// 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. #include "mojo/public/cpp/bindings/lib/control_message_proxy.h" #include <stddef.h> #include <stdint.h> #include <utility> #include "base/bind.h" #include "base/callback_helpers.h" #include "base/macros.h" #include "base/run_loop.h" #include "mojo/public/cpp/bindings/lib/serialization.h" #include "mojo/public/cpp/bindings/lib/validation_util.h" #include "mojo/public/cpp/bindings/message.h" #include "mojo/public/interfaces/bindings/interface_control_messages.mojom.h" namespace mojo { namespace internal { namespace { bool ValidateControlResponse(Message* message) { ValidationContext validation_context(message->payload(), message->payload_num_bytes(), 0, 0, message, "ControlResponseValidator"); if (!ValidateMessageIsResponse(message, &validation_context)) return false; switch (message->header()->name) { case interface_control::kRunMessageId: return ValidateMessagePayload< interface_control::internal::RunResponseMessageParams_Data>( message, &validation_context); } return false; } using RunCallback = base::Callback<void(interface_control::RunResponseMessageParamsPtr)>; class RunResponseForwardToCallback : public MessageReceiver { public: explicit RunResponseForwardToCallback(const RunCallback& callback) : callback_(callback) {} bool Accept(Message* message) override; private: RunCallback callback_; DISALLOW_COPY_AND_ASSIGN(RunResponseForwardToCallback); }; bool RunResponseForwardToCallback::Accept(Message* message) { if (!ValidateControlResponse(message)) return false; interface_control::internal::RunResponseMessageParams_Data* params = reinterpret_cast< interface_control::internal::RunResponseMessageParams_Data*>( message->mutable_payload()); interface_control::RunResponseMessageParamsPtr params_ptr; SerializationContext context; Deserialize<interface_control::RunResponseMessageParamsDataView>( params, ¶ms_ptr, &context); callback_.Run(std::move(params_ptr)); return true; } void SendRunMessage(MessageReceiverWithResponder* receiver, interface_control::RunInputPtr input_ptr, const RunCallback& callback) { auto params_ptr = interface_control::RunMessageParams::New(); params_ptr->input = std::move(input_ptr); Message message(interface_control::kRunMessageId, Message::kFlagExpectsResponse, 0, 0, nullptr); SerializationContext context; interface_control::internal::RunMessageParams_Data::BufferWriter params; Serialize<interface_control::RunMessageParamsDataView>( params_ptr, message.payload_buffer(), ¶ms, &context); std::unique_ptr<MessageReceiver> responder = std::make_unique<RunResponseForwardToCallback>(callback); ignore_result(receiver->AcceptWithResponder(&message, std::move(responder))); } Message ConstructRunOrClosePipeMessage( interface_control::RunOrClosePipeInputPtr input_ptr) { auto params_ptr = interface_control::RunOrClosePipeMessageParams::New(); params_ptr->input = std::move(input_ptr); Message message(interface_control::kRunOrClosePipeMessageId, 0, 0, 0, nullptr); SerializationContext context; interface_control::internal::RunOrClosePipeMessageParams_Data::BufferWriter params; Serialize<interface_control::RunOrClosePipeMessageParamsDataView>( params_ptr, message.payload_buffer(), ¶ms, &context); return message; } void SendRunOrClosePipeMessage( MessageReceiverWithResponder* receiver, interface_control::RunOrClosePipeInputPtr input_ptr) { Message message(ConstructRunOrClosePipeMessage(std::move(input_ptr))); ignore_result(receiver->Accept(&message)); } void RunVersionCallback( const base::Callback<void(uint32_t)>& callback, interface_control::RunResponseMessageParamsPtr run_response) { uint32_t version = 0u; if (run_response->output && run_response->output->is_query_version_result()) version = run_response->output->get_query_version_result()->version; callback.Run(version); } void RunClosure(const base::Closure& callback, interface_control::RunResponseMessageParamsPtr run_response) { callback.Run(); } } // namespace ControlMessageProxy::ControlMessageProxy(MessageReceiverWithResponder* receiver) : receiver_(receiver) { } ControlMessageProxy::~ControlMessageProxy() = default; void ControlMessageProxy::QueryVersion( const base::Callback<void(uint32_t)>& callback) { auto input_ptr = interface_control::RunInput::New(); input_ptr->set_query_version(interface_control::QueryVersion::New()); SendRunMessage(receiver_, std::move(input_ptr), base::Bind(&RunVersionCallback, callback)); } void ControlMessageProxy::RequireVersion(uint32_t version) { auto require_version = interface_control::RequireVersion::New(); require_version->version = version; auto input_ptr = interface_control::RunOrClosePipeInput::New(); input_ptr->set_require_version(std::move(require_version)); SendRunOrClosePipeMessage(receiver_, std::move(input_ptr)); } void ControlMessageProxy::FlushForTesting() { if (encountered_error_) return; auto input_ptr = interface_control::RunInput::New(); input_ptr->set_flush_for_testing(interface_control::FlushForTesting::New()); base::RunLoop run_loop(base::RunLoop::Type::kNestableTasksAllowed); run_loop_quit_closure_ = run_loop.QuitClosure(); SendRunMessage( receiver_, std::move(input_ptr), base::Bind(&RunClosure, base::Bind(&ControlMessageProxy::RunFlushForTestingClosure, base::Unretained(this)))); run_loop.Run(); } void ControlMessageProxy::RunFlushForTestingClosure() { DCHECK(!run_loop_quit_closure_.is_null()); base::ResetAndReturn(&run_loop_quit_closure_).Run(); } void ControlMessageProxy::OnConnectionError() { encountered_error_ = true; if (!run_loop_quit_closure_.is_null()) RunFlushForTestingClosure(); } } // namespace internal } // namespace mojo