package main import ( "bytes" "encoding/json" "errors" "flag" "fmt" "log" "net" "net/url" "os" "sort" "strconv" "strings" "github.com/yggdrasil-network/yggdrasil-go/src/version" ) type admin_info map[string]interface{} func main() { // makes sure we can use defer and still return an error code to the OS os.Exit(run()) } func run() int { logbuffer := &bytes.Buffer{} logger := log.New(logbuffer, "", log.Flags()) defer func() int { if r := recover(); r != nil { logger.Println("Fatal error:", r) fmt.Print(logbuffer) return 1 } return 0 }() cmdLineEnv := newCmdLineEnv() cmdLineEnv.parseFlagsAndArgs() if cmdLineEnv.ver { fmt.Println("Build name:", version.BuildName()) fmt.Println("Build version:", version.BuildVersion()) fmt.Println("To get the version number of the running Yggdrasil node, run", os.Args[0], "getSelf") return 0 } if len(cmdLineEnv.args) == 0 { flag.Usage() return 0 } cmdLineEnv.setEndpoint(logger) conn := connect(cmdLineEnv.endpoint, logger) logger.Println("Connected") defer conn.Close() decoder := json.NewDecoder(conn) encoder := json.NewEncoder(conn) send := make(admin_info) recv := make(admin_info) for c, a := range cmdLineEnv.args { if c == 0 { if strings.HasPrefix(a, "-") { logger.Printf("Ignoring flag %s as it should be specified before other parameters\n", a) continue } logger.Printf("Sending request: %v\n", a) send["request"] = a continue } tokens := strings.Split(a, "=") if len(tokens) == 1 { send[tokens[0]] = true } else if len(tokens) > 2 { send[tokens[0]] = strings.Join(tokens[1:], "=") } else if len(tokens) == 2 { if i, err := strconv.Atoi(tokens[1]); err == nil { logger.Printf("Sending parameter %s: %d\n", tokens[0], i) send[tokens[0]] = i } else { switch strings.ToLower(tokens[1]) { case "true": send[tokens[0]] = true case "false": send[tokens[0]] = false default: send[tokens[0]] = tokens[1] } logger.Printf("Sending parameter %s: %v\n", tokens[0], send[tokens[0]]) } } } if err := encoder.Encode(&send); err != nil { panic(err) } logger.Printf("Request sent") if err := decoder.Decode(&recv); err == nil { logger.Printf("Response received") if recv["status"] == "error" { if err, ok := recv["error"]; ok { fmt.Println("Admin socket returned an error:", err) } else { fmt.Println("Admin socket returned an error but didn't specify any error text") } return 1 } if _, ok := recv["request"]; !ok { fmt.Println("Missing request in response (malformed response?)") return 1 } if _, ok := recv["response"]; !ok { fmt.Println("Missing response body (malformed response?)") return 1 } res := recv["response"].(map[string]interface{}) if cmdLineEnv.injson { if json, err := json.MarshalIndent(res, "", " "); err == nil { fmt.Println(string(json)) } return 0 } handleAll(recv, cmdLineEnv.verbose) } else { logger.Println("Error receiving response:", err) } if v, ok := recv["status"]; ok && v != "success" { return 1 } return 0 } func connect(endpoint string, logger *log.Logger) net.Conn { var conn net.Conn u, err := url.Parse(endpoint) if err == nil { switch strings.ToLower(u.Scheme) { case "unix": logger.Println("Connecting to UNIX socket", endpoint[7:]) conn, err = net.Dial("unix", endpoint[7:]) case "tcp": logger.Println("Connecting to TCP socket", u.Host) conn, err = net.Dial("tcp", u.Host) default: logger.Println("Unknown protocol or malformed address - check your endpoint") err = errors.New("protocol not supported") } } else { logger.Println("Connecting to TCP socket", u.Host) conn, err = net.Dial("tcp", endpoint) } if err != nil { panic(err) } return conn } func handleAll(recv map[string]interface{}, verbose bool) { req := recv["request"].(map[string]interface{}) res := recv["response"].(map[string]interface{}) switch strings.ToLower(req["request"].(string)) { case "dot": handleDot(res) case "list", "getpeers", "getswitchpeers", "getdht", "getsessions", "dhtping": handleVariousInfo(res, verbose) case "gettuntap", "settuntap": handleGetAndSetTunTap(res) case "getself": handleGetSelf(res, verbose) case "getswitchqueues": handleGetSwitchQueues(res) case "addpeer", "removepeer", "addallowedencryptionpublickey", "removeallowedencryptionpublickey", "addsourcesubnet", "addroute", "removesourcesubnet", "removeroute": handleAddsAndRemoves(res) case "getallowedencryptionpublickeys": handleGetAllowedEncryptionPublicKeys(res) case "getmulticastinterfaces": handleGetMulticastInterfaces(res) case "getsourcesubnets": handleGetSourceSubnets(res) case "getroutes": handleGetRoutes(res) case "settunnelrouting": fallthrough case "gettunnelrouting": handleGetTunnelRouting(res) default: if json, err := json.MarshalIndent(recv["response"], "", " "); err == nil { fmt.Println(string(json)) } } } func handleDot(res map[string]interface{}) { fmt.Println(res["dot"]) } func handleVariousInfo(res map[string]interface{}, verbose bool) { maxWidths := make(map[string]int) var keyOrder []string keysOrdered := false for _, tlv := range res { for slk, slv := range tlv.(map[string]interface{}) { if !keysOrdered { for k := range slv.(map[string]interface{}) { if !verbose { if k == "box_pub_key" || k == "box_sig_key" || k == "nodeinfo" || k == "was_mtu_fixed" { continue } } keyOrder = append(keyOrder, fmt.Sprint(k)) } sort.Strings(keyOrder) keysOrdered = true } for k, v := range slv.(map[string]interface{}) { if len(fmt.Sprint(slk)) > maxWidths["key"] { maxWidths["key"] = len(fmt.Sprint(slk)) } if len(fmt.Sprint(v)) > maxWidths[k] { maxWidths[k] = len(fmt.Sprint(v)) if maxWidths[k] < len(k) { maxWidths[k] = len(k) } } } } if len(keyOrder) > 0 { fmt.Printf("%-"+fmt.Sprint(maxWidths["key"])+"s ", "") for _, v := range keyOrder { fmt.Printf("%-"+fmt.Sprint(maxWidths[v])+"s ", v) } fmt.Println() } for slk, slv := range tlv.(map[string]interface{}) { fmt.Printf("%-"+fmt.Sprint(maxWidths["key"])+"s ", slk) for _, k := range keyOrder { preformatted := slv.(map[string]interface{})[k] var formatted string switch k { case "bytes_sent", "bytes_recvd": formatted = fmt.Sprintf("%d", uint(preformatted.(float64))) case "uptime", "last_seen": seconds := uint(preformatted.(float64)) % 60 minutes := uint(preformatted.(float64)/60) % 60 hours := uint(preformatted.(float64) / 60 / 60) formatted = fmt.Sprintf("%02d:%02d:%02d", hours, minutes, seconds) default: formatted = fmt.Sprint(preformatted) } fmt.Printf("%-"+fmt.Sprint(maxWidths[k])+"s ", formatted) } fmt.Println() } } } func handleGetAndSetTunTap(res map[string]interface{}) { for k, v := range res { fmt.Println("Interface name:", k) if mtu, ok := v.(map[string]interface{})["mtu"].(float64); ok { fmt.Println("Interface MTU:", mtu) } if tap_mode, ok := v.(map[string]interface{})["tap_mode"].(bool); ok { fmt.Println("TAP mode:", tap_mode) } } } func handleGetSelf(res map[string]interface{}, verbose bool) { for k, v := range res["self"].(map[string]interface{}) { if buildname, ok := v.(map[string]interface{})["build_name"].(string); ok && buildname != "unknown" { fmt.Println("Build name:", buildname) } if buildversion, ok := v.(map[string]interface{})["build_version"].(string); ok && buildversion != "unknown" { fmt.Println("Build version:", buildversion) } fmt.Println("IPv6 address:", k) if subnet, ok := v.(map[string]interface{})["subnet"].(string); ok { fmt.Println("IPv6 subnet:", subnet) } if boxSigKey, ok := v.(map[string]interface{})["key"].(string); ok { fmt.Println("Public key:", boxSigKey) } if coords, ok := v.(map[string]interface{})["coords"].(string); ok { fmt.Println("Coords:", coords) } if verbose { if nodeID, ok := v.(map[string]interface{})["node_id"].(string); ok { fmt.Println("Node ID:", nodeID) } if boxPubKey, ok := v.(map[string]interface{})["box_pub_key"].(string); ok { fmt.Println("Public encryption key:", boxPubKey) } if boxSigKey, ok := v.(map[string]interface{})["box_sig_key"].(string); ok { fmt.Println("Public signing key:", boxSigKey) } } } } func handleGetSwitchQueues(res map[string]interface{}) { maximumqueuesize := float64(4194304) portqueues := make(map[float64]float64) portqueuesize := make(map[float64]float64) portqueuepackets := make(map[float64]float64) v := res["switchqueues"].(map[string]interface{}) if queuecount, ok := v["queues_count"].(float64); ok { fmt.Printf("Active queue count: %d queues\n", uint(queuecount)) } if queuesize, ok := v["queues_size"].(float64); ok { fmt.Printf("Active queue size: %d bytes\n", uint(queuesize)) } if highestqueuecount, ok := v["highest_queues_count"].(float64); ok { fmt.Printf("Highest queue count: %d queues\n", uint(highestqueuecount)) } if highestqueuesize, ok := v["highest_queues_size"].(float64); ok { fmt.Printf("Highest queue size: %d bytes\n", uint(highestqueuesize)) } if m, ok := v["maximum_queues_size"].(float64); ok { maximumqueuesize = m fmt.Printf("Maximum queue size: %d bytes\n", uint(maximumqueuesize)) } if queues, ok := v["queues"].([]interface{}); ok { if len(queues) != 0 { fmt.Println("Active queues:") for _, v := range queues { queueport := v.(map[string]interface{})["queue_port"].(float64) queuesize := v.(map[string]interface{})["queue_size"].(float64) queuepackets := v.(map[string]interface{})["queue_packets"].(float64) queueid := v.(map[string]interface{})["queue_id"].(string) portqueues[queueport]++ portqueuesize[queueport] += queuesize portqueuepackets[queueport] += queuepackets queuesizepercent := (100 / maximumqueuesize) * queuesize fmt.Printf("- Switch port %d, Stream ID: %v, size: %d bytes (%d%% full), %d packets\n", uint(queueport), []byte(queueid), uint(queuesize), uint(queuesizepercent), uint(queuepackets)) } } } if len(portqueuesize) > 0 && len(portqueuepackets) > 0 { fmt.Println("Aggregated statistics by switchport:") for k, v := range portqueuesize { queuesizepercent := (100 / (portqueues[k] * maximumqueuesize)) * v fmt.Printf("- Switch port %d, size: %d bytes (%d%% full), %d packets\n", uint(k), uint(v), uint(queuesizepercent), uint(portqueuepackets[k])) } } } func handleAddsAndRemoves(res map[string]interface{}) { if _, ok := res["added"]; ok { for _, v := range res["added"].([]interface{}) { fmt.Println("Added:", fmt.Sprint(v)) } } if _, ok := res["not_added"]; ok { for _, v := range res["not_added"].([]interface{}) { fmt.Println("Not added:", fmt.Sprint(v)) } } if _, ok := res["removed"]; ok { for _, v := range res["removed"].([]interface{}) { fmt.Println("Removed:", fmt.Sprint(v)) } } if _, ok := res["not_removed"]; ok { for _, v := range res["not_removed"].([]interface{}) { fmt.Println("Not removed:", fmt.Sprint(v)) } } } func handleGetAllowedEncryptionPublicKeys(res map[string]interface{}) { if _, ok := res["allowed_box_pubs"]; !ok { fmt.Println("All connections are allowed") } else if res["allowed_box_pubs"] == nil { fmt.Println("All connections are allowed") } else { fmt.Println("Connections are allowed only from the following public box keys:") for _, v := range res["allowed_box_pubs"].([]interface{}) { fmt.Println("-", v) } } } func handleGetMulticastInterfaces(res map[string]interface{}) { if _, ok := res["multicast_interfaces"]; !ok { fmt.Println("No multicast interfaces found") } else if res["multicast_interfaces"] == nil { fmt.Println("No multicast interfaces found") } else { fmt.Println("Multicast peer discovery is active on:") for _, v := range res["multicast_interfaces"].([]interface{}) { fmt.Println("-", v) } } } func handleGetSourceSubnets(res map[string]interface{}) { if _, ok := res["source_subnets"]; !ok { fmt.Println("No source subnets found") } else if res["source_subnets"] == nil { fmt.Println("No source subnets found") } else { fmt.Println("Source subnets:") for _, v := range res["source_subnets"].([]interface{}) { fmt.Println("-", v) } } } func handleGetRoutes(res map[string]interface{}) { if routes, ok := res["routes"].(map[string]interface{}); !ok { fmt.Println("No routes found") } else { if res["routes"] == nil || len(routes) == 0 { fmt.Println("No routes found") } else { fmt.Println("Routes:") for k, v := range routes { if pv, ok := v.(string); ok { fmt.Println("-", k, " via ", pv) } } } } } func handleGetTunnelRouting(res map[string]interface{}) { if enabled, ok := res["enabled"].(bool); !ok { fmt.Println("Tunnel routing is disabled") } else if !enabled { fmt.Println("Tunnel routing is disabled") } else { fmt.Println("Tunnel routing is enabled") } }