http2/adapter/http2_adapter.h - quiche - Git at Google

 #ifndef QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_
 #define QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_

 #include <cstdint>

 #include "absl/strings/string_view.h"
 #include "absl/types/optional.h"
 #include "absl/types/span.h"
 #include "http2/adapter/data_source.h"
 #include "http2/adapter/http2_protocol.h"
 #include "http2/adapter/http2_session.h"
 #include "http2/adapter/http2_visitor_interface.h"
 #include "common/platform/api/quiche_export.h"

 namespace http2 {
 namespace adapter {

 // Http2Adapter is an HTTP/2-processing class that exposes an interface similar
 // to the nghttp2 library for processing the HTTP/2 wire format. As nghttp2
 // parses HTTP/2 frames and invokes callbacks on Http2Adapter, Http2Adapter then
 // invokes corresponding callbacks on its passed-in Http2VisitorInterface.
 // Http2Adapter is a base class shared between client-side and server-side
 // implementations.
 class QUICHE_EXPORT_PRIVATE Http2Adapter {
  public:
   Http2Adapter(const Http2Adapter&) = delete;
   Http2Adapter& operator=(const Http2Adapter&) = delete;

   virtual ~Http2Adapter() {}

   virtual bool IsServerSession() const = 0;

   virtual bool want_read() const = 0;
   virtual bool want_write() const = 0;

   // Processes the incoming |bytes| as HTTP/2 and invokes callbacks on the
   // |visitor_| as appropriate.
   virtual int64_t ProcessBytes(absl::string_view bytes) = 0;

   // Submits the |settings| to be written to the peer, e.g., as part of the
   // HTTP/2 connection preface.
   virtual void SubmitSettings(absl::Span<const Http2Setting> settings) = 0;

   // Submits a PRIORITY frame for the given stream.
   virtual void SubmitPriorityForStream(Http2StreamId stream_id,
                                        Http2StreamId parent_stream_id,
                                        int weight,
                                        bool exclusive) = 0;

   // Submits a PING on the connection.
   virtual void SubmitPing(Http2PingId ping_id) = 0;

   // Starts a graceful shutdown. A no-op for clients.
   virtual void SubmitShutdownNotice() = 0;

   // Submits a GOAWAY on the connection. Note that |last_accepted_stream_id|
   // refers to stream IDs initiated by the peer. For a server sending this
   // frame, this last stream ID must be odd (or 0).
   virtual void SubmitGoAway(Http2StreamId last_accepted_stream_id,
                             Http2ErrorCode error_code,
                             absl::string_view opaque_data) = 0;

   // Submits a WINDOW_UPDATE for the given stream (a |stream_id| of 0 indicates
   // a connection-level WINDOW_UPDATE).
   virtual void SubmitWindowUpdate(Http2StreamId stream_id,
                                   int window_increment) = 0;

   // Submits a RST_STREAM for the given |stream_id| and |error_code|.
   virtual void SubmitRst(Http2StreamId stream_id,
                          Http2ErrorCode error_code) = 0;

   // Submits a sequence of METADATA frames for the given stream. A |stream_id|
   // of 0 indicates connection-level METADATA.
   virtual void SubmitMetadata(Http2StreamId stream_id, size_t max_frame_size,
                               std::unique_ptr<MetadataSource> source) = 0;

   // Invokes the visitor's OnReadyToSend() method for serialized frame data.
   // Returns 0 on success.
   virtual int Send() = 0;

   // Returns the connection-level flow control window advertised by the peer.
   virtual int GetSendWindowSize() const = 0;

   // Returns the stream-level flow control window advertised by the peer.
   virtual int GetStreamSendWindowSize(Http2StreamId stream_id) const = 0;

   // Returns the current upper bound on the flow control receive window for this
   // stream. This value does not account for data received from the peer.
   virtual int GetStreamReceiveWindowLimit(Http2StreamId stream_id) const = 0;

   // Returns the amount of data a peer could send on a given stream. This is
   // the outstanding stream receive window.
   virtual int GetStreamReceiveWindowSize(Http2StreamId stream_id) const = 0;

   // Returns the total amount of data a peer could send on the connection. This
   // is the outstanding connection receive window.
   virtual int GetReceiveWindowSize() const = 0;

   // Returns the size of the HPACK encoder's dynamic table, including the
   // per-entry overhead from the specification.
   virtual int GetHpackEncoderDynamicTableSize() const = 0;

   // Returns the size of the HPACK decoder's dynamic table, including the
   // per-entry overhead from the specification.
   virtual int GetHpackDecoderDynamicTableSize() const = 0;

   // Gets the highest stream ID value seen in a frame received by this endpoint.
   // This method is only guaranteed to work for server endpoints.
   virtual Http2StreamId GetHighestReceivedStreamId() const = 0;

   // Marks the given amount of data as consumed for the given stream, which
   // enables the implementation layer to send WINDOW_UPDATEs as appropriate.
   virtual void MarkDataConsumedForStream(Http2StreamId stream_id,
                                          size_t num_bytes) = 0;

   // Returns the assigned stream ID if the operation succeeds. Otherwise,
   // returns a negative integer indicating an error code. |data_source| may be
   // nullptr if the request does not have a body.
   virtual int32_t SubmitRequest(absl::Span<const Header> headers,
                                 std::unique_ptr<DataFrameSource> data_source,
                                 void* user_data) = 0;

   // Returns 0 on success. |data_source| may be nullptr if the response does not
   // have a body.
   virtual int SubmitResponse(Http2StreamId stream_id,
                              absl::Span<const Header> headers,
                              std::unique_ptr<DataFrameSource> data_source) = 0;

   // Queues trailers to be sent after any outstanding data on the stream with ID
   // |stream_id|. Returns 0 on success.
   virtual int SubmitTrailer(Http2StreamId stream_id,
                             absl::Span<const Header> trailers) = 0;

   // Sets a user data pointer for the given stream. Can be called after
   // SubmitRequest/SubmitResponse, or after receiving any frame for a given
   // stream.
   virtual void SetStreamUserData(Http2StreamId stream_id, void* user_data) = 0;

   // Returns nullptr if the stream does not exist, or if stream user data has
   // not been set.
   virtual void* GetStreamUserData(Http2StreamId stream_id) = 0;

   // Resumes a stream that was previously blocked (for example, due to
   // DataFrameSource::SelectPayloadLength() returning kBlocked). Returns true if
   // the stream was successfully resumed.
   virtual bool ResumeStream(Http2StreamId stream_id) = 0;

  protected:
   // Subclasses should expose a public factory method for constructing and
   // initializing (via Initialize()) adapter instances.
   explicit Http2Adapter(Http2VisitorInterface& visitor) : visitor_(visitor) {}

   // Accessors. Do not transfer ownership.
   Http2VisitorInterface& visitor() { return visitor_; }

  private:
   // Http2Adapter will invoke callbacks upon the |visitor_| while processing.
   Http2VisitorInterface& visitor_;
 };

 }  // namespace adapter
 }  // namespace http2

 #endif  // QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_
	#ifndef QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_
	#define QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_

	#include <cstdint>

	#include "absl/strings/string_view.h"
	#include "absl/types/optional.h"
	#include "absl/types/span.h"
	#include "http2/adapter/data_source.h"
	#include "http2/adapter/http2_protocol.h"
	#include "http2/adapter/http2_session.h"
	#include "http2/adapter/http2_visitor_interface.h"
	#include "common/platform/api/quiche_export.h"

	namespace http2 {
	namespace adapter {

	// Http2Adapter is an HTTP/2-processing class that exposes an interface similar
	// to the nghttp2 library for processing the HTTP/2 wire format. As nghttp2
	// parses HTTP/2 frames and invokes callbacks on Http2Adapter, Http2Adapter then
	// invokes corresponding callbacks on its passed-in Http2VisitorInterface.
	// Http2Adapter is a base class shared between client-side and server-side
	// implementations.
	class QUICHE_EXPORT_PRIVATE Http2Adapter {
	public:
	Http2Adapter(const Http2Adapter&) = delete;
	Http2Adapter& operator=(const Http2Adapter&) = delete;

	virtual ~Http2Adapter() {}

	virtual bool IsServerSession() const = 0;

	virtual bool want_read() const = 0;
	virtual bool want_write() const = 0;

	// Processes the incoming \|bytes\| as HTTP/2 and invokes callbacks on the
	// \|visitor_\| as appropriate.
	virtual int64_t ProcessBytes(absl::string_view bytes) = 0;

	// Submits the \|settings\| to be written to the peer, e.g., as part of the
	// HTTP/2 connection preface.
	virtual void SubmitSettings(absl::Span<const Http2Setting> settings) = 0;

	// Submits a PRIORITY frame for the given stream.
	virtual void SubmitPriorityForStream(Http2StreamId stream_id,
	Http2StreamId parent_stream_id,
	int weight,
	bool exclusive) = 0;

	// Submits a PING on the connection.
	virtual void SubmitPing(Http2PingId ping_id) = 0;

	// Starts a graceful shutdown. A no-op for clients.
	virtual void SubmitShutdownNotice() = 0;

	// Submits a GOAWAY on the connection. Note that \|last_accepted_stream_id\|
	// refers to stream IDs initiated by the peer. For a server sending this
	// frame, this last stream ID must be odd (or 0).
	virtual void SubmitGoAway(Http2StreamId last_accepted_stream_id,
	Http2ErrorCode error_code,
	absl::string_view opaque_data) = 0;

	// Submits a WINDOW_UPDATE for the given stream (a \|stream_id\| of 0 indicates
	// a connection-level WINDOW_UPDATE).
	virtual void SubmitWindowUpdate(Http2StreamId stream_id,
	int window_increment) = 0;

	// Submits a RST_STREAM for the given \|stream_id\| and \|error_code\|.
	virtual void SubmitRst(Http2StreamId stream_id,
	Http2ErrorCode error_code) = 0;

	// Submits a sequence of METADATA frames for the given stream. A \|stream_id\|
	// of 0 indicates connection-level METADATA.
	virtual void SubmitMetadata(Http2StreamId stream_id, size_t max_frame_size,
	std::unique_ptr<MetadataSource> source) = 0;

	// Invokes the visitor's OnReadyToSend() method for serialized frame data.
	// Returns 0 on success.
	virtual int Send() = 0;

	// Returns the connection-level flow control window advertised by the peer.
	virtual int GetSendWindowSize() const = 0;

	// Returns the stream-level flow control window advertised by the peer.
	virtual int GetStreamSendWindowSize(Http2StreamId stream_id) const = 0;

	// Returns the current upper bound on the flow control receive window for this
	// stream. This value does not account for data received from the peer.
	virtual int GetStreamReceiveWindowLimit(Http2StreamId stream_id) const = 0;

	// Returns the amount of data a peer could send on a given stream. This is
	// the outstanding stream receive window.
	virtual int GetStreamReceiveWindowSize(Http2StreamId stream_id) const = 0;

	// Returns the total amount of data a peer could send on the connection. This
	// is the outstanding connection receive window.
	virtual int GetReceiveWindowSize() const = 0;

	// Returns the size of the HPACK encoder's dynamic table, including the
	// per-entry overhead from the specification.
	virtual int GetHpackEncoderDynamicTableSize() const = 0;

	// Returns the size of the HPACK decoder's dynamic table, including the
	// per-entry overhead from the specification.
	virtual int GetHpackDecoderDynamicTableSize() const = 0;

	// Gets the highest stream ID value seen in a frame received by this endpoint.
	// This method is only guaranteed to work for server endpoints.
	virtual Http2StreamId GetHighestReceivedStreamId() const = 0;

	// Marks the given amount of data as consumed for the given stream, which
	// enables the implementation layer to send WINDOW_UPDATEs as appropriate.
	virtual void MarkDataConsumedForStream(Http2StreamId stream_id,
	size_t num_bytes) = 0;

	// Returns the assigned stream ID if the operation succeeds. Otherwise,
	// returns a negative integer indicating an error code. \|data_source\| may be
	// nullptr if the request does not have a body.
	virtual int32_t SubmitRequest(absl::Span<const Header> headers,
	std::unique_ptr<DataFrameSource> data_source,
	void* user_data) = 0;

	// Returns 0 on success. \|data_source\| may be nullptr if the response does not
	// have a body.
	virtual int SubmitResponse(Http2StreamId stream_id,
	absl::Span<const Header> headers,
	std::unique_ptr<DataFrameSource> data_source) = 0;

	// Queues trailers to be sent after any outstanding data on the stream with ID
	// \|stream_id\|. Returns 0 on success.
	virtual int SubmitTrailer(Http2StreamId stream_id,
	absl::Span<const Header> trailers) = 0;

	// Sets a user data pointer for the given stream. Can be called after
	// SubmitRequest/SubmitResponse, or after receiving any frame for a given
	// stream.
	virtual void SetStreamUserData(Http2StreamId stream_id, void* user_data) = 0;

	// Returns nullptr if the stream does not exist, or if stream user data has
	// not been set.
	virtual void* GetStreamUserData(Http2StreamId stream_id) = 0;

	// Resumes a stream that was previously blocked (for example, due to
	// DataFrameSource::SelectPayloadLength() returning kBlocked). Returns true if
	// the stream was successfully resumed.
	virtual bool ResumeStream(Http2StreamId stream_id) = 0;

	protected:
	// Subclasses should expose a public factory method for constructing and
	// initializing (via Initialize()) adapter instances.
	explicit Http2Adapter(Http2VisitorInterface& visitor) : visitor_(visitor) {}

	// Accessors. Do not transfer ownership.
	Http2VisitorInterface& visitor() { return visitor_; }

	private:
	// Http2Adapter will invoke callbacks upon the \|visitor_\| while processing.
	Http2VisitorInterface& visitor_;
	};

	} // namespace adapter
	} // namespace http2

	#endif // QUICHE_HTTP2_ADAPTER_HTTP2_ADAPTER_H_