out LPVOID *lpContext throwFileError(replaceCpy(_("Cannot read file %x."), L"%x", fmtFileName(sourceFile)), L"BackupRead", getLastError()); //better use fine-granular error messages "reading/writing"! if (bytesRead > BUFFER_SIZE) throw FileError(replaceCpy(_("Cannot read file %x."), L"%x", fmtFileName(sourceFile)), L"buffer overflow"); //user should never see this if (bytesRead < BUFFER_SIZE) eof = true; DWORD bytesWritten = 0; if (!::BackupWrite(hFileTarget, //__in HANDLE hFile, &buffer[0], //__in LPBYTE lpBuffer, bytesRead, //__in DWORD nNumberOfBytesToWrite, &bytesWritten, //__out LPDWORD lpNumberOfBytesWritten, false, //__in BOOL bAbort, false, //__in BOOL bProcessSecurity, &contextWrite)) //__out LPVOID *lpContext throwFileError(replaceCpy(_("Cannot write file %x."), L"%x", fmtFileName(targetFile)), L"BackupWrite", getLastError()); if (bytesWritten != bytesRead) throw FileError(replaceCpy(_("Cannot write file %x."), L"%x", fmtFileName(targetFile)), L"incomplete write"); //user should never see this //total bytes transferred may be larger than file size! context information + ADS or smaller (sparse, compressed)! //invoke callback method to update progress indicators if (onUpdateCopyStatus) onUpdateCopyStatus(bytesRead); //throw X! if (bytesRead > 0) someBytesWritten = true; } while (!eof); //::BackupRead() silently fails reading encrypted files -> double check! if (!someBytesWritten && get64BitUInt(fileInfoSource.nFileSizeLow, fileInfoSource.nFileSizeHigh) != 0U) //note: there is no guaranteed ordering relation beween bytes transferred and file size! Consider ADS (>) and compressed/sparse files (<)! throw FileError(replaceCpy(_("Cannot read file %x."), L"%x", fmtFileName(sourceFile)), L"unknown error"); //user should never see this -> this method is called only if "canCopyAsSparse()" //time needs to be set at the end: BackupWrite() changes modification time if (!::SetFileTime(hFileTarget, &fileInfoSource.ftCreationTime, nullptr, &fileInfoSource.ftLastWriteTime)) throwFileError(replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(targetFile)), L"SetFileTime", getLastError()); guardTarget.dismiss(); } DEFINE_NEW_FILE_ERROR(ErrorShouldCopyAsSparse); class ErrorHandling { public: ErrorHandling() : shouldCopyAsSparse(false) {} //call context: copyCallbackInternal() void reportErrorShouldCopyAsSparse() { shouldCopyAsSparse = true; } void reportUserException(const std::exception_ptr& e) { exception = e; } void reportError(const std::wstring& msg, const std::wstring& description) { errorMsg = std::make_pair(msg, description); } //call context: copyFileWindowsDefault() void evaluateErrors() //throw X { if (shouldCopyAsSparse) throw ErrorShouldCopyAsSparse(L"sparse dummy value"); if (exception) std::rethrow_exception(exception); if (!errorMsg.first.empty()) throw FileError(errorMsg.first, errorMsg.second); } private: bool shouldCopyAsSparse; // std::pair errorMsg; //these are exclusive! std::exception_ptr exception; }; struct CallbackData { CallbackData(const std::function& onUpdateCopyStatus, const Zstring& sourceFile, const Zstring& targetFile) : sourceFile_(sourceFile), targetFile_(targetFile), onUpdateCopyStatus_(onUpdateCopyStatus), fileInfoSrc(), fileInfoTrg(), bytesReported() {} const Zstring& sourceFile_; const Zstring& targetFile_; const std::function& onUpdateCopyStatus_; ErrorHandling errorHandler; BY_HANDLE_FILE_INFORMATION fileInfoSrc; //modified by CopyFileEx() at beginning BY_HANDLE_FILE_INFORMATION fileInfoTrg; // std::int64_t bytesReported; //used internally to calculate bytes transferred delta }; DWORD CALLBACK copyCallbackInternal(LARGE_INTEGER totalFileSize, LARGE_INTEGER totalBytesTransferred, LARGE_INTEGER streamSize, LARGE_INTEGER streamBytesTransferred, DWORD dwStreamNumber, DWORD dwCallbackReason, HANDLE hSourceFile, HANDLE hDestinationFile, LPVOID lpData) { /* this callback is invoked for block sizes managed by Windows, these may vary from e.g. 64 kB up to 1MB. It seems this depends on file size amongst others. symlink handling: if source is a symlink and COPY_FILE_COPY_SYMLINK is specified, this callback is NOT invoked! if source is a symlink and COPY_FILE_COPY_SYMLINK is NOT specified, this callback is called and hSourceFile is a handle to the *target* of the link! file time handling: ::CopyFileEx() will (only) copy file modification time over from source file AFTER the last invokation of this callback => it is possible to adapt file creation time of target in here, but NOT file modification time! CAVEAT: if ::CopyFileEx() fails to set modification time, it silently ignores this error and returns success!!! see procmon log in: https://sourceforge.net/tracker/?func=detail&atid=1093080&aid=3514569&group_id=234430 alternate data stream handling: CopyFileEx() processes multiple streams one after another, stream 1 is the file data stream and always available! Each stream is initialized with CALLBACK_STREAM_SWITCH and provides *new* hSourceFile, hDestinationFile. Calling GetFileInformationByHandle() on hDestinationFile for stream > 1 results in ERROR_ACCESS_DENIED! totalBytesTransferred contains size of *all* streams and so can be larger than the "file size" file attribute */ CallbackData& cbd = *static_cast(lpData); if (dwCallbackReason == CALLBACK_STREAM_SWITCH && //called up-front for every file (even if 0-sized) dwStreamNumber == 1) //consider ADS! { //#################### return source file attributes ################################ if (!::GetFileInformationByHandle(hSourceFile, &cbd.fileInfoSrc)) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! cbd.errorHandler.reportError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(cbd.sourceFile_)), formatSystemError(L"GetFileInformationByHandle", lastError)); return PROGRESS_CANCEL; } if (!::GetFileInformationByHandle(hDestinationFile, &cbd.fileInfoTrg)) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! cbd.errorHandler.reportError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(cbd.targetFile_)), formatSystemError(L"GetFileInformationByHandle", lastError)); return PROGRESS_CANCEL; } //#################### switch to sparse file copy if req. ####################### if (canCopyAsSparse(cbd.fileInfoSrc.dwFileAttributes, cbd.targetFile_)) //throw () { cbd.errorHandler.reportErrorShouldCopyAsSparse(); //use a different copy routine! return PROGRESS_CANCEL; } //#################### copy file creation time ################################ ::SetFileTime(hDestinationFile, &cbd.fileInfoSrc.ftCreationTime, nullptr, nullptr); //no error handling! //=> not really needed here, creation time is set anyway at the end of copyFileWindowsDefault()! //#################### copy NTFS compressed attribute ######################### const bool sourceIsCompressed = (cbd.fileInfoSrc.dwFileAttributes & FILE_ATTRIBUTE_COMPRESSED) != 0; const bool targetIsCompressed = (cbd.fileInfoTrg.dwFileAttributes & FILE_ATTRIBUTE_COMPRESSED) != 0; //already set by CopyFileEx if target parent folder is compressed! if (sourceIsCompressed && !targetIsCompressed) { USHORT cmpState = COMPRESSION_FORMAT_DEFAULT; DWORD bytesReturned = 0; if (!::DeviceIoControl(hDestinationFile, //_In_ HANDLE hDevice, FSCTL_SET_COMPRESSION, //_In_ DWORD dwIoControlCode, &cmpState, //_In_opt_ LPVOID lpInBuffer, sizeof(cmpState), //_In_ DWORD nInBufferSize, nullptr, //_Out_opt_ LPVOID lpOutBuffer, 0, //_In_ DWORD nOutBufferSize, &bytesReturned, //_Out_opt_ LPDWORD lpBytesReturned nullptr)) //_Inout_opt_ LPOVERLAPPED lpOverlapped {} //may legitimately fail with ERROR_INVALID_FUNCTION if // - if target folder is encrypted // - target volume does not support compressed attribute //############################################################################# } } //called after copy operation is finished - note: for 0-sized files this callback is invoked just ONCE! //if (totalFileSize.QuadPart == totalBytesTransferred.QuadPart && dwStreamNumber == 1) {} if (cbd.onUpdateCopyStatus_ && totalBytesTransferred.QuadPart >= 0) //should always be true, but let's still check try { cbd.onUpdateCopyStatus_(totalBytesTransferred.QuadPart - cbd.bytesReported); //throw X! cbd.bytesReported = totalBytesTransferred.QuadPart; } catch (...) { cbd.errorHandler.reportUserException(std::current_exception()); return PROGRESS_CANCEL; } return PROGRESS_CONTINUE; } const bool supportNonEncryptedDestination = winXpOrLater(); //encrypted destination is not supported with Windows 2000 //caveat: function scope static initialization is not thread-safe in VS 2010! void copyFileWindowsDefault(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* newAttrib) //throw FileError, ErrorTargetExisting, ErrorFileLocked, ErrorShouldCopyAsSparse { //try to get backup read and write privileges: who knows, maybe this helps solve some obscure "access denied" errors try { activatePrivilege(SE_BACKUP_NAME); } catch (const FileError&) {} try { activatePrivilege(SE_RESTORE_NAME); } catch (const FileError&) {} zen::ScopeGuard guardTarget = zen::makeGuard([&] { try { removeFile(targetFile); } catch (FileError&) {} }); //transactional behavior: guard just before starting copy, we don't trust ::CopyFileEx(), do we? ;) DWORD copyFlags = COPY_FILE_FAIL_IF_EXISTS; if (supportNonEncryptedDestination) copyFlags |= COPY_FILE_ALLOW_DECRYPTED_DESTINATION; //allow copying from encrypted to non-encrypted location //if (vistaOrLater()) //see http://blogs.technet.com/b/askperf/archive/2007/05/08/slow-large-file-copy-issues.aspx // copyFlags |= COPY_FILE_NO_BUFFERING; //no perf difference at worst, huge improvement for large files (20% in test NTFS -> NTFS) //It's a shame this flag causes file corruption! https://sourceforge.net/projects/freefilesync/forums/forum/847542/topic/5177950 //documentation on CopyFile2() even states: "It is not recommended to pause copies that are using this flag." How dangerous is this thing, why offer it at all??? //perf advantage: ~15% faster CallbackData cbd(onUpdateCopyStatus, sourceFile, targetFile); const bool success = ::CopyFileEx(applyLongPathPrefix(sourceFile).c_str(), //__in LPCTSTR lpExistingFileName, applyLongPathPrefix(targetFile).c_str(), //__in LPCTSTR lpNewFileName, copyCallbackInternal, //__in_opt LPPROGRESS_ROUTINE lpProgressRoutine, &cbd, //__in_opt LPVOID lpData, nullptr, //__in_opt LPBOOL pbCancel, copyFlags) != FALSE; //__in DWORD dwCopyFlags cbd.errorHandler.evaluateErrors(); //throw ?, process errors in callback first! if (!success) { const DWORD lastError = ::GetLastError(); //copy before directly or indirectly making other system calls! //don't suppress "lastError == ERROR_REQUEST_ABORTED": a user aborted operation IS an error condition! //trying to copy huge sparse files may directly fail with ERROR_DISK_FULL before entering the callback function if (canCopyAsSparse(sourceFile, targetFile)) //noexcept throw ErrorShouldCopyAsSparse(L"sparse dummy value2"); //assemble error message... const std::wstring errorMsg = replaceCpy(replaceCpy(_("Cannot copy file %x to %y."), L"%x", L"\n" + fmtFileName(sourceFile)), L"%y", L"\n" + fmtFileName(targetFile)); std::wstring errorDescr = formatSystemError(L"CopyFileEx", lastError); //if file is locked throw "ErrorFileLocked" instead! if (lastError == ERROR_SHARING_VIOLATION || lastError == ERROR_LOCK_VIOLATION) { const Zstring procList = getLockingProcessNames(sourceFile); //throw() -> enhance error message! if (!procList.empty()) errorDescr = _("The file is locked by another process:") + L"\n" + procList; throw ErrorFileLocked(replaceCpy(_("Cannot read file %x."), L"%x", fmtFileName(sourceFile)), errorDescr); } //if target is existing this functions is expected to throw ErrorTargetExisting!!! if (lastError == ERROR_FILE_EXISTS || //confirmed to be used lastError == ERROR_ALREADY_EXISTS) //not sure if used -> better be safe than sorry!!! { guardTarget.dismiss(); //don't delete file that existed previously! throw ErrorTargetExisting(errorMsg, errorDescr); } //if (lastError == ERROR_PATH_NOT_FOUND) throw ErrorTargetPathMissing(errorMsg, errorDescr); //could this also be source path missing!? try //add more meaningful message { //trying to copy > 4GB file to FAT/FAT32 volume gives obscure ERROR_INVALID_PARAMETER (FAT can indeed handle files up to 4 Gig, tested!) if (lastError == ERROR_INVALID_PARAMETER && isFatDrive(targetFile) && getFilesize(sourceFile) >= 4U * std::uint64_t(1024U * 1024 * 1024)) //throw FileError errorDescr += L"\nFAT volumes cannot store files larger than 4 gigabyte."; //see "Limitations of the FAT32 File System": http://support.microsoft.com/kb/314463/en-us //note: ERROR_INVALID_PARAMETER can also occur when copying to a SharePoint server or MS SkyDrive and the target filepath is of a restricted type. } catch (FileError&) {} throw FileError(errorMsg, errorDescr); } if (newAttrib) { newAttrib->fileSize = get64BitUInt(cbd.fileInfoSrc.nFileSizeLow, cbd.fileInfoSrc.nFileSizeHigh); newAttrib->modificationTime = filetimeToTimeT(cbd.fileInfoSrc.ftLastWriteTime); newAttrib->sourceFileId = extractFileId(cbd.fileInfoSrc); newAttrib->targetFileId = extractFileId(cbd.fileInfoTrg); } warn_static("new perf check + investigate improvements now that DST hcak is gone! =>") //caveat: - ::CopyFileEx() silently *ignores* failure to set modification time!!! => we always need to set it again but with proper error checking! // - perf-loss on USB sticks with many small files of about 30%! setFileTimeRaw(targetFile, &cbd.fileInfoSrc.ftCreationTime, cbd.fileInfoSrc.ftLastWriteTime, ProcSymlink::FOLLOW); //throw FileError guardTarget.dismiss(); //target has been created successfully! } //another layer to support copying sparse files inline void copyFileWindowsSelectRoutine(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* sourceAttr) { try { copyFileWindowsDefault(sourceFile, targetFile, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked, ErrorShouldCopyAsSparse } catch (ErrorShouldCopyAsSparse&) //we quickly check for this condition within callback of ::CopyFileEx()! { copyFileWindowsSparse(sourceFile, targetFile, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked } } //another layer of indirection solving 8.3 name clashes inline void copyFileOsSpecific(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* sourceAttr) { try { copyFileWindowsSelectRoutine(sourceFile, targetFile, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked } catch (const ErrorTargetExisting&) { //try to handle issues with already existing short 8.3 file names on Windows if (have8dot3NameClash(targetFile)) { Fix8Dot3NameClash dummy(targetFile); //throw FileError; move clashing filepath to the side copyFileWindowsSelectRoutine(sourceFile, targetFile, onUpdateCopyStatus, sourceAttr); //throw FileError; the short filepath name clash is solved, this should work now return; } throw; } } #elif defined ZEN_LINUX void copyFileOsSpecific(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* newAttrib) //throw FileError, ErrorTargetExisting { FileInputUnbuffered fileIn(sourceFile); //throw FileError struct ::stat sourceInfo = {}; if (::fstat(fileIn.getDescriptor(), &sourceInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(sourceFile)), L"fstat", getLastError()); zen::ScopeGuard guardTarget = zen::makeGuard([&] { try { removeFile(targetFile); } catch (FileError&) {} }); //transactional behavior: place guard before lifetime of FileOutput try { FileOutputUnbuffered fileOut(targetFile, //throw FileError, ErrorTargetExisting sourceInfo.st_mode); //analog to "cp" which copies "mode" (considering umask) by default //=> need copyObjectPermissions() only for "chown" and umask-agnostic permissions std::vector buffer(128 * 1024); //see comment in FileInputUnbuffered::read do { const size_t bytesRead = fileIn.read(&buffer[0], buffer.size()); //throw FileError fileOut.write(&buffer[0], bytesRead); //throw FileError if (onUpdateCopyStatus) onUpdateCopyStatus(bytesRead); //throw X! } while (!fileIn.eof()); //adapt target file modification time: { //read and return file statistics struct ::stat targetInfo = {}; if (::fstat(fileOut.getDescriptor(), &targetInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(targetFile)), L"fstat", getLastError()); if (newAttrib) { newAttrib->fileSize = sourceInfo.st_size; newAttrib->modificationTime = sourceInfo.st_mtime; newAttrib->sourceFileId = extractFileId(sourceInfo); newAttrib->targetFileId = extractFileId(targetInfo); } } } catch (const ErrorTargetExisting&) { guardTarget.dismiss(); //don't delete file that existed previously! throw; } //we cannot set the target file times while the file descriptor is open and being written: //this triggers bugs on samba shares where the modification time is set to current time instead. //http://bugs.debian.org/cgi-bin/bugreport.cgi?bug=340236 //http://comments.gmane.org/gmane.linux.file-systems.cifs/2854 //on the other hand we thereby have to reopen https://sourceforge.net/p/freefilesync/bugs/230/ setFileTime(targetFile, sourceInfo.st_mtime, ProcSymlink::FOLLOW); //throw FileError guardTarget.dismiss(); //target has been created successfully! } #elif defined ZEN_MAC struct CallbackData { CallbackData(const std::function& onUpdateCopyStatus, const Zstring& sourceFile, const Zstring& targetFile) : onUpdateCopyStatus_(onUpdateCopyStatus), sourceFile_(sourceFile), targetFile_(targetFile), bytesReported() {} const std::function& onUpdateCopyStatus_; //in const Zstring& sourceFile_; const Zstring& targetFile_; std::pair errorMsg; //out; these are exclusive! std::exception_ptr exception; // std::int64_t bytesReported; //private to callback }; int copyFileCallback(int what, int stage, copyfile_state_t state, const char* src, const char* dst, void* ctx) { CallbackData& cbd = *static_cast(ctx); off_t bytesCopied = 0; if (::copyfile_state_get(state, COPYFILE_STATE_COPIED, &bytesCopied) != 0) { cbd.errorMsg = std::make_pair(replaceCpy(replaceCpy(_("Cannot copy file %x to %y."), L"%x", L"\n" + fmtFileName(cbd.sourceFile_)), L"%y", L"\n" + fmtFileName(cbd.targetFile_)), formatSystemError(L"copyfile_state_get, COPYFILE_STATE_COPIED", getLastError())); return COPYFILE_QUIT; } if (cbd.onUpdateCopyStatus_) try { cbd.onUpdateCopyStatus_(bytesCopied - cbd.bytesReported); //throw X! cbd.bytesReported = bytesCopied; } catch (...) { cbd.exception = std::current_exception(); return COPYFILE_QUIT; } return COPYFILE_CONTINUE; } void copyFileOsSpecific(const Zstring& sourceFile, const Zstring& targetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* newAttrib) //throw FileError, ErrorTargetExisting { //http://blog.plasticsfuture.org/2006/03/05/the-state-of-backup-and-cloning-tools-under-mac-os-x/ auto getCopyErrorMessage = [&] { return replaceCpy(replaceCpy(_("Cannot copy file %x to %y."), L"%x", L"\n" + fmtFileName(sourceFile)), L"%y", L"\n" + fmtFileName(targetFile)); }; copyfile_state_t copyState = ::copyfile_state_alloc(); ZEN_ON_SCOPE_EXIT(::copyfile_state_free(copyState)); CallbackData cbd(onUpdateCopyStatus, sourceFile, targetFile); if (::copyfile_state_set(copyState, COPYFILE_STATE_STATUS_CTX, &cbd) != 0) throwFileError(getCopyErrorMessage(), L"copyfile_state_set, COPYFILE_STATE_STATUS_CTX", getLastError()); if (::copyfile_state_set(copyState, COPYFILE_STATE_STATUS_CB, reinterpret_cast(©FileCallback)) != 0) throwFileError(getCopyErrorMessage(), L"copyfile_state_set, COPYFILE_STATE_STATUS_CB", getLastError()); zen::ScopeGuard guardTarget = zen::makeGuard([&] { try { removeFile(targetFile); } catch (FileError&) {} }); //transactional behavior: docs seem to indicate that copyfile does not clean up //http://developer.apple.com/library/mac/documentation/Darwin/Reference/ManPages/man3/copyfile.3.html if (::copyfile(sourceFile.c_str(), targetFile.c_str(), copyState, COPYFILE_XATTR | COPYFILE_DATA | COPYFILE_EXCL) != 0) //even though we don't use COPYFILE_STAT, "mode" (considering umask) is still copied! => harmonized with Linux file copy! { //evaluate first! errno is not set for COPYFILE_QUIT! if (cbd.exception) std::rethrow_exception(cbd.exception); if (!cbd.errorMsg.first.empty()) throw FileError(cbd.errorMsg.first, cbd.errorMsg.second); const int lastError = errno; std::wstring errorDescr = formatSystemError(L"copyfile", lastError); if (lastError == EEXIST) { guardTarget.dismiss(); //don't delete file that existed previously! throw ErrorTargetExisting(getCopyErrorMessage(), errorDescr); } throw FileError(getCopyErrorMessage(), errorDescr); } int fdSource = 0; if (::copyfile_state_get(copyState, COPYFILE_STATE_SRC_FD, &fdSource) != 0) throwFileError(getCopyErrorMessage(), L"copyfile_state_get, COPYFILE_STATE_SRC_FD", getLastError()); int fdTarget = 0; if (::copyfile_state_get(copyState, COPYFILE_STATE_DST_FD, &fdTarget) != 0) throwFileError(getCopyErrorMessage(), L"copyfile_state_get, COPYFILE_STATE_DST_FD", getLastError()); struct ::stat sourceInfo = {}; if (::fstat(fdSource, &sourceInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(sourceFile)), L"fstat", getLastError()); struct ::stat targetInfo = {}; if (::fstat(fdTarget, &targetInfo) != 0) throwFileError(replaceCpy(_("Cannot read file attributes of %x."), L"%x", fmtFileName(targetFile)), L"fstat", getLastError()); struct ::timeval newTimes[2] = {}; newTimes[0].tv_sec = sourceInfo.st_atime; //access time (seconds) newTimes[1].tv_sec = sourceInfo.st_mtime; //modification time (seconds) if (::futimes(fdTarget, newTimes) != 0) throwFileError(replaceCpy(_("Cannot write modification time of %x."), L"%x", fmtFileName(targetFile)), L"futimes", getLastError()); if (newAttrib) { newAttrib->fileSize = sourceInfo.st_size; newAttrib->modificationTime = sourceInfo.st_mtime; newAttrib->sourceFileId = extractFileId(sourceInfo); newAttrib->targetFileId = extractFileId(targetInfo); } guardTarget.dismiss(); } #endif /* ------------------ |File Copy Layers| ------------------ copyFile (setup transactional behavior) | copyFileWithPermissions | copyFileOsSpecific (solve 8.3 issue) | copyFileWindowsSelectRoutine / \ copyFileWindowsDefault(::CopyFileEx) copyFileWindowsSparse(::BackupRead/::BackupWrite) */ inline void copyFileWithPermissions(const Zstring& sourceFile, const Zstring& targetFile, bool copyFilePermissions, const std::function& onUpdateCopyStatus, InSyncAttributes* sourceAttr) { copyFileOsSpecific(sourceFile, targetFile, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked if (copyFilePermissions) { //at this point we know we created a new file, so it's fine to delete it for cleanup! zen::ScopeGuard guardTargetFile = zen::makeGuard([&] { try { removeFile(targetFile); } catch (FileError&) {}}); copyObjectPermissions(sourceFile, targetFile, ProcSymlink::FOLLOW); //throw FileError guardTargetFile.dismiss(); //target has been created successfully! } } } void zen::copyFile(const Zstring& sourceFile, //throw FileError, ErrorFileLocked const Zstring& targetFile, bool copyFilePermissions, bool transactionalCopy, const std::function& onDeleteTargetFile, const std::function& onUpdateCopyStatus, InSyncAttributes* sourceAttr) { if (transactionalCopy) { Zstring tmpTarget = targetFile + TEMP_FILE_ENDING; for (int i = 0;; ++i) try { copyFileWithPermissions(sourceFile, tmpTarget, copyFilePermissions, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked break; } catch (const ErrorTargetExisting&) //optimistic strategy: assume everything goes well, but recover on error -> minimize file accesses { if (i == 10) throw; //avoid endless recursion in pathological cases, e.g. https://sourceforge.net/p/freefilesync/discussion/open-discussion/thread/36adac33 tmpTarget = targetFile + Zchar('_') + numberTo(i) + TEMP_FILE_ENDING; } //transactional behavior: ensure cleanup; not needed before copyFileWithPermissions() which is already transactional zen::ScopeGuard guardTempFile = zen::makeGuard([&] { try { removeFile(tmpTarget); } catch (FileError&) {} }); //have target file deleted (after read access on source and target has been confirmed) => allow for almost transactional overwrite if (onDeleteTargetFile) onDeleteTargetFile(); //throw X //perf: this call is REALLY expensive on unbuffered volumes! ~40% performance decrease on FAT USB stick! renameFile(tmpTarget, targetFile); //throw FileError /* CAVEAT on FAT/FAT32: the sequence of deleting the target file and renaming "file.txt.ffs_tmp" to "file.txt" does NOT PRESERVE the creation time of the .ffs_tmp file, but SILENTLY "reuses" whatever creation time the old "file.txt" had! This "feature" is called "File System Tunneling": http://blogs.msdn.com/b/oldnewthing/archive/2005/07/15/439261.aspx http://support.microsoft.com/kb/172190/en-us */ guardTempFile.dismiss(); } else { /* Note: non-transactional file copy solves at least four problems: -> skydrive - doesn't allow for .ffs_tmp extension and returns ERROR_INVALID_PARAMETER -> network renaming issues -> allow for true delete before copy to handle low disk space problems -> higher performance on non-buffered drives (e.g. usb sticks) */ if (onDeleteTargetFile) onDeleteTargetFile(); copyFileWithPermissions(sourceFile, targetFile, copyFilePermissions, onUpdateCopyStatus, sourceAttr); //throw FileError, ErrorTargetExisting, ErrorFileLocked } }