tests/standalone_2/io/secure_socket_alpn_test.dart - sdk - Git at Google

 // Copyright (c) 2015, 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.
 //
 // OtherResources=certificates/server_chain.pem
 // OtherResources=certificates/server_key.pem
 // OtherResources=certificates/trusted_certs.pem

 // @dart = 2.9

 import 'dart:io';
 import 'dart:convert';

 import 'package:expect/expect.dart';
 import 'package:async_helper/async_helper.dart';

 const String NAME_LENGTH_ERROR = 'Length of protocol must be between 1 and 255';

 const String MESSAGE_LENGTH_ERROR =
     'The maximum message length supported is 2^13-1';

 String localFile(path) => Platform.script.resolve(path).toFilePath();

 SecurityContext clientContext() => new SecurityContext()
   ..setTrustedCertificates(localFile('certificates/trusted_certs.pem'));

 SecurityContext serverContext() => new SecurityContext()
   ..useCertificateChain(localFile('certificates/server_chain.pem'))
   ..usePrivateKey(localFile('certificates/server_key.pem'),
       password: 'dartdart');

 // Tests that client/server with same protocol can securely establish a
 // connection, negotiate the protocol and can send data to each other.
 void testSuccessfulAlpnNegotiationConnection(List<String> clientProtocols,
     List<String> serverProtocols, String selectedProtocol) {
   asyncStart();
   var sContext = serverContext()..setAlpnProtocols(serverProtocols, true);
   SecureServerSocket.bind('localhost', 0, sContext)
       .then((SecureServerSocket server) {
     asyncStart();
     server.first.then((SecureSocket socket) {
       Expect.equals(selectedProtocol, socket.selectedProtocol);
       socket
         ..write('server message')
         ..close();
       ascii.decoder.bind(socket).join('').then((String s) {
         Expect.equals('client message', s);
         asyncEnd();
       });
     });

     asyncStart();
     SecureSocket.connect('localhost', server.port,
             context: clientContext(), supportedProtocols: clientProtocols)
         .then((socket) {
       Expect.equals(selectedProtocol, socket.selectedProtocol);
       socket
         ..write('client message')
         ..close();
       ascii.decoder.bind(socket).join('').then((String s) {
         Expect.equals('server message', s);
         server.close();
         asyncEnd();
       });
     });

     asyncEnd();
   });
 }

 void testInvalidArgument(List<String> protocols, String errorIncludes) {
   testInvalidArgumentServerContext(protocols, errorIncludes);
   testInvalidArgumentClientContext(protocols, errorIncludes);
   testInvalidArgumentClientConnect(protocols, errorIncludes);
 }

 void testInvalidArgumentServerContext(
     List<String> protocols, String errorIncludes) {
   Expect.throws(() => serverContext().setAlpnProtocols(protocols, true), (e) {
     Expect.isTrue(e is ArgumentError);
     Expect.isTrue(e.toString().contains(errorIncludes));
     return true;
   });
 }

 void testInvalidArgumentClientContext(
     List<String> protocols, String errorIncludes) {
   Expect.throws(() => clientContext().setAlpnProtocols(protocols, false), (e) {
     Expect.isTrue(e is ArgumentError);
     Expect.isTrue(e.toString().contains(errorIncludes));
     return true;
   });
 }

 void testInvalidArgumentClientConnect(
     List<String> protocols, String errorIncludes) {
   asyncStart();
   var sContext = serverContext()..setAlpnProtocols(['abc'], true);
   SecureServerSocket.bind('localhost', 0, sContext).then((server) async {
     asyncStart();
     server.listen((SecureSocket socket) {
       Expect.fail(
           "Unexpected connection made to server, with bad client argument");
     }, onError: (e) {
       Expect.fail("Unexpected error on server stream: $e");
     }, onDone: () {
       asyncEnd();
     });

     asyncStart();
     SecureSocket.connect('localhost', server.port,
             context: clientContext(), supportedProtocols: protocols)
         .then((socket) {
       Expect.fail(
           "Unexpected connection made from client, with bad client argument");
     }, onError: (e) {
       Expect.isTrue(e is ArgumentError);
       Expect.isTrue(e.toString().contains(errorIncludes));
       server.close();
       asyncEnd();
     });
     asyncEnd();
   });
 }

 main() {
   final longname256 = 'p' * 256;
   final String longname255 = 'p' * 255;
   final String strangelongname255 = 'ø' + 'p' * 253;
   final String strangelongname256 = 'ø' + 'p' * 254;

   // This produces a message of (1 << 13) - 2 bytes. 2^12 -1 strings are each
   // encoded by 1 length byte and 1 ascii byte.
   final List<String> manyProtocols =
       new Iterable.generate((1 << 12) - 1, (i) => '0').toList();

   // This produces a message of (1 << 13) bytes. 2^12 strings are each
   // encoded by 1 length byte and 1 ascii byte.
   final List<String> tooManyProtocols =
       new Iterable.generate((1 << 12), (i) => '0').toList();

   // Protocols are in order of decreasing priority. The server will select
   // the first protocol from its list that has a match in the client list.
   // Test successful negotiation, including priority.
   testSuccessfulAlpnNegotiationConnection(['a'], ['a'], 'a');

   testSuccessfulAlpnNegotiationConnection(
       [longname255], [longname255], longname255);

   testSuccessfulAlpnNegotiationConnection(
       [strangelongname255], [strangelongname255], strangelongname255);
   testSuccessfulAlpnNegotiationConnection(manyProtocols, manyProtocols, '0');
   testSuccessfulAlpnNegotiationConnection(
       ['a', 'b', 'c'], ['a', 'b', 'c'], 'a');

   testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], ['c'], 'c');

   // Server precedence.
   testSuccessfulAlpnNegotiationConnection(
       ['a', 'b', 'c'], ['c', 'b', 'a'], 'c');

   testSuccessfulAlpnNegotiationConnection(['c'], ['a', 'b', 'c'], 'c');

   testSuccessfulAlpnNegotiationConnection(
       ['s1', 'b', 'e1'], ['s2', 'b', 'e2'], 'b');
   // Test no protocol negotiation support
   testSuccessfulAlpnNegotiationConnection(null, null, null);

   testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], null, null);

   testSuccessfulAlpnNegotiationConnection(null, ['a', 'b', 'c'], null);

   testSuccessfulAlpnNegotiationConnection([], [], null);

   testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], [], null);

   testSuccessfulAlpnNegotiationConnection([], ['a', 'b', 'c'], null);

   // Test non-overlapping protocols.  The ALPN RFC says the connection
   // should be terminated, but OpenSSL continues as if no ALPN is present.
   // Issue  https://github.com/dart-lang/sdk/issues/23580
   // Chromium issue https://code.google.com/p/chromium/issues/detail?id=497770
   testSuccessfulAlpnNegotiationConnection(['a'], ['b'], null);

   // Test too short / too long protocol names.
   testInvalidArgument([longname256], NAME_LENGTH_ERROR);
   testInvalidArgument([strangelongname256], NAME_LENGTH_ERROR);
   testInvalidArgument([''], NAME_LENGTH_ERROR);
   testInvalidArgument(tooManyProtocols, MESSAGE_LENGTH_ERROR);
 }
	// Copyright (c) 2015, 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.
	//
	// OtherResources=certificates/server_chain.pem
	// OtherResources=certificates/server_key.pem
	// OtherResources=certificates/trusted_certs.pem

	// @dart = 2.9

	import 'dart:io';
	import 'dart:convert';

	import 'package:expect/expect.dart';
	import 'package:async_helper/async_helper.dart';

	const String NAME_LENGTH_ERROR = 'Length of protocol must be between 1 and 255';

	const String MESSAGE_LENGTH_ERROR =
	'The maximum message length supported is 2^13-1';

	String localFile(path) => Platform.script.resolve(path).toFilePath();

	SecurityContext clientContext() => new SecurityContext()
	..setTrustedCertificates(localFile('certificates/trusted_certs.pem'));

	SecurityContext serverContext() => new SecurityContext()
	..useCertificateChain(localFile('certificates/server_chain.pem'))
	..usePrivateKey(localFile('certificates/server_key.pem'),
	password: 'dartdart');

	// Tests that client/server with same protocol can securely establish a
	// connection, negotiate the protocol and can send data to each other.
	void testSuccessfulAlpnNegotiationConnection(List<String> clientProtocols,
	List<String> serverProtocols, String selectedProtocol) {
	asyncStart();
	var sContext = serverContext()..setAlpnProtocols(serverProtocols, true);
	SecureServerSocket.bind('localhost', 0, sContext)
	.then((SecureServerSocket server) {
	asyncStart();
	server.first.then((SecureSocket socket) {
	Expect.equals(selectedProtocol, socket.selectedProtocol);
	socket
	..write('server message')
	..close();
	ascii.decoder.bind(socket).join('').then((String s) {
	Expect.equals('client message', s);
	asyncEnd();
	});
	});

	asyncStart();
	SecureSocket.connect('localhost', server.port,
	context: clientContext(), supportedProtocols: clientProtocols)
	.then((socket) {
	Expect.equals(selectedProtocol, socket.selectedProtocol);
	socket
	..write('client message')
	..close();
	ascii.decoder.bind(socket).join('').then((String s) {
	Expect.equals('server message', s);
	server.close();
	asyncEnd();
	});
	});

	asyncEnd();
	});
	}

	void testInvalidArgument(List<String> protocols, String errorIncludes) {
	testInvalidArgumentServerContext(protocols, errorIncludes);
	testInvalidArgumentClientContext(protocols, errorIncludes);
	testInvalidArgumentClientConnect(protocols, errorIncludes);
	}

	void testInvalidArgumentServerContext(
	List<String> protocols, String errorIncludes) {
	Expect.throws(() => serverContext().setAlpnProtocols(protocols, true), (e) {
	Expect.isTrue(e is ArgumentError);
	Expect.isTrue(e.toString().contains(errorIncludes));
	return true;
	});
	}

	void testInvalidArgumentClientContext(
	List<String> protocols, String errorIncludes) {
	Expect.throws(() => clientContext().setAlpnProtocols(protocols, false), (e) {
	Expect.isTrue(e is ArgumentError);
	Expect.isTrue(e.toString().contains(errorIncludes));
	return true;
	});
	}

	void testInvalidArgumentClientConnect(
	List<String> protocols, String errorIncludes) {
	asyncStart();
	var sContext = serverContext()..setAlpnProtocols(['abc'], true);
	SecureServerSocket.bind('localhost', 0, sContext).then((server) async {
	asyncStart();
	server.listen((SecureSocket socket) {
	Expect.fail(
	"Unexpected connection made to server, with bad client argument");
	}, onError: (e) {
	Expect.fail("Unexpected error on server stream: $e");
	}, onDone: () {
	asyncEnd();
	});

	asyncStart();
	SecureSocket.connect('localhost', server.port,
	context: clientContext(), supportedProtocols: protocols)
	.then((socket) {
	Expect.fail(
	"Unexpected connection made from client, with bad client argument");
	}, onError: (e) {
	Expect.isTrue(e is ArgumentError);
	Expect.isTrue(e.toString().contains(errorIncludes));
	server.close();
	asyncEnd();
	});
	asyncEnd();
	});
	}

	main() {
	final longname256 = 'p' * 256;
	final String longname255 = 'p' * 255;
	final String strangelongname255 = 'ø' + 'p' * 253;
	final String strangelongname256 = 'ø' + 'p' * 254;

	// This produces a message of (1 << 13) - 2 bytes. 2^12 -1 strings are each
	// encoded by 1 length byte and 1 ascii byte.
	final List<String> manyProtocols =
	new Iterable.generate((1 << 12) - 1, (i) => '0').toList();

	// This produces a message of (1 << 13) bytes. 2^12 strings are each
	// encoded by 1 length byte and 1 ascii byte.
	final List<String> tooManyProtocols =
	new Iterable.generate((1 << 12), (i) => '0').toList();

	// Protocols are in order of decreasing priority. The server will select
	// the first protocol from its list that has a match in the client list.
	// Test successful negotiation, including priority.
	testSuccessfulAlpnNegotiationConnection(['a'], ['a'], 'a');

	testSuccessfulAlpnNegotiationConnection(
	[longname255], [longname255], longname255);

	testSuccessfulAlpnNegotiationConnection(
	[strangelongname255], [strangelongname255], strangelongname255);
	testSuccessfulAlpnNegotiationConnection(manyProtocols, manyProtocols, '0');
	testSuccessfulAlpnNegotiationConnection(
	['a', 'b', 'c'], ['a', 'b', 'c'], 'a');

	testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], ['c'], 'c');

	// Server precedence.
	testSuccessfulAlpnNegotiationConnection(
	['a', 'b', 'c'], ['c', 'b', 'a'], 'c');

	testSuccessfulAlpnNegotiationConnection(['c'], ['a', 'b', 'c'], 'c');

	testSuccessfulAlpnNegotiationConnection(
	['s1', 'b', 'e1'], ['s2', 'b', 'e2'], 'b');
	// Test no protocol negotiation support
	testSuccessfulAlpnNegotiationConnection(null, null, null);

	testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], null, null);

	testSuccessfulAlpnNegotiationConnection(null, ['a', 'b', 'c'], null);

	testSuccessfulAlpnNegotiationConnection([], [], null);

	testSuccessfulAlpnNegotiationConnection(['a', 'b', 'c'], [], null);

	testSuccessfulAlpnNegotiationConnection([], ['a', 'b', 'c'], null);

	// Test non-overlapping protocols. The ALPN RFC says the connection
	// should be terminated, but OpenSSL continues as if no ALPN is present.
	// Issue https://github.com/dart-lang/sdk/issues/23580
	// Chromium issue https://code.google.com/p/chromium/issues/detail?id=497770
	testSuccessfulAlpnNegotiationConnection(['a'], ['b'], null);

	// Test too short / too long protocol names.
	testInvalidArgument([longname256], NAME_LENGTH_ERROR);
	testInvalidArgument([strangelongname256], NAME_LENGTH_ERROR);
	testInvalidArgument([''], NAME_LENGTH_ERROR);
	testInvalidArgument(tooManyProtocols, MESSAGE_LENGTH_ERROR);
	}