verdnatura-chat/ios/Pods/Flipper-RSocket/rsocket/framing/Framer.cpp

205 lines
6.2 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/framing/Framer.h"
#include <folly/io/Cursor.h>
#include "rsocket/framing/FrameSerializer_v1_0.h"
namespace rsocket {
namespace {
constexpr size_t kFrameLengthFieldLengthV1_0 = 3;
constexpr auto kMaxFrameLength = 0xFFFFFF; // 24bit max value
template <typename TWriter>
void writeFrameLength(
TWriter& cur,
size_t frameLength,
size_t frameSizeFieldLength) {
DCHECK(frameSizeFieldLength > 0);
// starting from the highest byte
// frameSizeFieldLength == 3 => shift = [16,8,0]
// frameSizeFieldLength == 4 => shift = [24,16,8,0]
auto shift = (frameSizeFieldLength - 1) * 8;
while (frameSizeFieldLength--) {
const auto byte = (frameLength >> shift) & 0xFF;
cur.write(static_cast<uint8_t>(byte));
shift -= 8;
}
}
} // namespace
/// Get the byte size of the frame length field in an RSocket frame.
size_t Framer::frameSizeFieldLength() const {
DCHECK_NE(protocolVersion_, ProtocolVersion::Unknown);
if (protocolVersion_ < FrameSerializerV1_0::Version) {
return sizeof(int32_t);
} else {
return 3; // bytes
}
}
/// Get the minimum size for a valid RSocket frame (including its frame length
/// field).
size_t Framer::minimalFrameLength() const {
DCHECK_NE(protocolVersion_, ProtocolVersion::Unknown);
return FrameSerializerV1_0::kFrameHeaderSize;
}
/// Compute the length of the entire frame (including its frame length field),
/// if given only its frame length field.
size_t Framer::frameSizeWithLengthField(size_t frameSize) const {
return protocolVersion_ < FrameSerializerV1_0::Version
? frameSize
: frameSize + frameSizeFieldLength();
}
/// Compute the length of the frame (excluding its frame length field), if given
/// only its frame length field.
size_t Framer::frameSizeWithoutLengthField(size_t frameSize) const {
DCHECK_NE(protocolVersion_, ProtocolVersion::Unknown);
return protocolVersion_ < FrameSerializerV1_0::Version
? frameSize - frameSizeFieldLength()
: frameSize;
}
size_t Framer::readFrameLength() const {
const auto fieldLength = frameSizeFieldLength();
DCHECK_GT(fieldLength, 0);
folly::io::Cursor cur{payloadQueue_.front()};
size_t frameLength = 0;
// Reading of arbitrary-sized big-endian integer.
for (size_t i = 0; i < fieldLength; ++i) {
frameLength <<= 8;
frameLength |= cur.read<uint8_t>();
}
return frameLength;
}
void Framer::addFrameChunk(std::unique_ptr<folly::IOBuf> payload) {
payloadQueue_.append(std::move(payload));
parseFrames();
}
void Framer::parseFrames() {
if (payloadQueue_.empty() || !ensureOrAutodetectProtocolVersion()) {
// At this point we dont have enough bytes on the wire or we errored out.
return;
}
while (!payloadQueue_.empty()) {
auto const frameSizeFieldLen = frameSizeFieldLength();
if (payloadQueue_.chainLength() < frameSizeFieldLen) {
// We don't even have the next frame size value.
break;
}
auto const nextFrameSize = readFrameLength();
if (nextFrameSize < minimalFrameLength()) {
error("Invalid frame - Frame size smaller than minimum");
break;
}
if (payloadQueue_.chainLength() < frameSizeWithLengthField(nextFrameSize)) {
// Need to accumulate more data.
break;
}
auto payloadSize = frameSizeWithoutLengthField(nextFrameSize);
if (stripFrameLengthField_) {
payloadQueue_.trimStart(frameSizeFieldLen);
} else {
payloadSize += frameSizeFieldLen;
}
DCHECK_GT(payloadSize, 0)
<< "folly::IOBufQueue::split(0) returns a nullptr, can't have that";
auto nextFrame = payloadQueue_.split(payloadSize);
onFrame(std::move(nextFrame));
}
}
bool Framer::ensureOrAutodetectProtocolVersion() {
if (protocolVersion_ != ProtocolVersion::Unknown) {
return true;
}
const auto minBytesNeeded =
FrameSerializerV1_0::kMinBytesNeededForAutodetection;
DCHECK_GT(minBytesNeeded, 0);
if (payloadQueue_.chainLength() < minBytesNeeded) {
return false;
}
DCHECK_GT(minBytesNeeded, kFrameLengthFieldLengthV1_0);
auto const& firstFrame = *payloadQueue_.front();
const auto detectedV1 = FrameSerializerV1_0::detectProtocolVersion(
firstFrame, kFrameLengthFieldLengthV1_0);
if (detectedV1 != ProtocolVersion::Unknown) {
protocolVersion_ = FrameSerializerV1_0::Version;
return true;
}
error("Could not detect protocol version from data");
return false;
}
std::unique_ptr<folly::IOBuf> Framer::prependSize(
std::unique_ptr<folly::IOBuf> payload) {
CHECK(payload);
const auto frameSizeFieldLengthValue = frameSizeFieldLength();
const auto payloadLength = payload->computeChainDataLength();
CHECK_LE(payloadLength, kMaxFrameLength)
<< "payloadLength: " << payloadLength
<< " kMaxFrameLength: " << kMaxFrameLength;
if (payload->headroom() >= frameSizeFieldLengthValue) {
// move the data pointer back and write value to the payload
payload->prepend(frameSizeFieldLengthValue);
folly::io::RWPrivateCursor cur(payload.get());
writeFrameLength(cur, payloadLength, frameSizeFieldLengthValue);
return payload;
} else {
auto newPayload = folly::IOBuf::createCombined(frameSizeFieldLengthValue);
folly::io::Appender appender(newPayload.get(), /* do not grow */ 0);
writeFrameLength(appender, payloadLength, frameSizeFieldLengthValue);
newPayload->appendChain(std::move(payload));
return newPayload;
}
}
StreamId Framer::peekStreamId(
const folly::IOBuf& frame,
bool skipFrameLengthBytes) const {
return FrameSerializer::peekStreamId(
protocolVersion_, frame, skipFrameLengthBytes)
.value();
}
std::unique_ptr<folly::IOBuf> Framer::drainPayloadQueue() {
return payloadQueue_.move();
}
} // namespace rsocket