/* * * Copyright 2017 gRPC authors. * * 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. * */ #ifndef GRPC_CORE_EXT_TRANSPORT_CHTTP2_TRANSPORT_FLOW_CONTROL_H #define GRPC_CORE_EXT_TRANSPORT_CHTTP2_TRANSPORT_FLOW_CONTROL_H #include #include #include "src/core/ext/transport/chttp2/transport/http2_settings.h" #include "src/core/lib/gpr/useful.h" #include "src/core/lib/gprpp/manual_constructor.h" #include "src/core/lib/transport/bdp_estimator.h" #include "src/core/lib/transport/pid_controller.h" struct grpc_chttp2_transport; struct grpc_chttp2_stream; extern grpc_core::TraceFlag grpc_flowctl_trace; namespace grpc { namespace testing { class TrickledCHTTP2; // to make this a friend } // namespace testing } // namespace grpc namespace grpc_core { namespace chttp2 { static constexpr uint32_t kDefaultWindow = 65535; static constexpr int64_t kMaxWindow = static_cast((1u << 31) - 1); // TODO(ncteisen): Tune this static constexpr uint32_t kFrameSize = 1024 * 1024; static constexpr const uint32_t kMinInitialWindowSize = 128; static constexpr const uint32_t kMaxInitialWindowSize = (1u << 30); // The maximum per-stream flow control window delta to advertise. static constexpr const uint32_t kMaxWindowDelta = (1u << 20); class TransportFlowControl; class StreamFlowControl; extern bool g_test_only_transport_flow_control_window_check; // Encapsulates a collections of actions the transport needs to take with // regard to flow control. Each action comes with urgencies that tell the // transport how quickly the action must take place. class FlowControlAction { public: enum class Urgency : uint8_t { // Nothing to be done. NO_ACTION_NEEDED = 0, // Initiate a write to update the initial window immediately. UPDATE_IMMEDIATELY, // Push the flow control update into a send buffer, to be sent // out the next time a write is initiated. QUEUE_UPDATE, }; Urgency send_stream_update() const { return send_stream_update_; } Urgency send_transport_update() const { return send_transport_update_; } Urgency send_initial_window_update() const { return send_initial_window_update_; } Urgency send_max_frame_size_update() const { return send_max_frame_size_update_; } uint32_t initial_window_size() const { return initial_window_size_; } uint32_t max_frame_size() const { return max_frame_size_; } FlowControlAction& set_send_stream_update(Urgency u) { send_stream_update_ = u; return *this; } FlowControlAction& set_send_transport_update(Urgency u) { send_transport_update_ = u; return *this; } FlowControlAction& set_send_initial_window_update(Urgency u, uint32_t update) { send_initial_window_update_ = u; initial_window_size_ = update; return *this; } FlowControlAction& set_send_max_frame_size_update(Urgency u, uint32_t update) { send_max_frame_size_update_ = u; max_frame_size_ = update; return *this; } static const char* UrgencyString(Urgency u); void Trace(grpc_chttp2_transport* t) const; private: Urgency send_stream_update_ = Urgency::NO_ACTION_NEEDED; Urgency send_transport_update_ = Urgency::NO_ACTION_NEEDED; Urgency send_initial_window_update_ = Urgency::NO_ACTION_NEEDED; Urgency send_max_frame_size_update_ = Urgency::NO_ACTION_NEEDED; uint32_t initial_window_size_ = 0; uint32_t max_frame_size_ = 0; }; class FlowControlTrace { public: FlowControlTrace(const char* reason, TransportFlowControl* tfc, StreamFlowControl* sfc) { if (enabled_) Init(reason, tfc, sfc); } ~FlowControlTrace() { if (enabled_) Finish(); } private: void Init(const char* reason, TransportFlowControl* tfc, StreamFlowControl* sfc); void Finish(); const bool enabled_ = GRPC_TRACE_FLAG_ENABLED(grpc_flowctl_trace); TransportFlowControl* tfc_; StreamFlowControl* sfc_; const char* reason_; int64_t remote_window_; int64_t target_window_; int64_t announced_window_; int64_t remote_window_delta_; int64_t local_window_delta_; int64_t announced_window_delta_; }; // Fat interface with all methods a flow control implementation needs to // support. class TransportFlowControlBase { public: TransportFlowControlBase() {} virtual ~TransportFlowControlBase() {} // Is flow control enabled? This is needed in other codepaths like the checks // in parsing and in writing. virtual bool flow_control_enabled() const = 0; // Called to check if the transport needs to send a WINDOW_UPDATE frame virtual uint32_t MaybeSendUpdate(bool /* writing_anyway */) = 0; // Using the protected members, returns and Action to be taken by the // tranport. virtual FlowControlAction MakeAction() = 0; // Using the protected members, returns and Action to be taken by the // tranport. Also checks for updates to our BDP estimate and acts // accordingly. virtual FlowControlAction PeriodicUpdate() = 0; // Called to do bookkeeping when a stream owned by this transport sends // data on the wire virtual void StreamSentData(int64_t /* size */) = 0; // Called to do bookkeeping when a stream owned by this transport receives // data from the wire. Also does error checking for frame size. virtual grpc_error_handle RecvData(int64_t /* incoming_frame_size */) = 0; // Called to do bookkeeping when we receive a WINDOW_UPDATE frame. virtual void RecvUpdate(uint32_t /* size */) = 0; // Returns the BdpEstimator held by this object. Caller is responsible for // checking for nullptr. TODO(ncteisen): consider fully encapsulating all // bdp estimator actions inside TransportFlowControl virtual BdpEstimator* bdp_estimator() { return nullptr; } // Getters int64_t remote_window() const { return remote_window_; } virtual int64_t target_window() const { return target_initial_window_size_; } int64_t announced_window() const { return announced_window_; } // Used in certain benchmarks in which we don't want FlowControl to be a // factor virtual void TestOnlyForceHugeWindow() {} protected: friend class ::grpc::testing::TrickledCHTTP2; int64_t remote_window_ = kDefaultWindow; int64_t target_initial_window_size_ = kDefaultWindow; int64_t announced_window_ = kDefaultWindow; }; // Implementation of flow control that does NOTHING. Always returns maximum // values, never initiates writes, and assumes that the remote peer is doing // the same. To be used to narrow down on flow control as the cause of negative // performance. class TransportFlowControlDisabled final : public TransportFlowControlBase { public: // Maxes out all values explicit TransportFlowControlDisabled(grpc_chttp2_transport* t); bool flow_control_enabled() const override { return false; } // Never do anything. uint32_t MaybeSendUpdate(bool /* writing_anyway */) override { return 0; } FlowControlAction MakeAction() override { return FlowControlAction(); } FlowControlAction PeriodicUpdate() override { return FlowControlAction(); } void StreamSentData(int64_t /* size */) override {} grpc_error_handle RecvData(int64_t /* incoming_frame_size */) override { return GRPC_ERROR_NONE; } void RecvUpdate(uint32_t /* size */) override {} }; // Implementation of flow control that abides to HTTP/2 spec and attempts // to be as performant as possible. class TransportFlowControl final : public TransportFlowControlBase { public: TransportFlowControl(const grpc_chttp2_transport* t, bool enable_bdp_probe); ~TransportFlowControl() override {} bool flow_control_enabled() const override { return true; } bool bdp_probe() const { return enable_bdp_probe_; } // returns an announce if we should send a transport update to our peer, // else returns zero; writing_anyway indicates if a write would happen // regardless of the send - if it is false and this function returns non-zero, // this announce will cause a write to occur uint32_t MaybeSendUpdate(bool writing_anyway) override; // Reads the flow control data and returns and actionable struct that will // tell chttp2 exactly what it needs to do FlowControlAction MakeAction() override { return UpdateAction(FlowControlAction()); } // Call periodically (at a low-ish rate, 100ms - 10s makes sense) // to perform more complex flow control calculations and return an action // to let chttp2 change its parameters FlowControlAction PeriodicUpdate() override; void StreamSentData(int64_t size) override { remote_window_ -= size; } grpc_error_handle ValidateRecvData(int64_t incoming_frame_size); void CommitRecvData(int64_t incoming_frame_size) { announced_window_ -= incoming_frame_size; } grpc_error_handle RecvData(int64_t incoming_frame_size) override { FlowControlTrace trace(" data recv", this, nullptr); grpc_error_handle error = ValidateRecvData(incoming_frame_size); if (error != GRPC_ERROR_NONE) return error; CommitRecvData(incoming_frame_size); return GRPC_ERROR_NONE; } // we have received a WINDOW_UPDATE frame for a transport void RecvUpdate(uint32_t size) override { FlowControlTrace trace("t updt recv", this, nullptr); remote_window_ += size; } // See comment above announced_stream_total_over_incoming_window_ for the // logic behind this decision. int64_t target_window() const override { return static_cast GPR_MIN( (int64_t)((1u << 31) - 1), announced_stream_total_over_incoming_window_ + target_initial_window_size_); } const grpc_chttp2_transport* transport() const { return t_; } void PreUpdateAnnouncedWindowOverIncomingWindow(int64_t delta) { if (delta > 0) { announced_stream_total_over_incoming_window_ -= delta; } } void PostUpdateAnnouncedWindowOverIncomingWindow(int64_t delta) { if (delta > 0) { announced_stream_total_over_incoming_window_ += delta; } } BdpEstimator* bdp_estimator() override { return &bdp_estimator_; } void TestOnlyForceHugeWindow() override { announced_window_ = 1024 * 1024 * 1024; remote_window_ = 1024 * 1024 * 1024; } private: double TargetLogBdp(); double SmoothLogBdp(double value); FlowControlAction::Urgency DeltaUrgency(int64_t value, grpc_chttp2_setting_id setting_id); FlowControlAction UpdateAction(FlowControlAction action) { if (announced_window_ < target_window() / 2) { action.set_send_transport_update( FlowControlAction::Urgency::UPDATE_IMMEDIATELY); } return action; } const grpc_chttp2_transport* const t_; /** calculating what we should give for local window: we track the total amount of flow control over initial window size across all streams: this is data that we want to receive right now (it has an outstanding read) and the total amount of flow control under initial window size across all streams: this is data we've read early we want to adjust incoming_window such that: incoming_window = total_over - max(bdp - total_under, 0) */ int64_t announced_stream_total_over_incoming_window_ = 0; /** should we probe bdp? */ const bool enable_bdp_probe_; /* bdp estimation */ grpc_core::BdpEstimator bdp_estimator_; /* pid controller */ grpc_core::PidController pid_controller_; grpc_millis last_pid_update_ = 0; }; // Fat interface with all methods a stream flow control implementation needs // to support. class StreamFlowControlBase { public: StreamFlowControlBase() {} virtual ~StreamFlowControlBase() {} // Updates an action using the protected members. virtual FlowControlAction UpdateAction(FlowControlAction /* action */) { abort(); } // Using the protected members, returns an Action for this stream to be // taken by the tranport. virtual FlowControlAction MakeAction() = 0; // Bookkeeping for when data is sent on this stream. virtual void SentData(int64_t /* outgoing_frame_size */) = 0; // Bookkeeping and error checking for when data is received by this stream. virtual grpc_error_handle RecvData(int64_t /* incoming_frame_size */) = 0; // Called to check if this stream needs to send a WINDOW_UPDATE frame. virtual uint32_t MaybeSendUpdate() = 0; // Bookkeeping for receiving a WINDOW_UPDATE from for this stream. virtual void RecvUpdate(uint32_t /* size */) = 0; // Bookkeeping for when a call pulls bytes out of the transport. At this // point we consider the data 'used' and can thus let out peer know we are // ready for more data. virtual void IncomingByteStreamUpdate(size_t /* max_size_hint */, size_t /* have_already */) { abort(); } // Used in certain benchmarks in which we don't want FlowControl to be a // factor virtual void TestOnlyForceHugeWindow() {} // Getters int64_t remote_window_delta() const { return remote_window_delta_; } int64_t local_window_delta() const { return local_window_delta_; } int64_t announced_window_delta() const { return announced_window_delta_; } protected: friend class ::grpc::testing::TrickledCHTTP2; int64_t remote_window_delta_ = 0; int64_t local_window_delta_ = 0; int64_t announced_window_delta_ = 0; }; // Implementation of flow control that does NOTHING. Always returns maximum // values, never initiates writes, and assumes that the remote peer is doing // the same. To be used to narrow down on flow control as the cause of negative // performance. class StreamFlowControlDisabled : public StreamFlowControlBase { public: FlowControlAction UpdateAction(FlowControlAction action) override { return action; } FlowControlAction MakeAction() override { return FlowControlAction(); } void SentData(int64_t /* outgoing_frame_size */) override {} grpc_error_handle RecvData(int64_t /* incoming_frame_size */) override { return GRPC_ERROR_NONE; } uint32_t MaybeSendUpdate() override { return 0; } void RecvUpdate(uint32_t /* size */) override {} void IncomingByteStreamUpdate(size_t /* max_size_hint */, size_t /* have_already */) override {} }; // Implementation of flow control that abides to HTTP/2 spec and attempts // to be as performant as possible. class StreamFlowControl final : public StreamFlowControlBase { public: StreamFlowControl(TransportFlowControl* tfc, const grpc_chttp2_stream* s); ~StreamFlowControl() override { tfc_->PreUpdateAnnouncedWindowOverIncomingWindow(announced_window_delta_); } FlowControlAction UpdateAction(FlowControlAction action) override; FlowControlAction MakeAction() override { return UpdateAction(tfc_->MakeAction()); } // we have sent data on the wire, we must track this in our bookkeeping for // the remote peer's flow control. void SentData(int64_t outgoing_frame_size) override { FlowControlTrace tracer(" data sent", tfc_, this); tfc_->StreamSentData(outgoing_frame_size); remote_window_delta_ -= outgoing_frame_size; } // we have received data from the wire grpc_error_handle RecvData(int64_t incoming_frame_size) override; // returns an announce if we should send a stream update to our peer, else // returns zero uint32_t MaybeSendUpdate() override; // we have received a WINDOW_UPDATE frame for a stream void RecvUpdate(uint32_t size) override { FlowControlTrace trace("s updt recv", tfc_, this); remote_window_delta_ += size; } // the application is asking for a certain amount of bytes void IncomingByteStreamUpdate(size_t max_size_hint, size_t have_already) override; int64_t remote_window_delta() const { return remote_window_delta_; } int64_t local_window_delta() const { return local_window_delta_; } int64_t announced_window_delta() const { return announced_window_delta_; } const grpc_chttp2_stream* stream() const { return s_; } void TestOnlyForceHugeWindow() override { announced_window_delta_ = 1024 * 1024 * 1024; local_window_delta_ = 1024 * 1024 * 1024; remote_window_delta_ = 1024 * 1024 * 1024; } private: TransportFlowControl* const tfc_; const grpc_chttp2_stream* const s_; void UpdateAnnouncedWindowDelta(TransportFlowControl* tfc, int64_t change) { tfc->PreUpdateAnnouncedWindowOverIncomingWindow(announced_window_delta_); announced_window_delta_ += change; tfc->PostUpdateAnnouncedWindowOverIncomingWindow(announced_window_delta_); } }; class TestOnlyTransportTargetWindowEstimatesMocker { public: virtual ~TestOnlyTransportTargetWindowEstimatesMocker() {} virtual double ComputeNextTargetInitialWindowSizeFromPeriodicUpdate( double current_target) = 0; }; extern TestOnlyTransportTargetWindowEstimatesMocker* g_test_only_transport_target_window_estimates_mocker; } // namespace chttp2 } // namespace grpc_core #endif // GRPC_CORE_EXT_TRANSPORT_CHTTP2_TRANSPORT_FLOW_CONTROL_H