naiveproxy/net/http2/hpack/decoder/hpack_decoder_tables.cc
2018-01-28 13:32:06 -05:00

153 lines
5.0 KiB
C++

// Copyright 2016 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/http2/hpack/decoder/hpack_decoder_tables.h"
#include "base/logging.h"
namespace net {
namespace {
std::vector<HpackStringPair>* MakeStaticTable() {
auto* ptr = new std::vector<HpackStringPair>();
ptr->reserve(kFirstDynamicTableIndex);
ptr->emplace_back("", "");
#define STATIC_TABLE_ENTRY(name, value, index) \
DCHECK_EQ(ptr->size(), index); \
ptr->emplace_back(name, value)
#include "net/http2/hpack/hpack_static_table_entries.inc"
#undef STATIC_TABLE_ENTRY
return ptr;
}
const std::vector<HpackStringPair>* GetStaticTable() {
static const std::vector<HpackStringPair>* const g_static_table =
MakeStaticTable();
return g_static_table;
}
} // namespace
HpackDecoderTablesDebugListener::HpackDecoderTablesDebugListener() {}
HpackDecoderTablesDebugListener::~HpackDecoderTablesDebugListener() {}
HpackDecoderStaticTable::HpackDecoderStaticTable(
const std::vector<HpackStringPair>* table)
: table_(table) {}
HpackDecoderStaticTable::HpackDecoderStaticTable() : table_(GetStaticTable()) {}
const HpackStringPair* HpackDecoderStaticTable::Lookup(size_t index) const {
if (0 < index && index < kFirstDynamicTableIndex) {
return &((*table_)[index]);
}
return nullptr;
}
HpackDecoderDynamicTable::HpackDecoderTableEntry::HpackDecoderTableEntry(
const HpackString& name,
const HpackString& value)
: HpackStringPair(name, value) {}
HpackDecoderDynamicTable::HpackDecoderDynamicTable()
: insert_count_(kFirstDynamicTableIndex - 1), debug_listener_(nullptr) {}
HpackDecoderDynamicTable::~HpackDecoderDynamicTable() {}
void HpackDecoderDynamicTable::DynamicTableSizeUpdate(size_t size_limit) {
DVLOG(3) << "HpackDecoderDynamicTable::DynamicTableSizeUpdate " << size_limit;
EnsureSizeNoMoreThan(size_limit);
DCHECK_LE(current_size_, size_limit);
size_limit_ = size_limit;
}
// TODO(jamessynge): Check somewhere before here that names received from the
// peer are valid (e.g. are lower-case, no whitespace, etc.).
bool HpackDecoderDynamicTable::Insert(const HpackString& name,
const HpackString& value) {
HpackDecoderTableEntry entry(name, value);
size_t entry_size = entry.size();
DVLOG(2) << "InsertEntry of size=" << entry_size << "\n name: " << name
<< "\n value: " << value;
if (entry_size > size_limit_) {
DVLOG(2) << "InsertEntry: entry larger than table, removing "
<< table_.size() << " entries, of total size " << current_size_
<< " bytes.";
table_.clear();
current_size_ = 0;
return false; // Not inserted because too large.
}
++insert_count_;
if (debug_listener_ != nullptr) {
entry.time_added = debug_listener_->OnEntryInserted(entry, insert_count_);
DVLOG(2) << "OnEntryInserted returned time_added=" << entry.time_added
<< " for insert_count_=" << insert_count_;
}
size_t insert_limit = size_limit_ - entry_size;
EnsureSizeNoMoreThan(insert_limit);
table_.push_front(entry);
current_size_ += entry_size;
DVLOG(2) << "InsertEntry: current_size_=" << current_size_;
DCHECK_GE(current_size_, entry_size);
DCHECK_LE(current_size_, size_limit_);
return true;
}
const HpackStringPair* HpackDecoderDynamicTable::Lookup(size_t index) const {
if (index < table_.size()) {
const HpackDecoderTableEntry& entry = table_[index];
if (debug_listener_ != nullptr) {
size_t insert_count_of_index = insert_count_ + table_.size() - index;
debug_listener_->OnUseEntry(entry, insert_count_of_index,
entry.time_added);
}
return &entry;
}
return nullptr;
}
void HpackDecoderDynamicTable::EnsureSizeNoMoreThan(size_t limit) {
DVLOG(2) << "EnsureSizeNoMoreThan limit=" << limit
<< ", current_size_=" << current_size_;
// Not the most efficient choice, but any easy way to start.
while (current_size_ > limit) {
RemoveLastEntry();
}
DCHECK_LE(current_size_, limit);
}
void HpackDecoderDynamicTable::RemoveLastEntry() {
DCHECK(!table_.empty());
if (!table_.empty()) {
DVLOG(2) << "RemoveLastEntry current_size_=" << current_size_
<< ", last entry size=" << table_.back().size();
DCHECK_GE(current_size_, table_.back().size());
current_size_ -= table_.back().size();
table_.pop_back();
// Empty IFF current_size_ == 0.
DCHECK_EQ(table_.empty(), current_size_ == 0);
}
}
HpackDecoderTables::HpackDecoderTables() {}
HpackDecoderTables::~HpackDecoderTables() {}
void HpackDecoderTables::set_debug_listener(
HpackDecoderTablesDebugListener* debug_listener) {
dynamic_table_.set_debug_listener(debug_listener);
}
const HpackStringPair* HpackDecoderTables::Lookup(size_t index) const {
if (index < kFirstDynamicTableIndex) {
return static_table_.Lookup(index);
} else {
return dynamic_table_.Lookup(index - kFirstDynamicTableIndex);
}
}
} // namespace net