package abi import ( "context" "fmt" "io" "io/ioutil" "os" "path/filepath" "strings" "github.com/containers/buildah/pkg/parse" "github.com/containers/image/v5/types" "github.com/containers/podman/v2/libpod" "github.com/containers/podman/v2/libpod/image" ann "github.com/containers/podman/v2/pkg/annotations" "github.com/containers/podman/v2/pkg/domain/entities" envLib "github.com/containers/podman/v2/pkg/env" ns "github.com/containers/podman/v2/pkg/namespaces" createconfig "github.com/containers/podman/v2/pkg/spec" "github.com/containers/podman/v2/pkg/specgen/generate" "github.com/containers/podman/v2/pkg/util" "github.com/containers/storage" "github.com/cri-o/ocicni/pkg/ocicni" "github.com/docker/distribution/reference" "github.com/ghodss/yaml" "github.com/pkg/errors" "github.com/sirupsen/logrus" v1apps "k8s.io/api/apps/v1" v1 "k8s.io/api/core/v1" ) const ( // https://kubernetes.io/docs/concepts/storage/volumes/#hostpath kubeDirectoryPermission = 0755 // https://kubernetes.io/docs/concepts/storage/volumes/#hostpath kubeFilePermission = 0644 ) func (ic *ContainerEngine) PlayKube(ctx context.Context, path string, options entities.PlayKubeOptions) (*entities.PlayKubeReport, error) { var ( kubeObject v1.ObjectReference ) content, err := ioutil.ReadFile(path) if err != nil { return nil, err } if err := yaml.Unmarshal(content, &kubeObject); err != nil { return nil, errors.Wrapf(err, "unable to read %q as YAML", path) } // NOTE: pkg/bindings/play is also parsing the file. // A pkg/kube would be nice to refactor and abstract // parts of the K8s-related code. switch kubeObject.Kind { case "Pod": var podYAML v1.Pod var podTemplateSpec v1.PodTemplateSpec if err := yaml.Unmarshal(content, &podYAML); err != nil { return nil, errors.Wrapf(err, "unable to read YAML %q as Kube Pod", path) } podTemplateSpec.ObjectMeta = podYAML.ObjectMeta podTemplateSpec.Spec = podYAML.Spec return ic.playKubePod(ctx, podTemplateSpec.ObjectMeta.Name, &podTemplateSpec, options) case "Deployment": var deploymentYAML v1apps.Deployment if err := yaml.Unmarshal(content, &deploymentYAML); err != nil { return nil, errors.Wrapf(err, "unable to read YAML %q as Kube Deployment", path) } return ic.playKubeDeployment(ctx, &deploymentYAML, options) default: return nil, errors.Errorf("invalid YAML kind: %q. [Pod|Deployment] are the only supported Kubernetes Kinds", kubeObject.Kind) } } func (ic *ContainerEngine) playKubeDeployment(ctx context.Context, deploymentYAML *v1apps.Deployment, options entities.PlayKubeOptions) (*entities.PlayKubeReport, error) { var ( deploymentName string podSpec v1.PodTemplateSpec numReplicas int32 i int32 report entities.PlayKubeReport ) deploymentName = deploymentYAML.ObjectMeta.Name if deploymentName == "" { return nil, errors.Errorf("Deployment does not have a name") } numReplicas = 1 if deploymentYAML.Spec.Replicas != nil { numReplicas = *deploymentYAML.Spec.Replicas } podSpec = deploymentYAML.Spec.Template // create "replicas" number of pods for i = 0; i < numReplicas; i++ { podName := fmt.Sprintf("%s-pod-%d", deploymentName, i) podReport, err := ic.playKubePod(ctx, podName, &podSpec, options) if err != nil { return nil, errors.Wrapf(err, "Error encountered while bringing up pod %s", podName) } report.Pods = append(report.Pods, podReport.Pods...) } return &report, nil } func (ic *ContainerEngine) playKubePod(ctx context.Context, podName string, podYAML *v1.PodTemplateSpec, options entities.PlayKubeOptions) (*entities.PlayKubeReport, error) { var ( pod *libpod.Pod registryCreds *types.DockerAuthConfig writer io.Writer playKubePod entities.PlayKubePod report entities.PlayKubeReport ) // check for name collision between pod and container if podName == "" { return nil, errors.Errorf("pod does not have a name") } for _, n := range podYAML.Spec.Containers { if n.Name == podName { playKubePod.Logs = append(playKubePod.Logs, fmt.Sprintf("a container exists with the same name (%q) as the pod in your YAML file; changing pod name to %s_pod\n", podName, podName)) podName = fmt.Sprintf("%s_pod", podName) } } podOptions := []libpod.PodCreateOption{ libpod.WithInfraContainer(), libpod.WithPodName(podName), } if podYAML.ObjectMeta.Labels != nil { podOptions = append(podOptions, libpod.WithPodLabels(podYAML.ObjectMeta.Labels)) } // TODO we only configure Process namespace. We also need to account for Host{IPC,Network,PID} // which is not currently possible with pod create if podYAML.Spec.ShareProcessNamespace != nil && *podYAML.Spec.ShareProcessNamespace { podOptions = append(podOptions, libpod.WithPodPID()) } hostname := podYAML.Spec.Hostname if hostname == "" { hostname = podName } podOptions = append(podOptions, libpod.WithPodHostname(hostname)) if podYAML.Spec.HostNetwork { podOptions = append(podOptions, libpod.WithPodHostNetwork()) } if podYAML.Spec.HostAliases != nil { hosts := make([]string, 0, len(podYAML.Spec.HostAliases)) for _, hostAlias := range podYAML.Spec.HostAliases { for _, host := range hostAlias.Hostnames { hosts = append(hosts, host+":"+hostAlias.IP) } } podOptions = append(podOptions, libpod.WithPodHosts(hosts)) } nsOptions, err := generate.GetNamespaceOptions(strings.Split(createconfig.DefaultKernelNamespaces, ",")) if err != nil { return nil, err } podOptions = append(podOptions, nsOptions...) podPorts := getPodPorts(podYAML.Spec.Containers) podOptions = append(podOptions, libpod.WithInfraContainerPorts(podPorts)) if options.Network != "" { switch strings.ToLower(options.Network) { case "bridge", "host": return nil, errors.Errorf("invalid value passed to --network: bridge or host networking must be configured in YAML") case "": return nil, errors.Errorf("invalid value passed to --network: must provide a comma-separated list of CNI networks") default: // We'll assume this is a comma-separated list of CNI // networks. networks := strings.Split(options.Network, ",") logrus.Debugf("Pod joining CNI networks: %v", networks) podOptions = append(podOptions, libpod.WithPodNetworks(networks)) } } // Create the Pod pod, err = ic.Libpod.NewPod(ctx, podOptions...) if err != nil { return nil, err } podInfraID, err := pod.InfraContainerID() if err != nil { return nil, err } hasUserns := false if podInfraID != "" { podCtr, err := ic.Libpod.GetContainer(podInfraID) if err != nil { return nil, err } mappings, err := podCtr.IDMappings() if err != nil { return nil, err } hasUserns = len(mappings.UIDMap) > 0 } namespaces := map[string]string{ // Disabled during code review per mheon //"pid": fmt.Sprintf("container:%s", podInfraID), "net": fmt.Sprintf("container:%s", podInfraID), "ipc": fmt.Sprintf("container:%s", podInfraID), "uts": fmt.Sprintf("container:%s", podInfraID), } if hasUserns { namespaces["user"] = fmt.Sprintf("container:%s", podInfraID) } if !options.Quiet { writer = os.Stderr } if len(options.Username) > 0 && len(options.Password) > 0 { registryCreds = &types.DockerAuthConfig{ Username: options.Username, Password: options.Password, } } dockerRegistryOptions := image.DockerRegistryOptions{ DockerRegistryCreds: registryCreds, DockerCertPath: options.CertDir, DockerInsecureSkipTLSVerify: options.SkipTLSVerify, } // map from name to mount point volumes := make(map[string]string) for _, volume := range podYAML.Spec.Volumes { hostPath := volume.VolumeSource.HostPath if hostPath == nil { return nil, errors.Errorf("HostPath is currently the only supported VolumeSource") } if hostPath.Type != nil { switch *hostPath.Type { case v1.HostPathDirectoryOrCreate: if _, err := os.Stat(hostPath.Path); os.IsNotExist(err) { if err := os.Mkdir(hostPath.Path, kubeDirectoryPermission); err != nil { return nil, errors.Errorf("Error creating HostPath %s", volume.Name) } } // Label a newly created volume if err := libpod.LabelVolumePath(hostPath.Path); err != nil { return nil, errors.Wrapf(err, "Error giving %s a label", hostPath.Path) } case v1.HostPathFileOrCreate: if _, err := os.Stat(hostPath.Path); os.IsNotExist(err) { f, err := os.OpenFile(hostPath.Path, os.O_RDONLY|os.O_CREATE, kubeFilePermission) if err != nil { return nil, errors.Errorf("Error creating HostPath %s", volume.Name) } if err := f.Close(); err != nil { logrus.Warnf("Error in closing newly created HostPath file: %v", err) } } // unconditionally label a newly created volume if err := libpod.LabelVolumePath(hostPath.Path); err != nil { return nil, errors.Wrapf(err, "Error giving %s a label", hostPath.Path) } case v1.HostPathSocket: st, err := os.Stat(hostPath.Path) if err != nil { return nil, errors.Wrap(err, "Error checking HostPathSocket") } if st.Mode()&os.ModeSocket != os.ModeSocket { return nil, errors.Errorf("Error checking HostPathSocket: path %s is not a socket", hostPath.Path) } case v1.HostPathDirectory: case v1.HostPathFile: case v1.HostPathUnset: // do nothing here because we will verify the path exists in validateVolumeHostDir break default: return nil, errors.Errorf("Invalid HostPath type %v", hostPath.Type) } } if err := parse.ValidateVolumeHostDir(hostPath.Path); err != nil { return nil, errors.Wrapf(err, "Error in parsing HostPath in YAML") } volumes[volume.Name] = hostPath.Path } seccompPaths, err := initializeSeccompPaths(podYAML.ObjectMeta.Annotations, options.SeccompProfileRoot) if err != nil { return nil, err } var ctrRestartPolicy string switch podYAML.Spec.RestartPolicy { case v1.RestartPolicyAlways: ctrRestartPolicy = libpod.RestartPolicyAlways case v1.RestartPolicyOnFailure: ctrRestartPolicy = libpod.RestartPolicyOnFailure case v1.RestartPolicyNever: ctrRestartPolicy = libpod.RestartPolicyNo default: // Default to Always ctrRestartPolicy = libpod.RestartPolicyAlways } containers := make([]*libpod.Container, 0, len(podYAML.Spec.Containers)) for _, container := range podYAML.Spec.Containers { pullPolicy := util.PullImageMissing if len(container.ImagePullPolicy) > 0 { pullPolicy, err = util.ValidatePullType(string(container.ImagePullPolicy)) if err != nil { return nil, err } } named, err := reference.ParseNormalizedNamed(container.Image) if err != nil { return nil, err } // In kube, if the image is tagged with latest, it should always pull if tagged, isTagged := named.(reference.NamedTagged); isTagged { if tagged.Tag() == image.LatestTag { pullPolicy = util.PullImageAlways } } newImage, err := ic.Libpod.ImageRuntime().New(ctx, container.Image, options.SignaturePolicy, options.Authfile, writer, &dockerRegistryOptions, image.SigningOptions{}, nil, pullPolicy) if err != nil { return nil, err } conf, err := kubeContainerToCreateConfig(ctx, container, newImage, namespaces, volumes, pod.ID(), podName, podInfraID, seccompPaths) if err != nil { return nil, err } conf.RestartPolicy = ctrRestartPolicy ctr, err := createconfig.CreateContainerFromCreateConfig(ctx, ic.Libpod, conf, pod) if err != nil { return nil, err } containers = append(containers, ctr) } // start the containers for _, ctr := range containers { if err := ctr.Start(ctx, true); err != nil { // Making this a hard failure here to avoid a mess // the other containers are in created status return nil, err } } playKubePod.ID = pod.ID() for _, ctr := range containers { playKubePod.Containers = append(playKubePod.Containers, ctr.ID()) } report.Pods = append(report.Pods, playKubePod) return &report, nil } // getPodPorts converts a slice of kube container descriptions to an // array of ocicni portmapping descriptions usable in libpod func getPodPorts(containers []v1.Container) []ocicni.PortMapping { var infraPorts []ocicni.PortMapping for _, container := range containers { for _, p := range container.Ports { if p.HostPort != 0 && p.ContainerPort == 0 { p.ContainerPort = p.HostPort } if p.Protocol == "" { p.Protocol = "tcp" } portBinding := ocicni.PortMapping{ HostPort: p.HostPort, ContainerPort: p.ContainerPort, Protocol: strings.ToLower(string(p.Protocol)), HostIP: p.HostIP, } // only hostPort is utilized in podman context, all container ports // are accessible inside the shared network namespace if p.HostPort != 0 { infraPorts = append(infraPorts, portBinding) } } } return infraPorts } func setupSecurityContext(securityConfig *createconfig.SecurityConfig, userConfig *createconfig.UserConfig, containerYAML v1.Container) { if containerYAML.SecurityContext == nil { return } if containerYAML.SecurityContext.ReadOnlyRootFilesystem != nil { securityConfig.ReadOnlyRootfs = *containerYAML.SecurityContext.ReadOnlyRootFilesystem } if containerYAML.SecurityContext.Privileged != nil { securityConfig.Privileged = *containerYAML.SecurityContext.Privileged } if containerYAML.SecurityContext.AllowPrivilegeEscalation != nil { securityConfig.NoNewPrivs = !*containerYAML.SecurityContext.AllowPrivilegeEscalation } if seopt := containerYAML.SecurityContext.SELinuxOptions; seopt != nil { if seopt.User != "" { securityConfig.SecurityOpts = append(securityConfig.SecurityOpts, fmt.Sprintf("label=user:%s", seopt.User)) securityConfig.LabelOpts = append(securityConfig.LabelOpts, fmt.Sprintf("user:%s", seopt.User)) } if seopt.Role != "" { securityConfig.SecurityOpts = append(securityConfig.SecurityOpts, fmt.Sprintf("label=role:%s", seopt.Role)) securityConfig.LabelOpts = append(securityConfig.LabelOpts, fmt.Sprintf("role:%s", seopt.Role)) } if seopt.Type != "" { securityConfig.SecurityOpts = append(securityConfig.SecurityOpts, fmt.Sprintf("label=type:%s", seopt.Type)) securityConfig.LabelOpts = append(securityConfig.LabelOpts, fmt.Sprintf("type:%s", seopt.Type)) } if seopt.Level != "" { securityConfig.SecurityOpts = append(securityConfig.SecurityOpts, fmt.Sprintf("label=level:%s", seopt.Level)) securityConfig.LabelOpts = append(securityConfig.LabelOpts, fmt.Sprintf("level:%s", seopt.Level)) } } if caps := containerYAML.SecurityContext.Capabilities; caps != nil { for _, capability := range caps.Add { securityConfig.CapAdd = append(securityConfig.CapAdd, string(capability)) } for _, capability := range caps.Drop { securityConfig.CapDrop = append(securityConfig.CapDrop, string(capability)) } } if containerYAML.SecurityContext.RunAsUser != nil { userConfig.User = fmt.Sprintf("%d", *containerYAML.SecurityContext.RunAsUser) } if containerYAML.SecurityContext.RunAsGroup != nil { if userConfig.User == "" { userConfig.User = "0" } userConfig.User = fmt.Sprintf("%s:%d", userConfig.User, *containerYAML.SecurityContext.RunAsGroup) } } // kubeContainerToCreateConfig takes a v1.Container and returns a createconfig describing a container func kubeContainerToCreateConfig(ctx context.Context, containerYAML v1.Container, newImage *image.Image, namespaces map[string]string, volumes map[string]string, podID, podName, infraID string, seccompPaths *kubeSeccompPaths) (*createconfig.CreateConfig, error) { var ( containerConfig createconfig.CreateConfig pidConfig createconfig.PidConfig networkConfig createconfig.NetworkConfig cgroupConfig createconfig.CgroupConfig utsConfig createconfig.UtsConfig ipcConfig createconfig.IpcConfig userConfig createconfig.UserConfig securityConfig createconfig.SecurityConfig ) // The default for MemorySwappiness is -1, not 0 containerConfig.Resources.MemorySwappiness = -1 containerConfig.Image = containerYAML.Image containerConfig.ImageID = newImage.ID() // podName should be non-empty for Deployment objects to be able to create // multiple pods having containers with unique names if podName == "" { return nil, errors.Errorf("kubeContainerToCreateConfig got empty podName") } containerConfig.Name = fmt.Sprintf("%s-%s", podName, containerYAML.Name) containerConfig.Tty = containerYAML.TTY containerConfig.Pod = podID imageData, _ := newImage.Inspect(ctx) userConfig.User = "0" if imageData != nil { userConfig.User = imageData.Config.User } setupSecurityContext(&securityConfig, &userConfig, containerYAML) // Since we prefix the container name with pod name to work-around the uniqueness requirement, // the seccom profile should reference the actual container name from the YAML // but apply to the containers with the prefixed name securityConfig.SeccompProfilePath = seccompPaths.findForContainer(containerYAML.Name) containerConfig.Command = []string{} if imageData != nil && imageData.Config != nil { containerConfig.Command = imageData.Config.Entrypoint } if len(containerYAML.Command) != 0 { containerConfig.Command = containerYAML.Command } // doc https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#notes if len(containerYAML.Args) != 0 { containerConfig.Command = append(containerConfig.Command, containerYAML.Args...) } else if len(containerYAML.Command) == 0 { // Add the Cmd from the image config only if containerYAML.Command and containerYAML.Args are empty containerConfig.Command = append(containerConfig.Command, imageData.Config.Cmd...) } if imageData != nil && len(containerConfig.Command) == 0 { return nil, errors.Errorf("No command specified in container YAML or as CMD or ENTRYPOINT in this image for %s", containerConfig.Name) } containerConfig.UserCommand = containerConfig.Command containerConfig.StopSignal = 15 containerConfig.WorkDir = "/" if imageData != nil { // FIXME, // we are currently ignoring imageData.Config.ExposedPorts containerConfig.BuiltinImgVolumes = imageData.Config.Volumes if imageData.Config.WorkingDir != "" { containerConfig.WorkDir = imageData.Config.WorkingDir } containerConfig.Labels = imageData.Config.Labels if imageData.Config.StopSignal != "" { stopSignal, err := util.ParseSignal(imageData.Config.StopSignal) if err != nil { return nil, err } containerConfig.StopSignal = stopSignal } } if containerYAML.WorkingDir != "" { containerConfig.WorkDir = containerYAML.WorkingDir } // If the user does not pass in ID mappings, just set to basics if userConfig.IDMappings == nil { userConfig.IDMappings = &storage.IDMappingOptions{} } networkConfig.NetMode = ns.NetworkMode(namespaces["net"]) ipcConfig.IpcMode = ns.IpcMode(namespaces["ipc"]) utsConfig.UtsMode = ns.UTSMode(namespaces["uts"]) // disabled in code review per mheon //containerConfig.PidMode = ns.PidMode(namespaces["pid"]) userConfig.UsernsMode = ns.UsernsMode(namespaces["user"]) if len(containerConfig.WorkDir) == 0 { containerConfig.WorkDir = "/" } containerConfig.Pid = pidConfig containerConfig.Network = networkConfig containerConfig.Uts = utsConfig containerConfig.Ipc = ipcConfig containerConfig.Cgroup = cgroupConfig containerConfig.User = userConfig containerConfig.Security = securityConfig annotations := make(map[string]string) if infraID != "" { annotations[ann.SandboxID] = infraID annotations[ann.ContainerType] = ann.ContainerTypeContainer } containerConfig.Annotations = annotations // Environment Variables envs := map[string]string{} if imageData != nil { imageEnv, err := envLib.ParseSlice(imageData.Config.Env) if err != nil { return nil, errors.Wrap(err, "error parsing image environment variables") } envs = imageEnv } for _, e := range containerYAML.Env { envs[e.Name] = e.Value } containerConfig.Env = envs for _, volume := range containerYAML.VolumeMounts { var readonly string hostPath, exists := volumes[volume.Name] if !exists { return nil, errors.Errorf("Volume mount %s specified for container but not configured in volumes", volume.Name) } if err := parse.ValidateVolumeCtrDir(volume.MountPath); err != nil { return nil, errors.Wrapf(err, "error in parsing MountPath") } if volume.ReadOnly { readonly = ":ro" } containerConfig.Volumes = append(containerConfig.Volumes, fmt.Sprintf("%s:%s%s", hostPath, volume.MountPath, readonly)) } return &containerConfig, nil } // kubeSeccompPaths holds information about a pod YAML's seccomp configuration // it holds both container and pod seccomp paths type kubeSeccompPaths struct { containerPaths map[string]string podPath string } // findForContainer checks whether a container has a seccomp path configured for it // if not, it returns the podPath, which should always have a value func (k *kubeSeccompPaths) findForContainer(ctrName string) string { if path, ok := k.containerPaths[ctrName]; ok { return path } return k.podPath } // initializeSeccompPaths takes annotations from the pod object metadata and finds annotations pertaining to seccomp // it parses both pod and container level // if the annotation is of the form "localhost/%s", the seccomp profile will be set to profileRoot/%s func initializeSeccompPaths(annotations map[string]string, profileRoot string) (*kubeSeccompPaths, error) { seccompPaths := &kubeSeccompPaths{containerPaths: make(map[string]string)} var err error if annotations != nil { for annKeyValue, seccomp := range annotations { // check if it is prefaced with container.seccomp.security.alpha.kubernetes.io/ prefixAndCtr := strings.Split(annKeyValue, "/") if prefixAndCtr[0]+"/" != v1.SeccompContainerAnnotationKeyPrefix { continue } else if len(prefixAndCtr) != 2 { // this could be caused by a user inputting either of // container.seccomp.security.alpha.kubernetes.io{,/} // both of which are invalid return nil, errors.Errorf("Invalid seccomp path: %s", prefixAndCtr[0]) } path, err := verifySeccompPath(seccomp, profileRoot) if err != nil { return nil, err } seccompPaths.containerPaths[prefixAndCtr[1]] = path } podSeccomp, ok := annotations[v1.SeccompPodAnnotationKey] if ok { seccompPaths.podPath, err = verifySeccompPath(podSeccomp, profileRoot) } else { seccompPaths.podPath, err = libpod.DefaultSeccompPath() } if err != nil { return nil, err } } return seccompPaths, nil } // verifySeccompPath takes a path and checks whether it is a default, unconfined, or a path // the available options are parsed as defined in https://kubernetes.io/docs/concepts/policy/pod-security-policy/#seccomp func verifySeccompPath(path string, profileRoot string) (string, error) { switch path { case v1.DeprecatedSeccompProfileDockerDefault: fallthrough case v1.SeccompProfileRuntimeDefault: return libpod.DefaultSeccompPath() case "unconfined": return path, nil default: parts := strings.Split(path, "/") if parts[0] == "localhost" { return filepath.Join(profileRoot, parts[1]), nil } return "", errors.Errorf("invalid seccomp path: %s", path) } }