package main import ( "fmt" ipcRpc "net/rpc" "os" "github.com/akamensky/argparse" "github.com/tim-beatham/wgmesh/pkg/ctrlserver" graph "github.com/tim-beatham/wgmesh/pkg/dot" "github.com/tim-beatham/wgmesh/pkg/ipc" logging "github.com/tim-beatham/wgmesh/pkg/log" ) const SockAddr = "/tmp/wgmesh_ipc.sock" type CreateMeshParams struct { Client *ipcRpc.Client Endpoint string WgArgs ipc.WireGuardArgs AdvertiseRoutes bool AdvertiseDefault bool } func createMesh(params *CreateMeshParams) string { var reply string newMeshParams := ipc.NewMeshArgs{ WgArgs: params.WgArgs, } err := params.Client.Call("IpcHandler.CreateMesh", &newMeshParams, &reply) if err != nil { return err.Error() } return reply } func listMeshes(client *ipcRpc.Client) { reply := new(ipc.ListMeshReply) err := client.Call("IpcHandler.ListMeshes", "", &reply) if err != nil { logging.Log.WriteErrorf(err.Error()) return } for _, meshId := range reply.Meshes { fmt.Println(meshId) } } type JoinMeshParams struct { Client *ipcRpc.Client MeshId string IpAddress string Endpoint string WgArgs ipc.WireGuardArgs AdvertiseRoutes bool AdvertiseDefault bool } func joinMesh(params *JoinMeshParams) string { var reply string args := ipc.JoinMeshArgs{ MeshId: params.MeshId, IpAdress: params.IpAddress, WgArgs: params.WgArgs, } err := params.Client.Call("IpcHandler.JoinMesh", &args, &reply) if err != nil { return err.Error() } return reply } func leaveMesh(client *ipcRpc.Client, meshId string) { var reply string err := client.Call("IpcHandler.LeaveMesh", &meshId, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } func getGraph(client *ipcRpc.Client) { listMeshesReply := new(ipc.ListMeshReply) err := client.Call("IpcHandler.ListMeshes", "", &listMeshesReply) if err != nil { fmt.Println(err.Error()) return } meshes := make(map[string][]ctrlserver.MeshNode) for _, meshId := range listMeshesReply.Meshes { var meshReply ipc.GetMeshReply err := client.Call("IpcHandler.GetMesh", &meshId, &meshReply) if err != nil { fmt.Println(err.Error()) return } meshes[meshId] = meshReply.Nodes } dotGenerator := graph.NewMeshGraphConverter(meshes) dot, err := dotGenerator.Generate() if err != nil { fmt.Println(err.Error()) return } fmt.Println(dot) } func queryMesh(client *ipcRpc.Client, meshId, query string) { var reply string err := client.Call("IpcHandler.Query", &ipc.QueryMesh{MeshId: meshId, Query: query}, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } // putDescription: puts updates the description about the node to the meshes func putDescription(client *ipcRpc.Client, description string) { var reply string err := client.Call("IpcHandler.PutDescription", &description, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } // putAlias: puts an alias for the node func putAlias(client *ipcRpc.Client, alias string) { var reply string err := client.Call("IpcHandler.PutAlias", &alias, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } func setService(client *ipcRpc.Client, service, value string) { var reply string serviceArgs := &ipc.PutServiceArgs{ Service: service, Value: value, } err := client.Call("IpcHandler.PutService", serviceArgs, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } func deleteService(client *ipcRpc.Client, service string) { var reply string err := client.Call("IpcHandler.PutService", &service, &reply) if err != nil { fmt.Println(err.Error()) return } fmt.Println(reply) } func main() { parser := argparse.NewParser("wg-mesh", "wg-mesh Manipulate WireGuard mesh networks") newMeshCmd := parser.NewCommand("new-mesh", "Create a new mesh") listMeshCmd := parser.NewCommand("list-meshes", "List meshes the node is connected to") joinMeshCmd := parser.NewCommand("join-mesh", "Join a mesh network") getGraphCmd := parser.NewCommand("get-graph", "Convert a mesh into DOT format") leaveMeshCmd := parser.NewCommand("leave-mesh", "Leave a mesh network") queryMeshCmd := parser.NewCommand("query-mesh", "Query a mesh network using JMESPath") putDescriptionCmd := parser.NewCommand("put-description", "Place a description for the node") putAliasCmd := parser.NewCommand("put-alias", "Place an alias for the node") setServiceCmd := parser.NewCommand("set-service", "Place a service into your advertisements") deleteServiceCmd := parser.NewCommand("delete-service", "Remove a service from your advertisements") var newMeshPort *int = newMeshCmd.Int("p", "wgport", &argparse.Options{ Default: 0, Help: "WireGuard port to use to the interface. A default of 0 uses an unused ephmeral port.", }) var newMeshEndpoint *string = newMeshCmd.String("e", "endpoint", &argparse.Options{ Help: "Publicly routeable endpoint to advertise within the mesh", }) var newMeshRole *string = newMeshCmd.Selector("r", "role", []string{"peer", "client"}, &argparse.Options{ Default: "peer", Help: "Role in the mesh network. A value of peer means that the node is publicly routeable and thus considered" + " in the gossip protocol. Client means that the node is not publicly routeable and is not a candidate in the gossip" + " protocol", }) var newMeshKeepAliveWg *int = newMeshCmd.Int("k", "KeepAliveWg", &argparse.Options{ Default: 0, Help: "WireGuard KeepAlive value for NAT traversal and firewall holepunching", }) var newMeshAdvertiseRoutes *bool = newMeshCmd.Flag("a", "advertise", &argparse.Options{ Help: "Advertise routes to other mesh network into the mesh", }) var newMeshAdvertiseDefaults *bool = newMeshCmd.Flag("d", "defaults", &argparse.Options{ Help: "Advertise ::/0 into the mesh network", }) var joinMeshId *string = joinMeshCmd.String("m", "meshid", &argparse.Options{ Required: true, Help: "MeshID of the mesh network to join", }) var joinMeshIpAddress *string = joinMeshCmd.String("i", "ip", &argparse.Options{ Required: true, Help: "IP address of the bootstrapping node to join through", }) var joinMeshEndpoint *string = joinMeshCmd.String("e", "endpoint", &argparse.Options{ Help: "Publicly routeable endpoint to advertise within the mesh", }) var joinMeshRole *string = joinMeshCmd.Selector("r", "role", []string{"peer", "client"}, &argparse.Options{ Default: "peer", Help: "Role in the mesh network. A value of peer means that the node is publicly routeable and thus considered" + " in the gossip protocol. Client means that the node is not publicly routeable and is not a candidate in the gossip" + " protocol", }) var joinMeshPort *int = joinMeshCmd.Int("p", "wgport", &argparse.Options{ Default: 0, Help: "WireGuard port to use to the interface. A default of 0 uses an unused ephmeral port.", }) var joinMeshKeepAliveWg *int = joinMeshCmd.Int("k", "KeepAliveWg", &argparse.Options{ Default: 0, Help: "WireGuard KeepAlive value for NAT traversal and firewall ho;lepunching", }) var joinMeshAdvertiseRoutes *bool = joinMeshCmd.Flag("a", "advertise", &argparse.Options{ Help: "Advertise routes to other mesh network into the mesh", }) var joinMeshAdvertiseDefaults *bool = joinMeshCmd.Flag("d", "defaults", &argparse.Options{ Help: "Advertise ::/0 into the mesh network", }) var leaveMeshMeshId *string = leaveMeshCmd.String("m", "mesh", &argparse.Options{ Required: true, Help: "MeshID of the mesh to leave", }) var queryMeshMeshId *string = queryMeshCmd.String("m", "mesh", &argparse.Options{ Required: true, Help: "MeshID of the mesh to query", }) var queryMeshQuery *string = queryMeshCmd.String("q", "query", &argparse.Options{ Required: true, Help: "JMESPath Query Of The Mesh Network To Query", }) var description *string = putDescriptionCmd.String("d", "description", &argparse.Options{ Required: true, Help: "Description of the node in the mesh", }) var alias *string = putAliasCmd.String("a", "alias", &argparse.Options{ Required: true, Help: "Alias of the node to set can be used in DNS to lookup an IP address", }) var serviceKey *string = setServiceCmd.String("s", "service", &argparse.Options{ Required: true, Help: "Key of the service to advertise in the mesh network", }) var serviceValue *string = setServiceCmd.String("v", "value", &argparse.Options{ Required: true, Help: "Value of the service to advertise in the mesh network", }) var deleteServiceKey *string = deleteServiceCmd.String("s", "service", &argparse.Options{ Required: true, Help: "Key of the service to remove", }) err := parser.Parse(os.Args) if err != nil { fmt.Print(parser.Usage(err)) return } client, err := ipcRpc.DialHTTP("unix", SockAddr) if err != nil { fmt.Println(err.Error()) return } if newMeshCmd.Happened() { fmt.Println(createMesh(&CreateMeshParams{ Client: client, Endpoint: *newMeshEndpoint, WgArgs: ipc.WireGuardArgs{ Endpoint: *newMeshEndpoint, Role: *newMeshRole, WgPort: *newMeshPort, KeepAliveWg: *newMeshKeepAliveWg, AdvertiseDefaultRoute: *newMeshAdvertiseDefaults, AdvertiseRoutes: *newMeshAdvertiseRoutes, }, })) } if listMeshCmd.Happened() { listMeshes(client) } if joinMeshCmd.Happened() { fmt.Println(joinMesh(&JoinMeshParams{ Client: client, IpAddress: *joinMeshIpAddress, MeshId: *joinMeshId, Endpoint: *joinMeshEndpoint, WgArgs: ipc.WireGuardArgs{ Endpoint: *joinMeshEndpoint, Role: *joinMeshRole, WgPort: *joinMeshPort, KeepAliveWg: *joinMeshKeepAliveWg, AdvertiseDefaultRoute: *joinMeshAdvertiseDefaults, AdvertiseRoutes: *joinMeshAdvertiseRoutes, }, })) } if getGraphCmd.Happened() { getGraph(client) } if leaveMeshCmd.Happened() { leaveMesh(client, *leaveMeshMeshId) } if queryMeshCmd.Happened() { queryMesh(client, *queryMeshMeshId, *queryMeshQuery) } if putDescriptionCmd.Happened() { putDescription(client, *description) } if putAliasCmd.Happened() { putAlias(client, *alias) } if setServiceCmd.Happened() { setService(client, *serviceKey, *serviceValue) } if deleteServiceCmd.Happened() { deleteService(client, *deleteServiceKey) } }