packages/flutter_tools/lib/src/base/os.dart - external/github.com/flutter/flutter - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'package:archive/archive.dart';
 import 'context.dart';
 import 'file_system.dart';
 import 'io.dart';
 import 'platform.dart';
 import 'process.dart';
 import 'process_manager.dart';

 /// Returns [OperatingSystemUtils] active in the current app context (i.e. zone).
 OperatingSystemUtils get os => context[OperatingSystemUtils];

 abstract class OperatingSystemUtils {
   factory OperatingSystemUtils() {
     if (platform.isWindows) {
       return new _WindowsUtils();
     } else {
       return new _PosixUtils();
     }
   }

   OperatingSystemUtils._private();

   /// Make the given file executable. This may be a no-op on some platforms.
   ProcessResult makeExecutable(File file);

   /// Return the path (with symlinks resolved) to the given executable, or null
   /// if `which` was not able to locate the binary.
   File which(String execName) {
     final List<File> result = _which(execName);
     if (result == null || result.isEmpty)
       return null;
     return result.first;
   }

   /// Return a list of all paths to `execName` found on the system. Uses the
   /// PATH environment variable.
   List<File> whichAll(String execName) => _which(execName, all: true);

   /// Return the File representing a new pipe.
   File makePipe(String path);

   void zip(Directory data, File zipFile);

   void unzip(File file, Directory targetDirectory);

   /// Returns true if the ZIP is not corrupt.
   bool verifyZip(File file);

   void unpack(File gzippedTarFile, Directory targetDirectory);

   /// Returns true if the gzip is not corrupt (does not check tar).
   bool verifyGzip(File gzippedFile);

   /// Returns a pretty name string for the current operating system.
   ///
   /// If available, the detailed version of the OS is included.
   String get name {
     const Map<String, String> osNames = const <String, String>{
       'macos': 'Mac OS',
       'linux': 'Linux',
       'windows': 'Windows'
     };
     final String osName = platform.operatingSystem;
     return osNames.containsKey(osName) ? osNames[osName] : osName;
   }

   List<File> _which(String execName, {bool all: false});

   /// Returns the separator between items in the PATH environment variable.
   String get pathVarSeparator;
 }

 class _PosixUtils extends OperatingSystemUtils {
   _PosixUtils() : super._private();

   @override
   ProcessResult makeExecutable(File file) {
     return processManager.runSync(<String>['chmod', 'a+x', file.path]);
   }

   @override
   List<File> _which(String execName, {bool all: false}) {
     final List<String> command = <String>['which'];
     if (all)
       command.add('-a');
     command.add(execName);
     final ProcessResult result = processManager.runSync(command);
     if (result.exitCode != 0)
       return const <File>[];
     return result.stdout.trim().split('\n').map((String path) => fs.file(path.trim())).toList();
   }

   @override
   void zip(Directory data, File zipFile) {
     runSync(<String>['zip', '-r', '-q', zipFile.path, '.'], workingDirectory: data.path);
   }

   // unzip -o -q zipfile -d dest
   @override
   void unzip(File file, Directory targetDirectory) {
     runSync(<String>['unzip', '-o', '-q', file.path, '-d', targetDirectory.path]);
   }

   @override
   bool verifyZip(File zipFile) => exitsHappy(<String>['zip', '-T', zipFile.path]);

   // tar -xzf tarball -C dest
   @override
   void unpack(File gzippedTarFile, Directory targetDirectory) {
     runSync(<String>['tar', '-xzf', gzippedTarFile.path, '-C', targetDirectory.path]);
   }

   @override
   bool verifyGzip(File gzippedFile) => exitsHappy(<String>['gzip', '-t', gzippedFile.path]);

   @override
   File makePipe(String path) {
     runSync(<String>['mkfifo', path]);
     return fs.file(path);
   }

   String _name;

   @override
   String get name {
     if (_name == null) {
       if (platform.isMacOS) {
         final List<ProcessResult> results = <ProcessResult>[
           processManager.runSync(<String>['sw_vers', '-productName']),
           processManager.runSync(<String>['sw_vers', '-productVersion']),
           processManager.runSync(<String>['sw_vers', '-buildVersion']),
         ];
         if (results.every((ProcessResult result) => result.exitCode == 0)) {
           _name = '${results[0].stdout.trim()} ${results[1].stdout
               .trim()} ${results[2].stdout.trim()}';
         }
       }
       _name ??= super.name;
     }
     return _name;
   }

   @override
   String get pathVarSeparator => ':';
 }

 class _WindowsUtils extends OperatingSystemUtils {
   _WindowsUtils() : super._private();

   // This is a no-op.
   @override
   ProcessResult makeExecutable(File file) {
     return new ProcessResult(0, 0, null, null);
   }

   @override
   List<File> _which(String execName, {bool all: false}) {
     // `where` always returns all matches, not just the first one.
     final ProcessResult result = processManager.runSync(<String>['where', execName]);
     if (result.exitCode != 0)
       return const <File>[];
     final List<String> lines = result.stdout.trim().split('\n');
     if (all)
       return lines.map((String path) => fs.file(path.trim())).toList();
     return <File>[fs.file(lines.first.trim())];
   }

   @override
   void zip(Directory data, File zipFile) {
     final Archive archive = new Archive();
     for (FileSystemEntity entity in data.listSync(recursive: true)) {
       if (entity is! File) {
         continue;
       }
       final File file = entity;
       final String path = file.fileSystem.path.relative(file.path, from: data.path);
       final List<int> bytes = file.readAsBytesSync();
       archive.addFile(new ArchiveFile(path, bytes.length, bytes));
     }
     zipFile.writeAsBytesSync(new ZipEncoder().encode(archive), flush: true);
   }

   @override
   void unzip(File file, Directory targetDirectory) {
     final Archive archive = new ZipDecoder().decodeBytes(file.readAsBytesSync());
     _unpackArchive(archive, targetDirectory);
   }

   @override
   bool verifyZip(File zipFile) {
     try {
       new ZipDecoder().decodeBytes(zipFile.readAsBytesSync(), verify: true);
     } on FileSystemException catch (_) {
       return false;
     } on ArchiveException catch (_) {
       return false;
     }
     return true;
   }

   @override
   void unpack(File gzippedTarFile, Directory targetDirectory) {
     final Archive archive = new TarDecoder().decodeBytes(
       new GZipDecoder().decodeBytes(gzippedTarFile.readAsBytesSync()),
     );
     _unpackArchive(archive, targetDirectory);
   }

   @override
   bool verifyGzip(File gzipFile) {
     try {
       new GZipDecoder().decodeBytes(gzipFile.readAsBytesSync(), verify: true);
     } on FileSystemException catch (_) {
       return false;
     } on ArchiveException catch (_) {
       return false;
     }
     return true;
   }

   void _unpackArchive(Archive archive, Directory targetDirectory) {
     for (ArchiveFile archiveFile in archive.files) {
       // The archive package doesn't correctly set isFile.
       if (!archiveFile.isFile || archiveFile.name.endsWith('/'))
         continue;

       final File destFile = fs.file(fs.path.join(targetDirectory.path, archiveFile.name));
       if (!destFile.parent.existsSync())
         destFile.parent.createSync(recursive: true);
       destFile.writeAsBytesSync(archiveFile.content);
     }
   }

   @override
   File makePipe(String path) {
     throw new UnsupportedError('makePipe is not implemented on Windows.');
   }

   String _name;

   @override
   String get name {
     if (_name == null) {
       final ProcessResult result = processManager.runSync(
           <String>['ver'], runInShell: true);
       if (result.exitCode == 0)
         _name = result.stdout.trim();
       else
         _name = super.name;
     }
     return _name;
   }

   @override
   String get pathVarSeparator => ';';
 }

 /// Find and return the project root directory relative to the specified
 /// directory or the current working directory if none specified.
 /// Return null if the project root could not be found
 /// or if the project root is the flutter repository root.
 String findProjectRoot([String directory]) {
   const String kProjectRootSentinel = 'pubspec.yaml';
   directory ??= fs.currentDirectory.path;
   while (true) {
     if (fs.isFileSync(fs.path.join(directory, kProjectRootSentinel)))
       return directory;
     final String parent = fs.path.dirname(directory);
     if (directory == parent)
       return null;
     directory = parent;
   }
 }
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'package:archive/archive.dart';
	import 'context.dart';
	import 'file_system.dart';
	import 'io.dart';
	import 'platform.dart';
	import 'process.dart';
	import 'process_manager.dart';

	/// Returns [OperatingSystemUtils] active in the current app context (i.e. zone).
	OperatingSystemUtils get os => context[OperatingSystemUtils];

	abstract class OperatingSystemUtils {
	factory OperatingSystemUtils() {
	if (platform.isWindows) {
	return new _WindowsUtils();
	} else {
	return new _PosixUtils();
	}
	}

	OperatingSystemUtils._private();

	/// Make the given file executable. This may be a no-op on some platforms.
	ProcessResult makeExecutable(File file);

	/// Return the path (with symlinks resolved) to the given executable, or null
	/// if `which` was not able to locate the binary.
	File which(String execName) {
	final List<File> result = _which(execName);
	if (result == null \|\| result.isEmpty)
	return null;
	return result.first;
	}

	/// Return a list of all paths to `execName` found on the system. Uses the
	/// PATH environment variable.
	List<File> whichAll(String execName) => _which(execName, all: true);

	/// Return the File representing a new pipe.
	File makePipe(String path);

	void zip(Directory data, File zipFile);

	void unzip(File file, Directory targetDirectory);

	/// Returns true if the ZIP is not corrupt.
	bool verifyZip(File file);

	void unpack(File gzippedTarFile, Directory targetDirectory);

	/// Returns true if the gzip is not corrupt (does not check tar).
	bool verifyGzip(File gzippedFile);

	/// Returns a pretty name string for the current operating system.
	///
	/// If available, the detailed version of the OS is included.
	String get name {
	const Map<String, String> osNames = const <String, String>{
	'macos': 'Mac OS',
	'linux': 'Linux',
	'windows': 'Windows'
	};
	final String osName = platform.operatingSystem;
	return osNames.containsKey(osName) ? osNames[osName] : osName;
	}

	List<File> _which(String execName, {bool all: false});

	/// Returns the separator between items in the PATH environment variable.
	String get pathVarSeparator;
	}

	class _PosixUtils extends OperatingSystemUtils {
	_PosixUtils() : super._private();

	@override
	ProcessResult makeExecutable(File file) {
	return processManager.runSync(<String>['chmod', 'a+x', file.path]);
	}

	@override
	List<File> _which(String execName, {bool all: false}) {
	final List<String> command = <String>['which'];
	if (all)
	command.add('-a');
	command.add(execName);
	final ProcessResult result = processManager.runSync(command);
	if (result.exitCode != 0)
	return const <File>[];
	return result.stdout.trim().split('\n').map((String path) => fs.file(path.trim())).toList();
	}

	@override
	void zip(Directory data, File zipFile) {
	runSync(<String>['zip', '-r', '-q', zipFile.path, '.'], workingDirectory: data.path);
	}

	// unzip -o -q zipfile -d dest
	@override
	void unzip(File file, Directory targetDirectory) {
	runSync(<String>['unzip', '-o', '-q', file.path, '-d', targetDirectory.path]);
	}

	@override
	bool verifyZip(File zipFile) => exitsHappy(<String>['zip', '-T', zipFile.path]);

	// tar -xzf tarball -C dest
	@override
	void unpack(File gzippedTarFile, Directory targetDirectory) {
	runSync(<String>['tar', '-xzf', gzippedTarFile.path, '-C', targetDirectory.path]);
	}

	@override
	bool verifyGzip(File gzippedFile) => exitsHappy(<String>['gzip', '-t', gzippedFile.path]);

	@override
	File makePipe(String path) {
	runSync(<String>['mkfifo', path]);
	return fs.file(path);
	}

	String _name;

	@override
	String get name {
	if (_name == null) {
	if (platform.isMacOS) {
	final List<ProcessResult> results = <ProcessResult>[
	processManager.runSync(<String>['sw_vers', '-productName']),
	processManager.runSync(<String>['sw_vers', '-productVersion']),
	processManager.runSync(<String>['sw_vers', '-buildVersion']),
	];
	if (results.every((ProcessResult result) => result.exitCode == 0)) {
	_name = '${results[0].stdout.trim()} ${results[1].stdout
	.trim()} ${results[2].stdout.trim()}';
	}
	}
	_name ??= super.name;
	}
	return _name;
	}

	@override
	String get pathVarSeparator => ':';
	}

	class _WindowsUtils extends OperatingSystemUtils {
	_WindowsUtils() : super._private();

	// This is a no-op.
	@override
	ProcessResult makeExecutable(File file) {
	return new ProcessResult(0, 0, null, null);
	}

	@override
	List<File> _which(String execName, {bool all: false}) {
	// `where` always returns all matches, not just the first one.
	final ProcessResult result = processManager.runSync(<String>['where', execName]);
	if (result.exitCode != 0)
	return const <File>[];
	final List<String> lines = result.stdout.trim().split('\n');
	if (all)
	return lines.map((String path) => fs.file(path.trim())).toList();
	return <File>[fs.file(lines.first.trim())];
	}

	@override
	void zip(Directory data, File zipFile) {
	final Archive archive = new Archive();
	for (FileSystemEntity entity in data.listSync(recursive: true)) {
	if (entity is! File) {
	continue;
	}
	final File file = entity;
	final String path = file.fileSystem.path.relative(file.path, from: data.path);
	final List<int> bytes = file.readAsBytesSync();
	archive.addFile(new ArchiveFile(path, bytes.length, bytes));
	}
	zipFile.writeAsBytesSync(new ZipEncoder().encode(archive), flush: true);
	}

	@override
	void unzip(File file, Directory targetDirectory) {
	final Archive archive = new ZipDecoder().decodeBytes(file.readAsBytesSync());
	_unpackArchive(archive, targetDirectory);
	}

	@override
	bool verifyZip(File zipFile) {
	try {
	new ZipDecoder().decodeBytes(zipFile.readAsBytesSync(), verify: true);
	} on FileSystemException catch (_) {
	return false;
	} on ArchiveException catch (_) {
	return false;
	}
	return true;
	}

	@override
	void unpack(File gzippedTarFile, Directory targetDirectory) {
	final Archive archive = new TarDecoder().decodeBytes(
	new GZipDecoder().decodeBytes(gzippedTarFile.readAsBytesSync()),
	);
	_unpackArchive(archive, targetDirectory);
	}

	@override
	bool verifyGzip(File gzipFile) {
	try {
	new GZipDecoder().decodeBytes(gzipFile.readAsBytesSync(), verify: true);
	} on FileSystemException catch (_) {
	return false;
	} on ArchiveException catch (_) {
	return false;
	}
	return true;
	}

	void _unpackArchive(Archive archive, Directory targetDirectory) {
	for (ArchiveFile archiveFile in archive.files) {
	// The archive package doesn't correctly set isFile.
	if (!archiveFile.isFile \|\| archiveFile.name.endsWith('/'))
	continue;

	final File destFile = fs.file(fs.path.join(targetDirectory.path, archiveFile.name));
	if (!destFile.parent.existsSync())
	destFile.parent.createSync(recursive: true);
	destFile.writeAsBytesSync(archiveFile.content);
	}
	}

	@override
	File makePipe(String path) {
	throw new UnsupportedError('makePipe is not implemented on Windows.');
	}

	String _name;

	@override
	String get name {
	if (_name == null) {
	final ProcessResult result = processManager.runSync(
	<String>['ver'], runInShell: true);
	if (result.exitCode == 0)
	_name = result.stdout.trim();
	else
	_name = super.name;
	}
	return _name;
	}

	@override
	String get pathVarSeparator => ';';
	}

	/// Find and return the project root directory relative to the specified
	/// directory or the current working directory if none specified.
	/// Return null if the project root could not be found
	/// or if the project root is the flutter repository root.
	String findProjectRoot([String directory]) {
	const String kProjectRootSentinel = 'pubspec.yaml';
	directory ??= fs.currentDirectory.path;
	while (true) {
	if (fs.isFileSync(fs.path.join(directory, kProjectRootSentinel)))
	return directory;
	final String parent = fs.path.dirname(directory);
	if (directory == parent)
	return null;
	directory = parent;
	}
	}