// Copyright 2013 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/system/proxy_message_pipe_endpoint.h" #include #include "base/logging.h" #include "mojo/system/channel.h" #include "mojo/system/local_message_pipe_endpoint.h" #include "mojo/system/message_pipe_dispatcher.h" namespace mojo { namespace system { ProxyMessagePipeEndpoint::ProxyMessagePipeEndpoint() : local_id_(MessageInTransit::kInvalidEndpointId), remote_id_(MessageInTransit::kInvalidEndpointId), is_peer_open_(true) { } ProxyMessagePipeEndpoint::ProxyMessagePipeEndpoint( LocalMessagePipeEndpoint* local_message_pipe_endpoint, bool is_peer_open) : local_id_(MessageInTransit::kInvalidEndpointId), remote_id_(MessageInTransit::kInvalidEndpointId), is_peer_open_(is_peer_open), paused_message_queue_(MessageInTransitQueue::PassContents(), local_message_pipe_endpoint->message_queue()) { local_message_pipe_endpoint->Close(); } ProxyMessagePipeEndpoint::~ProxyMessagePipeEndpoint() { DCHECK(!is_running()); DCHECK(!is_attached()); AssertConsistentState(); DCHECK(paused_message_queue_.IsEmpty()); } MessagePipeEndpoint::Type ProxyMessagePipeEndpoint::GetType() const { return kTypeProxy; } bool ProxyMessagePipeEndpoint::OnPeerClose() { DCHECK(is_peer_open_); is_peer_open_ = false; // If our outgoing message queue isn't empty, we shouldn't be destroyed yet. if (!paused_message_queue_.IsEmpty()) return true; if (is_attached()) { if (!is_running()) { // If we're not running yet, we can't be destroyed yet, because we're // still waiting for the "run" message from the other side. return true; } Detach(); } return false; } // Note: We may have to enqueue messages even when our (local) peer isn't open // -- it may have been written to and closed immediately, before we were ready. // This case is handled in |Run()| (which will call us). void ProxyMessagePipeEndpoint::EnqueueMessage( scoped_ptr message) { if (is_running()) { message->SerializeAndCloseDispatchers(channel_.get()); message->set_source_id(local_id_); message->set_destination_id(remote_id_); if (!channel_->WriteMessage(message.Pass())) LOG(WARNING) << "Failed to write message to channel"; } else { paused_message_queue_.AddMessage(message.Pass()); } } void ProxyMessagePipeEndpoint::Attach(scoped_refptr channel, MessageInTransit::EndpointId local_id) { DCHECK(channel.get()); DCHECK_NE(local_id, MessageInTransit::kInvalidEndpointId); DCHECK(!is_attached()); AssertConsistentState(); channel_ = channel; local_id_ = local_id; AssertConsistentState(); } bool ProxyMessagePipeEndpoint::Run(MessageInTransit::EndpointId remote_id) { // Assertions about arguments: DCHECK_NE(remote_id, MessageInTransit::kInvalidEndpointId); // Assertions about current state: DCHECK(is_attached()); DCHECK(!is_running()); AssertConsistentState(); remote_id_ = remote_id; AssertConsistentState(); while (!paused_message_queue_.IsEmpty()) EnqueueMessage(paused_message_queue_.GetMessage()); if (is_peer_open_) return true; // Stay alive. // We were just waiting to die. Detach(); return false; } void ProxyMessagePipeEndpoint::OnRemove() { Detach(); } void ProxyMessagePipeEndpoint::Detach() { DCHECK(is_attached()); AssertConsistentState(); channel_->DetachMessagePipeEndpoint(local_id_, remote_id_); channel_ = NULL; local_id_ = MessageInTransit::kInvalidEndpointId; remote_id_ = MessageInTransit::kInvalidEndpointId; paused_message_queue_.Clear(); AssertConsistentState(); } #ifndef NDEBUG void ProxyMessagePipeEndpoint::AssertConsistentState() const { if (is_attached()) { DCHECK_NE(local_id_, MessageInTransit::kInvalidEndpointId); } else { // Not attached. DCHECK_EQ(local_id_, MessageInTransit::kInvalidEndpointId); DCHECK_EQ(remote_id_, MessageInTransit::kInvalidEndpointId); } } #endif } // namespace system } // namespace mojo