vn-verdnaturachat/ios/Pods/Flipper-RSocket/rsocket/internal/WarmResumeManager.cpp

174 lines
5.0 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.
#include "rsocket/internal/WarmResumeManager.h"
#include <algorithm>
namespace rsocket {
WarmResumeManager::~WarmResumeManager() {
clearFrames(lastSentPosition_);
}
void WarmResumeManager::trackReceivedFrame(
size_t frameLength,
FrameType frameType,
StreamId streamId,
size_t consumerAllowance) {
if (shouldTrackFrame(frameType)) {
VLOG(6) << "Track received frame " << frameType << " StreamId: " << streamId
<< " Allowance: " << consumerAllowance;
impliedPosition_ += frameLength;
}
}
void WarmResumeManager::trackSentFrame(
const folly::IOBuf& serializedFrame,
FrameType frameType,
StreamId,
size_t consumerAllowance) {
if (shouldTrackFrame(frameType)) {
// TODO(tmont): this could be expensive, find a better way to get length
const auto frameDataLength = serializedFrame.computeChainDataLength();
VLOG(6) << "Track sent frame " << frameType
<< " Allowance: " << consumerAllowance;
// If the frame is too huge, we don't cache it.
// We empty the entire cache instead.
if (frameDataLength > capacity_) {
resetUpToPosition(lastSentPosition_);
lastSentPosition_ += frameDataLength;
firstSentPosition_ += frameDataLength;
DCHECK(firstSentPosition_ == lastSentPosition_);
DCHECK(size_ == 0);
return;
}
addFrame(serializedFrame, frameDataLength);
lastSentPosition_ += frameDataLength;
}
}
void WarmResumeManager::resetUpToPosition(ResumePosition position) {
if (position <= firstSentPosition_) {
return;
}
if (position > lastSentPosition_) {
position = lastSentPosition_;
}
clearFrames(position);
firstSentPosition_ = position;
DCHECK(frames_.empty() || frames_.front().first == firstSentPosition_);
}
bool WarmResumeManager::isPositionAvailable(ResumePosition position) const {
return (lastSentPosition_ == position) ||
std::binary_search(
frames_.begin(),
frames_.end(),
std::make_pair(position, std::unique_ptr<folly::IOBuf>()),
[](decltype(frames_.back()) pairA,
decltype(frames_.back()) pairB) {
return pairA.first < pairB.first;
});
}
void WarmResumeManager::addFrame(
const folly::IOBuf& frame,
size_t frameDataLength) {
size_ += frameDataLength;
while (size_ > capacity_) {
evictFrame();
}
frames_.emplace_back(lastSentPosition_, frame.clone());
stats_->resumeBufferChanged(1, static_cast<int>(frameDataLength));
}
void WarmResumeManager::evictFrame() {
DCHECK(!frames_.empty());
const auto position = frames_.size() > 1 ? std::next(frames_.begin())->first
: lastSentPosition_;
resetUpToPosition(position);
}
void WarmResumeManager::clearFrames(ResumePosition position) {
if (frames_.empty()) {
return;
}
DCHECK(position <= lastSentPosition_);
DCHECK(position >= firstSentPosition_);
const auto end = std::lower_bound(
frames_.begin(),
frames_.end(),
position,
[](decltype(frames_.back()) pair, ResumePosition pos) {
return pair.first < pos;
});
DCHECK(end == frames_.end() || end->first >= firstSentPosition_);
const auto pos = end == frames_.end() ? position : end->first;
stats_->resumeBufferChanged(
-static_cast<int>(std::distance(frames_.begin(), end)),
-static_cast<int>(pos - firstSentPosition_));
frames_.erase(frames_.begin(), end);
size_ -= static_cast<decltype(size_)>(pos - firstSentPosition_);
}
void WarmResumeManager::sendFramesFromPosition(
ResumePosition position,
FrameTransport& frameTransport) const {
DCHECK(isPositionAvailable(position));
if (position == lastSentPosition_) {
// idle resumption
return;
}
auto found = std::lower_bound(
frames_.begin(),
frames_.end(),
position,
[](decltype(frames_.back()) pair, ResumePosition pos) {
return pair.first < pos;
});
DCHECK(found != frames_.end());
DCHECK(found->first == position);
while (found != frames_.end()) {
frameTransport.outputFrameOrDrop(found->second->clone());
found++;
}
}
std::shared_ptr<ResumeManager> ResumeManager::makeEmpty() {
class Empty : public WarmResumeManager {
public:
Empty() : WarmResumeManager(nullptr, 0) {}
bool shouldTrackFrame(FrameType) const override {
return false;
}
};
return std::make_shared<Empty>();
}
} // namespace rsocket