package graph import ( "fmt" "slices" "github.com/tim-beatham/smegmesh/pkg/ctrlserver" ) // MeshGraphConverter converts a mesh to a graph type MeshGraphConverter interface { // convert the mesh to textual form Generate() (string, error) } type MeshDOTConverter struct { meshes map[string][]ctrlserver.MeshNode destinations map[string]interface{} } func (c *MeshDOTConverter) Generate() (string, error) { g := NewGraph("Smegmesh", GRAPH) for meshId := range c.meshes { err := c.generateMesh(g, meshId) if err != nil { return "", err } } for mesh := range c.meshes { g.PutNode(mesh, mesh, 1, CIRCLE) } for destination := range c.destinations { g.PutNode(destination, destination, 1, HEXAGON) } return g.GetDOT() } func (c *MeshDOTConverter) generateMesh(g *RootGraph, meshId string) error { nodes := c.meshes[meshId] g.PutNode(meshId, meshId, 1, CIRCLE) for _, node := range nodes { c.graphNode(g, node, meshId) } for _, node := range nodes { g.AddEdge(fmt.Sprintf("%s to %s", node.PublicKey, meshId), "", node.PublicKey, meshId) } return nil } // graphNode: graphs a node within the mesh func (c *MeshDOTConverter) graphNode(g *RootGraph, node ctrlserver.MeshNode, meshId string) { alias := node.Alias if alias == "" { alias = node.WgHost[1:len(node.WgHost)-20] + "\\n" + node.WgHost[len(node.WgHost)-20:len(node.WgHost)] } g.PutNode(node.PublicKey, alias, 2, CIRCLE) for _, route := range node.Routes { if len(route.Path) == 0 { g.AddEdge(route.Destination, "", node.PublicKey, route.Destination) continue } reversedPath := slices.Clone(route.Path) slices.Reverse(reversedPath) g.AddEdge(fmt.Sprintf("%s to %s", node.PublicKey, reversedPath[0]), "", node.PublicKey, reversedPath[0]) for _, mesh := range route.Path { if _, ok := c.meshes[mesh]; !ok { c.destinations[mesh] = struct{}{} } } for index := range reversedPath[0 : len(reversedPath)-1] { routeID := fmt.Sprintf("%s to %s", reversedPath[index], reversedPath[index+1]) g.AddEdge(routeID, "", reversedPath[index], reversedPath[index+1]) } if route.Destination == "::/0" { c.destinations[route.Destination] = struct{}{} lastMesh := reversedPath[len(reversedPath)-1] routeID := fmt.Sprintf("%s to %s", lastMesh, route.Destination) g.AddEdge(routeID, "", lastMesh, route.Destination) } } for service := range node.Services { c.putService(g, service, meshId, node) } } // putService: construct a service node and a link between the nodes func (c *MeshDOTConverter) putService(g *RootGraph, key, meshId string, node ctrlserver.MeshNode) { serviceID := fmt.Sprintf("%s%s%s", key, node.PublicKey, meshId) g.PutNode(serviceID, key, 1, PARALLELOGRAM) g.AddEdge(fmt.Sprintf("%s to %s", node.PublicKey, serviceID), "", node.PublicKey, serviceID) } func NewMeshGraphConverter(meshes map[string][]ctrlserver.MeshNode) MeshGraphConverter { return &MeshDOTConverter{ meshes: meshes, destinations: make(map[string]interface{}), } }