// Copyright (c) 2011 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 NET_SPDY_SPDY_FRAMER_H_
#define NET_SPDY_SPDY_FRAMER_H_
#pragma once
#include <list>
#include <map>
#include <string>
#include <utility>
#include "base/basictypes.h"
#include "base/gtest_prod_util.h"
#include "base/memory/scoped_ptr.h"
#include "net/base/sys_byteorder.h"
#include "net/spdy/spdy_protocol.h"
typedef struct z_stream_s z_stream; // Forward declaration for zlib.
namespace net {
class HttpProxyClientSocketPoolTest;
class HttpNetworkLayer;
class HttpNetworkTransactionTest;
class SpdyHttpStreamTest;
class SpdyNetworkTransactionTest;
class SpdyProxyClientSocketTest;
class SpdySessionTest;
class SpdyStreamTest;
}
namespace spdy {
class SpdyFramer;
class SpdyFramerTest;
namespace test {
class TestSpdyVisitor;
void FramerSetEnableCompressionHelper(SpdyFramer* framer, bool compress);
} // namespace test
// A datastructure for holding a set of headers from either a
// SYN_STREAM or SYN_REPLY frame.
typedef std::map<std::string, std::string> SpdyHeaderBlock;
// A datastructure for holding a set of ID/value pairs for a SETTINGS frame.
typedef std::pair<spdy::SettingsFlagsAndId, uint32> SpdySetting;
typedef std::list<SpdySetting> SpdySettings;
// SpdyFramerVisitorInterface is a set of callbacks for the SpdyFramer.
// Implement this interface to receive event callbacks as frames are
// decoded from the framer.
class SpdyFramerVisitorInterface {
public:
virtual ~SpdyFramerVisitorInterface() {}
// Called if an error is detected in the SpdyFrame protocol.
virtual void OnError(SpdyFramer* framer) = 0;
// Called when a Control Frame is received.
virtual void OnControl(const SpdyControlFrame* frame) = 0;
// Called when data is received.
// |stream_id| The stream receiving data.
// |data| A buffer containing the data received.
// |len| The length of the data buffer.
// When the other side has finished sending data on this stream,
// this method will be called with a zero-length buffer.
virtual void OnStreamFrameData(SpdyStreamId stream_id,
const char* data,
size_t len) = 0;
};
class SpdyFramer {
public:
// SPDY states.
// TODO(mbelshe): Can we move these into the implementation
// and avoid exposing through the header. (Needed for test)
enum SpdyState {
SPDY_ERROR,
SPDY_DONE,
SPDY_RESET,
SPDY_AUTO_RESET,
SPDY_READING_COMMON_HEADER,
SPDY_INTERPRET_CONTROL_FRAME_COMMON_HEADER,
SPDY_CONTROL_FRAME_PAYLOAD,
SPDY_IGNORE_REMAINING_PAYLOAD,
SPDY_FORWARD_STREAM_FRAME
};
// SPDY error codes.
enum SpdyError {
SPDY_NO_ERROR,
SPDY_INVALID_CONTROL_FRAME, // Control frame is mal-formatted.
SPDY_CONTROL_PAYLOAD_TOO_LARGE, // Control frame payload was too large.
SPDY_ZLIB_INIT_FAILURE, // The Zlib library could not initialize.
SPDY_UNSUPPORTED_VERSION, // Control frame has unsupported version.
SPDY_DECOMPRESS_FAILURE, // There was an error decompressing.
SPDY_COMPRESS_FAILURE, // There was an error compressing.
LAST_ERROR, // Must be the last entry in the enum.
};
// Create a new Framer.
SpdyFramer();
virtual ~SpdyFramer();
// Set callbacks to be called from the framer. A visitor must be set, or
// else the framer will likely crash. It is acceptable for the visitor
// to do nothing. If this is called multiple times, only the last visitor
// will be used.
void set_visitor(SpdyFramerVisitorInterface* visitor) {
visitor_ = visitor;
}
// Pass data into the framer for parsing.
// Returns the number of bytes consumed. It is safe to pass more bytes in
// than may be consumed.
size_t ProcessInput(const char* data, size_t len);
// Resets the framer state after a frame has been successfully decoded.
// TODO(mbelshe): can we make this private?
void Reset();
// Check the state of the framer.
SpdyError error_code() const { return error_code_; }
SpdyState state() const { return state_; }
bool MessageFullyRead() {
return state_ == SPDY_DONE || state_ == SPDY_AUTO_RESET;
}
bool HasError() { return state_ == SPDY_ERROR; }
// Further parsing utilities.
// Given a control frame, parse out a SpdyHeaderBlock. Only
// valid for SYN_STREAM and SYN_REPLY frames.
// Returns true if successfully parsed, false otherwise.
bool ParseHeaderBlock(const SpdyFrame* frame, SpdyHeaderBlock* block);
// Create a SpdySynStreamControlFrame.
// |stream_id| is the id for this stream.
// |associated_stream_id| is the associated stream id for this stream.
// |priority| is the priority (0-3) for this stream.
// |flags| is the flags to use with the data.
// To mark this frame as the last frame, enable CONTROL_FLAG_FIN.
// |compressed| specifies whether the frame should be compressed.
// |headers| is the header block to include in the frame.
SpdySynStreamControlFrame* CreateSynStream(SpdyStreamId stream_id,
SpdyStreamId associated_stream_id,
int priority,
SpdyControlFlags flags,
bool compressed,
SpdyHeaderBlock* headers);
// Create a SpdySynReplyControlFrame.
// |stream_id| is the stream for this frame.
// |flags| is the flags to use with the data.
// To mark this frame as the last frame, enable CONTROL_FLAG_FIN.
// |compressed| specifies whether the frame should be compressed.
// |headers| is the header block to include in the frame.
SpdySynReplyControlFrame* CreateSynReply(SpdyStreamId stream_id,
SpdyControlFlags flags,
bool compressed,
SpdyHeaderBlock* headers);
static SpdyRstStreamControlFrame* CreateRstStream(SpdyStreamId stream_id,
SpdyStatusCodes status);
// Creates an instance of SpdySettingsControlFrame. The SETTINGS frame is
// used to communicate name/value pairs relevant to the communication channel.
// TODO(mbelshe): add the name/value pairs!!
static SpdySettingsControlFrame* CreateSettings(const SpdySettings& values);
static SpdyControlFrame* CreateNopFrame();
// Creates an instance of SpdyGoAwayControlFrame. The GOAWAY frame is used
// prior to the shutting down of the TCP connection, and includes the
// stream_id of the last stream the sender of the frame is willing to process
// to completion.
static SpdyGoAwayControlFrame* CreateGoAway(
SpdyStreamId last_accepted_stream_id);
// Creates an instance of SpdyHeadersControlFrame. The HEADERS frame is used
// for sending additional headers outside of a SYN_STREAM/SYN_REPLY. The
// arguments are the same as for CreateSynReply.
SpdyHeadersControlFrame* CreateHeaders(SpdyStreamId stream_id,
SpdyControlFlags flags,
bool compressed,
SpdyHeaderBlock* headers);
// Creates an instance of SpdyWindowUpdateControlFrame. The WINDOW_UPDATE
// frame is used to implement per stream flow control in SPDY.
static SpdyWindowUpdateControlFrame* CreateWindowUpdate(
SpdyStreamId stream_id,
uint32 delta_window_size);
// Given a SpdySettingsControlFrame, extract the settings.
// Returns true on successful parse, false otherwise.
static bool ParseSettings(const SpdySettingsControlFrame* frame,
SpdySettings* settings);
// Create a data frame.
// |stream_id| is the stream for this frame
// |data| is the data to be included in the frame.
// |len| is the length of the data
// |flags| is the flags to use with the data.
// To create a compressed frame, enable DATA_FLAG_COMPRESSED.
// To mark this frame as the last data frame, enable DATA_FLAG_FIN.
SpdyDataFrame* CreateDataFrame(SpdyStreamId stream_id, const char* data,
uint32 len, SpdyDataFlags flags);
// NOTES about frame compression.
// We want spdy to compress headers across the entire session. As long as
// the session is over TCP, frames are sent serially. The client & server
// can each compress frames in the same order and then compress them in that
// order, and the remote can do the reverse. However, we ultimately want
// the creation of frames to be less sensitive to order so that they can be
// placed over a UDP based protocol and yet still benefit from some
// compression. We don't know of any good compression protocol which does
// not build its state in a serial (stream based) manner.... For now, we're
// using zlib anyway.
// Compresses a SpdyFrame.
// On success, returns a new SpdyFrame with the payload compressed.
// Compression state is maintained as part of the SpdyFramer.
// Returned frame must be freed with "delete".
// On failure, returns NULL.
SpdyFrame* CompressFrame(const SpdyFrame& frame);
// Decompresses a SpdyFrame.
// On success, returns a new SpdyFrame with the payload decompressed.
// Compression state is maintained as part of the SpdyFramer.
// Returned frame must be freed with "delete".
// On failure, returns NULL.
SpdyFrame* DecompressFrame(const SpdyFrame& frame);
// Create a copy of a frame.
// Returned frame must be freed with "delete".
SpdyFrame* DuplicateFrame(const SpdyFrame& frame);
// Returns true if a frame could be compressed.
bool IsCompressible(const SpdyFrame& frame) const;
// For debugging.
static const char* StateToString(int state);
static const char* ErrorCodeToString(int error_code);
static void set_protocol_version(int version) { spdy_version_= version; }
static int protocol_version() { return spdy_version_; }
// Export the compression dictionary
static const char kDictionary[];
static const int kDictionarySize;
protected:
FRIEND_TEST_ALL_PREFIXES(SpdyFramerTest, DataCompression);
FRIEND_TEST_ALL_PREFIXES(SpdyFramerTest, ExpandBuffer_HeapSmash);
FRIEND_TEST_ALL_PREFIXES(SpdyFramerTest, HugeHeaderBlock);
FRIEND_TEST_ALL_PREFIXES(SpdyFramerTest, UnclosedStreamDataCompressors);
FRIEND_TEST_ALL_PREFIXES(SpdyFramerTest,
UncompressLargerThanFrameBufferInitialSize);
friend class net::HttpNetworkLayer; // This is temporary for the server.
friend class net::HttpNetworkTransactionTest;
friend class net::HttpProxyClientSocketPoolTest;
friend class net::SpdyHttpStreamTest;
friend class net::SpdyNetworkTransactionTest;
friend class net::SpdyProxyClientSocketTest;
friend class net::SpdySessionTest;
friend class net::SpdyStreamTest;
friend class test::TestSpdyVisitor;
friend void test::FramerSetEnableCompressionHelper(SpdyFramer* framer,
bool compress);
// For ease of testing we can tweak compression on/off.
void set_enable_compression(bool value);
static void set_enable_compression_default(bool value);
// The initial size of the control frame buffer; this is used internally
// as we parse through control frames. (It is exposed here for unit test
// purposes.)
static size_t kControlFrameBufferInitialSize;
// The maximum size of the control frame buffer that we support.
// TODO(mbelshe): We should make this stream-based so there are no limits.
static size_t kControlFrameBufferMaxSize;
private:
typedef std::map<SpdyStreamId, z_stream*> CompressorMap;
// Internal breakout from ProcessInput. Returns the number of bytes
// consumed from the data.
size_t ProcessCommonHeader(const char* data, size_t len);
void ProcessControlFrameHeader();
size_t ProcessControlFramePayload(const char* data, size_t len);
size_t ProcessDataFramePayload(const char* data, size_t len);
// Get (and lazily initialize) the ZLib state.
z_stream* GetHeaderCompressor();
z_stream* GetHeaderDecompressor();
z_stream* GetStreamCompressor(SpdyStreamId id);
z_stream* GetStreamDecompressor(SpdyStreamId id);
// Compression helpers
SpdyControlFrame* CompressControlFrame(const SpdyControlFrame& frame);
SpdyDataFrame* CompressDataFrame(const SpdyDataFrame& frame);
SpdyControlFrame* DecompressControlFrame(const SpdyControlFrame& frame);
SpdyDataFrame* DecompressDataFrame(const SpdyDataFrame& frame);
SpdyFrame* CompressFrameWithZStream(const SpdyFrame& frame,
z_stream* compressor);
SpdyFrame* DecompressFrameWithZStream(const SpdyFrame& frame,
z_stream* decompressor);
void CleanupCompressorForStream(SpdyStreamId id);
void CleanupDecompressorForStream(SpdyStreamId id);
void CleanupStreamCompressorsAndDecompressors();
// Not used (yet)
size_t BytesSafeToRead() const;
// Set the error code and moves the framer into the error state.
void set_error(SpdyError error);
// Expands the control frame buffer to accomodate a particular payload size.
void ExpandControlFrameBuffer(size_t size);
// Given a frame, breakdown the variable payload length, the static header
// header length, and variable payload pointer.
bool GetFrameBoundaries(const SpdyFrame& frame, int* payload_length,
int* header_length, const char** payload) const;
int num_stream_compressors() const { return stream_compressors_.size(); }
int num_stream_decompressors() const { return stream_decompressors_.size(); }
SpdyState state_;
SpdyError error_code_;
size_t remaining_payload_;
size_t remaining_control_payload_;
char* current_frame_buffer_;
size_t current_frame_len_; // Number of bytes read into the current_frame_.
size_t current_frame_capacity_;
bool enable_compression_; // Controls all compression
// SPDY header compressors.
scoped_ptr<z_stream> header_compressor_;
scoped_ptr<z_stream> header_decompressor_;
// Per-stream data compressors.
CompressorMap stream_compressors_;
CompressorMap stream_decompressors_;
SpdyFramerVisitorInterface* visitor_;
static bool compression_default_;
static int spdy_version_;
};
} // namespace spdy
#endif // NET_SPDY_SPDY_FRAMER_H_