package client import ( "context" "fmt" "io" "net" "sync" "time" log "github.com/sirupsen/logrus" auth "github.com/netbirdio/netbird/relay/auth/hmac" "github.com/netbirdio/netbird/relay/client/dialer/ws" "github.com/netbirdio/netbird/relay/healthcheck" "github.com/netbirdio/netbird/relay/messages" ) const ( bufferSize = 8820 serverResponseTimeout = 8 * time.Second ) var ( ErrConnAlreadyExists = fmt.Errorf("connection already exists") ) type internalStopFlag struct { sync.Mutex stop bool } func newInternalStopFlag() *internalStopFlag { return &internalStopFlag{} } func (isf *internalStopFlag) set() { isf.Lock() defer isf.Unlock() isf.stop = true } func (isf *internalStopFlag) isSet() bool { isf.Lock() defer isf.Unlock() return isf.stop } // Msg carry the payload from the server to the client. With this sturct, the net.Conn can free the buffer. type Msg struct { Payload []byte bufPool *sync.Pool bufPtr *[]byte } func (m *Msg) Free() { m.bufPool.Put(m.bufPtr) } type connContainer struct { conn *Conn messages chan Msg msgChanLock sync.Mutex closed bool // flag to check if channel is closed } func newConnContainer(conn *Conn, messages chan Msg) *connContainer { return &connContainer{ conn: conn, messages: messages, } } func (cc *connContainer) writeMsg(msg Msg) { cc.msgChanLock.Lock() defer cc.msgChanLock.Unlock() if cc.closed { return } cc.messages <- msg } func (cc *connContainer) close() { cc.msgChanLock.Lock() defer cc.msgChanLock.Unlock() if cc.closed { return } close(cc.messages) cc.closed = true } // Client is a client for the relay server. It is responsible for establishing a connection to the relay server and // managing connections to other peers. All exported functions are safe to call concurrently. After close the connection, // the client can be reused by calling Connect again. When the client is closed, all connections are closed too. // While the Connect is in progress, the OpenConn function will block until the connection is established. type Client struct { log *log.Entry parentCtx context.Context connectionURL string authTokenStore *auth.TokenStore hashedID []byte bufPool *sync.Pool relayConn net.Conn conns map[string]*connContainer serviceIsRunning bool mu sync.Mutex // protect serviceIsRunning and conns readLoopMutex sync.Mutex wgReadLoop sync.WaitGroup instanceURL string onDisconnectListener func() listenerMutex sync.Mutex } // NewClient creates a new client for the relay server. The client is not connected to the server until the Connect func NewClient(ctx context.Context, serverURL string, authTokenStore *auth.TokenStore, peerID string) *Client { hashedID, hashedStringId := messages.HashID(peerID) return &Client{ log: log.WithField("client_id", hashedStringId), parentCtx: ctx, connectionURL: serverURL, authTokenStore: authTokenStore, hashedID: hashedID, bufPool: &sync.Pool{ New: func() any { buf := make([]byte, bufferSize) return &buf }, }, conns: make(map[string]*connContainer), } } // Connect establishes a connection to the relay server. It blocks until the connection is established or an error occurs. func (c *Client) Connect() error { c.log.Infof("connecting to relay server: %s", c.connectionURL) c.readLoopMutex.Lock() defer c.readLoopMutex.Unlock() c.mu.Lock() defer c.mu.Unlock() if c.serviceIsRunning { return nil } err := c.connect() if err != nil { return err } c.serviceIsRunning = true c.wgReadLoop.Add(1) go c.readLoop(c.relayConn) log.Infof("relay connection established with: %s", c.connectionURL) return nil } // OpenConn create a new net.Conn for the destination peer ID. In case if the connection is in progress // to the relay server, the function will block until the connection is established or timed out. Otherwise, // it will return immediately. // todo: what should happen if call with the same peerID with multiple times? func (c *Client) OpenConn(dstPeerID string) (net.Conn, error) { c.mu.Lock() defer c.mu.Unlock() if !c.serviceIsRunning { return nil, fmt.Errorf("relay connection is not established") } hashedID, hashedStringID := messages.HashID(dstPeerID) _, ok := c.conns[hashedStringID] if ok { return nil, ErrConnAlreadyExists } log.Infof("open connection to peer: %s", hashedStringID) msgChannel := make(chan Msg, 2) conn := NewConn(c, hashedID, hashedStringID, msgChannel) c.conns[hashedStringID] = newConnContainer(conn, msgChannel) return conn, nil } // ServerInstanceURL returns the address of the relay server. It could change after the close and reopen the connection. func (c *Client) ServerInstanceURL() (string, error) { c.mu.Lock() defer c.mu.Unlock() if c.instanceURL == "" { return "", fmt.Errorf("relay connection is not established") } return c.instanceURL, nil } // SetOnDisconnectListener sets a function that will be called when the connection to the relay server is closed. func (c *Client) SetOnDisconnectListener(fn func()) { c.listenerMutex.Lock() defer c.listenerMutex.Unlock() c.onDisconnectListener = fn } func (c *Client) HasConns() bool { c.mu.Lock() defer c.mu.Unlock() return len(c.conns) > 0 } // Close closes the connection to the relay server and all connections to other peers. func (c *Client) Close() error { return c.close(true) } func (c *Client) connect() error { conn, err := ws.Dial(c.connectionURL) if err != nil { return err } c.relayConn = conn err = c.handShake() if err != nil { cErr := conn.Close() if cErr != nil { log.Errorf("failed to close connection: %s", cErr) } c.relayConn = nil return err } return nil } func (c *Client) handShake() error { t, err := c.authTokenStore.Token() if err != nil { return err } msg, err := messages.MarshalHelloMsg(c.hashedID, t) if err != nil { log.Errorf("failed to marshal hello message: %s", err) return err } _, err = c.relayConn.Write(msg) if err != nil { log.Errorf("failed to send hello message: %s", err) return err } buf := make([]byte, messages.MaxHandshakeSize) n, err := c.readWithTimeout(buf) if err != nil { log.Errorf("failed to read hello response: %s", err) return err } msgType, err := messages.DetermineServerMsgType(buf[:n]) if err != nil { log.Errorf("failed to determine message type: %s", err) return err } if msgType != messages.MsgTypeHelloResponse { log.Errorf("unexpected message type: %s", msgType) return fmt.Errorf("unexpected message type") } ia, err := messages.UnmarshalHelloResponse(buf[:n]) if err != nil { return err } c.instanceURL = ia return nil } func (c *Client) readLoop(relayConn net.Conn) { internallyStoppedFlag := newInternalStopFlag() hc := healthcheck.NewReceiver() go c.listenForStopEvents(hc, relayConn, internallyStoppedFlag) var ( errExit error n int ) for { bufPtr := c.bufPool.Get().(*[]byte) buf := *bufPtr n, errExit = relayConn.Read(buf) if errExit != nil { c.mu.Lock() if c.serviceIsRunning && !internallyStoppedFlag.isSet() { c.log.Debugf("failed to read message from relay server: %s", errExit) } c.mu.Unlock() goto Exit } msgType, err := messages.DetermineServerMsgType(buf[:n]) if err != nil { c.log.Errorf("failed to determine message type: %s", err) continue } switch msgType { case messages.MsgTypeHealthCheck: msg := messages.MarshalHealthcheck() _, wErr := c.relayConn.Write(msg) if wErr != nil { if c.serviceIsRunning && !internallyStoppedFlag.isSet() { c.log.Errorf("failed to send heartbeat: %s", wErr) } } hc.Heartbeat() case messages.MsgTypeTransport: peerID, payload, err := messages.UnmarshalTransportMsg(buf[:n]) if err != nil { if c.serviceIsRunning && !internallyStoppedFlag.isSet() { c.log.Errorf("failed to parse transport message: %v", err) } continue } stringID := messages.HashIDToString(peerID) c.mu.Lock() if !c.serviceIsRunning { c.mu.Unlock() goto Exit } container, ok := c.conns[stringID] c.mu.Unlock() if !ok { c.log.Errorf("peer not found: %s", stringID) continue } container.writeMsg(Msg{ bufPool: c.bufPool, bufPtr: bufPtr, Payload: payload}) case messages.MsgTypeClose: log.Debugf("relay connection close by server") goto Exit } } Exit: hc.Stop() c.notifyDisconnected() c.wgReadLoop.Done() _ = c.close(false) } // todo check by reference too, the id is not enought because the id come from the outer conn func (c *Client) writeTo(id string, dstID []byte, payload []byte) (int, error) { c.mu.Lock() // conn, ok := c.conns[id] _, ok := c.conns[id] c.mu.Unlock() if !ok { return 0, io.EOF } /* if conn != clientRef { return 0, io.EOF } */ // todo: use buffer pool instead of create new transport msg. msg, err := messages.MarshalTransportMsg(dstID, payload) if err != nil { log.Errorf("failed to marshal transport message: %s", err) return 0, err } n, err := c.relayConn.Write(msg) if err != nil { log.Errorf("failed to write transport message: %s", err) } return n, err } func (c *Client) listenForStopEvents(hc *healthcheck.Receiver, conn net.Conn, internalStopFlag *internalStopFlag) { for { select { case _, ok := <-hc.OnTimeout: if !ok { return } c.log.Errorf("health check timeout") internalStopFlag.set() _ = conn.Close() // ignore the err because the readLoop will handle it return case <-c.parentCtx.Done(): err := c.close(true) if err != nil { log.Errorf("failed to teardown connection: %s", err) } return } } } func (c *Client) closeAllConns() { for _, container := range c.conns { container.close() } c.conns = make(map[string]*connContainer) } // todo check by reference too, the id is not enought because the id come from the outer conn func (c *Client) closeConn(id string) error { c.mu.Lock() defer c.mu.Unlock() container, ok := c.conns[id] if !ok { return fmt.Errorf("connection already closed") } container.close() delete(c.conns, id) return nil } func (c *Client) close(gracefullyExit bool) error { c.readLoopMutex.Lock() defer c.readLoopMutex.Unlock() c.mu.Lock() var err error if !c.serviceIsRunning { c.mu.Unlock() return nil } c.serviceIsRunning = false c.closeAllConns() if gracefullyExit { c.writeCloseMsg() err = c.relayConn.Close() } c.mu.Unlock() c.wgReadLoop.Wait() c.log.Infof("relay connection closed with: %s", c.connectionURL) return err } func (c *Client) notifyDisconnected() { c.listenerMutex.Lock() defer c.listenerMutex.Unlock() if c.onDisconnectListener == nil { return } go c.onDisconnectListener() } func (c *Client) writeCloseMsg() { msg := messages.MarshalCloseMsg() _, err := c.relayConn.Write(msg) if err != nil { c.log.Errorf("failed to send close message: %s", err) } } func (c *Client) readWithTimeout(buf []byte) (int, error) { ctx, cancel := context.WithTimeout(c.parentCtx, serverResponseTimeout) defer cancel() readDone := make(chan struct{}) var ( n int err error ) go func() { n, err = c.relayConn.Read(buf) close(readDone) }() select { case <-ctx.Done(): return 0, fmt.Errorf("read operation timed out") case <-readDone: return n, err } }