package daemon // import "github.com/docker/docker/daemon" import ( "fmt" "net/url" "os" "runtime" "strings" "time" "github.com/docker/docker/api" "github.com/docker/docker/api/types" "github.com/docker/docker/cli/debug" "github.com/docker/docker/daemon/logger" "github.com/docker/docker/dockerversion" "github.com/docker/docker/pkg/fileutils" "github.com/docker/docker/pkg/parsers/kernel" "github.com/docker/docker/pkg/parsers/operatingsystem" "github.com/docker/docker/pkg/platform" "github.com/docker/docker/pkg/sysinfo" "github.com/docker/docker/pkg/system" "github.com/docker/docker/registry" "github.com/docker/go-connections/sockets" "github.com/sirupsen/logrus" ) // SystemInfo returns information about the host server the daemon is running on. func (daemon *Daemon) SystemInfo() (*types.Info, error) { sysInfo := sysinfo.New(true) cRunning, cPaused, cStopped := stateCtr.get() v := &types.Info{ ID: daemon.ID, Containers: cRunning + cPaused + cStopped, ContainersRunning: cRunning, ContainersPaused: cPaused, ContainersStopped: cStopped, Images: daemon.imageService.CountImages(), IPv4Forwarding: !sysInfo.IPv4ForwardingDisabled, BridgeNfIptables: !sysInfo.BridgeNFCallIPTablesDisabled, BridgeNfIP6tables: !sysInfo.BridgeNFCallIP6TablesDisabled, Debug: debug.IsEnabled(), Name: hostName(), NFd: fileutils.GetTotalUsedFds(), NGoroutines: runtime.NumGoroutine(), SystemTime: time.Now().Format(time.RFC3339Nano), LoggingDriver: daemon.defaultLogConfig.Type, CgroupDriver: daemon.getCgroupDriver(), NEventsListener: daemon.EventsService.SubscribersCount(), KernelVersion: kernelVersion(), OperatingSystem: operatingSystem(), IndexServerAddress: registry.IndexServer, OSType: platform.OSType, Architecture: platform.Architecture, RegistryConfig: daemon.RegistryService.ServiceConfig(), NCPU: sysinfo.NumCPU(), MemTotal: memInfo().MemTotal, GenericResources: daemon.genericResources, DockerRootDir: daemon.configStore.Root, Labels: daemon.configStore.Labels, ExperimentalBuild: daemon.configStore.Experimental, ServerVersion: dockerversion.Version, ClusterStore: daemon.configStore.ClusterStore, ClusterAdvertise: daemon.configStore.ClusterAdvertise, HTTPProxy: maskCredentials(sockets.GetProxyEnv("http_proxy")), HTTPSProxy: maskCredentials(sockets.GetProxyEnv("https_proxy")), NoProxy: sockets.GetProxyEnv("no_proxy"), LiveRestoreEnabled: daemon.configStore.LiveRestoreEnabled, Isolation: daemon.defaultIsolation, } daemon.fillAPIInfo(v) // Retrieve platform specific info daemon.fillPlatformInfo(v, sysInfo) daemon.fillDriverInfo(v) daemon.fillPluginsInfo(v) daemon.fillSecurityOptions(v, sysInfo) daemon.fillLicense(v) return v, nil } // SystemVersion returns version information about the daemon. func (daemon *Daemon) SystemVersion() types.Version { kernelVersion := kernelVersion() v := types.Version{ Components: []types.ComponentVersion{ { Name: "Engine", Version: dockerversion.Version, Details: map[string]string{ "GitCommit": dockerversion.GitCommit, "ApiVersion": api.DefaultVersion, "MinAPIVersion": api.MinVersion, "GoVersion": runtime.Version(), "Os": runtime.GOOS, "Arch": runtime.GOARCH, "BuildTime": dockerversion.BuildTime, "KernelVersion": kernelVersion, "Experimental": fmt.Sprintf("%t", daemon.configStore.Experimental), }, }, }, // Populate deprecated fields for older clients Version: dockerversion.Version, GitCommit: dockerversion.GitCommit, APIVersion: api.DefaultVersion, MinAPIVersion: api.MinVersion, GoVersion: runtime.Version(), Os: runtime.GOOS, Arch: runtime.GOARCH, BuildTime: dockerversion.BuildTime, KernelVersion: kernelVersion, Experimental: daemon.configStore.Experimental, } v.Platform.Name = dockerversion.PlatformName return v } func (daemon *Daemon) fillDriverInfo(v *types.Info) { var ds [][2]string drivers := "" statuses := daemon.imageService.LayerStoreStatus() for os, gd := range daemon.graphDrivers { ds = append(ds, statuses[os]...) drivers += gd if len(daemon.graphDrivers) > 1 { drivers += fmt.Sprintf(" (%s) ", os) } switch gd { case "devicemapper": v.Warnings = append(v.Warnings, fmt.Sprintf("WARNING: the %s storage-driver is deprecated, and will be removed in a future release.", gd)) } } drivers = strings.TrimSpace(drivers) v.Driver = drivers v.DriverStatus = ds fillDriverWarnings(v) } func (daemon *Daemon) fillPluginsInfo(v *types.Info) { v.Plugins = types.PluginsInfo{ Volume: daemon.volumes.GetDriverList(), Network: daemon.GetNetworkDriverList(), // The authorization plugins are returned in the order they are // used as they constitute a request/response modification chain. Authorization: daemon.configStore.AuthorizationPlugins, Log: logger.ListDrivers(), } } func (daemon *Daemon) fillSecurityOptions(v *types.Info, sysInfo *sysinfo.SysInfo) { var securityOptions []string if sysInfo.AppArmor { securityOptions = append(securityOptions, "name=apparmor") } if sysInfo.Seccomp && supportsSeccomp { profile := daemon.seccompProfilePath if profile == "" { profile = "default" } securityOptions = append(securityOptions, fmt.Sprintf("name=seccomp,profile=%s", profile)) } if selinuxEnabled() { securityOptions = append(securityOptions, "name=selinux") } if rootIDs := daemon.idMapping.RootPair(); rootIDs.UID != 0 || rootIDs.GID != 0 { securityOptions = append(securityOptions, "name=userns") } v.SecurityOptions = securityOptions } func (daemon *Daemon) fillAPIInfo(v *types.Info) { const warn string = ` Access to the remote API is equivalent to root access on the host. Refer to the 'Docker daemon attack surface' section in the documentation for more information: https://docs.docker.com/engine/security/security/#docker-daemon-attack-surface` cfg := daemon.configStore for _, host := range cfg.Hosts { // cnf.Hosts is normalized during startup, so should always have a scheme/proto h := strings.SplitN(host, "://", 2) proto := h[0] addr := h[1] if proto != "tcp" { continue } if !cfg.TLS { v.Warnings = append(v.Warnings, fmt.Sprintf("WARNING: API is accessible on http://%s without encryption.%s", addr, warn)) continue } if !cfg.TLSVerify { v.Warnings = append(v.Warnings, fmt.Sprintf("WARNING: API is accessible on https://%s without TLS client verification.%s", addr, warn)) continue } } } func hostName() string { hostname := "" if hn, err := os.Hostname(); err != nil { logrus.Warnf("Could not get hostname: %v", err) } else { hostname = hn } return hostname } func kernelVersion() string { var kernelVersion string if kv, err := kernel.GetKernelVersion(); err != nil { logrus.Warnf("Could not get kernel version: %v", err) } else { kernelVersion = kv.String() } return kernelVersion } func memInfo() *system.MemInfo { memInfo, err := system.ReadMemInfo() if err != nil { logrus.Errorf("Could not read system memory info: %v", err) memInfo = &system.MemInfo{} } return memInfo } func operatingSystem() string { var operatingSystem string if s, err := operatingsystem.GetOperatingSystem(); err != nil { logrus.Warnf("Could not get operating system name: %v", err) } else { operatingSystem = s } // Don't do containerized check on Windows if runtime.GOOS != "windows" { if inContainer, err := operatingsystem.IsContainerized(); err != nil { logrus.Errorf("Could not determine if daemon is containerized: %v", err) operatingSystem += " (error determining if containerized)" } else if inContainer { operatingSystem += " (containerized)" } } return operatingSystem } func maskCredentials(rawURL string) string { parsedURL, err := url.Parse(rawURL) if err != nil || parsedURL.User == nil { return rawURL } parsedURL.User = url.UserPassword("xxxxx", "xxxxx") maskedURL := parsedURL.String() return maskedURL }