func (s *systemRouter) getInfo(ctx context.Context, w http.ResponseWriter, r *http.Request, vars map[string]string) error {
info, err := s.backend.SystemInfo()
if err != nil {
return err
}
if s.cluster != nil {
info.Swarm = s.cluster.Info()
}
if versions.LessThan(httputils.VersionFromContext(ctx), "1.25") {
// TODO: handle this conversion in engine-api
type oldInfo struct {
*types.Info
ExecutionDriver string
}
old := &oldInfo{
Info: info,
ExecutionDriver: "<not supported>",
}
nameOnlySecurityOptions := []string{}
kvSecOpts, err := types.DecodeSecurityOptions(old.SecurityOptions)
if err != nil {
return err
}
for _, s := range kvSecOpts {
nameOnlySecurityOptions = append(nameOnlySecurityOptions, s.Name)
}
old.SecurityOptions = nameOnlySecurityOptions
return httputils.WriteJSON(w, http.StatusOK, old)
}
return httputils.WriteJSON(w, http.StatusOK, info)
}
func prettyPrintInfo(dockerCli *command.DockerCli, info types.Info) error {
fmt.Fprintf(dockerCli.Out(), "Containers: %d\n", info.Containers)
fmt.Fprintf(dockerCli.Out(), " Running: %d\n", info.ContainersRunning)
fmt.Fprintf(dockerCli.Out(), " Paused: %d\n", info.ContainersPaused)
fmt.Fprintf(dockerCli.Out(), " Stopped: %d\n", info.ContainersStopped)
fmt.Fprintf(dockerCli.Out(), "Images: %d\n", info.Images)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Server Version: %s\n", info.ServerVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Storage Driver: %s\n", info.Driver)
if info.DriverStatus != nil {
for _, pair := range info.DriverStatus {
fmt.Fprintf(dockerCli.Out(), " %s: %s\n", pair[0], pair[1])
// print a warning if devicemapper is using a loopback file
if pair[0] == "Data loop file" {
fmt.Fprintln(dockerCli.Err(), " WARNING: Usage of loopback devices is strongly discouraged for production use. Use `--storage-opt dm.thinpooldev` to specify a custom block storage device.")
}
}
}
if info.SystemStatus != nil {
for _, pair := range info.SystemStatus {
fmt.Fprintf(dockerCli.Out(), "%s: %s\n", pair[0], pair[1])
}
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Logging Driver: %s\n", info.LoggingDriver)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Cgroup Driver: %s\n", info.CgroupDriver)
fmt.Fprintf(dockerCli.Out(), "Plugins: \n")
fmt.Fprintf(dockerCli.Out(), " Volume:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Volume, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), " Network:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Network, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
if len(info.Plugins.Authorization) != 0 {
fmt.Fprintf(dockerCli.Out(), " Authorization:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Authorization, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
}
fmt.Fprintf(dockerCli.Out(), "Swarm: %v\n", info.Swarm.LocalNodeState)
if info.Swarm.LocalNodeState != swarm.LocalNodeStateInactive && info.Swarm.LocalNodeState != swarm.LocalNodeStateLocked {
fmt.Fprintf(dockerCli.Out(), " NodeID: %s\n", info.Swarm.NodeID)
if info.Swarm.Error != "" {
fmt.Fprintf(dockerCli.Out(), " Error: %v\n", info.Swarm.Error)
}
fmt.Fprintf(dockerCli.Out(), " Is Manager: %v\n", info.Swarm.ControlAvailable)
if info.Swarm.ControlAvailable {
fmt.Fprintf(dockerCli.Out(), " ClusterID: %s\n", info.Swarm.Cluster.ID)
fmt.Fprintf(dockerCli.Out(), " Managers: %d\n", info.Swarm.Managers)
fmt.Fprintf(dockerCli.Out(), " Nodes: %d\n", info.Swarm.Nodes)
fmt.Fprintf(dockerCli.Out(), " Orchestration:\n")
taskHistoryRetentionLimit := int64(0)
if info.Swarm.Cluster.Spec.Orchestration.TaskHistoryRetentionLimit != nil {
taskHistoryRetentionLimit = *info.Swarm.Cluster.Spec.Orchestration.TaskHistoryRetentionLimit
}
fmt.Fprintf(dockerCli.Out(), " Task History Retention Limit: %d\n", taskHistoryRetentionLimit)
fmt.Fprintf(dockerCli.Out(), " Raft:\n")
fmt.Fprintf(dockerCli.Out(), " Snapshot Interval: %d\n", info.Swarm.Cluster.Spec.Raft.SnapshotInterval)
if info.Swarm.Cluster.Spec.Raft.KeepOldSnapshots != nil {
fmt.Fprintf(dockerCli.Out(), " Number of Old Snapshots to Retain: %d\n", *info.Swarm.Cluster.Spec.Raft.KeepOldSnapshots)
}
fmt.Fprintf(dockerCli.Out(), " Heartbeat Tick: %d\n", info.Swarm.Cluster.Spec.Raft.HeartbeatTick)
fmt.Fprintf(dockerCli.Out(), " Election Tick: %d\n", info.Swarm.Cluster.Spec.Raft.ElectionTick)
fmt.Fprintf(dockerCli.Out(), " Dispatcher:\n")
fmt.Fprintf(dockerCli.Out(), " Heartbeat Period: %s\n", units.HumanDuration(time.Duration(info.Swarm.Cluster.Spec.Dispatcher.HeartbeatPeriod)))
fmt.Fprintf(dockerCli.Out(), " CA Configuration:\n")
fmt.Fprintf(dockerCli.Out(), " Expiry Duration: %s\n", units.HumanDuration(info.Swarm.Cluster.Spec.CAConfig.NodeCertExpiry))
if len(info.Swarm.Cluster.Spec.CAConfig.ExternalCAs) > 0 {
fmt.Fprintf(dockerCli.Out(), " External CAs:\n")
for _, entry := range info.Swarm.Cluster.Spec.CAConfig.ExternalCAs {
fmt.Fprintf(dockerCli.Out(), " %s: %s\n", entry.Protocol, entry.URL)
}
}
}
fmt.Fprintf(dockerCli.Out(), " Node Address: %s\n", info.Swarm.NodeAddr)
managers := []string{}
for _, entry := range info.Swarm.RemoteManagers {
managers = append(managers, entry.Addr)
}
if len(managers) > 0 {
sort.Strings(managers)
fmt.Fprintf(dockerCli.Out(), " Manager Addresses:\n")
for _, entry := range managers {
fmt.Fprintf(dockerCli.Out(), " %s\n", entry)
}
}
}
if len(info.Runtimes) > 0 {
fmt.Fprintf(dockerCli.Out(), "Runtimes:")
for name := range info.Runtimes {
fmt.Fprintf(dockerCli.Out(), " %s", name)
}
fmt.Fprint(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), "Default Runtime: %s\n", info.DefaultRuntime)
}
if info.OSType == "linux" {
fmt.Fprintf(dockerCli.Out(), "Init Binary: %v\n", info.InitBinary)
for _, ci := range []struct {
Name string
Commit types.Commit
}{
{"containerd", info.ContainerdCommit},
{"runc", info.RuncCommit},
{"init", info.InitCommit},
} {
fmt.Fprintf(dockerCli.Out(), "%s version: %s", ci.Name, ci.Commit.ID)
if ci.Commit.ID != ci.Commit.Expected {
fmt.Fprintf(dockerCli.Out(), " (expected: %s)", ci.Commit.Expected)
}
fmt.Fprintf(dockerCli.Out(), "\n")
}
if len(info.SecurityOptions) != 0 {
kvs, err := types.DecodeSecurityOptions(info.SecurityOptions)
if err != nil {
return err
}
fmt.Fprintf(dockerCli.Out(), "Security Options:\n")
for _, so := range kvs {
fmt.Fprintf(dockerCli.Out(), " %s\n", so.Name)
for _, o := range so.Options {
switch o.Key {
case "profile":
if o.Value != "default" {
fmt.Fprintf(dockerCli.Err(), " WARNING: You're not using the default seccomp profile\n")
}
fmt.Fprintf(dockerCli.Out(), " Profile: %s\n", o.Value)
}
}
}
}
}
// Isolation only has meaning on a Windows daemon.
if info.OSType == "windows" {
fmt.Fprintf(dockerCli.Out(), "Default Isolation: %v\n", info.Isolation)
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Kernel Version: %s\n", info.KernelVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Operating System: %s\n", info.OperatingSystem)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "OSType: %s\n", info.OSType)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Architecture: %s\n", info.Architecture)
fmt.Fprintf(dockerCli.Out(), "CPUs: %d\n", info.NCPU)
fmt.Fprintf(dockerCli.Out(), "Total Memory: %s\n", units.BytesSize(float64(info.MemTotal)))
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Name: %s\n", info.Name)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "ID: %s\n", info.ID)
fmt.Fprintf(dockerCli.Out(), "Docker Root Dir: %s\n", info.DockerRootDir)
fmt.Fprintf(dockerCli.Out(), "Debug Mode (client): %v\n", debug.IsEnabled())
fmt.Fprintf(dockerCli.Out(), "Debug Mode (server): %v\n", info.Debug)
if info.Debug {
fmt.Fprintf(dockerCli.Out(), " File Descriptors: %d\n", info.NFd)
fmt.Fprintf(dockerCli.Out(), " Goroutines: %d\n", info.NGoroutines)
fmt.Fprintf(dockerCli.Out(), " System Time: %s\n", info.SystemTime)
fmt.Fprintf(dockerCli.Out(), " EventsListeners: %d\n", info.NEventsListener)
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Http Proxy: %s\n", info.HTTPProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Https Proxy: %s\n", info.HTTPSProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "No Proxy: %s\n", info.NoProxy)
if info.IndexServerAddress != "" {
u := dockerCli.ConfigFile().AuthConfigs[info.IndexServerAddress].Username
if len(u) > 0 {
fmt.Fprintf(dockerCli.Out(), "Username: %v\n", u)
}
fmt.Fprintf(dockerCli.Out(), "Registry: %v\n", info.IndexServerAddress)
}
// Only output these warnings if the server does not support these features
if info.OSType != "windows" {
if !info.MemoryLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No memory limit support")
}
if !info.SwapLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No swap limit support")
}
if !info.KernelMemory {
fmt.Fprintln(dockerCli.Err(), "WARNING: No kernel memory limit support")
}
if !info.OomKillDisable {
fmt.Fprintln(dockerCli.Err(), "WARNING: No oom kill disable support")
}
if !info.CPUCfsQuota {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs quota support")
}
if !info.CPUCfsPeriod {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs period support")
}
if !info.CPUShares {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu shares support")
}
if !info.CPUSet {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpuset support")
}
if !info.IPv4Forwarding {
fmt.Fprintln(dockerCli.Err(), "WARNING: IPv4 forwarding is disabled")
}
if !info.BridgeNfIptables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-iptables is disabled")
}
if !info.BridgeNfIP6tables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-ip6tables is disabled")
}
}
if info.Labels != nil {
fmt.Fprintln(dockerCli.Out(), "Labels:")
for _, attribute := range info.Labels {
fmt.Fprintf(dockerCli.Out(), " %s\n", attribute)
}
// TODO: Engine labels with duplicate keys has been deprecated in 1.13 and will be error out
// after 3 release cycles (1.16). For now, a WARNING will be generated. The following will
// be removed eventually.
labelMap := map[string]string{}
for _, label := range info.Labels {
stringSlice := strings.SplitN(label, "=", 2)
if len(stringSlice) > 1 {
// If there is a conflict we will throw out a warning
if v, ok := labelMap[stringSlice[0]]; ok && v != stringSlice[1] {
fmt.Fprintln(dockerCli.Err(), "WARNING: labels with duplicate keys and conflicting values have been deprecated")
break
}
labelMap[stringSlice[0]] = stringSlice[1]
}
}
}
fmt.Fprintf(dockerCli.Out(), "Experimental: %v\n", info.ExperimentalBuild)
if info.ClusterStore != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Store: %s\n", info.ClusterStore)
}
if info.ClusterAdvertise != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Advertise: %s\n", info.ClusterAdvertise)
}
if info.RegistryConfig != nil && (len(info.RegistryConfig.InsecureRegistryCIDRs) > 0 || len(info.RegistryConfig.IndexConfigs) > 0) {
fmt.Fprintln(dockerCli.Out(), "Insecure Registries:")
for _, registry := range info.RegistryConfig.IndexConfigs {
if registry.Secure == false {
fmt.Fprintf(dockerCli.Out(), " %s\n", registry.Name)
}
}
for _, registry := range info.RegistryConfig.InsecureRegistryCIDRs {
mask, _ := registry.Mask.Size()
fmt.Fprintf(dockerCli.Out(), " %s/%d\n", registry.IP.String(), mask)
}
}
if info.RegistryConfig != nil && len(info.RegistryConfig.Mirrors) > 0 {
fmt.Fprintln(dockerCli.Out(), "Registry Mirrors:")
for _, mirror := range info.RegistryConfig.Mirrors {
fmt.Fprintf(dockerCli.Out(), " %s\n", mirror)
}
}
fmt.Fprintf(dockerCli.Out(), "Live Restore Enabled: %v\n", info.LiveRestoreEnabled)
return nil
}
