mirror of
https://github.com/klzgrad/naiveproxy.git
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431 lines
15 KiB
C++
431 lines
15 KiB
C++
// Copyright 2016 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/third_party/http2/decoder/http2_frame_decoder.h"
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#include "net/third_party/http2/http2_constants.h"
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#include "net/third_party/http2/tools/http2_bug_tracker.h"
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namespace http2 {
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std::ostream& operator<<(std::ostream& out, Http2FrameDecoder::State v) {
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switch (v) {
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case Http2FrameDecoder::State::kStartDecodingHeader:
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return out << "kStartDecodingHeader";
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case Http2FrameDecoder::State::kResumeDecodingHeader:
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return out << "kResumeDecodingHeader";
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case Http2FrameDecoder::State::kResumeDecodingPayload:
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return out << "kResumeDecodingPayload";
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case Http2FrameDecoder::State::kDiscardPayload:
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return out << "kDiscardPayload";
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}
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// Since the value doesn't come over the wire, only a programming bug should
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// result in reaching this point.
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int unknown = static_cast<int>(v);
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HTTP2_BUG << "Http2FrameDecoder::State " << unknown;
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return out << "Http2FrameDecoder::State(" << unknown << ")";
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}
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Http2FrameDecoder::Http2FrameDecoder(Http2FrameDecoderListener* listener)
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: state_(State::kStartDecodingHeader),
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maximum_payload_size_(Http2SettingsInfo::DefaultMaxFrameSize()) {
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set_listener(listener);
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}
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void Http2FrameDecoder::set_listener(Http2FrameDecoderListener* listener) {
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if (listener == nullptr) {
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listener = &no_op_listener_;
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}
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frame_decoder_state_.set_listener(listener);
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}
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Http2FrameDecoderListener* Http2FrameDecoder::listener() const {
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return frame_decoder_state_.listener();
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}
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DecodeStatus Http2FrameDecoder::DecodeFrame(DecodeBuffer* db) {
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DVLOG(2) << "Http2FrameDecoder::DecodeFrame state=" << state_;
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switch (state_) {
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case State::kStartDecodingHeader:
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if (frame_decoder_state_.StartDecodingFrameHeader(db)) {
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return StartDecodingPayload(db);
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}
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state_ = State::kResumeDecodingHeader;
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return DecodeStatus::kDecodeInProgress;
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case State::kResumeDecodingHeader:
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if (frame_decoder_state_.ResumeDecodingFrameHeader(db)) {
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return StartDecodingPayload(db);
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}
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return DecodeStatus::kDecodeInProgress;
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case State::kResumeDecodingPayload:
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return ResumeDecodingPayload(db);
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case State::kDiscardPayload:
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return DiscardPayload(db);
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}
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NOTREACHED();
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return DecodeStatus::kDecodeError;
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}
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size_t Http2FrameDecoder::remaining_payload() const {
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return frame_decoder_state_.remaining_payload();
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}
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uint32_t Http2FrameDecoder::remaining_padding() const {
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return frame_decoder_state_.remaining_padding();
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}
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DecodeStatus Http2FrameDecoder::StartDecodingPayload(DecodeBuffer* db) {
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const Http2FrameHeader& header = frame_header();
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// TODO(jamessynge): Remove OnFrameHeader once done with supporting
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// SpdyFramer's exact states.
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if (!listener()->OnFrameHeader(header)) {
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DVLOG(2) << "OnFrameHeader rejected the frame, will discard; header: "
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<< header;
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state_ = State::kDiscardPayload;
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frame_decoder_state_.InitializeRemainders();
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return DecodeStatus::kDecodeError;
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}
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if (header.payload_length > maximum_payload_size_) {
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DVLOG(2) << "Payload length is greater than allowed: "
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<< header.payload_length << " > " << maximum_payload_size_
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<< "\n header: " << header;
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state_ = State::kDiscardPayload;
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frame_decoder_state_.InitializeRemainders();
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listener()->OnFrameSizeError(header);
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return DecodeStatus::kDecodeError;
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}
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// The decode buffer can extend across many frames. Make sure that the
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// buffer we pass to the start method that is specific to the frame type
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// does not exend beyond this frame.
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DecodeBufferSubset subset(db, header.payload_length);
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DecodeStatus status;
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switch (header.type) {
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case Http2FrameType::DATA:
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status = StartDecodingDataPayload(&subset);
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break;
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case Http2FrameType::HEADERS:
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status = StartDecodingHeadersPayload(&subset);
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break;
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case Http2FrameType::PRIORITY:
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status = StartDecodingPriorityPayload(&subset);
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break;
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case Http2FrameType::RST_STREAM:
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status = StartDecodingRstStreamPayload(&subset);
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break;
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case Http2FrameType::SETTINGS:
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status = StartDecodingSettingsPayload(&subset);
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break;
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case Http2FrameType::PUSH_PROMISE:
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status = StartDecodingPushPromisePayload(&subset);
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break;
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case Http2FrameType::PING:
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status = StartDecodingPingPayload(&subset);
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break;
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case Http2FrameType::GOAWAY:
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status = StartDecodingGoAwayPayload(&subset);
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break;
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case Http2FrameType::WINDOW_UPDATE:
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status = StartDecodingWindowUpdatePayload(&subset);
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break;
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case Http2FrameType::CONTINUATION:
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status = StartDecodingContinuationPayload(&subset);
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break;
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case Http2FrameType::ALTSVC:
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status = StartDecodingAltSvcPayload(&subset);
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break;
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default:
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status = StartDecodingUnknownPayload(&subset);
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break;
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}
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if (status == DecodeStatus::kDecodeDone) {
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state_ = State::kStartDecodingHeader;
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return status;
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} else if (status == DecodeStatus::kDecodeInProgress) {
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state_ = State::kResumeDecodingPayload;
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return status;
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} else {
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state_ = State::kDiscardPayload;
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return status;
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}
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingPayload(DecodeBuffer* db) {
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// The decode buffer can extend across many frames. Make sure that the
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// buffer we pass to the start method that is specific to the frame type
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// does not exend beyond this frame.
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size_t remaining = frame_decoder_state_.remaining_total_payload();
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DCHECK_LE(remaining, frame_header().payload_length);
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DecodeBufferSubset subset(db, remaining);
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DecodeStatus status;
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switch (frame_header().type) {
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case Http2FrameType::DATA:
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status = ResumeDecodingDataPayload(&subset);
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break;
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case Http2FrameType::HEADERS:
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status = ResumeDecodingHeadersPayload(&subset);
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break;
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case Http2FrameType::PRIORITY:
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status = ResumeDecodingPriorityPayload(&subset);
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break;
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case Http2FrameType::RST_STREAM:
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status = ResumeDecodingRstStreamPayload(&subset);
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break;
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case Http2FrameType::SETTINGS:
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status = ResumeDecodingSettingsPayload(&subset);
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break;
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case Http2FrameType::PUSH_PROMISE:
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status = ResumeDecodingPushPromisePayload(&subset);
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break;
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case Http2FrameType::PING:
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status = ResumeDecodingPingPayload(&subset);
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break;
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case Http2FrameType::GOAWAY:
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status = ResumeDecodingGoAwayPayload(&subset);
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break;
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case Http2FrameType::WINDOW_UPDATE:
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status = ResumeDecodingWindowUpdatePayload(&subset);
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break;
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case Http2FrameType::CONTINUATION:
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status = ResumeDecodingContinuationPayload(&subset);
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break;
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case Http2FrameType::ALTSVC:
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status = ResumeDecodingAltSvcPayload(&subset);
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break;
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default:
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status = ResumeDecodingUnknownPayload(&subset);
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break;
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}
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if (status == DecodeStatus::kDecodeDone) {
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state_ = State::kStartDecodingHeader;
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return status;
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} else if (status == DecodeStatus::kDecodeInProgress) {
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return status;
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} else {
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state_ = State::kDiscardPayload;
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return status;
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}
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}
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// Clear any of the flags in the frame header that aren't set in valid_flags.
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void Http2FrameDecoder::RetainFlags(uint8_t valid_flags) {
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frame_decoder_state_.RetainFlags(valid_flags);
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}
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// Clear all of the flags in the frame header; for use with frame types that
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// don't define any flags, such as WINDOW_UPDATE.
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void Http2FrameDecoder::ClearFlags() {
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frame_decoder_state_.ClearFlags();
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}
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DecodeStatus Http2FrameDecoder::StartDecodingAltSvcPayload(DecodeBuffer* db) {
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ClearFlags();
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return altsvc_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingAltSvcPayload(DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return altsvc_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingContinuationPayload(
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DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::END_HEADERS);
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return continuation_payload_decoder_.StartDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingContinuationPayload(
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DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return continuation_payload_decoder_.ResumeDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingDataPayload(DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::END_STREAM | Http2FrameFlag::PADDED);
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return data_payload_decoder_.StartDecodingPayload(&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingDataPayload(DecodeBuffer* db) {
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return data_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingGoAwayPayload(DecodeBuffer* db) {
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ClearFlags();
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return goaway_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingGoAwayPayload(DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return goaway_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingHeadersPayload(DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::END_STREAM | Http2FrameFlag::END_HEADERS |
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Http2FrameFlag::PADDED | Http2FrameFlag::PRIORITY);
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return headers_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingHeadersPayload(DecodeBuffer* db) {
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DCHECK_LE(frame_decoder_state_.remaining_payload_and_padding(),
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frame_header().payload_length);
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return headers_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingPingPayload(DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::ACK);
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return ping_payload_decoder_.StartDecodingPayload(&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingPingPayload(DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return ping_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingPriorityPayload(DecodeBuffer* db) {
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ClearFlags();
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return priority_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingPriorityPayload(
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DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return priority_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingPushPromisePayload(
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DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::END_HEADERS | Http2FrameFlag::PADDED);
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return push_promise_payload_decoder_.StartDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingPushPromisePayload(
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DecodeBuffer* db) {
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DCHECK_LE(frame_decoder_state_.remaining_payload_and_padding(),
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frame_header().payload_length);
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return push_promise_payload_decoder_.ResumeDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingRstStreamPayload(
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DecodeBuffer* db) {
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ClearFlags();
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return rst_stream_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingRstStreamPayload(
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DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return rst_stream_payload_decoder_.ResumeDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingSettingsPayload(DecodeBuffer* db) {
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RetainFlags(Http2FrameFlag::ACK);
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return settings_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingSettingsPayload(
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DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return settings_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingUnknownPayload(DecodeBuffer* db) {
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// We don't known what type of frame this is, so we don't know which flags
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// are valid, so we don't touch them.
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return unknown_payload_decoder_.StartDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingUnknownPayload(DecodeBuffer* db) {
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// We don't known what type of frame this is, so we treat it as not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return unknown_payload_decoder_.ResumeDecodingPayload(&frame_decoder_state_,
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db);
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}
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DecodeStatus Http2FrameDecoder::StartDecodingWindowUpdatePayload(
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DecodeBuffer* db) {
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ClearFlags();
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return window_update_payload_decoder_.StartDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::ResumeDecodingWindowUpdatePayload(
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DecodeBuffer* db) {
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// The frame is not paddable.
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DCHECK_EQ(frame_decoder_state_.remaining_total_payload(),
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frame_decoder_state_.remaining_payload());
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return window_update_payload_decoder_.ResumeDecodingPayload(
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&frame_decoder_state_, db);
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}
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DecodeStatus Http2FrameDecoder::DiscardPayload(DecodeBuffer* db) {
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DVLOG(2) << "remaining_payload=" << frame_decoder_state_.remaining_payload_
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<< "; remaining_padding=" << frame_decoder_state_.remaining_padding_;
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frame_decoder_state_.remaining_payload_ +=
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frame_decoder_state_.remaining_padding_;
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frame_decoder_state_.remaining_padding_ = 0;
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const size_t avail = frame_decoder_state_.AvailablePayload(db);
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DVLOG(2) << "avail=" << avail;
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if (avail > 0) {
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frame_decoder_state_.ConsumePayload(avail);
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db->AdvanceCursor(avail);
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}
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if (frame_decoder_state_.remaining_payload_ == 0) {
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state_ = State::kStartDecodingHeader;
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return DecodeStatus::kDecodeDone;
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}
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return DecodeStatus::kDecodeInProgress;
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}
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} // namespace http2
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