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cobalt / cobalt / ac9ac065c5083565917b15e7a672a79599f2f00b / . / src / net / third_party / quic / core / qpack / qpack_progressive_decoder.cc
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// Copyright (c) 2018 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/third_party/quic/core/qpack/qpack_progressive_decoder.h"
#include <algorithm>
#include <limits>
#include "base/logging.h"
#include "net/third_party/quic/core/qpack/qpack_constants.h"
#include "net/third_party/quic/core/qpack/qpack_header_table.h"
#include "net/third_party/quic/platform/api/quic_ptr_util.h"
namespace quic {
QpackProgressiveDecoder::QpackProgressiveDecoder(
QuicStreamId stream_id,
QpackHeaderTable* header_table,
QpackDecoderStreamSender* decoder_stream_sender,
HeadersHandlerInterface* handler)
: stream_id_(stream_id),
prefix_decoder_(
QuicMakeUnique<QpackInstructionDecoder>(QpackPrefixLanguage(), this)),
instruction_decoder_(QpackRequestStreamLanguage(), this),
header_table_(header_table),
decoder_stream_sender_(decoder_stream_sender),
handler_(handler),
required_insert_count_(0),
base_(0),
required_insert_count_so_far_(0),
prefix_decoded_(false),
decoding_(true),
error_detected_(false) {}
// static
bool QpackProgressiveDecoder::DecodeRequiredInsertCount(
uint64_t encoded_required_insert_count,
uint64_t max_entries,
uint64_t total_number_of_inserts,
uint64_t* required_insert_count) {
if (encoded_required_insert_count == 0) {
*required_insert_count = 0;
return true;
}
// |max_entries| is calculated by dividing an unsigned 64-bit integer by 32,
// precluding all calculations in this method from overflowing.
DCHECK_LE(max_entries, std::numeric_limits<uint64_t>::max() / 32);
if (encoded_required_insert_count > 2 * max_entries) {
return false;
}
*required_insert_count = encoded_required_insert_count - 1;
DCHECK_LT(*required_insert_count, std::numeric_limits<uint64_t>::max() / 16);
uint64_t current_wrapped = total_number_of_inserts % (2 * max_entries);
DCHECK_LT(current_wrapped, std::numeric_limits<uint64_t>::max() / 16);
if (current_wrapped >= *required_insert_count + max_entries) {
// Required Insert Count wrapped around 1 extra time.
*required_insert_count += 2 * max_entries;
} else if (current_wrapped + max_entries < *required_insert_count) {
// Decoder wrapped around 1 extra time.
current_wrapped += 2 * max_entries;
}
if (*required_insert_count >
std::numeric_limits<uint64_t>::max() - total_number_of_inserts) {
return false;
}
*required_insert_count += total_number_of_inserts;
// Prevent underflow, also disallow invalid value 0 for Required Insert Count.
if (current_wrapped >= *required_insert_count) {
return false;
}
*required_insert_count -= current_wrapped;
return true;
}
void QpackProgressiveDecoder::Decode(QuicStringPiece data) {
DCHECK(decoding_);
if (data.empty() || error_detected_) {
return;
}
// Decode prefix byte by byte until the first (and only) instruction is
// decoded.
while (!prefix_decoded_) {
prefix_decoder_->Decode(data.substr(0, 1));
data = data.substr(1);
if (data.empty()) {
return;
}
}
instruction_decoder_.Decode(data);
}
void QpackProgressiveDecoder::EndHeaderBlock() {
DCHECK(decoding_);
decoding_ = false;
if (error_detected_) {
return;
}
if (!instruction_decoder_.AtInstructionBoundary()) {
OnError("Incomplete header block.");
return;
}
if (!prefix_decoded_) {
OnError("Incomplete header data prefix.");
return;
}
if (required_insert_count_ != required_insert_count_so_far_) {
OnError("Required Insert Count too large.");
return;
}
decoder_stream_sender_->SendHeaderAcknowledgement(stream_id_);
handler_->OnDecodingCompleted();
}
bool QpackProgressiveDecoder::OnInstructionDecoded(
const QpackInstruction* instruction) {
if (instruction == QpackIndexedHeaderFieldInstruction()) {
return DoIndexedHeaderFieldInstruction();
}
if (instruction == QpackIndexedHeaderFieldPostBaseInstruction()) {
return DoIndexedHeaderFieldPostBaseInstruction();
}
if (instruction == QpackLiteralHeaderFieldNameReferenceInstruction()) {
return DoLiteralHeaderFieldNameReferenceInstruction();
}
if (instruction == QpackLiteralHeaderFieldPostBaseInstruction()) {
return DoLiteralHeaderFieldPostBaseInstruction();
}
if (instruction == QpackLiteralHeaderFieldInstruction()) {
return DoLiteralHeaderFieldInstruction();
}
DCHECK_EQ(instruction, QpackPrefixInstruction());
return DoPrefixInstruction();
}
void QpackProgressiveDecoder::OnError(QuicStringPiece error_message) {
DCHECK(!error_detected_);
error_detected_ = true;
handler_->OnDecodingErrorDetected(error_message);
}
bool QpackProgressiveDecoder::DoIndexedHeaderFieldInstruction() {
if (!instruction_decoder_.s_bit()) {
uint64_t absolute_index;
if (!RequestStreamRelativeIndexToAbsoluteIndex(
instruction_decoder_.varint(), &absolute_index)) {
OnError("Invalid relative index.");
return false;
}
if (absolute_index >= required_insert_count_) {
OnError("Absolute Index must be smaller than Required Insert Count.");
return false;
}
DCHECK_LT(absolute_index, std::numeric_limits<uint64_t>::max());
required_insert_count_so_far_ =
std::max(required_insert_count_so_far_, absolute_index + 1);
auto entry =
header_table_->LookupEntry(/* is_static = */ false, absolute_index);
if (!entry) {
OnError("Dynamic table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), entry->value());
return true;
}
auto entry = header_table_->LookupEntry(/* is_static = */ true,
instruction_decoder_.varint());
if (!entry) {
OnError("Static table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), entry->value());
return true;
}
bool QpackProgressiveDecoder::DoIndexedHeaderFieldPostBaseInstruction() {
uint64_t absolute_index;
if (!PostBaseIndexToAbsoluteIndex(instruction_decoder_.varint(),
&absolute_index)) {
OnError("Invalid post-base index.");
return false;
}
if (absolute_index >= required_insert_count_) {
OnError("Absolute Index must be smaller than Required Insert Count.");
return false;
}
DCHECK_LT(absolute_index, std::numeric_limits<uint64_t>::max());
required_insert_count_so_far_ =
std::max(required_insert_count_so_far_, absolute_index + 1);
auto entry =
header_table_->LookupEntry(/* is_static = */ false, absolute_index);
if (!entry) {
OnError("Dynamic table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), entry->value());
return true;
}
bool QpackProgressiveDecoder::DoLiteralHeaderFieldNameReferenceInstruction() {
if (!instruction_decoder_.s_bit()) {
uint64_t absolute_index;
if (!RequestStreamRelativeIndexToAbsoluteIndex(
instruction_decoder_.varint(), &absolute_index)) {
OnError("Invalid relative index.");
return false;
}
if (absolute_index >= required_insert_count_) {
OnError("Absolute Index must be smaller than Required Insert Count.");
return false;
}
DCHECK_LT(absolute_index, std::numeric_limits<uint64_t>::max());
required_insert_count_so_far_ =
std::max(required_insert_count_so_far_, absolute_index + 1);
auto entry =
header_table_->LookupEntry(/* is_static = */ false, absolute_index);
if (!entry) {
OnError("Dynamic table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), instruction_decoder_.value());
return true;
}
auto entry = header_table_->LookupEntry(/* is_static = */ true,
instruction_decoder_.varint());
if (!entry) {
OnError("Static table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), instruction_decoder_.value());
return true;
}
bool QpackProgressiveDecoder::DoLiteralHeaderFieldPostBaseInstruction() {
uint64_t absolute_index;
if (!PostBaseIndexToAbsoluteIndex(instruction_decoder_.varint(),
&absolute_index)) {
OnError("Invalid post-base index.");
return false;
}
if (absolute_index >= required_insert_count_) {
OnError("Absolute Index must be smaller than Required Insert Count.");
return false;
}
DCHECK_LT(absolute_index, std::numeric_limits<uint64_t>::max());
required_insert_count_so_far_ =
std::max(required_insert_count_so_far_, absolute_index + 1);
auto entry =
header_table_->LookupEntry(/* is_static = */ false, absolute_index);
if (!entry) {
OnError("Dynamic table entry not found.");
return false;
}
handler_->OnHeaderDecoded(entry->name(), instruction_decoder_.value());
return true;
}
bool QpackProgressiveDecoder::DoLiteralHeaderFieldInstruction() {
handler_->OnHeaderDecoded(instruction_decoder_.name(),
instruction_decoder_.value());
return true;
}
bool QpackProgressiveDecoder::DoPrefixInstruction() {
DCHECK(!prefix_decoded_);
if (!DecodeRequiredInsertCount(
prefix_decoder_->varint(), header_table_->max_entries(),
header_table_->inserted_entry_count(), &required_insert_count_)) {
OnError("Error decoding Required Insert Count.");
return false;
}
const bool sign = prefix_decoder_->s_bit();
const uint64_t delta_base = prefix_decoder_->varint2();
if (!DeltaBaseToBase(sign, delta_base, &base_)) {
OnError("Error calculating Base.");
return false;
}
prefix_decoded_ = true;
return true;
}
bool QpackProgressiveDecoder::DeltaBaseToBase(bool sign,
uint64_t delta_base,
uint64_t* base) {
if (sign) {
if (delta_base == std::numeric_limits<uint64_t>::max() ||
required_insert_count_ < delta_base + 1) {
return false;
}
*base = required_insert_count_ - delta_base - 1;
return true;
}
if (delta_base >
std::numeric_limits<uint64_t>::max() - required_insert_count_) {
return false;
}
*base = required_insert_count_ + delta_base;
return true;
}
bool QpackProgressiveDecoder::RequestStreamRelativeIndexToAbsoluteIndex(
uint64_t relative_index,
uint64_t* absolute_index) const {
if (relative_index == std::numeric_limits<uint64_t>::max() ||
relative_index + 1 > base_) {
return false;
}
*absolute_index = base_ - 1 - relative_index;
return true;
}
bool QpackProgressiveDecoder::PostBaseIndexToAbsoluteIndex(
uint64_t post_base_index,
uint64_t* absolute_index) const {
if (post_base_index >= std::numeric_limits<uint64_t>::max() - base_) {
return false;
}
*absolute_index = base_ + post_base_index;
return true;
}
} // namespace quic