/* * 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/client_impl.h" #include #include #include #include #include "perfetto/base/task_runner.h" #include "perfetto/base/utils.h" #include "perfetto/ipc/service_descriptor.h" #include "perfetto/ipc/service_proxy.h" // TODO(primiano): Add ThreadChecker everywhere. // TODO(primiano): Add timeouts. namespace perfetto { namespace ipc { // static std::unique_ptr Client::CreateInstance(const char* socket_name, base::TaskRunner* task_runner) { std::unique_ptr client(new ClientImpl(socket_name, task_runner)); return client; } ClientImpl::ClientImpl(const char* socket_name, base::TaskRunner* task_runner) : task_runner_(task_runner), weak_ptr_factory_(this) { GOOGLE_PROTOBUF_VERIFY_VERSION; sock_ = base::UnixSocket::Connect(socket_name, this, task_runner); } ClientImpl::~ClientImpl() { // Ensure we are not destroyed in the middle of invoking a reply. PERFETTO_DCHECK(!invoking_method_reply_); OnDisconnect( nullptr); // The base::UnixSocket* ptr is not used in OnDisconnect(). } void ClientImpl::BindService(base::WeakPtr service_proxy) { if (!service_proxy) return; if (!sock_->is_connected()) { queued_bindings_.emplace_back(service_proxy); return; } RequestID request_id = ++last_request_id_; Frame frame; frame.set_request_id(request_id); Frame::BindService* req = frame.mutable_msg_bind_service(); const char* const service_name = service_proxy->GetDescriptor().service_name; req->set_service_name(service_name); if (!SendFrame(frame)) { PERFETTO_DLOG("BindService(%s) failed", service_name); return service_proxy->OnConnect(false /* success */); } QueuedRequest qr; qr.type = Frame::kMsgBindService; qr.request_id = request_id; qr.service_proxy = service_proxy; queued_requests_.emplace(request_id, std::move(qr)); } void ClientImpl::UnbindService(ServiceID service_id) { service_bindings_.erase(service_id); } RequestID ClientImpl::BeginInvoke(ServiceID service_id, const std::string& method_name, MethodID remote_method_id, const ProtoMessage& method_args, bool drop_reply, base::WeakPtr service_proxy, int fd) { std::string args_proto; RequestID request_id = ++last_request_id_; Frame frame; frame.set_request_id(request_id); Frame::InvokeMethod* req = frame.mutable_msg_invoke_method(); req->set_service_id(service_id); req->set_method_id(remote_method_id); req->set_drop_reply(drop_reply); bool did_serialize = method_args.SerializeToString(&args_proto); req->set_args_proto(args_proto); if (!did_serialize || !SendFrame(frame, fd)) { PERFETTO_DLOG("BeginInvoke() failed while sending the frame"); return 0; } if (drop_reply) return 0; QueuedRequest qr; qr.type = Frame::kMsgInvokeMethod; qr.request_id = request_id; qr.method_name = method_name; qr.service_proxy = std::move(service_proxy); queued_requests_.emplace(request_id, std::move(qr)); return request_id; } bool ClientImpl::SendFrame(const Frame& frame, int fd) { // Serialize the frame into protobuf, add the size header, and send it. std::string buf = BufferedFrameDeserializer::Serialize(frame); // TODO(primiano): this should do non-blocking I/O. But then what if the // socket buffer is full? We might want to either drop the request or throttle // the send and PostTask the reply later? Right now we are making Send() // blocking as a workaround. Propagate bakpressure to the caller instead. bool res = sock_->Send(buf.data(), buf.size(), fd, base::UnixSocket::BlockingMode::kBlocking); PERFETTO_CHECK(res || !sock_->is_connected()); return res; } void ClientImpl::OnConnect(base::UnixSocket*, bool connected) { // Drain the BindService() calls that were queued before establishig the // connection with the host. for (base::WeakPtr& service_proxy : queued_bindings_) { if (connected) { BindService(service_proxy); } else if (service_proxy) { service_proxy->OnConnect(false /* success */); } } queued_bindings_.clear(); } void ClientImpl::OnDisconnect(base::UnixSocket*) { for (auto it : service_bindings_) { base::WeakPtr& service_proxy = it.second; task_runner_->PostTask([service_proxy] { if (service_proxy) service_proxy->OnDisconnect(); }); } service_bindings_.clear(); queued_bindings_.clear(); } void ClientImpl::OnDataAvailable(base::UnixSocket*) { size_t rsize; do { auto buf = frame_deserializer_.BeginReceive(); base::ScopedFile fd; rsize = sock_->Receive(buf.data, buf.size, &fd); if (fd) { PERFETTO_DCHECK(!received_fd_); int res = fcntl(*fd, F_SETFD, FD_CLOEXEC); PERFETTO_DCHECK(res == 0); received_fd_ = std::move(fd); } if (!frame_deserializer_.EndReceive(rsize)) { // The endpoint tried to send a frame that is way too large. return sock_->Shutdown(true); // In turn will trigger an OnDisconnect(). // TODO(fmayer): check this. } } while (rsize > 0); while (std::unique_ptr frame = frame_deserializer_.PopNextFrame()) OnFrameReceived(*frame); } void ClientImpl::OnFrameReceived(const Frame& frame) { auto queued_requests_it = queued_requests_.find(frame.request_id()); if (queued_requests_it == queued_requests_.end()) { PERFETTO_DLOG("OnFrameReceived(): got invalid request_id=%" PRIu64, static_cast(frame.request_id())); return; } QueuedRequest req = std::move(queued_requests_it->second); queued_requests_.erase(queued_requests_it); if (req.type == Frame::kMsgBindService && frame.msg_case() == Frame::kMsgBindServiceReply) { return OnBindServiceReply(std::move(req), frame.msg_bind_service_reply()); } if (req.type == Frame::kMsgInvokeMethod && frame.msg_case() == Frame::kMsgInvokeMethodReply) { return OnInvokeMethodReply(std::move(req), frame.msg_invoke_method_reply()); } if (frame.msg_case() == Frame::kMsgRequestError) { PERFETTO_DLOG("Host error: %s", frame.msg_request_error().error().c_str()); return; } PERFETTO_DLOG( "OnFrameReceived() request msg_type=%d, received msg_type=%d in reply to " "request_id=%" PRIu64, req.type, frame.msg_case(), static_cast(frame.request_id())); } void ClientImpl::OnBindServiceReply(QueuedRequest req, const Frame::BindServiceReply& reply) { base::WeakPtr& service_proxy = req.service_proxy; if (!service_proxy) return; const char* svc_name = service_proxy->GetDescriptor().service_name; if (!reply.success()) { PERFETTO_DLOG("BindService(): unknown service_name=\"%s\"", svc_name); return service_proxy->OnConnect(false /* success */); } auto prev_service = service_bindings_.find(reply.service_id()); if (prev_service != service_bindings_.end() && prev_service->second.get()) { PERFETTO_DLOG( "BindService(): Trying to bind service \"%s\" but another service " "named \"%s\" is already bound with the same ID.", svc_name, prev_service->second->GetDescriptor().service_name); return service_proxy->OnConnect(false /* success */); } // Build the method [name] -> [remote_id] map. std::map methods; for (const auto& method : reply.methods()) { if (method.name().empty() || method.id() <= 0) { PERFETTO_DLOG("OnBindServiceReply(): invalid method \"%s\" -> %" PRIu64, method.name().c_str(), static_cast(method.id())); continue; } methods[method.name()] = method.id(); } service_proxy->InitializeBinding(weak_ptr_factory_.GetWeakPtr(), reply.service_id(), std::move(methods)); service_bindings_[reply.service_id()] = service_proxy; service_proxy->OnConnect(true /* success */); } void ClientImpl::OnInvokeMethodReply(QueuedRequest req, const Frame::InvokeMethodReply& reply) { base::WeakPtr service_proxy = req.service_proxy; if (!service_proxy) return; std::unique_ptr decoded_reply; if (reply.success()) { // If this becomes a hotspot, optimize by maintaining a dedicated hashtable. for (const auto& method : service_proxy->GetDescriptor().methods) { if (req.method_name == method.name) { decoded_reply = method.reply_proto_decoder(reply.reply_proto()); break; } } } const RequestID request_id = req.request_id; invoking_method_reply_ = true; service_proxy->EndInvoke(request_id, std::move(decoded_reply), reply.has_more()); invoking_method_reply_ = false; // If this is a streaming method and future replies will be resolved, put back // the |req| with the callback into the set of active requests. if (reply.has_more()) queued_requests_.emplace(request_id, std::move(req)); } ClientImpl::QueuedRequest::QueuedRequest() = default; base::ScopedFile ClientImpl::TakeReceivedFD() { return std::move(received_fd_); } } // namespace ipc } // namespace perfetto