sdk/lib/io/file_impl.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 part of dart.io;

 // Read the file in blocks of size 64k.
 const int _BLOCK_SIZE = 64 * 1024;


 class _FileStream extends Stream<List<int>> {
   // Stream controller.
   StreamController<List<int>> _controller;

   // Information about the underlying file.
   String _path;
   RandomAccessFile _openedFile;
   int _position;
   int _end;
   final Completer _closeCompleter = new Completer();

   // Has the stream been paused or unsubscribed?
   bool _paused = false;
   bool _unsubscribed = false;

   // Is there a read currently in progress?
   bool _readInProgress = false;

   // Block read but not yet send because stream is paused.
   List<int> _currentBlock;

   _FileStream(String this._path, this._position, this._end) {
     _setupController();
   }

   _FileStream.forStdin() : _position = 0 {
     _setupController();
   }

   StreamSubscription<List<int>> listen(void onData(List<int> event),
                                        {void onError(error),
                                         void onDone(),
                                         bool cancelOnError}) {
     return _controller.stream.listen(onData,
                                      onError: onError,
                                      onDone: onDone,
                                      cancelOnError: cancelOnError);
   }

   void _setupController() {
     _controller = new StreamController<List<int>>(sync: true,
         onListen: _start,
         onPause: () => _paused = true,
         onResume: _resume,
         onCancel: () {
           _unsubscribed = true;
           _closeFile();
         });
   }

   Future _closeFile() {
     if (_readInProgress) {
       return _closeCompleter.future;
     }
     if (_openedFile != null) {
       _openedFile.close()
           .then(_closeCompleter.complete,
                 onError: _closeCompleter.completeError);
       _openedFile = null;
     }
     return _closeCompleter.future;
   }

   void _readBlock() {
     // Don't start a new read if one is already in progress.
     if (_readInProgress) return;
     _readInProgress = true;
     int readBytes = _BLOCK_SIZE;
     if (_end != null) {
       readBytes = min(readBytes, _end - _position);
       if (readBytes < 0) {
         _readInProgress = false;
         if (!_unsubscribed) {
           _controller.addError(new RangeError("Bad end position: $_end"));
           _closeFile().then((_) { _controller.close(); });
           _unsubscribed = true;
         }
         return;
       }
     }
     _openedFile.read(readBytes)
       .whenComplete(() {
         _readInProgress = false;
       })
       .then((block) {
         if (_unsubscribed) {
           _closeFile();
           return;
         }
         if (block.length == 0) {
           if (!_unsubscribed) {
             _closeFile().then((_) { _controller.close(); });
             _unsubscribed = true;
           }
           return;
         }
         _position += block.length;
         if (_paused) {
           _currentBlock = block;
         } else {
           _controller.add(block);
           _readBlock();
         }
       })
       .catchError((e) {
         if (!_unsubscribed) {
           _controller.addError(e);
           _closeFile().then((_) { _controller.close(); });
           _unsubscribed = true;
         }
       });
   }

   void _start() {
     if (_position == null) {
       _position = 0;
     } else if (_position < 0) {
       _controller.addError(new RangeError("Bad start position: $_position"));
       _controller.close();
       return;
     }
     Future<RandomAccessFile> openFuture;
     if (_path != null) {
       openFuture = new File(_path).open(mode: FileMode.READ);
     } else {
       openFuture = new Future.value(_File._openStdioSync(0));
     }
     openFuture
       .then((RandomAccessFile opened) {
         _openedFile = opened;
         if (_position > 0) {
           return opened.setPosition(_position);
         }
       })
       .then((_) => _readBlock())
       .catchError((e) {
         _controller.addError(e);
         _controller.close();
       });
   }

   void _resume() {
     _paused = false;
     if (_currentBlock != null) {
       _controller.add(_currentBlock);
       _currentBlock = null;
     }
     // Resume reading unless we are already done.
     if (_openedFile != null) _readBlock();
   }
 }

 class _FileStreamConsumer extends StreamConsumer<List<int>> {
   File _file;
   Future<RandomAccessFile> _openFuture;
   StreamSubscription _subscription;

   _FileStreamConsumer(File this._file, FileMode mode) {
     _openFuture = _file.open(mode: mode);
   }

   _FileStreamConsumer.fromStdio(int fd) {
     assert(1 <= fd && fd <= 2);
     _openFuture = new Future.value(_File._openStdioSync(fd));
   }

   Future<File> addStream(Stream<List<int>> stream) {
     Completer<File> completer = new Completer<File>();
     _openFuture
       .then((openedFile) {
         _subscription = stream.listen(
           (d) {
             _subscription.pause();
             openedFile.writeFrom(d, 0, d.length)
               .then((_) => _subscription.resume())
               .catchError((e) {
                 openedFile.close();
                 completer.completeError(e);
               });
           },
           onDone: () {
             completer.complete(_file);
           },
           onError: (e) {
             openedFile.close();
             completer.completeError(e);
           },
           cancelOnError: true);
       })
       .catchError((e) {
         completer.completeError(e);
       });
     return completer.future;
   }

   Future<File> close() {
     return _openFuture.then((openedFile) => openedFile.close());
   }
 }


 // Class for encapsulating the native implementation of files.
 class _File extends FileSystemEntity implements File {
   final String path;

   // Constructor for file.
   _File(String this.path) {
     if (path is! String) {
       throw new ArgumentError('${Error.safeToString(path)} '
                               'is not a String');
     }
   }

   Future<bool> exists() {
     return _IOService.dispatch(_FILE_EXISTS, [path]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "Cannot check existence", path);
       }
       return response;
     });
   }

   external static _exists(String path);

   bool existsSync() {
     var result = _exists(path);
     throwIfError(result, "Cannot check existence of file", path);
     return result;
   }

   File get absolute => new File(_absolutePath);

   Future<FileStat> stat() => FileStat.stat(path);

   FileStat statSync() => FileStat.statSync(path);

   Future<File> create() {
     return _IOService.dispatch(_FILE_CREATE, [path]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "Cannot create file", path);
       }
       return this;
     });
   }

   external static _create(String path);

   external static _createLink(String path, String target);

   external static _linkTarget(String path);

   void createSync() {
     var result = _create(path);
     throwIfError(result, "Cannot create file", path);
   }

   Future<File> _delete({bool recursive: false}) {
     if (recursive) {
       return new Directory(path).delete(recursive: true).then((_) => this);
     }
     return _IOService.dispatch(_FILE_DELETE, [path]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "Cannot delete file", path);
       }
       return this;
     });
   }

   external static _deleteNative(String path);

   external static _deleteLinkNative(String path);

   void _deleteSync({bool recursive: false}) {
     if (recursive) {
       return new Directory(path).deleteSync(recursive: true);
     }
     var result = _deleteNative(path);
     throwIfError(result, "Cannot delete file", path);
   }

   Future<File> rename(String newPath) {
     return _IOService.dispatch(_FILE_RENAME, [path, newPath]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(
             response, "Cannot rename file to '$newPath'", path);
       }
       return new File(newPath);
     });
   }

   external static _rename(String oldPath, String newPath);

   external static _renameLink(String oldPath, String newPath);

   File renameSync(String newPath) {
     var result = _rename(path, newPath);
     throwIfError(result, "Cannot rename file to '$newPath'", path);
     return new File(newPath);
   }

   Directory get directory {
     _Path path = new _Path(this.path).directoryPath;
     return new Directory(path.toNativePath());
   }

   Future<RandomAccessFile> open({FileMode mode: FileMode.READ}) {
     if (mode != FileMode.READ &&
         mode != FileMode.WRITE &&
         mode != FileMode.APPEND) {
       return new Future.error(new ArgumentError());
     }
     return _IOService.dispatch(_FILE_OPEN, [path, mode._mode]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "Cannot open file", path);
       }
       return new _RandomAccessFile(response, path);
     });
   }

   Future<int> length() {
     return _IOService.dispatch(_FILE_LENGTH_FROM_PATH, [path]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response,
                                      "Cannot retrieve length of file",
                                      path);
       }
       return response;
     });
   }


   external static _lengthFromPath(String path);

   int lengthSync() {
     var result = _lengthFromPath(path);
     throwIfError(result, "Cannot retrieve length of file", path);
     return result;
   }

   Future<DateTime> lastModified() {
     return _IOService.dispatch(_FILE_LAST_MODIFIED, [path]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response,
                                      "Cannot retrieve modification time",
                                      path);
       }
       return new DateTime.fromMillisecondsSinceEpoch(response);
     });
   }

   external static _lastModified(String path);

   DateTime lastModifiedSync() {
     var ms = _lastModified(path);
     throwIfError(ms, "Cannot retrieve modification time", path);
     return new DateTime.fromMillisecondsSinceEpoch(ms);
   }

   external static _open(String path, int mode);

   RandomAccessFile openSync({FileMode mode: FileMode.READ}) {
     if (mode != FileMode.READ &&
         mode != FileMode.WRITE &&
         mode != FileMode.APPEND) {
       throw new FileException("Unknown file mode. Use FileMode.READ, "
                               "FileMode.WRITE or FileMode.APPEND.",
                               path);
     }
     var id = _open(path, mode._mode);
     throwIfError(id, "Cannot open file", path);
     return new _RandomAccessFile(id, path);
   }

   external static int _openStdio(int fd);

   static RandomAccessFile _openStdioSync(int fd) {
     var id = _openStdio(fd);
     if (id == 0) {
       throw new FileException("Cannot open stdio file for: $fd");
     }
     return new _RandomAccessFile(id, "");
   }

   Future<String> fullPath() => resolveSymbolicLinks();

   String fullPathSync() => resolveSymbolicLinksSync();

   Stream<List<int>> openRead([int start, int end]) {
     return new _FileStream(path, start, end);
   }

   IOSink openWrite({FileMode mode: FileMode.WRITE,
                     Encoding encoding: UTF8}) {
     if (mode != FileMode.WRITE &&
         mode != FileMode.APPEND) {
       throw new ArgumentError(
           "Wrong FileMode. Use FileMode.WRITE or FileMode.APPEND");
     }
     var consumer = new _FileStreamConsumer(this, mode);
     return new IOSink(consumer, encoding: encoding);
   }

   Future<List<int>> readAsBytes() {
     Completer<List<int>> completer = new Completer<List<int>>();
     var builder = new BytesBuilder();
     openRead().listen(
       (d) => builder.add(d),
       onDone: () {
         completer.complete(builder.takeBytes());
       },
       onError: (e) {
         completer.completeError(e);
       },
       cancelOnError: true);
     return completer.future;
   }

   List<int> readAsBytesSync() {
     var opened = openSync();
     var builder = new BytesBuilder();
     var data;
     while ((data = opened.readSync(_BLOCK_SIZE)).length > 0) {
       builder.add(data);
     }
     opened.closeSync();
     return builder.takeBytes();
   }

   String _tryDecode(List<int> bytes, Encoding encoding) {
     try {
       return encoding.decode(bytes);
     } catch (_) {
       throw new FileException(
           "Failed to decode data using encoding '${encoding.name}'", path);
     }
   }

   Future<String> readAsString({Encoding encoding: UTF8}) {
     return readAsBytes().then((bytes) {
       return _tryDecode(bytes, encoding);
     });
   }

   String readAsStringSync({Encoding encoding: UTF8}) {
     List<int> bytes = readAsBytesSync();
     return _tryDecode(bytes, encoding);
   }

   List<String> _decodeLines(List<int> bytes, Encoding encoding) {
     if (bytes.length == 0) return [];
     var list = [];
     var controller = new StreamController(sync: true);
     var error = null;
     controller.stream
         .transform(encoding.decoder)
         .transform(new LineSplitter())
         .listen((line) => list.add(line), onError: (e) => error = e);
     controller.add(bytes);
     controller.close();
     if (error != null) {
       throw new FileException(
           "Failed to decode data using encoding '${encoding.name}'", path);
     }
     return list;
   }

   Future<List<String>> readAsLines({Encoding encoding: UTF8}) {
     return readAsBytes().then((bytes) {
       return _decodeLines(bytes, encoding);
     });
   }

   List<String> readAsLinesSync({Encoding encoding: UTF8}) {
     return _decodeLines(readAsBytesSync(), encoding);
   }

   Future<File> writeAsBytes(List<int> bytes,
                             {FileMode mode: FileMode.WRITE}) {
     try {
       IOSink sink = openWrite(mode: mode);
       sink.add(bytes);
       sink.close();
       return sink.done.then((_) => this);
     } catch (e) {
       return new Future.error(e);
     }
   }

   void writeAsBytesSync(List<int> bytes, {FileMode mode: FileMode.WRITE}) {
     RandomAccessFile opened = openSync(mode: mode);
     opened.writeFromSync(bytes, 0, bytes.length);
     opened.closeSync();
   }

   Future<File> writeAsString(String contents,
                              {FileMode mode: FileMode.WRITE,
                               Encoding encoding: UTF8}) {
     try {
       return writeAsBytes(encoding.encode(contents), mode: mode);
     } catch (e) {
       return new Future.error(e);
     }
   }

   void writeAsStringSync(String contents,
                          {FileMode mode: FileMode.WRITE,
                           Encoding encoding: UTF8}) {
     writeAsBytesSync(encoding.encode(contents), mode: mode);
   }

   String toString() => "File: '$path'";

   static throwIfError(Object result, String msg, String path) {
     if (result is OSError) {
       throw new FileException(msg, path, result);
     }
   }
 }


 class _RandomAccessFile implements RandomAccessFile {
   final String path;
   int _id;
   SendPort _fileService;

   _RandomAccessFile(int this._id, String this.path);

   Future<RandomAccessFile> close() {
     if (closed) return _closedException();
     // Set the id_ to 0 (NULL) to ensure the no more async requests
     // can be issued for this file.
     int id = _id;
     _id = 0;
     return _IOService.dispatch(_FILE_CLOSE, [id]).then((result) {
       if (result != -1) {
         _id = result;
         return this;
       } else {
         throw new FileException("Cannot close file", path);
       }
     });
   }

   external static int _close(int id);

   void closeSync() {
     _checkNotClosed();
     var id = _close(_id);
     if (id == -1) {
       throw new FileException("Cannot close file", path);
     }
     _id = id;
   }

   Future<int> readByte() {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_READ_BYTE, [_id]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "readByte failed", path);
       }
       return response;
     });
   }

   external static _readByte(int id);

   int readByteSync() {
     _checkNotClosed();
     var result = _readByte(_id);
     if (result is OSError) {
       throw new FileException("readByte failed", path, result);
     }
     return result;
   }

   Future<List<int>> read(int bytes) {
     if (bytes is !int) {
       throw new ArgumentError(bytes);
     }
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_READ, [_id, bytes]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "read failed", path);
       }
       return response[1];
     });
   }

   external static _read(int id, int bytes);

   List<int> readSync(int bytes) {
     _checkNotClosed();
     if (bytes is !int) {
       throw new ArgumentError(bytes);
     }
     var result = _read(_id, bytes);
     if (result is OSError) {
       throw new FileException("readSync failed", path, result);
     }
     return result;
   }

   Future<int> readInto(List<int> buffer, [int start, int end]) {
     if (buffer is !List ||
         (start != null && start is !int) ||
         (end != null && end is !int)) {
       throw new ArgumentError();
     }
     if (closed) return _closedException();
     if (start == null) start = 0;
     if (end == null) end = buffer.length;
     int length = end - start;
     return _IOService.dispatch(_FILE_READ_INTO, [_id, length]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "readInto failed", path);
       }
       var read = response[1];
       var data = response[2];
       buffer.setRange(start, start + read, data);
       return read;
     });
   }

   static void _checkReadWriteListArguments(int length, int start, int end) {
     if (start < 0) throw new RangeError.value(start);
     if (end < start) throw new RangeError.value(end);
     if (end > length) {
       throw new RangeError.value(end);
     }
   }

   external static _readInto(int id, List<int> buffer, int start, int end);

   int readIntoSync(List<int> buffer, [int start, int end]) {
     _checkNotClosed();
     if (buffer is !List ||
         (start != null && start is !int) ||
         (end != null && end is !int)) {
       throw new ArgumentError();
     }
     if (start == null) start = 0;
     if (end == null) end = buffer.length;
     if (end == start) return 0;
     _checkReadWriteListArguments(buffer.length, start, end);
     var result = _readInto(_id, buffer, start, end);
     if (result is OSError) {
       throw new FileException("readInto failed", path, result);
     }
     return result;
   }

   Future<RandomAccessFile> writeByte(int value) {
     if (value is !int) {
       throw new ArgumentError(value);
     }
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_WRITE_BYTE, [_id, value]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "writeByte failed", path);
       }
       return this;
     });
   }

   external static _writeByte(int id, int value);

   int writeByteSync(int value) {
     _checkNotClosed();
     if (value is !int) {
       throw new ArgumentError(value);
     }
     var result = _writeByte(_id, value);
     if (result is OSError) {
       throw new FileException("writeByte failed", path, result);
     }
     return result;
   }

   Future<RandomAccessFile> writeFrom(List<int> buffer, [int start, int end]) {
     if ((buffer is !List && buffer is !ByteData) ||
         (start != null && start is !int) ||
         (end != null && end is !int)) {
       throw new ArgumentError("Invalid arguments to writeFrom");
     }

     if (closed) return _closedException();

     _BufferAndStart result;
     try {
       result = _ensureFastAndSerializableByteData(buffer, start, end);
     } catch (e) {
       return new Future.error(e);
     }

     List request = new List(4);
     request[0] = _id;
     request[1] = result.buffer;
     request[2] = result.start;
     request[3] = end - (start - result.start);
     return _IOService.dispatch(_FILE_WRITE_FROM, request).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "writeFrom failed", path);
       }
       return this;
     });
   }

   external static _writeFrom(int id, List<int> buffer, int start, int end);

   void writeFromSync(List<int> buffer, [int start, int end]) {
     _checkNotClosed();
     if (buffer is !List ||
         (start != null && start is !int) ||
         (end != null && end is !int)) {
       throw new ArgumentError("Invalid arguments to writeFromSync");
     }
     if (start == null) start = 0;
     if (end == null) end = buffer.length;
     if (end == start) return;
     _checkReadWriteListArguments(buffer.length, start, end);
     _BufferAndStart bufferAndStart =
         _ensureFastAndSerializableByteData(buffer, start, end);
     var result = _writeFrom(_id,
                             bufferAndStart.buffer,
                             bufferAndStart.start,
                             end - (start - bufferAndStart.start));
     if (result is OSError) {
       throw new FileException("writeFrom failed", path, result);
     }
   }

   Future<RandomAccessFile> writeString(String string,
                                        {Encoding encoding: UTF8}) {
     if (encoding is! Encoding) {
       throw new ArgumentError(encoding);
     }
     var data = encoding.encode(string);
     return writeFrom(data, 0, data.length);
   }

   void writeStringSync(String string, {Encoding encoding: UTF8}) {
     if (encoding is! Encoding) {
       throw new ArgumentError(encoding);
     }
     var data = encoding.encode(string);
     writeFromSync(data, 0, data.length);
   }

   Future<int> position() {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_POSITION, [_id]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "position failed", path);
       }
       return response;
     });
   }

   external static _position(int id);

   int positionSync() {
     _checkNotClosed();
     var result = _position(_id);
     if (result is OSError) {
       throw new FileException("position failed", path, result);
     }
     return result;
   }

   Future<RandomAccessFile> setPosition(int position) {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_SET_POSITION, [_id, position])
         .then((response) {
           if (_isErrorResponse(response)) {
             throw _exceptionFromResponse(response, "setPosition failed", path);
           }
           return this;
         });
   }

   external static _setPosition(int id, int position);

   void setPositionSync(int position) {
     _checkNotClosed();
     var result = _setPosition(_id, position);
     if (result is OSError) {
       throw new FileException("setPosition failed", path, result);
     }
   }

   Future<RandomAccessFile> truncate(int length) {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_TRUNCATE, [_id, length]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "truncate failed", path);
       }
       return this;
     });
   }

   external static _truncate(int id, int length);

   void truncateSync(int length) {
     _checkNotClosed();
     var result = _truncate(_id, length);
     if (result is OSError) {
       throw new FileException("truncate failed", path, result);
     }
   }

   Future<int> length() {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_LENGTH, [_id]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response, "length failed", path);
       }
       return response;
     });
   }

   external static _length(int id);

   int lengthSync() {
     _checkNotClosed();
     var result = _length(_id);
     if (result is OSError) {
       throw new FileException("length failed", path, result);
     }
     return result;
   }

   Future<RandomAccessFile> flush() {
     if (closed) return _closedException();
     return _IOService.dispatch(_FILE_FLUSH, [_id]).then((response) {
       if (_isErrorResponse(response)) {
         throw _exceptionFromResponse(response,
                                      "flush failed",
                                      path);
       }
       return this;
     });
   }

   external static _flush(int id);

   void flushSync() {
     _checkNotClosed();
     var result = _flush(_id);
     if (result is OSError) {
       throw new FileException("flush failed", path, result);
     }
   }

   bool get closed => _id == 0;

   void _checkNotClosed() {
     if (closed) {
       throw new FileException("File closed", path);
     }
   }

   Future _closedException() {
     return new Future.error(new FileException("File closed", path));
   }
 }
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	part of dart.io;

	// Read the file in blocks of size 64k.
	const int _BLOCK_SIZE = 64 * 1024;


	class _FileStream extends Stream<List<int>> {
	// Stream controller.
	StreamController<List<int>> _controller;

	// Information about the underlying file.
	String _path;
	RandomAccessFile _openedFile;
	int _position;
	int _end;
	final Completer _closeCompleter = new Completer();

	// Has the stream been paused or unsubscribed?
	bool _paused = false;
	bool _unsubscribed = false;

	// Is there a read currently in progress?
	bool _readInProgress = false;

	// Block read but not yet send because stream is paused.
	List<int> _currentBlock;

	_FileStream(String this._path, this._position, this._end) {
	_setupController();
	}

	_FileStream.forStdin() : _position = 0 {
	_setupController();
	}

	StreamSubscription<List<int>> listen(void onData(List<int> event),
	{void onError(error),
	void onDone(),
	bool cancelOnError}) {
	return _controller.stream.listen(onData,
	onError: onError,
	onDone: onDone,
	cancelOnError: cancelOnError);
	}

	void _setupController() {
	_controller = new StreamController<List<int>>(sync: true,
	onListen: _start,
	onPause: () => _paused = true,
	onResume: _resume,
	onCancel: () {
	_unsubscribed = true;
	_closeFile();
	});
	}

	Future _closeFile() {
	if (_readInProgress) {
	return _closeCompleter.future;
	}
	if (_openedFile != null) {
	_openedFile.close()
	.then(_closeCompleter.complete,
	onError: _closeCompleter.completeError);
	_openedFile = null;
	}
	return _closeCompleter.future;
	}

	void _readBlock() {
	// Don't start a new read if one is already in progress.
	if (_readInProgress) return;
	_readInProgress = true;
	int readBytes = _BLOCK_SIZE;
	if (_end != null) {
	readBytes = min(readBytes, _end - _position);
	if (readBytes < 0) {
	_readInProgress = false;
	if (!_unsubscribed) {
	_controller.addError(new RangeError("Bad end position: $_end"));
	_closeFile().then((_) { _controller.close(); });
	_unsubscribed = true;
	}
	return;
	}
	}
	_openedFile.read(readBytes)
	.whenComplete(() {
	_readInProgress = false;
	})
	.then((block) {
	if (_unsubscribed) {
	_closeFile();
	return;
	}
	if (block.length == 0) {
	if (!_unsubscribed) {
	_closeFile().then((_) { _controller.close(); });
	_unsubscribed = true;
	}
	return;
	}
	_position += block.length;
	if (_paused) {
	_currentBlock = block;
	} else {
	_controller.add(block);
	_readBlock();
	}
	})
	.catchError((e) {
	if (!_unsubscribed) {
	_controller.addError(e);
	_closeFile().then((_) { _controller.close(); });
	_unsubscribed = true;
	}
	});
	}

	void _start() {
	if (_position == null) {
	_position = 0;
	} else if (_position < 0) {
	_controller.addError(new RangeError("Bad start position: $_position"));
	_controller.close();
	return;
	}
	Future<RandomAccessFile> openFuture;
	if (_path != null) {
	openFuture = new File(_path).open(mode: FileMode.READ);
	} else {
	openFuture = new Future.value(_File._openStdioSync(0));
	}
	openFuture
	.then((RandomAccessFile opened) {
	_openedFile = opened;
	if (_position > 0) {
	return opened.setPosition(_position);
	}
	})
	.then((_) => _readBlock())
	.catchError((e) {
	_controller.addError(e);
	_controller.close();
	});
	}

	void _resume() {
	_paused = false;
	if (_currentBlock != null) {
	_controller.add(_currentBlock);
	_currentBlock = null;
	}
	// Resume reading unless we are already done.
	if (_openedFile != null) _readBlock();
	}
	}

	class _FileStreamConsumer extends StreamConsumer<List<int>> {
	File _file;
	Future<RandomAccessFile> _openFuture;
	StreamSubscription _subscription;

	_FileStreamConsumer(File this._file, FileMode mode) {
	_openFuture = _file.open(mode: mode);
	}

	_FileStreamConsumer.fromStdio(int fd) {
	assert(1 <= fd && fd <= 2);
	_openFuture = new Future.value(_File._openStdioSync(fd));
	}

	Future<File> addStream(Stream<List<int>> stream) {
	Completer<File> completer = new Completer<File>();
	_openFuture
	.then((openedFile) {
	_subscription = stream.listen(
	(d) {
	_subscription.pause();
	openedFile.writeFrom(d, 0, d.length)
	.then((_) => _subscription.resume())
	.catchError((e) {
	openedFile.close();
	completer.completeError(e);
	});
	},
	onDone: () {
	completer.complete(_file);
	},
	onError: (e) {
	openedFile.close();
	completer.completeError(e);
	},
	cancelOnError: true);
	})
	.catchError((e) {
	completer.completeError(e);
	});
	return completer.future;
	}

	Future<File> close() {
	return _openFuture.then((openedFile) => openedFile.close());
	}
	}


	// Class for encapsulating the native implementation of files.
	class _File extends FileSystemEntity implements File {
	final String path;

	// Constructor for file.
	_File(String this.path) {
	if (path is! String) {
	throw new ArgumentError('${Error.safeToString(path)} '
	'is not a String');
	}
	}

	Future<bool> exists() {
	return _IOService.dispatch(_FILE_EXISTS, [path]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "Cannot check existence", path);
	}
	return response;
	});
	}

	external static _exists(String path);

	bool existsSync() {
	var result = _exists(path);
	throwIfError(result, "Cannot check existence of file", path);
	return result;
	}

	File get absolute => new File(_absolutePath);

	Future<FileStat> stat() => FileStat.stat(path);

	FileStat statSync() => FileStat.statSync(path);

	Future<File> create() {
	return _IOService.dispatch(_FILE_CREATE, [path]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "Cannot create file", path);
	}
	return this;
	});
	}

	external static _create(String path);

	external static _createLink(String path, String target);

	external static _linkTarget(String path);

	void createSync() {
	var result = _create(path);
	throwIfError(result, "Cannot create file", path);
	}

	Future<File> _delete({bool recursive: false}) {
	if (recursive) {
	return new Directory(path).delete(recursive: true).then((_) => this);
	}
	return _IOService.dispatch(_FILE_DELETE, [path]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "Cannot delete file", path);
	}
	return this;
	});
	}

	external static _deleteNative(String path);

	external static _deleteLinkNative(String path);

	void _deleteSync({bool recursive: false}) {
	if (recursive) {
	return new Directory(path).deleteSync(recursive: true);
	}
	var result = _deleteNative(path);
	throwIfError(result, "Cannot delete file", path);
	}

	Future<File> rename(String newPath) {
	return _IOService.dispatch(_FILE_RENAME, [path, newPath]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(
	response, "Cannot rename file to '$newPath'", path);
	}
	return new File(newPath);
	});
	}

	external static _rename(String oldPath, String newPath);

	external static _renameLink(String oldPath, String newPath);

	File renameSync(String newPath) {
	var result = _rename(path, newPath);
	throwIfError(result, "Cannot rename file to '$newPath'", path);
	return new File(newPath);
	}

	Directory get directory {
	_Path path = new _Path(this.path).directoryPath;
	return new Directory(path.toNativePath());
	}

	Future<RandomAccessFile> open({FileMode mode: FileMode.READ}) {
	if (mode != FileMode.READ &&
	mode != FileMode.WRITE &&
	mode != FileMode.APPEND) {
	return new Future.error(new ArgumentError());
	}
	return _IOService.dispatch(_FILE_OPEN, [path, mode._mode]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "Cannot open file", path);
	}
	return new _RandomAccessFile(response, path);
	});
	}

	Future<int> length() {
	return _IOService.dispatch(_FILE_LENGTH_FROM_PATH, [path]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response,
	"Cannot retrieve length of file",
	path);
	}
	return response;
	});
	}


	external static _lengthFromPath(String path);

	int lengthSync() {
	var result = _lengthFromPath(path);
	throwIfError(result, "Cannot retrieve length of file", path);
	return result;
	}

	Future<DateTime> lastModified() {
	return _IOService.dispatch(_FILE_LAST_MODIFIED, [path]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response,
	"Cannot retrieve modification time",
	path);
	}
	return new DateTime.fromMillisecondsSinceEpoch(response);
	});
	}

	external static _lastModified(String path);

	DateTime lastModifiedSync() {
	var ms = _lastModified(path);
	throwIfError(ms, "Cannot retrieve modification time", path);
	return new DateTime.fromMillisecondsSinceEpoch(ms);
	}

	external static _open(String path, int mode);

	RandomAccessFile openSync({FileMode mode: FileMode.READ}) {
	if (mode != FileMode.READ &&
	mode != FileMode.WRITE &&
	mode != FileMode.APPEND) {
	throw new FileException("Unknown file mode. Use FileMode.READ, "
	"FileMode.WRITE or FileMode.APPEND.",
	path);
	}
	var id = _open(path, mode._mode);
	throwIfError(id, "Cannot open file", path);
	return new _RandomAccessFile(id, path);
	}

	external static int _openStdio(int fd);

	static RandomAccessFile _openStdioSync(int fd) {
	var id = _openStdio(fd);
	if (id == 0) {
	throw new FileException("Cannot open stdio file for: $fd");
	}
	return new _RandomAccessFile(id, "");
	}

	Future<String> fullPath() => resolveSymbolicLinks();

	String fullPathSync() => resolveSymbolicLinksSync();

	Stream<List<int>> openRead([int start, int end]) {
	return new _FileStream(path, start, end);
	}

	IOSink openWrite({FileMode mode: FileMode.WRITE,
	Encoding encoding: UTF8}) {
	if (mode != FileMode.WRITE &&
	mode != FileMode.APPEND) {
	throw new ArgumentError(
	"Wrong FileMode. Use FileMode.WRITE or FileMode.APPEND");
	}
	var consumer = new _FileStreamConsumer(this, mode);
	return new IOSink(consumer, encoding: encoding);
	}

	Future<List<int>> readAsBytes() {
	Completer<List<int>> completer = new Completer<List<int>>();
	var builder = new BytesBuilder();
	openRead().listen(
	(d) => builder.add(d),
	onDone: () {
	completer.complete(builder.takeBytes());
	},
	onError: (e) {
	completer.completeError(e);
	},
	cancelOnError: true);
	return completer.future;
	}

	List<int> readAsBytesSync() {
	var opened = openSync();
	var builder = new BytesBuilder();
	var data;
	while ((data = opened.readSync(_BLOCK_SIZE)).length > 0) {
	builder.add(data);
	}
	opened.closeSync();
	return builder.takeBytes();
	}

	String _tryDecode(List<int> bytes, Encoding encoding) {
	try {
	return encoding.decode(bytes);
	} catch (_) {
	throw new FileException(
	"Failed to decode data using encoding '${encoding.name}'", path);
	}
	}

	Future<String> readAsString({Encoding encoding: UTF8}) {
	return readAsBytes().then((bytes) {
	return _tryDecode(bytes, encoding);
	});
	}

	String readAsStringSync({Encoding encoding: UTF8}) {
	List<int> bytes = readAsBytesSync();
	return _tryDecode(bytes, encoding);
	}

	List<String> _decodeLines(List<int> bytes, Encoding encoding) {
	if (bytes.length == 0) return [];
	var list = [];
	var controller = new StreamController(sync: true);
	var error = null;
	controller.stream
	.transform(encoding.decoder)
	.transform(new LineSplitter())
	.listen((line) => list.add(line), onError: (e) => error = e);
	controller.add(bytes);
	controller.close();
	if (error != null) {
	throw new FileException(
	"Failed to decode data using encoding '${encoding.name}'", path);
	}
	return list;
	}

	Future<List<String>> readAsLines({Encoding encoding: UTF8}) {
	return readAsBytes().then((bytes) {
	return _decodeLines(bytes, encoding);
	});
	}

	List<String> readAsLinesSync({Encoding encoding: UTF8}) {
	return _decodeLines(readAsBytesSync(), encoding);
	}

	Future<File> writeAsBytes(List<int> bytes,
	{FileMode mode: FileMode.WRITE}) {
	try {
	IOSink sink = openWrite(mode: mode);
	sink.add(bytes);
	sink.close();
	return sink.done.then((_) => this);
	} catch (e) {
	return new Future.error(e);
	}
	}

	void writeAsBytesSync(List<int> bytes, {FileMode mode: FileMode.WRITE}) {
	RandomAccessFile opened = openSync(mode: mode);
	opened.writeFromSync(bytes, 0, bytes.length);
	opened.closeSync();
	}

	Future<File> writeAsString(String contents,
	{FileMode mode: FileMode.WRITE,
	Encoding encoding: UTF8}) {
	try {
	return writeAsBytes(encoding.encode(contents), mode: mode);
	} catch (e) {
	return new Future.error(e);
	}
	}

	void writeAsStringSync(String contents,
	{FileMode mode: FileMode.WRITE,
	Encoding encoding: UTF8}) {
	writeAsBytesSync(encoding.encode(contents), mode: mode);
	}

	String toString() => "File: '$path'";

	static throwIfError(Object result, String msg, String path) {
	if (result is OSError) {
	throw new FileException(msg, path, result);
	}
	}
	}


	class _RandomAccessFile implements RandomAccessFile {
	final String path;
	int _id;
	SendPort _fileService;

	_RandomAccessFile(int this._id, String this.path);

	Future<RandomAccessFile> close() {
	if (closed) return _closedException();
	// Set the id_ to 0 (NULL) to ensure the no more async requests
	// can be issued for this file.
	int id = _id;
	_id = 0;
	return _IOService.dispatch(_FILE_CLOSE, [id]).then((result) {
	if (result != -1) {
	_id = result;
	return this;
	} else {
	throw new FileException("Cannot close file", path);
	}
	});
	}

	external static int _close(int id);

	void closeSync() {
	_checkNotClosed();
	var id = _close(_id);
	if (id == -1) {
	throw new FileException("Cannot close file", path);
	}
	_id = id;
	}

	Future<int> readByte() {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_READ_BYTE, [_id]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "readByte failed", path);
	}
	return response;
	});
	}

	external static _readByte(int id);

	int readByteSync() {
	_checkNotClosed();
	var result = _readByte(_id);
	if (result is OSError) {
	throw new FileException("readByte failed", path, result);
	}
	return result;
	}

	Future<List<int>> read(int bytes) {
	if (bytes is !int) {
	throw new ArgumentError(bytes);
	}
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_READ, [_id, bytes]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "read failed", path);
	}
	return response[1];
	});
	}

	external static _read(int id, int bytes);

	List<int> readSync(int bytes) {
	_checkNotClosed();
	if (bytes is !int) {
	throw new ArgumentError(bytes);
	}
	var result = _read(_id, bytes);
	if (result is OSError) {
	throw new FileException("readSync failed", path, result);
	}
	return result;
	}

	Future<int> readInto(List<int> buffer, [int start, int end]) {
	if (buffer is !List \|\|
	(start != null && start is !int) \|\|
	(end != null && end is !int)) {
	throw new ArgumentError();
	}
	if (closed) return _closedException();
	if (start == null) start = 0;
	if (end == null) end = buffer.length;
	int length = end - start;
	return _IOService.dispatch(_FILE_READ_INTO, [_id, length]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "readInto failed", path);
	}
	var read = response[1];
	var data = response[2];
	buffer.setRange(start, start + read, data);
	return read;
	});
	}

	static void _checkReadWriteListArguments(int length, int start, int end) {
	if (start < 0) throw new RangeError.value(start);
	if (end < start) throw new RangeError.value(end);
	if (end > length) {
	throw new RangeError.value(end);
	}
	}

	external static _readInto(int id, List<int> buffer, int start, int end);

	int readIntoSync(List<int> buffer, [int start, int end]) {
	_checkNotClosed();
	if (buffer is !List \|\|
	(start != null && start is !int) \|\|
	(end != null && end is !int)) {
	throw new ArgumentError();
	}
	if (start == null) start = 0;
	if (end == null) end = buffer.length;
	if (end == start) return 0;
	_checkReadWriteListArguments(buffer.length, start, end);
	var result = _readInto(_id, buffer, start, end);
	if (result is OSError) {
	throw new FileException("readInto failed", path, result);
	}
	return result;
	}

	Future<RandomAccessFile> writeByte(int value) {
	if (value is !int) {
	throw new ArgumentError(value);
	}
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_WRITE_BYTE, [_id, value]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "writeByte failed", path);
	}
	return this;
	});
	}

	external static _writeByte(int id, int value);

	int writeByteSync(int value) {
	_checkNotClosed();
	if (value is !int) {
	throw new ArgumentError(value);
	}
	var result = _writeByte(_id, value);
	if (result is OSError) {
	throw new FileException("writeByte failed", path, result);
	}
	return result;
	}

	Future<RandomAccessFile> writeFrom(List<int> buffer, [int start, int end]) {
	if ((buffer is !List && buffer is !ByteData) \|\|
	(start != null && start is !int) \|\|
	(end != null && end is !int)) {
	throw new ArgumentError("Invalid arguments to writeFrom");
	}

	if (closed) return _closedException();

	_BufferAndStart result;
	try {
	result = _ensureFastAndSerializableByteData(buffer, start, end);
	} catch (e) {
	return new Future.error(e);
	}

	List request = new List(4);
	request[0] = _id;
	request[1] = result.buffer;
	request[2] = result.start;
	request[3] = end - (start - result.start);
	return _IOService.dispatch(_FILE_WRITE_FROM, request).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "writeFrom failed", path);
	}
	return this;
	});
	}

	external static _writeFrom(int id, List<int> buffer, int start, int end);

	void writeFromSync(List<int> buffer, [int start, int end]) {
	_checkNotClosed();
	if (buffer is !List \|\|
	(start != null && start is !int) \|\|
	(end != null && end is !int)) {
	throw new ArgumentError("Invalid arguments to writeFromSync");
	}
	if (start == null) start = 0;
	if (end == null) end = buffer.length;
	if (end == start) return;
	_checkReadWriteListArguments(buffer.length, start, end);
	_BufferAndStart bufferAndStart =
	_ensureFastAndSerializableByteData(buffer, start, end);
	var result = _writeFrom(_id,
	bufferAndStart.buffer,
	bufferAndStart.start,
	end - (start - bufferAndStart.start));
	if (result is OSError) {
	throw new FileException("writeFrom failed", path, result);
	}
	}

	Future<RandomAccessFile> writeString(String string,
	{Encoding encoding: UTF8}) {
	if (encoding is! Encoding) {
	throw new ArgumentError(encoding);
	}
	var data = encoding.encode(string);
	return writeFrom(data, 0, data.length);
	}

	void writeStringSync(String string, {Encoding encoding: UTF8}) {
	if (encoding is! Encoding) {
	throw new ArgumentError(encoding);
	}
	var data = encoding.encode(string);
	writeFromSync(data, 0, data.length);
	}

	Future<int> position() {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_POSITION, [_id]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "position failed", path);
	}
	return response;
	});
	}

	external static _position(int id);

	int positionSync() {
	_checkNotClosed();
	var result = _position(_id);
	if (result is OSError) {
	throw new FileException("position failed", path, result);
	}
	return result;
	}

	Future<RandomAccessFile> setPosition(int position) {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_SET_POSITION, [_id, position])
	.then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "setPosition failed", path);
	}
	return this;
	});
	}

	external static _setPosition(int id, int position);

	void setPositionSync(int position) {
	_checkNotClosed();
	var result = _setPosition(_id, position);
	if (result is OSError) {
	throw new FileException("setPosition failed", path, result);
	}
	}

	Future<RandomAccessFile> truncate(int length) {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_TRUNCATE, [_id, length]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "truncate failed", path);
	}
	return this;
	});
	}

	external static _truncate(int id, int length);

	void truncateSync(int length) {
	_checkNotClosed();
	var result = _truncate(_id, length);
	if (result is OSError) {
	throw new FileException("truncate failed", path, result);
	}
	}

	Future<int> length() {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_LENGTH, [_id]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response, "length failed", path);
	}
	return response;
	});
	}

	external static _length(int id);

	int lengthSync() {
	_checkNotClosed();
	var result = _length(_id);
	if (result is OSError) {
	throw new FileException("length failed", path, result);
	}
	return result;
	}

	Future<RandomAccessFile> flush() {
	if (closed) return _closedException();
	return _IOService.dispatch(_FILE_FLUSH, [_id]).then((response) {
	if (_isErrorResponse(response)) {
	throw _exceptionFromResponse(response,
	"flush failed",
	path);
	}
	return this;
	});
	}

	external static _flush(int id);

	void flushSync() {
	_checkNotClosed();
	var result = _flush(_id);
	if (result is OSError) {
	throw new FileException("flush failed", path, result);
	}
	}

	bool get closed => _id == 0;

	void _checkNotClosed() {
	if (closed) {
	throw new FileException("File closed", path);
	}
	}

	Future _closedException() {
	return new Future.error(new FileException("File closed", path));
	}
	}