package tunnel import ( "bufio" "context" "fmt" "io/ioutil" "net/url" "os" "runtime/trace" "strings" "sync" "time" "github.com/coreos/go-systemd/daemon" "github.com/facebookgo/grace/gracenet" "github.com/getsentry/raven-go" homedir "github.com/mitchellh/go-homedir" "github.com/pkg/errors" "github.com/rs/zerolog" "github.com/urfave/cli/v2" "github.com/urfave/cli/v2/altsrc" "github.com/cloudflare/cloudflared/cfapi" "github.com/cloudflare/cloudflared/cmd/cloudflared/cliutil" "github.com/cloudflare/cloudflared/cmd/cloudflared/proxydns" "github.com/cloudflare/cloudflared/cmd/cloudflared/ui" "github.com/cloudflare/cloudflared/cmd/cloudflared/updater" "github.com/cloudflare/cloudflared/config" "github.com/cloudflare/cloudflared/connection" "github.com/cloudflare/cloudflared/ingress" "github.com/cloudflare/cloudflared/logger" "github.com/cloudflare/cloudflared/metrics" "github.com/cloudflare/cloudflared/origin" "github.com/cloudflare/cloudflared/signal" "github.com/cloudflare/cloudflared/tlsconfig" "github.com/cloudflare/cloudflared/tunneldns" ) const ( sentryDSN = "https://56a9c9fa5c364ab28f34b14f35ea0f1b:3e8827f6f9f740738eb11138f7bebb68@sentry.io/189878" // sshPortFlag is the port on localhost the cloudflared ssh server will run on sshPortFlag = "local-ssh-port" // sshIdleTimeoutFlag defines the duration a SSH session can remain idle before being closed sshIdleTimeoutFlag = "ssh-idle-timeout" // sshMaxTimeoutFlag defines the max duration a SSH session can remain open for sshMaxTimeoutFlag = "ssh-max-timeout" // bucketNameFlag is the bucket name to use for the SSH log uploader bucketNameFlag = "bucket-name" // regionNameFlag is the AWS region name to use for the SSH log uploader regionNameFlag = "region-name" // secretIDFlag is the Secret id of SSH log uploader secretIDFlag = "secret-id" // accessKeyIDFlag is the Access key id of SSH log uploader accessKeyIDFlag = "access-key-id" // sessionTokenIDFlag is the Session token of SSH log uploader sessionTokenIDFlag = "session-token" // s3URLFlag is the S3 URL of SSH log uploader (e.g. don't use AWS s3 and use google storage bucket instead) s3URLFlag = "s3-url-host" // hostKeyPath is the path of the dir to save SSH host keys too hostKeyPath = "host-key-path" // uiFlag is to enable launching cloudflared in interactive UI mode uiFlag = "ui" debugLevelWarning = "At debug level cloudflared will log request URL, method, protocol, content length, as well as, all request and response headers. " + "This can expose sensitive information in your logs." LogFieldCommand = "command" LogFieldExpandedPath = "expandedPath" LogFieldPIDPathname = "pidPathname" LogFieldTmpTraceFilename = "tmpTraceFilename" LogFieldTraceOutputFilepath = "traceOutputFilepath" ) var ( graceShutdownC chan struct{} buildInfo *cliutil.BuildInfo routeFailMsg = fmt.Sprintf("failed to provision routing, please create it manually via Cloudflare dashboard or UI; "+ "most likely you already have a conflicting record there. You can also rerun this command with --%s to overwrite "+ "any existing DNS records for this hostname.", overwriteDNSFlag) ) func Flags() []cli.Flag { return tunnelFlags(true) } func Commands() []*cli.Command { subcommands := []*cli.Command{ buildLoginSubcommand(false), buildCreateCommand(), buildRouteCommand(), buildVirtualNetworkSubcommand(false), buildRunCommand(), buildListCommand(), buildInfoCommand(), buildIngressSubcommand(), buildDeleteCommand(), buildCleanupCommand(), // for compatibility, allow following as tunnel subcommands proxydns.Command(true), cliutil.RemovedCommand("db-connect"), } return []*cli.Command{ buildTunnelCommand(subcommands), // for compatibility, allow following as top-level subcommands buildLoginSubcommand(true), cliutil.RemovedCommand("db-connect"), } } func buildTunnelCommand(subcommands []*cli.Command) *cli.Command { return &cli.Command{ Name: "tunnel", Action: cliutil.ConfiguredAction(TunnelCommand), Category: "Tunnel", Usage: "Make a locally-running web service accessible over the internet using Cloudflare Tunnel.", ArgsUsage: " ", Description: `Cloudflare Tunnel asks you to specify a hostname on a Cloudflare-powered domain you control and a local address. Traffic from that hostname is routed (optionally via a Cloudflare Load Balancer) to this machine and appears on the specified port where it can be served. This feature requires your Cloudflare account be subscribed to the Cloudflare Smart Routing feature. To use, begin by calling login to download a certificate: $ cloudflared tunnel login With your certificate installed you can then launch your first tunnel, replacing my.site.com with a subdomain of your site: $ cloudflared tunnel --hostname my.site.com --url http://localhost:8080 If you have a web server running on port 8080 (in this example), it will be available on the internet!`, Subcommands: subcommands, Flags: tunnelFlags(false), } } func TunnelCommand(c *cli.Context) error { sc, err := newSubcommandContext(c) if err != nil { return err } if name := c.String("name"); name != "" { // Start a named tunnel return runAdhocNamedTunnel(sc, name, c.String(CredFileFlag)) } if ref := config.GetConfiguration().TunnelID; ref != "" { return fmt.Errorf("Use `cloudflared tunnel run` to start tunnel %s", ref) } // Unauthenticated named tunnel on ..com // For now, default to legacy setup unless quick-service is specified if !dnsProxyStandAlone(c, nil) && c.String("hostname") == "" && c.String("quick-service") != "" { return RunQuickTunnel(sc) } // Start a classic tunnel return runClassicTunnel(sc) } func Init(info *cliutil.BuildInfo, gracefulShutdown chan struct{}) { buildInfo, graceShutdownC = info, gracefulShutdown } // runAdhocNamedTunnel create, route and run a named tunnel in one command func runAdhocNamedTunnel(sc *subcommandContext, name, credentialsOutputPath string) error { tunnel, ok, err := sc.tunnelActive(name) if err != nil || !ok { // pass empty string as secret to generate one tunnel, err = sc.create(name, credentialsOutputPath, "") if err != nil { return errors.Wrap(err, "failed to create tunnel") } } else { sc.log.Info().Str(LogFieldTunnelID, tunnel.ID.String()).Msg("Reusing existing tunnel with this name") } if r, ok := routeFromFlag(sc.c); ok { if res, err := sc.route(tunnel.ID, r); err != nil { sc.log.Err(err).Str("route", r.String()).Msg(routeFailMsg) } else { sc.log.Info().Msg(res.SuccessSummary()) } } if err := sc.run(tunnel.ID); err != nil { return errors.Wrap(err, "error running tunnel") } return nil } // runClassicTunnel creates a "classic" non-named tunnel func runClassicTunnel(sc *subcommandContext) error { return StartServer(sc.c, buildInfo, nil, sc.log, sc.isUIEnabled) } func routeFromFlag(c *cli.Context) (route cfapi.HostnameRoute, ok bool) { if hostname := c.String("hostname"); hostname != "" { if lbPool := c.String("lb-pool"); lbPool != "" { return cfapi.NewLBRoute(hostname, lbPool), true } return cfapi.NewDNSRoute(hostname, c.Bool(overwriteDNSFlagName)), true } return nil, false } func StartServer( c *cli.Context, info *cliutil.BuildInfo, namedTunnel *connection.NamedTunnelConfig, log *zerolog.Logger, isUIEnabled bool, ) error { _ = raven.SetDSN(sentryDSN) var wg sync.WaitGroup listeners := gracenet.Net{} errC := make(chan error) if config.GetConfiguration().Source() == "" { log.Info().Msg(config.ErrNoConfigFile.Error()) } if c.IsSet("trace-output") { tmpTraceFile, err := ioutil.TempFile("", "trace") if err != nil { log.Err(err).Msg("Failed to create new temporary file to save trace output") } traceLog := log.With().Str(LogFieldTmpTraceFilename, tmpTraceFile.Name()).Logger() defer func() { if err := tmpTraceFile.Close(); err != nil { traceLog.Err(err).Msg("Failed to close temporary trace output file") } traceOutputFilepath := c.String("trace-output") if err := os.Rename(tmpTraceFile.Name(), traceOutputFilepath); err != nil { traceLog. Err(err). Str(LogFieldTraceOutputFilepath, traceOutputFilepath). Msg("Failed to rename temporary trace output file") } else { err := os.Remove(tmpTraceFile.Name()) if err != nil { traceLog.Err(err).Msg("Failed to remove the temporary trace file") } } }() if err := trace.Start(tmpTraceFile); err != nil { traceLog.Err(err).Msg("Failed to start trace") return errors.Wrap(err, "Error starting tracing") } defer trace.Stop() } info.Log(log) logClientOptions(c, log) // this context drives the server, when it's cancelled tunnel and all other components (origins, dns, etc...) should stop ctx, cancel := context.WithCancel(context.Background()) defer cancel() go waitForSignal(graceShutdownC, log) if c.IsSet("proxy-dns") { dnsReadySignal := make(chan struct{}) wg.Add(1) go func() { defer wg.Done() errC <- runDNSProxyServer(c, dnsReadySignal, ctx.Done(), log) }() // Wait for proxy-dns to come up (if used) <-dnsReadySignal } connectedSignal := signal.New(make(chan struct{})) go notifySystemd(connectedSignal) if c.IsSet("pidfile") { go writePidFile(connectedSignal, c.String("pidfile"), log) } // update needs to be after DNS proxy is up to resolve equinox server address wg.Add(1) go func() { defer wg.Done() autoupdater := updater.NewAutoUpdater( c.Bool("no-autoupdate"), c.Duration("autoupdate-freq"), &listeners, log, ) errC <- autoupdater.Run(ctx) }() // Serve DNS proxy stand-alone if no hostname or tag or app is going to run if dnsProxyStandAlone(c, namedTunnel) { connectedSignal.Notify() // no grace period, handle SIGINT/SIGTERM immediately return waitToShutdown(&wg, cancel, errC, graceShutdownC, 0, log) } url := c.String("url") hostname := c.String("hostname") if url == hostname && url != "" && hostname != "" { errText := "hostname and url shouldn't match. See --help for more information" log.Error().Msg(errText) return fmt.Errorf(errText) } logTransport := logger.CreateTransportLoggerFromContext(c, isUIEnabled) observer := connection.NewObserver(log, logTransport, isUIEnabled) // Send Quick Tunnel URL to UI if applicable var quickTunnelURL string if namedTunnel != nil { quickTunnelURL = namedTunnel.QuickTunnelUrl } if quickTunnelURL != "" { observer.SendURL(quickTunnelURL) } tunnelConfig, ingressRules, err := prepareTunnelConfig(c, info, log, logTransport, observer, namedTunnel) if err != nil { log.Err(err).Msg("Couldn't start tunnel") return err } metricsListener, err := listeners.Listen("tcp", c.String("metrics")) if err != nil { log.Err(err).Msg("Error opening metrics server listener") return errors.Wrap(err, "Error opening metrics server listener") } defer metricsListener.Close() wg.Add(1) go func() { defer wg.Done() readinessServer := metrics.NewReadyServer(log) observer.RegisterSink(readinessServer) errC <- metrics.ServeMetrics(metricsListener, ctx.Done(), readinessServer, quickTunnelURL, log) }() if err := ingressRules.StartOrigins(&wg, log, ctx.Done(), errC); err != nil { return err } reconnectCh := make(chan origin.ReconnectSignal, 1) if c.IsSet("stdin-control") { log.Info().Msg("Enabling control through stdin") go stdinControl(reconnectCh, log) } wg.Add(1) go func() { defer func() { wg.Done() log.Info().Msg("Tunnel server stopped") }() errC <- origin.StartTunnelDaemon(ctx, tunnelConfig, connectedSignal, reconnectCh, graceShutdownC) }() if isUIEnabled { tunnelUI := ui.NewUIModel( info.Version(), hostname, metricsListener.Addr().String(), &ingressRules, tunnelConfig.HAConnections, ) app := tunnelUI.Launch(ctx, log, logTransport) observer.RegisterSink(app) } gracePeriod, err := gracePeriod(c) if err != nil { return err } return waitToShutdown(&wg, cancel, errC, graceShutdownC, gracePeriod, log) } func waitToShutdown(wg *sync.WaitGroup, cancelServerContext func(), errC <-chan error, graceShutdownC <-chan struct{}, gracePeriod time.Duration, log *zerolog.Logger, ) error { var err error select { case err = <-errC: log.Error().Err(err).Msg("Initiating shutdown") case <-graceShutdownC: log.Debug().Msg("Graceful shutdown signalled") if gracePeriod > 0 { // wait for either grace period or service termination select { case <-time.Tick(gracePeriod): case <-errC: } } } // stop server context cancelServerContext() // Wait for clean exit, discarding all errors while we wait stopDiscarding := make(chan struct{}) go func() { for { select { case <-errC: // ignore case <-stopDiscarding: return } } }() wg.Wait() close(stopDiscarding) return err } func notifySystemd(waitForSignal *signal.Signal) { <-waitForSignal.Wait() daemon.SdNotify(false, "READY=1") } func writePidFile(waitForSignal *signal.Signal, pidPathname string, log *zerolog.Logger) { <-waitForSignal.Wait() expandedPath, err := homedir.Expand(pidPathname) if err != nil { log.Err(err).Str(LogFieldPIDPathname, pidPathname).Msg("Unable to expand the path, try to use absolute path in --pidfile") return } file, err := os.Create(expandedPath) if err != nil { log.Err(err).Str(LogFieldExpandedPath, expandedPath).Msg("Unable to write pid") return } defer file.Close() fmt.Fprintf(file, "%d", os.Getpid()) } func hostnameFromURI(uri string) string { u, err := url.Parse(uri) if err != nil { return "" } switch u.Scheme { case "ssh": return addPortIfMissing(u, 22) case "rdp": return addPortIfMissing(u, 3389) case "smb": return addPortIfMissing(u, 445) case "tcp": return addPortIfMissing(u, 7864) // just a random port since there isn't a default in this case } return "" } func addPortIfMissing(uri *url.URL, port int) string { if uri.Port() != "" { return uri.Host } return fmt.Sprintf("%s:%d", uri.Hostname(), port) } func tunnelFlags(shouldHide bool) []cli.Flag { flags := configureCloudflaredFlags(shouldHide) flags = append(flags, configureProxyFlags(shouldHide)...) flags = append(flags, configureLoggingFlags(shouldHide)...) flags = append(flags, configureProxyDNSFlags(shouldHide)...) flags = append(flags, []cli.Flag{ credentialsFileFlag, altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "is-autoupdated", Usage: "Signal the new process that Cloudflare Tunnel connector has been autoupdated", Value: false, Hidden: true, }), altsrc.NewStringSliceFlag(&cli.StringSliceFlag{ Name: "edge", Usage: "Address of the Cloudflare tunnel server. Only works in Cloudflare's internal testing environment.", EnvVars: []string{"TUNNEL_EDGE"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "region", Usage: "Cloudflare Edge region to connect to. Omit or set to empty to connect to the global region.", EnvVars: []string{"TUNNEL_REGION"}, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: tlsconfig.CaCertFlag, Usage: "Certificate Authority authenticating connections with Cloudflare's edge network.", EnvVars: []string{"TUNNEL_CACERT"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "hostname", Usage: "Set a hostname on a Cloudflare zone to route traffic through this tunnel.", EnvVars: []string{"TUNNEL_HOSTNAME"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "id", Usage: "A unique identifier used to tie connections to this tunnel instance.", EnvVars: []string{"TUNNEL_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "lb-pool", Usage: "The name of a (new/existing) load balancing pool to add this origin to.", EnvVars: []string{"TUNNEL_LB_POOL"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "api-key", Usage: "This parameter has been deprecated since version 2017.10.1.", EnvVars: []string{"TUNNEL_API_KEY"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "api-email", Usage: "This parameter has been deprecated since version 2017.10.1.", EnvVars: []string{"TUNNEL_API_EMAIL"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "api-ca-key", Usage: "This parameter has been deprecated since version 2017.10.1.", EnvVars: []string{"TUNNEL_API_CA_KEY"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "api-url", Usage: "Base URL for Cloudflare API v4", EnvVars: []string{"TUNNEL_API_URL"}, Value: "https://api.cloudflare.com/client/v4", Hidden: true, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "metrics-update-freq", Usage: "Frequency to update tunnel metrics", Value: time.Second * 5, EnvVars: []string{"TUNNEL_METRICS_UPDATE_FREQ"}, Hidden: shouldHide, }), altsrc.NewStringSliceFlag(&cli.StringSliceFlag{ Name: "tag", Usage: "Custom tags used to identify this tunnel, in format `KEY=VALUE`. Multiple tags may be specified", EnvVars: []string{"TUNNEL_TAG"}, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "heartbeat-interval", Usage: "Minimum idle time before sending a heartbeat.", Value: time.Second * 5, Hidden: true, }), // Note TUN-3758 , we use Int because UInt is not supported with altsrc altsrc.NewIntFlag(&cli.IntFlag{ Name: "heartbeat-count", Usage: "Minimum number of unacked heartbeats to send before closing the connection.", Value: 5, Hidden: true, }), // Note TUN-3758 , we use Int because UInt is not supported with altsrc altsrc.NewIntFlag(&cli.IntFlag{ Name: "retries", Value: 5, Usage: "Maximum number of retries for connection/protocol errors.", EnvVars: []string{"TUNNEL_RETRIES"}, Hidden: shouldHide, }), altsrc.NewIntFlag(&cli.IntFlag{ Name: "ha-connections", Value: 4, Hidden: true, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "grace-period", Usage: "When cloudflared receives SIGINT/SIGTERM it will stop accepting new requests, wait for in-progress requests to terminate, then shutdown. Waiting for in-progress requests will timeout after this grace period, or when a second SIGTERM/SIGINT is received.", Value: time.Second * 30, EnvVars: []string{"TUNNEL_GRACE_PERIOD"}, Hidden: shouldHide, }), // Note TUN-3758 , we use Int because UInt is not supported with altsrc altsrc.NewIntFlag(&cli.IntFlag{ Name: "compression-quality", Value: 0, Usage: "(beta) Use cross-stream compression instead HTTP compression. 0-off, 1-low, 2-medium, >=3-high.", EnvVars: []string{"TUNNEL_COMPRESSION_LEVEL"}, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "use-reconnect-token", Usage: "Test reestablishing connections with the new 'reconnect token' flow.", Value: true, EnvVars: []string{"TUNNEL_USE_RECONNECT_TOKEN"}, Hidden: true, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "dial-edge-timeout", Usage: "Maximum wait time to set up a connection with the edge", Value: time.Second * 15, EnvVars: []string{"DIAL_EDGE_TIMEOUT"}, Hidden: true, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "stdin-control", Usage: "Control the process using commands sent through stdin", EnvVars: []string{"STDIN_CONTROL"}, Hidden: true, Value: false, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "name", Aliases: []string{"n"}, EnvVars: []string{"TUNNEL_NAME"}, Usage: "Stable name to identify the tunnel. Using this flag will create, route and run a tunnel. For production usage, execute each command separately", Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: uiFlag, Usage: "Launch tunnel UI. Tunnel logs are scrollable via 'j', 'k', or arrow keys.", Value: false, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "quick-service", Usage: "URL for a service which manages unauthenticated 'quick' tunnels.", Value: "https://api.trycloudflare.com", Hidden: true, }), altsrc.NewIntFlag(&cli.IntFlag{ Name: "max-fetch-size", Usage: `The maximum number of results that cloudflared can fetch from Cloudflare API for any listing operations needed`, EnvVars: []string{"TUNNEL_MAX_FETCH_SIZE"}, Hidden: true, }), selectProtocolFlag, overwriteDNSFlag, }...) return flags } // Flags in tunnel command that is relevant to run subcommand func configureCloudflaredFlags(shouldHide bool) []cli.Flag { return []cli.Flag{ &cli.StringFlag{ Name: "config", Usage: "Specifies a config file in YAML format.", Value: config.FindDefaultConfigPath(), Hidden: shouldHide, }, altsrc.NewStringFlag(&cli.StringFlag{ Name: "origincert", Usage: "Path to the certificate generated for your origin when you run cloudflared login.", EnvVars: []string{"TUNNEL_ORIGIN_CERT"}, Value: findDefaultOriginCertPath(), Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "autoupdate-freq", Usage: fmt.Sprintf("Autoupdate frequency. Default is %v.", updater.DefaultCheckUpdateFreq), Value: updater.DefaultCheckUpdateFreq, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "no-autoupdate", Usage: "Disable periodic check for updates, restarting the server with the new version.", EnvVars: []string{"NO_AUTOUPDATE"}, Value: false, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "metrics", Value: "localhost:", Usage: "Listen address for metrics reporting.", EnvVars: []string{"TUNNEL_METRICS"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "pidfile", Usage: "Write the application's PID to this file after first successful connection.", EnvVars: []string{"TUNNEL_PIDFILE"}, Hidden: shouldHide, }), } } func configureProxyFlags(shouldHide bool) []cli.Flag { flags := []cli.Flag{ altsrc.NewStringFlag(&cli.StringFlag{ Name: "url", Value: "http://localhost:8080", Usage: "Connect to the local webserver at `URL`.", EnvVars: []string{"TUNNEL_URL"}, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "hello-world", Value: false, Usage: "Run Hello World Server", EnvVars: []string{"TUNNEL_HELLO_WORLD"}, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: ingress.Socks5Flag, Usage: "specify if this tunnel is running as a SOCK5 Server", EnvVars: []string{"TUNNEL_SOCKS"}, Value: false, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: ingress.ProxyConnectTimeoutFlag, Usage: "HTTP proxy timeout for establishing a new connection", Value: time.Second * 30, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: ingress.ProxyTLSTimeoutFlag, Usage: "HTTP proxy timeout for completing a TLS handshake", Value: time.Second * 10, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: ingress.ProxyTCPKeepAliveFlag, Usage: "HTTP proxy TCP keepalive duration", Value: time.Second * 30, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: ingress.ProxyNoHappyEyeballsFlag, Usage: "HTTP proxy should disable \"happy eyeballs\" for IPv4/v6 fallback", Hidden: shouldHide, }), altsrc.NewIntFlag(&cli.IntFlag{ Name: ingress.ProxyKeepAliveConnectionsFlag, Usage: "HTTP proxy maximum keepalive connection pool size", Value: 100, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: ingress.ProxyKeepAliveTimeoutFlag, Usage: "HTTP proxy timeout for closing an idle connection", Value: time.Second * 90, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "proxy-connection-timeout", Usage: "DEPRECATED. No longer has any effect.", Value: time.Second * 90, Hidden: shouldHide, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: "proxy-expect-continue-timeout", Usage: "DEPRECATED. No longer has any effect.", Value: time.Second * 90, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: ingress.HTTPHostHeaderFlag, Usage: "Sets the HTTP Host header for the local webserver.", EnvVars: []string{"TUNNEL_HTTP_HOST_HEADER"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: ingress.OriginServerNameFlag, Usage: "Hostname on the origin server certificate.", EnvVars: []string{"TUNNEL_ORIGIN_SERVER_NAME"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "unix-socket", Usage: "Path to unix socket to use instead of --url", EnvVars: []string{"TUNNEL_UNIX_SOCKET"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: tlsconfig.OriginCAPoolFlag, Usage: "Path to the CA for the certificate of your origin. This option should be used only if your certificate is not signed by Cloudflare.", EnvVars: []string{"TUNNEL_ORIGIN_CA_POOL"}, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: ingress.NoTLSVerifyFlag, Usage: "Disables TLS verification of the certificate presented by your origin. Will allow any certificate from the origin to be accepted. Note: The connection from your machine to Cloudflare's Edge is still encrypted.", EnvVars: []string{"NO_TLS_VERIFY"}, Hidden: shouldHide, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: ingress.NoChunkedEncodingFlag, Usage: "Disables chunked transfer encoding; useful if you are running a WSGI server.", EnvVars: []string{"TUNNEL_NO_CHUNKED_ENCODING"}, Hidden: shouldHide, }), } return append(flags, sshFlags(shouldHide)...) } func sshFlags(shouldHide bool) []cli.Flag { return []cli.Flag{ altsrc.NewStringFlag(&cli.StringFlag{ Name: sshPortFlag, Usage: "Localhost port that cloudflared SSH server will run on", Value: "2222", EnvVars: []string{"LOCAL_SSH_PORT"}, Hidden: true, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: sshIdleTimeoutFlag, Usage: "Connection timeout after no activity", EnvVars: []string{"SSH_IDLE_TIMEOUT"}, Hidden: true, }), altsrc.NewDurationFlag(&cli.DurationFlag{ Name: sshMaxTimeoutFlag, Usage: "Absolute connection timeout", EnvVars: []string{"SSH_MAX_TIMEOUT"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: bucketNameFlag, Usage: "Bucket name of where to upload SSH logs", EnvVars: []string{"BUCKET_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: regionNameFlag, Usage: "Region name of where to upload SSH logs", EnvVars: []string{"REGION_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: secretIDFlag, Usage: "Secret ID of where to upload SSH logs", EnvVars: []string{"SECRET_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: accessKeyIDFlag, Usage: "Access Key ID of where to upload SSH logs", EnvVars: []string{"ACCESS_CLIENT_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: sessionTokenIDFlag, Usage: "Session Token to use in the configuration of SSH logs uploading", EnvVars: []string{"SESSION_TOKEN_ID"}, Hidden: true, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: s3URLFlag, Usage: "S3 url of where to upload SSH logs", EnvVars: []string{"S3_URL"}, Hidden: true, }), altsrc.NewPathFlag(&cli.PathFlag{ Name: hostKeyPath, Usage: "Absolute path of directory to save SSH host keys in", EnvVars: []string{"HOST_KEY_PATH"}, Hidden: true, }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: ingress.SSHServerFlag, Value: false, Usage: "Run an SSH Server", EnvVars: []string{"TUNNEL_SSH_SERVER"}, Hidden: true, // TODO: remove when feature is complete }), altsrc.NewBoolFlag(&cli.BoolFlag{ Name: config.BastionFlag, Value: false, Usage: "Runs as jump host", EnvVars: []string{"TUNNEL_BASTION"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: ingress.ProxyAddressFlag, Usage: "Listen address for the proxy.", Value: "127.0.0.1", EnvVars: []string{"TUNNEL_PROXY_ADDRESS"}, Hidden: shouldHide, }), // Note TUN-3758 , we use Int because UInt is not supported with altsrc altsrc.NewIntFlag(&cli.IntFlag{ Name: ingress.ProxyPortFlag, Usage: "Listen port for the proxy.", Value: 0, EnvVars: []string{"TUNNEL_PROXY_PORT"}, Hidden: shouldHide, }), } } func configureLoggingFlags(shouldHide bool) []cli.Flag { return []cli.Flag{ altsrc.NewStringFlag(&cli.StringFlag{ Name: logger.LogLevelFlag, Value: "info", Usage: "Application logging level {debug, info, warn, error, fatal}. " + debugLevelWarning, EnvVars: []string{"TUNNEL_LOGLEVEL"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: logger.LogTransportLevelFlag, Aliases: []string{"proto-loglevel"}, // This flag used to be called proto-loglevel Value: "info", Usage: "Transport logging level(previously called protocol logging level) {debug, info, warn, error, fatal}", EnvVars: []string{"TUNNEL_PROTO_LOGLEVEL", "TUNNEL_TRANSPORT_LOGLEVEL"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: logger.LogFileFlag, Usage: "Save application log to this file for reporting issues.", EnvVars: []string{"TUNNEL_LOGFILE"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: logger.LogDirectoryFlag, Usage: "Save application log to this directory for reporting issues.", EnvVars: []string{"TUNNEL_LOGDIRECTORY"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "trace-output", Usage: "Name of trace output file, generated when cloudflared stops.", EnvVars: []string{"TUNNEL_TRACE_OUTPUT"}, Hidden: shouldHide, }), } } func configureProxyDNSFlags(shouldHide bool) []cli.Flag { return []cli.Flag{ altsrc.NewBoolFlag(&cli.BoolFlag{ Name: "proxy-dns", Usage: "Run a DNS over HTTPS proxy server.", EnvVars: []string{"TUNNEL_DNS"}, Hidden: shouldHide, }), altsrc.NewIntFlag(&cli.IntFlag{ Name: "proxy-dns-port", Value: 53, Usage: "Listen on given port for the DNS over HTTPS proxy server.", EnvVars: []string{"TUNNEL_DNS_PORT"}, Hidden: shouldHide, }), altsrc.NewStringFlag(&cli.StringFlag{ Name: "proxy-dns-address", Usage: "Listen address for the DNS over HTTPS proxy server.", Value: "localhost", EnvVars: []string{"TUNNEL_DNS_ADDRESS"}, Hidden: shouldHide, }), altsrc.NewStringSliceFlag(&cli.StringSliceFlag{ Name: "proxy-dns-upstream", Usage: "Upstream endpoint URL, you can specify multiple endpoints for redundancy.", Value: cli.NewStringSlice("https://1.1.1.1/dns-query", "https://1.0.0.1/dns-query"), EnvVars: []string{"TUNNEL_DNS_UPSTREAM"}, Hidden: shouldHide, }), altsrc.NewIntFlag(&cli.IntFlag{ Name: "proxy-dns-max-upstream-conns", Usage: "Maximum concurrent connections to upstream. Setting to 0 means unlimited.", Value: tunneldns.MaxUpstreamConnsDefault, Hidden: shouldHide, EnvVars: []string{"TUNNEL_DNS_MAX_UPSTREAM_CONNS"}, }), altsrc.NewStringSliceFlag(&cli.StringSliceFlag{ Name: "proxy-dns-bootstrap", Usage: "bootstrap endpoint URL, you can specify multiple endpoints for redundancy.", Value: cli.NewStringSlice( "https://162.159.36.1/dns-query", "https://162.159.46.1/dns-query", "https://[2606:4700:4700::1111]/dns-query", "https://[2606:4700:4700::1001]/dns-query", ), EnvVars: []string{"TUNNEL_DNS_BOOTSTRAP"}, Hidden: shouldHide, }), } } func stdinControl(reconnectCh chan origin.ReconnectSignal, log *zerolog.Logger) { for { scanner := bufio.NewScanner(os.Stdin) for scanner.Scan() { command := scanner.Text() parts := strings.SplitN(command, " ", 2) switch parts[0] { case "": break case "reconnect": var reconnect origin.ReconnectSignal if len(parts) > 1 { var err error if reconnect.Delay, err = time.ParseDuration(parts[1]); err != nil { log.Error().Msg(err.Error()) continue } } log.Info().Msgf("Sending %+v", reconnect) reconnectCh <- reconnect default: log.Info().Str(LogFieldCommand, command).Msg("Unknown command") fallthrough case "help": log.Info().Msg(`Supported command: reconnect [delay] - restarts one randomly chosen connection with optional delay before reconnect`) } } } }