package nomad import ( "errors" "fmt" "net" "time" "github.com/hashicorp/go-msgpack/codec" multierror "github.com/hashicorp/go-multierror" msgpackrpc "github.com/hashicorp/net-rpc-msgpackrpc" "github.com/hashicorp/nomad/helper/pool" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/yamux" ) // nodeConnState is used to track connection information about a Nomad Client. type nodeConnState struct { // Session holds the multiplexed yamux Session for dialing back. Session *yamux.Session // Established is when the connection was established. Established time.Time // Ctx is the full RPC context Ctx *RPCContext } // getNodeConn returns the connection to the given node and whether it exists. func (s *Server) getNodeConn(nodeID string) (*nodeConnState, bool) { s.nodeConnsLock.RLock() defer s.nodeConnsLock.RUnlock() conns, ok := s.nodeConns[nodeID] if !ok { return nil, false } // Return the latest conn var state *nodeConnState for _, conn := range conns { if state == nil || state.Established.Before(conn.Established) { state = conn } } // Shouldn't happen but rather be safe if state == nil { s.logger.Named("client_rpc").Warn("node exists in node connection map without any connection", "node_id", nodeID) return nil, false } return state, ok } // connectedNodes returns the set of nodes we have a connection with. func (s *Server) connectedNodes() map[string]time.Time { s.nodeConnsLock.RLock() defer s.nodeConnsLock.RUnlock() nodes := make(map[string]time.Time, len(s.nodeConns)) for nodeID, conns := range s.nodeConns { for _, conn := range conns { if nodes[nodeID].Before(conn.Established) { nodes[nodeID] = conn.Established } } } return nodes } // addNodeConn adds the mapping between a node and its session. func (s *Server) addNodeConn(ctx *RPCContext) { // Hotpath the no-op if ctx == nil || ctx.NodeID == "" { return } s.nodeConnsLock.Lock() defer s.nodeConnsLock.Unlock() // Capture the tracked connections so far currentConns := s.nodeConns[ctx.NodeID] // Check if we already have the connection. If we do, just update the // establish time. for _, c := range currentConns { if c.Ctx.Conn.LocalAddr().String() == ctx.Conn.LocalAddr().String() && c.Ctx.Conn.RemoteAddr().String() == ctx.Conn.RemoteAddr().String() { c.Established = time.Now() return } } // Add the new conn s.nodeConns[ctx.NodeID] = append(s.nodeConns[ctx.NodeID], &nodeConnState{ Session: ctx.Session, Established: time.Now(), Ctx: ctx, }) } // removeNodeConn removes the mapping between a node and its session. func (s *Server) removeNodeConn(ctx *RPCContext) { // Hotpath the no-op if ctx == nil || ctx.NodeID == "" { return } s.nodeConnsLock.Lock() defer s.nodeConnsLock.Unlock() conns, ok := s.nodeConns[ctx.NodeID] if !ok { return } // It is important that we check that the connection being removed is the // actual stored connection for the client. It is possible for the client to // dial various addresses that all route to the same server. The most common // case for this is the original address the client uses to connect to the // server differs from the advertised address sent by the heartbeat. for i, conn := range conns { if conn.Ctx.Conn.LocalAddr().String() == ctx.Conn.LocalAddr().String() && conn.Ctx.Conn.RemoteAddr().String() == ctx.Conn.RemoteAddr().String() { if len(conns) == 1 { // We are deleting the last conn, remove it from the map delete(s.nodeConns, ctx.NodeID) } else { // Slice out the connection we are deleting s.nodeConns[ctx.NodeID] = append(s.nodeConns[ctx.NodeID][:i], s.nodeConns[ctx.NodeID][i+1:]...) } return } } } // serverWithNodeConn is used to determine which remote server has the most // recent connection to the given node. The local server is not queried. // ErrNoNodeConn is returned if all local peers could be queried but did not // have a connection to the node. Otherwise if a connection could not be found // and there were RPC errors, an error is returned. func (s *Server) serverWithNodeConn(nodeID, region string) (*serverParts, error) { // We skip ourselves. selfAddr := s.LocalMember().Addr.String() // Build the request req := &structs.NodeSpecificRequest{ NodeID: nodeID, QueryOptions: structs.QueryOptions{ Region: s.config.Region, }, } // Select the list of servers to check based on what region we are querying s.peerLock.RLock() var rawTargets []*serverParts if region == s.Region() { rawTargets = make([]*serverParts, 0, len(s.localPeers)) for _, srv := range s.localPeers { rawTargets = append(rawTargets, srv) } } else { peers, ok := s.peers[region] if !ok { s.peerLock.RUnlock() return nil, structs.ErrNoRegionPath } rawTargets = peers } targets := make([]*serverParts, 0, len(rawTargets)) for _, target := range rawTargets { targets = append(targets, target.Copy()) } s.peerLock.RUnlock() // connections is used to store the servers that have connections to the // requested node. var mostRecentServer *serverParts var mostRecent time.Time var rpcErr multierror.Error for _, server := range targets { if server.Addr.String() == selfAddr { continue } // Make the RPC var resp structs.NodeConnQueryResponse err := s.connPool.RPC(s.config.Region, server.Addr, "Status.HasNodeConn", &req, &resp) if err != nil { multierror.Append(&rpcErr, fmt.Errorf("failed querying server %q: %v", server.Addr.String(), err)) continue } if resp.Connected && resp.Established.After(mostRecent) { mostRecentServer = server mostRecent = resp.Established } } // Return an error if there is no route to the node. if mostRecentServer == nil { if err := rpcErr.ErrorOrNil(); err != nil { return nil, err } return nil, structs.ErrNoNodeConn } return mostRecentServer, nil } // NodeRpc is used to make an RPC call to a node. The method takes the // Yamux session for the node and the method to be called. func NodeRpc(session *yamux.Session, method string, args, reply interface{}) error { // Open a new session stream, err := session.Open() if err != nil { return fmt.Errorf("session open: %v", err) } defer stream.Close() // Write the RpcNomad byte to set the mode if _, err := stream.Write([]byte{byte(pool.RpcNomad)}); err != nil { stream.Close() return fmt.Errorf("set mode: %v", err) } // Make the RPC err = msgpackrpc.CallWithCodec(pool.NewClientCodec(stream), method, args, reply) if err != nil { return err } return nil } // NodeStreamingRpc is used to make a streaming RPC call to a node. The method // takes the Yamux session for the node and the method to be called. It conducts // the initial handshake and returns a connection to be used or an error. It is // the callers responsibility to close the connection if there is no error. func NodeStreamingRpc(session *yamux.Session, method string) (net.Conn, error) { // Open a new session stream, err := session.Open() if err != nil { return nil, err } // Write the RpcNomad byte to set the mode if _, err := stream.Write([]byte{byte(pool.RpcStreaming)}); err != nil { stream.Close() return nil, err } // Send the header encoder := codec.NewEncoder(stream, structs.MsgpackHandle) decoder := codec.NewDecoder(stream, structs.MsgpackHandle) header := structs.StreamingRpcHeader{ Method: method, } if err := encoder.Encode(header); err != nil { stream.Close() return nil, err } // Wait for the acknowledgement var ack structs.StreamingRpcAck if err := decoder.Decode(&ack); err != nil { stream.Close() return nil, err } if ack.Error != "" { stream.Close() return nil, errors.New(ack.Error) } return stream, nil } // findNodeConnAndForward is a helper for finding the server with a connection // to the given node and forwarding the RPC to the correct server. This does not // work for streaming RPCs. func findNodeConnAndForward(srv *Server, nodeID, method string, args, reply interface{}) error { // Determine the Server that has a connection to the node. srvWithConn, err := srv.serverWithNodeConn(nodeID, srv.Region()) if err != nil { return err } if srvWithConn == nil { return structs.ErrNoNodeConn } return srv.forwardServer(srvWithConn, method, args, reply) }