| // Copyright 2018 The Fuchsia Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| // |
| // WARNING: This file is machine generated by fidlgen. |
| |
| library fidl_test_name_async; |
| |
| import 'dart:async'; |
| import 'dart:typed_data'; |
| |
| import 'package:fidl/fidl.dart' as $fidl; |
| import 'package:meta/meta.dart'; |
| import 'package:zircon/zircon.dart'; |
| |
| // These imports improve deduplication by making uses of {fidl.dart}, |
| // {fidl_async.dart} and {fidl.dart, fidl_async.dart} generate equivalent |
| // packages. In AOT, the dead code will be removed by tree shaking. |
| // ignore: unused_import |
| import 'fidl.dart' as $strongly_connect_sync; |
| |
| // ignore_for_file: always_specify_types |
| // ignore_for_file: avoid_positional_boolean_parameters |
| // ignore_for_file: avoid_returning_null |
| // ignore_for_file: cascade_invocations |
| // ignore_for_file: constant_identifier_names |
| // ignore_for_file: one_member_abstracts |
| // ignore_for_file: prefer_constructors_over_static_methods |
| // ignore_for_file: prefer_single_quotes |
| // ignore_for_file: public_member_api_docs |
| // ignore_for_file: unused_import |
| // ignore_for_file: unused_local_variable |
| // ignore_for_file: non_constant_identifier_names |
| // ignore_for_file: library_prefixes |
| // ignore_for_file: prefer_typing_uninitialized_variables |
| // ignore_for_file: avoid_js_rounded_ints |
| // ignore_for_file: unnecessary_parenthesis |
| // ignore_for_file: always_put_required_named_parameters_first |
| // ignore_for_file: prefer_generic_function_type_aliases |
| // ignore_for_file: prefer_equal_for_default_values |
| // ignore_for_file: avoid_catches_without_on_clauses |
| // ignore_for_file: unused_shown_name |
| // ignore_for_file: unnecessary_lambdas |
| // ignore_for_file: comment_references |
| |
| // ignore: unused_element, avoid_private_typedef_functions |
| typedef _VoidCallback = void Function(); |
| |
| |
| // methodA: (int a, int b) |
| const int _kOvernetInternalProtocol_MethodA_Ordinal = 1993818253; |
| const $fidl.MethodType _kOvernetInternalProtocol_MethodA_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: null, |
| name: r"OvernetInternalProtocol.MethodA", |
| ); |
| // eventA: -> (int a, int b) |
| const int _kOvernetInternalProtocol_EventA_Ordinal = 1746007436; |
| const $fidl.MethodType _kOvernetInternalProtocol_EventA_Type = const $fidl.MethodType( |
| request: null, |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| name: r"OvernetInternalProtocol.EventA", |
| ); |
| // methodB: (int a, int b) -> (int result) |
| const int _kOvernetInternalProtocol_MethodB_Ordinal = 952134976; |
| const $fidl.MethodType _kOvernetInternalProtocol_MethodB_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| ], |
| name: r"OvernetInternalProtocol.MethodB", |
| ); |
| class OvernetInternalProtocol$EventA$Response { |
| final int a; |
| final int b; |
| OvernetInternalProtocol$EventA$Response( |
| this.a, |
| this.b,); |
| } |
| abstract class OvernetInternalProtocol extends $fidl.Service { |
| static const String $serviceName = null; |
| @override |
| $fidl.ServiceData get $serviceData => const OvernetInternalProtocolData(); |
| Future<void> methodA(int a, int b) |
| ; |
| Stream<OvernetInternalProtocol$EventA$Response> get eventA |
| ; |
| Future<int> methodB(int a, int b) |
| ; |
| } |
| |
| class OvernetInternalProtocolData implements $fidl.ServiceData<OvernetInternalProtocol> { |
| |
| const OvernetInternalProtocolData(); |
| |
| @override |
| String getName() { |
| return OvernetInternalProtocol.$serviceName; |
| } |
| |
| @override |
| $fidl.AsyncBinding getBinding() { |
| return OvernetInternalProtocolBinding(); |
| } |
| } |
| class OvernetInternalProtocolProxy extends $fidl.AsyncProxy<OvernetInternalProtocol> |
| implements OvernetInternalProtocol { |
| OvernetInternalProtocolProxy() : super(new $fidl.AsyncProxyController<OvernetInternalProtocol>($serviceName: null, $interfaceName: r'OvernetInternalProtocol')) { |
| ctrl.onResponse = _handleResponse; |
| ctrl.whenClosed.then((_) { |
| _eventAEventStreamController.close(); |
| }, onError: (_) { }); |
| |
| } |
| |
| @override |
| $fidl.ServiceData get $serviceData => OvernetInternalProtocolData(); |
| |
| void _handleEvent($fidl.Message $message) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kOvernetInternalProtocol_EventA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_EventA_Type.response; |
| $decoder.claimMemory(32); |
| _eventAEventStreamController.add(new OvernetInternalProtocol$EventA$Response( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),)); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kOvernetInternalProtocol_EventA_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling event $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| |
| void _handleResponse($fidl.Message $message) { |
| final int $txid = $message.txid; |
| if ($txid == 0) { |
| _handleEvent($message); |
| return; |
| } |
| final Completer $completer = ctrl.getCompleter($txid); |
| if ($completer == null) { |
| $message.closeHandles(); |
| return; |
| } |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kOvernetInternalProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodB_Type.response; |
| $decoder.claimMemory(24); |
| $completer.complete($types[0].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kOvernetInternalProtocol_MethodB_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling method response $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| @override |
| Future<void> methodA(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kOvernetInternalProtocol_MethodA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodA_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| return new Future.sync(() { |
| ctrl.sendMessage($encoder.message); |
| }); |
| } |
| |
| final _eventAEventStreamController = new StreamController<OvernetInternalProtocol$EventA$Response>.broadcast(); |
| @override |
| Stream<OvernetInternalProtocol$EventA$Response> get eventA => _eventAEventStreamController.stream; |
| |
| @override |
| Future<int> methodB(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kOvernetInternalProtocol_MethodB_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodB_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| final $completer = new Completer<int>(); |
| ctrl.sendMessageWithResponse($encoder.message, $completer); |
| return $completer.future; |
| } |
| |
| } |
| |
| class OvernetInternalProtocolBinding extends $fidl.AsyncBinding<OvernetInternalProtocol> { |
| OvernetInternalProtocolBinding() : super(r"OvernetInternalProtocol") { |
| final List<StreamSubscription<dynamic>> $subscriptions = []; |
| void $unsubscribe() { |
| for (final $sub in $subscriptions) { |
| $sub.cancel(); |
| } |
| $subscriptions.clear(); |
| } |
| whenBound.then((_) { |
| if (impl.eventA != null) { |
| $subscriptions.add(impl.eventA.listen(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kOvernetInternalProtocol_EventA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_EventA_Type.response; |
| |
| $types[0].encode($encoder, $response.a, 0); |
| $types[1].encode($encoder, $response.b, 0); |
| sendMessage($encoder.message); |
| })); |
| } |
| }); |
| whenClosed.then((_) => $unsubscribe()); |
| } |
| |
| @override |
| void handleMessage($fidl.Message $message, $fidl.MessageSink $respond) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kOvernetInternalProtocol_MethodA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodA_Type.request; |
| $decoder.claimMemory(32); |
| final Future<void> $future = impl.methodA( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kOvernetInternalProtocol_MethodA_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| case _kOvernetInternalProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodB_Type.request; |
| $decoder.claimMemory(32); |
| final Future<int> $future = impl.methodB( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| $future.then(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kOvernetInternalProtocol_MethodB_Ordinal, $message.txid); |
| $encoder.alloc(24 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kOvernetInternalProtocol_MethodB_Type.response; |
| $types[0].encode($encoder, $response, 0); |
| $respond($encoder.message); |
| }, onError: (_e) { |
| close(); |
| final String _name = _kOvernetInternalProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| }); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kOvernetInternalProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| default: |
| throw new $fidl.FidlError('Unexpected message name for OvernetInternalProtocolBinding'); |
| } |
| } |
| } |
| |
| |
| |
| // methodA: (int a, int b) |
| const int _kSocketControlProtocol_MethodA_Ordinal = 1007842318; |
| const $fidl.MethodType _kSocketControlProtocol_MethodA_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: null, |
| name: r"SocketControlProtocol.MethodA", |
| ); |
| // eventA: -> (int a, int b) |
| const int _kSocketControlProtocol_EventA_Ordinal = 955483393; |
| const $fidl.MethodType _kSocketControlProtocol_EventA_Type = const $fidl.MethodType( |
| request: null, |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| name: r"SocketControlProtocol.EventA", |
| ); |
| // methodB: (int a, int b) -> (int result) |
| const int _kSocketControlProtocol_MethodB_Ordinal = 677342235; |
| const $fidl.MethodType _kSocketControlProtocol_MethodB_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| ], |
| name: r"SocketControlProtocol.MethodB", |
| ); |
| class SocketControlProtocol$EventA$Response { |
| final int a; |
| final int b; |
| SocketControlProtocol$EventA$Response( |
| this.a, |
| this.b,); |
| } |
| abstract class SocketControlProtocol extends $fidl.Service { |
| static const String $serviceName = null; |
| @override |
| $fidl.ServiceData get $serviceData => const SocketControlProtocolData(); |
| Future<void> methodA(int a, int b) |
| ; |
| Stream<SocketControlProtocol$EventA$Response> get eventA |
| ; |
| Future<int> methodB(int a, int b) |
| ; |
| } |
| |
| class SocketControlProtocolData implements $fidl.ServiceData<SocketControlProtocol> { |
| |
| const SocketControlProtocolData(); |
| |
| @override |
| String getName() { |
| return SocketControlProtocol.$serviceName; |
| } |
| |
| @override |
| $fidl.AsyncBinding getBinding() { |
| return SocketControlProtocolBinding(); |
| } |
| } |
| class SocketControlProtocolProxy extends $fidl.AsyncProxy<SocketControlProtocol> |
| implements SocketControlProtocol { |
| SocketControlProtocolProxy() : super(new $fidl.AsyncProxyController<SocketControlProtocol>($serviceName: null, $interfaceName: r'SocketControlProtocol')) { |
| ctrl.onResponse = _handleResponse; |
| ctrl.whenClosed.then((_) { |
| _eventAEventStreamController.close(); |
| }, onError: (_) { }); |
| |
| } |
| |
| @override |
| $fidl.ServiceData get $serviceData => SocketControlProtocolData(); |
| |
| void _handleEvent($fidl.Message $message) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kSocketControlProtocol_EventA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_EventA_Type.response; |
| $decoder.claimMemory(32); |
| _eventAEventStreamController.add(new SocketControlProtocol$EventA$Response( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),)); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kSocketControlProtocol_EventA_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling event $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| |
| void _handleResponse($fidl.Message $message) { |
| final int $txid = $message.txid; |
| if ($txid == 0) { |
| _handleEvent($message); |
| return; |
| } |
| final Completer $completer = ctrl.getCompleter($txid); |
| if ($completer == null) { |
| $message.closeHandles(); |
| return; |
| } |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kSocketControlProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodB_Type.response; |
| $decoder.claimMemory(24); |
| $completer.complete($types[0].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kSocketControlProtocol_MethodB_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling method response $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| @override |
| Future<void> methodA(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kSocketControlProtocol_MethodA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodA_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| return new Future.sync(() { |
| ctrl.sendMessage($encoder.message); |
| }); |
| } |
| |
| final _eventAEventStreamController = new StreamController<SocketControlProtocol$EventA$Response>.broadcast(); |
| @override |
| Stream<SocketControlProtocol$EventA$Response> get eventA => _eventAEventStreamController.stream; |
| |
| @override |
| Future<int> methodB(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kSocketControlProtocol_MethodB_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodB_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| final $completer = new Completer<int>(); |
| ctrl.sendMessageWithResponse($encoder.message, $completer); |
| return $completer.future; |
| } |
| |
| } |
| |
| class SocketControlProtocolBinding extends $fidl.AsyncBinding<SocketControlProtocol> { |
| SocketControlProtocolBinding() : super(r"SocketControlProtocol") { |
| final List<StreamSubscription<dynamic>> $subscriptions = []; |
| void $unsubscribe() { |
| for (final $sub in $subscriptions) { |
| $sub.cancel(); |
| } |
| $subscriptions.clear(); |
| } |
| whenBound.then((_) { |
| if (impl.eventA != null) { |
| $subscriptions.add(impl.eventA.listen(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kSocketControlProtocol_EventA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_EventA_Type.response; |
| |
| $types[0].encode($encoder, $response.a, 0); |
| $types[1].encode($encoder, $response.b, 0); |
| sendMessage($encoder.message); |
| })); |
| } |
| }); |
| whenClosed.then((_) => $unsubscribe()); |
| } |
| |
| @override |
| void handleMessage($fidl.Message $message, $fidl.MessageSink $respond) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kSocketControlProtocol_MethodA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodA_Type.request; |
| $decoder.claimMemory(32); |
| final Future<void> $future = impl.methodA( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kSocketControlProtocol_MethodA_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| case _kSocketControlProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodB_Type.request; |
| $decoder.claimMemory(32); |
| final Future<int> $future = impl.methodB( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| $future.then(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kSocketControlProtocol_MethodB_Ordinal, $message.txid); |
| $encoder.alloc(24 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kSocketControlProtocol_MethodB_Type.response; |
| $types[0].encode($encoder, $response, 0); |
| $respond($encoder.message); |
| }, onError: (_e) { |
| close(); |
| final String _name = _kSocketControlProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| }); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kSocketControlProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| default: |
| throw new $fidl.FidlError('Unexpected message name for SocketControlProtocolBinding'); |
| } |
| } |
| } |
| |
| |
| |
| // methodA: (int a, int b) |
| const int _kChannelProtocol_MethodA_Ordinal = 1432785874; |
| const $fidl.MethodType _kChannelProtocol_MethodA_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: null, |
| name: r"ChannelProtocol.MethodA", |
| ); |
| // eventA: -> (int a, int b) |
| const int _kChannelProtocol_EventA_Ordinal = 477676034; |
| const $fidl.MethodType _kChannelProtocol_EventA_Type = const $fidl.MethodType( |
| request: null, |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| name: r"ChannelProtocol.EventA", |
| ); |
| // methodB: (int a, int b) -> (int result) |
| const int _kChannelProtocol_MethodB_Ordinal = 180770075; |
| const $fidl.MethodType _kChannelProtocol_MethodB_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| ], |
| name: r"ChannelProtocol.MethodB", |
| ); |
| class ChannelProtocol$EventA$Response { |
| final int a; |
| final int b; |
| ChannelProtocol$EventA$Response( |
| this.a, |
| this.b,); |
| } |
| abstract class ChannelProtocol extends $fidl.Service { |
| static const String $serviceName = null; |
| @override |
| $fidl.ServiceData get $serviceData => const ChannelProtocolData(); |
| Future<void> methodA(int a, int b) |
| ; |
| Stream<ChannelProtocol$EventA$Response> get eventA |
| ; |
| Future<int> methodB(int a, int b) |
| ; |
| } |
| |
| class ChannelProtocolData implements $fidl.ServiceData<ChannelProtocol> { |
| |
| const ChannelProtocolData(); |
| |
| @override |
| String getName() { |
| return ChannelProtocol.$serviceName; |
| } |
| |
| @override |
| $fidl.AsyncBinding getBinding() { |
| return ChannelProtocolBinding(); |
| } |
| } |
| class ChannelProtocolProxy extends $fidl.AsyncProxy<ChannelProtocol> |
| implements ChannelProtocol { |
| ChannelProtocolProxy() : super(new $fidl.AsyncProxyController<ChannelProtocol>($serviceName: null, $interfaceName: r'ChannelProtocol')) { |
| ctrl.onResponse = _handleResponse; |
| ctrl.whenClosed.then((_) { |
| _eventAEventStreamController.close(); |
| }, onError: (_) { }); |
| |
| } |
| |
| @override |
| $fidl.ServiceData get $serviceData => ChannelProtocolData(); |
| |
| void _handleEvent($fidl.Message $message) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kChannelProtocol_EventA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kChannelProtocol_EventA_Type.response; |
| $decoder.claimMemory(32); |
| _eventAEventStreamController.add(new ChannelProtocol$EventA$Response( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),)); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kChannelProtocol_EventA_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling event $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| |
| void _handleResponse($fidl.Message $message) { |
| final int $txid = $message.txid; |
| if ($txid == 0) { |
| _handleEvent($message); |
| return; |
| } |
| final Completer $completer = ctrl.getCompleter($txid); |
| if ($completer == null) { |
| $message.closeHandles(); |
| return; |
| } |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kChannelProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodB_Type.response; |
| $decoder.claimMemory(24); |
| $completer.complete($types[0].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kChannelProtocol_MethodB_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling method response $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| @override |
| Future<void> methodA(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kChannelProtocol_MethodA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodA_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| return new Future.sync(() { |
| ctrl.sendMessage($encoder.message); |
| }); |
| } |
| |
| final _eventAEventStreamController = new StreamController<ChannelProtocol$EventA$Response>.broadcast(); |
| @override |
| Stream<ChannelProtocol$EventA$Response> get eventA => _eventAEventStreamController.stream; |
| |
| @override |
| Future<int> methodB(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kChannelProtocol_MethodB_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodB_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| final $completer = new Completer<int>(); |
| ctrl.sendMessageWithResponse($encoder.message, $completer); |
| return $completer.future; |
| } |
| |
| } |
| |
| class ChannelProtocolBinding extends $fidl.AsyncBinding<ChannelProtocol> { |
| ChannelProtocolBinding() : super(r"ChannelProtocol") { |
| final List<StreamSubscription<dynamic>> $subscriptions = []; |
| void $unsubscribe() { |
| for (final $sub in $subscriptions) { |
| $sub.cancel(); |
| } |
| $subscriptions.clear(); |
| } |
| whenBound.then((_) { |
| if (impl.eventA != null) { |
| $subscriptions.add(impl.eventA.listen(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kChannelProtocol_EventA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kChannelProtocol_EventA_Type.response; |
| |
| $types[0].encode($encoder, $response.a, 0); |
| $types[1].encode($encoder, $response.b, 0); |
| sendMessage($encoder.message); |
| })); |
| } |
| }); |
| whenClosed.then((_) => $unsubscribe()); |
| } |
| |
| @override |
| void handleMessage($fidl.Message $message, $fidl.MessageSink $respond) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kChannelProtocol_MethodA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodA_Type.request; |
| $decoder.claimMemory(32); |
| final Future<void> $future = impl.methodA( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kChannelProtocol_MethodA_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| case _kChannelProtocol_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodB_Type.request; |
| $decoder.claimMemory(32); |
| final Future<int> $future = impl.methodB( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| $future.then(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kChannelProtocol_MethodB_Ordinal, $message.txid); |
| $encoder.alloc(24 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kChannelProtocol_MethodB_Type.response; |
| $types[0].encode($encoder, $response, 0); |
| $respond($encoder.message); |
| }, onError: (_e) { |
| close(); |
| final String _name = _kChannelProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| }); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kChannelProtocol_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| default: |
| throw new $fidl.FidlError('Unexpected message name for ChannelProtocolBinding'); |
| } |
| } |
| } |
| |
| |
| |
| // methodA: (int a, int b) |
| const int _kKitchenSink_MethodA_Ordinal = 450577456; |
| const $fidl.MethodType _kKitchenSink_MethodA_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: null, |
| name: r"KitchenSink.MethodA", |
| ); |
| // eventA: -> (int a, int b) |
| const int _kKitchenSink_EventA_Ordinal = 1795426833; |
| const $fidl.MethodType _kKitchenSink_EventA_Type = const $fidl.MethodType( |
| request: null, |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| name: r"KitchenSink.EventA", |
| ); |
| // methodB: (int a, int b) -> (int result) |
| const int _kKitchenSink_MethodB_Ordinal = 1999489700; |
| const $fidl.MethodType _kKitchenSink_MethodB_Type = const $fidl.MethodType( |
| request: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 24), |
| ], |
| response: const <$fidl.MemberType>[ |
| const $fidl.MemberType<int>(type: const $fidl.Int64Type(), offset: 16), |
| ], |
| name: r"KitchenSink.MethodB", |
| ); |
| class KitchenSink$EventA$Response { |
| final int a; |
| final int b; |
| KitchenSink$EventA$Response( |
| this.a, |
| this.b,); |
| } |
| abstract class KitchenSink extends $fidl.Service { |
| static const String $serviceName = null; |
| @override |
| $fidl.ServiceData get $serviceData => const KitchenSinkData(); |
| Future<void> methodA(int a, int b) |
| ; |
| Stream<KitchenSink$EventA$Response> get eventA |
| ; |
| Future<int> methodB(int a, int b) |
| ; |
| } |
| |
| class KitchenSinkData implements $fidl.ServiceData<KitchenSink> { |
| |
| const KitchenSinkData(); |
| |
| @override |
| String getName() { |
| return KitchenSink.$serviceName; |
| } |
| |
| @override |
| $fidl.AsyncBinding getBinding() { |
| return KitchenSinkBinding(); |
| } |
| } |
| class KitchenSinkProxy extends $fidl.AsyncProxy<KitchenSink> |
| implements KitchenSink { |
| KitchenSinkProxy() : super(new $fidl.AsyncProxyController<KitchenSink>($serviceName: null, $interfaceName: r'KitchenSink')) { |
| ctrl.onResponse = _handleResponse; |
| ctrl.whenClosed.then((_) { |
| _eventAEventStreamController.close(); |
| }, onError: (_) { }); |
| |
| } |
| |
| @override |
| $fidl.ServiceData get $serviceData => KitchenSinkData(); |
| |
| void _handleEvent($fidl.Message $message) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kKitchenSink_EventA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kKitchenSink_EventA_Type.response; |
| $decoder.claimMemory(32); |
| _eventAEventStreamController.add(new KitchenSink$EventA$Response( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),)); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kKitchenSink_EventA_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling event $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| |
| void _handleResponse($fidl.Message $message) { |
| final int $txid = $message.txid; |
| if ($txid == 0) { |
| _handleEvent($message); |
| return; |
| } |
| final Completer $completer = ctrl.getCompleter($txid); |
| if ($completer == null) { |
| $message.closeHandles(); |
| return; |
| } |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kKitchenSink_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodB_Type.response; |
| $decoder.claimMemory(24); |
| $completer.complete($types[0].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| final String _name = _kKitchenSink_MethodB_Type.name; |
| ctrl.proxyError(new $fidl.FidlError('Exception handling method response $_name: $_e')); |
| ctrl.close(); |
| rethrow; |
| } |
| break; |
| default: |
| ctrl.proxyError(new $fidl.FidlError('Unexpected message ordinal: ${$message.ordinal}')); |
| ctrl.close(); |
| break; |
| } |
| } |
| @override |
| Future<void> methodA(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kKitchenSink_MethodA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodA_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| return new Future.sync(() { |
| ctrl.sendMessage($encoder.message); |
| }); |
| } |
| |
| final _eventAEventStreamController = new StreamController<KitchenSink$EventA$Response>.broadcast(); |
| @override |
| Stream<KitchenSink$EventA$Response> get eventA => _eventAEventStreamController.stream; |
| |
| @override |
| Future<int> methodB(int a, int b) async { |
| if (!ctrl.isBound) { |
| return new Future.error(new $fidl.FidlStateException('The proxy is closed.')); |
| } |
| |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kKitchenSink_MethodB_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodB_Type.request; |
| $types[0].encode($encoder, a, 0); |
| $types[1].encode($encoder, b, 0); |
| final $completer = new Completer<int>(); |
| ctrl.sendMessageWithResponse($encoder.message, $completer); |
| return $completer.future; |
| } |
| |
| } |
| |
| class KitchenSinkBinding extends $fidl.AsyncBinding<KitchenSink> { |
| KitchenSinkBinding() : super(r"KitchenSink") { |
| final List<StreamSubscription<dynamic>> $subscriptions = []; |
| void $unsubscribe() { |
| for (final $sub in $subscriptions) { |
| $sub.cancel(); |
| } |
| $subscriptions.clear(); |
| } |
| whenBound.then((_) { |
| if (impl.eventA != null) { |
| $subscriptions.add(impl.eventA.listen(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kKitchenSink_EventA_Ordinal, 0); |
| $encoder.alloc(32 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kKitchenSink_EventA_Type.response; |
| |
| $types[0].encode($encoder, $response.a, 0); |
| $types[1].encode($encoder, $response.b, 0); |
| sendMessage($encoder.message); |
| })); |
| } |
| }); |
| whenClosed.then((_) => $unsubscribe()); |
| } |
| |
| @override |
| void handleMessage($fidl.Message $message, $fidl.MessageSink $respond) { |
| final $fidl.Decoder $decoder = new $fidl.Decoder($message); |
| switch ($message.ordinal) { |
| case _kKitchenSink_MethodA_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodA_Type.request; |
| $decoder.claimMemory(32); |
| final Future<void> $future = impl.methodA( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kKitchenSink_MethodA_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| case _kKitchenSink_MethodB_Ordinal: |
| try { |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodB_Type.request; |
| $decoder.claimMemory(32); |
| final Future<int> $future = impl.methodB( |
| $types[0].decode($decoder, 0), |
| $types[1].decode($decoder, 0),); |
| $future.then(($response) { |
| final $fidl.Encoder $encoder = new $fidl.Encoder(); |
| $encoder.encodeMessageHeader(_kKitchenSink_MethodB_Ordinal, $message.txid); |
| $encoder.alloc(24 - $fidl.kMessageHeaderSize); |
| final List<$fidl.MemberType> $types = _kKitchenSink_MethodB_Type.response; |
| $types[0].encode($encoder, $response, 0); |
| $respond($encoder.message); |
| }, onError: (_e) { |
| close(); |
| final String _name = _kKitchenSink_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| }); |
| // ignore: avoid_catches_without_on_clauses |
| } catch(_e) { |
| close(); |
| final String _name = _kKitchenSink_MethodB_Type.name; |
| print('Exception handling method call $_name: $_e'); |
| rethrow; |
| } |
| break; |
| default: |
| throw new $fidl.FidlError('Unexpected message name for KitchenSinkBinding'); |
| } |
| } |
| } |
| |
| |