/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef mozilla_net_Http2Session_h #define mozilla_net_Http2Session_h // HTTP/2 - RFC 7540 // https://www.rfc-editor.org/rfc/rfc7540.txt #include "ASpdySession.h" #include "mozilla/Attributes.h" #include "mozilla/UniquePtr.h" #include "nsAHttpConnection.h" #include "nsClassHashtable.h" #include "nsDataHashtable.h" #include "nsDeque.h" #include "nsHashKeys.h" #include "Http2Compression.h" class nsISocketTransport; namespace mozilla { namespace net { class Http2PushedStream; class Http2Stream; class nsHttpTransaction; class Http2Session final : public ASpdySession , public nsAHttpConnection , public nsAHttpSegmentReader , public nsAHttpSegmentWriter { ~Http2Session(); public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSAHTTPTRANSACTION NS_DECL_NSAHTTPCONNECTION(mConnection) NS_DECL_NSAHTTPSEGMENTREADER NS_DECL_NSAHTTPSEGMENTWRITER Http2Session(nsISocketTransport *, uint32_t version, bool attemptingEarlyData); bool AddStream(nsAHttpTransaction *, int32_t, bool, nsIInterfaceRequestor *) override; bool CanReuse() override { return !mShouldGoAway && !mClosed; } bool RoomForMoreStreams() override; uint32_t SpdyVersion() override; // When the connection is active this is called up to once every 1 second // return the interval (in seconds) that the connection next wants to // have this invoked. It might happen sooner depending on the needs of // other connections. uint32_t ReadTimeoutTick(PRIntervalTime now) override; // Idle time represents time since "goodput".. e.g. a data or header frame PRIntervalTime IdleTime() override; // Registering with a newID of 0 means pick the next available odd ID uint32_t RegisterStreamID(Http2Stream *, uint32_t aNewID = 0); /* HTTP/2 framing 0 1 2 3 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Length (16) | Type (8) | Flags (8) | +-+-------------+---------------+-------------------------------+ |R| Stream Identifier (31) | +-+-------------------------------------------------------------+ | Frame Data (0...) ... +---------------------------------------------------------------+ */ enum FrameType { FRAME_TYPE_DATA = 0x0, FRAME_TYPE_HEADERS = 0x1, FRAME_TYPE_PRIORITY = 0x2, FRAME_TYPE_RST_STREAM = 0x3, FRAME_TYPE_SETTINGS = 0x4, FRAME_TYPE_PUSH_PROMISE = 0x5, FRAME_TYPE_PING = 0x6, FRAME_TYPE_GOAWAY = 0x7, FRAME_TYPE_WINDOW_UPDATE = 0x8, FRAME_TYPE_CONTINUATION = 0x9, FRAME_TYPE_ALTSVC = 0xA, FRAME_TYPE_LAST = 0xB }; // NO_ERROR is a macro defined on windows, so we'll name the HTTP2 goaway // code NO_ERROR to be NO_HTTP_ERROR enum errorType { NO_HTTP_ERROR = 0, PROTOCOL_ERROR = 1, INTERNAL_ERROR = 2, FLOW_CONTROL_ERROR = 3, SETTINGS_TIMEOUT_ERROR = 4, STREAM_CLOSED_ERROR = 5, FRAME_SIZE_ERROR = 6, REFUSED_STREAM_ERROR = 7, CANCEL_ERROR = 8, COMPRESSION_ERROR = 9, CONNECT_ERROR = 10, ENHANCE_YOUR_CALM = 11, INADEQUATE_SECURITY = 12, HTTP_1_1_REQUIRED = 13, UNASSIGNED = 31 }; // These are frame flags. If they, or other undefined flags, are // used on frames other than the comments indicate they MUST be ignored. const static uint8_t kFlag_END_STREAM = 0x01; // data, headers const static uint8_t kFlag_END_HEADERS = 0x04; // headers, continuation const static uint8_t kFlag_END_PUSH_PROMISE = 0x04; // push promise const static uint8_t kFlag_ACK = 0x01; // ping and settings const static uint8_t kFlag_PADDED = 0x08; // data, headers, push promise, continuation const static uint8_t kFlag_PRIORITY = 0x20; // headers enum { SETTINGS_TYPE_HEADER_TABLE_SIZE = 1, // compression table size SETTINGS_TYPE_ENABLE_PUSH = 2, // can be used to disable push SETTINGS_TYPE_MAX_CONCURRENT = 3, // streams recvr allowed to initiate SETTINGS_TYPE_INITIAL_WINDOW = 4, // bytes for flow control default SETTINGS_TYPE_MAX_FRAME_SIZE = 5 // max frame size settings sender allows receipt of }; // This should be big enough to hold all of your control packets, // but if it needs to grow for huge headers it can do so dynamically. const static uint32_t kDefaultBufferSize = 2048; // kDefaultQueueSize must be >= other queue size constants const static uint32_t kDefaultQueueSize = 32768; const static uint32_t kQueueMinimumCleanup = 24576; const static uint32_t kQueueTailRoom = 4096; const static uint32_t kQueueReserved = 1024; const static uint32_t kMaxStreamID = 0x7800000; // This is a sentinel for a deleted stream. It is not a valid // 31 bit stream ID. const static uint32_t kDeadStreamID = 0xffffdead; // below the emergency threshold of local window we ack every received // byte. Above that we coalesce bytes into the MinimumToAck size. const static int32_t kEmergencyWindowThreshold = 256 * 1024; const static uint32_t kMinimumToAck = 4 * 1024 * 1024; // The default rwin is 64KB - 1 unless updated by a settings frame const static uint32_t kDefaultRwin = 65535; // We limit frames to 2^14 bytes of length in order to preserve responsiveness // This is the smallest allowed value for SETTINGS_MAX_FRAME_SIZE const static uint32_t kMaxFrameData = 0x4000; const static uint8_t kFrameLengthBytes = 3; const static uint8_t kFrameStreamIDBytes = 4; const static uint8_t kFrameFlagBytes = 1; const static uint8_t kFrameTypeBytes = 1; const static uint8_t kFrameHeaderBytes = kFrameLengthBytes + kFrameFlagBytes + kFrameTypeBytes + kFrameStreamIDBytes; enum { kLeaderGroupID = 0x3, kOtherGroupID = 0x5, kBackgroundGroupID = 0x7, kSpeculativeGroupID = 0x9, kFollowerGroupID = 0xB }; static nsresult RecvHeaders(Http2Session *); static nsresult RecvPriority(Http2Session *); static nsresult RecvRstStream(Http2Session *); static nsresult RecvSettings(Http2Session *); static nsresult RecvPushPromise(Http2Session *); static nsresult RecvPing(Http2Session *); static nsresult RecvGoAway(Http2Session *); static nsresult RecvWindowUpdate(Http2Session *); static nsresult RecvContinuation(Http2Session *); static nsresult RecvAltSvc(Http2Session *); char *EnsureOutputBuffer(uint32_t needed); template void CreateFrameHeader(charType dest, uint16_t frameLength, uint8_t frameType, uint8_t frameFlags, uint32_t streamID); // For writing the data stream to LOG4 static void LogIO(Http2Session *, Http2Stream *, const char *, const char *, uint32_t); // overload of nsAHttpConnection void TransactionHasDataToWrite(nsAHttpTransaction *) override; void TransactionHasDataToRecv(nsAHttpTransaction *) override; // a similar version for Http2Stream void TransactionHasDataToWrite(Http2Stream *); // an overload of nsAHttpSegementReader virtual nsresult CommitToSegmentSize(uint32_t size, bool forceCommitment) override; nsresult BufferOutput(const char *, uint32_t, uint32_t *); void FlushOutputQueue(); uint32_t AmountOfOutputBuffered() { return mOutputQueueUsed - mOutputQueueSent; } uint32_t GetServerInitialStreamWindow() { return mServerInitialStreamWindow; } bool TryToActivate(Http2Stream *stream); void ConnectPushedStream(Http2Stream *stream); void ConnectSlowConsumer(Http2Stream *stream); nsresult ConfirmTLSProfile(); static bool ALPNCallback(nsISupports *securityInfo); uint64_t Serial() { return mSerial; } void PrintDiagnostics (nsCString &log) override; // Streams need access to these uint32_t SendingChunkSize() { return mSendingChunkSize; } uint32_t PushAllowance() { return mPushAllowance; } Http2Compressor *Compressor() { return &mCompressor; } nsISocketTransport *SocketTransport() { return mSocketTransport; } int64_t ServerSessionWindow() { return mServerSessionWindow; } void DecrementServerSessionWindow (uint32_t bytes) { mServerSessionWindow -= bytes; } uint32_t InitialRwin() { return mInitialRwin; } void SendPing() override; bool MaybeReTunnel(nsAHttpTransaction *) override; bool UseH2Deps() { return mUseH2Deps; } // overload of nsAHttpTransaction nsresult ReadSegmentsAgain(nsAHttpSegmentReader *, uint32_t, uint32_t *, bool *) override final; nsresult WriteSegmentsAgain(nsAHttpSegmentWriter *, uint32_t , uint32_t *, bool *) override final; bool Do0RTT() override final { return true; } nsresult Finish0RTT(bool aRestart, bool aAlpnChanged) override final; private: // These internal states do not correspond to the states of the HTTP/2 specification enum internalStateType { BUFFERING_OPENING_SETTINGS, BUFFERING_FRAME_HEADER, BUFFERING_CONTROL_FRAME, PROCESSING_DATA_FRAME_PADDING_CONTROL, PROCESSING_DATA_FRAME, DISCARDING_DATA_FRAME_PADDING, DISCARDING_DATA_FRAME, PROCESSING_COMPLETE_HEADERS, PROCESSING_CONTROL_RST_STREAM, NOT_USING_NETWORK }; static const uint8_t kMagicHello[24]; nsresult ResponseHeadersComplete(); uint32_t GetWriteQueueSize(); void ChangeDownstreamState(enum internalStateType); void ResetDownstreamState(); nsresult ReadyToProcessDataFrame(enum internalStateType); nsresult UncompressAndDiscard(bool); void GeneratePing(bool); void GenerateSettingsAck(); void GeneratePriority(uint32_t, uint8_t); void GenerateRstStream(uint32_t, uint32_t); void GenerateGoAway(uint32_t); void CleanupStream(Http2Stream *, nsresult, errorType); void CleanupStream(uint32_t, nsresult, errorType); void CloseStream(Http2Stream *, nsresult, bool aRemoveFromQueue = true); void SendHello(); void RemoveStreamFromQueues(Http2Stream *); nsresult ParsePadding(uint8_t &, uint16_t &); void SetWriteCallbacks(); void RealignOutputQueue(); void ProcessPending(); nsresult ProcessConnectedPush(Http2Stream *, nsAHttpSegmentWriter *, uint32_t, uint32_t *); nsresult ProcessSlowConsumer(Http2Stream *, nsAHttpSegmentWriter *, uint32_t, uint32_t *); nsresult SetInputFrameDataStream(uint32_t); void CreatePriorityNode(uint32_t, uint32_t, uint8_t, const char *); bool VerifyStream(Http2Stream *, uint32_t); void SetNeedsCleanup(); void UpdateLocalRwin(Http2Stream *stream, uint32_t bytes); void UpdateLocalStreamWindow(Http2Stream *stream, uint32_t bytes); void UpdateLocalSessionWindow(uint32_t bytes); void MaybeDecrementConcurrent(Http2Stream *stream); bool RoomForMoreConcurrent(); void IncrementConcurrent(Http2Stream *stream); void QueueStream(Http2Stream *stream); // a wrapper for all calls to the nshttpconnection level segment writer. Used // to track network I/O for timeout purposes nsresult NetworkRead(nsAHttpSegmentWriter *, char *, uint32_t, uint32_t *); void Shutdown(); // This is intended to be nsHttpConnectionMgr:nsConnectionHandle taken // from the first transaction on this session. That object contains the // pointer to the real network-level nsHttpConnection object. RefPtr mConnection; // The underlying socket transport object is needed to propogate some events nsISocketTransport *mSocketTransport; // These are temporary state variables to hold the argument to // Read/WriteSegments so it can be accessed by On(read/write)segment // further up the stack. nsAHttpSegmentReader *mSegmentReader; nsAHttpSegmentWriter *mSegmentWriter; uint32_t mSendingChunkSize; /* the transmission chunk size */ uint32_t mNextStreamID; /* 24 bits */ uint32_t mLastPushedID; uint32_t mConcurrentHighWater; /* max parallelism on session */ uint32_t mPushAllowance; /* rwin for unmatched pushes */ internalStateType mDownstreamState; /* in frame, between frames, etc.. */ // Maintain 2 indexes - one by stream ID, one by transaction pointer. // There are also several lists of streams: ready to write, queued due to // max parallelism, streams that need to force a read for push, and the full // set of pushed streams. // The objects are not ref counted - they get destroyed // by the nsClassHashtable implementation when they are removed from // the transaction hash. nsDataHashtable mStreamIDHash; nsClassHashtable, Http2Stream> mStreamTransactionHash; nsDeque mReadyForWrite; nsDeque mQueuedStreams; nsDeque mPushesReadyForRead; nsDeque mSlowConsumersReadyForRead; nsTArray mPushedStreams; // Compression contexts for header transport. // HTTP/2 compresses only HTTP headers and does not reset the context in between // frames. Even data that is not associated with a stream (e.g invalid // stream ID) is passed through these contexts to keep the compression // context correct. Http2Compressor mCompressor; Http2Decompressor mDecompressor; nsCString mDecompressBuffer; // mInputFrameBuffer is used to store received control packets and the 8 bytes // of header on data packets uint32_t mInputFrameBufferSize; // buffer allocation uint32_t mInputFrameBufferUsed; // amt of allocation used UniquePtr mInputFrameBuffer; // mInputFrameDataSize/Read are used for tracking the amount of data consumed // in a frame after the 8 byte header. Control frames are always fully buffered // and the fixed 8 byte leading header is at mInputFrameBuffer + 0, the first // data byte (i.e. the first settings/goaway/etc.. specific byte) is at // mInputFrameBuffer + 8 // The frame size is mInputFrameDataSize + the constant 8 byte header uint32_t mInputFrameDataSize; uint32_t mInputFrameDataRead; bool mInputFrameFinal; // This frame was marked FIN uint8_t mInputFrameType; uint8_t mInputFrameFlags; uint32_t mInputFrameID; uint16_t mPaddingLength; // When a frame has been received that is addressed to a particular stream // (e.g. a data frame after the stream-id has been decoded), this points // to the stream. Http2Stream *mInputFrameDataStream; // mNeedsCleanup is a state variable to defer cleanup of a closed stream // If needed, It is set in session::OnWriteSegments() and acted on and // cleared when the stack returns to session::WriteSegments(). The stream // cannot be destroyed directly out of OnWriteSegments because // stream::writeSegments() is on the stack at that time. Http2Stream *mNeedsCleanup; // This reason code in the last processed RESET frame uint32_t mDownstreamRstReason; // When HEADERS/PROMISE are chained together, this is the expected ID of the next // recvd frame which must be the same type uint32_t mExpectedHeaderID; uint32_t mExpectedPushPromiseID; uint32_t mContinuedPromiseStream; // for the conversion of downstream http headers into http/2 formatted headers // The data here does not persist between frames nsCString mFlatHTTPResponseHeaders; uint32_t mFlatHTTPResponseHeadersOut; // when set, the session will go away when it reaches 0 streams. This flag // is set when: the stream IDs are running out (at either the client or the // server), when DontReuse() is called, a RST that is not specific to a // particular stream is received, a GOAWAY frame has been received from // the server. bool mShouldGoAway; // the session has received a nsAHttpTransaction::Close() call bool mClosed; // the session received a GoAway frame with a valid GoAwayID bool mCleanShutdown; // The TLS comlpiance checks are not done in the ctor beacuse of bad // exception handling - so we do them at IO time and cache the result bool mTLSProfileConfirmed; // A specifc reason code for the eventual GoAway frame. If set to NO_HTTP_ERROR // only NO_HTTP_ERROR, PROTOCOL_ERROR, or INTERNAL_ERROR will be sent. errorType mGoAwayReason; // The error code sent/received on the session goaway frame. UNASSIGNED/31 // if not transmitted. int32_t mClientGoAwayReason; int32_t mPeerGoAwayReason; // If a GoAway message was received this is the ID of the last valid // stream. 0 otherwise. (0 is never a valid stream id.) uint32_t mGoAwayID; // The last stream processed ID we will send in our GoAway frame. uint32_t mOutgoingGoAwayID; // The limit on number of concurrent streams for this session. Normally it // is basically unlimited, but the SETTINGS control message from the // server might bring it down. uint32_t mMaxConcurrent; // The actual number of concurrent streams at this moment. Generally below // mMaxConcurrent, but the max can be lowered in real time to a value // below the current value uint32_t mConcurrent; // The server rwin for new streams as determined from a SETTINGS frame uint32_t mServerInitialStreamWindow; // The Local Session window is how much data the server is allowed to send // (across all streams) without getting a window update to stream 0. It is // signed because asynchronous changes via SETTINGS can drive it negative. int64_t mLocalSessionWindow; // The Remote Session Window is how much data the client is allowed to send // (across all streams) without receiving a window update to stream 0. It is // signed because asynchronous changes via SETTINGS can drive it negative. int64_t mServerSessionWindow; // The initial value of the local stream and session window uint32_t mInitialRwin; // This is a output queue of bytes ready to be written to the SSL stream. // When that streams returns WOULD_BLOCK on direct write the bytes get // coalesced together here. This results in larger writes to the SSL layer. // The buffer is not dynamically grown to accomodate stream writes, but // does expand to accept infallible session wide frames like GoAway and RST. uint32_t mOutputQueueSize; uint32_t mOutputQueueUsed; uint32_t mOutputQueueSent; UniquePtr mOutputQueueBuffer; PRIntervalTime mPingThreshold; PRIntervalTime mLastReadEpoch; // used for ping timeouts PRIntervalTime mLastDataReadEpoch; // used for IdleTime() PRIntervalTime mPingSentEpoch; PRIntervalTime mPreviousPingThreshold; // backup for the former value bool mPreviousUsed; // true when backup is used // used as a temporary buffer while enumerating the stream hash during GoAway nsDeque mGoAwayStreamsToRestart; // Each session gets a unique serial number because the push cache is correlated // by the load group and the serial number can be used as part of the cache key // to make sure streams aren't shared across sessions. uint64_t mSerial; // If push is disabled, we want to be able to send PROTOCOL_ERRORs if we // receive a PUSH_PROMISE, but we have to wait for the SETTINGS ACK before // we can actually tell the other end to go away. These help us keep track // of that state so we can behave appropriately. bool mWaitingForSettingsAck; bool mGoAwayOnPush; bool mUseH2Deps; bool mAttemptingEarlyData; // The ID(s) of the stream(s) that we are getting 0RTT data from. nsTArray m0RTTStreams; private: /// connect tunnels void DispatchOnTunnel(nsAHttpTransaction *, nsIInterfaceRequestor *); void CreateTunnel(nsHttpTransaction *, nsHttpConnectionInfo *, nsIInterfaceRequestor *); void RegisterTunnel(Http2Stream *); void UnRegisterTunnel(Http2Stream *); uint32_t FindTunnelCount(nsHttpConnectionInfo *); nsDataHashtable mTunnelHash; }; } // namespace net } // namespace mozilla #endif // mozilla_net_Http2Session_h