package libpod import ( "fmt" "sort" "strings" "github.com/containers/common/pkg/config" "github.com/containers/podman/v3/libpod/define" "github.com/containers/podman/v3/libpod/driver" "github.com/containers/podman/v3/pkg/util" units "github.com/docker/go-units" spec "github.com/opencontainers/runtime-spec/specs-go" "github.com/opencontainers/runtime-tools/generate" "github.com/opencontainers/runtime-tools/validate" "github.com/pkg/errors" "github.com/sirupsen/logrus" "github.com/syndtr/gocapability/capability" ) // inspectLocked inspects a container for low-level information. // The caller must held c.lock. func (c *Container) inspectLocked(size bool) (*define.InspectContainerData, error) { storeCtr, err := c.runtime.store.Container(c.ID()) if err != nil { return nil, errors.Wrapf(err, "error getting container from store %q", c.ID()) } layer, err := c.runtime.store.Layer(storeCtr.LayerID) if err != nil { return nil, errors.Wrapf(err, "error reading information about layer %q", storeCtr.LayerID) } driverData, err := driver.GetDriverData(c.runtime.store, layer.ID) if err != nil { return nil, errors.Wrapf(err, "error getting graph driver info %q", c.ID()) } return c.getContainerInspectData(size, driverData) } // Inspect a container for low-level information func (c *Container) Inspect(size bool) (*define.InspectContainerData, error) { if !c.batched { c.lock.Lock() defer c.lock.Unlock() if err := c.syncContainer(); err != nil { return nil, err } } return c.inspectLocked(size) } func (c *Container) getContainerInspectData(size bool, driverData *define.DriverData) (*define.InspectContainerData, error) { config := c.config runtimeInfo := c.state ctrSpec, err := c.specFromState() if err != nil { return nil, err } // Process is allowed to be nil in the stateSpec args := []string{} if config.Spec.Process != nil { args = config.Spec.Process.Args } var path string if len(args) > 0 { path = args[0] } if len(args) > 1 { args = args[1:] } execIDs := []string{} for id := range c.state.ExecSessions { execIDs = append(execIDs, id) } resolvPath := "" hostsPath := "" hostnamePath := "" if c.state.BindMounts != nil { if getPath, ok := c.state.BindMounts["/etc/resolv.conf"]; ok { resolvPath = getPath } if getPath, ok := c.state.BindMounts["/etc/hosts"]; ok { hostsPath = getPath } if getPath, ok := c.state.BindMounts["/etc/hostname"]; ok { hostnamePath = getPath } } namedVolumes, mounts := c.sortUserVolumes(ctrSpec) inspectMounts, err := c.GetInspectMounts(namedVolumes, c.config.ImageVolumes, mounts) if err != nil { return nil, err } data := &define.InspectContainerData{ ID: config.ID, Created: config.CreatedTime, Path: path, Args: args, State: &define.InspectContainerState{ OciVersion: ctrSpec.Version, Status: runtimeInfo.State.String(), Running: runtimeInfo.State == define.ContainerStateRunning, Paused: runtimeInfo.State == define.ContainerStatePaused, OOMKilled: runtimeInfo.OOMKilled, Dead: runtimeInfo.State.String() == "bad state", Pid: runtimeInfo.PID, ConmonPid: runtimeInfo.ConmonPID, ExitCode: runtimeInfo.ExitCode, Error: "", // can't get yet StartedAt: runtimeInfo.StartedTime, FinishedAt: runtimeInfo.FinishedTime, Checkpointed: runtimeInfo.Checkpointed, }, Image: config.RootfsImageID, ImageName: config.RootfsImageName, ExitCommand: config.ExitCommand, Namespace: config.Namespace, Rootfs: config.Rootfs, Pod: config.Pod, ResolvConfPath: resolvPath, HostnamePath: hostnamePath, HostsPath: hostsPath, StaticDir: config.StaticDir, OCIRuntime: config.OCIRuntime, ConmonPidFile: config.ConmonPidFile, PidFile: config.PidFile, Name: config.Name, RestartCount: int32(runtimeInfo.RestartCount), Driver: driverData.Name, MountLabel: config.MountLabel, ProcessLabel: config.ProcessLabel, EffectiveCaps: ctrSpec.Process.Capabilities.Effective, BoundingCaps: ctrSpec.Process.Capabilities.Bounding, AppArmorProfile: ctrSpec.Process.ApparmorProfile, ExecIDs: execIDs, GraphDriver: driverData, Mounts: inspectMounts, Dependencies: c.Dependencies(), IsInfra: c.IsInfra(), } if c.state.ConfigPath != "" { data.OCIConfigPath = c.state.ConfigPath } if c.config.HealthCheckConfig != nil { // This container has a healthcheck defined in it; we need to add it's state healthCheckState, err := c.getHealthCheckLog() if err != nil { // An error here is not considered fatal; no health state will be displayed logrus.Error(err) } else { data.State.Health = healthCheckState } } networkConfig, err := c.getContainerNetworkInfo() if err != nil { return nil, err } data.NetworkSettings = networkConfig inspectConfig := c.generateInspectContainerConfig(ctrSpec) data.Config = inspectConfig hostConfig, err := c.generateInspectContainerHostConfig(ctrSpec, namedVolumes, mounts) if err != nil { return nil, err } data.HostConfig = hostConfig if size { rootFsSize, err := c.rootFsSize() if err != nil { logrus.Errorf("Getting rootfs size %q: %v", config.ID, err) } data.SizeRootFs = rootFsSize rwSize, err := c.rwSize() if err != nil { logrus.Errorf("Getting rw size %q: %v", config.ID, err) } data.SizeRw = &rwSize } return data, nil } // Get inspect-formatted mounts list. // Only includes user-specified mounts. Only includes bind mounts and named // volumes, not tmpfs volumes. func (c *Container) GetInspectMounts(namedVolumes []*ContainerNamedVolume, imageVolumes []*ContainerImageVolume, mounts []spec.Mount) ([]define.InspectMount, error) { inspectMounts := []define.InspectMount{} // No mounts, return early if len(c.config.UserVolumes) == 0 { return inspectMounts, nil } for _, volume := range namedVolumes { mountStruct := define.InspectMount{} mountStruct.Type = "volume" mountStruct.Destination = volume.Dest mountStruct.Name = volume.Name // For src and driver, we need to look up the named // volume. volFromDB, err := c.runtime.state.Volume(volume.Name) if err != nil { return nil, errors.Wrapf(err, "error looking up volume %s in container %s config", volume.Name, c.ID()) } mountStruct.Driver = volFromDB.Driver() mountPoint, err := volFromDB.MountPoint() if err != nil { return nil, err } mountStruct.Source = mountPoint parseMountOptionsForInspect(volume.Options, &mountStruct) inspectMounts = append(inspectMounts, mountStruct) } for _, volume := range imageVolumes { mountStruct := define.InspectMount{} mountStruct.Type = "image" mountStruct.Destination = volume.Dest mountStruct.Source = volume.Source mountStruct.RW = volume.ReadWrite inspectMounts = append(inspectMounts, mountStruct) } for _, mount := range mounts { // It's a mount. // Is it a tmpfs? If so, discard. if mount.Type == "tmpfs" { continue } mountStruct := define.InspectMount{} mountStruct.Type = "bind" mountStruct.Source = mount.Source mountStruct.Destination = mount.Destination parseMountOptionsForInspect(mount.Options, &mountStruct) inspectMounts = append(inspectMounts, mountStruct) } return inspectMounts, nil } // Parse mount options so we can populate them in the mount structure. // The mount passed in will be modified. func parseMountOptionsForInspect(options []string, mount *define.InspectMount) { isRW := true mountProp := "" zZ := "" otherOpts := []string{} // Some of these may be overwritten if the user passes us garbage opts // (for example, [ro,rw]) // We catch these on the Podman side, so not a problem there, but other // users of libpod who do not properly validate mount options may see // this. // Not really worth dealing with on our end - garbage in, garbage out. for _, opt := range options { switch opt { case "ro": isRW = false case "rw": // Do nothing, silently discard case "shared", "slave", "private", "rshared", "rslave", "rprivate", "unbindable", "runbindable": mountProp = opt case "z", "Z": zZ = opt default: otherOpts = append(otherOpts, opt) } } mount.RW = isRW mount.Propagation = mountProp mount.Mode = zZ mount.Options = otherOpts } // Generate the InspectContainerConfig struct for the Config field of Inspect. func (c *Container) generateInspectContainerConfig(spec *spec.Spec) *define.InspectContainerConfig { ctrConfig := new(define.InspectContainerConfig) ctrConfig.Hostname = c.Hostname() ctrConfig.User = c.config.User if spec.Process != nil { ctrConfig.Tty = spec.Process.Terminal ctrConfig.Env = []string{} ctrConfig.Env = append(ctrConfig.Env, spec.Process.Env...) ctrConfig.WorkingDir = spec.Process.Cwd } ctrConfig.StopTimeout = c.config.StopTimeout ctrConfig.Timeout = c.config.Timeout ctrConfig.OpenStdin = c.config.Stdin ctrConfig.Image = c.config.RootfsImageName ctrConfig.SystemdMode = c.config.Systemd // Leave empty is not explicitly overwritten by user if len(c.config.Command) != 0 { ctrConfig.Cmd = []string{} ctrConfig.Cmd = append(ctrConfig.Cmd, c.config.Command...) } // Leave empty if not explicitly overwritten by user if len(c.config.Entrypoint) != 0 { ctrConfig.Entrypoint = strings.Join(c.config.Entrypoint, " ") } if len(c.config.Labels) != 0 { ctrConfig.Labels = make(map[string]string) for k, v := range c.config.Labels { ctrConfig.Labels[k] = v } } if len(spec.Annotations) != 0 { ctrConfig.Annotations = make(map[string]string) for k, v := range spec.Annotations { ctrConfig.Annotations[k] = v } } ctrConfig.StopSignal = c.config.StopSignal // TODO: should JSON deep copy this to ensure internal pointers don't // leak. ctrConfig.Healthcheck = c.config.HealthCheckConfig ctrConfig.CreateCommand = c.config.CreateCommand ctrConfig.Timezone = c.config.Timezone for _, secret := range c.config.Secrets { newSec := define.InspectSecret{} newSec.Name = secret.Name newSec.ID = secret.ID newSec.UID = secret.UID newSec.GID = secret.GID newSec.Mode = secret.Mode ctrConfig.Secrets = append(ctrConfig.Secrets, &newSec) } // Pad Umask to 4 characters if len(c.config.Umask) < 4 { pad := strings.Repeat("0", 4-len(c.config.Umask)) ctrConfig.Umask = pad + c.config.Umask } else { ctrConfig.Umask = c.config.Umask } return ctrConfig } // Generate the InspectContainerHostConfig struct for the HostConfig field of // Inspect. func (c *Container) generateInspectContainerHostConfig(ctrSpec *spec.Spec, namedVolumes []*ContainerNamedVolume, mounts []spec.Mount) (*define.InspectContainerHostConfig, error) { hostConfig := new(define.InspectContainerHostConfig) logConfig := new(define.InspectLogConfig) logConfig.Type = c.config.LogDriver logConfig.Path = c.config.LogPath logConfig.Size = units.HumanSize(float64(c.config.LogSize)) logConfig.Tag = c.config.LogTag hostConfig.LogConfig = logConfig restartPolicy := new(define.InspectRestartPolicy) restartPolicy.Name = c.config.RestartPolicy restartPolicy.MaximumRetryCount = c.config.RestartRetries hostConfig.RestartPolicy = restartPolicy if c.config.NoCgroups { hostConfig.Cgroups = "disabled" } else { hostConfig.Cgroups = "default" } hostConfig.Dns = make([]string, 0, len(c.config.DNSServer)) for _, dns := range c.config.DNSServer { hostConfig.Dns = append(hostConfig.Dns, dns.String()) } hostConfig.DnsOptions = make([]string, 0, len(c.config.DNSOption)) hostConfig.DnsOptions = append(hostConfig.DnsOptions, c.config.DNSOption...) hostConfig.DnsSearch = make([]string, 0, len(c.config.DNSSearch)) hostConfig.DnsSearch = append(hostConfig.DnsSearch, c.config.DNSSearch...) hostConfig.ExtraHosts = make([]string, 0, len(c.config.HostAdd)) hostConfig.ExtraHosts = append(hostConfig.ExtraHosts, c.config.HostAdd...) hostConfig.GroupAdd = make([]string, 0, len(c.config.Groups)) hostConfig.GroupAdd = append(hostConfig.GroupAdd, c.config.Groups...) hostConfig.SecurityOpt = []string{} if ctrSpec.Process != nil { if ctrSpec.Process.OOMScoreAdj != nil { hostConfig.OomScoreAdj = *ctrSpec.Process.OOMScoreAdj } if ctrSpec.Process.NoNewPrivileges { hostConfig.SecurityOpt = append(hostConfig.SecurityOpt, "no-new-privileges") } } hostConfig.ReadonlyRootfs = ctrSpec.Root.Readonly hostConfig.ShmSize = c.config.ShmSize hostConfig.Runtime = "oci" // This is very expensive to initialize. // So we don't want to initialize it unless we absolutely have to - IE, // there are things that require a major:minor to path translation. var deviceNodes map[string]string // Annotations if ctrSpec.Annotations != nil { hostConfig.ContainerIDFile = ctrSpec.Annotations[define.InspectAnnotationCIDFile] if ctrSpec.Annotations[define.InspectAnnotationAutoremove] == define.InspectResponseTrue { hostConfig.AutoRemove = true } if ctrs, ok := ctrSpec.Annotations[define.InspectAnnotationVolumesFrom]; ok { hostConfig.VolumesFrom = strings.Split(ctrs, ",") } if ctrSpec.Annotations[define.InspectAnnotationPrivileged] == define.InspectResponseTrue { hostConfig.Privileged = true } if ctrSpec.Annotations[define.InspectAnnotationInit] == define.InspectResponseTrue { hostConfig.Init = true } if label, ok := ctrSpec.Annotations[define.InspectAnnotationLabel]; ok { hostConfig.SecurityOpt = append(hostConfig.SecurityOpt, fmt.Sprintf("label=%s", label)) } if seccomp, ok := ctrSpec.Annotations[define.InspectAnnotationSeccomp]; ok { hostConfig.SecurityOpt = append(hostConfig.SecurityOpt, fmt.Sprintf("seccomp=%s", seccomp)) } if apparmor, ok := ctrSpec.Annotations[define.InspectAnnotationApparmor]; ok { hostConfig.SecurityOpt = append(hostConfig.SecurityOpt, fmt.Sprintf("apparmor=%s", apparmor)) } } // Resource limits if ctrSpec.Linux != nil { if ctrSpec.Linux.Resources != nil { if ctrSpec.Linux.Resources.CPU != nil { if ctrSpec.Linux.Resources.CPU.Shares != nil { hostConfig.CpuShares = *ctrSpec.Linux.Resources.CPU.Shares } if ctrSpec.Linux.Resources.CPU.Period != nil { hostConfig.CpuPeriod = *ctrSpec.Linux.Resources.CPU.Period } if ctrSpec.Linux.Resources.CPU.Quota != nil { hostConfig.CpuQuota = *ctrSpec.Linux.Resources.CPU.Quota } if ctrSpec.Linux.Resources.CPU.RealtimePeriod != nil { hostConfig.CpuRealtimePeriod = *ctrSpec.Linux.Resources.CPU.RealtimePeriod } if ctrSpec.Linux.Resources.CPU.RealtimeRuntime != nil { hostConfig.CpuRealtimeRuntime = *ctrSpec.Linux.Resources.CPU.RealtimeRuntime } hostConfig.CpusetCpus = ctrSpec.Linux.Resources.CPU.Cpus hostConfig.CpusetMems = ctrSpec.Linux.Resources.CPU.Mems } if ctrSpec.Linux.Resources.Memory != nil { if ctrSpec.Linux.Resources.Memory.Limit != nil { hostConfig.Memory = *ctrSpec.Linux.Resources.Memory.Limit } if ctrSpec.Linux.Resources.Memory.Kernel != nil { hostConfig.KernelMemory = *ctrSpec.Linux.Resources.Memory.Kernel } if ctrSpec.Linux.Resources.Memory.Reservation != nil { hostConfig.MemoryReservation = *ctrSpec.Linux.Resources.Memory.Reservation } if ctrSpec.Linux.Resources.Memory.Swap != nil { hostConfig.MemorySwap = *ctrSpec.Linux.Resources.Memory.Swap } if ctrSpec.Linux.Resources.Memory.Swappiness != nil { hostConfig.MemorySwappiness = int64(*ctrSpec.Linux.Resources.Memory.Swappiness) } else { // Swappiness has a default of -1 hostConfig.MemorySwappiness = -1 } if ctrSpec.Linux.Resources.Memory.DisableOOMKiller != nil { hostConfig.OomKillDisable = *ctrSpec.Linux.Resources.Memory.DisableOOMKiller } } if ctrSpec.Linux.Resources.Pids != nil { hostConfig.PidsLimit = ctrSpec.Linux.Resources.Pids.Limit } hostConfig.CgroupConf = ctrSpec.Linux.Resources.Unified if ctrSpec.Linux.Resources.BlockIO != nil { if ctrSpec.Linux.Resources.BlockIO.Weight != nil { hostConfig.BlkioWeight = *ctrSpec.Linux.Resources.BlockIO.Weight } hostConfig.BlkioWeightDevice = []define.InspectBlkioWeightDevice{} for _, dev := range ctrSpec.Linux.Resources.BlockIO.WeightDevice { key := fmt.Sprintf("%d:%d", dev.Major, dev.Minor) // TODO: how do we handle LeafWeight vs // Weight? For now, ignore anything // without Weight set. if dev.Weight == nil { logrus.Infof("Ignoring weight device %s as it lacks a weight", key) continue } if deviceNodes == nil { nodes, err := util.FindDeviceNodes() if err != nil { return nil, err } deviceNodes = nodes } path, ok := deviceNodes[key] if !ok { logrus.Infof("Could not locate weight device %s in system devices", key) continue } weightDev := define.InspectBlkioWeightDevice{} weightDev.Path = path weightDev.Weight = *dev.Weight hostConfig.BlkioWeightDevice = append(hostConfig.BlkioWeightDevice, weightDev) } handleThrottleDevice := func(devs []spec.LinuxThrottleDevice) ([]define.InspectBlkioThrottleDevice, error) { out := []define.InspectBlkioThrottleDevice{} for _, dev := range devs { key := fmt.Sprintf("%d:%d", dev.Major, dev.Minor) if deviceNodes == nil { nodes, err := util.FindDeviceNodes() if err != nil { return nil, err } deviceNodes = nodes } path, ok := deviceNodes[key] if !ok { logrus.Infof("Could not locate throttle device %s in system devices", key) continue } throttleDev := define.InspectBlkioThrottleDevice{} throttleDev.Path = path throttleDev.Rate = dev.Rate out = append(out, throttleDev) } return out, nil } readBps, err := handleThrottleDevice(ctrSpec.Linux.Resources.BlockIO.ThrottleReadBpsDevice) if err != nil { return nil, err } hostConfig.BlkioDeviceReadBps = readBps writeBps, err := handleThrottleDevice(ctrSpec.Linux.Resources.BlockIO.ThrottleWriteBpsDevice) if err != nil { return nil, err } hostConfig.BlkioDeviceWriteBps = writeBps readIops, err := handleThrottleDevice(ctrSpec.Linux.Resources.BlockIO.ThrottleReadIOPSDevice) if err != nil { return nil, err } hostConfig.BlkioDeviceReadIOps = readIops writeIops, err := handleThrottleDevice(ctrSpec.Linux.Resources.BlockIO.ThrottleWriteIOPSDevice) if err != nil { return nil, err } hostConfig.BlkioDeviceWriteIOps = writeIops } } } // NanoCPUs. // This is only calculated if CpuPeriod == 100000. // It is given in nanoseconds, versus the microseconds used elsewhere - // so multiply by 10000 (not sure why, but 1000 is off by 10). if hostConfig.CpuPeriod == 100000 { hostConfig.NanoCpus = 10000 * hostConfig.CpuQuota } // Bind mounts, formatted as src:dst. // We'll be appending some options that aren't necessarily in the // original command line... but no helping that from inside libpod. binds := []string{} tmpfs := make(map[string]string) for _, namedVol := range namedVolumes { if len(namedVol.Options) > 0 { binds = append(binds, fmt.Sprintf("%s:%s:%s", namedVol.Name, namedVol.Dest, strings.Join(namedVol.Options, ","))) } else { binds = append(binds, fmt.Sprintf("%s:%s", namedVol.Name, namedVol.Dest)) } } for _, mount := range mounts { if mount.Type == "tmpfs" { tmpfs[mount.Destination] = strings.Join(mount.Options, ",") } else { // TODO - maybe we should parse for empty source/destination // here. Would be confusing if we print just a bare colon. if len(mount.Options) > 0 { binds = append(binds, fmt.Sprintf("%s:%s:%s", mount.Source, mount.Destination, strings.Join(mount.Options, ","))) } else { binds = append(binds, fmt.Sprintf("%s:%s", mount.Source, mount.Destination)) } } } hostConfig.Binds = binds hostConfig.Tmpfs = tmpfs // Network mode parsing. networkMode := c.NetworkMode() hostConfig.NetworkMode = networkMode // Port bindings. // Only populate if we're using CNI to configure the network. if c.config.CreateNetNS { hostConfig.PortBindings = makeInspectPortBindings(c.config.PortMappings, c.config.ExposedPorts) } else { hostConfig.PortBindings = make(map[string][]define.InspectHostPort) } // Cap add and cap drop. // We need a default set of capabilities to compare against. // The OCI generate package has one, and is commonly used, so we'll // use it. // Problem: there are 5 sets of capabilities. // Use the bounding set for this computation, it's the most encompassing // (but still not perfect). capAdd := []string{} capDrop := []string{} // No point in continuing if we got a spec without a Process block... if ctrSpec.Process != nil { // Max an O(1) lookup table for default bounding caps. boundingCaps := make(map[string]bool) g, err := generate.New("linux") if err != nil { return nil, err } if !hostConfig.Privileged { for _, cap := range g.Config.Process.Capabilities.Bounding { boundingCaps[cap] = true } } else { // If we are privileged, use all caps. for _, cap := range capability.List() { if g.HostSpecific && cap > validate.LastCap() { continue } boundingCaps[fmt.Sprintf("CAP_%s", strings.ToUpper(cap.String()))] = true } } // Iterate through spec caps. // If it's not in default bounding caps, it was added. // If it is, delete from the default set. Whatever remains after // we finish are the dropped caps. for _, cap := range ctrSpec.Process.Capabilities.Bounding { if _, ok := boundingCaps[cap]; ok { delete(boundingCaps, cap) } else { capAdd = append(capAdd, cap) } } for cap := range boundingCaps { capDrop = append(capDrop, cap) } // Sort CapDrop so it displays in consistent order (GH #9490) sort.Strings(capDrop) } hostConfig.CapAdd = capAdd hostConfig.CapDrop = capDrop // IPC Namespace mode ipcMode := "" if c.config.IPCNsCtr != "" { ipcMode = fmt.Sprintf("container:%s", c.config.IPCNsCtr) } else if ctrSpec.Linux != nil { // Locate the spec's IPC namespace. // If there is none, it's ipc=host. // If there is one and it has a path, it's "ns:". // If no path, it's default - the empty string. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.IPCNamespace { if ns.Path != "" { ipcMode = fmt.Sprintf("ns:%s", ns.Path) } else { ipcMode = "private" } break } } if ipcMode == "" { ipcMode = "host" } } hostConfig.IpcMode = ipcMode // Cgroup namespace mode cgroupMode := "" if c.config.CgroupNsCtr != "" { cgroupMode = fmt.Sprintf("container:%s", c.config.CgroupNsCtr) } else if ctrSpec.Linux != nil { // Locate the spec's cgroup namespace // If there is none, it's cgroup=host. // If there is one and it has a path, it's "ns:". // If there is no path, it's private. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.CgroupNamespace { if ns.Path != "" { cgroupMode = fmt.Sprintf("ns:%s", ns.Path) } else { cgroupMode = "private" } } } if cgroupMode == "" { cgroupMode = "host" } } hostConfig.CgroupMode = cgroupMode // CGroup parent // Need to check if it's the default, and not print if so. defaultCgroupParent := "" switch c.CgroupManager() { case config.CgroupfsCgroupsManager: defaultCgroupParent = CgroupfsDefaultCgroupParent case config.SystemdCgroupsManager: defaultCgroupParent = SystemdDefaultCgroupParent } if c.config.CgroupParent != defaultCgroupParent { hostConfig.CgroupParent = c.config.CgroupParent } hostConfig.CgroupManager = c.CgroupManager() // PID namespace mode pidMode := "" if c.config.PIDNsCtr != "" { pidMode = fmt.Sprintf("container:%s", c.config.PIDNsCtr) } else if ctrSpec.Linux != nil { // Locate the spec's PID namespace. // If there is none, it's pid=host. // If there is one and it has a path, it's "ns:". // If there is no path, it's default - the empty string. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.PIDNamespace { if ns.Path != "" { pidMode = fmt.Sprintf("ns:%s", ns.Path) } else { pidMode = "private" } break } } if pidMode == "" { pidMode = "host" } } hostConfig.PidMode = pidMode // UTS namespace mode utsMode := "" if c.config.UTSNsCtr != "" { utsMode = fmt.Sprintf("container:%s", c.config.UTSNsCtr) } else if ctrSpec.Linux != nil { // Locate the spec's UTS namespace. // If there is none, it's uts=host. // If there is one and it has a path, it's "ns:". // If there is no path, it's default - the empty string. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.UTSNamespace { if ns.Path != "" { utsMode = fmt.Sprintf("ns:%s", ns.Path) } else { utsMode = "private" } break } } if utsMode == "" { utsMode = "host" } } hostConfig.UTSMode = utsMode // User namespace mode usernsMode := "" if c.config.UserNsCtr != "" { usernsMode = fmt.Sprintf("container:%s", c.config.UserNsCtr) } else if ctrSpec.Linux != nil { // Locate the spec's user namespace. // If there is none, it's default - the empty string. // If there is one, it's "private" if no path, or "ns:" if // there's a path. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.UserNamespace { if ns.Path != "" { usernsMode = fmt.Sprintf("ns:%s", ns.Path) } else { usernsMode = "private" } } } } hostConfig.UsernsMode = usernsMode // Devices // Do not include if privileged - assumed that all devices will be // included. var err error hostConfig.Devices, err = c.GetDevices(*&hostConfig.Privileged, *ctrSpec, deviceNodes) if err != nil { return nil, err } // Ulimits hostConfig.Ulimits = []define.InspectUlimit{} if ctrSpec.Process != nil { for _, limit := range ctrSpec.Process.Rlimits { newLimit := define.InspectUlimit{} newLimit.Name = limit.Type newLimit.Soft = int64(limit.Soft) newLimit.Hard = int64(limit.Hard) hostConfig.Ulimits = append(hostConfig.Ulimits, newLimit) } } // Terminal size // We can't actually get this for now... // So default to something sane. // TODO: Populate this. hostConfig.ConsoleSize = []uint{0, 0} return hostConfig, nil } // Return true if the container is running in the host's PID NS. func (c *Container) inHostPidNS() (bool, error) { if c.config.PIDNsCtr != "" { return false, nil } ctrSpec, err := c.specFromState() if err != nil { return false, err } if ctrSpec.Linux != nil { // Locate the spec's PID namespace. // If there is none, it's pid=host. // If there is one and it has a path, it's "ns:". // If there is no path, it's default - the empty string. for _, ns := range ctrSpec.Linux.Namespaces { if ns.Type == spec.PIDNamespace { return false, nil } } } return true, nil } func (c *Container) GetDevices(priv bool, ctrSpec spec.Spec, deviceNodes map[string]string) ([]define.InspectDevice, error) { devices := []define.InspectDevice{} if ctrSpec.Linux != nil && !priv { for _, dev := range ctrSpec.Linux.Devices { key := fmt.Sprintf("%d:%d", dev.Major, dev.Minor) if deviceNodes == nil { nodes, err := util.FindDeviceNodes() if err != nil { return nil, err } deviceNodes = nodes } path, ok := deviceNodes[key] if !ok { logrus.Warnf("Could not locate device %s on host", key) continue } newDev := define.InspectDevice{} newDev.PathOnHost = path newDev.PathInContainer = dev.Path devices = append(devices, newDev) } } return devices, nil }