http2/hpack/decoder/hpack_decoder_state.cc - quiche.git - Git at Google

 // 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/third_party/quiche/src/http2/hpack/decoder/hpack_decoder_state.h"

 #include "net/third_party/quiche/src/http2/hpack/hpack_string.h"
 #include "net/third_party/quiche/src/http2/http2_constants.h"
 #include "net/third_party/quiche/src/http2/platform/api/http2_logging.h"
 #include "net/third_party/quiche/src/http2/platform/api/http2_macros.h"

 namespace http2 {
 namespace {

 HpackString ExtractHpackString(HpackDecoderStringBuffer* string_buffer) {
   if (string_buffer->IsBuffered()) {
     return HpackString(string_buffer->ReleaseString());
   } else {
     auto result = HpackString(string_buffer->str());
     string_buffer->Reset();
     return result;
   }
 }

 }  // namespace

 HpackDecoderState::HpackDecoderState(HpackDecoderListener* listener)
     : listener_(HTTP2_DIE_IF_NULL(listener)),
       final_header_table_size_(Http2SettingsInfo::DefaultHeaderTableSize()),
       lowest_header_table_size_(final_header_table_size_),
       require_dynamic_table_size_update_(false),
       allow_dynamic_table_size_update_(true),
       saw_dynamic_table_size_update_(false),
       error_detected_(false) {}
 HpackDecoderState::~HpackDecoderState() = default;

 void HpackDecoderState::set_tables_debug_listener(
     HpackDecoderTablesDebugListener* debug_listener) {
   decoder_tables_.set_debug_listener(debug_listener);
 }

 void HpackDecoderState::ApplyHeaderTableSizeSetting(
     uint32_t header_table_size) {
   HTTP2_DVLOG(2) << "HpackDecoderState::ApplyHeaderTableSizeSetting("
                  << header_table_size << ")";
   DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
   if (header_table_size < lowest_header_table_size_) {
     lowest_header_table_size_ = header_table_size;
   }
   final_header_table_size_ = header_table_size;
   HTTP2_DVLOG(2) << "low water mark: " << lowest_header_table_size_;
   HTTP2_DVLOG(2) << "final limit: " << final_header_table_size_;
 }

 // Called to notify this object that we're starting to decode an HPACK block
 // (e.g. a HEADERS or PUSH_PROMISE frame's header has been decoded).
 void HpackDecoderState::OnHeaderBlockStart() {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderBlockStart";
   // This instance can't be reused after an error has been detected, as we must
   // assume that the encoder and decoder compression states are no longer
   // synchronized.
   DCHECK(!error_detected_);
   DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
   allow_dynamic_table_size_update_ = true;
   saw_dynamic_table_size_update_ = false;
   // If the peer has acknowledged a HEADER_TABLE_SIZE smaller than that which
   // its HPACK encoder has been using, then the next HPACK block it sends MUST
   // start with a Dynamic Table Size Update entry that is at least as low as
   // lowest_header_table_size_. That may be followed by another as great as
   // final_header_table_size_, if those are different.
   require_dynamic_table_size_update_ =
       (lowest_header_table_size_ <
            decoder_tables_.current_header_table_size() ||
        final_header_table_size_ < decoder_tables_.header_table_size_limit());
   HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderListStart "
                  << "require_dynamic_table_size_update_="
                  << require_dynamic_table_size_update_;
   listener_->OnHeaderListStart();
 }

 void HpackDecoderState::OnIndexedHeader(size_t index) {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnIndexedHeader: " << index;
   if (error_detected_) {
     return;
   }
   if (require_dynamic_table_size_update_) {
     ReportError("Missing dynamic table size update.");
     return;
   }
   allow_dynamic_table_size_update_ = false;
   const HpackStringPair* entry = decoder_tables_.Lookup(index);
   if (entry != nullptr) {
     listener_->OnHeader(HpackEntryType::kIndexedHeader, entry->name,
                         entry->value);
   } else {
     ReportError("Invalid index.");
   }
 }

 void HpackDecoderState::OnNameIndexAndLiteralValue(
     HpackEntryType entry_type,
     size_t name_index,
     HpackDecoderStringBuffer* value_buffer) {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnNameIndexAndLiteralValue "
                  << entry_type << ", " << name_index << ", "
                  << value_buffer->str();
   if (error_detected_) {
     return;
   }
   if (require_dynamic_table_size_update_) {
     ReportError("Missing dynamic table size update.");
     return;
   }
   allow_dynamic_table_size_update_ = false;
   const HpackStringPair* entry = decoder_tables_.Lookup(name_index);
   if (entry != nullptr) {
     HpackString value(ExtractHpackString(value_buffer));
     listener_->OnHeader(entry_type, entry->name, value);
     if (entry_type == HpackEntryType::kIndexedLiteralHeader) {
       decoder_tables_.Insert(entry->name, value);
     }
   } else {
     ReportError("Invalid name index.");
   }
 }

 void HpackDecoderState::OnLiteralNameAndValue(
     HpackEntryType entry_type,
     HpackDecoderStringBuffer* name_buffer,
     HpackDecoderStringBuffer* value_buffer) {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnLiteralNameAndValue " << entry_type
                  << ", " << name_buffer->str() << ", " << value_buffer->str();
   if (error_detected_) {
     return;
   }
   if (require_dynamic_table_size_update_) {
     ReportError("Missing dynamic table size update.");
     return;
   }
   allow_dynamic_table_size_update_ = false;
   HpackString name(ExtractHpackString(name_buffer));
   HpackString value(ExtractHpackString(value_buffer));
   listener_->OnHeader(entry_type, name, value);
   if (entry_type == HpackEntryType::kIndexedLiteralHeader) {
     decoder_tables_.Insert(name, value);
   }
 }

 void HpackDecoderState::OnDynamicTableSizeUpdate(size_t size_limit) {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnDynamicTableSizeUpdate " << size_limit
                  << ", required="
                  << (require_dynamic_table_size_update_ ? "true" : "false")
                  << ", allowed="
                  << (allow_dynamic_table_size_update_ ? "true" : "false");
   if (error_detected_) {
     return;
   }
   DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
   if (!allow_dynamic_table_size_update_) {
     // At most two dynamic table size updates allowed at the start, and not
     // after a header.
     ReportError("Dynamic table size update not allowed.");
     return;
   }
   if (require_dynamic_table_size_update_) {
     // The new size must not be greater than the low water mark.
     if (size_limit > lowest_header_table_size_) {
       ReportError("Initial dynamic table size update is above low water mark.");
       return;
     }
     require_dynamic_table_size_update_ = false;
   } else if (size_limit > final_header_table_size_) {
     // The new size must not be greater than the final max header table size
     // that the peer acknowledged.
     ReportError("Dynamic table size update is above acknowledged setting.");
     return;
   }
   decoder_tables_.DynamicTableSizeUpdate(size_limit);
   if (saw_dynamic_table_size_update_) {
     allow_dynamic_table_size_update_ = false;
   } else {
     saw_dynamic_table_size_update_ = true;
   }
   // We no longer need to keep an eye out for a lower header table size.
   lowest_header_table_size_ = final_header_table_size_;
 }

 void HpackDecoderState::OnHpackDecodeError(Http2StringPiece error_message) {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnHpackDecodeError " << error_message;
   if (!error_detected_) {
     ReportError(error_message);
   }
 }

 void HpackDecoderState::OnHeaderBlockEnd() {
   HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderBlockEnd";
   if (error_detected_) {
     return;
   }
   if (require_dynamic_table_size_update_) {
     // Apparently the HPACK block was empty, but we needed it to contain at
     // least 1 dynamic table size update.
     ReportError("Missing dynamic table size update.");
   } else {
     listener_->OnHeaderListEnd();
   }
 }

 void HpackDecoderState::ReportError(Http2StringPiece error_message) {
   HTTP2_DVLOG(2) << "HpackDecoderState::ReportError is new="
                  << (!error_detected_ ? "true" : "false")
                  << ", error_message: " << error_message;
   if (!error_detected_) {
     listener_->OnHeaderErrorDetected(error_message);
     error_detected_ = true;
   }
 }

 }  // namespace http2
	// 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/third_party/quiche/src/http2/hpack/decoder/hpack_decoder_state.h"

	#include "net/third_party/quiche/src/http2/hpack/hpack_string.h"
	#include "net/third_party/quiche/src/http2/http2_constants.h"
	#include "net/third_party/quiche/src/http2/platform/api/http2_logging.h"
	#include "net/third_party/quiche/src/http2/platform/api/http2_macros.h"

	namespace http2 {
	namespace {

	HpackString ExtractHpackString(HpackDecoderStringBuffer* string_buffer) {
	if (string_buffer->IsBuffered()) {
	return HpackString(string_buffer->ReleaseString());
	} else {
	auto result = HpackString(string_buffer->str());
	string_buffer->Reset();
	return result;
	}
	}

	} // namespace

	HpackDecoderState::HpackDecoderState(HpackDecoderListener* listener)
	: listener_(HTTP2_DIE_IF_NULL(listener)),
	final_header_table_size_(Http2SettingsInfo::DefaultHeaderTableSize()),
	lowest_header_table_size_(final_header_table_size_),
	require_dynamic_table_size_update_(false),
	allow_dynamic_table_size_update_(true),
	saw_dynamic_table_size_update_(false),
	error_detected_(false) {}
	HpackDecoderState::~HpackDecoderState() = default;

	void HpackDecoderState::set_tables_debug_listener(
	HpackDecoderTablesDebugListener* debug_listener) {
	decoder_tables_.set_debug_listener(debug_listener);
	}

	void HpackDecoderState::ApplyHeaderTableSizeSetting(
	uint32_t header_table_size) {
	HTTP2_DVLOG(2) << "HpackDecoderState::ApplyHeaderTableSizeSetting("
	<< header_table_size << ")";
	DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
	if (header_table_size < lowest_header_table_size_) {
	lowest_header_table_size_ = header_table_size;
	}
	final_header_table_size_ = header_table_size;
	HTTP2_DVLOG(2) << "low water mark: " << lowest_header_table_size_;
	HTTP2_DVLOG(2) << "final limit: " << final_header_table_size_;
	}

	// Called to notify this object that we're starting to decode an HPACK block
	// (e.g. a HEADERS or PUSH_PROMISE frame's header has been decoded).
	void HpackDecoderState::OnHeaderBlockStart() {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderBlockStart";
	// This instance can't be reused after an error has been detected, as we must
	// assume that the encoder and decoder compression states are no longer
	// synchronized.
	DCHECK(!error_detected_);
	DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
	allow_dynamic_table_size_update_ = true;
	saw_dynamic_table_size_update_ = false;
	// If the peer has acknowledged a HEADER_TABLE_SIZE smaller than that which
	// its HPACK encoder has been using, then the next HPACK block it sends MUST
	// start with a Dynamic Table Size Update entry that is at least as low as
	// lowest_header_table_size_. That may be followed by another as great as
	// final_header_table_size_, if those are different.
	require_dynamic_table_size_update_ =
	(lowest_header_table_size_ <
	decoder_tables_.current_header_table_size() \|\|
	final_header_table_size_ < decoder_tables_.header_table_size_limit());
	HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderListStart "
	<< "require_dynamic_table_size_update_="
	<< require_dynamic_table_size_update_;
	listener_->OnHeaderListStart();
	}

	void HpackDecoderState::OnIndexedHeader(size_t index) {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnIndexedHeader: " << index;
	if (error_detected_) {
	return;
	}
	if (require_dynamic_table_size_update_) {
	ReportError("Missing dynamic table size update.");
	return;
	}
	allow_dynamic_table_size_update_ = false;
	const HpackStringPair* entry = decoder_tables_.Lookup(index);
	if (entry != nullptr) {
	listener_->OnHeader(HpackEntryType::kIndexedHeader, entry->name,
	entry->value);
	} else {
	ReportError("Invalid index.");
	}
	}

	void HpackDecoderState::OnNameIndexAndLiteralValue(
	HpackEntryType entry_type,
	size_t name_index,
	HpackDecoderStringBuffer* value_buffer) {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnNameIndexAndLiteralValue "
	<< entry_type << ", " << name_index << ", "
	<< value_buffer->str();
	if (error_detected_) {
	return;
	}
	if (require_dynamic_table_size_update_) {
	ReportError("Missing dynamic table size update.");
	return;
	}
	allow_dynamic_table_size_update_ = false;
	const HpackStringPair* entry = decoder_tables_.Lookup(name_index);
	if (entry != nullptr) {
	HpackString value(ExtractHpackString(value_buffer));
	listener_->OnHeader(entry_type, entry->name, value);
	if (entry_type == HpackEntryType::kIndexedLiteralHeader) {
	decoder_tables_.Insert(entry->name, value);
	}
	} else {
	ReportError("Invalid name index.");
	}
	}

	void HpackDecoderState::OnLiteralNameAndValue(
	HpackEntryType entry_type,
	HpackDecoderStringBuffer* name_buffer,
	HpackDecoderStringBuffer* value_buffer) {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnLiteralNameAndValue " << entry_type
	<< ", " << name_buffer->str() << ", " << value_buffer->str();
	if (error_detected_) {
	return;
	}
	if (require_dynamic_table_size_update_) {
	ReportError("Missing dynamic table size update.");
	return;
	}
	allow_dynamic_table_size_update_ = false;
	HpackString name(ExtractHpackString(name_buffer));
	HpackString value(ExtractHpackString(value_buffer));
	listener_->OnHeader(entry_type, name, value);
	if (entry_type == HpackEntryType::kIndexedLiteralHeader) {
	decoder_tables_.Insert(name, value);
	}
	}

	void HpackDecoderState::OnDynamicTableSizeUpdate(size_t size_limit) {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnDynamicTableSizeUpdate " << size_limit
	<< ", required="
	<< (require_dynamic_table_size_update_ ? "true" : "false")
	<< ", allowed="
	<< (allow_dynamic_table_size_update_ ? "true" : "false");
	if (error_detected_) {
	return;
	}
	DCHECK_LE(lowest_header_table_size_, final_header_table_size_);
	if (!allow_dynamic_table_size_update_) {
	// At most two dynamic table size updates allowed at the start, and not
	// after a header.
	ReportError("Dynamic table size update not allowed.");
	return;
	}
	if (require_dynamic_table_size_update_) {
	// The new size must not be greater than the low water mark.
	if (size_limit > lowest_header_table_size_) {
	ReportError("Initial dynamic table size update is above low water mark.");
	return;
	}
	require_dynamic_table_size_update_ = false;
	} else if (size_limit > final_header_table_size_) {
	// The new size must not be greater than the final max header table size
	// that the peer acknowledged.
	ReportError("Dynamic table size update is above acknowledged setting.");
	return;
	}
	decoder_tables_.DynamicTableSizeUpdate(size_limit);
	if (saw_dynamic_table_size_update_) {
	allow_dynamic_table_size_update_ = false;
	} else {
	saw_dynamic_table_size_update_ = true;
	}
	// We no longer need to keep an eye out for a lower header table size.
	lowest_header_table_size_ = final_header_table_size_;
	}

	void HpackDecoderState::OnHpackDecodeError(Http2StringPiece error_message) {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnHpackDecodeError " << error_message;
	if (!error_detected_) {
	ReportError(error_message);
	}
	}

	void HpackDecoderState::OnHeaderBlockEnd() {
	HTTP2_DVLOG(2) << "HpackDecoderState::OnHeaderBlockEnd";
	if (error_detected_) {
	return;
	}
	if (require_dynamic_table_size_update_) {
	// Apparently the HPACK block was empty, but we needed it to contain at
	// least 1 dynamic table size update.
	ReportError("Missing dynamic table size update.");
	} else {
	listener_->OnHeaderListEnd();
	}
	}

	void HpackDecoderState::ReportError(Http2StringPiece error_message) {
	HTTP2_DVLOG(2) << "HpackDecoderState::ReportError is new="
	<< (!error_detected_ ? "true" : "false")
	<< ", error_message: " << error_message;
	if (!error_detected_) {
	listener_->OnHeaderErrorDetected(error_message);
	error_detected_ = true;
	}
	}

	} // namespace http2