// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause // Package hostinfo answers questions about the host environment that Tailscale is // running on. package hostinfo import ( "bufio" "bytes" "io" "os" "os/exec" "runtime" "runtime/debug" "strings" "sync" "sync/atomic" "time" "go4.org/mem" "tailscale.com/envknob" "tailscale.com/tailcfg" "tailscale.com/types/opt" "tailscale.com/types/ptr" "tailscale.com/util/cloudenv" "tailscale.com/util/dnsname" "tailscale.com/util/lineread" "tailscale.com/version" ) var started = time.Now() // New returns a partially populated Hostinfo for the current host. func New() *tailcfg.Hostinfo { hostname, _ := os.Hostname() hostname = dnsname.FirstLabel(hostname) return &tailcfg.Hostinfo{ IPNVersion: version.Long(), Hostname: hostname, App: appTypeCached(), OS: version.OS(), OSVersion: GetOSVersion(), Container: lazyInContainer.Get(), Distro: condCall(distroName), DistroVersion: condCall(distroVersion), DistroCodeName: condCall(distroCodeName), Env: string(GetEnvType()), Desktop: desktop(), Package: packageTypeCached(), GoArch: runtime.GOARCH, GoArchVar: lazyGoArchVar.Get(), GoVersion: runtime.Version(), Machine: condCall(unameMachine), DeviceModel: deviceModel(), PushDeviceToken: pushDeviceToken(), Cloud: string(cloudenv.Get()), NoLogsNoSupport: envknob.NoLogsNoSupport(), AllowsUpdate: envknob.AllowsRemoteUpdate(), } } // non-nil on some platforms var ( osVersion func() string packageType func() string distroName func() string distroVersion func() string distroCodeName func() string unameMachine func() string ) func condCall[T any](fn func() T) T { var zero T if fn == nil { return zero } return fn() } var ( lazyInContainer = &lazyAtomicValue[opt.Bool]{f: ptr.To(inContainer)} lazyGoArchVar = &lazyAtomicValue[string]{f: ptr.To(goArchVar)} ) type lazyAtomicValue[T any] struct { // f is a pointer to a fill function. If it's nil or points // to nil, then Get returns the zero value for T. f *func() T once sync.Once v T } func (v *lazyAtomicValue[T]) Get() T { v.once.Do(v.fill) return v.v } func (v *lazyAtomicValue[T]) fill() { if v.f == nil || *v.f == nil { return } v.v = (*v.f)() } // GetOSVersion returns the OSVersion of current host if available. func GetOSVersion() string { if s, _ := osVersionAtomic.Load().(string); s != "" { return s } if osVersion != nil { return osVersion() } return "" } func appTypeCached() string { if v, ok := appType.Load().(string); ok { return v } return "" } func packageTypeCached() string { if v, _ := packagingType.Load().(string); v != "" { return v } if packageType == nil { return "" } v := packageType() if v != "" { SetPackage(v) } return v } // EnvType represents a known environment type. // The empty string, the default, means unknown. type EnvType string const ( KNative = EnvType("kn") AWSLambda = EnvType("lm") Heroku = EnvType("hr") AzureAppService = EnvType("az") AWSFargate = EnvType("fg") FlyDotIo = EnvType("fly") Kubernetes = EnvType("k8s") DockerDesktop = EnvType("dde") Replit = EnvType("repl") HomeAssistantAddOn = EnvType("haao") ) var envType atomic.Value // of EnvType func GetEnvType() EnvType { if e, ok := envType.Load().(EnvType); ok { return e } e := getEnvType() envType.Store(e) return e } var ( pushDeviceTokenAtomic atomic.Value // of string deviceModelAtomic atomic.Value // of string osVersionAtomic atomic.Value // of string desktopAtomic atomic.Value // of opt.Bool packagingType atomic.Value // of string appType atomic.Value // of string ) // SetPushDeviceToken sets the device token for use in Hostinfo updates. func SetPushDeviceToken(token string) { pushDeviceTokenAtomic.Store(token) } // SetDeviceModel sets the device model for use in Hostinfo updates. func SetDeviceModel(model string) { deviceModelAtomic.Store(model) } // SetOSVersion sets the OS version. func SetOSVersion(v string) { osVersionAtomic.Store(v) } // SetPackage sets the packaging type for the app. // // As of 2022-03-25, this is used by Android ("nogoogle" for the // F-Droid build) and tsnet (set to "tsnet"). func SetPackage(v string) { packagingType.Store(v) } // SetApp sets the app type for the app. // It is used by tsnet to specify what app is using it such as "golinks" // and "k8s-operator". func SetApp(v string) { appType.Store(v) } func deviceModel() string { s, _ := deviceModelAtomic.Load().(string) return s } func pushDeviceToken() string { s, _ := pushDeviceTokenAtomic.Load().(string) return s } func desktop() (ret opt.Bool) { if runtime.GOOS != "linux" { return opt.Bool("") } if v := desktopAtomic.Load(); v != nil { v, _ := v.(opt.Bool) return v } seenDesktop := false lineread.File("/proc/net/unix", func(line []byte) error { seenDesktop = seenDesktop || mem.Contains(mem.B(line), mem.S(" @/tmp/dbus-")) seenDesktop = seenDesktop || mem.Contains(mem.B(line), mem.S(".X11-unix")) seenDesktop = seenDesktop || mem.Contains(mem.B(line), mem.S("/wayland-1")) return nil }) ret.Set(seenDesktop) // Only cache after a minute - compositors might not have started yet. if time.Since(started) > time.Minute { desktopAtomic.Store(ret) } return ret } func getEnvType() EnvType { if inKnative() { return KNative } if inAWSLambda() { return AWSLambda } if inHerokuDyno() { return Heroku } if inAzureAppService() { return AzureAppService } if inAWSFargate() { return AWSFargate } if inFlyDotIo() { return FlyDotIo } if inKubernetes() { return Kubernetes } if inDockerDesktop() { return DockerDesktop } if inReplit() { return Replit } if inHomeAssistantAddOn() { return HomeAssistantAddOn } return "" } // inContainer reports whether we're running in a container. func inContainer() opt.Bool { if runtime.GOOS != "linux" { return "" } var ret opt.Bool ret.Set(false) if _, err := os.Stat("/.dockerenv"); err == nil { ret.Set(true) return ret } if _, err := os.Stat("/run/.containerenv"); err == nil { // See https://github.com/cri-o/cri-o/issues/5461 ret.Set(true) return ret } lineread.File("/proc/1/cgroup", func(line []byte) error { if mem.Contains(mem.B(line), mem.S("/docker/")) || mem.Contains(mem.B(line), mem.S("/lxc/")) { ret.Set(true) return io.EOF // arbitrary non-nil error to stop loop } return nil }) lineread.File("/proc/mounts", func(line []byte) error { if mem.Contains(mem.B(line), mem.S("lxcfs /proc/cpuinfo fuse.lxcfs")) { ret.Set(true) return io.EOF } return nil }) return ret } func inKnative() bool { // https://cloud.google.com/run/docs/reference/container-contract#env-vars if os.Getenv("K_REVISION") != "" && os.Getenv("K_CONFIGURATION") != "" && os.Getenv("K_SERVICE") != "" && os.Getenv("PORT") != "" { return true } return false } func inAWSLambda() bool { // https://docs.aws.amazon.com/lambda/latest/dg/configuration-envvars.html if os.Getenv("AWS_LAMBDA_FUNCTION_NAME") != "" && os.Getenv("AWS_LAMBDA_FUNCTION_VERSION") != "" && os.Getenv("AWS_LAMBDA_INITIALIZATION_TYPE") != "" && os.Getenv("AWS_LAMBDA_RUNTIME_API") != "" { return true } return false } func inHerokuDyno() bool { // https://devcenter.heroku.com/articles/dynos#local-environment-variables if os.Getenv("PORT") != "" && os.Getenv("DYNO") != "" { return true } return false } func inAzureAppService() bool { if os.Getenv("APPSVC_RUN_ZIP") != "" && os.Getenv("WEBSITE_STACK") != "" && os.Getenv("WEBSITE_AUTH_AUTO_AAD") != "" { return true } return false } func inAWSFargate() bool { if os.Getenv("AWS_EXECUTION_ENV") == "AWS_ECS_FARGATE" { return true } return false } func inFlyDotIo() bool { if os.Getenv("FLY_APP_NAME") != "" && os.Getenv("FLY_REGION") != "" { return true } return false } func inReplit() bool { // https://docs.replit.com/programming-ide/getting-repl-metadata if os.Getenv("REPL_OWNER") != "" && os.Getenv("REPL_SLUG") != "" { return true } return false } func inKubernetes() bool { if os.Getenv("KUBERNETES_SERVICE_HOST") != "" && os.Getenv("KUBERNETES_SERVICE_PORT") != "" { return true } return false } func inDockerDesktop() bool { if os.Getenv("TS_HOST_ENV") == "dde" { return true } return false } func inHomeAssistantAddOn() bool { if os.Getenv("SUPERVISOR_TOKEN") != "" || os.Getenv("HASSIO_TOKEN") != "" { return true } return false } // goArchVar returns the GOARM or GOAMD64 etc value that the binary was built // with. func goArchVar() string { bi, ok := debug.ReadBuildInfo() if !ok { return "" } // Look for GOARM, GOAMD64, GO386, etc. Note that the little-endian // "le"-suffixed GOARCH values don't have their own environment variable. // // See https://pkg.go.dev/cmd/go#hdr-Environment_variables and the // "Architecture-specific environment variables" section: wantKey := "GO" + strings.ToUpper(strings.TrimSuffix(runtime.GOARCH, "le")) for _, s := range bi.Settings { if s.Key == wantKey { return s.Value } } return "" } type etcAptSrcResult struct { mod time.Time disabled bool } var etcAptSrcCache atomic.Value // of etcAptSrcResult // DisabledEtcAptSource reports whether Ubuntu (or similar) has disabled // the /etc/apt/sources.list.d/tailscale.list file contents upon upgrade // to a new release of the distro. // // See https://github.com/tailscale/tailscale/issues/3177 func DisabledEtcAptSource() bool { if runtime.GOOS != "linux" { return false } const path = "/etc/apt/sources.list.d/tailscale.list" fi, err := os.Stat(path) if err != nil || !fi.Mode().IsRegular() { return false } mod := fi.ModTime() if c, ok := etcAptSrcCache.Load().(etcAptSrcResult); ok && c.mod.Equal(mod) { return c.disabled } f, err := os.Open(path) if err != nil { return false } defer f.Close() v := etcAptSourceFileIsDisabled(f) etcAptSrcCache.Store(etcAptSrcResult{mod: mod, disabled: v}) return v } func etcAptSourceFileIsDisabled(r io.Reader) bool { bs := bufio.NewScanner(r) disabled := false // did we find the "disabled on upgrade" comment? for bs.Scan() { line := strings.TrimSpace(bs.Text()) if strings.Contains(line, "# disabled on upgrade") { disabled = true } if line == "" || line[0] == '#' { continue } // Well, it has some contents in it at least. return false } return disabled } // IsSELinuxEnforcing reports whether SELinux is in "Enforcing" mode. func IsSELinuxEnforcing() bool { if runtime.GOOS != "linux" { return false } out, _ := exec.Command("getenforce").Output() return string(bytes.TrimSpace(out)) == "Enforcing" }