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c70f153f52
For TP5, the utility VM for Hyper-V containers is embedded in the base layer's contents. Signed-off-by: John Starks <jostarks@microsoft.com>
471 lines
15 KiB
Go
471 lines
15 KiB
Go
package libcontainerd
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import (
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"encoding/json"
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"errors"
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"fmt"
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"io"
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"path/filepath"
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"strings"
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"syscall"
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"github.com/Microsoft/hcsshim"
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"github.com/Sirupsen/logrus"
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)
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type client struct {
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clientCommon
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// Platform specific properties below here (none presently on Windows)
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}
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// Win32 error codes that are used for various workarounds
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// These really should be ALL_CAPS to match golangs syscall library and standard
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// Win32 error conventions, but golint insists on CamelCase.
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const (
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CoEClassstring = syscall.Errno(0x800401F3) // Invalid class string
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ErrorNoNetwork = syscall.Errno(1222) // The network is not present or not started
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ErrorBadPathname = syscall.Errno(161) // The specified path is invalid
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ErrorInvalidObject = syscall.Errno(0x800710D8) // The object identifier does not represent a valid object
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)
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type layer struct {
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ID string
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Path string
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}
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type defConfig struct {
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DefFile string
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}
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type portBinding struct {
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Protocol string
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InternalPort int
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ExternalPort int
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}
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type natSettings struct {
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Name string
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PortBindings []portBinding
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}
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type networkConnection struct {
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NetworkName string
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Nat natSettings
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}
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type networkSettings struct {
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MacAddress string
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}
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type device struct {
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DeviceType string
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Connection interface{}
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Settings interface{}
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}
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type mappedDir struct {
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HostPath string
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ContainerPath string
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ReadOnly bool
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}
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type hvRuntime struct {
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ImagePath string `json:",omitempty"`
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}
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// TODO Windows: @darrenstahlmsft Add ProcessorCount
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type containerInit struct {
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SystemType string // HCS requires this to be hard-coded to "Container"
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Name string // Name of the container. We use the docker ID.
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Owner string // The management platform that created this container
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IsDummy bool // Used for development purposes.
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VolumePath string // Windows volume path for scratch space
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Devices []device // Devices used by the container
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IgnoreFlushesDuringBoot bool // Optimization hint for container startup in Windows
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LayerFolderPath string // Where the layer folders are located
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Layers []layer // List of storage layers
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ProcessorWeight uint64 `json:",omitempty"` // CPU Shares 0..10000 on Windows; where 0 will be omitted and HCS will default.
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ProcessorMaximum int64 `json:",omitempty"` // CPU maximum usage percent 1..100
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StorageIOPSMaximum uint64 `json:",omitempty"` // Maximum Storage IOPS
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StorageBandwidthMaximum uint64 `json:",omitempty"` // Maximum Storage Bandwidth in bytes per second
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StorageSandboxSize uint64 `json:",omitempty"` // Size in bytes that the container system drive should be expanded to if smaller
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MemoryMaximumInMB int64 `json:",omitempty"` // Maximum memory available to the container in Megabytes
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HostName string // Hostname
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MappedDirectories []mappedDir // List of mapped directories (volumes/mounts)
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SandboxPath string // Location of unmounted sandbox (used for Hyper-V containers)
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HvPartition bool // True if it a Hyper-V Container
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EndpointList []string // List of networking endpoints to be attached to container
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HvRuntime *hvRuntime // Hyper-V container settings
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}
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// defaultOwner is a tag passed to HCS to allow it to differentiate between
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// container creator management stacks. We hard code "docker" in the case
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// of docker.
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const defaultOwner = "docker"
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// Create is the entrypoint to create a container from a spec, and if successfully
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// created, start it too.
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func (clnt *client) Create(containerID string, spec Spec, options ...CreateOption) error {
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logrus.Debugln("LCD client.Create() with spec", spec)
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cu := &containerInit{
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SystemType: "Container",
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Name: containerID,
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Owner: defaultOwner,
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VolumePath: spec.Root.Path,
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IgnoreFlushesDuringBoot: spec.Windows.FirstStart,
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LayerFolderPath: spec.Windows.LayerFolder,
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HostName: spec.Hostname,
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}
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if spec.Windows.Networking != nil {
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cu.EndpointList = spec.Windows.Networking.EndpointList
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}
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if spec.Windows.Resources != nil {
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if spec.Windows.Resources.CPU != nil {
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if spec.Windows.Resources.CPU.Shares != nil {
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cu.ProcessorWeight = *spec.Windows.Resources.CPU.Shares
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}
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if spec.Windows.Resources.CPU.Percent != nil {
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cu.ProcessorMaximum = *spec.Windows.Resources.CPU.Percent * 100 // ProcessorMaximum is a value between 1 and 10000
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}
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}
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if spec.Windows.Resources.Memory != nil {
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if spec.Windows.Resources.Memory.Limit != nil {
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cu.MemoryMaximumInMB = *spec.Windows.Resources.Memory.Limit / 1024 / 1024
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}
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}
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if spec.Windows.Resources.Storage != nil {
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if spec.Windows.Resources.Storage.Bps != nil {
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cu.StorageBandwidthMaximum = *spec.Windows.Resources.Storage.Bps
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}
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if spec.Windows.Resources.Storage.Iops != nil {
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cu.StorageIOPSMaximum = *spec.Windows.Resources.Storage.Iops
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}
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if spec.Windows.Resources.Storage.SandboxSize != nil {
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cu.StorageSandboxSize = *spec.Windows.Resources.Storage.SandboxSize
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}
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}
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}
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if spec.Windows.HvRuntime != nil {
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cu.HvPartition = true
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cu.HvRuntime = &hvRuntime{
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ImagePath: spec.Windows.HvRuntime.ImagePath,
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}
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}
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if cu.HvPartition {
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cu.SandboxPath = filepath.Dir(spec.Windows.LayerFolder)
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} else {
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cu.VolumePath = spec.Root.Path
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cu.LayerFolderPath = spec.Windows.LayerFolder
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}
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for _, layerPath := range spec.Windows.LayerPaths {
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_, filename := filepath.Split(layerPath)
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g, err := hcsshim.NameToGuid(filename)
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if err != nil {
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return err
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}
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cu.Layers = append(cu.Layers, layer{
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ID: g.ToString(),
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Path: layerPath,
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})
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}
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// Add the mounts (volumes, bind mounts etc) to the structure
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mds := make([]mappedDir, len(spec.Mounts))
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for i, mount := range spec.Mounts {
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mds[i] = mappedDir{
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HostPath: mount.Source,
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ContainerPath: mount.Destination,
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ReadOnly: mount.Readonly}
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}
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cu.MappedDirectories = mds
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configurationb, err := json.Marshal(cu)
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if err != nil {
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return err
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}
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// Create the compute system
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configuration := string(configurationb)
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if err := hcsshim.CreateComputeSystem(containerID, configuration); err != nil {
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return err
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}
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// Construct a container object for calling start on it.
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container := &container{
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containerCommon: containerCommon{
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process: process{
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processCommon: processCommon{
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containerID: containerID,
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client: clnt,
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friendlyName: InitFriendlyName,
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},
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commandLine: strings.Join(spec.Process.Args, " "),
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},
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processes: make(map[string]*process),
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},
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ociSpec: spec,
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}
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container.options = options
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for _, option := range options {
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if err := option.Apply(container); err != nil {
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logrus.Error(err)
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}
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}
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// Call start, and if it fails, delete the container from our
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// internal structure, and also keep HCS in sync by deleting the
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// container there.
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logrus.Debugf("Create() id=%s, Calling start()", containerID)
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if err := container.start(); err != nil {
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clnt.deleteContainer(containerID)
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return err
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}
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logrus.Debugf("Create() id=%s completed successfully", containerID)
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return nil
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}
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// AddProcess is the handler for adding a process to an already running
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// container. It's called through docker exec.
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func (clnt *client) AddProcess(containerID, processFriendlyName string, procToAdd Process) error {
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clnt.lock(containerID)
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defer clnt.unlock(containerID)
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container, err := clnt.getContainer(containerID)
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if err != nil {
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return err
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}
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createProcessParms := hcsshim.CreateProcessParams{
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EmulateConsole: procToAdd.Terminal,
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ConsoleSize: procToAdd.InitialConsoleSize,
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}
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// Take working directory from the process to add if it is defined,
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// otherwise take from the first process.
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if procToAdd.Cwd != "" {
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createProcessParms.WorkingDirectory = procToAdd.Cwd
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} else {
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createProcessParms.WorkingDirectory = container.ociSpec.Process.Cwd
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}
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// Configure the environment for the process
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createProcessParms.Environment = setupEnvironmentVariables(procToAdd.Env)
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createProcessParms.CommandLine = strings.Join(procToAdd.Args, " ")
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logrus.Debugf("commandLine: %s", createProcessParms.CommandLine)
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// Start the command running in the container. Note we always tell HCS to
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// create stdout as it's required regardless of '-i' or '-t' options, so that
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// docker can always grab the output through logs. We also tell HCS to always
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// create stdin, even if it's not used - it will be closed shortly. Stderr
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// is only created if it we're not -t.
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var stdout, stderr io.ReadCloser
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var pid uint32
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iopipe := &IOPipe{Terminal: procToAdd.Terminal}
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pid, iopipe.Stdin, stdout, stderr, err = hcsshim.CreateProcessInComputeSystem(
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containerID,
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true,
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true,
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!procToAdd.Terminal,
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createProcessParms)
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if err != nil {
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logrus.Errorf("AddProcess %s CreateProcessInComputeSystem() failed %s", containerID, err)
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return err
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}
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// Convert io.ReadClosers to io.Readers
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if stdout != nil {
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iopipe.Stdout = openReaderFromPipe(stdout)
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}
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if stderr != nil {
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iopipe.Stderr = openReaderFromPipe(stderr)
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}
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// Add the process to the containers list of processes
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container.processes[processFriendlyName] =
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&process{
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processCommon: processCommon{
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containerID: containerID,
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friendlyName: processFriendlyName,
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client: clnt,
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systemPid: pid,
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},
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commandLine: createProcessParms.CommandLine,
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}
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// Make sure the lock is not held while calling back into the daemon
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clnt.unlock(containerID)
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// Tell the engine to attach streams back to the client
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if err := clnt.backend.AttachStreams(processFriendlyName, *iopipe); err != nil {
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return err
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}
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// Lock again so that the defer unlock doesn't fail. (I really don't like this code)
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clnt.lock(containerID)
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// Spin up a go routine waiting for exit to handle cleanup
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go container.waitExit(pid, processFriendlyName, false)
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return nil
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}
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// Signal handles `docker stop` on Windows. While Linux has support for
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// the full range of signals, signals aren't really implemented on Windows.
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// We fake supporting regular stop and -9 to force kill.
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func (clnt *client) Signal(containerID string, sig int) error {
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var (
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cont *container
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err error
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)
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// Get the container as we need it to find the pid of the process.
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clnt.lock(containerID)
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defer clnt.unlock(containerID)
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if cont, err = clnt.getContainer(containerID); err != nil {
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return err
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}
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logrus.Debugf("lcd: Signal() containerID=%s sig=%d pid=%d", containerID, sig, cont.systemPid)
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context := fmt.Sprintf("Signal: sig=%d pid=%d", sig, cont.systemPid)
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if syscall.Signal(sig) == syscall.SIGKILL {
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// Terminate the compute system
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if err := hcsshim.TerminateComputeSystem(containerID, hcsshim.TimeoutInfinite, context); err != nil {
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logrus.Errorf("Failed to terminate %s - %q", containerID, err)
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}
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} else {
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// Terminate Process
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if err = hcsshim.TerminateProcessInComputeSystem(containerID, cont.systemPid); err != nil {
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logrus.Warnf("Failed to terminate pid %d in %s: %q", cont.systemPid, containerID, err)
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// Ignore errors
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err = nil
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}
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// Shutdown the compute system
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if err := hcsshim.ShutdownComputeSystem(containerID, hcsshim.TimeoutInfinite, context); err != nil {
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logrus.Errorf("Failed to shutdown %s - %q", containerID, err)
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}
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}
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return nil
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}
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// Resize handles a CLI event to resize an interactive docker run or docker exec
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// window.
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func (clnt *client) Resize(containerID, processFriendlyName string, width, height int) error {
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// Get the libcontainerd container object
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clnt.lock(containerID)
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defer clnt.unlock(containerID)
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cont, err := clnt.getContainer(containerID)
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if err != nil {
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return err
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}
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if processFriendlyName == InitFriendlyName {
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logrus.Debugln("Resizing systemPID in", containerID, cont.process.systemPid)
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return hcsshim.ResizeConsoleInComputeSystem(containerID, cont.process.systemPid, height, width)
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}
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for _, p := range cont.processes {
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if p.friendlyName == processFriendlyName {
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logrus.Debugln("Resizing exec'd process", containerID, p.systemPid)
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return hcsshim.ResizeConsoleInComputeSystem(containerID, p.systemPid, height, width)
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}
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}
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return fmt.Errorf("Resize could not find containerID %s to resize", containerID)
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}
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// Pause handles pause requests for containers
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func (clnt *client) Pause(containerID string) error {
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return errors.New("Windows: Containers cannot be paused")
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}
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// Resume handles resume requests for containers
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func (clnt *client) Resume(containerID string) error {
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return errors.New("Windows: Containers cannot be paused")
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}
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// Stats handles stats requests for containers
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func (clnt *client) Stats(containerID string) (*Stats, error) {
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return nil, errors.New("Windows: Stats not implemented")
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}
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// Restore is the handler for restoring a container
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func (clnt *client) Restore(containerID string, unusedOnWindows ...CreateOption) error {
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// TODO Windows: Implement this. For now, just tell the backend the container exited.
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logrus.Debugf("lcd Restore %s", containerID)
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return clnt.backend.StateChanged(containerID, StateInfo{
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CommonStateInfo: CommonStateInfo{
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State: StateExit,
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ExitCode: 1 << 31,
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}})
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}
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// GetPidsForContainer returns a list of process IDs running in a container.
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// Although implemented, this is not used in Windows.
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func (clnt *client) GetPidsForContainer(containerID string) ([]int, error) {
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var pids []int
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clnt.lock(containerID)
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defer clnt.unlock(containerID)
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cont, err := clnt.getContainer(containerID)
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if err != nil {
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return nil, err
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}
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// Add the first process
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pids = append(pids, int(cont.containerCommon.systemPid))
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// And add all the exec'd processes
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for _, p := range cont.processes {
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pids = append(pids, int(p.processCommon.systemPid))
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}
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return pids, nil
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}
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// Summary returns a summary of the processes running in a container.
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// This is present in Windows to support docker top. In linux, the
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// engine shells out to ps to get process information. On Windows, as
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// the containers could be Hyper-V containers, they would not be
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// visible on the container host. However, libcontainerd does have
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// that information.
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func (clnt *client) Summary(containerID string) ([]Summary, error) {
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var s []Summary
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clnt.lock(containerID)
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defer clnt.unlock(containerID)
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cont, err := clnt.getContainer(containerID)
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if err != nil {
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return nil, err
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}
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// Add the first process
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s = append(s, Summary{
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Pid: cont.containerCommon.systemPid,
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Command: cont.ociSpec.Process.Args[0]})
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// And add all the exec'd processes
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for _, p := range cont.processes {
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s = append(s, Summary{
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Pid: p.processCommon.systemPid,
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Command: p.commandLine})
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}
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return s, nil
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}
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// UpdateResources updates resources for a running container.
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func (clnt *client) UpdateResources(containerID string, resources Resources) error {
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// Updating resource isn't supported on Windows
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// but we should return nil for enabling updating container
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return nil
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}
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