package main import ( "context" "crypto/tls" "errors" "flag" "fmt" "io" "io/ioutil" golog "log" "net/http" "net/url" "os" "strconv" "strings" "git.coolaj86.com/coolaj86/go-telebitd/log" telebit "git.coolaj86.com/coolaj86/go-telebitd/mplexer" "git.coolaj86.com/coolaj86/go-telebitd/mplexer/dns01" "git.coolaj86.com/coolaj86/go-telebitd/relay" "git.coolaj86.com/coolaj86/go-telebitd/relay/api" //jwt "github.com/dgrijalva/jwt-go" "github.com/caddyserver/certmagic" "github.com/go-acme/lego/v3/challenge" "github.com/go-acme/lego/v3/providers/dns/duckdns" "github.com/go-acme/lego/v3/providers/dns/godaddy" lumberjack "gopkg.in/natefinch/lumberjack.v2" _ "github.com/joho/godotenv/autoload" ) // Loginfo TODO remove var Loginfo = log.Loginfo // Logdebug TODO remove var Logdebug = log.Logdebug func init() { log.LogFlags = golog.Ldate | golog.Lmicroseconds | golog.Lshortfile } var ( logfile = "stdout" configPath = "./" configFile = "telebit-relay" tcpPort int argDeadTime int connectionTable *api.Table secretKey string wssHostName string adminHostName string idle int dwell int cancelcheck int loadBalanceMethod api.LoadBalanceStrategy nickname string acmeEmail string acmeStorage string acmeAgree bool acmeStaging bool allclients string authURL string acmeRelay string ) func init() { flag.StringVar(&allclients, "clients", "", "list of client:secret pairings such as example.com:secret123,foo.com:secret321") flag.StringVar(&acmeEmail, "acme-email", "", "email to use for Let's Encrypt / ACME registration") flag.StringVar(&acmeStorage, "acme-storage", "./acme.d/", "path to ACME storage directory") flag.BoolVar(&acmeAgree, "acme-agree", false, "agree to the terms of the ACME service provider (required)") flag.BoolVar(&acmeStaging, "staging", false, "get fake certificates for testing") flag.StringVar(&authURL, "auth-url", "http://localhost:3010/api", "the auth server url") flag.StringVar(&acmeRelay, "acme-relay", "", "the ACME DNS-01 relay, if any") flag.StringVar(&adminHostName, "admin-hostname", "", "the management domain") flag.StringVar(&wssHostName, "wss-hostname", "", "the wss domain for connecting devices, if different from admin") flag.StringVar(&configPath, "config-path", configPath, "Configuration File Path") flag.StringVar(&secretKey, "secret", "", "a >= 16-character random string for JWT key signing") // SECRET flag.StringVar(&logfile, "log", logfile, "Log file (or stdout/stderr; empty for none)") flag.IntVar(&tcpPort, "port", 0, "tcp port on which to listen") // PORT flag.StringVar(&nickname, "nickname", "", "a nickname for this server, as an identifier") // NICKNAME } var logoutput io.Writer // Client is a domain and secret pair type Client struct { domain string secret string } //Main -- main entry point func main() { var err error var provider challenge.Provider = nil flag.Parse() if !acmeAgree { fmt.Fprintf(os.Stderr, "set --acme-agree=true to accept the terms of the ACME service provider.\n") os.Exit(1) } clients := []Client{} for _, pair := range strings.Split(allclients, ", ") { if 0 == len(pair) { continue } keyval := strings.Split(pair, ":") clients = append(clients, Client{ domain: keyval[0], secret: keyval[1], }) } if 0 == len(secretKey) { secretKey = os.Getenv("SECRET") } if len(secretKey) < 16 { fmt.Fprintf(os.Stderr, "Invalid secret: %q. See --help for details.\n", secretKey) os.Exit(1) } switch logfile { case "stdout": logoutput = os.Stdout case "stderr": logoutput = os.Stderr case "": logoutput = ioutil.Discard default: logoutput = &lumberjack.Logger{ Filename: logfile, MaxSize: 100, MaxAge: 120, MaxBackups: 10, } } // send the output io.Writing to the other packages log.InitLogging(logoutput) flag.IntVar(&argDeadTime, "dead-time-counter", 5, "deadtime counter in seconds") if 0 == tcpPort { tcpPort, _ = strconv.Atoi(os.Getenv("PORT")) if 0 == tcpPort { fmt.Fprintf(os.Stderr, "must specify --port or PORT\n") os.Exit(1) } } if 0 == len(adminHostName) { adminHostName = os.Getenv("ADMIN_HOSTNAME") } if 0 == len(wssHostName) { wssHostName = os.Getenv("WSS_HOSTNAME") } if 0 == len(wssHostName) { wssHostName = adminHostName } // load balancer method loadBalanceMethod = api.RoundRobin if 0 == len(nickname) { nickname = os.Getenv("NICKNAME") } // TODO what do these "deadtimes" do exactly? dwell := 120 idle := 60 cancelcheck := 10 Loginfo.Println("startup") if "" != os.Getenv("GODADDY_API_KEY") { id := os.Getenv("GODADDY_API_KEY") secret := os.Getenv("GODADDY_API_SECRET") if provider, err = newGoDaddyDNSProvider(id, secret); nil != err { panic(err) } } else if "" != os.Getenv("DUCKDNS_TOKEN") { if provider, err = newDuckDNSProvider(os.Getenv("DUCKDNS_TOKEN")); nil != err { panic(err) } } else { endpoint := acmeRelay if strings.HasSuffix(endpoint, "/") { endpoint = endpoint[:len(endpoint)-1] } endpoint += "/api/dns/" /* if provider, err = newAPIDNSProvider(endpoint, *token); nil != err { panic(err) } */ panic(errors.New("allow for fetching / creating token")) } ctx, cancelContext := context.WithCancel(context.Background()) defer cancelContext() // CertMagic is Greenlock for Go directory := certmagic.LetsEncryptProductionCA if acmeStaging { directory = certmagic.LetsEncryptStagingCA } magic, err := newCertMagic(directory, acmeEmail, provider, &certmagic.FileStorage{Path: acmeStorage}) if nil != err { fmt.Fprintf(os.Stderr, "failed to initialize certificate management (discovery url? local folder perms?): %s\n", err) os.Exit(1) } serverStatus := api.NewStatus(ctx) serverStatus.AdminDomain = adminHostName serverStatus.WssDomain = wssHostName serverStatus.Name = nickname serverStatus.DeadTime = api.NewStatusDeadTime(dwell, idle, cancelcheck) serverStatus.LoadbalanceDefaultMethod = string(loadBalanceMethod) connectionTable := api.NewTable(dwell, idle, loadBalanceMethod) tlsConfig := &tls.Config{ GetCertificate: func(hello *tls.ClientHelloInfo) (*tls.Certificate, error) { return magic.GetCertificate(hello) /* if false { _, _ = magic.GetCertificate(hello) } // TODO // 1. call out to greenlock for validation // 2. push challenges through http channel // 3. receive certificates (or don't) certbundleT, err := tls.LoadX509KeyPair("certs/fullchain.pem", "certs/privkey.pem") certbundle := &certbundleT if err != nil { return nil, err } return certbundle, nil */ }, } authorizer := func(r *http.Request) (*telebit.Grants, error) { // do we have a valid wss_client? var tokenString string if auth := strings.Split(r.Header.Get("Authorization"), " "); len(auth) > 1 { // TODO handle Basic auth tokens as well tokenString = auth[1] } if "" == tokenString { // Browsers do not allow Authorization Headers and must use access_token query string tokenString = r.URL.Query().Get("access_token") } if "" != r.URL.Query().Get("access_token") { r.URL.Query().Set("access_token", "[redacted]") } grants, err := telebit.Inspect(authURL, tokenString) /* tok, err := jwt.Parse(tokenString, func(token *jwt.Token) (interface{}, error) { return []byte(secretKey), nil }) */ if nil != err { fmt.Println("return an error, do not go on") return nil, err } if "" != r.URL.Query().Get("access_token") { r.URL.Query().Set("access_token", "[redacted:"+grants.Subject+"]") } /* fmt.Printf("client claims:\n%+v\n", tok.Claims) */ /* domains := []string{} for _, name := range tok.Claims.(jwt.MapClaims)["domains"].([]interface{}) { domains = append(domains, name.(string)) } authz := &mplexy.Authz{ Domains: grants.Domains, } */ return grants, err /* tokenString := r.URL.Query().Get("access_token") result, err := jwt.Parse(tokenString, func(token *jwt.Token) (interface{}, error) { return []byte(secretKey), nil }) if err != nil || !result.Valid { w.WriteHeader(http.StatusForbidden) w.Write([]byte("Not Authorized")) Loginfo.Println("access_token invalid...closing connection") return } // TODO claims := result.Claims.(jwt.MapClaims) domains, ok := claims["domains"].([]interface{}) */ } r := relay.New(ctx, tlsConfig, authorizer, serverStatus, connectionTable) r.ListenAndServe(tcpPort) } func newCertMagic( directory string, email string, provider challenge.Provider, storage certmagic.Storage, ) (*certmagic.Config, error) { cache := certmagic.NewCache(certmagic.CacheOptions{ GetConfigForCert: func(cert certmagic.Certificate) (*certmagic.Config, error) { // do whatever you need to do to get the right // configuration for this certificate; keep in // mind that this config value is used as a // template, and will be completed with any // defaults that are set in the Default config return &certmagic.Config{}, nil }, }) magic := certmagic.New(cache, certmagic.Config{ Storage: storage, OnDemand: &certmagic.OnDemandConfig{ DecisionFunc: func(name string) error { return nil }, }, }) // Ummm... just a little confusing magic.Issuer = certmagic.NewACMEManager(magic, certmagic.ACMEManager{ DNSProvider: provider, CA: directory, Email: email, Agreed: true, DisableHTTPChallenge: true, DisableTLSALPNChallenge: true, // plus any other customizations you need }) return magic, nil } // newDuckDNSProvider is for the sake of demoing the tunnel func newDuckDNSProvider(token string) (*duckdns.DNSProvider, error) { config := duckdns.NewDefaultConfig() config.Token = token return duckdns.NewDNSProviderConfig(config) } // newGoDaddyDNSProvider is for the sake of demoing the tunnel func newGoDaddyDNSProvider(id, secret string) (*godaddy.DNSProvider, error) { config := godaddy.NewDefaultConfig() config.APIKey = id config.APISecret = secret return godaddy.NewDNSProviderConfig(config) } // newAPIDNSProvider is for the sake of demoing the tunnel func newAPIDNSProvider(baseURL string, token string) (*dns01.DNSProvider, error) { config := dns01.NewDefaultConfig() config.Token = token endpoint, err := url.Parse(baseURL) if nil != err { return nil, err } config.Endpoint = endpoint return dns01.NewDNSProviderConfig(config) }