runtime/tests/vm/dart_2/hello_fuchsia_test.dart - sdk.git - Git at Google

 // Copyright (c) 2016, 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.

 // @dart = 2.9

 import "dart:async";
 import "dart:convert";
 import "dart:io";

 testAddressParse() async {
   print(new InternetAddress("1.0.2.3").rawAddress);
   print(new InternetAddress("1.0.2.3").type);

   print(new InternetAddress("::1").rawAddress);
   print(new InternetAddress("::1").type);

   try {
     print(new InternetAddress("localhost"));
   } catch (e) {
     print(e);
   }
 }

 testSimpleBind() async {
   var s = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
   print("port = ${s.port}");
   await s.close();
 }

 testSimpleConnect() async {
   var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
   print("server port = ${server.port}");
   server.listen((socket) {
     print("listen socket port = ${socket.port}");
     socket.close();
   });
   var socket = await RawSocket.connect("127.0.0.1", server.port);
   print("socket port = ${socket.port}");
   if (socket.remoteAddress.address != "127.0.0.1" ||
       socket.remoteAddress.type != InternetAddressType.IP_V4) {
     throw "Bad remote address ${socket.remoteAddress}";
   }
   if (socket.remotePort is! int) {
     throw "Bad remote port ${socket.remotePort}";
   }
   await server.close();
   await socket.close();
 }

 testSimpleReadWriteClose() async {
   // This test creates a server and a client connects. The client then
   // writes and the server echos. When the client finishes fully reading the
   // echo, it closes the socket. When the server receives the close event, it
   // closes its end of the socket too.

   const messageSize = 1000;
   int serverReadCount = 0;
   int clientReadCount = 0;

   List<int> createTestData() {
     return new List<int>.generate(messageSize, (index) => index & 0xff);
   }

   void verifyTestData(List<int> data) {
     assert(messageSize == data.length);
     List<int> expected = createTestData();
     for (int i = 0; i < messageSize; i++) {
       assert(expected[i] == data[i]);
     }
   }

   var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
   server.listen((client) {
     int bytesRead = 0;
     int bytesWritten = 0;
     bool closedEventReceived = false;
     List<int> data = new List<int>(messageSize);
     bool doneReading = false;

     client.writeEventsEnabled = false;
     client.listen((event) {
       switch (event) {
         case RawSocketEvent.READ:
           if (doneReading) {
             break;
           }
           print("client READ event bytesRead = $bytesRead");
           assert(bytesWritten == 0);
           assert(client.available() > 0);
           var buffer = client.read(200);
           print("client READ event: read ${buffer.length} more bytes");
           data.setRange(bytesRead, bytesRead + buffer.length, buffer);
           bytesRead += buffer.length;
           if (bytesRead == data.length) {
             verifyTestData(data);
             print("client READ event. Done reading, enabling writes");
             client.writeEventsEnabled = true;
             doneReading = true;
           }
           break;
         case RawSocketEvent.WRITE:
           assert(!client.writeEventsEnabled);
           bytesWritten +=
               client.write(data, bytesWritten, data.length - bytesWritten);
           print("client WRITE event: $bytesWritten written");
           if (bytesWritten < data.length) {
             client.writeEventsEnabled = true;
           }
           if (bytesWritten == data.length) {
             print("client WRITE event: done writing.");
           }
           break;
         case RawSocketEvent.READ_CLOSED:
           print("client READ_CLOSED event");
           client.close();
           server.close();
           break;
         case RawSocketEvent.CLOSED:
           assert(!closedEventReceived);
           print("client CLOSED event");
           closedEventReceived = true;
           break;
         default:
           throw "Unexpected event $event";
       }
     }, onError: (e) {
       print("client ERROR $e");
     }, onDone: () {
       assert(closedEventReceived);
     });
   });

   {
     var completer = new Completer();
     var socket = await RawSocket.connect("127.0.0.1", server.port);
     int bytesRead = 0;
     int bytesWritten = 0;
     bool closedEventReceived = false;
     List<int> data = createTestData();

     socket.listen((event) {
       switch (event) {
         case RawSocketEvent.READ:
           assert(socket.available() > 0);
           print("server READ event: ${bytesRead} read");
           var buffer = socket.read();
           print("server READ event: read ${buffer.length} more bytes");
           data.setRange(bytesRead, bytesRead + buffer.length, buffer);
           bytesRead += buffer.length;
           if (bytesRead == messageSize) {
             print("server READ event: done reading");
             socket.close();
           }
           break;
         case RawSocketEvent.WRITE:
           assert(bytesRead == 0);
           assert(!socket.writeEventsEnabled);
           bytesWritten +=
               socket.write(data, bytesWritten, data.length - bytesWritten);
           print("server WRITE event: ${bytesWritten} written");
           if (bytesWritten < data.length) {
             socket.writeEventsEnabled = true;
           } else {
             print("server WRITE event: done writing");
             data = new List<int>(messageSize);
           }
           break;
         case RawSocketEvent.READ_CLOSED:
           print("server READ_CLOSED event");
           verifyTestData(data);
           socket.close();
           break;
         case RawSocketEvent.CLOSED:
           assert(!closedEventReceived);
           print("server CLOSED event");
           closedEventReceived = true;
           break;
         default:
           throw "Unexpected event $event";
       }
     }, onError: (e) {
       print("server ERROR $e");
     }, onDone: () {
       assert(closedEventReceived);
       completer.complete(null);
     });

     return completer.future;
   }
 }

 testSimpleReadWriteShutdown({bool dropReads}) async {
   // This test creates a server and a client connects. The client then
   // writes and the server echos. When the server has finished its
   // echo it half-closes. When the client gets the close event is
   // closes fully.

   const messageSize = 1000;
   int serverReadCount = 0;
   int clientReadCount = 0;

   List<int> createTestData() {
     return new List<int>.generate(messageSize, (index) => index & 0xff);
   }

   void verifyTestData(List<int> data) {
     assert(messageSize == data.length);
     List<int> expected = createTestData();
     for (int i = 0; i < messageSize; i++) {
       assert(expected[i] == data[i]);
     }
   }

   var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
   server.listen((client) {
     int bytesRead = 0;
     int bytesWritten = 0;
     bool closedEventReceived = false;
     List<int> data = new List<int>(messageSize);
     bool doneReading = false;

     client.writeEventsEnabled = false;
     client.listen((event) {
       switch (event) {
         case RawSocketEvent.READ:
           if (doneReading) {
             break;
           }
           if (dropReads) {
             if (serverReadCount != 10) {
               serverReadCount++;
               break;
             } else {
               serverReadCount = 0;
             }
           }
           print("client READ event bytesRead = $bytesRead");
           assert(bytesWritten == 0);
           assert(client.available() > 0);
           var buffer = client.read(200);
           print("client READ event: read ${buffer.length} more bytes");
           data.setRange(bytesRead, bytesRead + buffer.length, buffer);
           bytesRead += buffer.length;
           if (bytesRead == data.length) {
             verifyTestData(data);
             print("client READ event. Done reading, enabling writes");
             client.writeEventsEnabled = true;
             doneReading = true;
           }
           break;
         case RawSocketEvent.WRITE:
           assert(!client.writeEventsEnabled);
           bytesWritten +=
               client.write(data, bytesWritten, data.length - bytesWritten);
           print("client WRITE event: $bytesWritten written");
           if (bytesWritten < data.length) {
             client.writeEventsEnabled = true;
           }
           if (bytesWritten == data.length) {
             print("client WRITE event: done writing.");
             client.shutdown(SocketDirection.SEND);
           }
           break;
         case RawSocketEvent.READ_CLOSED:
           print("client READ_CLOSED event");
           server.close();
           break;
         case RawSocketEvent.CLOSED:
           assert(!closedEventReceived);
           print("client CLOSED event");
           closedEventReceived = true;
           break;
         default:
           throw "Unexpected event $event";
       }
     }, onDone: () {
       assert(closedEventReceived);
     });
   });

   {
     var completer = new Completer();
     var socket = await RawSocket.connect("127.0.0.1", server.port);
     int bytesRead = 0;
     int bytesWritten = 0;
     bool closedEventReceived = false;
     List<int> data = createTestData();

     socket.listen((event) {
       switch (event) {
         case RawSocketEvent.READ:
           assert(socket.available() > 0);
           if (dropReads) {
             if (clientReadCount != 10) {
               clientReadCount++;
               break;
             } else {
               clientReadCount = 0;
             }
           }
           print("server READ event: ${bytesRead} read");
           var buffer = socket.read();
           print("server READ event: read ${buffer.length} more bytes");
           data.setRange(bytesRead, bytesRead + buffer.length, buffer);
           bytesRead += buffer.length;
           break;
         case RawSocketEvent.WRITE:
           assert(bytesRead == 0);
           assert(!socket.writeEventsEnabled);
           bytesWritten +=
               socket.write(data, bytesWritten, data.length - bytesWritten);
           print("server WRITE event: ${bytesWritten} written");
           if (bytesWritten < data.length) {
             socket.writeEventsEnabled = true;
           } else {
             print("server WRITE event: done writing");
             data = new List<int>(messageSize);
           }
           break;
         case RawSocketEvent.READ_CLOSED:
           print("server READ_CLOSED event");
           verifyTestData(data);
           socket.close();
           break;
         case RawSocketEvent.CLOSED:
           assert(!closedEventReceived);
           print("server CLOSED event");
           closedEventReceived = true;
           break;
         default:
           throw "Unexpected event $event";
       }
     }, onDone: () {
       assert(closedEventReceived);
       completer.complete(null);
     });

     return completer.future;
   }
 }

 Future testProcess() async {
   String exe = Platform.resolvedExecutable;
   print("Running $exe --version");
   Process p = await Process.start(exe, ["--version"]);
   p.stderr.transform(utf8.decoder).listen(print);
   int code = await p.exitCode;
   print("$exe --version exited with code $code");
 }

 void testProcessRunSync() {
   String exe = Platform.resolvedExecutable;
   print("Running $exe --version");
   var result = Process.runSync(exe, ["--version"]);
   print("$exe --version exited with code ${result.exitCode}");
   print("$exe --version had stdout = '${result.stdout}'");
   print("$exe --version had stderr = '${result.stderr}'");
 }

 Future testKill() async {
   String exe = Platform.resolvedExecutable;
   String script = Platform.script.path;
   print("Running $exe $script");
   Process p = await Process.start(exe, [script, "infinite-loop"]);
   await new Future.delayed(const Duration(seconds: 1));
   p.kill();
   int code = await p.exitCode;
   print("$exe $script exited with code $code");
 }

 Future testLs(String path) async {
   Stream<FileSystemEntity> stream = (new Directory(path)).list();
   await for (FileSystemEntity fse in stream) {
     print(fse.path);
   }
 }

 void testPlatformEnvironment() {
   Map<String, String> env = Platform.environment;
   for (String k in env.keys) {
     String v = env[k];
     print("$k = '$v'");
   }
 }

 Future testCopy() async {
   final String sourceName = "foo";
   final String destName = "bar";
   Directory tmp = await Directory.systemTemp.createTemp("testCopy");
   File sourceFile = new File("${tmp.path}/$sourceName");
   File destFile = new File("${tmp.path}/$destName");
   List<int> data = new List<int>.generate(10 * 1024, (int i) => i & 0xff);
   await sourceFile.writeAsBytes(data);
   await sourceFile.copy(destFile.path);
   List<int> resultData = await destFile.readAsBytes();
   assert(data.length == resultData.length);
   for (int i = 0; i < data.length; i++) {
     assert(data[i] == resultData[i]);
   }
   await sourceFile.delete();
   await destFile.delete();
   await tmp.delete();
 }

 Future testRecursiveDelete() async {
   Directory tmp0 = await Directory.systemTemp.createTemp("testRD");
   Directory tmp1 = await tmp0.createTemp("testRD");
   Directory tmp2 = await tmp1.createTemp("testRD");
   File file0 = new File("${tmp0.path}/file");
   File file1 = new File("${tmp1.path}/file");
   File file2 = new File("${tmp2.path}/file");
   List<int> data = new List<int>.generate(10 * 1024, (int i) => i & 0xff);
   await file0.writeAsBytes(data);
   await file1.writeAsBytes(data);
   await file2.writeAsBytes(data);

   await tmp0.delete(recursive: true);

   assert(!await file2.exists());
   assert(!await file1.exists());
   assert(!await file0.exists());
   assert(!await tmp2.exists());
   assert(!await tmp1.exists());
   assert(!await tmp0.exists());
 }

 bool testFileOpenDirectoryFails() {
   File dir = new File(Directory.systemTemp.path);
   try {
     dir.openSync();
   } on FileSystemException catch (e) {
     return true;
   } catch (e) {
     print("Unexpected Exception: $e");
     return false;
   }
 }


 Future testListInterfaces() async {
   List<NetworkInterface> interfaces = await NetworkInterface.list();
   print('Found ${interfaces.length} interfaces:');
   for (var iface in interfaces) {
     print('\t$iface');
   }
 }

 main(List<String> args) async {
   if (args.length >= 1) {
     if (args[0] == "infinite-loop") {
       while (true);
     }
   }

   print("Hello, Fuchsia!");

   print("testAddressParse");
   await testAddressParse();
   print("testAddressParse done");

   print("testSimpleBind");
   await testSimpleBind();
   print("testSimpleBind done");

   print("testSimpleConnect");
   await testSimpleConnect();
   print("testSimpleConnect done");

   print("testSimpleReadWriteClose");
   await testSimpleReadWriteClose();
   print("testSimpleReadWriteClose done");

   print("testSimpleReadWriteShutdown");
   await testSimpleReadWriteShutdown(dropReads: false);
   print("testSimpleReadWriteShutdown done");

   print("lsTest");
   await testLs("/");
   print("lsTest done");

   print("testPlatformEnvironment");
   testPlatformEnvironment();
   print("testPlatformEnvironment done");

   print("testProcess");
   await testProcess();
   print("testProcess done");

   print("testProcessRunSync");
   testProcessRunSync();
   print("testProcessRunSync done");

   print("testKill");
   await testKill();
   print("testKill done");

   print("testCopy");
   await testCopy();
   print("testCopy done");

   print("testRecursiveDelete");
   await testRecursiveDelete();
   print("testRecursiveDelete done");

   print("testFileOpenDirectoryFails");
   bool result = testFileOpenDirectoryFails();
   if (result) {
     print("testFileOpenDirectoryFails done");
   } else {
     print("testFileOpenDirectoryFails FAILED");
   }

   print('testListInterfaces');
   await testListInterfaces();
   print('testListInterfaces done');

   print("Goodbyte, Fuchsia!");
 }
	// Copyright (c) 2016, 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.

	// @dart = 2.9

	import "dart:async";
	import "dart:convert";
	import "dart:io";

	testAddressParse() async {
	print(new InternetAddress("1.0.2.3").rawAddress);
	print(new InternetAddress("1.0.2.3").type);

	print(new InternetAddress("::1").rawAddress);
	print(new InternetAddress("::1").type);

	try {
	print(new InternetAddress("localhost"));
	} catch (e) {
	print(e);
	}
	}

	testSimpleBind() async {
	var s = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
	print("port = ${s.port}");
	await s.close();
	}

	testSimpleConnect() async {
	var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
	print("server port = ${server.port}");
	server.listen((socket) {
	print("listen socket port = ${socket.port}");
	socket.close();
	});
	var socket = await RawSocket.connect("127.0.0.1", server.port);
	print("socket port = ${socket.port}");
	if (socket.remoteAddress.address != "127.0.0.1" \|\|
	socket.remoteAddress.type != InternetAddressType.IP_V4) {
	throw "Bad remote address ${socket.remoteAddress}";
	}
	if (socket.remotePort is! int) {
	throw "Bad remote port ${socket.remotePort}";
	}
	await server.close();
	await socket.close();
	}

	testSimpleReadWriteClose() async {
	// This test creates a server and a client connects. The client then
	// writes and the server echos. When the client finishes fully reading the
	// echo, it closes the socket. When the server receives the close event, it
	// closes its end of the socket too.

	const messageSize = 1000;
	int serverReadCount = 0;
	int clientReadCount = 0;

	List<int> createTestData() {
	return new List<int>.generate(messageSize, (index) => index & 0xff);
	}

	void verifyTestData(List<int> data) {
	assert(messageSize == data.length);
	List<int> expected = createTestData();
	for (int i = 0; i < messageSize; i++) {
	assert(expected[i] == data[i]);
	}
	}

	var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
	server.listen((client) {
	int bytesRead = 0;
	int bytesWritten = 0;
	bool closedEventReceived = false;
	List<int> data = new List<int>(messageSize);
	bool doneReading = false;

	client.writeEventsEnabled = false;
	client.listen((event) {
	switch (event) {
	case RawSocketEvent.READ:
	if (doneReading) {
	break;
	}
	print("client READ event bytesRead = $bytesRead");
	assert(bytesWritten == 0);
	assert(client.available() > 0);
	var buffer = client.read(200);
	print("client READ event: read ${buffer.length} more bytes");
	data.setRange(bytesRead, bytesRead + buffer.length, buffer);
	bytesRead += buffer.length;
	if (bytesRead == data.length) {
	verifyTestData(data);
	print("client READ event. Done reading, enabling writes");
	client.writeEventsEnabled = true;
	doneReading = true;
	}
	break;
	case RawSocketEvent.WRITE:
	assert(!client.writeEventsEnabled);
	bytesWritten +=
	client.write(data, bytesWritten, data.length - bytesWritten);
	print("client WRITE event: $bytesWritten written");
	if (bytesWritten < data.length) {
	client.writeEventsEnabled = true;
	}
	if (bytesWritten == data.length) {
	print("client WRITE event: done writing.");
	}
	break;
	case RawSocketEvent.READ_CLOSED:
	print("client READ_CLOSED event");
	client.close();
	server.close();
	break;
	case RawSocketEvent.CLOSED:
	assert(!closedEventReceived);
	print("client CLOSED event");
	closedEventReceived = true;
	break;
	default:
	throw "Unexpected event $event";
	}
	}, onError: (e) {
	print("client ERROR $e");
	}, onDone: () {
	assert(closedEventReceived);
	});
	});

	{
	var completer = new Completer();
	var socket = await RawSocket.connect("127.0.0.1", server.port);
	int bytesRead = 0;
	int bytesWritten = 0;
	bool closedEventReceived = false;
	List<int> data = createTestData();

	socket.listen((event) {
	switch (event) {
	case RawSocketEvent.READ:
	assert(socket.available() > 0);
	print("server READ event: ${bytesRead} read");
	var buffer = socket.read();
	print("server READ event: read ${buffer.length} more bytes");
	data.setRange(bytesRead, bytesRead + buffer.length, buffer);
	bytesRead += buffer.length;
	if (bytesRead == messageSize) {
	print("server READ event: done reading");
	socket.close();
	}
	break;
	case RawSocketEvent.WRITE:
	assert(bytesRead == 0);
	assert(!socket.writeEventsEnabled);
	bytesWritten +=
	socket.write(data, bytesWritten, data.length - bytesWritten);
	print("server WRITE event: ${bytesWritten} written");
	if (bytesWritten < data.length) {
	socket.writeEventsEnabled = true;
	} else {
	print("server WRITE event: done writing");
	data = new List<int>(messageSize);
	}
	break;
	case RawSocketEvent.READ_CLOSED:
	print("server READ_CLOSED event");
	verifyTestData(data);
	socket.close();
	break;
	case RawSocketEvent.CLOSED:
	assert(!closedEventReceived);
	print("server CLOSED event");
	closedEventReceived = true;
	break;
	default:
	throw "Unexpected event $event";
	}
	}, onError: (e) {
	print("server ERROR $e");
	}, onDone: () {
	assert(closedEventReceived);
	completer.complete(null);
	});

	return completer.future;
	}
	}

	testSimpleReadWriteShutdown({bool dropReads}) async {
	// This test creates a server and a client connects. The client then
	// writes and the server echos. When the server has finished its
	// echo it half-closes. When the client gets the close event is
	// closes fully.

	const messageSize = 1000;
	int serverReadCount = 0;
	int clientReadCount = 0;

	List<int> createTestData() {
	return new List<int>.generate(messageSize, (index) => index & 0xff);
	}

	void verifyTestData(List<int> data) {
	assert(messageSize == data.length);
	List<int> expected = createTestData();
	for (int i = 0; i < messageSize; i++) {
	assert(expected[i] == data[i]);
	}
	}

	var server = await RawServerSocket.bind(InternetAddress.LOOPBACK_IP_V4, 0);
	server.listen((client) {
	int bytesRead = 0;
	int bytesWritten = 0;
	bool closedEventReceived = false;
	List<int> data = new List<int>(messageSize);
	bool doneReading = false;

	client.writeEventsEnabled = false;
	client.listen((event) {
	switch (event) {
	case RawSocketEvent.READ:
	if (doneReading) {
	break;
	}
	if (dropReads) {
	if (serverReadCount != 10) {
	serverReadCount++;
	break;
	} else {
	serverReadCount = 0;
	}
	}
	print("client READ event bytesRead = $bytesRead");
	assert(bytesWritten == 0);
	assert(client.available() > 0);
	var buffer = client.read(200);
	print("client READ event: read ${buffer.length} more bytes");
	data.setRange(bytesRead, bytesRead + buffer.length, buffer);
	bytesRead += buffer.length;
	if (bytesRead == data.length) {
	verifyTestData(data);
	print("client READ event. Done reading, enabling writes");
	client.writeEventsEnabled = true;
	doneReading = true;
	}
	break;
	case RawSocketEvent.WRITE:
	assert(!client.writeEventsEnabled);
	bytesWritten +=
	client.write(data, bytesWritten, data.length - bytesWritten);
	print("client WRITE event: $bytesWritten written");
	if (bytesWritten < data.length) {
	client.writeEventsEnabled = true;
	}
	if (bytesWritten == data.length) {
	print("client WRITE event: done writing.");
	client.shutdown(SocketDirection.SEND);
	}
	break;
	case RawSocketEvent.READ_CLOSED:
	print("client READ_CLOSED event");
	server.close();
	break;
	case RawSocketEvent.CLOSED:
	assert(!closedEventReceived);
	print("client CLOSED event");
	closedEventReceived = true;
	break;
	default:
	throw "Unexpected event $event";
	}
	}, onDone: () {
	assert(closedEventReceived);
	});
	});

	{
	var completer = new Completer();
	var socket = await RawSocket.connect("127.0.0.1", server.port);
	int bytesRead = 0;
	int bytesWritten = 0;
	bool closedEventReceived = false;
	List<int> data = createTestData();

	socket.listen((event) {
	switch (event) {
	case RawSocketEvent.READ:
	assert(socket.available() > 0);
	if (dropReads) {
	if (clientReadCount != 10) {
	clientReadCount++;
	break;
	} else {
	clientReadCount = 0;
	}
	}
	print("server READ event: ${bytesRead} read");
	var buffer = socket.read();
	print("server READ event: read ${buffer.length} more bytes");
	data.setRange(bytesRead, bytesRead + buffer.length, buffer);
	bytesRead += buffer.length;
	break;
	case RawSocketEvent.WRITE:
	assert(bytesRead == 0);
	assert(!socket.writeEventsEnabled);
	bytesWritten +=
	socket.write(data, bytesWritten, data.length - bytesWritten);
	print("server WRITE event: ${bytesWritten} written");
	if (bytesWritten < data.length) {
	socket.writeEventsEnabled = true;
	} else {
	print("server WRITE event: done writing");
	data = new List<int>(messageSize);
	}
	break;
	case RawSocketEvent.READ_CLOSED:
	print("server READ_CLOSED event");
	verifyTestData(data);
	socket.close();
	break;
	case RawSocketEvent.CLOSED:
	assert(!closedEventReceived);
	print("server CLOSED event");
	closedEventReceived = true;
	break;
	default:
	throw "Unexpected event $event";
	}
	}, onDone: () {
	assert(closedEventReceived);
	completer.complete(null);
	});

	return completer.future;
	}
	}

	Future testProcess() async {
	String exe = Platform.resolvedExecutable;
	print("Running $exe --version");
	Process p = await Process.start(exe, ["--version"]);
	p.stderr.transform(utf8.decoder).listen(print);
	int code = await p.exitCode;
	print("$exe --version exited with code $code");
	}

	void testProcessRunSync() {
	String exe = Platform.resolvedExecutable;
	print("Running $exe --version");
	var result = Process.runSync(exe, ["--version"]);
	print("$exe --version exited with code ${result.exitCode}");
	print("$exe --version had stdout = '${result.stdout}'");
	print("$exe --version had stderr = '${result.stderr}'");
	}

	Future testKill() async {
	String exe = Platform.resolvedExecutable;
	String script = Platform.script.path;
	print("Running $exe $script");
	Process p = await Process.start(exe, [script, "infinite-loop"]);
	await new Future.delayed(const Duration(seconds: 1));
	p.kill();
	int code = await p.exitCode;
	print("$exe $script exited with code $code");
	}

	Future testLs(String path) async {
	Stream<FileSystemEntity> stream = (new Directory(path)).list();
	await for (FileSystemEntity fse in stream) {
	print(fse.path);
	}
	}

	void testPlatformEnvironment() {
	Map<String, String> env = Platform.environment;
	for (String k in env.keys) {
	String v = env[k];
	print("$k = '$v'");
	}
	}

	Future testCopy() async {
	final String sourceName = "foo";
	final String destName = "bar";
	Directory tmp = await Directory.systemTemp.createTemp("testCopy");
	File sourceFile = new File("${tmp.path}/$sourceName");
	File destFile = new File("${tmp.path}/$destName");
	List<int> data = new List<int>.generate(10 * 1024, (int i) => i & 0xff);
	await sourceFile.writeAsBytes(data);
	await sourceFile.copy(destFile.path);
	List<int> resultData = await destFile.readAsBytes();
	assert(data.length == resultData.length);
	for (int i = 0; i < data.length; i++) {
	assert(data[i] == resultData[i]);
	}
	await sourceFile.delete();
	await destFile.delete();
	await tmp.delete();
	}

	Future testRecursiveDelete() async {
	Directory tmp0 = await Directory.systemTemp.createTemp("testRD");
	Directory tmp1 = await tmp0.createTemp("testRD");
	Directory tmp2 = await tmp1.createTemp("testRD");
	File file0 = new File("${tmp0.path}/file");
	File file1 = new File("${tmp1.path}/file");
	File file2 = new File("${tmp2.path}/file");
	List<int> data = new List<int>.generate(10 * 1024, (int i) => i & 0xff);
	await file0.writeAsBytes(data);
	await file1.writeAsBytes(data);
	await file2.writeAsBytes(data);

	await tmp0.delete(recursive: true);

	assert(!await file2.exists());
	assert(!await file1.exists());
	assert(!await file0.exists());
	assert(!await tmp2.exists());
	assert(!await tmp1.exists());
	assert(!await tmp0.exists());
	}

	bool testFileOpenDirectoryFails() {
	File dir = new File(Directory.systemTemp.path);
	try {
	dir.openSync();
	} on FileSystemException catch (e) {
	return true;
	} catch (e) {
	print("Unexpected Exception: $e");
	return false;
	}
	}


	Future testListInterfaces() async {
	List<NetworkInterface> interfaces = await NetworkInterface.list();
	print('Found ${interfaces.length} interfaces:');
	for (var iface in interfaces) {
	print('\t$iface');
	}
	}

	main(List<String> args) async {
	if (args.length >= 1) {
	if (args[0] == "infinite-loop") {
	while (true);
	}
	}

	print("Hello, Fuchsia!");

	print("testAddressParse");
	await testAddressParse();
	print("testAddressParse done");

	print("testSimpleBind");
	await testSimpleBind();
	print("testSimpleBind done");

	print("testSimpleConnect");
	await testSimpleConnect();
	print("testSimpleConnect done");

	print("testSimpleReadWriteClose");
	await testSimpleReadWriteClose();
	print("testSimpleReadWriteClose done");

	print("testSimpleReadWriteShutdown");
	await testSimpleReadWriteShutdown(dropReads: false);
	print("testSimpleReadWriteShutdown done");

	print("lsTest");
	await testLs("/");
	print("lsTest done");

	print("testPlatformEnvironment");
	testPlatformEnvironment();
	print("testPlatformEnvironment done");

	print("testProcess");
	await testProcess();
	print("testProcess done");

	print("testProcessRunSync");
	testProcessRunSync();
	print("testProcessRunSync done");

	print("testKill");
	await testKill();
	print("testKill done");

	print("testCopy");
	await testCopy();
	print("testCopy done");

	print("testRecursiveDelete");
	await testRecursiveDelete();
	print("testRecursiveDelete done");

	print("testFileOpenDirectoryFails");
	bool result = testFileOpenDirectoryFails();
	if (result) {
	print("testFileOpenDirectoryFails done");
	} else {
	print("testFileOpenDirectoryFails FAILED");
	}

	print('testListInterfaces');
	await testListInterfaces();
	print('testListInterfaces done');

	print("Goodbyte, Fuchsia!");
	}