package h2mux import ( "sync" "golang.org/x/net/http2" ) // activeStreamMap is used to moderate access to active streams between the read and write // threads, and deny access to new peer streams while shutting down. type activeStreamMap struct { sync.RWMutex // streams tracks open streams. streams map[uint32]*MuxedStream // streamsEmpty is a chan that should be closed when no more streams are open. streamsEmpty chan struct{} // nextStreamID is the next ID to use on our side of the connection. // This is odd for clients, even for servers. nextStreamID uint32 // maxPeerStreamID is the ID of the most recent stream opened by the peer. maxPeerStreamID uint32 // ignoreNewStreams is true when the connection is being shut down. New streams // cannot be registered. ignoreNewStreams bool } func newActiveStreamMap(useClientStreamNumbers bool) *activeStreamMap { m := &activeStreamMap{ streams: make(map[uint32]*MuxedStream), streamsEmpty: make(chan struct{}), nextStreamID: 1, } // Client initiated stream uses odd stream ID, server initiated stream uses even stream ID if !useClientStreamNumbers { m.nextStreamID = 2 } return m } // Len returns the number of active streams. func (m *activeStreamMap) Len() int { m.RLock() defer m.RUnlock() return len(m.streams) } func (m *activeStreamMap) Get(streamID uint32) (*MuxedStream, bool) { m.RLock() defer m.RUnlock() stream, ok := m.streams[streamID] return stream, ok } // Set returns true if the stream was assigned successfully. If a stream // already existed with that ID or we are shutting down, return false. func (m *activeStreamMap) Set(newStream *MuxedStream) bool { m.Lock() defer m.Unlock() if _, ok := m.streams[newStream.streamID]; ok { return false } if m.ignoreNewStreams { return false } m.streams[newStream.streamID] = newStream return true } // Delete stops tracking the stream. It should be called only after it is closed and resetted. func (m *activeStreamMap) Delete(streamID uint32) { m.Lock() defer m.Unlock() delete(m.streams, streamID) if len(m.streams) == 0 && m.streamsEmpty != nil { close(m.streamsEmpty) m.streamsEmpty = nil } } // Shutdown blocks new streams from being created. It returns a channel that receives an event // once the last stream has closed, or nil if a shutdown is in progress. func (m *activeStreamMap) Shutdown() <-chan struct{} { m.Lock() defer m.Unlock() if m.ignoreNewStreams { // already shutting down return nil } m.ignoreNewStreams = true done := make(chan struct{}) if len(m.streams) == 0 { // nothing to shut down close(done) return done } m.streamsEmpty = done return done } // AcquireLocalID acquires a new stream ID for a stream you're opening. func (m *activeStreamMap) AcquireLocalID() uint32 { m.Lock() defer m.Unlock() x := m.nextStreamID m.nextStreamID += 2 return x } // ObservePeerID observes the ID of a stream opened by the peer. It returns true if we should accept // the new stream, or false to reject it. The ErrCode gives the reason why. func (m *activeStreamMap) AcquirePeerID(streamID uint32) (bool, http2.ErrCode) { m.Lock() defer m.Unlock() switch { case m.ignoreNewStreams: return false, http2.ErrCodeStreamClosed case streamID > m.maxPeerStreamID: m.maxPeerStreamID = streamID return true, http2.ErrCodeNo default: return false, http2.ErrCodeStreamClosed } } // IsPeerStreamID is true if the stream ID belongs to the peer. func (m *activeStreamMap) IsPeerStreamID(streamID uint32) bool { m.RLock() defer m.RUnlock() return (streamID % 2) != (m.nextStreamID % 2) } // IsLocalStreamID is true if it is a stream we have opened, even if it is now closed. func (m *activeStreamMap) IsLocalStreamID(streamID uint32) bool { m.RLock() defer m.RUnlock() return (streamID%2) == (m.nextStreamID%2) && streamID < m.nextStreamID } // LastPeerStreamID returns the most recently opened peer stream ID. func (m *activeStreamMap) LastPeerStreamID() uint32 { m.RLock() defer m.RUnlock() return m.maxPeerStreamID } // LastLocalStreamID returns the most recently opened local stream ID. func (m *activeStreamMap) LastLocalStreamID() uint32 { m.RLock() defer m.RUnlock() if m.nextStreamID > 1 { return m.nextStreamID - 2 } return 0 } // Abort closes every active stream and prevents new ones being created. This should be used to // return errors in pending read/writes when the underlying connection goes away. func (m *activeStreamMap) Abort() { m.Lock() defer m.Unlock() for _, stream := range m.streams { stream.Close() } m.ignoreNewStreams = true }