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package libpod
import (
"fmt"
"math/rand"
"strconv"
"strings"
"time"
"github.com/containers/libpod/libpod/define"
"github.com/containers/libpod/pkg/lookup"
"github.com/containers/libpod/pkg/util"
"github.com/cri-o/ocicni/pkg/ocicni"
"github.com/opencontainers/runtime-spec/specs-go"
"github.com/opencontainers/runtime-tools/generate"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
"k8s.io/api/core/v1"
"k8s.io/apimachinery/pkg/api/resource"
v12 "k8s.io/apimachinery/pkg/apis/meta/v1"
)
// GenerateForKube takes a slice of libpod containers and generates
// one v1.Pod description that includes just a single container.
func (c *Container) GenerateForKube() (*v1.Pod, error) {
// Generate the v1.Pod yaml description
return simplePodWithV1Container(c)
}
// GenerateForKube takes a slice of libpod containers and generates
// one v1.Pod description
func (p *Pod) GenerateForKube() (*v1.Pod, []v1.ServicePort, error) {
// Generate the v1.Pod yaml description
var (
servicePorts []v1.ServicePort
ports []v1.ContainerPort
)
allContainers, err := p.allContainers()
if err != nil {
return nil, servicePorts, err
}
// If the pod has no containers, no sense to generate YAML
if len(allContainers) == 0 {
return nil, servicePorts, errors.Errorf("pod %s has no containers", p.ID())
}
// If only an infra container is present, makes no sense to generate YAML
if len(allContainers) == 1 && p.HasInfraContainer() {
return nil, servicePorts, errors.Errorf("pod %s only has an infra container", p.ID())
}
if p.HasInfraContainer() {
infraContainer, err := p.getInfraContainer()
if err != nil {
return nil, servicePorts, err
}
ports, err = ocicniPortMappingToContainerPort(infraContainer.config.PortMappings)
if err != nil {
return nil, servicePorts, err
}
servicePorts = containerPortsToServicePorts(ports)
}
pod, err := p.podWithContainers(allContainers, ports)
return pod, servicePorts, err
}
func (p *Pod) getInfraContainer() (*Container, error) {
infraID, err := p.InfraContainerID()
if err != nil {
return nil, err
}
return p.runtime.GetContainer(infraID)
}
// GenerateKubeServiceFromV1Pod creates a v1 service object from a v1 pod object
func GenerateKubeServiceFromV1Pod(pod *v1.Pod, servicePorts []v1.ServicePort) v1.Service {
service := v1.Service{}
selector := make(map[string]string)
selector["app"] = pod.Labels["app"]
ports := servicePorts
if len(ports) == 0 {
ports = containersToServicePorts(pod.Spec.Containers)
}
serviceSpec := v1.ServiceSpec{
Ports: ports,
Selector: selector,
Type: v1.ServiceTypeNodePort,
}
service.Spec = serviceSpec
service.ObjectMeta = pod.ObjectMeta
tm := v12.TypeMeta{
Kind: "Service",
APIVersion: pod.TypeMeta.APIVersion,
}
service.TypeMeta = tm
return service
}
// containerPortsToServicePorts takes a slice of containerports and generates a
// slice of service ports
func containerPortsToServicePorts(containerPorts []v1.ContainerPort) []v1.ServicePort {
var sps []v1.ServicePort
for _, cp := range containerPorts {
nodePort := 30000 + rand.Intn(32767-30000+1)
servicePort := v1.ServicePort{
Protocol: cp.Protocol,
Port: cp.ContainerPort,
NodePort: int32(nodePort),
Name: strconv.Itoa(int(cp.ContainerPort)),
}
sps = append(sps, servicePort)
}
return sps
}
// containersToServicePorts takes a slice of v1.Containers and generates an
// inclusive list of serviceports to expose
func containersToServicePorts(containers []v1.Container) []v1.ServicePort {
var sps []v1.ServicePort
// Without the call to rand.Seed, a program will produce the same sequence of pseudo-random numbers
// for each execution. Legal nodeport range is 30000-32767
rand.Seed(time.Now().UnixNano())
for _, ctr := range containers {
sps = append(sps, containerPortsToServicePorts(ctr.Ports)...)
}
return sps
}
func (p *Pod) podWithContainers(containers []*Container, ports []v1.ContainerPort) (*v1.Pod, error) {
var (
podContainers []v1.Container
)
first := true
for _, ctr := range containers {
if !ctr.IsInfra() {
result, err := containerToV1Container(ctr)
if err != nil {
return nil, err
}
// We add the original port declarations from the libpod infra container
// to the first kubernetes container description because otherwise we loose
// the original container/port bindings.
if first && len(ports) > 0 {
result.Ports = ports
first = false
}
podContainers = append(podContainers, result)
}
}
return addContainersToPodObject(podContainers, p.Name()), nil
}
func addContainersToPodObject(containers []v1.Container, podName string) *v1.Pod {
tm := v12.TypeMeta{
Kind: "Pod",
APIVersion: "v1",
}
// Add a label called "app" with the containers name as a value
labels := make(map[string]string)
labels["app"] = removeUnderscores(podName)
om := v12.ObjectMeta{
// The name of the pod is container_name-libpod
Name: fmt.Sprintf("%s", removeUnderscores(podName)),
Labels: labels,
// CreationTimestamp seems to be required, so adding it; in doing so, the timestamp
// will reflect time this is run (not container create time) because the conversion
// of the container create time to v1 Time is probably not warranted nor worthwhile.
CreationTimestamp: v12.Now(),
}
ps := v1.PodSpec{
Containers: containers,
}
p := v1.Pod{
TypeMeta: tm,
ObjectMeta: om,
Spec: ps,
}
return &p
}
// simplePodWithV1Container is a function used by inspect when kube yaml needs to be generated
// for a single container. we "insert" that container description in a pod.
func simplePodWithV1Container(ctr *Container) (*v1.Pod, error) {
var containers []v1.Container
result, err := containerToV1Container(ctr)
if err != nil {
return nil, err
}
containers = append(containers, result)
return addContainersToPodObject(containers, ctr.Name()), nil
}
// containerToV1Container converts information we know about a libpod container
// to a V1.Container specification.
func containerToV1Container(c *Container) (v1.Container, error) {
kubeContainer := v1.Container{}
kubeSec, err := generateKubeSecurityContext(c)
if err != nil {
return kubeContainer, err
}
if len(c.config.Spec.Linux.Devices) > 0 {
// TODO Enable when we can support devices and their names
devices, err := generateKubeVolumeDeviceFromLinuxDevice(c.Spec().Linux.Devices)
if err != nil {
return kubeContainer, err
}
kubeContainer.VolumeDevices = devices
return kubeContainer, errors.Wrapf(define.ErrNotImplemented, "linux devices")
}
if len(c.config.UserVolumes) > 0 {
// TODO When we until we can resolve what the volume name should be, this is disabled
// Volume names need to be coordinated "globally" in the kube files.
volumes, err := libpodMountsToKubeVolumeMounts(c)
if err != nil {
return kubeContainer, err
}
kubeContainer.VolumeMounts = volumes
}
envVariables, err := libpodEnvVarsToKubeEnvVars(c.config.Spec.Process.Env)
if err != nil {
return kubeContainer, err
}
portmappings, err := c.PortMappings()
if err != nil {
return kubeContainer, err
}
ports, err := ocicniPortMappingToContainerPort(portmappings)
if err != nil {
return kubeContainer, err
}
containerCommands := c.Command()
kubeContainer.Name = removeUnderscores(c.Name())
_, image := c.Image()
kubeContainer.Image = image
kubeContainer.Stdin = c.Stdin()
kubeContainer.Command = containerCommands
// TODO need to figure out how we handle command vs entry point. Kube appears to prefer entrypoint.
// right now we just take the container's command
//container.Args = args
kubeContainer.WorkingDir = c.WorkingDir()
kubeContainer.Ports = ports
// This should not be applicable
//container.EnvFromSource =
kubeContainer.Env = envVariables
// TODO enable resources when we can support naming conventions
//container.Resources
kubeContainer.SecurityContext = kubeSec
kubeContainer.StdinOnce = false
kubeContainer.TTY = c.config.Spec.Process.Terminal
return kubeContainer, nil
}
// ocicniPortMappingToContainerPort takes an ocicni portmapping and converts
// it to a v1.ContainerPort format for kube output
func ocicniPortMappingToContainerPort(portMappings []ocicni.PortMapping) ([]v1.ContainerPort, error) {
var containerPorts []v1.ContainerPort
for _, p := range portMappings {
var protocol v1.Protocol
switch strings.ToUpper(p.Protocol) {
case "TCP":
protocol = v1.ProtocolTCP
case "UDP":
protocol = v1.ProtocolUDP
default:
return containerPorts, errors.Errorf("unknown network protocol %s", p.Protocol)
}
cp := v1.ContainerPort{
// Name will not be supported
HostPort: p.HostPort,
HostIP: p.HostIP,
ContainerPort: p.ContainerPort,
Protocol: protocol,
}
containerPorts = append(containerPorts, cp)
}
return containerPorts, nil
}
// libpodEnvVarsToKubeEnvVars converts a key=value string slice to []v1.EnvVar
func libpodEnvVarsToKubeEnvVars(envs []string) ([]v1.EnvVar, error) {
var envVars []v1.EnvVar
for _, e := range envs {
splitE := strings.SplitN(e, "=", 2)
if len(splitE) != 2 {
return envVars, errors.Errorf("environment variable %s is malformed; should be key=value", e)
}
ev := v1.EnvVar{
Name: splitE[0],
Value: splitE[1],
}
envVars = append(envVars, ev)
}
return envVars, nil
}
// Is this worth it?
func libpodMaxAndMinToResourceList(c *Container) (v1.ResourceList, v1.ResourceList) { //nolint
// It does not appear we can properly calculate CPU resources from the information
// we know in libpod. Libpod knows CPUs by time, shares, etc.
// We also only know about a memory limit; no memory minimum
maxResources := make(map[v1.ResourceName]resource.Quantity)
minResources := make(map[v1.ResourceName]resource.Quantity)
config := c.Config()
maxMem := config.Spec.Linux.Resources.Memory.Limit
_ = maxMem
return maxResources, minResources
}
func generateKubeVolumeMount(hostSourcePath string, mounts []specs.Mount) (v1.VolumeMount, error) {
vm := v1.VolumeMount{}
for _, m := range mounts {
if m.Source == hostSourcePath {
// TODO Name is not provided and is required by Kube; therefore, this is disabled earlier
//vm.Name =
vm.MountPath = m.Source
vm.SubPath = m.Destination
if util.StringInSlice("ro", m.Options) {
vm.ReadOnly = true
}
return vm, nil
}
}
return vm, errors.New("unable to find mount source")
}
// libpodMountsToKubeVolumeMounts converts the containers mounts to a struct kube understands
func libpodMountsToKubeVolumeMounts(c *Container) ([]v1.VolumeMount, error) {
// At this point, I dont think we can distinguish between the default
// volume mounts and user added ones. For now, we pass them all.
var vms []v1.VolumeMount
for _, hostSourcePath := range c.config.UserVolumes {
vm, err := generateKubeVolumeMount(hostSourcePath, c.config.Spec.Mounts)
if err != nil {
continue
}
vms = append(vms, vm)
}
return vms, nil
}
func determineCapAddDropFromCapabilities(defaultCaps, containerCaps []string) *v1.Capabilities {
var (
drop []v1.Capability
add []v1.Capability
)
// Find caps in the defaultCaps but not in the container's
// those indicate a dropped cap
for _, capability := range defaultCaps {
if !util.StringInSlice(capability, containerCaps) {
cap := v1.Capability(capability)
drop = append(drop, cap)
}
}
// Find caps in the container but not in the defaults; those indicate
// an added cap
for _, capability := range containerCaps {
if !util.StringInSlice(capability, defaultCaps) {
cap := v1.Capability(capability)
add = append(add, cap)
}
}
return &v1.Capabilities{
Add: add,
Drop: drop,
}
}
func capAddDrop(caps *specs.LinuxCapabilities) (*v1.Capabilities, error) {
g, err := generate.New("linux")
if err != nil {
return nil, err
}
// Combine all the default capabilities into a slice
defaultCaps := append(g.Config.Process.Capabilities.Ambient, g.Config.Process.Capabilities.Bounding...)
defaultCaps = append(defaultCaps, g.Config.Process.Capabilities.Effective...)
defaultCaps = append(defaultCaps, g.Config.Process.Capabilities.Inheritable...)
defaultCaps = append(defaultCaps, g.Config.Process.Capabilities.Permitted...)
// Combine all the container's capabilities into a slic
containerCaps := append(caps.Ambient, caps.Bounding...)
containerCaps = append(containerCaps, caps.Effective...)
containerCaps = append(containerCaps, caps.Inheritable...)
containerCaps = append(containerCaps, caps.Permitted...)
calculatedCaps := determineCapAddDropFromCapabilities(defaultCaps, containerCaps)
return calculatedCaps, nil
}
// generateKubeSecurityContext generates a securityContext based on the existing container
func generateKubeSecurityContext(c *Container) (*v1.SecurityContext, error) {
priv := c.Privileged()
ro := c.IsReadOnly()
allowPrivEscalation := !c.config.Spec.Process.NoNewPrivileges
newCaps, err := capAddDrop(c.config.Spec.Process.Capabilities)
if err != nil {
return nil, err
}
sc := v1.SecurityContext{
Capabilities: newCaps,
Privileged: &priv,
// TODO How do we know if selinux were passed into podman
//SELinuxOptions:
// RunAsNonRoot is an optional parameter; our first implementations should be root only; however
// I'm leaving this as a bread-crumb for later
//RunAsNonRoot: &nonRoot,
ReadOnlyRootFilesystem: &ro,
AllowPrivilegeEscalation: &allowPrivEscalation,
}
if c.User() != "" {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
}
if err := c.syncContainer(); err != nil {
return nil, errors.Wrapf(err, "unable to sync container during YAML generation")
}
logrus.Debugf("Looking in container for user: %s", c.User())
u, err := lookup.GetUser(c.state.Mountpoint, c.User())
if err != nil {
return nil, err
}
user := int64(u.Uid)
sc.RunAsUser = &user
}
return &sc, nil
}
// generateKubeVolumeDeviceFromLinuxDevice takes a list of devices and makes a VolumeDevice struct for kube
func generateKubeVolumeDeviceFromLinuxDevice(devices []specs.LinuxDevice) ([]v1.VolumeDevice, error) {
var volumeDevices []v1.VolumeDevice
for _, d := range devices {
vd := v1.VolumeDevice{
// TBD How are we going to sync up these names
//Name:
DevicePath: d.Path,
}
volumeDevices = append(volumeDevices, vd)
}
return volumeDevices, nil
}
func removeUnderscores(s string) string {
return strings.Replace(s, "_", "", -1)
}
|