// Copyright (c) 2012 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 "content/common/child_thread.h" #include "base/command_line.h" #include "base/message_loop.h" #include "base/process.h" #include "base/string_util.h" #include "base/tracked_objects.h" #include "content/common/child_process.h" #include "content/common/child_process_messages.h" #include "content/common/child_trace_message_filter.h" #include "content/common/fileapi/file_system_dispatcher.h" #include "content/common/quota_dispatcher.h" #include "content/common/resource_dispatcher.h" #include "content/common/socket_stream_dispatcher.h" #include "content/public/common/content_switches.h" #include "ipc/ipc_logging.h" #include "ipc/ipc_switches.h" #include "ipc/ipc_sync_channel.h" #include "ipc/ipc_sync_message_filter.h" #include "webkit/glue/webkit_glue.h" #if defined(OS_WIN) #include "content/common/handle_enumerator_win.h" #endif using tracked_objects::ThreadData; ChildThread::ChildThread() { channel_name_ = CommandLine::ForCurrentProcess()->GetSwitchValueASCII( switches::kProcessChannelID); Init(); } ChildThread::ChildThread(const std::string& channel_name) : channel_name_(channel_name) { Init(); } void ChildThread::Init() { on_channel_error_called_ = false; message_loop_ = MessageLoop::current(); channel_.reset(new IPC::SyncChannel(channel_name_, IPC::Channel::MODE_CLIENT, this, ChildProcess::current()->io_message_loop_proxy(), true, ChildProcess::current()->GetShutDownEvent())); #ifdef IPC_MESSAGE_LOG_ENABLED IPC::Logging::GetInstance()->SetIPCSender(this); #endif resource_dispatcher_.reset(new ResourceDispatcher(this)); socket_stream_dispatcher_.reset(new SocketStreamDispatcher()); file_system_dispatcher_.reset(new FileSystemDispatcher()); quota_dispatcher_.reset(new QuotaDispatcher()); sync_message_filter_ = new IPC::SyncMessageFilter(ChildProcess::current()->GetShutDownEvent()); channel_->AddFilter(sync_message_filter_.get()); channel_->AddFilter(new ChildTraceMessageFilter()); } ChildThread::~ChildThread() { #ifdef IPC_MESSAGE_LOG_ENABLED IPC::Logging::GetInstance()->SetIPCSender(NULL); #endif channel_->RemoveFilter(sync_message_filter_.get()); // Close this channel before resetting the message loop attached to it so // the message loop can call ChannelProxy::Context::OnChannelClosed(), which // releases the reference count to this channel. channel_->Close(); // The ChannelProxy object caches a pointer to the IPC thread, so need to // reset it as it's not guaranteed to outlive this object. // NOTE: this also has the side-effect of not closing the main IPC channel to // the browser process. This is needed because this is the signal that the // browser uses to know that this process has died, so we need it to be alive // until this process is shut down, and the OS closes the handle // automatically. We used to watch the object handle on Windows to do this, // but it wasn't possible to do so on POSIX. channel_->ClearIPCMessageLoop(); } void ChildThread::OnChannelError() { set_on_channel_error_called(true); MessageLoop::current()->Quit(); } bool ChildThread::Send(IPC::Message* msg) { DCHECK(MessageLoop::current() == message_loop()); if (!channel_.get()) { delete msg; return false; } return channel_->Send(msg); } void ChildThread::AddRoute(int32 routing_id, IPC::Channel::Listener* listener) { DCHECK(MessageLoop::current() == message_loop()); router_.AddRoute(routing_id, listener); } void ChildThread::RemoveRoute(int32 routing_id) { DCHECK(MessageLoop::current() == message_loop()); router_.RemoveRoute(routing_id); } IPC::Channel::Listener* ChildThread::ResolveRoute(int32 routing_id) { DCHECK(MessageLoop::current() == message_loop()); return router_.ResolveRoute(routing_id); } webkit_glue::ResourceLoaderBridge* ChildThread::CreateBridge( const webkit_glue::ResourceLoaderBridge::RequestInfo& request_info) { return resource_dispatcher()->CreateBridge(request_info); } base::SharedMemory* ChildThread::AllocateSharedMemory( size_t buf_size) { scoped_ptr shared_buf; #if defined(OS_WIN) shared_buf.reset(new base::SharedMemory); if (!shared_buf->CreateAndMapAnonymous(buf_size)) { NOTREACHED(); return NULL; } #else // On POSIX, we need to ask the browser to create the shared memory for us, // since this is blocked by the sandbox. base::SharedMemoryHandle shared_mem_handle; if (Send(new ChildProcessHostMsg_SyncAllocateSharedMemory( buf_size, &shared_mem_handle))) { if (base::SharedMemory::IsHandleValid(shared_mem_handle)) { shared_buf.reset(new base::SharedMemory(shared_mem_handle, false)); if (!shared_buf->Map(buf_size)) { NOTREACHED() << "Map failed"; return NULL; } } else { NOTREACHED() << "Browser failed to allocate shared memory"; return NULL; } } else { NOTREACHED() << "Browser allocation request message failed"; return NULL; } #endif return shared_buf.release(); } ResourceDispatcher* ChildThread::resource_dispatcher() { return resource_dispatcher_.get(); } IPC::SyncMessageFilter* ChildThread::sync_message_filter() { return sync_message_filter_; } MessageLoop* ChildThread::message_loop() { return message_loop_; } bool ChildThread::OnMessageReceived(const IPC::Message& msg) { // Resource responses are sent to the resource dispatcher. if (resource_dispatcher_->OnMessageReceived(msg)) return true; if (socket_stream_dispatcher_->OnMessageReceived(msg)) return true; if (file_system_dispatcher_->OnMessageReceived(msg)) return true; if (quota_dispatcher_->OnMessageReceived(msg)) return true; bool handled = true; IPC_BEGIN_MESSAGE_MAP(ChildThread, msg) IPC_MESSAGE_HANDLER(ChildProcessMsg_Shutdown, OnShutdown) #if defined(IPC_MESSAGE_LOG_ENABLED) IPC_MESSAGE_HANDLER(ChildProcessMsg_SetIPCLoggingEnabled, OnSetIPCLoggingEnabled) #endif IPC_MESSAGE_HANDLER(ChildProcessMsg_SetProfilerStatus, OnSetProfilerStatus) IPC_MESSAGE_HANDLER(ChildProcessMsg_GetChildProfilerData, OnGetChildProfilerData) IPC_MESSAGE_HANDLER(ChildProcessMsg_DumpHandles, OnDumpHandles) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() if (handled) return true; if (msg.routing_id() == MSG_ROUTING_CONTROL) return OnControlMessageReceived(msg); return router_.OnMessageReceived(msg); } bool ChildThread::OnControlMessageReceived(const IPC::Message& msg) { return false; } void ChildThread::OnShutdown() { MessageLoop::current()->Quit(); } #if defined(IPC_MESSAGE_LOG_ENABLED) void ChildThread::OnSetIPCLoggingEnabled(bool enable) { if (enable) IPC::Logging::GetInstance()->Enable(); else IPC::Logging::GetInstance()->Disable(); } #endif // IPC_MESSAGE_LOG_ENABLED void ChildThread::OnSetProfilerStatus(ThreadData::Status status) { ThreadData::InitializeAndSetTrackingStatus(status); } void ChildThread::OnGetChildProfilerData(int sequence_number) { tracked_objects::ProcessDataSnapshot process_data; ThreadData::Snapshot(false, &process_data); Send(new ChildProcessHostMsg_ChildProfilerData(sequence_number, process_data)); } void ChildThread::OnDumpHandles() { #if defined(OS_WIN) scoped_refptr handle_enum( new content::HandleEnumerator( CommandLine::ForCurrentProcess()->HasSwitch( switches::kAuditAllHandles))); handle_enum->EnumerateHandles(); Send(new ChildProcessHostMsg_DumpHandlesDone); return; #endif NOTIMPLEMENTED(); } ChildThread* ChildThread::current() { return ChildProcess::current()->main_thread(); } bool ChildThread::IsWebFrameValid(WebKit::WebFrame* frame) { // Return false so that it is overridden in any process in which it is used. return false; } void ChildThread::OnProcessFinalRelease() { if (on_channel_error_called_) { MessageLoop::current()->Quit(); return; } // The child process shutdown sequence is a request response based mechanism, // where we send out an initial feeler request to the child process host // instance in the browser to verify if it's ok to shutdown the child process. // The browser then sends back a response if it's ok to shutdown. This avoids // race conditions if the process refcount is 0 but there's an IPC message // inflight that would addref it. Send(new ChildProcessHostMsg_ShutdownRequest); }