verdnatura-chat/ios/Pods/Flipper-RSocket/rsocket/ResumeManager.h

162 lines
5.8 KiB
C++

// Copyright (c) Facebook, Inc. and its affiliates.
//
// 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.
#pragma once
#include <folly/Optional.h>
#include <unordered_map>
#include "rsocket/framing/Frame.h"
#include "rsocket/framing/FrameTransportImpl.h"
namespace folly {
class IOBuf;
}
namespace rsocket {
// Struct to hold information relevant per stream.
struct StreamResumeInfo {
StreamResumeInfo() = delete;
StreamResumeInfo(StreamType sType, RequestOriginator req, std::string sToken)
: streamType(sType), requester(req), streamToken(sToken) {}
// REQUEST_STREAM, REQUEST_CHANNEL or REQUEST_RESPONSE. We don't
// have to store any stream level information for FNF.
StreamType streamType;
// Did the stream originate locally or remotely.
RequestOriginator requester;
// Application defined string representation for the stream.
std::string streamToken;
// Stores the allowance which the local side has received but hasn't
// fulfilled yet. Relevant for REQUEST_STREAM Responder and REQUEST_CHANNEL
size_t producerAllowance{0};
// Stores the allowance which has been sent to the remote side and has not
// been fulfilled yet. Relevant for REQUEST_STREAM Requester and
// REQUEST_CHANNEL
size_t consumerAllowance{0};
};
using StreamResumeInfos = std::unordered_map<StreamId, StreamResumeInfo>;
// Applications desiring to have cold-resumption should implement a
// ResumeManager interface. By default, an in-memory implementation of this
// interface (WarmResumeManager) will be used by RSocket.
//
// The API refers to the stored frames by "position". "position" is the byte
// count at frame boundaries. For example, if the ResumeManager has stored 3
// 100-byte sent frames starting from byte count 150. Then,
// - isPositionAvailable would return true for the values [150, 250, 350].
// - firstSentPosition() would return 150
// - lastSentPosition() would return 350
class ResumeManager {
public:
static std::shared_ptr<ResumeManager> makeEmpty();
virtual ~ResumeManager() {}
// The following methods will be called for each frame which is being
// sent/received on the wire. The application should implement a way to
// store the sent and received frames in persistent storage.
virtual void trackReceivedFrame(
size_t frameLength,
FrameType frameType,
StreamId streamId,
size_t consumerAllowance) = 0;
virtual void trackSentFrame(
const folly::IOBuf& serializedFrame,
FrameType frameType,
StreamId streamId,
size_t consumerAllowance) = 0;
// We have received acknowledgement from the remote-side that it has frames
// up to "position". We can discard all frames before that. This
// information is periodically received from remote-side through KeepAlive
// frames.
virtual void resetUpToPosition(ResumePosition position) = 0;
// The application should check its persistent storage and respond whether it
// has frames starting from "position" in send buffer.
virtual bool isPositionAvailable(ResumePosition position) const = 0;
// The application should send frames starting from the "position" using the
// provided "transport". As an alternative, we could design the API such
// that we retrieve individual frames from the application and send them over
// wire. But that would mean application has random access to frames
// indexed by position. This API gives the flexibility to the application to
// store the frames in any way it wants (randomly accessed or sequentially
// accessed).
virtual void sendFramesFromPosition(
ResumePosition position,
FrameTransport& transport) const = 0;
// This should return the first (oldest) available position in the send
// buffer.
virtual ResumePosition firstSentPosition() const = 0;
// This should return the last (latest) available position in the send
// buffer.
virtual ResumePosition lastSentPosition() const = 0;
// This should return the latest tracked position of frames received from
// remote side.
virtual ResumePosition impliedPosition() const = 0;
// This gets called when a stream is opened (both local/remote streams)
virtual void onStreamOpen(
StreamId,
RequestOriginator,
std::string streamToken,
StreamType streamType) = 0;
// This gets called when a stream is closed (both local/remote streams)
virtual void onStreamClosed(StreamId streamId) = 0;
// Returns the cached stream information.
virtual const StreamResumeInfos& getStreamResumeInfos() const = 0;
// Returns the largest used StreamId so far.
virtual StreamId getLargestUsedStreamId() const = 0;
// Utility method to check frames which should be tracked for resumption.
virtual bool shouldTrackFrame(const FrameType frameType) const {
switch (frameType) {
case FrameType::REQUEST_CHANNEL:
case FrameType::REQUEST_STREAM:
case FrameType::REQUEST_RESPONSE:
case FrameType::REQUEST_FNF:
case FrameType::REQUEST_N:
case FrameType::CANCEL:
case FrameType::ERROR:
case FrameType::PAYLOAD:
return true;
case FrameType::RESERVED:
case FrameType::SETUP:
case FrameType::LEASE:
case FrameType::KEEPALIVE:
case FrameType::METADATA_PUSH:
case FrameType::RESUME:
case FrameType::RESUME_OK:
case FrameType::EXT:
default:
return false;
}
}
};
} // namespace rsocket