src/ipc/host_impl.cc - third_party/perfetto - Git at Google

 /*
  * Copyright (C) 2017 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "src/ipc/host_impl.h"

 #include <algorithm>
 #include <cinttypes>
 #include <utility>

 #include "perfetto/base/build_config.h"
 #include "perfetto/base/task_runner.h"
 #include "perfetto/base/time.h"
 #include "perfetto/ext/base/crash_keys.h"
 #include "perfetto/ext/base/utils.h"
 #include "perfetto/ext/ipc/service.h"
 #include "perfetto/ext/ipc/service_descriptor.h"

 #include "protos/perfetto/ipc/wire_protocol.gen.h"

 // TODO(primiano): put limits on #connections/uid and req. queue (b/69093705).

 namespace perfetto {
 namespace ipc {

 namespace {

 constexpr base::SockFamily kHostSockFamily =
     kUseTCPSocket ? base::SockFamily::kInet : base::SockFamily::kUnix;

 base::CrashKey g_crash_key_uid("ipc_uid");

 uid_t GetPosixPeerUid(base::UnixSocket* sock) {
 #if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) || \
     PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
   base::ignore_result(sock);
   // Unsupported. Must be != kInvalidUid or the PacketValidator will fail.
   return 0;
 #else
   return sock->peer_uid_posix();
 #endif
 }

 pid_t GetLinuxPeerPid(base::UnixSocket* sock) {
 #if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
     PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
   return sock->peer_pid_linux();
 #else
   base::ignore_result(sock);
   return base::kInvalidPid;  // Unsupported.
 #endif
 }

 }  // namespace

 // static
 std::unique_ptr<Host> Host::CreateInstance(const char* socket_name,
                                            base::TaskRunner* task_runner) {
   std::unique_ptr<HostImpl> host(new HostImpl(socket_name, task_runner));
   if (!host->sock() || !host->sock()->is_listening())
     return nullptr;
   return std::unique_ptr<Host>(std::move(host));
 }

 // static
 std::unique_ptr<Host> Host::CreateInstance(base::ScopedSocketHandle socket_fd,
                                            base::TaskRunner* task_runner) {
   std::unique_ptr<HostImpl> host(
       new HostImpl(std::move(socket_fd), task_runner));
   if (!host->sock() || !host->sock()->is_listening())
     return nullptr;
   return std::unique_ptr<Host>(std::move(host));
 }

 HostImpl::HostImpl(base::ScopedSocketHandle socket_fd,
                    base::TaskRunner* task_runner)
     : task_runner_(task_runner), weak_ptr_factory_(this) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   sock_ = base::UnixSocket::Listen(std::move(socket_fd), this, task_runner_,
                                    kHostSockFamily, base::SockType::kStream);
 }

 HostImpl::HostImpl(const char* socket_name, base::TaskRunner* task_runner)
     : task_runner_(task_runner), weak_ptr_factory_(this) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   sock_ = base::UnixSocket::Listen(socket_name, this, task_runner_,
                                    kHostSockFamily, base::SockType::kStream);
   if (!sock_) {
     PERFETTO_PLOG("Failed to create %s", socket_name);
   }
 }

 HostImpl::~HostImpl() = default;

 bool HostImpl::ExposeService(std::unique_ptr<Service> service) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   const std::string& service_name = service->GetDescriptor().service_name;
   if (GetServiceByName(service_name)) {
     PERFETTO_DLOG("Duplicate ExposeService(): %s", service_name.c_str());
     return false;
   }
   ServiceID sid = ++last_service_id_;
   ExposedService exposed_service(sid, service_name, std::move(service));
   services_.emplace(sid, std::move(exposed_service));
   return true;
 }

 void HostImpl::OnNewIncomingConnection(
     base::UnixSocket*,
     std::unique_ptr<base::UnixSocket> new_conn) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   std::unique_ptr<ClientConnection> client(new ClientConnection());
   ClientID client_id = ++last_client_id_;
   clients_by_socket_[new_conn.get()] = client.get();
   client->id = client_id;
   client->sock = std::move(new_conn);
   // Watchdog is 30 seconds, so set the socket timeout to 10 seconds.
   client->sock->SetTxTimeout(10000);
   clients_[client_id] = std::move(client);
 }

 void HostImpl::OnDataAvailable(base::UnixSocket* sock) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   auto it = clients_by_socket_.find(sock);
   if (it == clients_by_socket_.end())
     return;
   ClientConnection* client = it->second;
   BufferedFrameDeserializer& frame_deserializer = client->frame_deserializer;

   auto peer_uid = GetPosixPeerUid(client->sock.get());
   auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));

   size_t rsize;
   do {
     auto buf = frame_deserializer.BeginReceive();
     base::ScopedFile fd;
     rsize = client->sock->Receive(buf.data, buf.size, &fd);
     if (fd) {
       PERFETTO_DCHECK(!client->received_fd);
       client->received_fd = std::move(fd);
     }
     if (!frame_deserializer.EndReceive(rsize))
       return OnDisconnect(client->sock.get());
   } while (rsize > 0);

   for (;;) {
     std::unique_ptr<Frame> frame = frame_deserializer.PopNextFrame();
     if (!frame)
       break;
     OnReceivedFrame(client, *frame);
   }
 }

 void HostImpl::OnReceivedFrame(ClientConnection* client,
                                const Frame& req_frame) {
   if (req_frame.has_msg_bind_service())
     return OnBindService(client, req_frame);
   if (req_frame.has_msg_invoke_method())
     return OnInvokeMethod(client, req_frame);

   PERFETTO_DLOG("Received invalid RPC frame from client %" PRIu64, client->id);
   Frame reply_frame;
   reply_frame.set_request_id(req_frame.request_id());
   reply_frame.mutable_msg_request_error()->set_error("unknown request");
   SendFrame(client, reply_frame);
 }

 void HostImpl::OnBindService(ClientConnection* client, const Frame& req_frame) {
   // Binding a service doesn't do anything major. It just returns back the
   // service id and its method map.
   const Frame::BindService& req = req_frame.msg_bind_service();
   Frame reply_frame;
   reply_frame.set_request_id(req_frame.request_id());
   auto* reply = reply_frame.mutable_msg_bind_service_reply();
   const ExposedService* service = GetServiceByName(req.service_name());
   if (service) {
     reply->set_success(true);
     reply->set_service_id(service->id);
     uint32_t method_id = 1;  // method ids start at index 1.
     for (const auto& desc_method : service->instance->GetDescriptor().methods) {
       Frame::BindServiceReply::MethodInfo* method_info = reply->add_methods();
       method_info->set_name(desc_method.name);
       method_info->set_id(method_id++);
     }
   }
   SendFrame(client, reply_frame);
 }

 void HostImpl::OnInvokeMethod(ClientConnection* client,
                               const Frame& req_frame) {
   const Frame::InvokeMethod& req = req_frame.msg_invoke_method();
   Frame reply_frame;
   RequestID request_id = req_frame.request_id();
   reply_frame.set_request_id(request_id);
   reply_frame.mutable_msg_invoke_method_reply()->set_success(false);
   auto svc_it = services_.find(req.service_id());
   if (svc_it == services_.end())
     return SendFrame(client, reply_frame);  // |success| == false by default.

   Service* service = svc_it->second.instance.get();
   const ServiceDescriptor& svc = service->GetDescriptor();
   const auto& methods = svc.methods;
   const uint32_t method_id = req.method_id();
   if (method_id == 0 || method_id > methods.size())
     return SendFrame(client, reply_frame);

   const ServiceDescriptor::Method& method = methods[method_id - 1];
   std::unique_ptr<ProtoMessage> decoded_req_args(
       method.request_proto_decoder(req.args_proto()));
   if (!decoded_req_args)
     return SendFrame(client, reply_frame);

   Deferred<ProtoMessage> deferred_reply;
   base::WeakPtr<HostImpl> host_weak_ptr = weak_ptr_factory_.GetWeakPtr();
   ClientID client_id = client->id;

   if (!req.drop_reply()) {
     deferred_reply.Bind([host_weak_ptr, client_id,
                          request_id](AsyncResult<ProtoMessage> reply) {
       if (!host_weak_ptr)
         return;  // The reply came too late, the HostImpl has gone.
       host_weak_ptr->ReplyToMethodInvocation(client_id, request_id,
                                              std::move(reply));
     });
   }

   auto peer_uid = GetPosixPeerUid(client->sock.get());
   auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));
   service->client_info_ =
       ClientInfo(client->id, peer_uid, GetLinuxPeerPid(client->sock.get()));
   service->received_fd_ = &client->received_fd;
   method.invoker(service, *decoded_req_args, std::move(deferred_reply));
   service->received_fd_ = nullptr;
   service->client_info_ = ClientInfo();
 }

 void HostImpl::ReplyToMethodInvocation(ClientID client_id,
                                        RequestID request_id,
                                        AsyncResult<ProtoMessage> reply) {
   auto client_iter = clients_.find(client_id);
   if (client_iter == clients_.end())
     return;  // client has disconnected by the time we got the async reply.

   ClientConnection* client = client_iter->second.get();
   Frame reply_frame;
   reply_frame.set_request_id(request_id);

   // TODO(fmayer): add a test to guarantee that the reply is consumed within the
   // same call stack and not kept around. ConsumerIPCService::OnTraceData()
   // relies on this behavior.
   auto* reply_frame_data = reply_frame.mutable_msg_invoke_method_reply();
   reply_frame_data->set_has_more(reply.has_more());
   if (reply.success()) {
     std::string reply_proto = reply->SerializeAsString();
     reply_frame_data->set_reply_proto(reply_proto);
     reply_frame_data->set_success(true);
   }
   SendFrame(client, reply_frame, reply.fd());
 }

 // static
 void HostImpl::SendFrame(ClientConnection* client, const Frame& frame, int fd) {
   auto peer_uid = GetPosixPeerUid(client->sock.get());
   auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));

   std::string buf = BufferedFrameDeserializer::Serialize(frame);

   // When a new Client connects in OnNewClientConnection we set a timeout on
   // Send (see call to SetTxTimeout).
   //
   // The old behaviour was to do a blocking I/O call, which caused crashes from
   // misbehaving producers (see b/169051440).
   bool res = client->sock->Send(buf.data(), buf.size(), fd);
   // If we timeout |res| will be false, but the UnixSocket will have called
   // UnixSocket::ShutDown() and thus |is_connected()| is false.
   PERFETTO_CHECK(res || !client->sock->is_connected());
 }

 void HostImpl::OnDisconnect(base::UnixSocket* sock) {
   PERFETTO_DCHECK_THREAD(thread_checker_);
   auto it = clients_by_socket_.find(sock);
   if (it == clients_by_socket_.end())
     return;
   ClientID client_id = it->second->id;

   ClientInfo client_info(client_id, GetPosixPeerUid(sock),
                          GetLinuxPeerPid(sock));
   clients_by_socket_.erase(it);
   PERFETTO_DCHECK(clients_.count(client_id));
   clients_.erase(client_id);

   for (const auto& service_it : services_) {
     Service& service = *service_it.second.instance;
     service.client_info_ = client_info;
     service.OnClientDisconnected();
     service.client_info_ = ClientInfo();
   }
 }

 const HostImpl::ExposedService* HostImpl::GetServiceByName(
     const std::string& name) {
   // This could be optimized by using another map<name,ServiceID>. However this
   // is used only by Bind/ExposeService that are quite rare (once per client
   // connection and once per service instance), not worth it.
   for (const auto& it : services_) {
     if (it.second.name == name)
       return &it.second;
   }
   return nullptr;
 }

 HostImpl::ExposedService::ExposedService(ServiceID id_,
                                          const std::string& name_,
                                          std::unique_ptr<Service> instance_)
     : id(id_), name(name_), instance(std::move(instance_)) {}

 HostImpl::ExposedService::ExposedService(ExposedService&&) noexcept = default;
 HostImpl::ExposedService& HostImpl::ExposedService::operator=(
     HostImpl::ExposedService&&) = default;
 HostImpl::ExposedService::~ExposedService() = default;

 HostImpl::ClientConnection::~ClientConnection() = default;

 }  // namespace ipc
 }  // namespace perfetto
	/*
	* Copyright (C) 2017 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "src/ipc/host_impl.h"

	#include <algorithm>
	#include <cinttypes>
	#include <utility>

	#include "perfetto/base/build_config.h"
	#include "perfetto/base/task_runner.h"
	#include "perfetto/base/time.h"
	#include "perfetto/ext/base/crash_keys.h"
	#include "perfetto/ext/base/utils.h"
	#include "perfetto/ext/ipc/service.h"
	#include "perfetto/ext/ipc/service_descriptor.h"

	#include "protos/perfetto/ipc/wire_protocol.gen.h"

	// TODO(primiano): put limits on #connections/uid and req. queue (b/69093705).

	namespace perfetto {
	namespace ipc {

	namespace {

	constexpr base::SockFamily kHostSockFamily =
	kUseTCPSocket ? base::SockFamily::kInet : base::SockFamily::kUnix;

	base::CrashKey g_crash_key_uid("ipc_uid");

	uid_t GetPosixPeerUid(base::UnixSocket* sock) {
	#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) \|\| \
	PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
	base::ignore_result(sock);
	// Unsupported. Must be != kInvalidUid or the PacketValidator will fail.
	return 0;
	#else
	return sock->peer_uid_posix();
	#endif
	}

	pid_t GetLinuxPeerPid(base::UnixSocket* sock) {
	#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) \|\| \
	PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
	return sock->peer_pid_linux();
	#else
	base::ignore_result(sock);
	return base::kInvalidPid; // Unsupported.
	#endif
	}

	} // namespace

	// static
	std::unique_ptr<Host> Host::CreateInstance(const char* socket_name,
	base::TaskRunner* task_runner) {
	std::unique_ptr<HostImpl> host(new HostImpl(socket_name, task_runner));
	if (!host->sock() \|\| !host->sock()->is_listening())
	return nullptr;
	return std::unique_ptr<Host>(std::move(host));
	}

	// static
	std::unique_ptr<Host> Host::CreateInstance(base::ScopedSocketHandle socket_fd,
	base::TaskRunner* task_runner) {
	std::unique_ptr<HostImpl> host(
	new HostImpl(std::move(socket_fd), task_runner));
	if (!host->sock() \|\| !host->sock()->is_listening())
	return nullptr;
	return std::unique_ptr<Host>(std::move(host));
	}

	HostImpl::HostImpl(base::ScopedSocketHandle socket_fd,
	base::TaskRunner* task_runner)
	: task_runner_(task_runner), weak_ptr_factory_(this) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	sock_ = base::UnixSocket::Listen(std::move(socket_fd), this, task_runner_,
	kHostSockFamily, base::SockType::kStream);
	}

	HostImpl::HostImpl(const char* socket_name, base::TaskRunner* task_runner)
	: task_runner_(task_runner), weak_ptr_factory_(this) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	sock_ = base::UnixSocket::Listen(socket_name, this, task_runner_,
	kHostSockFamily, base::SockType::kStream);
	if (!sock_) {
	PERFETTO_PLOG("Failed to create %s", socket_name);
	}
	}

	HostImpl::~HostImpl() = default;

	bool HostImpl::ExposeService(std::unique_ptr<Service> service) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	const std::string& service_name = service->GetDescriptor().service_name;
	if (GetServiceByName(service_name)) {
	PERFETTO_DLOG("Duplicate ExposeService(): %s", service_name.c_str());
	return false;
	}
	ServiceID sid = ++last_service_id_;
	ExposedService exposed_service(sid, service_name, std::move(service));
	services_.emplace(sid, std::move(exposed_service));
	return true;
	}

	void HostImpl::OnNewIncomingConnection(
	base::UnixSocket*,
	std::unique_ptr<base::UnixSocket> new_conn) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	std::unique_ptr<ClientConnection> client(new ClientConnection());
	ClientID client_id = ++last_client_id_;
	clients_by_socket_[new_conn.get()] = client.get();
	client->id = client_id;
	client->sock = std::move(new_conn);
	// Watchdog is 30 seconds, so set the socket timeout to 10 seconds.
	client->sock->SetTxTimeout(10000);
	clients_[client_id] = std::move(client);
	}

	void HostImpl::OnDataAvailable(base::UnixSocket* sock) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	auto it = clients_by_socket_.find(sock);
	if (it == clients_by_socket_.end())
	return;
	ClientConnection* client = it->second;
	BufferedFrameDeserializer& frame_deserializer = client->frame_deserializer;

	auto peer_uid = GetPosixPeerUid(client->sock.get());
	auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));

	size_t rsize;
	do {
	auto buf = frame_deserializer.BeginReceive();
	base::ScopedFile fd;
	rsize = client->sock->Receive(buf.data, buf.size, &fd);
	if (fd) {
	PERFETTO_DCHECK(!client->received_fd);
	client->received_fd = std::move(fd);
	}
	if (!frame_deserializer.EndReceive(rsize))
	return OnDisconnect(client->sock.get());
	} while (rsize > 0);

	for (;;) {
	std::unique_ptr<Frame> frame = frame_deserializer.PopNextFrame();
	if (!frame)
	break;
	OnReceivedFrame(client, *frame);
	}
	}

	void HostImpl::OnReceivedFrame(ClientConnection* client,
	const Frame& req_frame) {
	if (req_frame.has_msg_bind_service())
	return OnBindService(client, req_frame);
	if (req_frame.has_msg_invoke_method())
	return OnInvokeMethod(client, req_frame);

	PERFETTO_DLOG("Received invalid RPC frame from client %" PRIu64, client->id);
	Frame reply_frame;
	reply_frame.set_request_id(req_frame.request_id());
	reply_frame.mutable_msg_request_error()->set_error("unknown request");
	SendFrame(client, reply_frame);
	}

	void HostImpl::OnBindService(ClientConnection* client, const Frame& req_frame) {
	// Binding a service doesn't do anything major. It just returns back the
	// service id and its method map.
	const Frame::BindService& req = req_frame.msg_bind_service();
	Frame reply_frame;
	reply_frame.set_request_id(req_frame.request_id());
	auto* reply = reply_frame.mutable_msg_bind_service_reply();
	const ExposedService* service = GetServiceByName(req.service_name());
	if (service) {
	reply->set_success(true);
	reply->set_service_id(service->id);
	uint32_t method_id = 1; // method ids start at index 1.
	for (const auto& desc_method : service->instance->GetDescriptor().methods) {
	Frame::BindServiceReply::MethodInfo* method_info = reply->add_methods();
	method_info->set_name(desc_method.name);
	method_info->set_id(method_id++);
	}
	}
	SendFrame(client, reply_frame);
	}

	void HostImpl::OnInvokeMethod(ClientConnection* client,
	const Frame& req_frame) {
	const Frame::InvokeMethod& req = req_frame.msg_invoke_method();
	Frame reply_frame;
	RequestID request_id = req_frame.request_id();
	reply_frame.set_request_id(request_id);
	reply_frame.mutable_msg_invoke_method_reply()->set_success(false);
	auto svc_it = services_.find(req.service_id());
	if (svc_it == services_.end())
	return SendFrame(client, reply_frame); // \|success\| == false by default.

	Service* service = svc_it->second.instance.get();
	const ServiceDescriptor& svc = service->GetDescriptor();
	const auto& methods = svc.methods;
	const uint32_t method_id = req.method_id();
	if (method_id == 0 \|\| method_id > methods.size())
	return SendFrame(client, reply_frame);

	const ServiceDescriptor::Method& method = methods[method_id - 1];
	std::unique_ptr<ProtoMessage> decoded_req_args(
	method.request_proto_decoder(req.args_proto()));
	if (!decoded_req_args)
	return SendFrame(client, reply_frame);

	Deferred<ProtoMessage> deferred_reply;
	base::WeakPtr<HostImpl> host_weak_ptr = weak_ptr_factory_.GetWeakPtr();
	ClientID client_id = client->id;

	if (!req.drop_reply()) {
	deferred_reply.Bind([host_weak_ptr, client_id,
	request_id](AsyncResult<ProtoMessage> reply) {
	if (!host_weak_ptr)
	return; // The reply came too late, the HostImpl has gone.
	host_weak_ptr->ReplyToMethodInvocation(client_id, request_id,
	std::move(reply));
	});
	}

	auto peer_uid = GetPosixPeerUid(client->sock.get());
	auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));
	service->client_info_ =
	ClientInfo(client->id, peer_uid, GetLinuxPeerPid(client->sock.get()));
	service->received_fd_ = &client->received_fd;
	method.invoker(service, *decoded_req_args, std::move(deferred_reply));
	service->received_fd_ = nullptr;
	service->client_info_ = ClientInfo();
	}

	void HostImpl::ReplyToMethodInvocation(ClientID client_id,
	RequestID request_id,
	AsyncResult<ProtoMessage> reply) {
	auto client_iter = clients_.find(client_id);
	if (client_iter == clients_.end())
	return; // client has disconnected by the time we got the async reply.

	ClientConnection* client = client_iter->second.get();
	Frame reply_frame;
	reply_frame.set_request_id(request_id);

	// TODO(fmayer): add a test to guarantee that the reply is consumed within the
	// same call stack and not kept around. ConsumerIPCService::OnTraceData()
	// relies on this behavior.
	auto* reply_frame_data = reply_frame.mutable_msg_invoke_method_reply();
	reply_frame_data->set_has_more(reply.has_more());
	if (reply.success()) {
	std::string reply_proto = reply->SerializeAsString();
	reply_frame_data->set_reply_proto(reply_proto);
	reply_frame_data->set_success(true);
	}
	SendFrame(client, reply_frame, reply.fd());
	}

	// static
	void HostImpl::SendFrame(ClientConnection* client, const Frame& frame, int fd) {
	auto peer_uid = GetPosixPeerUid(client->sock.get());
	auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));

	std::string buf = BufferedFrameDeserializer::Serialize(frame);

	// When a new Client connects in OnNewClientConnection we set a timeout on
	// Send (see call to SetTxTimeout).
	//
	// The old behaviour was to do a blocking I/O call, which caused crashes from
	// misbehaving producers (see b/169051440).
	bool res = client->sock->Send(buf.data(), buf.size(), fd);
	// If we timeout \|res\| will be false, but the UnixSocket will have called
	// UnixSocket::ShutDown() and thus \|is_connected()\| is false.
	PERFETTO_CHECK(res \|\| !client->sock->is_connected());
	}

	void HostImpl::OnDisconnect(base::UnixSocket* sock) {
	PERFETTO_DCHECK_THREAD(thread_checker_);
	auto it = clients_by_socket_.find(sock);
	if (it == clients_by_socket_.end())
	return;
	ClientID client_id = it->second->id;

	ClientInfo client_info(client_id, GetPosixPeerUid(sock),
	GetLinuxPeerPid(sock));
	clients_by_socket_.erase(it);
	PERFETTO_DCHECK(clients_.count(client_id));
	clients_.erase(client_id);

	for (const auto& service_it : services_) {
	Service& service = *service_it.second.instance;
	service.client_info_ = client_info;
	service.OnClientDisconnected();
	service.client_info_ = ClientInfo();
	}
	}

	const HostImpl::ExposedService* HostImpl::GetServiceByName(
	const std::string& name) {
	// This could be optimized by using another map<name,ServiceID>. However this
	// is used only by Bind/ExposeService that are quite rare (once per client
	// connection and once per service instance), not worth it.
	for (const auto& it : services_) {
	if (it.second.name == name)
	return &it.second;
	}
	return nullptr;
	}

	HostImpl::ExposedService::ExposedService(ServiceID id_,
	const std::string& name_,
	std::unique_ptr<Service> instance_)
	: id(id_), name(name_), instance(std::move(instance_)) {}

	HostImpl::ExposedService::ExposedService(ExposedService&&) noexcept = default;
	HostImpl::ExposedService& HostImpl::ExposedService::operator=(
	HostImpl::ExposedService&&) = default;
	HostImpl::ExposedService::~ExposedService() = default;

	HostImpl::ClientConnection::~ClientConnection() = default;

	} // namespace ipc
	} // namespace perfetto