http2/decoder/frame_decoder_state.h - quiche - 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.

 #ifndef QUICHE_HTTP2_DECODER_FRAME_DECODER_STATE_H_
 #define QUICHE_HTTP2_DECODER_FRAME_DECODER_STATE_H_

 // FrameDecoderState provides state and behaviors in support of decoding
 // the common frame header and the payload of all frame types.
 // It is an input to all of the payload decoders.

 // TODO(jamessynge): Since FrameDecoderState has far more than state in it,
 // rename to FrameDecoderHelper, or similar.

 #include <stddef.h>

 #include <cstdint>

 #include "http2/decoder/decode_buffer.h"
 #include "http2/decoder/decode_status.h"
 #include "http2/decoder/http2_frame_decoder_listener.h"
 #include "http2/decoder/http2_structure_decoder.h"
 #include "http2/http2_constants.h"
 #include "http2/http2_structures.h"
 #include "http2/platform/api/http2_logging.h"
 #include "common/platform/api/quiche_export.h"

 namespace http2 {
 namespace test {
 class FrameDecoderStatePeer;
 }  // namespace test

 class QUICHE_EXPORT_PRIVATE FrameDecoderState {
  public:
   FrameDecoderState() {}

   // Sets the listener which the decoders should call as they decode HTTP/2
   // frames. The listener can be changed at any time, which allows for replacing
   // it with a no-op listener when an error is detected, either by the payload
   // decoder (OnPaddingTooLong or OnFrameSizeError) or by the "real" listener.
   // That in turn allows us to define Http2FrameDecoderListener such that all
   // methods have return type void, with no direct way to indicate whether the
   // decoder should stop, and to eliminate from the decoder all checks of the
   // return value. Instead the listener/caller can simply replace the current
   // listener with a no-op listener implementation.
   // TODO(jamessynge): Make set_listener private as only Http2FrameDecoder
   // and tests need to set it, so it doesn't need to be public.
   void set_listener(Http2FrameDecoderListener* listener) {
     listener_ = listener;
   }
   Http2FrameDecoderListener* listener() const { return listener_; }

   // The most recently decoded frame header.
   const Http2FrameHeader& frame_header() const { return frame_header_; }

   // Decode a structure in the payload, adjusting remaining_payload_ to account
   // for the consumed portion of the payload. Returns kDecodeDone when fully
   // decoded, kDecodeError if it ran out of payload before decoding completed,
   // and kDecodeInProgress if the decode buffer didn't have enough of the
   // remaining payload.
   template <class S>
   DecodeStatus StartDecodingStructureInPayload(S* out, DecodeBuffer* db) {
     HTTP2_DVLOG(2) << __func__ << "\n\tdb->Remaining=" << db->Remaining()
                    << "\n\tremaining_payload_=" << remaining_payload_
                    << "\n\tneed=" << S::EncodedSize();
     DecodeStatus status =
         structure_decoder_.Start(out, db, &remaining_payload_);
     if (status != DecodeStatus::kDecodeError) {
       return status;
     }
     HTTP2_DVLOG(2)
         << "StartDecodingStructureInPayload: detected frame size error";
     return ReportFrameSizeError();
   }

   // Resume decoding of a structure that has been split across buffers,
   // adjusting remaining_payload_ to account for the consumed portion of
   // the payload. Returns values are as for StartDecodingStructureInPayload.
   template <class S>
   DecodeStatus ResumeDecodingStructureInPayload(S* out, DecodeBuffer* db) {
     HTTP2_DVLOG(2) << __func__ << "\n\tdb->Remaining=" << db->Remaining()
                    << "\n\tremaining_payload_=" << remaining_payload_;
     if (structure_decoder_.Resume(out, db, &remaining_payload_)) {
       return DecodeStatus::kDecodeDone;
     } else if (remaining_payload_ > 0) {
       return DecodeStatus::kDecodeInProgress;
     } else {
       HTTP2_DVLOG(2)
           << "ResumeDecodingStructureInPayload: detected frame size error";
       return ReportFrameSizeError();
     }
   }

   // Initializes the two remaining* fields, which is needed if the frame's
   // payload is split across buffers, or the decoder calls ReadPadLength or
   // StartDecodingStructureInPayload, and of course the methods below which
   // read those fields, as their names imply.
   void InitializeRemainders() {
     remaining_payload_ = frame_header().payload_length;
     // Note that remaining_total_payload() relies on remaining_padding_ being
     // zero for frames that have no padding.
     remaining_padding_ = 0;
   }

   // Returns the number of bytes of the frame's payload that remain to be
   // decoded, including any trailing padding. This method must only be called
   // after the variables have been initialized, which in practice means once a
   // payload decoder has called InitializeRemainders and/or ReadPadLength.
   size_t remaining_total_payload() const {
     QUICHE_DCHECK(IsPaddable() || remaining_padding_ == 0) << frame_header();
     return remaining_payload_ + remaining_padding_;
   }

   // Returns the number of bytes of the frame's payload that remain to be
   // decoded, excluding any trailing padding. This method must only be called
   // after the variable has been initialized, which in practice means once a
   // payload decoder has called InitializeRemainders; ReadPadLength will deduct
   // the total number of padding bytes from remaining_payload_, including the
   // size of the Pad Length field itself (1 byte).
   size_t remaining_payload() const { return remaining_payload_; }

   // Returns the number of bytes of the frame's payload that remain to be
   // decoded, including any trailing padding. This method must only be called if
   // the frame type allows padding, and after the variable has been initialized,
   // which in practice means once a payload decoder has called
   // InitializeRemainders and/or ReadPadLength.
   size_t remaining_payload_and_padding() const {
     QUICHE_DCHECK(IsPaddable()) << frame_header();
     return remaining_payload_ + remaining_padding_;
   }

   // Returns the number of bytes of trailing padding after the payload that
   // remain to be decoded. This method must only be called if the frame type
   // allows padding, and after the variable has been initialized, which in
   // practice means once a payload decoder has called InitializeRemainders,
   // and isn't set to a non-zero value until ReadPadLength has been called.
   uint32_t remaining_padding() const {
     QUICHE_DCHECK(IsPaddable()) << frame_header();
     return remaining_padding_;
   }

   // How many bytes of the remaining payload are in db?
   size_t AvailablePayload(DecodeBuffer* db) const {
     return db->MinLengthRemaining(remaining_payload_);
   }

   // How many bytes of the remaining payload and padding are in db?
   // Call only for frames whose type is paddable.
   size_t AvailablePayloadAndPadding(DecodeBuffer* db) const {
     QUICHE_DCHECK(IsPaddable()) << frame_header();
     return db->MinLengthRemaining(remaining_payload_ + remaining_padding_);
   }

   // How many bytes of the padding that have not yet been skipped are in db?
   // Call only after remaining_padding_ has been set (for padded frames), or
   // been cleared (for unpadded frames); and after all of the non-padding
   // payload has been decoded.
   size_t AvailablePadding(DecodeBuffer* db) const {
     QUICHE_DCHECK(IsPaddable()) << frame_header();
     QUICHE_DCHECK_EQ(remaining_payload_, 0u);
     return db->MinLengthRemaining(remaining_padding_);
   }

   // Reduces remaining_payload_ by amount. To be called by a payload decoder
   // after it has passed a variable length portion of the payload to the
   // listener; remaining_payload_ will be automatically reduced when fixed
   // size structures and padding, including the Pad Length field, are decoded.
   void ConsumePayload(size_t amount) {
     QUICHE_DCHECK_LE(amount, remaining_payload_);
     remaining_payload_ -= amount;
   }

   // Reads the Pad Length field into remaining_padding_, and appropriately sets
   // remaining_payload_. When present, the Pad Length field is always the first
   // field in the payload, which this method relies on so that the caller need
   // not set remaining_payload_ before calling this method.
   // If report_pad_length is true, calls the listener's OnPadLength method when
   // it decodes the Pad Length field.
   // Returns kDecodeDone if the decode buffer was not empty (i.e. because the
   // field is only a single byte long, it can always be decoded if the buffer is
   // not empty).
   // Returns kDecodeError if the buffer is empty because the frame has no
   // payload (i.e. payload_length() == 0).
   // Returns kDecodeInProgress if the buffer is empty but the frame has a
   // payload.
   DecodeStatus ReadPadLength(DecodeBuffer* db, bool report_pad_length);

   // Skip the trailing padding bytes; only call once remaining_payload_==0.
   // Returns true when the padding has been skipped.
   // Does NOT check that the padding is all zeroes.
   bool SkipPadding(DecodeBuffer* db);

   // Calls the listener's OnFrameSizeError method and returns kDecodeError.
   DecodeStatus ReportFrameSizeError();

  private:
   friend class Http2FrameDecoder;
   friend class test::FrameDecoderStatePeer;

   // Starts the decoding of a common frame header. Returns true if completed the
   // decoding, false if the decode buffer didn't have enough data in it, in
   // which case the decode buffer will have been drained and the caller should
   // call ResumeDecodingFrameHeader when more data is available. This is called
   // from Http2FrameDecoder, a friend class.
   bool StartDecodingFrameHeader(DecodeBuffer* db) {
     return structure_decoder_.Start(&frame_header_, db);
   }

   // Resumes decoding the common frame header after the preceding call to
   // StartDecodingFrameHeader returned false, as did any subsequent calls to
   // ResumeDecodingFrameHeader. This is called from Http2FrameDecoder,
   // a friend class.
   bool ResumeDecodingFrameHeader(DecodeBuffer* db) {
     return structure_decoder_.Resume(&frame_header_, db);
   }

   // Clear any of the flags in the frame header that aren't set in valid_flags.
   void RetainFlags(uint8_t valid_flags) {
     frame_header_.RetainFlags(valid_flags);
   }

   // Clear all of the flags in the frame header; for use with frame types that
   // don't define any flags, such as WINDOW_UPDATE.
   void ClearFlags() { frame_header_.flags = Http2FrameFlag(); }

   // Returns true if the type of frame being decoded can have padding.
   bool IsPaddable() const {
     return frame_header().type == Http2FrameType::DATA ||
            frame_header().type == Http2FrameType::HEADERS ||
            frame_header().type == Http2FrameType::PUSH_PROMISE;
   }

   Http2FrameDecoderListener* listener_ = nullptr;
   Http2FrameHeader frame_header_;

   // Number of bytes remaining to be decoded, if set; does not include the
   // trailing padding once the length of padding has been determined.
   // See ReadPadLength.
   uint32_t remaining_payload_;

   // The amount of trailing padding after the payload that remains to be
   // decoded. See ReadPadLength.
   uint32_t remaining_padding_;

   // Generic decoder of structures, which takes care of buffering the needed
   // bytes if the encoded structure is split across decode buffers.
   Http2StructureDecoder structure_decoder_;
 };

 }  // namespace http2

 #endif  // QUICHE_HTTP2_DECODER_FRAME_DECODER_STATE_H_
	// 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_DECODER_FRAME_DECODER_STATE_H_
	#define QUICHE_HTTP2_DECODER_FRAME_DECODER_STATE_H_

	// FrameDecoderState provides state and behaviors in support of decoding
	// the common frame header and the payload of all frame types.
	// It is an input to all of the payload decoders.

	// TODO(jamessynge): Since FrameDecoderState has far more than state in it,
	// rename to FrameDecoderHelper, or similar.

	#include <stddef.h>

	#include <cstdint>

	#include "http2/decoder/decode_buffer.h"
	#include "http2/decoder/decode_status.h"
	#include "http2/decoder/http2_frame_decoder_listener.h"
	#include "http2/decoder/http2_structure_decoder.h"
	#include "http2/http2_constants.h"
	#include "http2/http2_structures.h"
	#include "http2/platform/api/http2_logging.h"
	#include "common/platform/api/quiche_export.h"

	namespace http2 {
	namespace test {
	class FrameDecoderStatePeer;
	} // namespace test

	class QUICHE_EXPORT_PRIVATE FrameDecoderState {
	public:
	FrameDecoderState() {}

	// Sets the listener which the decoders should call as they decode HTTP/2
	// frames. The listener can be changed at any time, which allows for replacing
	// it with a no-op listener when an error is detected, either by the payload
	// decoder (OnPaddingTooLong or OnFrameSizeError) or by the "real" listener.
	// That in turn allows us to define Http2FrameDecoderListener such that all
	// methods have return type void, with no direct way to indicate whether the
	// decoder should stop, and to eliminate from the decoder all checks of the
	// return value. Instead the listener/caller can simply replace the current
	// listener with a no-op listener implementation.
	// TODO(jamessynge): Make set_listener private as only Http2FrameDecoder
	// and tests need to set it, so it doesn't need to be public.
	void set_listener(Http2FrameDecoderListener* listener) {
	listener_ = listener;
	}
	Http2FrameDecoderListener* listener() const { return listener_; }

	// The most recently decoded frame header.
	const Http2FrameHeader& frame_header() const { return frame_header_; }

	// Decode a structure in the payload, adjusting remaining_payload_ to account
	// for the consumed portion of the payload. Returns kDecodeDone when fully
	// decoded, kDecodeError if it ran out of payload before decoding completed,
	// and kDecodeInProgress if the decode buffer didn't have enough of the
	// remaining payload.
	template <class S>
	DecodeStatus StartDecodingStructureInPayload(S* out, DecodeBuffer* db) {
	HTTP2_DVLOG(2) << __func__ << "\n\tdb->Remaining=" << db->Remaining()
	<< "\n\tremaining_payload_=" << remaining_payload_
	<< "\n\tneed=" << S::EncodedSize();
	DecodeStatus status =
	structure_decoder_.Start(out, db, &remaining_payload_);
	if (status != DecodeStatus::kDecodeError) {
	return status;
	}
	HTTP2_DVLOG(2)
	<< "StartDecodingStructureInPayload: detected frame size error";
	return ReportFrameSizeError();
	}

	// Resume decoding of a structure that has been split across buffers,
	// adjusting remaining_payload_ to account for the consumed portion of
	// the payload. Returns values are as for StartDecodingStructureInPayload.
	template <class S>
	DecodeStatus ResumeDecodingStructureInPayload(S* out, DecodeBuffer* db) {
	HTTP2_DVLOG(2) << __func__ << "\n\tdb->Remaining=" << db->Remaining()
	<< "\n\tremaining_payload_=" << remaining_payload_;
	if (structure_decoder_.Resume(out, db, &remaining_payload_)) {
	return DecodeStatus::kDecodeDone;
	} else if (remaining_payload_ > 0) {
	return DecodeStatus::kDecodeInProgress;
	} else {
	HTTP2_DVLOG(2)
	<< "ResumeDecodingStructureInPayload: detected frame size error";
	return ReportFrameSizeError();
	}
	}

	// Initializes the two remaining* fields, which is needed if the frame's
	// payload is split across buffers, or the decoder calls ReadPadLength or
	// StartDecodingStructureInPayload, and of course the methods below which
	// read those fields, as their names imply.
	void InitializeRemainders() {
	remaining_payload_ = frame_header().payload_length;
	// Note that remaining_total_payload() relies on remaining_padding_ being
	// zero for frames that have no padding.
	remaining_padding_ = 0;
	}

	// Returns the number of bytes of the frame's payload that remain to be
	// decoded, including any trailing padding. This method must only be called
	// after the variables have been initialized, which in practice means once a
	// payload decoder has called InitializeRemainders and/or ReadPadLength.
	size_t remaining_total_payload() const {
	QUICHE_DCHECK(IsPaddable() \|\| remaining_padding_ == 0) << frame_header();
	return remaining_payload_ + remaining_padding_;
	}

	// Returns the number of bytes of the frame's payload that remain to be
	// decoded, excluding any trailing padding. This method must only be called
	// after the variable has been initialized, which in practice means once a
	// payload decoder has called InitializeRemainders; ReadPadLength will deduct
	// the total number of padding bytes from remaining_payload_, including the
	// size of the Pad Length field itself (1 byte).
	size_t remaining_payload() const { return remaining_payload_; }

	// Returns the number of bytes of the frame's payload that remain to be
	// decoded, including any trailing padding. This method must only be called if
	// the frame type allows padding, and after the variable has been initialized,
	// which in practice means once a payload decoder has called
	// InitializeRemainders and/or ReadPadLength.
	size_t remaining_payload_and_padding() const {
	QUICHE_DCHECK(IsPaddable()) << frame_header();
	return remaining_payload_ + remaining_padding_;
	}

	// Returns the number of bytes of trailing padding after the payload that
	// remain to be decoded. This method must only be called if the frame type
	// allows padding, and after the variable has been initialized, which in
	// practice means once a payload decoder has called InitializeRemainders,
	// and isn't set to a non-zero value until ReadPadLength has been called.
	uint32_t remaining_padding() const {
	QUICHE_DCHECK(IsPaddable()) << frame_header();
	return remaining_padding_;
	}

	// How many bytes of the remaining payload are in db?
	size_t AvailablePayload(DecodeBuffer* db) const {
	return db->MinLengthRemaining(remaining_payload_);
	}

	// How many bytes of the remaining payload and padding are in db?
	// Call only for frames whose type is paddable.
	size_t AvailablePayloadAndPadding(DecodeBuffer* db) const {
	QUICHE_DCHECK(IsPaddable()) << frame_header();
	return db->MinLengthRemaining(remaining_payload_ + remaining_padding_);
	}

	// How many bytes of the padding that have not yet been skipped are in db?
	// Call only after remaining_padding_ has been set (for padded frames), or
	// been cleared (for unpadded frames); and after all of the non-padding
	// payload has been decoded.
	size_t AvailablePadding(DecodeBuffer* db) const {
	QUICHE_DCHECK(IsPaddable()) << frame_header();
	QUICHE_DCHECK_EQ(remaining_payload_, 0u);
	return db->MinLengthRemaining(remaining_padding_);
	}

	// Reduces remaining_payload_ by amount. To be called by a payload decoder
	// after it has passed a variable length portion of the payload to the
	// listener; remaining_payload_ will be automatically reduced when fixed
	// size structures and padding, including the Pad Length field, are decoded.
	void ConsumePayload(size_t amount) {
	QUICHE_DCHECK_LE(amount, remaining_payload_);
	remaining_payload_ -= amount;
	}

	// Reads the Pad Length field into remaining_padding_, and appropriately sets
	// remaining_payload_. When present, the Pad Length field is always the first
	// field in the payload, which this method relies on so that the caller need
	// not set remaining_payload_ before calling this method.
	// If report_pad_length is true, calls the listener's OnPadLength method when
	// it decodes the Pad Length field.
	// Returns kDecodeDone if the decode buffer was not empty (i.e. because the
	// field is only a single byte long, it can always be decoded if the buffer is
	// not empty).
	// Returns kDecodeError if the buffer is empty because the frame has no
	// payload (i.e. payload_length() == 0).
	// Returns kDecodeInProgress if the buffer is empty but the frame has a
	// payload.
	DecodeStatus ReadPadLength(DecodeBuffer* db, bool report_pad_length);

	// Skip the trailing padding bytes; only call once remaining_payload_==0.
	// Returns true when the padding has been skipped.
	// Does NOT check that the padding is all zeroes.
	bool SkipPadding(DecodeBuffer* db);

	// Calls the listener's OnFrameSizeError method and returns kDecodeError.
	DecodeStatus ReportFrameSizeError();

	private:
	friend class Http2FrameDecoder;
	friend class test::FrameDecoderStatePeer;

	// Starts the decoding of a common frame header. Returns true if completed the
	// decoding, false if the decode buffer didn't have enough data in it, in
	// which case the decode buffer will have been drained and the caller should
	// call ResumeDecodingFrameHeader when more data is available. This is called
	// from Http2FrameDecoder, a friend class.
	bool StartDecodingFrameHeader(DecodeBuffer* db) {
	return structure_decoder_.Start(&frame_header_, db);
	}

	// Resumes decoding the common frame header after the preceding call to
	// StartDecodingFrameHeader returned false, as did any subsequent calls to
	// ResumeDecodingFrameHeader. This is called from Http2FrameDecoder,
	// a friend class.
	bool ResumeDecodingFrameHeader(DecodeBuffer* db) {
	return structure_decoder_.Resume(&frame_header_, db);
	}

	// Clear any of the flags in the frame header that aren't set in valid_flags.
	void RetainFlags(uint8_t valid_flags) {
	frame_header_.RetainFlags(valid_flags);
	}

	// Clear all of the flags in the frame header; for use with frame types that
	// don't define any flags, such as WINDOW_UPDATE.
	void ClearFlags() { frame_header_.flags = Http2FrameFlag(); }

	// Returns true if the type of frame being decoded can have padding.
	bool IsPaddable() const {
	return frame_header().type == Http2FrameType::DATA \|\|
	frame_header().type == Http2FrameType::HEADERS \|\|
	frame_header().type == Http2FrameType::PUSH_PROMISE;
	}

	Http2FrameDecoderListener* listener_ = nullptr;
	Http2FrameHeader frame_header_;

	// Number of bytes remaining to be decoded, if set; does not include the
	// trailing padding once the length of padding has been determined.
	// See ReadPadLength.
	uint32_t remaining_payload_;

	// The amount of trailing padding after the payload that remains to be
	// decoded. See ReadPadLength.
	uint32_t remaining_padding_;

	// Generic decoder of structures, which takes care of buffering the needed
	// bytes if the encoded structure is split across decode buffers.
	Http2StructureDecoder structure_decoder_;
	};

	} // namespace http2

	#endif // QUICHE_HTTP2_DECODER_FRAME_DECODER_STATE_H_