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docker_manager.go
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docker_manager.go
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/*
Copyright 2015 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package dockertools
import (
"bytes"
"crypto/md5"
"encoding/json"
"errors"
"fmt"
"io"
"io/ioutil"
"os"
"os/exec"
"path"
"path/filepath"
"strconv"
"strings"
"sync"
"time"
"github.com/coreos/go-semver/semver"
dockertypes "github.com/docker/engine-api/types"
dockercontainer "github.com/docker/engine-api/types/container"
dockerstrslice "github.com/docker/engine-api/types/strslice"
dockerapiversion "github.com/docker/engine-api/types/versions"
dockernat "github.com/docker/go-connections/nat"
"github.com/golang/glog"
cadvisorapi "github.com/google/cadvisor/info/v1"
"k8s.io/kubernetes/pkg/api"
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/client/record"
kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
"k8s.io/kubernetes/pkg/kubelet/events"
"k8s.io/kubernetes/pkg/kubelet/images"
"k8s.io/kubernetes/pkg/kubelet/lifecycle"
"k8s.io/kubernetes/pkg/kubelet/metrics"
"k8s.io/kubernetes/pkg/kubelet/network"
"k8s.io/kubernetes/pkg/kubelet/network/hairpin"
proberesults "k8s.io/kubernetes/pkg/kubelet/prober/results"
"k8s.io/kubernetes/pkg/kubelet/qos"
"k8s.io/kubernetes/pkg/kubelet/types"
"k8s.io/kubernetes/pkg/kubelet/util/cache"
"k8s.io/kubernetes/pkg/kubelet/util/format"
"k8s.io/kubernetes/pkg/runtime"
"k8s.io/kubernetes/pkg/security/apparmor"
"k8s.io/kubernetes/pkg/securitycontext"
kubetypes "k8s.io/kubernetes/pkg/types"
"k8s.io/kubernetes/pkg/util/flowcontrol"
"k8s.io/kubernetes/pkg/util/oom"
"k8s.io/kubernetes/pkg/util/procfs"
utilruntime "k8s.io/kubernetes/pkg/util/runtime"
"k8s.io/kubernetes/pkg/util/sets"
utilstrings "k8s.io/kubernetes/pkg/util/strings"
"k8s.io/kubernetes/pkg/util/term"
)
const (
DockerType = "docker"
// https://docs.docker.com/engine/reference/api/docker_remote_api/
// docker version should be at least 1.9.x
minimumDockerAPIVersion = "1.21"
// Remote API version for docker daemon versions
// https://docs.docker.com/engine/reference/api/docker_remote_api/
dockerV110APIVersion = "1.22"
DockerV112APIVersion = "1.24"
// ndots specifies the minimum number of dots that a domain name must contain for the resolver to consider it as FQDN (fully-qualified)
// we want to able to consider SRV lookup names like _dns._udp.kube-dns.default.svc to be considered relative.
// hence, setting ndots to be 5.
ndotsDNSOption = "options ndots:5\n"
// In order to avoid unnecessary SIGKILLs, give every container a minimum grace
// period after SIGTERM. Docker will guarantee the termination, but SIGTERM is
// potentially dangerous.
// TODO: evaluate whether there are scenarios in which SIGKILL is preferable to
// SIGTERM for certain process types, which may justify setting this to 0.
minimumGracePeriodInSeconds = 2
DockerNetnsFmt = "/proc/%v/ns/net"
// String used to detect docker host mode for various namespaces (e.g.
// networking). Must match the value returned by docker inspect -f
// '{{.HostConfig.NetworkMode}}'.
namespaceModeHost = "host"
// The expiration time of version cache.
versionCacheTTL = 60 * time.Second
)
var (
// DockerManager implements the Runtime interface.
_ kubecontainer.Runtime = &DockerManager{}
// TODO: make this a TTL based pull (if image older than X policy, pull)
podInfraContainerImagePullPolicy = api.PullIfNotPresent
// Default set of seccomp security options.
defaultSeccompOpt = []dockerOpt{{"seccomp", "unconfined", ""}}
)
type DockerManager struct {
client DockerInterface
recorder record.EventRecorder
containerRefManager *kubecontainer.RefManager
os kubecontainer.OSInterface
machineInfo *cadvisorapi.MachineInfo
// The image name of the pod infra container.
podInfraContainerImage string
// (Optional) Additional environment variables to be set for the pod infra container.
podInfraContainerEnv []api.EnvVar
// TODO(yifan): Record the pull failure so we can eliminate the image checking?
// Lower level docker image puller.
dockerPuller DockerPuller
// wrapped image puller.
imagePuller images.ImageManager
// Root of the Docker runtime.
dockerRoot string
// Directory of container logs.
containerLogsDir string
// Network plugin.
networkPlugin network.NetworkPlugin
// Health check results.
livenessManager proberesults.Manager
// RuntimeHelper that wraps kubelet to generate runtime container options.
runtimeHelper kubecontainer.RuntimeHelper
// Runner of lifecycle events.
runner kubecontainer.HandlerRunner
// Handler used to execute commands in containers.
execHandler ExecHandler
// Used to set OOM scores of processes.
oomAdjuster *oom.OOMAdjuster
// Get information from /proc mount.
procFs procfs.ProcFSInterface
// If true, enforce container cpu limits with CFS quota support
cpuCFSQuota bool
// Container GC manager
containerGC *containerGC
// Support for gathering custom metrics.
enableCustomMetrics bool
// If true, the "hairpin mode" flag is set on container interfaces.
// A false value means the kubelet just backs off from setting it,
// it might already be true.
configureHairpinMode bool
// Provides image stats
*imageStatsProvider
// The version cache of docker daemon.
versionCache *cache.ObjectCache
// Directory to host local seccomp profiles.
seccompProfileRoot string
}
// A subset of the pod.Manager interface extracted for testing purposes.
type podGetter interface {
GetPodByUID(kubetypes.UID) (*api.Pod, bool)
}
func PodInfraContainerEnv(env map[string]string) kubecontainer.Option {
return func(rt kubecontainer.Runtime) {
dm := rt.(*DockerManager)
for k, v := range env {
dm.podInfraContainerEnv = append(dm.podInfraContainerEnv, api.EnvVar{
Name: k,
Value: v,
})
}
}
}
func NewDockerManager(
client DockerInterface,
recorder record.EventRecorder,
livenessManager proberesults.Manager,
containerRefManager *kubecontainer.RefManager,
podGetter podGetter,
machineInfo *cadvisorapi.MachineInfo,
podInfraContainerImage string,
qps float32,
burst int,
containerLogsDir string,
osInterface kubecontainer.OSInterface,
networkPlugin network.NetworkPlugin,
runtimeHelper kubecontainer.RuntimeHelper,
httpClient types.HttpGetter,
execHandler ExecHandler,
oomAdjuster *oom.OOMAdjuster,
procFs procfs.ProcFSInterface,
cpuCFSQuota bool,
imageBackOff *flowcontrol.Backoff,
serializeImagePulls bool,
enableCustomMetrics bool,
hairpinMode bool,
seccompProfileRoot string,
options ...kubecontainer.Option) *DockerManager {
// Wrap the docker client with instrumentedDockerInterface
client = NewInstrumentedDockerInterface(client)
// Work out the location of the Docker runtime, defaulting to /var/lib/docker
// if there are any problems.
dockerRoot := "/var/lib/docker"
dockerInfo, err := client.Info()
if err != nil {
glog.Errorf("Failed to execute Info() call to the Docker client: %v", err)
glog.Warningf("Using fallback default of /var/lib/docker for location of Docker runtime")
} else {
dockerRoot = dockerInfo.DockerRootDir
glog.Infof("Setting dockerRoot to %s", dockerRoot)
}
dm := &DockerManager{
client: client,
recorder: recorder,
containerRefManager: containerRefManager,
os: osInterface,
machineInfo: machineInfo,
podInfraContainerImage: podInfraContainerImage,
dockerPuller: newDockerPuller(client, qps, burst),
dockerRoot: dockerRoot,
containerLogsDir: containerLogsDir,
networkPlugin: networkPlugin,
livenessManager: livenessManager,
runtimeHelper: runtimeHelper,
execHandler: execHandler,
oomAdjuster: oomAdjuster,
procFs: procFs,
cpuCFSQuota: cpuCFSQuota,
enableCustomMetrics: enableCustomMetrics,
configureHairpinMode: hairpinMode,
imageStatsProvider: newImageStatsProvider(client),
seccompProfileRoot: seccompProfileRoot,
}
dm.runner = lifecycle.NewHandlerRunner(httpClient, dm, dm)
dm.imagePuller = images.NewImageManager(kubecontainer.FilterEventRecorder(recorder), dm, imageBackOff, serializeImagePulls)
dm.containerGC = NewContainerGC(client, podGetter, containerLogsDir)
dm.versionCache = cache.NewObjectCache(
func() (interface{}, error) {
return dm.getVersionInfo()
},
versionCacheTTL,
)
// apply optional settings..
for _, optf := range options {
optf(dm)
}
return dm
}
// GetContainerLogs returns logs of a specific container. By
// default, it returns a snapshot of the container log. Set 'follow' to true to
// stream the log. Set 'follow' to false and specify the number of lines (e.g.
// "100" or "all") to tail the log.
// TODO: Make 'RawTerminal' option flagable.
func (dm *DockerManager) GetContainerLogs(pod *api.Pod, containerID kubecontainer.ContainerID, logOptions *api.PodLogOptions, stdout, stderr io.Writer) error {
return GetContainerLogs(dm.client, pod, containerID, logOptions, stdout, stderr)
}
// Temporarily export this function to share with dockershim.
// TODO: clean this up.
func GetContainerLogs(client DockerInterface, pod *api.Pod, containerID kubecontainer.ContainerID, logOptions *api.PodLogOptions, stdout, stderr io.Writer) error {
var since int64
if logOptions.SinceSeconds != nil {
t := unversioned.Now().Add(-time.Duration(*logOptions.SinceSeconds) * time.Second)
since = t.Unix()
}
if logOptions.SinceTime != nil {
since = logOptions.SinceTime.Unix()
}
opts := dockertypes.ContainerLogsOptions{
ShowStdout: true,
ShowStderr: true,
Since: strconv.FormatInt(since, 10),
Timestamps: logOptions.Timestamps,
Follow: logOptions.Follow,
}
if logOptions.TailLines != nil {
opts.Tail = strconv.FormatInt(*logOptions.TailLines, 10)
}
sopts := StreamOptions{
OutputStream: stdout,
ErrorStream: stderr,
RawTerminal: false,
}
return client.Logs(containerID.ID, opts, sopts)
}
var (
// ErrNoContainersInPod is returned when there are no containers for a given pod
ErrNoContainersInPod = errors.New("NoContainersInPod")
// ErrNoPodInfraContainerInPod is returned when there is no pod infra container for a given pod
ErrNoPodInfraContainerInPod = errors.New("NoPodInfraContainerInPod")
// ErrContainerCannotRun is returned when a container is created, but cannot run properly
ErrContainerCannotRun = errors.New("ContainerCannotRun")
)
// determineContainerIP determines the IP address of the given container. It is expected
// that the container passed is the infrastructure container of a pod and the responsibility
// of the caller to ensure that the correct container is passed.
func (dm *DockerManager) determineContainerIP(podNamespace, podName string, container *dockertypes.ContainerJSON) (string, error) {
result := ""
if container.NetworkSettings != nil {
result = container.NetworkSettings.IPAddress
// Fall back to IPv6 address if no IPv4 address is present
if result == "" {
result = container.NetworkSettings.GlobalIPv6Address
}
}
networkMode := getDockerNetworkMode(container)
isHostNetwork := networkMode == namespaceModeHost
// For host networking or default network plugin, GetPodNetworkStatus doesn't work
if !isHostNetwork && dm.networkPlugin.Name() != network.DefaultPluginName {
netStatus, err := dm.networkPlugin.GetPodNetworkStatus(podNamespace, podName, kubecontainer.DockerID(container.ID).ContainerID())
if err != nil {
glog.Errorf("NetworkPlugin %s failed on the status hook for pod '%s' - %v", dm.networkPlugin.Name(), podName, err)
return result, err
} else if netStatus != nil {
result = netStatus.IP.String()
}
}
return result, nil
}
func (dm *DockerManager) inspectContainer(id string, podName, podNamespace string) (*kubecontainer.ContainerStatus, string, error) {
var ip string
iResult, err := dm.client.InspectContainer(id)
if err != nil {
return nil, ip, err
}
glog.V(4).Infof("Container inspect result: %+v", *iResult)
// TODO: Get k8s container name by parsing the docker name. This will be
// replaced by checking docker labels eventually.
dockerName, hash, err := ParseDockerName(iResult.Name)
if err != nil {
return nil, ip, fmt.Errorf("Unable to parse docker name %q", iResult.Name)
}
containerName := dockerName.ContainerName
var containerInfo *labelledContainerInfo
containerInfo = getContainerInfoFromLabel(iResult.Config.Labels)
parseTimestampError := func(label, s string) {
glog.Errorf("Failed to parse %q timestamp %q for container %q of pod %q", label, s, id, kubecontainer.BuildPodFullName(podName, podNamespace))
}
var createdAt, startedAt, finishedAt time.Time
if createdAt, err = ParseDockerTimestamp(iResult.Created); err != nil {
parseTimestampError("Created", iResult.Created)
}
if startedAt, err = ParseDockerTimestamp(iResult.State.StartedAt); err != nil {
parseTimestampError("StartedAt", iResult.State.StartedAt)
}
if finishedAt, err = ParseDockerTimestamp(iResult.State.FinishedAt); err != nil {
parseTimestampError("FinishedAt", iResult.State.FinishedAt)
}
status := kubecontainer.ContainerStatus{
Name: containerName,
RestartCount: containerInfo.RestartCount,
Image: iResult.Config.Image,
ImageID: DockerPrefix + iResult.Image,
ID: kubecontainer.DockerID(id).ContainerID(),
ExitCode: iResult.State.ExitCode,
CreatedAt: createdAt,
Hash: hash,
}
if iResult.State.Running {
// Container that are running, restarting and paused
status.State = kubecontainer.ContainerStateRunning
status.StartedAt = startedAt
if containerName == PodInfraContainerName {
ip, err = dm.determineContainerIP(podNamespace, podName, iResult)
// Kubelet doesn't handle the network error scenario
if err != nil {
status.State = kubecontainer.ContainerStateUnknown
status.Message = fmt.Sprintf("Network error: %#v", err)
}
}
return &status, ip, nil
}
// Find containers that have exited or failed to start.
if !finishedAt.IsZero() || iResult.State.ExitCode != 0 {
// Containers that are exited, dead or created (docker failed to start container)
// When a container fails to start State.ExitCode is non-zero, FinishedAt and StartedAt are both zero
reason := ""
message := iResult.State.Error
// Note: An application might handle OOMKilled gracefully.
// In that case, the container is oom killed, but the exit
// code could be 0.
if iResult.State.OOMKilled {
reason = "OOMKilled"
} else if iResult.State.ExitCode == 0 {
reason = "Completed"
} else if !finishedAt.IsZero() {
reason = "Error"
} else {
// finishedAt is zero and ExitCode is nonZero occurs when docker fails to start the container
reason = ErrContainerCannotRun.Error()
// Adjust time to the time docker attempted to run the container, otherwise startedAt and finishedAt will be set to epoch, which is misleading
finishedAt = createdAt
startedAt = createdAt
}
terminationMessagePath := containerInfo.TerminationMessagePath
if terminationMessagePath != "" {
for _, mount := range iResult.Mounts {
if mount.Destination == terminationMessagePath {
path := mount.Source
if data, err := ioutil.ReadFile(path); err != nil {
message = fmt.Sprintf("Error on reading termination-log %s: %v", path, err)
} else {
message = string(data)
}
}
}
}
status.State = kubecontainer.ContainerStateExited
status.Message = message
status.Reason = reason
status.StartedAt = startedAt
status.FinishedAt = finishedAt
} else {
// Non-running containers that are created (not yet started or kubelet failed before calling
// start container function etc.) Kubelet doesn't handle these scenarios yet.
status.State = kubecontainer.ContainerStateUnknown
}
return &status, "", nil
}
// makeEnvList converts EnvVar list to a list of strings, in the form of
// '<key>=<value>', which can be understood by docker.
func makeEnvList(envs []kubecontainer.EnvVar) (result []string) {
for _, env := range envs {
result = append(result, fmt.Sprintf("%s=%s", env.Name, env.Value))
}
return
}
// makeMountBindings converts the mount list to a list of strings that
// can be understood by docker.
// Each element in the string is in the form of:
// '<HostPath>:<ContainerPath>', or
// '<HostPath>:<ContainerPath>:ro', if the path is read only, or
// '<HostPath>:<ContainerPath>:Z', if the volume requires SELinux
// relabeling and the pod provides an SELinux label
func makeMountBindings(mounts []kubecontainer.Mount, podHasSELinuxLabel bool) (result []string) {
for _, m := range mounts {
bind := fmt.Sprintf("%s:%s", m.HostPath, m.ContainerPath)
if m.ReadOnly {
bind += ":ro"
}
// Only request relabeling if the pod provides an
// SELinux context. If the pod does not provide an
// SELinux context relabeling will label the volume
// with the container's randomly allocated MCS label.
// This would restrict access to the volume to the
// container which mounts it first.
if m.SELinuxRelabel && podHasSELinuxLabel {
if m.ReadOnly {
bind += ",Z"
} else {
bind += ":Z"
}
}
result = append(result, bind)
}
return
}
func makePortsAndBindings(portMappings []kubecontainer.PortMapping) (map[dockernat.Port]struct{}, map[dockernat.Port][]dockernat.PortBinding) {
exposedPorts := map[dockernat.Port]struct{}{}
portBindings := map[dockernat.Port][]dockernat.PortBinding{}
for _, port := range portMappings {
exteriorPort := port.HostPort
if exteriorPort == 0 {
// No need to do port binding when HostPort is not specified
continue
}
interiorPort := port.ContainerPort
// Some of this port stuff is under-documented voodoo.
// See http://stackoverflow.com/questions/20428302/binding-a-port-to-a-host-interface-using-the-rest-api
var protocol string
switch strings.ToUpper(string(port.Protocol)) {
case "UDP":
protocol = "/udp"
case "TCP":
protocol = "/tcp"
default:
glog.Warningf("Unknown protocol %q: defaulting to TCP", port.Protocol)
protocol = "/tcp"
}
dockerPort := dockernat.Port(strconv.Itoa(interiorPort) + protocol)
exposedPorts[dockerPort] = struct{}{}
hostBinding := dockernat.PortBinding{
HostPort: strconv.Itoa(exteriorPort),
HostIP: port.HostIP,
}
// Allow multiple host ports bind to same docker port
if existedBindings, ok := portBindings[dockerPort]; ok {
// If a docker port already map to a host port, just append the host ports
portBindings[dockerPort] = append(existedBindings, hostBinding)
} else {
// Otherwise, it's fresh new port binding
portBindings[dockerPort] = []dockernat.PortBinding{
hostBinding,
}
}
}
return exposedPorts, portBindings
}
func (dm *DockerManager) runContainer(
pod *api.Pod,
container *api.Container,
opts *kubecontainer.RunContainerOptions,
ref *api.ObjectReference,
netMode string,
ipcMode string,
utsMode string,
pidMode string,
restartCount int,
oomScoreAdj int) (kubecontainer.ContainerID, error) {
dockerName := KubeletContainerName{
PodFullName: kubecontainer.GetPodFullName(pod),
PodUID: pod.UID,
ContainerName: container.Name,
}
securityOpts, err := dm.getSecurityOpts(pod, container.Name)
if err != nil {
return kubecontainer.ContainerID{}, err
}
fmtSecurityOpts, err := dm.fmtDockerOpts(securityOpts)
if err != nil {
return kubecontainer.ContainerID{}, err
}
// Pod information is recorded on the container as labels to preserve it in the event the pod is deleted
// while the Kubelet is down and there is no information available to recover the pod.
// TODO: keep these labels up to date if the pod changes
labels := newLabels(container, pod, restartCount, dm.enableCustomMetrics)
// TODO(random-liu): Remove this when we start to use new labels for KillContainerInPod
if container.Lifecycle != nil && container.Lifecycle.PreStop != nil {
// TODO: This is kind of hacky, we should really just encode the bits we need.
// TODO: This is hacky because the Kubelet should be parameterized to encode a specific version
// and needs to be able to migrate this whenever we deprecate v1. Should be a member of DockerManager.
if data, err := runtime.Encode(api.Codecs.LegacyCodec(unversioned.GroupVersion{Group: api.GroupName, Version: "v1"}), pod); err == nil {
labels[kubernetesPodLabel] = string(data)
} else {
glog.Errorf("Failed to encode pod: %s for prestop hook", pod.Name)
}
}
memoryLimit := container.Resources.Limits.Memory().Value()
cpuRequest := container.Resources.Requests.Cpu()
cpuLimit := container.Resources.Limits.Cpu()
nvidiaGPULimit := container.Resources.Limits.NvidiaGPU()
var cpuShares int64
// If request is not specified, but limit is, we want request to default to limit.
// API server does this for new containers, but we repeat this logic in Kubelet
// for containers running on existing Kubernetes clusters.
if cpuRequest.IsZero() && !cpuLimit.IsZero() {
cpuShares = milliCPUToShares(cpuLimit.MilliValue())
} else {
// if cpuRequest.Amount is nil, then milliCPUToShares will return the minimal number
// of CPU shares.
cpuShares = milliCPUToShares(cpuRequest.MilliValue())
}
var devices []dockercontainer.DeviceMapping
if nvidiaGPULimit.Value() != 0 {
// Experimental. For now, we hardcode /dev/nvidia0 no matter what the user asks for
// (we only support one device per node).
devices = []dockercontainer.DeviceMapping{
{PathOnHost: "/dev/nvidia0", PathInContainer: "/dev/nvidia0", CgroupPermissions: "mrw"},
{PathOnHost: "/dev/nvidiactl", PathInContainer: "/dev/nvidiactl", CgroupPermissions: "mrw"},
{PathOnHost: "/dev/nvidia-uvm", PathInContainer: "/dev/nvidia-uvm", CgroupPermissions: "mrw"},
}
}
podHasSELinuxLabel := pod.Spec.SecurityContext != nil && pod.Spec.SecurityContext.SELinuxOptions != nil
binds := makeMountBindings(opts.Mounts, podHasSELinuxLabel)
// The reason we create and mount the log file in here (not in kubelet) is because
// the file's location depends on the ID of the container, and we need to create and
// mount the file before actually starting the container.
// TODO(yifan): Consider to pull this logic out since we might need to reuse it in
// other container runtime.
_, containerName, cid := BuildDockerName(dockerName, container)
if opts.PodContainerDir != "" && len(container.TerminationMessagePath) != 0 {
// Because the PodContainerDir contains pod uid and container name which is unique enough,
// here we just add a unique container id to make the path unique for different instances
// of the same container.
containerLogPath := path.Join(opts.PodContainerDir, cid)
fs, err := os.Create(containerLogPath)
if err != nil {
// TODO: Clean up the previously created dir? return the error?
glog.Errorf("Error on creating termination-log file %q: %v", containerLogPath, err)
} else {
fs.Close() // Close immediately; we're just doing a `touch` here
b := fmt.Sprintf("%s:%s", containerLogPath, container.TerminationMessagePath)
binds = append(binds, b)
}
}
hc := &dockercontainer.HostConfig{
Binds: binds,
NetworkMode: dockercontainer.NetworkMode(netMode),
IpcMode: dockercontainer.IpcMode(ipcMode),
UTSMode: dockercontainer.UTSMode(utsMode),
PidMode: dockercontainer.PidMode(pidMode),
ReadonlyRootfs: readOnlyRootFilesystem(container),
Resources: dockercontainer.Resources{
Memory: memoryLimit,
MemorySwap: -1,
CPUShares: cpuShares,
Devices: devices,
},
SecurityOpt: fmtSecurityOpts,
}
// Set sysctls if requested
if container.Name == PodInfraContainerName {
sysctls, unsafeSysctls, err := api.SysctlsFromPodAnnotations(pod.Annotations)
if err != nil {
dm.recorder.Eventf(ref, api.EventTypeWarning, events.FailedToCreateContainer, "Failed to create docker container %q of pod %q with error: %v", container.Name, format.Pod(pod), err)
return kubecontainer.ContainerID{}, err
}
if len(sysctls)+len(unsafeSysctls) > 0 {
hc.Sysctls = make(map[string]string, len(sysctls)+len(unsafeSysctls))
for _, c := range sysctls {
hc.Sysctls[c.Name] = c.Value
}
for _, c := range unsafeSysctls {
hc.Sysctls[c.Name] = c.Value
}
}
}
// If current api version is newer than docker 1.10 requested, set OomScoreAdj to HostConfig
result, err := dm.checkDockerAPIVersion(dockerV110APIVersion)
if err != nil {
glog.Errorf("Failed to check docker api version: %v", err)
} else if result >= 0 {
hc.OomScoreAdj = oomScoreAdj
}
if dm.cpuCFSQuota {
// if cpuLimit.Amount is nil, then the appropriate default value is returned to allow full usage of cpu resource.
cpuQuota, cpuPeriod := milliCPUToQuota(cpuLimit.MilliValue())
hc.CPUQuota = cpuQuota
hc.CPUPeriod = cpuPeriod
}
if len(opts.CgroupParent) > 0 {
hc.CgroupParent = opts.CgroupParent
}
dockerOpts := dockertypes.ContainerCreateConfig{
Name: containerName,
Config: &dockercontainer.Config{
Env: makeEnvList(opts.Envs),
Image: container.Image,
WorkingDir: container.WorkingDir,
Labels: labels,
// Interactive containers:
OpenStdin: container.Stdin,
StdinOnce: container.StdinOnce,
Tty: container.TTY,
},
HostConfig: hc,
}
// Set network configuration for infra-container
if container.Name == PodInfraContainerName {
setInfraContainerNetworkConfig(pod, netMode, opts, &dockerOpts)
}
setEntrypointAndCommand(container, opts, dockerOpts)
glog.V(3).Infof("Container %v/%v/%v: setting entrypoint \"%v\" and command \"%v\"", pod.Namespace, pod.Name, container.Name, dockerOpts.Config.Entrypoint, dockerOpts.Config.Cmd)
supplementalGids := dm.runtimeHelper.GetExtraSupplementalGroupsForPod(pod)
securityContextProvider := securitycontext.NewSimpleSecurityContextProvider()
securityContextProvider.ModifyContainerConfig(pod, container, dockerOpts.Config)
securityContextProvider.ModifyHostConfig(pod, container, dockerOpts.HostConfig, supplementalGids)
createResp, err := dm.client.CreateContainer(dockerOpts)
if err != nil {
dm.recorder.Eventf(ref, api.EventTypeWarning, events.FailedToCreateContainer, "Failed to create docker container %q of pod %q with error: %v", container.Name, format.Pod(pod), err)
return kubecontainer.ContainerID{}, err
}
if len(createResp.Warnings) != 0 {
glog.V(2).Infof("Container %q of pod %q created with warnings: %v", container.Name, format.Pod(pod), createResp.Warnings)
}
createdEventMsg := fmt.Sprintf("Created container with docker id %v", utilstrings.ShortenString(createResp.ID, 12))
if len(securityOpts) > 0 {
var msgs []string
for _, opt := range securityOpts {
glog.Errorf("Logging security options: %+v", opt)
msg := opt.msg
if msg == "" {
msg = opt.value
}
msgs = append(msgs, fmt.Sprintf("%s=%s", opt.key, truncateMsg(msg, 256)))
}
createdEventMsg = fmt.Sprintf("%s; Security:[%s]", createdEventMsg, strings.Join(msgs, " "))
}
dm.recorder.Eventf(ref, api.EventTypeNormal, events.CreatedContainer, createdEventMsg)
if err = dm.client.StartContainer(createResp.ID); err != nil {
dm.recorder.Eventf(ref, api.EventTypeWarning, events.FailedToStartContainer,
"Failed to start container with docker id %v with error: %v", utilstrings.ShortenString(createResp.ID, 12), err)
return kubecontainer.ContainerID{}, err
}
dm.recorder.Eventf(ref, api.EventTypeNormal, events.StartedContainer, "Started container with docker id %v", utilstrings.ShortenString(createResp.ID, 12))
return kubecontainer.DockerID(createResp.ID).ContainerID(), nil
}
// setInfraContainerNetworkConfig sets the network configuration for the infra-container. We only set network configuration for infra-container, all
// the user containers will share the same network namespace with infra-container.
func setInfraContainerNetworkConfig(pod *api.Pod, netMode string, opts *kubecontainer.RunContainerOptions, dockerOpts *dockertypes.ContainerCreateConfig) {
exposedPorts, portBindings := makePortsAndBindings(opts.PortMappings)
dockerOpts.Config.ExposedPorts = exposedPorts
dockerOpts.HostConfig.PortBindings = dockernat.PortMap(portBindings)
if netMode != namespaceModeHost {
dockerOpts.Config.Hostname = opts.Hostname
if len(opts.DNS) > 0 {
dockerOpts.HostConfig.DNS = opts.DNS
}
if len(opts.DNSSearch) > 0 {
dockerOpts.HostConfig.DNSSearch = opts.DNSSearch
}
}
}
func setEntrypointAndCommand(container *api.Container, opts *kubecontainer.RunContainerOptions, dockerOpts dockertypes.ContainerCreateConfig) {
command, args := kubecontainer.ExpandContainerCommandAndArgs(container, opts.Envs)
dockerOpts.Config.Entrypoint = dockerstrslice.StrSlice(command)
dockerOpts.Config.Cmd = dockerstrslice.StrSlice(args)
}
// A helper function to get the KubeletContainerName and hash from a docker
// container.
func getDockerContainerNameInfo(c *dockertypes.Container) (*KubeletContainerName, uint64, error) {
if len(c.Names) == 0 {
return nil, 0, fmt.Errorf("cannot parse empty docker container name: %#v", c.Names)
}
dockerName, hash, err := ParseDockerName(c.Names[0])
if err != nil {
return nil, 0, fmt.Errorf("parse docker container name %q error: %v", c.Names[0], err)
}
return dockerName, hash, nil
}
// Get pod UID, name, and namespace by examining the container names.
func getPodInfoFromContainer(c *dockertypes.Container) (kubetypes.UID, string, string, error) {
dockerName, _, err := getDockerContainerNameInfo(c)
if err != nil {
return kubetypes.UID(""), "", "", err
}
name, namespace, err := kubecontainer.ParsePodFullName(dockerName.PodFullName)
if err != nil {
return kubetypes.UID(""), "", "", fmt.Errorf("parse pod full name %q error: %v", dockerName.PodFullName, err)
}
return dockerName.PodUID, name, namespace, nil
}
// GetContainers returns a list of running containers if |all| is false;
// otherwise, it returns all containers.
func (dm *DockerManager) GetContainers(all bool) ([]*kubecontainer.Container, error) {
containers, err := GetKubeletDockerContainers(dm.client, all)
if err != nil {
return nil, err
}
// Convert DockerContainers to []*kubecontainer.Container
result := make([]*kubecontainer.Container, 0, len(containers))
for _, c := range containers {
converted, err := toRuntimeContainer(c)
if err != nil {
glog.Errorf("Error examining the container %v: %v", c.ID, err)
continue
}
result = append(result, converted)
}
return result, nil
}
func (dm *DockerManager) GetPods(all bool) ([]*kubecontainer.Pod, error) {
start := time.Now()
defer func() {
metrics.ContainerManagerLatency.WithLabelValues("GetPods").Observe(metrics.SinceInMicroseconds(start))
}()
pods := make(map[kubetypes.UID]*kubecontainer.Pod)
var result []*kubecontainer.Pod
containers, err := GetKubeletDockerContainers(dm.client, all)
if err != nil {
return nil, err
}
// Group containers by pod.
for _, c := range containers {
converted, err := toRuntimeContainer(c)
if err != nil {
glog.Errorf("Error examining the container %v: %v", c.ID, err)
continue
}
podUID, podName, podNamespace, err := getPodInfoFromContainer(c)
if err != nil {
glog.Errorf("Error examining the container %v: %v", c.ID, err)
continue
}
pod, found := pods[podUID]
if !found {
pod = &kubecontainer.Pod{
ID: podUID,
Name: podName,
Namespace: podNamespace,
}
pods[podUID] = pod
}
pod.Containers = append(pod.Containers, converted)
}
// Convert map to list.
for _, p := range pods {
result = append(result, p)
}
return result, nil
}
// List all images in the local storage.
func (dm *DockerManager) ListImages() ([]kubecontainer.Image, error) {
var images []kubecontainer.Image
dockerImages, err := dm.client.ListImages(dockertypes.ImageListOptions{})
if err != nil {
return images, err
}
for _, di := range dockerImages {
image, err := toRuntimeImage(&di)
if err != nil {
continue
}
images = append(images, *image)
}
return images, nil
}
// PullImage pulls an image from network to local storage.
func (dm *DockerManager) PullImage(image kubecontainer.ImageSpec, secrets []api.Secret) error {
return dm.dockerPuller.Pull(image.Image, secrets)
}
// IsImagePresent checks whether the container image is already in the local storage.
func (dm *DockerManager) IsImagePresent(image kubecontainer.ImageSpec) (bool, error) {
return dm.dockerPuller.IsImagePresent(image.Image)
}
// Removes the specified image.
func (dm *DockerManager) RemoveImage(image kubecontainer.ImageSpec) error {
// If the image has multiple tags, we need to remove all the tags
if inspectImage, err := dm.client.InspectImage(image.Image); err == nil && len(inspectImage.RepoTags) > 1 {
for _, tag := range inspectImage.RepoTags {
if _, err := dm.client.RemoveImage(tag, dockertypes.ImageRemoveOptions{PruneChildren: true}); err != nil {
return err
}
}
return nil
}
_, err := dm.client.RemoveImage(image.Image, dockertypes.ImageRemoveOptions{PruneChildren: true})
return err
}
// podInfraContainerChanged returns true if the pod infra container has changed.
func (dm *DockerManager) podInfraContainerChanged(pod *api.Pod, podInfraContainerStatus *kubecontainer.ContainerStatus) (bool, error) {
var ports []api.ContainerPort
// Check network mode.
if kubecontainer.IsHostNetworkPod(pod) {
dockerPodInfraContainer, err := dm.client.InspectContainer(podInfraContainerStatus.ID.ID)
if err != nil {
return false, err
}
networkMode := getDockerNetworkMode(dockerPodInfraContainer)
if networkMode != namespaceModeHost {
glog.V(4).Infof("host: %v, %v", pod.Spec.SecurityContext.HostNetwork, networkMode)
return true, nil
}
} else if dm.networkPlugin.Name() != "cni" && dm.networkPlugin.Name() != "kubenet" {
// Docker only exports ports from the pod infra container. Let's
// collect all of the relevant ports and export them.
for _, container := range pod.Spec.InitContainers {
ports = append(ports, container.Ports...)
}
for _, container := range pod.Spec.Containers {
ports = append(ports, container.Ports...)
}
}
expectedPodInfraContainer := &api.Container{
Name: PodInfraContainerName,
Image: dm.podInfraContainerImage,
Ports: ports,
ImagePullPolicy: podInfraContainerImagePullPolicy,
Env: dm.podInfraContainerEnv,
}
return podInfraContainerStatus.Hash != kubecontainer.HashContainer(expectedPodInfraContainer), nil
}
// determine if the container root should be a read only filesystem.
func readOnlyRootFilesystem(container *api.Container) bool {
return container.SecurityContext != nil && container.SecurityContext.ReadOnlyRootFilesystem != nil && *container.SecurityContext.ReadOnlyRootFilesystem
}
// container must not be nil
func getDockerNetworkMode(container *dockertypes.ContainerJSON) string {
if container.HostConfig != nil {
return string(container.HostConfig.NetworkMode)
}
return ""
}
// dockerVersion implements kubecontainer.Version interface by implementing
// Compare() and String() (which is implemented by the underlying semver.Version)
// TODO: this code is the same as rktVersion and may make sense to be moved to
// somewhere shared.
type dockerVersion struct {
*semver.Version
}
// newDockerVersion returns a semantically versioned docker version value
func newDockerVersion(version string) (dockerVersion, error) {
sem, err := semver.NewVersion(version)
return dockerVersion{sem}, err
}
func (r dockerVersion) String() string {
return r.Version.String()
}
func (r dockerVersion) Compare(other string) (int, error) {
v, err := newDockerVersion(other)
if err != nil {