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// 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.
#ifndef QUICHE_HTTP2_HPACK_DECODER_HPACK_STRING_DECODER_H_
#define QUICHE_HTTP2_HPACK_DECODER_HPACK_STRING_DECODER_H_
// HpackStringDecoder decodes strings encoded per the HPACK spec; this does
// not mean decompressing Huffman encoded strings, just identifying the length,
// encoding and contents for a listener.
#include <stddef.h>
#include <algorithm>
#include <cstdint>
#include <string>
#include "net/third_party/quiche/src/http2/decoder/decode_buffer.h"
#include "net/third_party/quiche/src/http2/decoder/decode_status.h"
#include "net/third_party/quiche/src/http2/hpack/varint/hpack_varint_decoder.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"
#include "net/third_party/quiche/src/common/platform/api/quiche_export.h"
namespace http2 {
// Decodes a single string in an HPACK header entry. The high order bit of
// the first byte of the length is the H (Huffman) bit indicating whether
// the value is Huffman encoded, and the remainder of the byte is the first
// 7 bits of an HPACK varint.
//
// Call Start() to begin decoding; if it returns kDecodeInProgress, then call
// Resume() when more input is available, repeating until kDecodeInProgress is
// not returned. If kDecodeDone or kDecodeError is returned, then Resume() must
// not be called until Start() has been called to start decoding a new string.
class QUICHE_EXPORT_PRIVATE HpackStringDecoder {
public:
enum StringDecoderState {
kStartDecodingLength,
kDecodingString,
kResumeDecodingLength,
};
template <class Listener>
DecodeStatus Start(DecodeBuffer* db, Listener* cb) {
// Fast decode path is used if the string is under 127 bytes and the
// entire length of the string is in the decode buffer. More than 83% of
// string lengths are encoded in just one byte.
if (db->HasData() && (*db->cursor() & 0x7f) != 0x7f) {
// The string is short.
uint8_t h_and_prefix = db->DecodeUInt8();
uint8_t length = h_and_prefix & 0x7f;
bool huffman_encoded = (h_and_prefix & 0x80) == 0x80;
cb->OnStringStart(huffman_encoded, length);
if (length <= db->Remaining()) {
// Yeah, we've got the whole thing in the decode buffer.
// Ideally this will be the common case. Note that we don't
// update any of the member variables in this path.
cb->OnStringData(db->cursor(), length);
db->AdvanceCursor(length);
cb->OnStringEnd();
return DecodeStatus::kDecodeDone;
}
// Not all in the buffer.
huffman_encoded_ = huffman_encoded;
remaining_ = length;
// Call Resume to decode the string body, which is only partially
// in the decode buffer (or not at all).
state_ = kDecodingString;
return Resume(db, cb);
}
// Call Resume to decode the string length, which is either not in
// the decode buffer, or spans multiple bytes.
state_ = kStartDecodingLength;
return Resume(db, cb);
}
template <class Listener>
DecodeStatus Resume(DecodeBuffer* db, Listener* cb) {
DecodeStatus status;
while (true) {
switch (state_) {
case kStartDecodingLength:
HTTP2_DVLOG(2) << "kStartDecodingLength: db->Remaining="
<< db->Remaining();
if (!StartDecodingLength(db, cb, &status)) {
// The length is split across decode buffers.
return status;
}
// We've finished decoding the length, which spanned one or more
// bytes. Approximately 17% of strings have a length that is greater
// than 126 bytes, and thus the length is encoded in more than one
// byte, and so doesn't get the benefit of the optimization in
// Start() for single byte lengths. But, we still expect that most
// of such strings will be contained entirely in a single decode
// buffer, and hence this fall through skips another trip through the
// switch above and more importantly skips setting the state_ variable
// again in those cases where we don't need it.
HTTP2_FALLTHROUGH;
case kDecodingString:
HTTP2_DVLOG(2) << "kDecodingString: db->Remaining=" << db->Remaining()
<< " remaining_=" << remaining_;
return DecodeString(db, cb);
case kResumeDecodingLength:
HTTP2_DVLOG(2) << "kResumeDecodingLength: db->Remaining="
<< db->Remaining();
if (!ResumeDecodingLength(db, cb, &status)) {
return status;
}
}
}
}
std::string DebugString() const;
private:
static std::string StateToString(StringDecoderState v);
// Returns true if the length is fully decoded and the listener wants the
// decoding to continue, false otherwise; status is set to the status from
// the varint decoder.
// If the length is not fully decoded, case state_ is set appropriately
// for the next call to Resume.
template <class Listener>
bool StartDecodingLength(DecodeBuffer* db,
Listener* cb,
DecodeStatus* status) {
if (db->Empty()) {
*status = DecodeStatus::kDecodeInProgress;
state_ = kStartDecodingLength;
return false;
}
uint8_t h_and_prefix = db->DecodeUInt8();
huffman_encoded_ = (h_and_prefix & 0x80) == 0x80;
*status = length_decoder_.Start(h_and_prefix, 7, db);
if (*status == DecodeStatus::kDecodeDone) {
OnStringStart(cb, status);
return true;
}
// Set the state to cover the DecodeStatus::kDecodeInProgress case.
// Won't be needed if the status is kDecodeError.
state_ = kResumeDecodingLength;
return false;
}
// Returns true if the length is fully decoded and the listener wants the
// decoding to continue, false otherwise; status is set to the status from
// the varint decoder; state_ is updated when fully decoded.
// If the length is not fully decoded, case state_ is set appropriately
// for the next call to Resume.
template <class Listener>
bool ResumeDecodingLength(DecodeBuffer* db,
Listener* cb,
DecodeStatus* status) {
DCHECK_EQ(state_, kResumeDecodingLength);
*status = length_decoder_.Resume(db);
if (*status == DecodeStatus::kDecodeDone) {
state_ = kDecodingString;
OnStringStart(cb, status);
return true;
}
return false;
}
// Returns true if the listener wants the decoding to continue, and
// false otherwise, in which case status set.
template <class Listener>
void OnStringStart(Listener* cb, DecodeStatus* /*status*/) {
// TODO(vasilvv): fail explicitly in case of truncation.
remaining_ = static_cast<size_t>(length_decoder_.value());
// Make callback so consumer knows what is coming.
cb->OnStringStart(huffman_encoded_, remaining_);
}
// Passes the available portion of the string to the listener, and signals
// the end of the string when it is reached. Returns kDecodeDone or
// kDecodeInProgress as appropriate.
template <class Listener>
DecodeStatus DecodeString(DecodeBuffer* db, Listener* cb) {
size_t len = std::min(remaining_, db->Remaining());
if (len > 0) {
cb->OnStringData(db->cursor(), len);
db->AdvanceCursor(len);
remaining_ -= len;
}
if (remaining_ == 0) {
cb->OnStringEnd();
return DecodeStatus::kDecodeDone;
}
state_ = kDecodingString;
return DecodeStatus::kDecodeInProgress;
}
HpackVarintDecoder length_decoder_;
// These fields are initialized just to keep ASAN happy about reading
// them from DebugString().
size_t remaining_ = 0;
StringDecoderState state_ = kStartDecodingLength;
bool huffman_encoded_ = false;
};
QUICHE_EXPORT_PRIVATE std::ostream& operator<<(std::ostream& out,
const HpackStringDecoder& v);
} // namespace http2
#endif // QUICHE_HTTP2_HPACK_DECODER_HPACK_STRING_DECODER_H_