packages/flutter_tools/lib/src/base/io.dart - mirrors/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 /// This file serves as the single point of entry into the `dart:io` APIs
 /// within Flutter tools.
 ///
 /// In order to make Flutter tools more testable, we use the `FileSystem` APIs
 /// in `package:file` rather than using the `dart:io` file APIs directly (see
 /// `file_system.dart`). Doing so allows us to swap out local file system
 /// access with mockable (or in-memory) file systems, making our tests hermetic
 /// vis-a-vis file system access.
 ///
 /// We also use `package:platform` to provide an abstraction away from the
 /// static methods in the `dart:io` `Platform` class (see `platform.dart`). As
 /// such, do not export Platform from this file!
 ///
 /// To ensure that all file system and platform API access within Flutter tools
 /// goes through the proper APIs, we forbid direct imports of `dart:io` (via a
 /// test), forcing all callers to instead import this file, which exports the
 /// blessed subset of `dart:io` that is legal to use in Flutter tools.
 ///
 /// Because of the nature of this file, it is important that **platform and file
 /// APIs not be exported from `dart:io` in this file**! Moreover, be careful
 /// about any additional exports that you add to this file, as doing so will
 /// increase the API surface that we have to test in Flutter tools, and the APIs
 /// in `dart:io` can sometimes be hard to use in tests.
 import 'dart:async';
 import 'dart:io' as io
   show
     exit,
     InternetAddress,
     InternetAddressType,
     IOSink,
     NetworkInterface,
     pid,
     Process,
     ProcessInfo,
     ProcessSignal,
     stderr,
     stdin,
     Stdin,
     StdinException,
     Stdout,
     StdoutException,
     stdout;

 import 'package:meta/meta.dart';

 import '../globals.dart' as globals;
 import 'async_guard.dart';
 import 'context.dart';
 import 'process.dart';

 export 'dart:io'
     show
         BytesBuilder,
         CompressionOptions,
         // Directory,         NO! Use `file_system.dart`
         exitCode,
         // File,              NO! Use `file_system.dart`
         // FileSystemEntity,  NO! Use `file_system.dart`
         gzip,
         GZipCodec,
         HandshakeException,
         HttpClient,
         HttpClientRequest,
         HttpClientResponse,
         HttpClientResponseCompressionState,
         HttpException,
         HttpHeaders,
         HttpRequest,
         HttpResponse,
         HttpServer,
         HttpStatus,
         InternetAddress,
         InternetAddressType,
         IOException,
         IOSink,
         // Link              NO! Use `file_system.dart`
         // NetworkInterface  NO! Use `io.dart`
         OSError,
         pid,
         // Platform          NO! use `platform.dart`
         Process,
         ProcessException,
         // ProcessInfo,      NO! use `io.dart`
         ProcessResult,
         // ProcessSignal     NO! Use [ProcessSignal] below.
         ProcessStartMode,
         // RandomAccessFile  NO! Use `file_system.dart`
         ServerSocket,
         SignalException,
         // stderr,           NO! Use `io.dart`
         // stdin,            NO! Use `io.dart`
         Stdin,
         StdinException,
         // stdout,           NO! Use `io.dart`
         Stdout,
         Socket,
         SocketException,
         systemEncoding,
         WebSocket,
         WebSocketException,
         WebSocketTransformer;

 /// Exits the process with the given [exitCode].
 typedef ExitFunction = void Function(int exitCode);

 const ExitFunction _defaultExitFunction = io.exit;

 ExitFunction _exitFunction = _defaultExitFunction;

 /// Exits the process.
 ///
 /// Throws [AssertionError] if assertions are enabled and the dart:io exit
 /// is still active when called. This may indicate exit was called in
 /// a test without being configured correctly.
 ///
 /// This is analogous to the `exit` function in `dart:io`, except that this
 /// function may be set to a testing-friendly value by calling
 /// [setExitFunctionForTests] (and then restored to its default implementation
 /// with [restoreExitFunction]). The default implementation delegates to
 /// `dart:io`.
 ExitFunction get exit {
   assert(
     _exitFunction != io.exit || !_inUnitTest(),
     'io.exit was called with assertions active in a unit test',
   );
   return _exitFunction;
 }

 // Whether the tool is executing in a unit test.
 bool _inUnitTest() {
   return Zone.current[#test.declarer] != null;
 }

 /// Sets the [exit] function to a function that throws an exception rather
 /// than exiting the process; this is intended for testing purposes.
 @visibleForTesting
 void setExitFunctionForTests([ ExitFunction exitFunction ]) {
   _exitFunction = exitFunction ?? (int exitCode) {
     throw ProcessExit(exitCode, immediate: true);
   };
 }

 /// Restores the [exit] function to the `dart:io` implementation.
 @visibleForTesting
 void restoreExitFunction() {
   _exitFunction = _defaultExitFunction;
 }

 /// A portable version of [io.ProcessSignal].
 ///
 /// Listening on signals that don't exist on the current platform is just a
 /// no-op. This is in contrast to [io.ProcessSignal], where listening to
 /// non-existent signals throws an exception.
 ///
 /// This class does NOT implement io.ProcessSignal, because that class uses
 /// private fields. This means it cannot be used with, e.g., [Process.killPid].
 /// Alternative implementations of the relevant methods that take
 /// [ProcessSignal] instances are available on this class (e.g. "send").
 class ProcessSignal {
   @visibleForTesting
   const ProcessSignal(this._delegate);

   static const ProcessSignal SIGWINCH = _PosixProcessSignal._(io.ProcessSignal.sigwinch);
   static const ProcessSignal SIGTERM = _PosixProcessSignal._(io.ProcessSignal.sigterm);
   static const ProcessSignal SIGUSR1 = _PosixProcessSignal._(io.ProcessSignal.sigusr1);
   static const ProcessSignal SIGUSR2 = _PosixProcessSignal._(io.ProcessSignal.sigusr2);
   static const ProcessSignal SIGINT =  ProcessSignal(io.ProcessSignal.sigint);
   static const ProcessSignal SIGKILL =  ProcessSignal(io.ProcessSignal.sigkill);

   final io.ProcessSignal _delegate;

   Stream<ProcessSignal> watch() {
     return _delegate.watch().map<ProcessSignal>((io.ProcessSignal signal) => this);
   }

   /// Sends the signal to the given process (identified by pid).
   ///
   /// Returns true if the signal was delivered, false otherwise.
   ///
   /// On Windows, this can only be used with [ProcessSignal.SIGTERM], which
   /// terminates the process.
   ///
   /// This is implemented by sending the signal using [Process.killPid].
   bool send(int pid) {
     assert(!globals.platform.isWindows || this == ProcessSignal.SIGTERM);
     return io.Process.killPid(pid, _delegate);
   }

   @override
   String toString() => _delegate.toString();
 }

 /// A [ProcessSignal] that is only available on Posix platforms.
 ///
 /// Listening to a [_PosixProcessSignal] is a no-op on Windows.
 class _PosixProcessSignal extends ProcessSignal {

   const _PosixProcessSignal._(io.ProcessSignal wrappedSignal) : super(wrappedSignal);

   @override
   Stream<ProcessSignal> watch() {
     if (globals.platform.isWindows) {
       return const Stream<ProcessSignal>.empty();
     }
     return super.watch();
   }
 }

 /// A class that wraps stdout, stderr, and stdin, and exposes the allowed
 /// operations.
 ///
 /// In particular, there are three ways that writing to stdout and stderr
 /// can fail. A call to stdout.write() can fail:
 ///   * by throwing a regular synchronous exception,
 ///   * by throwing an exception asynchronously, and
 ///   * by completing the Future stdout.done with an error.
 ///
 /// This class enapsulates all three so that we don't have to worry about it
 /// anywhere else.
 class Stdio {
   Stdio();

   /// Tests can provide overrides to use instead of the stdout and stderr from
   /// dart:io.
   @visibleForTesting
   Stdio.test({
     @required io.Stdout stdout,
     @required io.IOSink stderr,
   }) : _stdoutOverride = stdout, _stderrOverride = stderr;

   io.Stdout _stdoutOverride;
   io.IOSink _stderrOverride;

   // These flags exist to remember when the done Futures on stdout and stderr
   // complete to avoid trying to write to a closed stream sink, which would
   // generate a [StateError].
   bool _stdoutDone = false;
   bool _stderrDone = false;

   Stream<List<int>> get stdin => io.stdin;

   @visibleForTesting
   io.Stdout get stdout {
     if (_stdout != null) {
       return _stdout;
     }
     _stdout = _stdoutOverride ?? io.stdout;
     _stdout.done.then(
       (void _) { _stdoutDone = true; },
       onError: (Object err, StackTrace st) { _stdoutDone = true; },
     );
     return _stdout;
   }
   io.Stdout _stdout;

   @visibleForTesting
   io.IOSink get stderr {
     if (_stderr != null) {
       return _stderr;
     }
     _stderr = _stderrOverride ?? io.stderr;
     _stderr.done.then(
       (void _) { _stderrDone = true; },
       onError: (Object err, StackTrace st) { _stderrDone = true; },
     );
     return _stderr;
   }
   io.IOSink _stderr;

   bool get hasTerminal => io.stdout.hasTerminal;

   static bool _stdinHasTerminal;

   /// Determines whether there is a terminal attached.
   ///
   /// [io.Stdin.hasTerminal] only covers a subset of cases. In this check the
   /// echoMode is toggled on and off to catch cases where the tool running in
   /// a docker container thinks there is an attached terminal. This can cause
   /// runtime errors such as "inappropriate ioctl for device" if not handled.
   bool get stdinHasTerminal {
     if (_stdinHasTerminal != null) {
       return _stdinHasTerminal;
     }
     if (stdin is! io.Stdin) {
       return _stdinHasTerminal = false;
     }
     final io.Stdin ioStdin = stdin as io.Stdin;
     if (!ioStdin.hasTerminal) {
       return _stdinHasTerminal = false;
     }
     try {
       final bool currentEchoMode = ioStdin.echoMode;
       ioStdin.echoMode = !currentEchoMode;
       ioStdin.echoMode = currentEchoMode;
     } on io.StdinException {
       return _stdinHasTerminal = false;
     }
     return _stdinHasTerminal = true;
   }

   int get terminalColumns => hasTerminal ? stdout.terminalColumns : null;
   int get terminalLines => hasTerminal ? stdout.terminalLines : null;
   bool get supportsAnsiEscapes => hasTerminal && stdout.supportsAnsiEscapes;

   /// Writes [message] to [stderr], falling back on [fallback] if the write
   /// throws any exception. The default fallback calls [print] on [message].
   void stderrWrite(
     String message, {
     void Function(String, dynamic, StackTrace) fallback,
   }) {
     if (!_stderrDone) {
       _stdioWrite(stderr, message, fallback: fallback);
       return;
     }
     fallback == null ? print(message) : fallback(
       message,
       const io.StdoutException('stderr is done'),
       StackTrace.current,
     );
   }

   /// Writes [message] to [stdout], falling back on [fallback] if the write
   /// throws any exception. The default fallback calls [print] on [message].
   void stdoutWrite(
     String message, {
     void Function(String, dynamic, StackTrace) fallback,
   }) {
     if (!_stdoutDone) {
       _stdioWrite(stdout, message, fallback: fallback);
       return;
     }
     fallback == null ? print(message) : fallback(
       message,
       const io.StdoutException('stdout is done'),
       StackTrace.current,
     );
   }

   // Helper for [stderrWrite] and [stdoutWrite].
   void _stdioWrite(io.IOSink sink, String message, {
     void Function(String, dynamic, StackTrace) fallback,
   }) {
     asyncGuard<void>(() async {
       sink.write(message);
     }, onError: (Object error, StackTrace stackTrace) {
       if (fallback == null) {
         print(message);
       } else {
         fallback(message, error, stackTrace);
       }
     });
   }

   /// Adds [stream] to [stdout].
   Future<void> addStdoutStream(Stream<List<int>> stream) => stdout.addStream(stream);

   /// Adds [srtream] to [stderr].
   Future<void> addStderrStream(Stream<List<int>> stream) => stderr.addStream(stream);
 }

 // TODO(zra): Move pid and writePidFile into `ProcessInfo`.
 void writePidFile(String pidFile) {
   if (pidFile != null) {
     // Write our pid to the file.
     globals.fs.file(pidFile).writeAsStringSync(io.pid.toString());
   }
 }

 /// An overridable version of io.ProcessInfo.
 abstract class ProcessInfo {
   factory ProcessInfo() => _DefaultProcessInfo();

   static ProcessInfo get instance => context.get<ProcessInfo>();

   int get currentRss;

   int get maxRss;
 }

 ProcessInfo get processInfo => ProcessInfo.instance;

 /// The default implementation of [ProcessInfo], which uses [io.ProcessInfo].
 class _DefaultProcessInfo implements ProcessInfo {
   @override
   int get currentRss => io.ProcessInfo.currentRss;

   @override
   int get maxRss => io.ProcessInfo.maxRss;
 }

 /// The return type for [listNetworkInterfaces].
 class NetworkInterface implements io.NetworkInterface {
   NetworkInterface(this._delegate);

   final io.NetworkInterface _delegate;

   @override
   List<io.InternetAddress> get addresses => _delegate.addresses;

   @override
   int get index => _delegate.index;

   @override
   String get name => _delegate.name;

   @override
   String toString() => "NetworkInterface('$name', $addresses)";
 }

 typedef NetworkInterfaceLister = Future<List<NetworkInterface>> Function({
   bool includeLoopback,
   bool includeLinkLocal,
   io.InternetAddressType type,
 });

 NetworkInterfaceLister _networkInterfaceListerOverride;

 // Tests can set up a non-default network interface lister.
 @visibleForTesting
 void setNetworkInterfaceLister(NetworkInterfaceLister lister) {
   _networkInterfaceListerOverride = lister;
 }

 @visibleForTesting
 void resetNetworkInterfaceLister() {
   _networkInterfaceListerOverride = null;
 }

 /// This calls [NetworkInterface.list] from `dart:io` unless it is overridden by
 /// [setNetworkInterfaceLister] for a test. If it is overridden for a test,
 /// it should be reset with [resetNetworkInterfaceLister].
 Future<List<NetworkInterface>> listNetworkInterfaces({
   bool includeLoopback = false,
   bool includeLinkLocal = false,
   io.InternetAddressType type = io.InternetAddressType.any,
 }) async {
   if (_networkInterfaceListerOverride != null) {
     return _networkInterfaceListerOverride(
       includeLoopback: includeLoopback,
       includeLinkLocal: includeLinkLocal,
       type: type,
     );
   }
   final List<io.NetworkInterface> interfaces = await io.NetworkInterface.list(
     includeLoopback: includeLoopback,
     includeLinkLocal: includeLinkLocal,
     type: type,
   );
   return interfaces.map(
     (io.NetworkInterface interface) => NetworkInterface(interface),
   ).toList();
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	/// This file serves as the single point of entry into the `dart:io` APIs
	/// within Flutter tools.
	///
	/// In order to make Flutter tools more testable, we use the `FileSystem` APIs
	/// in `package:file` rather than using the `dart:io` file APIs directly (see
	/// `file_system.dart`). Doing so allows us to swap out local file system
	/// access with mockable (or in-memory) file systems, making our tests hermetic
	/// vis-a-vis file system access.
	///
	/// We also use `package:platform` to provide an abstraction away from the
	/// static methods in the `dart:io` `Platform` class (see `platform.dart`). As
	/// such, do not export Platform from this file!
	///
	/// To ensure that all file system and platform API access within Flutter tools
	/// goes through the proper APIs, we forbid direct imports of `dart:io` (via a
	/// test), forcing all callers to instead import this file, which exports the
	/// blessed subset of `dart:io` that is legal to use in Flutter tools.
	///
	/// Because of the nature of this file, it is important that **platform and file
	/// APIs not be exported from `dart:io` in this file**! Moreover, be careful
	/// about any additional exports that you add to this file, as doing so will
	/// increase the API surface that we have to test in Flutter tools, and the APIs
	/// in `dart:io` can sometimes be hard to use in tests.
	import 'dart:async';
	import 'dart:io' as io
	show
	exit,
	InternetAddress,
	InternetAddressType,
	IOSink,
	NetworkInterface,
	pid,
	Process,
	ProcessInfo,
	ProcessSignal,
	stderr,
	stdin,
	Stdin,
	StdinException,
	Stdout,
	StdoutException,
	stdout;

	import 'package:meta/meta.dart';

	import '../globals.dart' as globals;
	import 'async_guard.dart';
	import 'context.dart';
	import 'process.dart';

	export 'dart:io'
	show
	BytesBuilder,
	CompressionOptions,
	// Directory, NO! Use `file_system.dart`
	exitCode,
	// File, NO! Use `file_system.dart`
	// FileSystemEntity, NO! Use `file_system.dart`
	gzip,
	GZipCodec,
	HandshakeException,
	HttpClient,
	HttpClientRequest,
	HttpClientResponse,
	HttpClientResponseCompressionState,
	HttpException,
	HttpHeaders,
	HttpRequest,
	HttpResponse,
	HttpServer,
	HttpStatus,
	InternetAddress,
	InternetAddressType,
	IOException,
	IOSink,
	// Link NO! Use `file_system.dart`
	// NetworkInterface NO! Use `io.dart`
	OSError,
	pid,
	// Platform NO! use `platform.dart`
	Process,
	ProcessException,
	// ProcessInfo, NO! use `io.dart`
	ProcessResult,
	// ProcessSignal NO! Use [ProcessSignal] below.
	ProcessStartMode,
	// RandomAccessFile NO! Use `file_system.dart`
	ServerSocket,
	SignalException,
	// stderr, NO! Use `io.dart`
	// stdin, NO! Use `io.dart`
	Stdin,
	StdinException,
	// stdout, NO! Use `io.dart`
	Stdout,
	Socket,
	SocketException,
	systemEncoding,
	WebSocket,
	WebSocketException,
	WebSocketTransformer;

	/// Exits the process with the given [exitCode].
	typedef ExitFunction = void Function(int exitCode);

	const ExitFunction _defaultExitFunction = io.exit;

	ExitFunction _exitFunction = _defaultExitFunction;

	/// Exits the process.
	///
	/// Throws [AssertionError] if assertions are enabled and the dart:io exit
	/// is still active when called. This may indicate exit was called in
	/// a test without being configured correctly.
	///
	/// This is analogous to the `exit` function in `dart:io`, except that this
	/// function may be set to a testing-friendly value by calling
	/// [setExitFunctionForTests] (and then restored to its default implementation
	/// with [restoreExitFunction]). The default implementation delegates to
	/// `dart:io`.
	ExitFunction get exit {
	assert(
	_exitFunction != io.exit \|\| !_inUnitTest(),
	'io.exit was called with assertions active in a unit test',
	);
	return _exitFunction;
	}

	// Whether the tool is executing in a unit test.
	bool _inUnitTest() {
	return Zone.current[#test.declarer] != null;
	}

	/// Sets the [exit] function to a function that throws an exception rather
	/// than exiting the process; this is intended for testing purposes.
	@visibleForTesting
	void setExitFunctionForTests([ ExitFunction exitFunction ]) {
	_exitFunction = exitFunction ?? (int exitCode) {
	throw ProcessExit(exitCode, immediate: true);
	};
	}

	/// Restores the [exit] function to the `dart:io` implementation.
	@visibleForTesting
	void restoreExitFunction() {
	_exitFunction = _defaultExitFunction;
	}

	/// A portable version of [io.ProcessSignal].
	///
	/// Listening on signals that don't exist on the current platform is just a
	/// no-op. This is in contrast to [io.ProcessSignal], where listening to
	/// non-existent signals throws an exception.
	///
	/// This class does NOT implement io.ProcessSignal, because that class uses
	/// private fields. This means it cannot be used with, e.g., [Process.killPid].
	/// Alternative implementations of the relevant methods that take
	/// [ProcessSignal] instances are available on this class (e.g. "send").
	class ProcessSignal {
	@visibleForTesting
	const ProcessSignal(this._delegate);

	static const ProcessSignal SIGWINCH = _PosixProcessSignal._(io.ProcessSignal.sigwinch);
	static const ProcessSignal SIGTERM = _PosixProcessSignal._(io.ProcessSignal.sigterm);
	static const ProcessSignal SIGUSR1 = _PosixProcessSignal._(io.ProcessSignal.sigusr1);
	static const ProcessSignal SIGUSR2 = _PosixProcessSignal._(io.ProcessSignal.sigusr2);
	static const ProcessSignal SIGINT = ProcessSignal(io.ProcessSignal.sigint);
	static const ProcessSignal SIGKILL = ProcessSignal(io.ProcessSignal.sigkill);

	final io.ProcessSignal _delegate;

	Stream<ProcessSignal> watch() {
	return _delegate.watch().map<ProcessSignal>((io.ProcessSignal signal) => this);
	}

	/// Sends the signal to the given process (identified by pid).
	///
	/// Returns true if the signal was delivered, false otherwise.
	///
	/// On Windows, this can only be used with [ProcessSignal.SIGTERM], which
	/// terminates the process.
	///
	/// This is implemented by sending the signal using [Process.killPid].
	bool send(int pid) {
	assert(!globals.platform.isWindows \|\| this == ProcessSignal.SIGTERM);
	return io.Process.killPid(pid, _delegate);
	}

	@override
	String toString() => _delegate.toString();
	}

	/// A [ProcessSignal] that is only available on Posix platforms.
	///
	/// Listening to a [_PosixProcessSignal] is a no-op on Windows.
	class _PosixProcessSignal extends ProcessSignal {

	const _PosixProcessSignal._(io.ProcessSignal wrappedSignal) : super(wrappedSignal);

	@override
	Stream<ProcessSignal> watch() {
	if (globals.platform.isWindows) {
	return const Stream<ProcessSignal>.empty();
	}
	return super.watch();
	}
	}

	/// A class that wraps stdout, stderr, and stdin, and exposes the allowed
	/// operations.
	///
	/// In particular, there are three ways that writing to stdout and stderr
	/// can fail. A call to stdout.write() can fail:
	/// * by throwing a regular synchronous exception,
	/// * by throwing an exception asynchronously, and
	/// * by completing the Future stdout.done with an error.
	///
	/// This class enapsulates all three so that we don't have to worry about it
	/// anywhere else.
	class Stdio {
	Stdio();

	/// Tests can provide overrides to use instead of the stdout and stderr from
	/// dart:io.
	@visibleForTesting
	Stdio.test({
	@required io.Stdout stdout,
	@required io.IOSink stderr,
	}) : _stdoutOverride = stdout, _stderrOverride = stderr;

	io.Stdout _stdoutOverride;
	io.IOSink _stderrOverride;

	// These flags exist to remember when the done Futures on stdout and stderr
	// complete to avoid trying to write to a closed stream sink, which would
	// generate a [StateError].
	bool _stdoutDone = false;
	bool _stderrDone = false;

	Stream<List<int>> get stdin => io.stdin;

	@visibleForTesting
	io.Stdout get stdout {
	if (_stdout != null) {
	return _stdout;
	}
	_stdout = _stdoutOverride ?? io.stdout;
	_stdout.done.then(
	(void _) { _stdoutDone = true; },
	onError: (Object err, StackTrace st) { _stdoutDone = true; },
	);
	return _stdout;
	}
	io.Stdout _stdout;

	@visibleForTesting
	io.IOSink get stderr {
	if (_stderr != null) {
	return _stderr;
	}
	_stderr = _stderrOverride ?? io.stderr;
	_stderr.done.then(
	(void _) { _stderrDone = true; },
	onError: (Object err, StackTrace st) { _stderrDone = true; },
	);
	return _stderr;
	}
	io.IOSink _stderr;

	bool get hasTerminal => io.stdout.hasTerminal;

	static bool _stdinHasTerminal;

	/// Determines whether there is a terminal attached.
	///
	/// [io.Stdin.hasTerminal] only covers a subset of cases. In this check the
	/// echoMode is toggled on and off to catch cases where the tool running in
	/// a docker container thinks there is an attached terminal. This can cause
	/// runtime errors such as "inappropriate ioctl for device" if not handled.
	bool get stdinHasTerminal {
	if (_stdinHasTerminal != null) {
	return _stdinHasTerminal;
	}
	if (stdin is! io.Stdin) {
	return _stdinHasTerminal = false;
	}
	final io.Stdin ioStdin = stdin as io.Stdin;
	if (!ioStdin.hasTerminal) {
	return _stdinHasTerminal = false;
	}
	try {
	final bool currentEchoMode = ioStdin.echoMode;
	ioStdin.echoMode = !currentEchoMode;
	ioStdin.echoMode = currentEchoMode;
	} on io.StdinException {
	return _stdinHasTerminal = false;
	}
	return _stdinHasTerminal = true;
	}

	int get terminalColumns => hasTerminal ? stdout.terminalColumns : null;
	int get terminalLines => hasTerminal ? stdout.terminalLines : null;
	bool get supportsAnsiEscapes => hasTerminal && stdout.supportsAnsiEscapes;

	/// Writes [message] to [stderr], falling back on [fallback] if the write
	/// throws any exception. The default fallback calls [print] on [message].
	void stderrWrite(
	String message, {
	void Function(String, dynamic, StackTrace) fallback,
	}) {
	if (!_stderrDone) {
	_stdioWrite(stderr, message, fallback: fallback);
	return;
	}
	fallback == null ? print(message) : fallback(
	message,
	const io.StdoutException('stderr is done'),
	StackTrace.current,
	);
	}

	/// Writes [message] to [stdout], falling back on [fallback] if the write
	/// throws any exception. The default fallback calls [print] on [message].
	void stdoutWrite(
	String message, {
	void Function(String, dynamic, StackTrace) fallback,
	}) {
	if (!_stdoutDone) {
	_stdioWrite(stdout, message, fallback: fallback);
	return;
	}
	fallback == null ? print(message) : fallback(
	message,
	const io.StdoutException('stdout is done'),
	StackTrace.current,
	);
	}

	// Helper for [stderrWrite] and [stdoutWrite].
	void _stdioWrite(io.IOSink sink, String message, {
	void Function(String, dynamic, StackTrace) fallback,
	}) {
	asyncGuard<void>(() async {
	sink.write(message);
	}, onError: (Object error, StackTrace stackTrace) {
	if (fallback == null) {
	print(message);
	} else {
	fallback(message, error, stackTrace);
	}
	});
	}

	/// Adds [stream] to [stdout].
	Future<void> addStdoutStream(Stream<List<int>> stream) => stdout.addStream(stream);

	/// Adds [srtream] to [stderr].
	Future<void> addStderrStream(Stream<List<int>> stream) => stderr.addStream(stream);
	}

	// TODO(zra): Move pid and writePidFile into `ProcessInfo`.
	void writePidFile(String pidFile) {
	if (pidFile != null) {
	// Write our pid to the file.
	globals.fs.file(pidFile).writeAsStringSync(io.pid.toString());
	}
	}

	/// An overridable version of io.ProcessInfo.
	abstract class ProcessInfo {
	factory ProcessInfo() => _DefaultProcessInfo();

	static ProcessInfo get instance => context.get<ProcessInfo>();

	int get currentRss;

	int get maxRss;
	}

	ProcessInfo get processInfo => ProcessInfo.instance;

	/// The default implementation of [ProcessInfo], which uses [io.ProcessInfo].
	class _DefaultProcessInfo implements ProcessInfo {
	@override
	int get currentRss => io.ProcessInfo.currentRss;

	@override
	int get maxRss => io.ProcessInfo.maxRss;
	}

	/// The return type for [listNetworkInterfaces].
	class NetworkInterface implements io.NetworkInterface {
	NetworkInterface(this._delegate);

	final io.NetworkInterface _delegate;

	@override
	List<io.InternetAddress> get addresses => _delegate.addresses;

	@override
	int get index => _delegate.index;

	@override
	String get name => _delegate.name;

	@override
	String toString() => "NetworkInterface('$name', $addresses)";
	}

	typedef NetworkInterfaceLister = Future<List<NetworkInterface>> Function({
	bool includeLoopback,
	bool includeLinkLocal,
	io.InternetAddressType type,
	});

	NetworkInterfaceLister _networkInterfaceListerOverride;

	// Tests can set up a non-default network interface lister.
	@visibleForTesting
	void setNetworkInterfaceLister(NetworkInterfaceLister lister) {
	_networkInterfaceListerOverride = lister;
	}

	@visibleForTesting
	void resetNetworkInterfaceLister() {
	_networkInterfaceListerOverride = null;
	}

	/// This calls [NetworkInterface.list] from `dart:io` unless it is overridden by
	/// [setNetworkInterfaceLister] for a test. If it is overridden for a test,
	/// it should be reset with [resetNetworkInterfaceLister].
	Future<List<NetworkInterface>> listNetworkInterfaces({
	bool includeLoopback = false,
	bool includeLinkLocal = false,
	io.InternetAddressType type = io.InternetAddressType.any,
	}) async {
	if (_networkInterfaceListerOverride != null) {
	return _networkInterfaceListerOverride(
	includeLoopback: includeLoopback,
	includeLinkLocal: includeLinkLocal,
	type: type,
	);
	}
	final List<io.NetworkInterface> interfaces = await io.NetworkInterface.list(
	includeLoopback: includeLoopback,
	includeLinkLocal: includeLinkLocal,
	type: type,
	);
	return interfaces.map(
	(io.NetworkInterface interface) => NetworkInterface(interface),
	).toList();
	}