Example #1
0
// determineEffectiveSecurityContext gets container's security context from api.Pod and api.Container.
func (m *kubeGenericRuntimeManager) determineEffectiveSecurityContext(pod *api.Pod, container *api.Container, imageUser string) *runtimeapi.LinuxContainerSecurityContext {
	effectiveSc := securitycontext.DetermineEffectiveSecurityContext(pod, container)
	synthesized := convertToRuntimeSecurityContext(effectiveSc)
	if synthesized == nil {
		synthesized = &runtimeapi.LinuxContainerSecurityContext{}
	}

	// set RunAsUser.
	if synthesized.RunAsUser == nil {
		synthesized.RunAsUser = &imageUser
	}

	// set namespace options and supplemental groups.
	podSc := pod.Spec.SecurityContext
	if podSc == nil {
		return synthesized
	}
	synthesized.NamespaceOptions = &runtimeapi.NamespaceOption{
		HostNetwork: &podSc.HostNetwork,
		HostIpc:     &podSc.HostIPC,
		HostPid:     &podSc.HostPID,
	}
	if podSc.FSGroup != nil {
		synthesized.SupplementalGroups = append(synthesized.SupplementalGroups, *podSc.FSGroup)
	}
	if groups := m.runtimeHelper.GetExtraSupplementalGroupsForPod(pod); len(groups) > 0 {
		synthesized.SupplementalGroups = append(synthesized.SupplementalGroups, groups...)
	}
	if podSc.SupplementalGroups != nil {
		synthesized.SupplementalGroups = append(synthesized.SupplementalGroups, podSc.SupplementalGroups...)
	}

	return synthesized
}
Example #2
0
// verifyRunAsNonRoot verifies RunAsNonRoot.
func verifyRunAsNonRoot(pod *api.Pod, container *api.Container, imageUser string) error {
	effectiveSc := securitycontext.DetermineEffectiveSecurityContext(pod, container)
	if effectiveSc == nil || effectiveSc.RunAsNonRoot == nil {
		return nil
	}

	if effectiveSc.RunAsUser != nil {
		if *effectiveSc.RunAsUser == 0 {
			return fmt.Errorf("container's runAsUser breaks non-root policy")
		}
		return nil
	}

	// Non-root verification only supports numeric user now. For non-numeric user,
	// just return nil to by-pass the verfication.
	// TODO: Support non-numeric user.
	uid, err := strconv.ParseInt(imageUser, 10, 64)
	if err != nil {
		glog.Warningf("Non-root verification doesn't support non-numeric user (%s)", imageUser)
		return nil
	}

	if uid == 0 {
		return fmt.Errorf("container has runAsNonRoot and image will run as root")
	}

	return nil
}
Example #3
0
// assignSecurityContext creates a security context for each container in the pod
// and validates that the sc falls within the scc constraints.  All containers must validate against
// the same scc or is not considered valid.
func assignSecurityContext(provider scc.SecurityContextConstraintsProvider, pod *kapi.Pod, fldPath *field.Path) field.ErrorList {
	generatedSCs := make([]*kapi.SecurityContext, len(pod.Spec.Containers))

	errs := field.ErrorList{}

	psc, err := provider.CreatePodSecurityContext(pod)
	if err != nil {
		errs = append(errs, field.Invalid(field.NewPath("spec", "securityContext"), pod.Spec.SecurityContext, err.Error()))
	}

	// save the original PSC and validate the generated PSC.  Leave the generated PSC
	// set for container generation/validation.  We will reset to original post container
	// validation.
	originalPSC := pod.Spec.SecurityContext
	pod.Spec.SecurityContext = psc
	errs = append(errs, provider.ValidatePodSecurityContext(pod, field.NewPath("spec", "securityContext"))...)

	// Note: this is not changing the original container, we will set container SCs later so long
	// as all containers validated under the same SCC.
	for i, containerCopy := range pod.Spec.Containers {
		// We will determine the effective security context for the container and validate against that
		// since that is how the sc provider will eventually apply settings in the runtime.
		// This results in an SC that is based on the Pod's PSC with the set fields from the container
		// overriding pod level settings.
		containerCopy.SecurityContext = sc.DetermineEffectiveSecurityContext(pod, &containerCopy)

		sc, err := provider.CreateContainerSecurityContext(pod, &containerCopy)
		if err != nil {
			errs = append(errs, field.Invalid(field.NewPath("spec", "containers").Index(i).Child("securityContext"), "", err.Error()))
			continue
		}
		generatedSCs[i] = sc

		containerCopy.SecurityContext = sc
		errs = append(errs, provider.ValidateContainerSecurityContext(pod, &containerCopy, field.NewPath("spec", "containers").Index(i).Child("securityContext"))...)
	}

	if len(errs) > 0 {
		// ensure psc is not mutated if there are errors
		pod.Spec.SecurityContext = originalPSC
		return errs
	}

	// if we've reached this code then we've generated and validated an SC for every container in the
	// pod so let's apply what we generated.  Note: the psc is already applied.
	for i, sc := range generatedSCs {
		pod.Spec.Containers[i].SecurityContext = sc
	}
	return nil
}
Example #4
0
// resolveContainerSecurityContext checks the provided container against the provider, returning any
// validation errors encountered on the resulting security context, or the security context that was
// resolved. The SecurityContext field of the container is updated, so ensure that a copy of the original
// container is passed here if you wish to preserve the original input.
func resolveContainerSecurityContext(provider scc.SecurityContextConstraintsProvider, pod *kapi.Pod, container *kapi.Container, path *field.Path) (*kapi.SecurityContext, field.ErrorList) {
	// We will determine the effective security context for the container and validate against that
	// since that is how the sc provider will eventually apply settings in the runtime.
	// This results in an SC that is based on the Pod's PSC with the set fields from the container
	// overriding pod level settings.
	container.SecurityContext = sc.DetermineEffectiveSecurityContext(pod, container)

	csc, err := provider.CreateContainerSecurityContext(pod, container)
	if err != nil {
		return nil, field.ErrorList{field.Invalid(path.Child("securityContext"), "", err.Error())}
	}
	container.SecurityContext = csc
	return csc, provider.ValidateContainerSecurityContext(pod, container, path.Child("securityContext"))
}
Example #5
0
// verifyRunAsNonRoot verifies RunAsNonRoot.
func verifyRunAsNonRoot(pod *api.Pod, container *api.Container, imageUser int64) error {
	effectiveSc := securitycontext.DetermineEffectiveSecurityContext(pod, container)
	if effectiveSc == nil || effectiveSc.RunAsNonRoot == nil {
		return nil
	}

	if effectiveSc.RunAsUser != nil && *effectiveSc.RunAsUser == 0 {
		return fmt.Errorf("container's runAsUser breaks non-root policy")
	}

	if imageUser == 0 {
		return fmt.Errorf("container has runAsNonRoot and image will run as root")
	}

	return nil
}
Example #6
0
func (r *Runtime) newAppcRuntimeApp(pod *api.Pod, c api.Container, pullSecrets []api.Secret) (*appcschema.RuntimeApp, []kubecontainer.PortMapping, error) {
	if err, _ := r.imagePuller.PullImage(pod, &c, pullSecrets); err != nil {
		return nil, nil, err
	}
	imgManifest, err := r.getImageManifest(c.Image)
	if err != nil {
		return nil, nil, err
	}

	if imgManifest.App == nil {
		imgManifest.App = new(appctypes.App)
	}

	imageID, err := r.getImageID(c.Image)
	if err != nil {
		return nil, nil, err
	}
	hash, err := appctypes.NewHash(imageID)
	if err != nil {
		return nil, nil, err
	}

	opts, err := r.generator.GenerateRunContainerOptions(pod, &c)
	if err != nil {
		return nil, nil, err
	}

	ctx := securitycontext.DetermineEffectiveSecurityContext(pod, &c)
	if err := setApp(imgManifest.App, &c, opts, ctx, pod.Spec.SecurityContext); err != nil {
		return nil, nil, err
	}

	return &appcschema.RuntimeApp{
		Name:  convertToACName(c.Name),
		Image: appcschema.RuntimeImage{ID: *hash},
		App:   imgManifest.App,
		Annotations: []appctypes.Annotation{
			{
				Name:  *appctypes.MustACIdentifier(k8sRktContainerHashAnno),
				Value: strconv.FormatUint(kubecontainer.HashContainer(&c), 10),
			},
		},
	}, opts.PortMappings, nil
}
Example #7
0
func (r *Runtime) newAppcRuntimeApp(pod *api.Pod, c api.Container, pullSecrets []api.Secret, manifest *appcschema.PodManifest) error {
	if err, _ := r.imagePuller.PullImage(pod, &c, pullSecrets); err != nil {
		return nil
	}
	imgManifest, err := r.getImageManifest(c.Image)
	if err != nil {
		return err
	}

	if imgManifest.App == nil {
		imgManifest.App = new(appctypes.App)
	}

	imageID, err := r.getImageID(c.Image)
	if err != nil {
		return err
	}
	hash, err := appctypes.NewHash(imageID)
	if err != nil {
		return err
	}

	opts, err := r.runtimeHelper.GenerateRunContainerOptions(pod, &c)
	if err != nil {
		return err
	}

	// create the container log file and make a mount pair.
	mnt, err := makeContainerLogMount(opts, &c)
	if err != nil {
		return err
	}

	ctx := securitycontext.DetermineEffectiveSecurityContext(pod, &c)
	if err := setApp(imgManifest.App, &c, opts, ctx, pod.Spec.SecurityContext); err != nil {
		return err
	}

	ra := appcschema.RuntimeApp{
		Name:  convertToACName(c.Name),
		Image: appcschema.RuntimeImage{ID: *hash},
		App:   imgManifest.App,
		Annotations: []appctypes.Annotation{
			{
				Name:  *appctypes.MustACIdentifier(k8sRktContainerHashAnno),
				Value: strconv.FormatUint(kubecontainer.HashContainer(&c), 10),
			},
		},
	}

	if mnt != nil {
		ra.Annotations = append(ra.Annotations, appctypes.Annotation{
			Name:  *appctypes.MustACIdentifier(k8sRktTerminationMessagePathAnno),
			Value: mnt.HostPath,
		})

		manifest.Volumes = append(manifest.Volumes, appctypes.Volume{
			Name:   convertToACName(mnt.Name),
			Kind:   "host",
			Source: mnt.HostPath,
		})
	}

	manifest.Apps = append(manifest.Apps, ra)

	// Set global ports.
	for _, port := range opts.PortMappings {
		manifest.Ports = append(manifest.Ports, appctypes.ExposedPort{
			Name:     convertToACName(port.Name),
			HostPort: uint(port.HostPort),
		})
	}

	return nil
}