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ipc / ipc_channel_proxy.cc [blame]
// Copyright 2012 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ipc/ipc_channel_proxy.h"
#include <stddef.h>
#include <stdint.h>
#include <utility>
#include "base/compiler_specific.h"
#include "base/containers/contains.h"
#include "base/functional/bind.h"
#include "base/location.h"
#include "base/memory/ptr_util.h"
#include "base/memory/ref_counted.h"
#include "base/task/single_thread_task_runner.h"
#include "build/build_config.h"
#include "ipc/ipc_channel_factory.h"
#include "ipc/ipc_listener.h"
#include "ipc/ipc_logging.h"
#include "ipc/ipc_message_macros.h"
#include "ipc/message_filter.h"
#include "ipc/message_filter_router.h"
#include "mojo/public/cpp/bindings/pending_associated_receiver.h"
namespace IPC {
//------------------------------------------------------------------------------
ChannelProxy::Context::Context(
Listener* listener,
const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner,
const scoped_refptr<base::SingleThreadTaskRunner>& listener_task_runner)
: default_listener_task_runner_(listener_task_runner),
listener_(listener),
ipc_task_runner_(ipc_task_runner),
channel_connected_called_(false),
message_filter_router_(new MessageFilterRouter()),
peer_pid_(base::kNullProcessId) {
DCHECK(ipc_task_runner_.get());
// The Listener thread where Messages are handled must be a separate thread
// to avoid oversubscribing the IO thread. If you trigger this error, you
// need to either:
// 1) Create the ChannelProxy on a different thread, or
// 2) Just use Channel
// We make an exception for NULL listeners.
DCHECK(!listener ||
(ipc_task_runner_.get() != default_listener_task_runner_.get()));
}
ChannelProxy::Context::~Context() = default;
void ChannelProxy::Context::ClearIPCTaskRunner() {
ipc_task_runner_.reset();
}
void ChannelProxy::Context::CreateChannel(
std::unique_ptr<ChannelFactory> factory) {
base::AutoLock channel_lock(channel_lifetime_lock_);
DCHECK(!channel_);
DCHECK_EQ(factory->GetIPCTaskRunner(), ipc_task_runner_);
channel_ = factory->BuildChannel(this);
channel_->SetUrgentMessageObserver(urgent_message_observer_);
Channel::AssociatedInterfaceSupport* support =
channel_->GetAssociatedInterfaceSupport();
if (support) {
thread_safe_channel_ = support->CreateThreadSafeChannel();
base::AutoLock filter_lock(pending_filters_lock_);
for (auto& entry : pending_io_thread_interfaces_)
support->AddGenericAssociatedInterface(entry.first, entry.second);
pending_io_thread_interfaces_.clear();
}
}
bool ChannelProxy::Context::TryFilters(const Message& message) {
DCHECK(message_filter_router_);
#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
Logging* logger = Logging::GetInstance();
if (logger->Enabled())
logger->OnPreDispatchMessage(message);
#endif
if (message_filter_router_->TryFilters(message)) {
if (message.dispatch_error()) {
GetTaskRunner(message.routing_id())
->PostTask(FROM_HERE, base::BindOnce(&Context::OnDispatchBadMessage,
this, message));
}
#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
if (logger->Enabled())
logger->OnPostDispatchMessage(message);
#endif
return true;
}
return false;
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::PauseChannel() {
DCHECK(channel_);
channel_->Pause();
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::UnpauseChannel(bool flush) {
DCHECK(channel_);
channel_->Unpause(flush);
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::FlushChannel() {
DCHECK(channel_);
channel_->Flush();
}
// Called on the IPC::Channel thread
bool ChannelProxy::Context::OnMessageReceived(const Message& message) {
// First give a chance to the filters to process this message.
if (!TryFilters(message))
OnMessageReceivedNoFilter(message);
return true;
}
// Called on the IPC::Channel thread
bool ChannelProxy::Context::OnMessageReceivedNoFilter(const Message& message) {
GetTaskRunner(message.routing_id())
->PostTask(FROM_HERE,
base::BindOnce(&Context::OnDispatchMessage, this, message));
return true;
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnChannelConnected(int32_t peer_pid) {
// We cache off the peer_pid so it can be safely accessed from both threads.
{
base::AutoLock l(peer_pid_lock_);
peer_pid_ = peer_pid;
}
// Add any pending filters. This avoids a race condition where someone
// creates a ChannelProxy, calls AddFilter, and then right after starts the
// peer process. The IO thread could receive a message before the task to add
// the filter is run on the IO thread.
OnAddFilter();
// See above comment about using default_listener_task_runner_ here.
default_listener_task_runner_->PostTask(
FROM_HERE, base::BindOnce(&Context::OnDispatchConnected, this));
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnChannelError() {
for (size_t i = 0; i < filters_.size(); ++i)
filters_[i]->OnChannelError();
// See above comment about using default_listener_task_runner_ here.
default_listener_task_runner_->PostTask(
FROM_HERE, base::BindOnce(&Context::OnDispatchError, this));
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnAssociatedInterfaceRequest(
const std::string& interface_name,
mojo::ScopedInterfaceEndpointHandle handle) {
default_listener_task_runner_->PostTask(
FROM_HERE, base::BindOnce(&Context::OnDispatchAssociatedInterfaceRequest,
this, interface_name, std::move(handle)));
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnChannelOpened() {
DCHECK(channel_);
// Assume a reference to ourselves on behalf of this thread. This reference
// will be released when we are closed.
AddRef();
if (!channel_->Connect()) {
OnChannelError();
return;
}
for (size_t i = 0; i < filters_.size(); ++i)
filters_[i]->OnFilterAdded(channel_.get());
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnChannelClosed() {
// It's okay for IPC::ChannelProxy::Close to be called more than once, which
// would result in this branch being taken.
if (!channel_)
return;
for (auto& filter : pending_filters_) {
filter->OnChannelClosing();
filter->OnFilterRemoved();
}
for (auto& filter : filters_) {
filter->OnChannelClosing();
filter->OnFilterRemoved();
}
// We don't need the filters anymore.
message_filter_router_->Clear();
filters_.clear();
// We don't need the lock, because at this point, the listener thread can't
// access it any more.
pending_filters_.clear();
ClearChannel();
// Balance with the reference taken during startup. This may result in
// self-destruction.
Release();
}
void ChannelProxy::Context::Clear() {
listener_ = nullptr;
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnSendMessage(std::unique_ptr<Message> message) {
if (!channel_) {
OnChannelClosed();
return;
}
if (!channel_->Send(message.release()))
OnChannelError();
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnAddFilter() {
// Our OnChannelConnected method has not yet been called, so we can't be
// sure that channel_ is valid yet. When OnChannelConnected *is* called,
// it invokes OnAddFilter, so any pending filter(s) will be added at that
// time.
// No lock necessary for |peer_pid_| because it is only modified on this
// thread.
if (peer_pid_ == base::kNullProcessId)
return;
std::vector<scoped_refptr<MessageFilter> > new_filters;
{
base::AutoLock auto_lock(pending_filters_lock_);
new_filters.swap(pending_filters_);
}
for (size_t i = 0; i < new_filters.size(); ++i) {
filters_.push_back(new_filters[i]);
message_filter_router_->AddFilter(new_filters[i].get());
// The channel has already been created and connected, so we need to
// inform the filters right now.
new_filters[i]->OnFilterAdded(channel_.get());
new_filters[i]->OnChannelConnected(peer_pid_);
}
}
// Called on the IPC::Channel thread
void ChannelProxy::Context::OnRemoveFilter(MessageFilter* filter) {
// No lock necessary for |peer_pid_| because it is only modified on this
// thread.
if (peer_pid_ == base::kNullProcessId) {
// The channel is not yet connected, so any filters are still pending.
base::AutoLock auto_lock(pending_filters_lock_);
for (size_t i = 0; i < pending_filters_.size(); ++i) {
if (pending_filters_[i].get() == filter) {
filter->OnFilterRemoved();
pending_filters_.erase(pending_filters_.begin() + i);
return;
}
}
return;
}
if (!channel_)
return; // The filters have already been deleted.
message_filter_router_->RemoveFilter(filter);
for (size_t i = 0; i < filters_.size(); ++i) {
if (filters_[i].get() == filter) {
filter->OnFilterRemoved();
filters_.erase(filters_.begin() + i);
return;
}
}
NOTREACHED() << "filter to be removed not found";
}
// Called on the listener's thread
void ChannelProxy::Context::AddFilter(MessageFilter* filter) {
base::AutoLock auto_lock(pending_filters_lock_);
pending_filters_.push_back(base::WrapRefCounted(filter));
ipc_task_runner_->PostTask(FROM_HERE,
base::BindOnce(&Context::OnAddFilter, this));
}
// Called on the listener's thread
void ChannelProxy::Context::OnDispatchMessage(const Message& message) {
if (!listener_)
return;
OnDispatchConnected();
#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
Logging* logger = Logging::GetInstance();
if (message.type() == IPC_LOGGING_ID) {
logger->OnReceivedLoggingMessage(message);
return;
}
if (logger->Enabled())
logger->OnPreDispatchMessage(message);
#endif
listener_->OnMessageReceived(message);
if (message.dispatch_error())
listener_->OnBadMessageReceived(message);
#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
if (logger->Enabled())
logger->OnPostDispatchMessage(message);
#endif
}
// Called on the listener's thread.
void ChannelProxy::Context::AddListenerTaskRunner(
int32_t routing_id,
scoped_refptr<base::SingleThreadTaskRunner> task_runner) {
DCHECK(default_listener_task_runner_->BelongsToCurrentThread());
DCHECK(task_runner);
base::AutoLock lock(listener_thread_task_runners_lock_);
if (!base::Contains(listener_thread_task_runners_, routing_id))
listener_thread_task_runners_.insert({routing_id, std::move(task_runner)});
}
// Called on the listener's thread.
void ChannelProxy::Context::RemoveListenerTaskRunner(int32_t routing_id) {
DCHECK(default_listener_task_runner_->BelongsToCurrentThread());
base::AutoLock lock(listener_thread_task_runners_lock_);
listener_thread_task_runners_.erase(routing_id);
}
// Called on the IPC::Channel thread.
scoped_refptr<base::SingleThreadTaskRunner>
ChannelProxy::Context::GetTaskRunner(int32_t routing_id) {
DCHECK(ipc_task_runner_->BelongsToCurrentThread());
if (routing_id == MSG_ROUTING_NONE)
return default_listener_task_runner_;
base::AutoLock lock(listener_thread_task_runners_lock_);
auto task_runner = listener_thread_task_runners_.find(routing_id);
if (task_runner == listener_thread_task_runners_.end())
return default_listener_task_runner_;
DCHECK(task_runner->second);
return task_runner->second;
}
// Called on the listener's thread
void ChannelProxy::Context::OnDispatchConnected() {
if (channel_connected_called_)
return;
base::ProcessId peer_pid;
{
base::AutoLock l(peer_pid_lock_);
peer_pid = peer_pid_;
}
channel_connected_called_ = true;
if (listener_)
listener_->OnChannelConnected(peer_pid);
}
// Called on the listener's thread
void ChannelProxy::Context::OnDispatchError() {
if (listener_)
listener_->OnChannelError();
}
// Called on the listener's thread
void ChannelProxy::Context::OnDispatchBadMessage(const Message& message) {
if (listener_)
listener_->OnBadMessageReceived(message);
}
// Called on the listener's thread
void ChannelProxy::Context::OnDispatchAssociatedInterfaceRequest(
const std::string& interface_name,
mojo::ScopedInterfaceEndpointHandle handle) {
if (listener_)
listener_->OnAssociatedInterfaceRequest(interface_name, std::move(handle));
}
void ChannelProxy::Context::ClearChannel() {
base::AutoLock l(channel_lifetime_lock_);
channel_.reset();
}
void ChannelProxy::Context::AddGenericAssociatedInterfaceForIOThread(
const std::string& name,
const GenericAssociatedInterfaceFactory& factory) {
base::AutoLock channel_lock(channel_lifetime_lock_);
if (!channel_) {
base::AutoLock filter_lock(pending_filters_lock_);
pending_io_thread_interfaces_.emplace_back(name, factory);
return;
}
Channel::AssociatedInterfaceSupport* support =
channel_->GetAssociatedInterfaceSupport();
if (support)
support->AddGenericAssociatedInterface(name, factory);
}
void ChannelProxy::Context::Send(Message* message) {
ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&ChannelProxy::Context::OnSendMessage, this,
base::WrapUnique(message)));
}
// Called on the listener's thread.
void ChannelProxy::Context::SetUrgentMessageObserver(
UrgentMessageObserver* observer) {
urgent_message_observer_ = observer;
}
//-----------------------------------------------------------------------------
// static
std::unique_ptr<ChannelProxy> ChannelProxy::Create(
const IPC::ChannelHandle& channel_handle,
Channel::Mode mode,
Listener* listener,
const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner,
const scoped_refptr<base::SingleThreadTaskRunner>& listener_task_runner) {
std::unique_ptr<ChannelProxy> channel(
new ChannelProxy(listener, ipc_task_runner, listener_task_runner));
channel->Init(channel_handle, mode, true);
return channel;
}
// static
std::unique_ptr<ChannelProxy> ChannelProxy::Create(
std::unique_ptr<ChannelFactory> factory,
Listener* listener,
const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner,
const scoped_refptr<base::SingleThreadTaskRunner>& listener_task_runner) {
std::unique_ptr<ChannelProxy> channel(
new ChannelProxy(listener, ipc_task_runner, listener_task_runner));
channel->Init(std::move(factory), true);
return channel;
}
ChannelProxy::ChannelProxy(Context* context) : context_(context) {}
ChannelProxy::ChannelProxy(
Listener* listener,
const scoped_refptr<base::SingleThreadTaskRunner>& ipc_task_runner,
const scoped_refptr<base::SingleThreadTaskRunner>& listener_task_runner)
: context_(new Context(listener, ipc_task_runner, listener_task_runner)) {}
ChannelProxy::~ChannelProxy() {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
Close();
}
void ChannelProxy::Init(const IPC::ChannelHandle& channel_handle,
Channel::Mode mode,
bool create_pipe_now) {
#if BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA)
// When we are creating a server on POSIX, we need its file descriptor
// to be created immediately so that it can be accessed and passed
// to other processes. Forcing it to be created immediately avoids
// race conditions that may otherwise arise.
if (mode & Channel::MODE_SERVER_FLAG) {
create_pipe_now = true;
}
#endif // BUILDFLAG(IS_POSIX) || BUILDFLAG(IS_FUCHSIA)
Init(
ChannelFactory::Create(channel_handle, mode, context_->ipc_task_runner()),
create_pipe_now);
}
void ChannelProxy::Init(std::unique_ptr<ChannelFactory> factory,
bool create_pipe_now) {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
DCHECK(!did_init_);
if (create_pipe_now) {
// Create the channel immediately. This effectively sets up the
// low-level pipe so that the client can connect. Without creating
// the pipe immediately, it is possible for a listener to attempt
// to connect and get an error since the pipe doesn't exist yet.
context_->CreateChannel(std::move(factory));
} else {
context_->ipc_task_runner()->PostTask(
FROM_HERE,
base::BindOnce(&Context::CreateChannel, context_, std::move(factory)));
}
// complete initialization on the background thread
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::OnChannelOpened, context_));
did_init_ = true;
OnChannelInit();
}
void ChannelProxy::Pause() {
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::PauseChannel, context_));
}
void ChannelProxy::Unpause(bool flush) {
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::UnpauseChannel, context_, flush));
}
void ChannelProxy::Flush() {
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::FlushChannel, context_));
}
void ChannelProxy::Close() {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
// Clear the backpointer to the listener so that any pending calls to
// Context::OnDispatchMessage or OnDispatchError will be ignored. It is
// possible that the channel could be closed while it is receiving messages!
context_->Clear();
if (context_->ipc_task_runner()) {
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::OnChannelClosed, context_));
}
}
bool ChannelProxy::Send(Message* message) {
DCHECK(!message->is_sync()) << "Need to use IPC::SyncChannel";
SendInternal(message);
return true;
}
void ChannelProxy::SendInternal(Message* message) {
DCHECK(did_init_);
// TODO(alexeypa): add DCHECK(CalledOnValidThread()) here. Currently there are
// tests that call Send() from a wrong thread. See http://crbug.com/163523.
#ifdef ENABLE_IPC_FUZZER
// In IPC fuzzing builds, it is possible to define a filter to apply to
// outgoing messages. It will either rewrite the message and return a new
// one, freeing the original, or return the message unchanged.
if (outgoing_message_filter())
message = outgoing_message_filter()->Rewrite(message);
#endif
#if BUILDFLAG(IPC_MESSAGE_LOG_ENABLED)
Logging::GetInstance()->OnSendMessage(message);
#endif
context_->Send(message);
}
void ChannelProxy::AddFilter(MessageFilter* filter) {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
context_->AddFilter(filter);
}
void ChannelProxy::RemoveFilter(MessageFilter* filter) {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
context_->ipc_task_runner()->PostTask(
FROM_HERE, base::BindOnce(&Context::OnRemoveFilter, context_,
base::RetainedRef(filter)));
}
void ChannelProxy::AddGenericAssociatedInterfaceForIOThread(
const std::string& name,
const GenericAssociatedInterfaceFactory& factory) {
context()->AddGenericAssociatedInterfaceForIOThread(name, factory);
}
void ChannelProxy::GetRemoteAssociatedInterface(
mojo::GenericPendingAssociatedReceiver receiver) {
DCHECK(did_init_);
context()->thread_safe_channel().GetAssociatedInterface(std::move(receiver));
}
void ChannelProxy::ClearIPCTaskRunner() {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
context()->ClearIPCTaskRunner();
}
void ChannelProxy::OnChannelInit() {
}
void ChannelProxy::SetUrgentMessageObserver(UrgentMessageObserver* observer) {
DCHECK_CALLED_ON_VALID_SEQUENCE(sequence_checker_);
DCHECK(!did_init_);
context_->SetUrgentMessageObserver(observer);
}
//-----------------------------------------------------------------------------
} // namespace IPC