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mojo / core / node_controller.cc [blame]
// Copyright 2016 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifdef UNSAFE_BUFFERS_BUILD
// TODO(crbug.com/351564777): Remove this and convert code to safer constructs.
#pragma allow_unsafe_buffers
#endif
#include "mojo/core/node_controller.h"
#include <limits>
#include "base/containers/contains.h"
#include "base/containers/queue.h"
#include "base/functional/bind.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/process/process_handle.h"
#include "base/rand_util.h"
#include "base/ranges/algorithm.h"
#include "base/task/current_thread.h"
#include "base/task/single_thread_task_runner.h"
#include "build/build_config.h"
#include "mojo/core/broker.h"
#include "mojo/core/broker_host.h"
#include "mojo/core/configuration.h"
#include "mojo/core/ports/name.h"
#include "mojo/core/ports/port_locker.h"
#include "mojo/core/request_context.h"
#include "mojo/core/user_message_impl.h"
#include "mojo/public/cpp/platform/named_platform_channel.h"
#include "mojo/public/cpp/platform/platform_channel.h"
#include "mojo/public/cpp/platform/platform_channel_server.h"
#if BUILDFLAG(IS_WIN)
#include <windows.h>
#endif
namespace mojo {
namespace core {
namespace {
template <typename T>
void GenerateRandomName(T* out) {
base::RandBytes(base::byte_span_from_ref(*out));
}
ports::NodeName GetRandomNodeName() {
ports::NodeName name;
GenerateRandomName(&name);
return name;
}
Channel::MessagePtr SerializeEventMessage(ports::ScopedEvent event) {
if (event->type() == ports::Event::Type::kUserMessage) {
// User message events must already be partially serialized.
return UserMessageImpl::FinalizeEventMessage(
ports::Event::Cast<ports::UserMessageEvent>(&event));
}
void* data;
size_t size = event->GetSerializedSize();
auto message = NodeChannel::CreateEventMessage(size, size, &data, 0);
event->Serialize(data);
return message;
}
ports::ScopedEvent DeserializeEventMessage(
const ports::NodeName& from_node,
Channel::MessagePtr channel_message) {
void* data;
size_t size;
bool valid = NodeChannel::GetEventMessageData(*channel_message, &data, &size);
if (!valid)
return nullptr;
auto event = ports::Event::Deserialize(data, size);
if (!event)
return nullptr;
if (event->type() != ports::Event::Type::kUserMessage)
return event;
// User messages require extra parsing.
const size_t event_size = event->GetSerializedSize();
// Note that if this weren't true, the event couldn't have been deserialized
// in the first place.
DCHECK_LE(event_size, size);
auto message_event = ports::Event::Cast<ports::UserMessageEvent>(&event);
auto message = UserMessageImpl::CreateFromChannelMessage(
message_event.get(), std::move(channel_message),
static_cast<uint8_t*>(data) + event_size, size - event_size);
if (!message)
return nullptr;
message->set_source_node(from_node);
message_event->AttachMessage(std::move(message));
return std::move(message_event);
}
// Used by NodeController to watch for shutdown. Since no IO can happen once
// the IO thread is killed, the NodeController can cleanly drop all its peers
// at that time.
class ThreadDestructionObserver
: public base::CurrentThread::DestructionObserver {
public:
static void Create(scoped_refptr<base::SingleThreadTaskRunner> task_runner,
base::OnceClosure callback) {
if (task_runner->RunsTasksInCurrentSequence()) {
// Owns itself.
new ThreadDestructionObserver(std::move(callback));
} else {
task_runner->PostTask(
FROM_HERE, base::BindOnce(&Create, task_runner, std::move(callback)));
}
}
ThreadDestructionObserver(const ThreadDestructionObserver&) = delete;
ThreadDestructionObserver& operator=(const ThreadDestructionObserver&) =
delete;
private:
explicit ThreadDestructionObserver(base::OnceClosure callback)
: callback_(std::move(callback)) {
base::CurrentThread::Get()->AddDestructionObserver(this);
}
~ThreadDestructionObserver() override {
base::CurrentThread::Get()->RemoveDestructionObserver(this);
}
// base::CurrentThread::DestructionObserver:
void WillDestroyCurrentMessageLoop() override {
std::move(callback_).Run();
delete this;
}
base::OnceClosure callback_;
};
#if !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
std::optional<ConnectionParams> CreateSyncNodeConnectionParams(
const base::Process& target_process,
ConnectionParams connection_params,
const ProcessErrorCallback& process_error_callback,
Channel::HandlePolicy& handle_policy) {
ConnectionParams node_connection_params;
const bool is_untrusted_process = connection_params.is_untrusted_process();
// BrokerHost owns itself.
BrokerHost* broker_host = new BrokerHost(
target_process.IsValid() ? target_process.Duplicate() : base::Process(),
std::move(connection_params), process_error_callback);
// Sync connections usurp the passed endpoint and use it for the sync broker
// channel. A new channel is created here for the NodeChannel and sent over
// a sync broker message to the client.
PlatformChannel node_channel;
node_connection_params = ConnectionParams(node_channel.TakeLocalEndpoint());
node_connection_params.set_is_untrusted_process(is_untrusted_process);
if (!broker_host->SendChannel(
node_channel.TakeRemoteEndpoint().TakePlatformHandle())) {
return std::nullopt;
}
return node_connection_params;
}
#endif // !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
} // namespace
NodeController::~NodeController() = default;
NodeController::NodeController()
: name_(GetRandomNodeName()), node_(new ports::Node(name_, this)) {
DVLOG(1) << "Initializing node " << name_;
}
void NodeController::SetIOTaskRunner(
scoped_refptr<base::SingleThreadTaskRunner> task_runner) {
io_task_runner_ = task_runner;
ThreadDestructionObserver::Create(
io_task_runner_,
base::BindOnce(&NodeController::DropAllPeers, base::Unretained(this)));
}
void NodeController::SendBrokerClientInvitation(
base::Process target_process,
ConnectionParams connection_params,
const std::vector<std::pair<std::string, ports::PortRef>>& attached_ports,
const ProcessErrorCallback& process_error_callback) {
// Generate the temporary remote node name here so that it can be associated
// with the ports "attached" to this invitation.
ports::NodeName temporary_node_name;
GenerateRandomName(&temporary_node_name);
{
base::AutoLock lock(reserved_ports_lock_);
PortMap& port_map = reserved_ports_[temporary_node_name];
for (auto& entry : attached_ports) {
auto result = port_map.emplace(entry.first, entry.second);
DCHECK(result.second) << "Duplicate attachment: " << entry.first;
}
}
io_task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&NodeController::SendBrokerClientInvitationOnIOThread,
base::Unretained(this), std::move(target_process),
std::move(connection_params), temporary_node_name,
process_error_callback));
}
void NodeController::AcceptBrokerClientInvitation(
ConnectionParams connection_params) {
std::optional<PlatformHandle> broker_host_handle;
DCHECK(!GetConfiguration().is_broker_process);
#if !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
if (!connection_params.is_async()) {
// Use the bootstrap channel for the broker and receive the node's channel
// synchronously as the first message from the broker.
DCHECK(connection_params.endpoint().is_valid());
broker_ = std::make_unique<Broker>(
connection_params.TakeEndpoint().TakePlatformHandle(),
/*wait_for_channel_handle=*/true);
PlatformChannelEndpoint endpoint = broker_->GetInviterEndpoint();
if (!endpoint.is_valid()) {
// Most likely the inviter's side of the channel has already been closed
// and the broker was unable to negotiate a NodeChannel pipe. In this case
// we can cancel our connection to our inviter.
DVLOG(1) << "Cannot connect to invalid inviter channel.";
CancelPendingPortMerges();
return;
}
const bool leak_endpoint = connection_params.leak_endpoint();
connection_params = ConnectionParams(std::move(endpoint));
connection_params.set_leak_endpoint(leak_endpoint);
} else {
// For async connections, we instead create a new channel for the broker and
// send a request for the inviting process to bind to it. This avoids doing
// blocking I/O to accept the invitation. Does not work in some sandboxed
// environments, where the PlatformChannel constructor will CHECK fail.
PlatformChannel channel;
broker_ = std::make_unique<Broker>(
channel.TakeLocalEndpoint().TakePlatformHandle(),
/*wait_for_channel_handle=*/false);
broker_host_handle = channel.TakeRemoteEndpoint().TakePlatformHandle();
}
#endif
// Re-enable port merge operations, which may have been disabled if this isn't
// the first invitation accepted by this process.
base::AutoLock lock(pending_port_merges_lock_);
reject_pending_merges_ = false;
io_task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&NodeController::AcceptBrokerClientInvitationOnIOThread,
base::Unretained(this), std::move(connection_params),
std::move(broker_host_handle)));
}
void NodeController::ConnectIsolated(ConnectionParams connection_params,
const ports::PortRef& port,
std::string_view connection_name) {
io_task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&NodeController::ConnectIsolatedOnIOThread,
base::Unretained(this), std::move(connection_params), port,
std::string(connection_name)));
}
void NodeController::SetPortObserver(const ports::PortRef& port,
scoped_refptr<PortObserver> observer) {
node_->SetUserData(port, std::move(observer));
}
void NodeController::ClosePort(const ports::PortRef& port) {
SetPortObserver(port, nullptr);
int rv = node_->ClosePort(port);
DCHECK_EQ(rv, ports::OK) << " Failed to close port: " << port.name();
}
int NodeController::SendUserMessage(
const ports::PortRef& port,
std::unique_ptr<ports::UserMessageEvent> message) {
return node_->SendUserMessage(port, std::move(message));
}
void NodeController::MergePortIntoInviter(const std::string& name,
const ports::PortRef& port) {
scoped_refptr<NodeChannel> inviter;
bool reject_merge = false;
{
// Hold |pending_port_merges_lock_| while getting |inviter|. Otherwise,
// there is a race where the inviter can be set, and |pending_port_merges_|
// be processed between retrieving |inviter| and adding the merge to
// |pending_port_merges_|.
base::AutoLock lock(pending_port_merges_lock_);
inviter = GetInviterChannel();
if (reject_pending_merges_) {
reject_merge = true;
} else if (!inviter) {
pending_port_merges_.push_back(std::make_pair(name, port));
return;
}
}
if (reject_merge) {
node_->ClosePort(port);
DVLOG(2) << "Rejecting port merge for name " << name
<< " due to closed inviter channel.";
return;
}
RecordPendingPortMerge(port);
inviter->RequestPortMerge(port.name(), name);
}
int NodeController::MergeLocalPorts(const ports::PortRef& port0,
const ports::PortRef& port1) {
return node_->MergeLocalPorts(port0, port1);
}
base::WritableSharedMemoryRegion NodeController::CreateSharedBuffer(
size_t num_bytes) {
#if !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA) && \
!BUILDFLAG(IS_ANDROID)
// Shared buffer creation failure is fatal, so always use the broker when we
// have one; unless of course the embedder forces us not to.
if (!GetConfiguration().force_direct_shared_memory_allocation && broker_)
return broker_->GetWritableSharedMemoryRegion(num_bytes);
#endif
return base::WritableSharedMemoryRegion::Create(num_bytes);
}
void NodeController::RequestShutdown(base::OnceClosure callback) {
{
base::AutoLock lock(shutdown_lock_);
shutdown_callback_ = std::move(callback);
shutdown_callback_flag_.Set(true);
}
AttemptShutdownIfRequested();
}
void NodeController::NotifyBadMessageFrom(const ports::NodeName& source_node,
const std::string& error) {
scoped_refptr<NodeChannel> peer = GetPeerChannel(source_node);
DCHECK(peer);
DCHECK(peer->HasBadMessageHandler());
peer->NotifyBadMessage(error);
}
bool NodeController::HasBadMessageHandler(const ports::NodeName& source_node) {
scoped_refptr<NodeChannel> peer = GetPeerChannel(source_node);
return peer ? peer->HasBadMessageHandler() : false;
}
void NodeController::ForceDisconnectProcessForTesting(
base::ProcessId process_id) {
io_task_runner_->PostTask(
FROM_HERE,
base::BindOnce(
&NodeController::ForceDisconnectProcessForTestingOnIOThread,
base::Unretained(this), process_id));
}
void NodeController::RecordPendingPortMerge(const ports::PortRef& port_ref) {
// TODO(sroettger): this should also keep track of the node that is allowed
// to trigger the merge.
ports::SinglePortLocker locker(&port_ref);
locker.port()->pending_merge_peer = true;
}
// static
void NodeController::DeserializeRawBytesAsEventForFuzzer(
base::span<const unsigned char> data) {
void* payload;
auto message = NodeChannel::CreateEventMessage(0, data.size(), &payload, 0);
DCHECK(message);
base::ranges::copy(data, static_cast<unsigned char*>(payload));
DeserializeEventMessage(ports::NodeName(), std::move(message));
}
// static
void NodeController::DeserializeMessageAsEventForFuzzer(
Channel::MessagePtr message) {
DeserializeEventMessage(ports::NodeName(), std::move(message));
}
void NodeController::SendBrokerClientInvitationOnIOThread(
base::Process target_process,
ConnectionParams connection_params,
ports::NodeName temporary_node_name,
const ProcessErrorCallback& process_error_callback) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
#if !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
Channel::HandlePolicy handle_policy = Channel::HandlePolicy::kAcceptHandles;
ConnectionParams node_connection_params;
if (connection_params.is_async()) {
// For async connections, the passed endpoint really is the NodeChannel
// endpoint. The broker channel will be established asynchronously by a
// |BIND_SYNC_BROKER| message from the invited client.
node_connection_params = std::move(connection_params);
} else {
#if BUILDFLAG(IS_WIN)
// On Windows, if `target_process` is invalid we can't duplicate a pipe
// handle to the remote client. In that case we instead open a new named
// pipe and send the client its name via the broker. Once connected, the new
// named pipe will be used for the client Channel.
if (!target_process.IsValid()) {
NamedPlatformChannel::Options options;
NamedPlatformChannel named_channel(options);
const bool is_untrusted_process =
connection_params.is_untrusted_process();
BrokerHost* broker_host =
new BrokerHost(base::Process(), std::move(connection_params),
process_error_callback);
broker_host->SendNamedChannel(named_channel.GetServerName());
// NOTE: The callback given here binds to `this` unretained. This is safe
// because in production NodeController lives forever. In tests which do
// tear it down, the IO thread is always destroyed first so this callback
// will never run after NodeController destruction.
PlatformChannelServer::WaitForConnection(
named_channel.TakeServerEndpoint(),
base::BindOnce(
[](base::Process target_process,
const ports::NodeName& temporary_node_name,
const ProcessErrorCallback& process_error_callback,
bool is_untrusted_process, NodeController* node_controller,
PlatformChannelEndpoint endpoint) {
if (!endpoint.is_valid()) {
return;
}
ConnectionParams params(std::move(endpoint));
params.set_is_untrusted_process(is_untrusted_process);
node_controller->FinishSendBrokerClientInvitationOnIOThread(
std::move(target_process), std::move(params),
temporary_node_name, Channel::HandlePolicy::kRejectHandles,
process_error_callback);
},
std::move(target_process), temporary_node_name,
process_error_callback, is_untrusted_process, this));
return;
}
#endif
std::optional<ConnectionParams> params = CreateSyncNodeConnectionParams(
target_process, std::move(connection_params), process_error_callback,
handle_policy);
if (!params) {
if (process_error_callback) {
process_error_callback.Run("Unable to establish Mojo channel");
}
return;
}
node_connection_params = std::move(*params);
}
FinishSendBrokerClientInvitationOnIOThread(
std::move(target_process), std::move(node_connection_params),
temporary_node_name, handle_policy, process_error_callback);
#else // !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
FinishSendBrokerClientInvitationOnIOThread(
std::move(target_process), std::move(connection_params),
temporary_node_name, Channel::HandlePolicy::kAcceptHandles,
process_error_callback);
#endif // !BUILDFLAG(IS_APPLE) && !BUILDFLAG(IS_NACL) && !BUILDFLAG(IS_FUCHSIA)
}
void NodeController::FinishSendBrokerClientInvitationOnIOThread(
base::Process target_process,
ConnectionParams connection_params,
ports::NodeName temporary_node_name,
Channel::HandlePolicy handle_policy,
const ProcessErrorCallback& process_error_callback) {
scoped_refptr<NodeChannel> channel =
NodeChannel::Create(this, std::move(connection_params), handle_policy,
io_task_runner_, process_error_callback);
// We set up the invitee channel with a temporary name so it can be identified
// as a pending invitee if it writes any messages to the channel. We may start
// receiving messages from it (though we shouldn't) as soon as Start() is
// called below.
pending_invitations_.insert(std::make_pair(temporary_node_name, channel));
channel->SetRemoteNodeName(temporary_node_name);
channel->SetRemoteProcessHandle(std::move(target_process));
channel->Start();
channel->AcceptInvitee(name_, temporary_node_name);
}
void NodeController::AcceptBrokerClientInvitationOnIOThread(
ConnectionParams connection_params,
std::optional<PlatformHandle> broker_host_handle) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
{
base::AutoLock lock(inviter_lock_);
if (inviter_name_ != ports::kInvalidNodeName) {
// We've already accepted an invitation before and are already part of
// a different Mojo process network. In order to accept this new one and
// remain in a consistent state, we have to purge all peer connections and
// start from scratch.
{
base::AutoUnlock unlock(inviter_lock_);
DropAllPeers();
}
inviter_name_ = ports::kInvalidNodeName;
}
const bool leak_endpoint = connection_params.leak_endpoint();
// At this point we don't know the inviter's name, so we can't yet insert it
// into our |peers_| map. That will happen as soon as we receive an
// AcceptInvitee message from them.
bootstrap_inviter_channel_ =
NodeChannel::Create(this, std::move(connection_params),
Channel::HandlePolicy::kAcceptHandles,
io_task_runner_, ProcessErrorCallback());
if (leak_endpoint) {
// Prevent the inviter pipe handle from being closed on shutdown. Pipe
// closure may be used by the inviter to detect that the invited process
// has terminated. In such cases, the invited process must not be invited
// more than once in its lifetime; otherwise this leak matters.
//
// Note that this behavior is supported primarily to help adapt legacy
// Chrome IPC to Mojo, since channel disconnection is used there as a
// signal for normal child process termination.
bootstrap_inviter_channel_->LeakHandleOnShutdown();
}
}
bootstrap_inviter_channel_->Start();
if (broker_host_handle)
bootstrap_inviter_channel_->BindBrokerHost(std::move(*broker_host_handle));
}
void NodeController::ConnectIsolatedOnIOThread(
ConnectionParams connection_params,
ports::PortRef port,
const std::string& connection_name) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
// Processes using isolated connections to communicate have no ability to lean
// on a broker for handle relaying, so we allow them to send handles to each
// other at their own peril.
scoped_refptr<NodeChannel> channel = NodeChannel::Create(
this, std::move(connection_params), Channel::HandlePolicy::kAcceptHandles,
io_task_runner_, {});
RequestContext request_context;
ports::NodeName token;
GenerateRandomName(&token);
pending_isolated_connections_.emplace(
token, IsolatedConnection{channel, port, connection_name});
if (!connection_name.empty()) {
// If a connection already exists with this name, drop it.
auto it = named_isolated_connections_.find(connection_name);
if (it != named_isolated_connections_.end()) {
ports::NodeName connection_node = it->second;
if (connection_node != name_) {
DropPeer(connection_node, nullptr);
} else {
auto pending_it = pending_isolated_connections_.find(connection_node);
if (pending_it != pending_isolated_connections_.end()) {
node_->ClosePort(pending_it->second.local_port);
pending_isolated_connections_.erase(pending_it);
}
named_isolated_connections_.erase(it);
}
}
named_isolated_connections_.emplace(connection_name, token);
}
channel->SetRemoteNodeName(token);
channel->Start();
RecordPendingPortMerge(port);
channel->AcceptPeer(name_, token, port.name());
}
scoped_refptr<NodeChannel> NodeController::GetPeerChannel(
const ports::NodeName& name) {
base::AutoLock lock(peers_lock_);
auto it = peers_.find(name);
if (it == peers_.end())
return nullptr;
return it->second;
}
scoped_refptr<NodeChannel> NodeController::GetInviterChannel() {
ports::NodeName inviter_name;
{
base::AutoLock lock(inviter_lock_);
inviter_name = inviter_name_;
}
return GetPeerChannel(inviter_name);
}
scoped_refptr<NodeChannel> NodeController::GetBrokerChannel() {
if (GetConfiguration().is_broker_process)
return nullptr;
ports::NodeName broker_name;
{
base::AutoLock lock(broker_lock_);
broker_name = broker_name_;
}
return GetPeerChannel(broker_name);
}
void NodeController::AddPeer(const ports::NodeName& name,
scoped_refptr<NodeChannel> channel,
bool start_channel,
bool allow_name_reuse) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
DCHECK(name != ports::kInvalidNodeName);
DCHECK(channel);
channel->SetRemoteNodeName(name);
OutgoingMessageQueue pending_messages;
{
base::AutoLock lock(peers_lock_);
if (base::Contains(peers_, name)) {
// This can happen normally if two nodes race to be introduced to each
// other. The losing pipe will be silently closed and introduction should
// not be affected.
DVLOG(1) << "Ignoring duplicate peer name " << name;
return;
}
if (dropped_peers_.Contains(name) && !allow_name_reuse) {
DVLOG(1) << "Trying to re-add dropped peer " << name;
return;
}
auto result = peers_.insert(std::make_pair(name, channel));
DCHECK(result.second);
DVLOG(2) << "Accepting new peer " << name << " on node " << name_;
auto it = pending_peer_messages_.find(name);
if (it != pending_peer_messages_.end()) {
std::swap(pending_messages, it->second);
pending_peer_messages_.erase(it);
}
}
if (start_channel)
channel->Start();
// Flush any queued message we need to deliver to this node.
while (!pending_messages.empty()) {
channel->SendChannelMessage(std::move(pending_messages.front()));
pending_messages.pop();
}
}
void NodeController::DropPeer(const ports::NodeName& node_name,
NodeChannel* channel) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
// NOTE: Either the `peers_` erasure or the `pending_invitations_` erasure
// below, if executed, may drop the last reference to the named NodeChannel
// and thus result in its deletion. The passed `node_name` argument may be
// owned by that same NodeChannel, so we make a copy of it here to avoid
// potentially unsafe references further below.
ports::NodeName name = node_name;
{
base::AutoLock lock(peers_lock_);
auto it = peers_.find(name);
if (it != peers_.end()) {
ports::NodeName peer = it->first;
peers_.erase(it);
dropped_peers_.Insert(peer);
DVLOG(1) << "Dropped peer " << peer;
}
pending_peer_messages_.erase(name);
pending_invitations_.erase(name);
}
std::vector<ports::PortRef> ports_to_close;
{
// Clean up any reserved ports.
base::AutoLock lock(reserved_ports_lock_);
auto it = reserved_ports_.find(name);
if (it != reserved_ports_.end()) {
for (auto& entry : it->second)
ports_to_close.emplace_back(entry.second);
reserved_ports_.erase(it);
}
}
bool is_inviter;
{
base::AutoLock lock(inviter_lock_);
is_inviter = (name == inviter_name_ ||
(channel && channel == bootstrap_inviter_channel_));
}
// If the error comes from the inviter channel, we also need to cancel any
// port merge requests, so that errors can be propagated to the message
// pipes.
if (is_inviter)
CancelPendingPortMerges();
auto connection_it = pending_isolated_connections_.find(name);
if (connection_it != pending_isolated_connections_.end()) {
IsolatedConnection& connection = connection_it->second;
ports_to_close.push_back(connection.local_port);
if (!connection.name.empty())
named_isolated_connections_.erase(connection.name);
pending_isolated_connections_.erase(connection_it);
}
for (const auto& port : ports_to_close)
node_->ClosePort(port);
node_->LostConnectionToNode(name);
AttemptShutdownIfRequested();
}
void NodeController::SendPeerEvent(const ports::NodeName& name,
ports::ScopedEvent event) {
Channel::MessagePtr event_message = SerializeEventMessage(std::move(event));
if (!event_message)
return;
scoped_refptr<NodeChannel> peer = GetPeerChannel(name);
#if BUILDFLAG(IS_WIN)
if (event_message->has_handles()) {
// If we're sending a message with handles we aren't the destination
// node's inviter or broker (i.e. we don't know its process handle), ask
// the broker to relay for us.
scoped_refptr<NodeChannel> broker = GetBrokerChannel();
if (!peer || !peer->HasRemoteProcessHandle()) {
if (!GetConfiguration().is_broker_process && broker) {
broker->RelayEventMessage(name, std::move(event_message));
} else {
base::AutoLock lock(broker_lock_);
pending_relay_messages_[name].emplace(std::move(event_message));
}
return;
}
}
#endif // BUILDFLAG(IS_WIN)
if (peer) {
peer->SendChannelMessage(std::move(event_message));
return;
}
// If we don't know who the peer is and we are the broker, we can only assume
// the peer is invalid, i.e., it's either a junk name or has already been
// disconnected.
scoped_refptr<NodeChannel> broker = GetBrokerChannel();
if (!broker) {
DVLOG(1) << "Dropping message for unknown peer: " << name;
return;
}
// If we aren't the broker, assume we just need to be introduced and queue
// until that can be either confirmed or denied by the broker.
bool needs_introduction = false;
{
base::AutoLock lock(peers_lock_);
// We may have been introduced on another thread by the time we get here.
// Double-check to be safe.
auto it = peers_.find(name);
if (it == peers_.end()) {
auto& queue = pending_peer_messages_[name];
needs_introduction = queue.empty();
queue.emplace(std::move(event_message));
} else {
peer = it->second;
}
}
if (needs_introduction)
broker->RequestIntroduction(name);
else if (peer)
peer->SendChannelMessage(std::move(event_message));
}
void NodeController::DropAllPeers() {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
std::vector<scoped_refptr<NodeChannel>> all_peers;
{
base::AutoLock lock(inviter_lock_);
if (bootstrap_inviter_channel_) {
// |bootstrap_inviter_channel_| isn't null'd here because we rely on its
// existence to determine whether or not this is the root node. Once
// bootstrap_inviter_channel_->ShutDown() has been called,
// |bootstrap_inviter_channel_| is essentially a dead object and it
// doesn't matter if it's deleted now or when |this| is deleted. Note:
// |bootstrap_inviter_channel_| is only modified on the IO thread.
all_peers.push_back(bootstrap_inviter_channel_);
}
}
{
base::AutoLock lock(peers_lock_);
for (const auto& peer : peers_)
all_peers.push_back(peer.second);
for (const auto& peer : pending_invitations_)
all_peers.push_back(peer.second);
peers_.clear();
pending_invitations_.clear();
pending_peer_messages_.clear();
pending_isolated_connections_.clear();
named_isolated_connections_.clear();
}
for (const auto& peer : all_peers)
peer->ShutDown();
if (destroy_on_io_thread_shutdown_)
delete this;
}
void NodeController::ForwardEvent(const ports::NodeName& node,
ports::ScopedEvent event) {
DCHECK(event);
if (node == name_)
node_->AcceptEvent(name_, std::move(event));
else
SendPeerEvent(node, std::move(event));
AttemptShutdownIfRequested();
}
void NodeController::BroadcastEvent(ports::ScopedEvent event) {
Channel::MessagePtr channel_message = SerializeEventMessage(std::move(event));
DCHECK(channel_message && !channel_message->has_handles());
scoped_refptr<NodeChannel> broker = GetBrokerChannel();
if (broker) {
broker->Broadcast(std::move(channel_message));
} else if (broker_name_ == ports::kInvalidNodeName) {
// Do an additional check if broker_name_ is not set. It's possible that we
// don't have a broker channel even though we're not the broker ourselves,
// e.g. if this code path is called from the channel error path..
OnBroadcast(name_, std::move(channel_message));
}
}
void NodeController::PortStatusChanged(const ports::PortRef& port) {
scoped_refptr<ports::UserData> user_data;
node_->GetUserData(port, &user_data);
PortObserver* observer = static_cast<PortObserver*>(user_data.get());
if (observer) {
observer->OnPortStatusChanged();
} else {
DVLOG(2) << "Ignoring status change for " << port.name() << " because it "
<< "doesn't have an observer.";
}
}
void NodeController::OnAcceptInvitee(const ports::NodeName& from_node,
const ports::NodeName& inviter_name,
const ports::NodeName& token) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
scoped_refptr<NodeChannel> inviter;
{
base::AutoLock lock(inviter_lock_);
if (bootstrap_inviter_channel_ &&
inviter_name_ == ports::kInvalidNodeName) {
inviter_name_ = inviter_name;
inviter = bootstrap_inviter_channel_;
}
}
if (!inviter) {
DLOG(ERROR) << "Unexpected AcceptInvitee message from " << from_node;
DropPeer(from_node, nullptr);
return;
}
inviter->SetRemoteNodeName(inviter_name);
inviter->AcceptInvitation(token, name_);
// NOTE: The invitee does not actually add its inviter as a peer until
// receiving an AcceptBrokerClient message from the broker. The inviter will
// request that said message be sent upon receiving AcceptInvitation.
DVLOG(1) << "Broker client " << name_ << " accepting invitation from "
<< inviter_name;
}
void NodeController::OnAcceptInvitation(const ports::NodeName& from_node,
const ports::NodeName& token,
const ports::NodeName& invitee_name) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
auto it = pending_invitations_.find(from_node);
if (it == pending_invitations_.end() || token != from_node) {
DLOG(ERROR) << "Received unexpected AcceptInvitation message from "
<< from_node;
DropPeer(from_node, nullptr);
return;
}
{
base::AutoLock lock(reserved_ports_lock_);
auto reserved_ports_it = reserved_ports_.find(from_node);
if (reserved_ports_it != reserved_ports_.end()) {
// Swap the temporary node name's reserved ports into an entry keyed by
// the real node name.
auto result = reserved_ports_.emplace(
invitee_name, std::move(reserved_ports_it->second));
DCHECK(result.second);
reserved_ports_.erase(reserved_ports_it);
}
}
scoped_refptr<NodeChannel> channel = it->second;
pending_invitations_.erase(it);
DCHECK(channel);
DVLOG(1) << "Node " << name_ << " accepted invitee " << invitee_name;
AddPeer(invitee_name, channel, false /* start_channel */);
// TODO(rockot): We could simplify invitee initialization if we could
// synchronously get a new async broker channel from the broker. For now we do
// it asynchronously since it's only used to facilitate handle passing, not
// handle creation.
scoped_refptr<NodeChannel> broker = GetBrokerChannel();
if (broker) {
// Inform the broker of this new client.
broker->AddBrokerClient(invitee_name, channel->CloneRemoteProcessHandle());
} else {
// If we have no broker, either we need to wait for one, or we *are* the
// broker.
scoped_refptr<NodeChannel> inviter = GetInviterChannel();
if (!inviter) {
base::AutoLock lock(inviter_lock_);
inviter = bootstrap_inviter_channel_;
}
if (!inviter) {
// Yes, we're the broker. We can initialize the client directly.
channel->AcceptBrokerClient(name_, PlatformHandle(),
channel->LocalCapabilities());
} else {
// We aren't the broker, so wait for a broker connection.
base::AutoLock lock(broker_lock_);
pending_broker_clients_.push(invitee_name);
}
}
}
void NodeController::OnAddBrokerClient(const ports::NodeName& from_node,
const ports::NodeName& client_name,
base::ProcessHandle process_handle) {
base::Process scoped_process_handle(process_handle);
scoped_refptr<NodeChannel> sender = GetPeerChannel(from_node);
if (!sender) {
DLOG(ERROR) << "Ignoring AddBrokerClient from unknown sender.";
return;
}
if (!GetConfiguration().is_broker_process) {
DLOG(ERROR) << "Ignoring AddBrokerClient on non-broker node.";
return;
}
if (GetPeerChannel(client_name)) {
LOG(ERROR) << "Ignoring AddBrokerClient for known client.";
DropPeer(from_node, nullptr);
return;
}
PlatformChannel broker_channel;
ConnectionParams connection_params(broker_channel.TakeLocalEndpoint());
scoped_refptr<NodeChannel> client = NodeChannel::Create(
this, std::move(connection_params), Channel::HandlePolicy::kAcceptHandles,
io_task_runner_, ProcessErrorCallback());
#if BUILDFLAG(IS_WIN)
// The broker must have a working handle to the client process in order to
// properly copy other handles to and from the client.
if (!scoped_process_handle.IsValid()) {
DLOG(ERROR) << "Broker rejecting client with invalid process handle.";
return;
}
#endif
client->SetRemoteProcessHandle(std::move(scoped_process_handle));
AddPeer(client_name, client, true /* start_channel */);
DVLOG(1) << "Broker " << name_ << " accepting client " << client_name
<< " from peer " << from_node;
sender->BrokerClientAdded(
client_name, broker_channel.TakeRemoteEndpoint().TakePlatformHandle());
}
void NodeController::OnBrokerClientAdded(const ports::NodeName& from_node,
const ports::NodeName& client_name,
PlatformHandle broker_channel) {
scoped_refptr<NodeChannel> client = GetPeerChannel(client_name);
if (!client) {
DLOG(ERROR) << "BrokerClientAdded for unknown client " << client_name;
return;
}
// This should have come from our own broker.
if (GetBrokerChannel() != GetPeerChannel(from_node)) {
DLOG(ERROR) << "BrokerClientAdded from non-broker node " << from_node;
return;
}
DVLOG(1) << "Client " << client_name << " accepted by broker " << from_node;
client->AcceptBrokerClient(from_node, std::move(broker_channel),
GetBrokerChannel()->RemoteCapabilities());
}
void NodeController::OnAcceptBrokerClient(const ports::NodeName& from_node,
const ports::NodeName& broker_name,
PlatformHandle broker_channel,
const uint64_t broker_capabilities) {
if (GetConfiguration().is_broker_process) {
// The broker should never receive this message from anyone.
DropPeer(from_node, nullptr);
return;
}
// This node should already have an inviter in bootstrap mode.
ports::NodeName inviter_name;
scoped_refptr<NodeChannel> inviter;
{
base::AutoLock lock(inviter_lock_);
inviter_name = inviter_name_;
inviter = bootstrap_inviter_channel_;
bootstrap_inviter_channel_ = nullptr;
}
if (inviter_name != from_node || !inviter ||
broker_name == ports::kInvalidNodeName) {
// We are not expecting this message. Assume the source is hostile.
DropPeer(from_node, nullptr);
return;
}
base::queue<ports::NodeName> pending_broker_clients;
std::unordered_map<ports::NodeName, OutgoingMessageQueue>
pending_relay_messages;
{
base::AutoLock lock(broker_lock_);
broker_name_ = broker_name;
std::swap(pending_broker_clients, pending_broker_clients_);
std::swap(pending_relay_messages, pending_relay_messages_);
}
// It's now possible to add both the broker and the inviter as peers.
// Note that the broker and inviter may be the same node.
scoped_refptr<NodeChannel> broker;
if (broker_name == inviter_name) {
broker = inviter;
} else if (broker_channel.is_valid()) {
broker = NodeChannel::Create(
this,
ConnectionParams(PlatformChannelEndpoint(std::move(broker_channel))),
Channel::HandlePolicy::kAcceptHandles, io_task_runner_,
ProcessErrorCallback());
broker->SetRemoteCapabilities(broker_capabilities);
AddPeer(broker_name, broker, true /* start_channel */);
} else {
DropPeer(from_node, nullptr);
return;
}
AddPeer(inviter_name, inviter, false /* start_channel */);
{
// Complete any port merge requests we have waiting for the inviter.
std::vector<std::pair<std::string, ports::PortRef>> pending_port_merges;
{
base::AutoLock lock(pending_port_merges_lock_);
std::swap(pending_port_merges_, pending_port_merges);
}
std::vector<ports::PortName> pending_port_names;
for (auto& request : pending_port_merges) {
RecordPendingPortMerge(request.second);
inviter->RequestPortMerge(request.second.name(), request.first);
}
}
// Feed the broker any pending invitees of our own.
while (!pending_broker_clients.empty()) {
const ports::NodeName& invitee_name = pending_broker_clients.front();
auto it = peers_.find(invitee_name);
if (it != peers_.end()) {
broker->AddBrokerClient(invitee_name,
it->second->CloneRemoteProcessHandle());
}
pending_broker_clients.pop();
}
#if BUILDFLAG(IS_WIN)
// Have the broker relay any messages we have waiting.
for (auto& entry : pending_relay_messages) {
const ports::NodeName& destination = entry.first;
auto& message_queue = entry.second;
while (!message_queue.empty()) {
broker->RelayEventMessage(destination, std::move(message_queue.front()));
message_queue.pop();
}
}
#endif
if (inviter->HasLocalCapability(kNodeCapabilitySupportsUpgrade) &&
inviter->HasRemoteCapability(kNodeCapabilitySupportsUpgrade)) {
inviter->OfferChannelUpgrade();
}
DVLOG(1) << "Client " << name_ << " accepted by broker " << broker_name;
}
void NodeController::OnEventMessage(const ports::NodeName& from_node,
Channel::MessagePtr channel_message) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
auto event = DeserializeEventMessage(from_node, std::move(channel_message));
if (!event) {
// We silently ignore unparseable events, as they may come from a process
// running a newer version of Mojo.
DVLOG(1) << "Ignoring invalid or unknown event from " << from_node;
return;
}
node_->AcceptEvent(from_node, std::move(event));
AttemptShutdownIfRequested();
}
void NodeController::OnRequestPortMerge(
const ports::NodeName& from_node,
const ports::PortName& connector_port_name,
const std::string& name) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
DVLOG(2) << "Node " << name_ << " received RequestPortMerge for name " << name
<< " and port " << connector_port_name << "@" << from_node;
ports::PortRef local_port;
{
base::AutoLock lock(reserved_ports_lock_);
auto it = reserved_ports_.find(from_node);
// TODO(crbug.com/40567118): We should send a notification back to the
// requestor so they can clean up their dangling port in this failure case.
// This requires changes to the internal protocol, which can't be made yet.
// Until this is done, pipes from |MojoExtractMessagePipeFromInvitation()|
// will never break if the given name was invalid.
if (it == reserved_ports_.end()) {
DVLOG(1) << "Ignoring port merge request from node " << from_node << ". "
<< "No ports reserved for that node.";
return;
}
PortMap& port_map = it->second;
auto port_it = port_map.find(name);
if (port_it == port_map.end()) {
DVLOG(1) << "Ignoring request to connect to port for unknown name "
<< name << " from node " << from_node;
return;
}
local_port = port_it->second;
port_map.erase(port_it);
if (port_map.empty())
reserved_ports_.erase(it);
}
int rv = node_->MergePorts(local_port, from_node, connector_port_name);
if (rv != ports::OK)
DLOG(ERROR) << "MergePorts failed: " << rv;
}
void NodeController::OnRequestIntroduction(const ports::NodeName& from_node,
const ports::NodeName& name) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
if (broker_name_ != ports::kInvalidNodeName) {
DLOG(ERROR) << "Ignoring OnRequestIntroduction on non-broker node.";
DropPeer(from_node, nullptr);
return;
}
scoped_refptr<NodeChannel> requestor = GetPeerChannel(from_node);
if (from_node == name || name == ports::kInvalidNodeName || !requestor) {
DLOG(ERROR) << "Rejecting invalid OnRequestIntroduction message from "
<< from_node;
DropPeer(from_node, nullptr);
return;
}
scoped_refptr<NodeChannel> new_friend = GetPeerChannel(name);
if (!new_friend) {
// We don't know who they're talking about!
requestor->Introduce(name, PlatformHandle(), kNodeCapabilityNone);
} else {
PlatformChannel new_channel;
requestor->Introduce(name,
new_channel.TakeLocalEndpoint().TakePlatformHandle(),
new_friend->RemoteCapabilities());
new_friend->Introduce(from_node,
new_channel.TakeRemoteEndpoint().TakePlatformHandle(),
requestor->RemoteCapabilities());
}
}
void NodeController::OnIntroduce(const ports::NodeName& from_node,
const ports::NodeName& name,
PlatformHandle channel_handle,
const uint64_t remote_capabilities) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
if (broker_name_ == ports::kInvalidNodeName || from_node != broker_name_) {
DVLOG(1) << "Ignoring introduction from non-broker process.";
DropPeer(from_node, nullptr);
return;
}
if (!channel_handle.is_valid()) {
node_->LostConnectionToNode(name);
DVLOG(1) << "Could not be introduced to peer " << name;
base::AutoLock lock(peers_lock_);
pending_peer_messages_.erase(name);
return;
}
#if BUILDFLAG(IS_WIN)
// Introduced peers are never our broker nor our inviter, so we never accept
// handles from them directly.
constexpr auto kPeerHandlePolicy = Channel::HandlePolicy::kRejectHandles;
#else
constexpr auto kPeerHandlePolicy = Channel::HandlePolicy::kAcceptHandles;
#endif
scoped_refptr<NodeChannel> channel = NodeChannel::Create(
this,
ConnectionParams(PlatformChannelEndpoint(std::move(channel_handle))),
kPeerHandlePolicy, io_task_runner_, ProcessErrorCallback());
DVLOG(1) << "Adding new peer " << name << " via broker introduction.";
AddPeer(name, channel, true /* start_channel */);
channel->SetRemoteCapabilities(remote_capabilities);
if (channel->HasLocalCapability(kNodeCapabilitySupportsUpgrade) &&
channel->HasRemoteCapability(kNodeCapabilitySupportsUpgrade)) {
channel->OfferChannelUpgrade();
}
}
void NodeController::OnBroadcast(const ports::NodeName& from_node,
Channel::MessagePtr message) {
DCHECK(!message->has_handles());
if (broker_name_ != ports::kInvalidNodeName) {
DLOG(ERROR) << "Ignoring OnBroadcast on non-broker node.";
DropPeer(from_node, nullptr);
return;
}
auto event = DeserializeEventMessage(from_node, std::move(message));
if (!event) {
// We silently ignore unparseable events, as they may come from a process
// running a newer version of Mojo.
DVLOG(1) << "Ignoring request to broadcast invalid or unknown event from "
<< from_node;
return;
}
base::AutoLock lock(peers_lock_);
for (auto& iter : peers_) {
// Clone and send the event to each known peer. Events which cannot be
// cloned cannot be broadcast.
ports::ScopedEvent clone = event->CloneForBroadcast();
if (!clone) {
DVLOG(1) << "Ignoring request to broadcast invalid event from "
<< from_node << " [type=" << static_cast<uint32_t>(event->type())
<< "]";
return;
}
iter.second->SendChannelMessage(SerializeEventMessage(std::move(clone)));
}
}
#if BUILDFLAG(IS_WIN)
void NodeController::OnRelayEventMessage(const ports::NodeName& from_node,
base::ProcessHandle from_process,
const ports::NodeName& destination,
Channel::MessagePtr message) {
// The broker should always know which process this came from.
DCHECK(from_process != base::kNullProcessHandle);
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
if (GetBrokerChannel()) {
// Only the broker should be asked to relay a message.
LOG(ERROR) << "Non-broker refusing to relay message.";
DropPeer(from_node, nullptr);
return;
}
if (destination == name_) {
// Great, we can deliver this message locally.
OnEventMessage(from_node, std::move(message));
return;
}
scoped_refptr<NodeChannel> peer = GetPeerChannel(destination);
if (peer)
peer->EventMessageFromRelay(from_node, std::move(message));
else
DLOG(ERROR) << "Dropping relay message for unknown node " << destination;
}
void NodeController::OnEventMessageFromRelay(const ports::NodeName& from_node,
const ports::NodeName& source_node,
Channel::MessagePtr message) {
if (GetPeerChannel(from_node) != GetBrokerChannel()) {
LOG(ERROR) << "Refusing relayed message from non-broker node.";
DropPeer(from_node, nullptr);
return;
}
OnEventMessage(source_node, std::move(message));
}
#endif
void NodeController::OnAcceptPeer(const ports::NodeName& from_node,
const ports::NodeName& token,
const ports::NodeName& peer_name,
const ports::PortName& port_name) {
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
auto it = pending_isolated_connections_.find(from_node);
if (it == pending_isolated_connections_.end()) {
DLOG(ERROR) << "Received unexpected AcceptPeer message from " << from_node;
DropPeer(from_node, nullptr);
return;
}
IsolatedConnection& connection = it->second;
scoped_refptr<NodeChannel> channel = std::move(connection.channel);
ports::PortRef local_port = connection.local_port;
if (!connection.name.empty())
named_isolated_connections_[connection.name] = peer_name;
pending_isolated_connections_.erase(it);
DCHECK(channel);
if (name_ != peer_name) {
// It's possible (e.g. in tests) that we may "connect" to ourself, in which
// case we skip this |AddPeer()| call and go straight to merging ports.
// Note that we explicitly drop any prior connection to the same peer so
// that new isolated connections can replace old ones.
DropPeer(peer_name, nullptr);
AddPeer(peer_name, channel, false /* start_channel */,
true /* allow_name_reuse */);
DVLOG(1) << "Node " << name_ << " accepted peer " << peer_name;
}
// We need to choose one side to initiate the port merge. It doesn't matter
// who does it as long as they don't both try. Simple solution: pick the one
// with the "smaller" port name.
if (local_port.name() < port_name)
node()->MergePorts(local_port, peer_name, port_name);
}
void NodeController::OnChannelError(const ports::NodeName& from_node,
NodeChannel* channel) {
if (io_task_runner_->RunsTasksInCurrentSequence()) {
RequestContext request_context(RequestContext::Source::SYSTEM);
DropPeer(from_node, channel);
} else {
io_task_runner_->PostTask(
FROM_HERE,
base::BindOnce(&NodeController::OnChannelError, base::Unretained(this),
from_node, base::RetainedRef(channel)));
}
}
void NodeController::CancelPendingPortMerges() {
std::vector<ports::PortRef> ports_to_close;
{
base::AutoLock lock(pending_port_merges_lock_);
reject_pending_merges_ = true;
for (const auto& port : pending_port_merges_)
ports_to_close.push_back(port.second);
pending_port_merges_.clear();
}
for (const auto& port : ports_to_close)
node_->ClosePort(port);
}
void NodeController::DestroyOnIOThreadShutdown() {
destroy_on_io_thread_shutdown_ = true;
}
void NodeController::AttemptShutdownIfRequested() {
if (!shutdown_callback_flag_)
return;
base::OnceClosure callback;
{
base::AutoLock lock(shutdown_lock_);
if (shutdown_callback_.is_null())
return;
if (!node_->CanShutdownCleanly(
ports::Node::ShutdownPolicy::ALLOW_LOCAL_PORTS)) {
DVLOG(2) << "Unable to cleanly shut down node " << name_;
return;
}
callback = std::move(shutdown_callback_);
shutdown_callback_flag_.Set(false);
}
DCHECK(!callback.is_null());
std::move(callback).Run();
}
void NodeController::ForceDisconnectProcessForTestingOnIOThread(
base::ProcessId process_id) {
#if BUILDFLAG(IS_NACL) || BUILDFLAG(IS_IOS)
NOTREACHED();
#else
DCHECK(io_task_runner_->RunsTasksInCurrentSequence());
RequestContext request_context;
// A channel may have multiple aliases since we generate one for any we
// invite and then only later refer to it by its own chosen name.
NodeMap peers_to_drop;
for (auto& peer : peers_) {
NodeChannel* channel = peer.second.get();
if (channel->HasRemoteProcessHandle()) {
base::Process process(channel->CloneRemoteProcessHandle());
if (process.Pid() == process_id)
peers_to_drop.emplace(peer.first, peer.second);
}
}
for (auto& peer : peers_to_drop)
DropPeer(peer.first, peer.second.get());
#endif
}
NodeController::IsolatedConnection::IsolatedConnection() = default;
NodeController::IsolatedConnection::IsolatedConnection(
const IsolatedConnection& other) = default;
NodeController::IsolatedConnection::IsolatedConnection(
IsolatedConnection&& other) = default;
NodeController::IsolatedConnection::IsolatedConnection(
scoped_refptr<NodeChannel> channel,
const ports::PortRef& local_port,
std::string_view name)
: channel(std::move(channel)), local_port(local_port), name(name) {}
NodeController::IsolatedConnection::~IsolatedConnection() = default;
NodeController::IsolatedConnection&
NodeController::IsolatedConnection::operator=(const IsolatedConnection& other) =
default;
NodeController::IsolatedConnection&
NodeController::IsolatedConnection::operator=(IsolatedConnection&& other) =
default;
BoundedPeerSet::BoundedPeerSet() = default;
BoundedPeerSet::~BoundedPeerSet() = default;
void BoundedPeerSet::Insert(const ports::NodeName& name) {
if (new_set_.size() == kHalfSize) {
old_set_.clear();
std::swap(old_set_, new_set_);
}
new_set_.insert(name);
}
bool BoundedPeerSet::Contains(const ports::NodeName& name) {
if (base::Contains(old_set_, name)) {
return true;
}
if (base::Contains(new_set_, name)) {
return true;
}
return false;
}
} // namespace core
} // namespace mojo