// Package handler implements network RPC handler package handler import ( "context" "github.com/micro/go-micro/errors" "github.com/micro/go-micro/network" pbNet "github.com/micro/go-micro/network/proto" "github.com/micro/go-micro/router" pbRtr "github.com/micro/go-micro/router/proto" "github.com/micro/go-micro/util/log" ) // Network implements network handler type Network struct { Network network.Network } func flatten(n network.Node, visited map[string]bool) []network.Node { // if node is nil runaway if n == nil { return nil } // set visisted if visited == nil { visited = make(map[string]bool) } // create new list of nodes var nodes []network.Node // check if already visited if visited[n.Id()] == false { // append the current node nodes = append(nodes, n) } // set to visited visited[n.Id()] = true // visit the list of peers for _, node := range n.Peers() { nodes = append(nodes, flatten(node, visited)...) } return nodes } func (n *Network) Connect(ctx context.Context, req *pbNet.ConnectRequest, resp *pbNet.ConnectResponse) error { if len(req.Nodes) == 0 { return nil } // get list of existing nodes nodes := n.Network.Options().Peers // generate a node map nodeMap := make(map[string]bool) for _, node := range nodes { nodeMap[node] = true } for _, node := range req.Nodes { // TODO: we may have been provided a network only // so process anad resolve node.Network if len(node.Address) == 0 { continue } // already exists if _, ok := nodeMap[node.Address]; ok { continue } nodeMap[node.Address] = true nodes = append(nodes, node.Address) } log.Infof("Network.Connect setting peers: %v", nodes) // reinitialise the peers n.Network.Init( network.Peers(nodes...), ) // call the connect method n.Network.Connect() return nil } // Nodes returns the list of nodes func (n *Network) Nodes(ctx context.Context, req *pbNet.NodesRequest, resp *pbNet.NodesResponse) error { // root node nodes := map[string]network.Node{} // get peers encoded into protobuf peers := flatten(n.Network, nil) // walk all the peers for _, peer := range peers { if peer == nil { continue } if _, ok := nodes[peer.Id()]; ok { continue } // add to visited list nodes[n.Network.Id()] = peer resp.Nodes = append(resp.Nodes, &pbNet.Node{ Id: peer.Id(), Address: peer.Address(), }) } return nil } // Graph returns the network graph from this root node func (n *Network) Graph(ctx context.Context, req *pbNet.GraphRequest, resp *pbNet.GraphResponse) error { depth := uint(req.Depth) if depth <= 0 || depth > network.MaxDepth { depth = network.MaxDepth } // get peers encoded into protobuf peers := network.PeersToProto(n.Network, depth) // set the root node resp.Root = peers return nil } // Routes returns a list of routing table routes func (n *Network) Routes(ctx context.Context, req *pbNet.RoutesRequest, resp *pbNet.RoutesResponse) error { // build query var qOpts []router.QueryOption if q := req.Query; q != nil { if len(q.Service) > 0 { qOpts = append(qOpts, router.QueryService(q.Service)) } if len(q.Address) > 0 { qOpts = append(qOpts, router.QueryAddress(q.Address)) } if len(q.Gateway) > 0 { qOpts = append(qOpts, router.QueryGateway(q.Gateway)) } if len(q.Router) > 0 { qOpts = append(qOpts, router.QueryRouter(q.Router)) } if len(q.Network) > 0 { qOpts = append(qOpts, router.QueryNetwork(q.Network)) } } routes, err := n.Network.Options().Router.Table().Query(qOpts...) if err != nil { return errors.InternalServerError("go.micro.network", "failed to list routes: %s", err) } respRoutes := make([]*pbRtr.Route, 0, len(routes)) for _, route := range routes { respRoute := &pbRtr.Route{ Service: route.Service, Address: route.Address, Gateway: route.Gateway, Network: route.Network, Router: route.Router, Link: route.Link, Metric: int64(route.Metric), } respRoutes = append(respRoutes, respRoute) } resp.Routes = respRoutes return nil } // Services returns a list of services based on the routing table func (n *Network) Services(ctx context.Context, req *pbNet.ServicesRequest, resp *pbNet.ServicesResponse) error { routes, err := n.Network.Options().Router.Table().List() if err != nil { return errors.InternalServerError("go.micro.network", "failed to list services: %s", err) } services := make(map[string]bool) for _, route := range routes { if _, ok := services[route.Service]; ok { continue } services[route.Service] = true resp.Services = append(resp.Services, route.Service) } return nil }