package lib import ( "encoding/json" "fmt" "os" "path/filepath" "sync" "time" "github.com/containers/image/types" cstorage "github.com/containers/storage" "github.com/docker/docker/pkg/ioutils" "github.com/docker/docker/pkg/truncindex" "github.com/kubernetes-incubator/cri-o/lib/sandbox" "github.com/kubernetes-incubator/cri-o/oci" "github.com/kubernetes-incubator/cri-o/pkg/annotations" "github.com/kubernetes-incubator/cri-o/pkg/registrar" "github.com/kubernetes-incubator/cri-o/pkg/storage" "github.com/opencontainers/runc/libcontainer" rspec "github.com/opencontainers/runtime-spec/specs-go" "github.com/opencontainers/selinux/go-selinux" "github.com/opencontainers/selinux/go-selinux/label" "github.com/pkg/errors" "github.com/sirupsen/logrus" pb "k8s.io/kubernetes/pkg/kubelet/apis/cri/v1alpha1/runtime" ) // ContainerServer implements the ImageServer type ContainerServer struct { runtime *oci.Runtime store cstorage.Store storageImageServer storage.ImageServer storageRuntimeServer storage.RuntimeServer updateLock sync.RWMutex ctrNameIndex *registrar.Registrar ctrIDIndex *truncindex.TruncIndex podNameIndex *registrar.Registrar podIDIndex *truncindex.TruncIndex hooks map[string]HookParams imageContext *types.SystemContext stateLock sync.Locker state *containerServerState config *Config } // Runtime returns the oci runtime for the ContainerServer func (c *ContainerServer) Runtime() *oci.Runtime { return c.runtime } // Hooks returns the oci hooks for the ContainerServer func (c *ContainerServer) Hooks() map[string]HookParams { return c.hooks } // Store returns the Store for the ContainerServer func (c *ContainerServer) Store() cstorage.Store { return c.store } // StorageImageServer returns the ImageServer for the ContainerServer func (c *ContainerServer) StorageImageServer() storage.ImageServer { return c.storageImageServer } // CtrNameIndex returns the Registrar for the ContainerServer func (c *ContainerServer) CtrNameIndex() *registrar.Registrar { return c.ctrNameIndex } // CtrIDIndex returns the TruncIndex for the ContainerServer func (c *ContainerServer) CtrIDIndex() *truncindex.TruncIndex { return c.ctrIDIndex } // PodNameIndex returns the index of pod names func (c *ContainerServer) PodNameIndex() *registrar.Registrar { return c.podNameIndex } // PodIDIndex returns the index of pod IDs func (c *ContainerServer) PodIDIndex() *truncindex.TruncIndex { return c.podIDIndex } // ImageContext returns the SystemContext for the ContainerServer func (c *ContainerServer) ImageContext() *types.SystemContext { return c.imageContext } // Config gets the configuration for the ContainerServer func (c *ContainerServer) Config() *Config { return c.config } // StorageRuntimeServer gets the runtime server for the ContainerServer func (c *ContainerServer) StorageRuntimeServer() storage.RuntimeServer { return c.storageRuntimeServer } // New creates a new ContainerServer with options provided func New(config *Config) (*ContainerServer, error) { store, err := cstorage.GetStore(cstorage.StoreOptions{ RunRoot: config.RunRoot, GraphRoot: config.Root, GraphDriverName: config.Storage, GraphDriverOptions: config.StorageOptions, }) if err != nil { return nil, err } imageService, err := storage.GetImageService(store, config.DefaultTransport, config.InsecureRegistries, config.Registries) if err != nil { return nil, err } storageRuntimeService := storage.GetRuntimeService(imageService, config.PauseImage) if err != nil { return nil, err } runtime, err := oci.New(config.Runtime, config.RuntimeUntrustedWorkload, config.DefaultWorkloadTrust, config.Conmon, config.ConmonEnv, config.CgroupManager, config.ContainerExitsDir, config.LogSizeMax, config.NoPivot) if err != nil { return nil, err } var lock sync.Locker if config.FileLocking { fileLock, err := cstorage.GetLockfile(lockPath) if err != nil { return nil, fmt.Errorf("error obtaining lockfile: %v", err) } lock = fileLock } else { lock = new(sync.Mutex) } hooks := make(map[string]HookParams) // If hooks directory is set in config use it if config.HooksDirPath != "" { if err := readHooks(config.HooksDirPath, hooks); err != nil { return nil, err } // If user overrode default hooks, this means it is in a test, so don't // use OverrideHooksDirPath if config.HooksDirPath == DefaultHooksDirPath { if err := readHooks(OverrideHooksDirPath, hooks); err != nil { return nil, err } } } return &ContainerServer{ runtime: runtime, store: store, storageImageServer: imageService, storageRuntimeServer: storageRuntimeService, ctrNameIndex: registrar.NewRegistrar(), ctrIDIndex: truncindex.NewTruncIndex([]string{}), podNameIndex: registrar.NewRegistrar(), podIDIndex: truncindex.NewTruncIndex([]string{}), imageContext: &types.SystemContext{SignaturePolicyPath: config.SignaturePolicyPath}, hooks: hooks, stateLock: lock, state: &containerServerState{ containers: oci.NewMemoryStore(), infraContainers: oci.NewMemoryStore(), sandboxes: sandbox.NewMemoryStore(), processLevels: make(map[string]int), }, config: config, }, nil } // Update makes changes to the server's state (lists of pods and containers) to // reflect the list of pods and containers that are stored on disk, possibly // having been modified by other parties func (c *ContainerServer) Update() error { c.updateLock.Lock() defer c.updateLock.Unlock() containers, err := c.store.Containers() if err != nil && !os.IsNotExist(errors.Cause(err)) { logrus.Warnf("could not read containers and sandboxes: %v", err) return err } newPods := map[string]*storage.RuntimeContainerMetadata{} oldPods := map[string]string{} removedPods := map[string]string{} newPodContainers := map[string]*storage.RuntimeContainerMetadata{} oldPodContainers := map[string]string{} removedPodContainers := map[string]string{} for _, container := range containers { if c.HasSandbox(container.ID) { // FIXME: do we need to reload/update any info about the sandbox? oldPods[container.ID] = container.ID oldPodContainers[container.ID] = container.ID continue } if c.GetContainer(container.ID) != nil { // FIXME: do we need to reload/update any info about the container? oldPodContainers[container.ID] = container.ID continue } // not previously known, so figure out what it is metadata, err2 := c.storageRuntimeServer.GetContainerMetadata(container.ID) if err2 != nil { logrus.Errorf("error parsing metadata for %s: %v, ignoring", container.ID, err2) continue } if metadata.Pod { newPods[container.ID] = &metadata } else { newPodContainers[container.ID] = &metadata } } c.ctrIDIndex.Iterate(func(id string) { if _, ok := oldPodContainers[id]; !ok { // this container's ID wasn't in the updated list -> removed removedPodContainers[id] = id } else { ctr := c.GetContainer(id) if ctr != nil { // if the container exists, update its state c.ContainerStateFromDisk(c.GetContainer(id)) } } }) for removedPodContainer := range removedPodContainers { // forget this container ctr := c.GetContainer(removedPodContainer) if ctr == nil { logrus.Warnf("bad state when getting container removed %+v", removedPodContainer) continue } c.ReleaseContainerName(ctr.Name()) c.RemoveContainer(ctr) if err = c.ctrIDIndex.Delete(ctr.ID()); err != nil { return err } logrus.Debugf("forgetting removed pod container %s", ctr.ID()) } c.PodIDIndex().Iterate(func(id string) { if _, ok := oldPods[id]; !ok { // this pod's ID wasn't in the updated list -> removed removedPods[id] = id } }) for removedPod := range removedPods { // forget this pod sb := c.GetSandbox(removedPod) if sb == nil { logrus.Warnf("bad state when getting pod to remove %+v", removedPod) continue } podInfraContainer := sb.InfraContainer() c.ReleaseContainerName(podInfraContainer.Name()) c.RemoveContainer(podInfraContainer) if err = c.ctrIDIndex.Delete(podInfraContainer.ID()); err != nil { return err } sb.RemoveInfraContainer() c.ReleasePodName(sb.Name()) c.RemoveSandbox(sb.ID()) if err = c.podIDIndex.Delete(sb.ID()); err != nil { return err } logrus.Debugf("forgetting removed pod %s", sb.ID()) } for sandboxID := range newPods { // load this pod if err = c.LoadSandbox(sandboxID); err != nil { logrus.Warnf("could not load new pod sandbox %s: %v, ignoring", sandboxID, err) } else { logrus.Debugf("loaded new pod sandbox %s", sandboxID, err) } } for containerID := range newPodContainers { // load this container if err = c.LoadContainer(containerID); err != nil { logrus.Warnf("could not load new sandbox container %s: %v, ignoring", containerID, err) } else { logrus.Debugf("loaded new pod container %s", containerID, err) } } return nil } // LoadSandbox loads a sandbox from the disk into the sandbox store func (c *ContainerServer) LoadSandbox(id string) error { config, err := c.store.FromContainerDirectory(id, "config.json") if err != nil { return err } var m rspec.Spec if err = json.Unmarshal(config, &m); err != nil { return err } labels := make(map[string]string) if err = json.Unmarshal([]byte(m.Annotations[annotations.Labels]), &labels); err != nil { return err } name := m.Annotations[annotations.Name] name, err = c.ReservePodName(id, name) if err != nil { return err } defer func() { if err != nil { c.ReleasePodName(name) } }() var metadata pb.PodSandboxMetadata if err = json.Unmarshal([]byte(m.Annotations[annotations.Metadata]), &metadata); err != nil { return err } ip := m.Annotations[annotations.IP] processLabel, mountLabel, err := label.InitLabels(label.DupSecOpt(m.Process.SelinuxLabel)) if err != nil { return err } spp := m.Annotations[annotations.SeccompProfilePath] kubeAnnotations := make(map[string]string) if err = json.Unmarshal([]byte(m.Annotations[annotations.Annotations]), &kubeAnnotations); err != nil { return err } privileged := isTrue(m.Annotations[annotations.PrivilegedRuntime]) trusted := isTrue(m.Annotations[annotations.TrustedSandbox]) sb, err := sandbox.New(id, name, m.Annotations[annotations.KubeName], filepath.Dir(m.Annotations[annotations.LogPath]), "", labels, kubeAnnotations, processLabel, mountLabel, &metadata, m.Annotations[annotations.ShmPath], "", privileged, trusted, m.Annotations[annotations.ResolvPath], "", nil) if err != nil { return err } sb.AddHostnamePath(m.Annotations[annotations.HostnamePath]) sb.AddIP(ip) sb.SetSeccompProfilePath(spp) // We add a netNS only if we can load a permanent one. // Otherwise, the sandbox will live in the host namespace. netNsPath, err := configNetNsPath(m) if err == nil { nsErr := sb.NetNsJoin(netNsPath, sb.Name()) // If we can't load the networking namespace // because it's closed, we just set the sb netns // pointer to nil. Otherwise we return an error. if nsErr != nil && nsErr != sandbox.ErrClosedNetNS { return nsErr } } c.AddSandbox(sb) defer func() { if err != nil { c.RemoveSandbox(sb.ID()) } }() sandboxPath, err := c.store.ContainerRunDirectory(id) if err != nil { return err } sandboxDir, err := c.store.ContainerDirectory(id) if err != nil { return err } cname, err := c.ReserveContainerName(m.Annotations[annotations.ContainerID], m.Annotations[annotations.ContainerName]) if err != nil { return err } defer func() { if err != nil { c.ReleaseContainerName(cname) } }() created, err := time.Parse(time.RFC3339Nano, m.Annotations[annotations.Created]) if err != nil { return err } scontainer, err := oci.NewContainer(m.Annotations[annotations.ContainerID], cname, sandboxPath, m.Annotations[annotations.LogPath], sb.NetNs(), labels, m.Annotations, kubeAnnotations, "", "", "", nil, id, false, false, false, privileged, trusted, sandboxDir, created, m.Annotations["org.opencontainers.image.stopSignal"]) if err != nil { return err } scontainer.SetSpec(&m) scontainer.SetMountPoint(m.Annotations[annotations.MountPoint]) if m.Annotations[annotations.Volumes] != "" { containerVolumes := []oci.ContainerVolume{} if err = json.Unmarshal([]byte(m.Annotations[annotations.Volumes]), &containerVolumes); err != nil { return fmt.Errorf("failed to unmarshal container volumes: %v", err) } if containerVolumes != nil { for _, cv := range containerVolumes { scontainer.AddVolume(cv) } } } c.ContainerStateFromDisk(scontainer) if err = label.ReserveLabel(processLabel); err != nil { return err } sb.SetInfraContainer(scontainer) if err = c.ctrIDIndex.Add(scontainer.ID()); err != nil { return err } if err = c.podIDIndex.Add(id); err != nil { return err } return nil } func configNetNsPath(spec rspec.Spec) (string, error) { for _, ns := range spec.Linux.Namespaces { if ns.Type != rspec.NetworkNamespace { continue } if ns.Path == "" { return "", fmt.Errorf("empty networking namespace") } return ns.Path, nil } return "", fmt.Errorf("missing networking namespace") } // LoadContainer loads a container from the disk into the container store func (c *ContainerServer) LoadContainer(id string) error { config, err := c.store.FromContainerDirectory(id, "config.json") if err != nil { return err } var m rspec.Spec if err = json.Unmarshal(config, &m); err != nil { return err } labels := make(map[string]string) if err = json.Unmarshal([]byte(m.Annotations[annotations.Labels]), &labels); err != nil { return err } name := m.Annotations[annotations.Name] name, err = c.ReserveContainerName(id, name) if err != nil { return err } defer func() { if err != nil { c.ReleaseContainerName(name) } }() var metadata pb.ContainerMetadata if err = json.Unmarshal([]byte(m.Annotations[annotations.Metadata]), &metadata); err != nil { return err } sb := c.GetSandbox(m.Annotations[annotations.SandboxID]) if sb == nil { return fmt.Errorf("could not get sandbox with id %s, skipping", m.Annotations[annotations.SandboxID]) } tty := isTrue(m.Annotations[annotations.TTY]) stdin := isTrue(m.Annotations[annotations.Stdin]) stdinOnce := isTrue(m.Annotations[annotations.StdinOnce]) containerPath, err := c.store.ContainerRunDirectory(id) if err != nil { return err } containerDir, err := c.store.ContainerDirectory(id) if err != nil { return err } img, ok := m.Annotations[annotations.Image] if !ok { img = "" } imgName, ok := m.Annotations[annotations.ImageName] if !ok { imgName = "" } imgRef, ok := m.Annotations[annotations.ImageRef] if !ok { imgRef = "" } kubeAnnotations := make(map[string]string) if err = json.Unmarshal([]byte(m.Annotations[annotations.Annotations]), &kubeAnnotations); err != nil { return err } created, err := time.Parse(time.RFC3339Nano, m.Annotations[annotations.Created]) if err != nil { return err } ctr, err := oci.NewContainer(id, name, containerPath, m.Annotations[annotations.LogPath], sb.NetNs(), labels, m.Annotations, kubeAnnotations, img, imgName, imgRef, &metadata, sb.ID(), tty, stdin, stdinOnce, sb.Privileged(), sb.Trusted(), containerDir, created, m.Annotations["org.opencontainers.image.stopSignal"]) if err != nil { return err } ctr.SetSpec(&m) ctr.SetMountPoint(m.Annotations[annotations.MountPoint]) spp := m.Annotations[annotations.SeccompProfilePath] ctr.SetSeccompProfilePath(spp) c.ContainerStateFromDisk(ctr) c.AddContainer(ctr) return c.ctrIDIndex.Add(id) } func isTrue(annotaton string) bool { return annotaton == "true" } // ContainerStateFromDisk retrieves information on the state of a running container // from the disk func (c *ContainerServer) ContainerStateFromDisk(ctr *oci.Container) error { if err := ctr.FromDisk(); err != nil { return err } // ignore errors, this is a best effort to have up-to-date info about // a given container before its state gets stored c.runtime.UpdateStatus(ctr) return nil } // ContainerStateToDisk writes the container's state information to a JSON file // on disk func (c *ContainerServer) ContainerStateToDisk(ctr *oci.Container) error { // ignore errors, this is a best effort to have up-to-date info about // a given container before its state gets stored c.Runtime().UpdateStatus(ctr) jsonSource, err := ioutils.NewAtomicFileWriter(ctr.StatePath(), 0644) if err != nil { return err } defer jsonSource.Close() enc := json.NewEncoder(jsonSource) return enc.Encode(c.runtime.ContainerStatus(ctr)) } // ReserveContainerName holds a name for a container that is being created func (c *ContainerServer) ReserveContainerName(id, name string) (string, error) { if err := c.ctrNameIndex.Reserve(name, id); err != nil { if err == registrar.ErrNameReserved { id, err := c.ctrNameIndex.Get(name) if err != nil { logrus.Warnf("conflict, ctr name %q already reserved", name) return "", err } return "", fmt.Errorf("conflict, name %q already reserved for ctr %q", name, id) } return "", fmt.Errorf("error reserving ctr name %s", name) } return name, nil } // ReleaseContainerName releases a container name from the index so that it can // be used by other containers func (c *ContainerServer) ReleaseContainerName(name string) { c.ctrNameIndex.Release(name) } // ReservePodName holds a name for a pod that is being created func (c *ContainerServer) ReservePodName(id, name string) (string, error) { if err := c.podNameIndex.Reserve(name, id); err != nil { if err == registrar.ErrNameReserved { id, err := c.podNameIndex.Get(name) if err != nil { logrus.Warnf("conflict, pod name %q already reserved", name) return "", err } return "", fmt.Errorf("conflict, name %q already reserved for pod %q", name, id) } return "", fmt.Errorf("error reserving pod name %q", name) } return name, nil } // ReleasePodName releases a pod name from the index so it can be used by other // pods func (c *ContainerServer) ReleasePodName(name string) { c.podNameIndex.Release(name) } // Shutdown attempts to shut down the server's storage cleanly func (c *ContainerServer) Shutdown() error { _, err := c.store.Shutdown(false) if err != nil && errors.Cause(err) != cstorage.ErrLayerUsedByContainer { return err } return nil } type containerServerState struct { containers oci.ContainerStorer infraContainers oci.ContainerStorer sandboxes sandbox.Storer // processLevels The number of sandboxes using the same SELinux MCS level. Need to release MCS Level, when count reaches 0 processLevels map[string]int } // AddContainer adds a container to the container state store func (c *ContainerServer) AddContainer(ctr *oci.Container) { c.stateLock.Lock() defer c.stateLock.Unlock() sandbox := c.state.sandboxes.Get(ctr.Sandbox()) sandbox.AddContainer(ctr) c.state.containers.Add(ctr.ID(), ctr) } // AddInfraContainer adds a container to the container state store func (c *ContainerServer) AddInfraContainer(ctr *oci.Container) { c.stateLock.Lock() defer c.stateLock.Unlock() c.state.infraContainers.Add(ctr.ID(), ctr) } // GetContainer returns a container by its ID func (c *ContainerServer) GetContainer(id string) *oci.Container { c.stateLock.Lock() defer c.stateLock.Unlock() return c.state.containers.Get(id) } // GetInfraContainer returns a container by its ID func (c *ContainerServer) GetInfraContainer(id string) *oci.Container { c.stateLock.Lock() defer c.stateLock.Unlock() return c.state.infraContainers.Get(id) } // HasContainer checks if a container exists in the state func (c *ContainerServer) HasContainer(id string) bool { c.stateLock.Lock() defer c.stateLock.Unlock() ctr := c.state.containers.Get(id) return ctr != nil } // RemoveContainer removes a container from the container state store func (c *ContainerServer) RemoveContainer(ctr *oci.Container) { c.stateLock.Lock() defer c.stateLock.Unlock() sbID := ctr.Sandbox() sb := c.state.sandboxes.Get(sbID) sb.RemoveContainer(ctr) c.state.containers.Delete(ctr.ID()) } // RemoveInfraContainer removes a container from the container state store func (c *ContainerServer) RemoveInfraContainer(ctr *oci.Container) { c.stateLock.Lock() defer c.stateLock.Unlock() c.state.infraContainers.Delete(ctr.ID()) } // listContainers returns a list of all containers stored by the server state func (c *ContainerServer) listContainers() []*oci.Container { c.stateLock.Lock() defer c.stateLock.Unlock() return c.state.containers.List() } // ListContainers returns a list of all containers stored by the server state // that match the given filter function func (c *ContainerServer) ListContainers(filters ...func(*oci.Container) bool) ([]*oci.Container, error) { containers := c.listContainers() if len(filters) == 0 { return containers, nil } filteredContainers := make([]*oci.Container, 0, len(containers)) for _, container := range containers { for _, filter := range filters { if filter(container) { filteredContainers = append(filteredContainers, container) } } } return filteredContainers, nil } // AddSandbox adds a sandbox to the sandbox state store func (c *ContainerServer) AddSandbox(sb *sandbox.Sandbox) { c.stateLock.Lock() defer c.stateLock.Unlock() c.state.sandboxes.Add(sb.ID(), sb) c.state.processLevels[selinux.NewContext(sb.ProcessLabel())["level"]]++ } // GetSandbox returns a sandbox by its ID func (c *ContainerServer) GetSandbox(id string) *sandbox.Sandbox { c.stateLock.Lock() defer c.stateLock.Unlock() return c.state.sandboxes.Get(id) } // GetSandboxContainer returns a sandbox's infra container func (c *ContainerServer) GetSandboxContainer(id string) *oci.Container { c.stateLock.Lock() defer c.stateLock.Unlock() sb := c.state.sandboxes.Get(id) return sb.InfraContainer() } // HasSandbox checks if a sandbox exists in the state func (c *ContainerServer) HasSandbox(id string) bool { c.stateLock.Lock() defer c.stateLock.Unlock() sb := c.state.sandboxes.Get(id) return sb != nil } // RemoveSandbox removes a sandbox from the state store func (c *ContainerServer) RemoveSandbox(id string) { c.stateLock.Lock() defer c.stateLock.Unlock() sb := c.state.sandboxes.Get(id) processLabel := sb.ProcessLabel() c.state.sandboxes.Delete(id) level := selinux.NewContext(processLabel)["level"] pl, ok := c.state.processLevels[level] if ok { c.state.processLevels[level] = pl - 1 if c.state.processLevels[level] == 0 { label.ReleaseLabel(processLabel) delete(c.state.processLevels, level) } } } // ListSandboxes lists all sandboxes in the state store func (c *ContainerServer) ListSandboxes() []*sandbox.Sandbox { c.stateLock.Lock() defer c.stateLock.Unlock() return c.state.sandboxes.List() } // LibcontainerStats gets the stats for the container with the given id from runc/libcontainer func (c *ContainerServer) LibcontainerStats(ctr *oci.Container) (*libcontainer.Stats, error) { // TODO: make this not hardcoded // was: c.runtime.Path(ociContainer) but that returns /usr/bin/runc - how do we get /run/runc? // runroot is /var/run/runc // Hardcoding probably breaks ClearContainers compatibility factory, err := loadFactory("/run/runc") if err != nil { return nil, err } container, err := factory.Load(ctr.ID()) if err != nil { return nil, err } return container.Stats() }