verdnatura-chat/ios/Pods/Flipper-RSocket/rsocket/statemachine/ChannelRequester.cpp

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// 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/statemachine/ChannelRequester.h"
namespace rsocket {
void ChannelRequester::onSubscribe(
std::shared_ptr<yarpl::flowable::Subscription> subscription) {
CHECK(!requested_);
publisherSubscribe(std::move(subscription));
if (hasInitialRequest_) {
initStream(std::move(request_));
}
}
void ChannelRequester::onNext(Payload request) {
if (!requested_) {
initStream(std::move(request));
return;
}
if (!publisherClosed()) {
writePayload(std::move(request));
}
}
// TODO: consolidate code in onCompleteImpl, onErrorImpl, cancelImpl
void ChannelRequester::onComplete() {
if (!requested_) {
endStream(StreamCompletionSignal::CANCEL);
removeFromWriter();
return;
}
if (!publisherClosed()) {
publisherComplete();
writeComplete();
tryCompleteChannel();
}
}
void ChannelRequester::onError(folly::exception_wrapper ex) {
if (!requested_) {
endStream(StreamCompletionSignal::CANCEL);
removeFromWriter();
return;
}
if (!publisherClosed()) {
publisherComplete();
endStream(StreamCompletionSignal::ERROR);
writeApplicationError(ex.get_exception()->what());
tryCompleteChannel();
}
}
void ChannelRequester::request(int64_t n) {
if (!requested_) {
// The initial request has not been sent out yet, hence we must accumulate
// the unsynchronised allowance, portion of which will be sent out with
// the initial request frame, and the rest will be dispatched via
// ConsumerBase:request (ultimately by sending REQUEST_N frames).
initialResponseAllowance_.add(n);
return;
}
ConsumerBase::generateRequest(n);
}
void ChannelRequester::cancel() {
if (!requested_) {
endStream(StreamCompletionSignal::CANCEL);
removeFromWriter();
return;
}
cancelConsumer();
writeCancel();
tryCompleteChannel();
}
void ChannelRequester::handlePayload(
Payload&& payload,
bool flagsComplete,
bool flagsNext,
bool flagsFollows) {
CHECK(requested_);
bool finalComplete = processFragmentedPayload(
std::move(payload), flagsNext, flagsComplete, flagsFollows);
if (finalComplete) {
completeConsumer();
tryCompleteChannel();
}
}
void ChannelRequester::handleRequestN(uint32_t n) {
CHECK(requested_);
PublisherBase::processRequestN(n);
}
void ChannelRequester::handleError(folly::exception_wrapper ew) {
CHECK(requested_);
errorConsumer(std::move(ew));
terminatePublisher();
}
void ChannelRequester::handleCancel() {
CHECK(requested_);
terminatePublisher();
tryCompleteChannel();
}
void ChannelRequester::endStream(StreamCompletionSignal signal) {
terminatePublisher();
ConsumerBase::endStream(signal);
}
void ChannelRequester::initStream(Payload&& request) {
requested_ = true;
const size_t initialN = initialResponseAllowance_.consumeUpTo(kMaxRequestN);
const size_t remainingN = initialResponseAllowance_.consumeAll();
// Send as much as possible with the initial request.
CHECK_GE(kMaxRequestN, initialN);
newStream(
StreamType::CHANNEL, static_cast<uint32_t>(initialN), std::move(request));
// We must inform ConsumerBase about an implicit allowance we have
// requested from the remote end.
ConsumerBase::addImplicitAllowance(initialN);
// Pump the remaining allowance into the ConsumerBase _after_ sending the
// initial request.
if (remainingN) {
ConsumerBase::generateRequest(remainingN);
}
}
void ChannelRequester::tryCompleteChannel() {
if (publisherClosed() && consumerClosed()) {
endStream(StreamCompletionSignal::COMPLETE);
removeFromWriter();
}
}
} // namespace rsocket