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148 lines
6.1 KiB
C++
148 lines
6.1 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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#ifndef NET_HTTP2_HPACK_HUFFMAN_HPACK_HUFFMAN_DECODER_H_
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#define NET_HTTP2_HPACK_HUFFMAN_HPACK_HUFFMAN_DECODER_H_
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// HpackHuffmanDecoder is an incremental decoder of strings that have been
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// encoded using the Huffman table defined in the HPACK spec.
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// By incremental, we mean that the HpackHuffmanDecoder::Decode method does
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// not require the entire string to be provided, and can instead decode the
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// string as fragments of it become available (e.g. as HPACK block fragments
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// are received for decoding by HpackEntryDecoder).
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#include <stddef.h>
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#include <iosfwd>
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#include "net/http2/platform/api/http2_export.h"
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#include "net/http2/platform/api/http2_string.h"
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#include "net/http2/platform/api/http2_string_piece.h"
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namespace net {
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// HuffmanAccumulator is used to store bits during decoding, e.g. next N bits
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// that have not yet been decoded, but have been extracted from the encoded
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// string). An advantage of using a uint64 for the accumulator
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// is that it has room for the bits of the longest code plus the bits of a full
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// byte; that means that when adding more bits to the accumulator, it can always
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// be done in whole bytes. For example, if we currently have 26 bits in the
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// accumulator, and need more to decode the current symbol, we can add a whole
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// byte to the accumulator, and not have to do juggling with adding 6 bits (to
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// reach 30), and then keep track of the last two bits we've not been able to
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// add to the accumulator.
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typedef uint64_t HuffmanAccumulator;
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typedef size_t HuffmanAccumulatorBitCount;
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// HuffmanBitBuffer stores the leading edge of bits to be decoded. The high
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// order bit of accumulator_ is the next bit to be decoded.
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class HTTP2_EXPORT_PRIVATE HuffmanBitBuffer {
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public:
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HuffmanBitBuffer();
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// Prepare for decoding a new Huffman encoded string.
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void Reset();
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// Add as many whole bytes to the accumulator (accumulator_) as possible,
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// returning the number of bytes added.
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size_t AppendBytes(Http2StringPiece input);
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// Get the bits of the accumulator.
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HuffmanAccumulator value() const { return accumulator_; }
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// Number of bits of the encoded string that are in the accumulator
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// (accumulator_).
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HuffmanAccumulatorBitCount count() const { return count_; }
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// Are there no bits in the accumulator?
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bool IsEmpty() const { return count_ == 0; }
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// Number of additional bits that can be added to the accumulator.
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HuffmanAccumulatorBitCount free_count() const;
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// Consume the leading |code_length| bits of the accumulator.
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void ConsumeBits(HuffmanAccumulatorBitCount code_length);
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// Are the contents valid for the end of a Huffman encoded string? The RFC
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// states that EOS (end-of-string) symbol must not be explicitly encoded in
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// the bit stream, but any unused bits in the final byte must be set to the
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// prefix of the EOS symbol, which is all 1 bits. So there can be at most 7
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// such bits.
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// Returns true if the bit buffer is empty, or contains at most 7 bits, all
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// of them 1. Otherwise returns false.
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bool InputProperlyTerminated() const;
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Http2String DebugString() const;
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private:
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HuffmanAccumulator accumulator_;
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HuffmanAccumulatorBitCount count_;
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};
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inline std::ostream& operator<<(std::ostream& out, const HuffmanBitBuffer& v) {
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return out << v.DebugString();
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}
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class HTTP2_EXPORT_PRIVATE HpackHuffmanDecoder {
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public:
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HpackHuffmanDecoder();
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~HpackHuffmanDecoder();
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// Prepare for decoding a new Huffman encoded string.
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void Reset() { bit_buffer_.Reset(); }
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// Decode the portion of a HPACK Huffman encoded string that is in |input|,
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// appending the decoded symbols into |*output|, stopping when more bits are
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// needed to determine the next symbol, which/ means that the input has been
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// drained, and also that the bit_buffer_ is empty or that the bits that are
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// in it are not a whole symbol.
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// If |input| is the start of a string, the caller must first call Reset.
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// If |input| includes the end of the encoded string, the caller must call
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// InputProperlyTerminated after Decode has returned true in order to
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// determine if the encoded string was properly terminated.
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// Returns false if something went wrong (e.g. the encoding contains the code
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// EOS symbol). Otherwise returns true, in which case input has been fully
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// decoded or buffered; in particular, if the low-order bit of the final byte
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// of the input is not the last bit of an encoded symbol, then bit_buffer_
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// will contain the leading bits of the code for that symbol, but not the
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// final bits of that code.
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// Note that output should be empty, but that it is not cleared by Decode().
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bool Decode(Http2StringPiece input, Http2String* output);
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// Is what remains in the bit_buffer_ valid at the end of an encoded string?
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// Call after passing the the final portion of a Huffman string to Decode,
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// and getting true as the result.
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bool InputProperlyTerminated() const {
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return bit_buffer_.InputProperlyTerminated();
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}
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Http2String DebugString() const;
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//////////////////////////////////////////////////////////////////////////////
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// Alternate implementations of Decode:
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// As above, implemented using a tree of if statements to determine the code
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// length, etc., which are returned as a tree. See PrefixToInfo. This is the
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// original implementation, current as of 2016-8-8.
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bool DecodeWithIfTreeAndStruct(Http2StringPiece input, Http2String* output);
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// Based on DecodeWithIfTreeAndStruct, but adds an optimization for the common
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// case of short codes (5, 6 or 7), which make up a large fraction of the
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// frequency distribution on which the HPACK table was based.
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// TODO(jamessynge): Be precise about that fraction.
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bool DecodeShortCodesFirst(Http2StringPiece input, Http2String* output);
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private:
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HuffmanBitBuffer bit_buffer_;
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};
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inline std::ostream& operator<<(std::ostream& out,
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const HpackHuffmanDecoder& v) {
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return out << v.DebugString();
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}
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} // namespace net
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#endif // NET_HTTP2_HPACK_HUFFMAN_HPACK_HUFFMAN_DECODER_H_
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