// Copyright (c) 2016 Intel Corporation // Copyright (c) 2020 Adobe Inc. // // SPDX-License-Identifier: Apache-2.0 // package virtcontainers import ( "bufio" "context" "fmt" "io" "math" "net" "os" "strings" "sync" "syscall" "github.com/containerd/cgroups" "github.com/containernetworking/plugins/pkg/ns" "github.com/opencontainers/runc/libcontainer/configs" specs "github.com/opencontainers/runtime-spec/specs-go" "github.com/pkg/errors" "github.com/sirupsen/logrus" "github.com/vishvananda/netlink" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/device/api" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/device/config" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/device/drivers" deviceManager "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/device/manager" exp "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/experimental" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/persist" persistapi "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/persist/api" pbTypes "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/agent/protocols" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/agent/protocols/grpc" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/annotations" vccgroups "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/cgroups" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/compatoci" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/cpuset" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/rootless" vcTypes "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/pkg/types" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/types" "github.com/kata-containers/kata-containers/src/runtime/virtcontainers/utils" "go.opentelemetry.io/otel" otelLabel "go.opentelemetry.io/otel/label" otelTrace "go.opentelemetry.io/otel/trace" ) const ( // vmStartTimeout represents the time in seconds a sandbox can wait before // to consider the VM starting operation failed. vmStartTimeout = 10 // DirMode is the permission bits used for creating a directory DirMode = os.FileMode(0750) | os.ModeDir ) // SandboxStatus describes a sandbox status. type SandboxStatus struct { ID string State types.SandboxState Hypervisor HypervisorType HypervisorConfig HypervisorConfig ContainersStatus []ContainerStatus // Annotations allow clients to store arbitrary values, // for example to add additional status values required // to support particular specifications. Annotations map[string]string } // SandboxStats describes a sandbox's stats type SandboxStats struct { CgroupStats CgroupStats Cpus int } // SandboxConfig is a Sandbox configuration. type SandboxConfig struct { ID string Hostname string HypervisorType HypervisorType HypervisorConfig HypervisorConfig AgentConfig KataAgentConfig NetworkConfig NetworkConfig // Volumes is a list of shared volumes between the host and the Sandbox. Volumes []types.Volume // Containers describe the list of containers within a Sandbox. // This list can be empty and populated by adding containers // to the Sandbox a posteriori. //TODO: this should be a map to avoid duplicated containers Containers []ContainerConfig // Annotations keys must be unique strings and must be name-spaced // with e.g. reverse domain notation (org.clearlinux.key). Annotations map[string]string ShmSize uint64 // SharePidNs sets all containers to share the same sandbox level pid namespace. SharePidNs bool // SystemdCgroup enables systemd cgroup support SystemdCgroup bool // SandboxCgroupOnly enables cgroup only at podlevel in the host SandboxCgroupOnly bool DisableGuestSeccomp bool // SandboxBindMounts - list of paths to mount into guest SandboxBindMounts []string // Experimental features enabled Experimental []exp.Feature // Cgroups specifies specific cgroup settings for the various subsystems that the container is // placed into to limit the resources the container has available Cgroups *configs.Cgroup } func (s *Sandbox) trace(parent context.Context, name string) (otelTrace.Span, context.Context) { if parent == nil { s.Logger().WithField("type", "bug").Error("trace called before context set") parent = context.Background() } tracer := otel.Tracer("kata") ctx, span := tracer.Start(parent, name) span.SetAttributes(otelLabel.Key("subsystem").String("sandbox")) return span, ctx } // valid checks that the sandbox configuration is valid. func (sandboxConfig *SandboxConfig) valid() bool { if sandboxConfig.ID == "" { return false } if _, err := newHypervisor(sandboxConfig.HypervisorType); err != nil { sandboxConfig.HypervisorType = QemuHypervisor } // validate experimental features for _, f := range sandboxConfig.Experimental { if exp.Get(f.Name) == nil { return false } } return true } // Sandbox is composed of a set of containers and a runtime environment. // A Sandbox can be created, deleted, started, paused, stopped, listed, entered, and restored. type Sandbox struct { id string sync.Mutex factory Factory hypervisor hypervisor agent agent newStore persistapi.PersistDriver network Network monitor *monitor config *SandboxConfig devManager api.DeviceManager volumes []types.Volume containers map[string]*Container state types.SandboxState networkNS NetworkNamespace annotationsLock *sync.RWMutex wg *sync.WaitGroup shmSize uint64 sharePidNs bool seccompSupported bool disableVMShutdown bool cgroupMgr *vccgroups.Manager ctx context.Context cw *consoleWatcher } // ID returns the sandbox identifier string. func (s *Sandbox) ID() string { return s.id } // Logger returns a logrus logger appropriate for logging Sandbox messages func (s *Sandbox) Logger() *logrus.Entry { return virtLog.WithFields(logrus.Fields{ "subsystem": "sandbox", "sandbox": s.id, }) } // Annotations returns any annotation that a user could have stored through the sandbox. func (s *Sandbox) Annotations(key string) (string, error) { s.annotationsLock.RLock() defer s.annotationsLock.RUnlock() value, exist := s.config.Annotations[key] if !exist { return "", fmt.Errorf("Annotations key %s does not exist", key) } return value, nil } // SetAnnotations sets or adds an annotations func (s *Sandbox) SetAnnotations(annotations map[string]string) error { s.annotationsLock.Lock() defer s.annotationsLock.Unlock() for k, v := range annotations { s.config.Annotations[k] = v } return nil } // GetAnnotations returns sandbox's annotations func (s *Sandbox) GetAnnotations() map[string]string { s.annotationsLock.RLock() defer s.annotationsLock.RUnlock() return s.config.Annotations } // GetNetNs returns the network namespace of the current sandbox. func (s *Sandbox) GetNetNs() string { return s.networkNS.NetNsPath } // GetHypervisorPid returns the hypervisor's pid. func (s *Sandbox) GetHypervisorPid() (int, error) { pids := s.hypervisor.getPids() if len(pids) == 0 || pids[0] == 0 { return -1, fmt.Errorf("Invalid hypervisor PID: %+v", pids) } return pids[0], nil } // GetAllContainers returns all containers. func (s *Sandbox) GetAllContainers() []VCContainer { ifa := make([]VCContainer, len(s.containers)) i := 0 for _, v := range s.containers { ifa[i] = v i++ } return ifa } // GetContainer returns the container named by the containerID. func (s *Sandbox) GetContainer(containerID string) VCContainer { if c, ok := s.containers[containerID]; ok { return c } return nil } // Release closes the agent connection and removes sandbox from internal list. func (s *Sandbox) Release(ctx context.Context) error { s.Logger().Info("release sandbox") if s.monitor != nil { s.monitor.stop() } s.hypervisor.disconnect(ctx) return s.agent.disconnect(ctx) } // Status gets the status of the sandbox // TODO: update container status properly, see kata-containers/runtime#253 func (s *Sandbox) Status() SandboxStatus { var contStatusList []ContainerStatus for _, c := range s.containers { rootfs := c.config.RootFs.Source if c.config.RootFs.Mounted { rootfs = c.config.RootFs.Target } contStatusList = append(contStatusList, ContainerStatus{ ID: c.id, State: c.state, PID: c.process.Pid, StartTime: c.process.StartTime, RootFs: rootfs, Annotations: c.config.Annotations, }) } return SandboxStatus{ ID: s.id, State: s.state, Hypervisor: s.config.HypervisorType, HypervisorConfig: s.config.HypervisorConfig, ContainersStatus: contStatusList, Annotations: s.config.Annotations, } } // Monitor returns a error channel for watcher to watch at func (s *Sandbox) Monitor(ctx context.Context) (chan error, error) { if s.state.State != types.StateRunning { return nil, fmt.Errorf("Sandbox is not running") } s.Lock() if s.monitor == nil { s.monitor = newMonitor(s) } s.Unlock() return s.monitor.newWatcher(ctx) } // WaitProcess waits on a container process and return its exit code func (s *Sandbox) WaitProcess(ctx context.Context, containerID, processID string) (int32, error) { if s.state.State != types.StateRunning { return 0, fmt.Errorf("Sandbox not running") } c, err := s.findContainer(containerID) if err != nil { return 0, err } return c.wait(ctx, processID) } // SignalProcess sends a signal to a process of a container when all is false. // When all is true, it sends the signal to all processes of a container. func (s *Sandbox) SignalProcess(ctx context.Context, containerID, processID string, signal syscall.Signal, all bool) error { if s.state.State != types.StateRunning { return fmt.Errorf("Sandbox not running") } c, err := s.findContainer(containerID) if err != nil { return err } return c.signalProcess(ctx, processID, signal, all) } // WinsizeProcess resizes the tty window of a process func (s *Sandbox) WinsizeProcess(ctx context.Context, containerID, processID string, height, width uint32) error { if s.state.State != types.StateRunning { return fmt.Errorf("Sandbox not running") } c, err := s.findContainer(containerID) if err != nil { return err } return c.winsizeProcess(ctx, processID, height, width) } // IOStream returns stdin writer, stdout reader and stderr reader of a process func (s *Sandbox) IOStream(containerID, processID string) (io.WriteCloser, io.Reader, io.Reader, error) { if s.state.State != types.StateRunning { return nil, nil, nil, fmt.Errorf("Sandbox not running") } c, err := s.findContainer(containerID) if err != nil { return nil, nil, nil, err } return c.ioStream(processID) } func createAssets(ctx context.Context, sandboxConfig *SandboxConfig) error { span, _ := trace(ctx, "createAssets") defer span.End() for _, name := range types.AssetTypes() { a, err := types.NewAsset(sandboxConfig.Annotations, name) if err != nil { return err } if err := sandboxConfig.HypervisorConfig.addCustomAsset(a); err != nil { return err } } _, imageErr := sandboxConfig.HypervisorConfig.assetPath(types.ImageAsset) _, initrdErr := sandboxConfig.HypervisorConfig.assetPath(types.InitrdAsset) if imageErr != nil && initrdErr != nil { return fmt.Errorf("%s and %s cannot be both set", types.ImageAsset, types.InitrdAsset) } return nil } func (s *Sandbox) getAndStoreGuestDetails(ctx context.Context) error { guestDetailRes, err := s.agent.getGuestDetails(ctx, &grpc.GuestDetailsRequest{ MemBlockSize: true, MemHotplugProbe: true, }) if err != nil { return err } if guestDetailRes != nil { s.state.GuestMemoryBlockSizeMB = uint32(guestDetailRes.MemBlockSizeBytes >> 20) if guestDetailRes.AgentDetails != nil { s.seccompSupported = guestDetailRes.AgentDetails.SupportsSeccomp } s.state.GuestMemoryHotplugProbe = guestDetailRes.SupportMemHotplugProbe } return nil } // createSandbox creates a sandbox from a sandbox description, the containers list, the hypervisor // and the agent passed through the Config structure. // It will create and store the sandbox structure, and then ask the hypervisor // to physically create that sandbox i.e. starts a VM for that sandbox to eventually // be started. func createSandbox(ctx context.Context, sandboxConfig SandboxConfig, factory Factory) (*Sandbox, error) { span, ctx := trace(ctx, "createSandbox") defer span.End() if err := createAssets(ctx, &sandboxConfig); err != nil { return nil, err } s, err := newSandbox(ctx, sandboxConfig, factory) if err != nil { return nil, err } if len(s.config.Experimental) != 0 { s.Logger().WithField("features", s.config.Experimental).Infof("Enable experimental features") } // Sandbox state has been loaded from storage. // If the Stae is not empty, this is a re-creation, i.e. // we don't need to talk to the guest's agent, but only // want to create the sandbox and its containers in memory. if s.state.State != "" { return s, nil } // Below code path is called only during create, because of earlier check. if err := s.agent.createSandbox(ctx, s); err != nil { return nil, err } // Set sandbox state if err := s.setSandboxState(types.StateReady); err != nil { return nil, err } return s, nil } func newSandbox(ctx context.Context, sandboxConfig SandboxConfig, factory Factory) (sb *Sandbox, retErr error) { span, ctx := trace(ctx, "newSandbox") defer span.End() if !sandboxConfig.valid() { return nil, fmt.Errorf("Invalid sandbox configuration") } // create agent instance newAagentFunc := getNewAgentFunc(ctx) agent := newAagentFunc() hypervisor, err := newHypervisor(sandboxConfig.HypervisorType) if err != nil { return nil, err } s := &Sandbox{ id: sandboxConfig.ID, factory: factory, hypervisor: hypervisor, agent: agent, config: &sandboxConfig, volumes: sandboxConfig.Volumes, containers: map[string]*Container{}, state: types.SandboxState{BlockIndexMap: make(map[int]struct{})}, annotationsLock: &sync.RWMutex{}, wg: &sync.WaitGroup{}, shmSize: sandboxConfig.ShmSize, sharePidNs: sandboxConfig.SharePidNs, networkNS: NetworkNamespace{NetNsPath: sandboxConfig.NetworkConfig.NetNSPath}, ctx: ctx, } hypervisor.setSandbox(s) if s.newStore, err = persist.GetDriver(); err != nil || s.newStore == nil { return nil, fmt.Errorf("failed to get fs persist driver: %v", err) } defer func() { if retErr != nil { s.Logger().WithError(retErr).WithField("sandboxid", s.id).Error("Create new sandbox failed") s.newStore.Destroy(s.id) } }() spec := s.GetPatchedOCISpec() if spec != nil && spec.Process.SelinuxLabel != "" { sandboxConfig.HypervisorConfig.SELinuxProcessLabel = spec.Process.SelinuxLabel } s.devManager = deviceManager.NewDeviceManager(sandboxConfig.HypervisorConfig.BlockDeviceDriver, sandboxConfig.HypervisorConfig.EnableVhostUserStore, sandboxConfig.HypervisorConfig.VhostUserStorePath, nil) // Ignore the error. Restore can fail for a new sandbox if err := s.Restore(); err != nil { s.Logger().WithError(err).Debug("restore sandbox failed") } // new store doesn't require hypervisor to be stored immediately if err = s.hypervisor.createSandbox(ctx, s.id, s.networkNS, &sandboxConfig.HypervisorConfig); err != nil { return nil, err } if s.disableVMShutdown, err = s.agent.init(ctx, s, sandboxConfig.AgentConfig); err != nil { return nil, err } return s, nil } func (s *Sandbox) createCgroupManager() error { var err error cgroupPath := "" // Do not change current cgroup configuration. // Create a spec without constraints resources := specs.LinuxResources{} if s.config == nil { return fmt.Errorf("Could not create cgroup manager: empty sandbox configuration") } spec := s.GetPatchedOCISpec() if spec != nil && spec.Linux != nil { cgroupPath = spec.Linux.CgroupsPath // Kata relies on the cgroup parent created and configured by the container // engine by default. The exception is for devices whitelist as well as sandbox-level // CPUSet. if spec.Linux.Resources != nil { resources.Devices = spec.Linux.Resources.Devices if spec.Linux.Resources.CPU != nil { resources.CPU = &specs.LinuxCPU{ Cpus: spec.Linux.Resources.CPU.Cpus, } } } //TODO: in Docker or Podman use case, it is reasonable to set a constraint. Need to add a flag // to allow users to configure Kata to constrain CPUs and Memory in this alternative // scenario. See https://github.com/kata-containers/runtime/issues/2811 } if s.devManager != nil { for _, d := range s.devManager.GetAllDevices() { dev, err := vccgroups.DeviceToLinuxDevice(d.GetHostPath()) if err != nil { s.Logger().WithError(err).WithField("device", d.GetHostPath()).Warn("Could not add device to sandbox resources") continue } resources.Devices = append(resources.Devices, dev) } } // Create the cgroup manager, this way it can be used later // to create or detroy cgroups if s.cgroupMgr, err = vccgroups.New( &vccgroups.Config{ Cgroups: s.config.Cgroups, CgroupPaths: s.state.CgroupPaths, Resources: resources, CgroupPath: cgroupPath, }, ); err != nil { return err } return nil } // storeSandbox stores a sandbox config. func (s *Sandbox) storeSandbox(ctx context.Context) error { span, _ := s.trace(ctx, "storeSandbox") defer span.End() // flush data to storage if err := s.Save(); err != nil { return err } return nil } func rwLockSandbox(sandboxID string) (func() error, error) { store, err := persist.GetDriver() if err != nil { return nil, fmt.Errorf("failed to get fs persist driver: %v", err) } return store.Lock(sandboxID, true) } // findContainer returns a container from the containers list held by the // sandbox structure, based on a container ID. func (s *Sandbox) findContainer(containerID string) (*Container, error) { if s == nil { return nil, vcTypes.ErrNeedSandbox } if containerID == "" { return nil, vcTypes.ErrNeedContainerID } if c, ok := s.containers[containerID]; ok { return c, nil } return nil, errors.Wrapf(vcTypes.ErrNoSuchContainer, "Could not find the container %q from the sandbox %q containers list", containerID, s.id) } // removeContainer removes a container from the containers list held by the // sandbox structure, based on a container ID. func (s *Sandbox) removeContainer(containerID string) error { if s == nil { return vcTypes.ErrNeedSandbox } if containerID == "" { return vcTypes.ErrNeedContainerID } if _, ok := s.containers[containerID]; !ok { return errors.Wrapf(vcTypes.ErrNoSuchContainer, "Could not remove the container %q from the sandbox %q containers list", containerID, s.id) } delete(s.containers, containerID) return nil } // Delete deletes an already created sandbox. // The VM in which the sandbox is running will be shut down. func (s *Sandbox) Delete(ctx context.Context) error { if s.state.State != types.StateReady && s.state.State != types.StatePaused && s.state.State != types.StateStopped { return fmt.Errorf("Sandbox not ready, paused or stopped, impossible to delete") } for _, c := range s.containers { if err := c.delete(ctx); err != nil { return err } } if !rootless.IsRootless() { if err := s.cgroupsDelete(); err != nil { return err } } if s.monitor != nil { s.monitor.stop() } if err := s.hypervisor.cleanup(ctx); err != nil { s.Logger().WithError(err).Error("failed to cleanup hypervisor") } s.agent.cleanup(ctx, s) return s.newStore.Destroy(s.id) } func (s *Sandbox) startNetworkMonitor(ctx context.Context) error { var span otelTrace.Span span, ctx = s.trace(ctx, "startNetworkMonitor") defer span.End() binPath, err := os.Executable() if err != nil { return err } logLevel := "info" if s.config.NetworkConfig.NetmonConfig.Debug { logLevel = "debug" } params := netmonParams{ netmonPath: s.config.NetworkConfig.NetmonConfig.Path, debug: s.config.NetworkConfig.NetmonConfig.Debug, logLevel: logLevel, runtime: binPath, sandboxID: s.id, } return s.network.Run(ctx, s.networkNS.NetNsPath, func() error { pid, err := startNetmon(params) if err != nil { return err } s.networkNS.NetmonPID = pid return nil }) } func (s *Sandbox) createNetwork(ctx context.Context) error { if s.config.NetworkConfig.DisableNewNetNs || s.config.NetworkConfig.NetNSPath == "" { return nil } span, ctx := s.trace(ctx, "createNetwork") defer span.End() s.networkNS = NetworkNamespace{ NetNsPath: s.config.NetworkConfig.NetNSPath, NetNsCreated: s.config.NetworkConfig.NetNsCreated, } // In case there is a factory, network interfaces are hotplugged // after vm is started. if s.factory == nil { // Add the network endpoints, err := s.network.Add(ctx, &s.config.NetworkConfig, s, false) if err != nil { return err } s.networkNS.Endpoints = endpoints if s.config.NetworkConfig.NetmonConfig.Enable { if err := s.startNetworkMonitor(ctx); err != nil { return err } } } return nil } func (s *Sandbox) postCreatedNetwork(ctx context.Context) error { return s.network.PostAdd(ctx, &s.networkNS, s.factory != nil) } func (s *Sandbox) removeNetwork(ctx context.Context) error { var span otelTrace.Span span, ctx = s.trace(ctx, "removeNetwork") defer span.End() if s.config.NetworkConfig.NetmonConfig.Enable { if err := stopNetmon(s.networkNS.NetmonPID); err != nil { return err } } return s.network.Remove(ctx, &s.networkNS, s.hypervisor) } func (s *Sandbox) generateNetInfo(inf *pbTypes.Interface) (NetworkInfo, error) { hw, err := net.ParseMAC(inf.HwAddr) if err != nil { return NetworkInfo{}, err } var addrs []netlink.Addr for _, addr := range inf.IPAddresses { netlinkAddrStr := fmt.Sprintf("%s/%s", addr.Address, addr.Mask) netlinkAddr, err := netlink.ParseAddr(netlinkAddrStr) if err != nil { return NetworkInfo{}, fmt.Errorf("could not parse %q: %v", netlinkAddrStr, err) } addrs = append(addrs, *netlinkAddr) } return NetworkInfo{ Iface: NetlinkIface{ LinkAttrs: netlink.LinkAttrs{ Name: inf.Name, HardwareAddr: hw, MTU: int(inf.Mtu), }, Type: inf.Type, }, Addrs: addrs, }, nil } // AddInterface adds new nic to the sandbox. func (s *Sandbox) AddInterface(ctx context.Context, inf *pbTypes.Interface) (*pbTypes.Interface, error) { netInfo, err := s.generateNetInfo(inf) if err != nil { return nil, err } endpoint, err := createEndpoint(netInfo, len(s.networkNS.Endpoints), s.config.NetworkConfig.InterworkingModel, nil) if err != nil { return nil, err } endpoint.SetProperties(netInfo) if err := doNetNS(s.networkNS.NetNsPath, func(_ ns.NetNS) error { s.Logger().WithField("endpoint-type", endpoint.Type()).Info("Hot attaching endpoint") return endpoint.HotAttach(ctx, s.hypervisor) }); err != nil { return nil, err } // Update the sandbox storage s.networkNS.Endpoints = append(s.networkNS.Endpoints, endpoint) if err := s.Save(); err != nil { return nil, err } // Add network for vm inf.PciPath = endpoint.PciPath().String() return s.agent.updateInterface(ctx, inf) } // RemoveInterface removes a nic of the sandbox. func (s *Sandbox) RemoveInterface(ctx context.Context, inf *pbTypes.Interface) (*pbTypes.Interface, error) { for i, endpoint := range s.networkNS.Endpoints { if endpoint.HardwareAddr() == inf.HwAddr { s.Logger().WithField("endpoint-type", endpoint.Type()).Info("Hot detaching endpoint") if err := endpoint.HotDetach(ctx, s.hypervisor, s.networkNS.NetNsCreated, s.networkNS.NetNsPath); err != nil { return inf, err } s.networkNS.Endpoints = append(s.networkNS.Endpoints[:i], s.networkNS.Endpoints[i+1:]...) if err := s.Save(); err != nil { return inf, err } break } } return nil, nil } // ListInterfaces lists all nics and their configurations in the sandbox. func (s *Sandbox) ListInterfaces(ctx context.Context) ([]*pbTypes.Interface, error) { return s.agent.listInterfaces(ctx) } // UpdateRoutes updates the sandbox route table (e.g. for portmapping support). func (s *Sandbox) UpdateRoutes(ctx context.Context, routes []*pbTypes.Route) ([]*pbTypes.Route, error) { return s.agent.updateRoutes(ctx, routes) } // ListRoutes lists all routes and their configurations in the sandbox. func (s *Sandbox) ListRoutes(ctx context.Context) ([]*pbTypes.Route, error) { return s.agent.listRoutes(ctx) } const ( // unix socket type of console consoleProtoUnix = "unix" // pty type of console. consoleProtoPty = "pty" ) // console watcher is designed to monitor guest console output. type consoleWatcher struct { proto string consoleURL string conn net.Conn ptyConsole *os.File } func newConsoleWatcher(ctx context.Context, s *Sandbox) (*consoleWatcher, error) { var ( err error cw consoleWatcher ) cw.proto, cw.consoleURL, err = s.hypervisor.getSandboxConsole(ctx, s.id) if err != nil { return nil, err } return &cw, nil } // start the console watcher func (cw *consoleWatcher) start(s *Sandbox) (err error) { if cw.consoleWatched() { return fmt.Errorf("console watcher has already watched for sandbox %s", s.id) } var scanner *bufio.Scanner switch cw.proto { case consoleProtoUnix: cw.conn, err = net.Dial("unix", cw.consoleURL) if err != nil { return err } scanner = bufio.NewScanner(cw.conn) case consoleProtoPty: // read-only cw.ptyConsole, _ = os.Open(cw.consoleURL) scanner = bufio.NewScanner(cw.ptyConsole) default: return fmt.Errorf("unknown console proto %s", cw.proto) } go func() { for scanner.Scan() { s.Logger().WithFields(logrus.Fields{ "console-protocol": cw.proto, "console-url": cw.consoleURL, "sandbox": s.id, "vmconsole": scanner.Text(), }).Debug("reading guest console") } if err := scanner.Err(); err != nil { if err == io.EOF { s.Logger().Info("console watcher quits") } else { s.Logger().WithError(err).WithFields(logrus.Fields{ "console-protocol": cw.proto, "console-url": cw.consoleURL, "sandbox": s.id, }).Error("Failed to read guest console logs") } } }() return nil } // check if the console watcher has already watched the vm console. func (cw *consoleWatcher) consoleWatched() bool { return cw.conn != nil || cw.ptyConsole != nil } // stop the console watcher. func (cw *consoleWatcher) stop() { if cw.conn != nil { cw.conn.Close() cw.conn = nil } if cw.ptyConsole != nil { cw.ptyConsole.Close() cw.ptyConsole = nil } } // startVM starts the VM. func (s *Sandbox) startVM(ctx context.Context) (err error) { span, ctx := s.trace(ctx, "startVM") defer span.End() s.Logger().Info("Starting VM") if s.config.HypervisorConfig.Debug { // create console watcher consoleWatcher, err := newConsoleWatcher(ctx, s) if err != nil { return err } s.cw = consoleWatcher } if err := s.network.Run(ctx, s.networkNS.NetNsPath, func() error { if s.factory != nil { vm, err := s.factory.GetVM(ctx, VMConfig{ HypervisorType: s.config.HypervisorType, HypervisorConfig: s.config.HypervisorConfig, AgentConfig: s.config.AgentConfig, }) if err != nil { return err } return vm.assignSandbox(s) } return s.hypervisor.startSandbox(ctx, vmStartTimeout) }); err != nil { return err } defer func() { if err != nil { s.hypervisor.stopSandbox(ctx) } }() // In case of vm factory, network interfaces are hotplugged // after vm is started. if s.factory != nil { endpoints, err := s.network.Add(ctx, &s.config.NetworkConfig, s, true) if err != nil { return err } s.networkNS.Endpoints = endpoints if s.config.NetworkConfig.NetmonConfig.Enable { if err := s.startNetworkMonitor(ctx); err != nil { return err } } } s.Logger().Info("VM started") if s.cw != nil { s.Logger().Debug("console watcher starts") if err := s.cw.start(s); err != nil { s.cw.stop() return err } } // Once the hypervisor is done starting the sandbox, // we want to guarantee that it is manageable. // For that we need to ask the agent to start the // sandbox inside the VM. if err := s.agent.startSandbox(ctx, s); err != nil { return err } s.Logger().Info("Agent started in the sandbox") return nil } // stopVM: stop the sandbox's VM func (s *Sandbox) stopVM(ctx context.Context) error { span, ctx := s.trace(ctx, "stopVM") defer span.End() s.Logger().Info("Stopping sandbox in the VM") if err := s.agent.stopSandbox(ctx, s); err != nil { s.Logger().WithError(err).WithField("sandboxid", s.id).Warning("Agent did not stop sandbox") } if s.disableVMShutdown { // Do not kill the VM - allow the agent to shut it down // (only used to support static agent tracing). return nil } s.Logger().Info("Stopping VM") return s.hypervisor.stopSandbox(ctx) } func (s *Sandbox) addContainer(c *Container) error { if _, ok := s.containers[c.id]; ok { return fmt.Errorf("Duplicated container: %s", c.id) } s.containers[c.id] = c return nil } // CreateContainer creates a new container in the sandbox // This should be called only when the sandbox is already created. // It will add new container config to sandbox.config.Containers func (s *Sandbox) CreateContainer(ctx context.Context, contConfig ContainerConfig) (VCContainer, error) { // Create the container object, add devices to the sandbox's device-manager: c, err := newContainer(ctx, s, &contConfig) if err != nil { return nil, err } // Update sandbox config to include the new container's config s.config.Containers = append(s.config.Containers, contConfig) defer func() { if err != nil { if len(s.config.Containers) > 0 { // delete container config s.config.Containers = s.config.Containers[:len(s.config.Containers)-1] } } }() // create and start the container err = c.create(ctx) if err != nil { return nil, err } // Add the container to the containers list in the sandbox. if err = s.addContainer(c); err != nil { return nil, err } defer func() { // Rollback if error happens. if err != nil { logger := s.Logger().WithFields(logrus.Fields{"container-id": c.id, "sandox-id": s.id, "rollback": true}) logger.WithError(err).Error("Cleaning up partially created container") if err2 := c.stop(ctx, true); err2 != nil { logger.WithError(err2).Error("Could not delete container") } logger.Debug("Removing stopped container from sandbox store") s.removeContainer(c.id) } }() // Sandbox is responsible to update VM resources needed by Containers // Update resources after having added containers to the sandbox, since // container status is requiered to know if more resources should be added. err = s.updateResources(ctx) if err != nil { return nil, err } if err = s.cgroupsUpdate(ctx); err != nil { return nil, err } if err = s.storeSandbox(ctx); err != nil { return nil, err } return c, nil } // StartContainer starts a container in the sandbox func (s *Sandbox) StartContainer(ctx context.Context, containerID string) (VCContainer, error) { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return nil, err } // Start it. err = c.start(ctx) if err != nil { return nil, err } if err = s.storeSandbox(ctx); err != nil { return nil, err } s.Logger().Info("Container is started") // Update sandbox resources in case a stopped container // is started err = s.updateResources(ctx) if err != nil { return nil, err } return c, nil } // StopContainer stops a container in the sandbox func (s *Sandbox) StopContainer(ctx context.Context, containerID string, force bool) (VCContainer, error) { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return nil, err } // Stop it. if err := c.stop(ctx, force); err != nil { return nil, err } if err = s.storeSandbox(ctx); err != nil { return nil, err } return c, nil } // KillContainer signals a container in the sandbox func (s *Sandbox) KillContainer(ctx context.Context, containerID string, signal syscall.Signal, all bool) error { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return err } // Send a signal to the process. err = c.kill(ctx, signal, all) // SIGKILL should never fail otherwise it is // impossible to clean things up. if signal == syscall.SIGKILL { return nil } return err } // DeleteContainer deletes a container from the sandbox func (s *Sandbox) DeleteContainer(ctx context.Context, containerID string) (VCContainer, error) { if containerID == "" { return nil, vcTypes.ErrNeedContainerID } // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return nil, err } // Delete it. err = c.delete(ctx) if err != nil { return nil, err } // Update sandbox config for idx, contConfig := range s.config.Containers { if contConfig.ID == containerID { s.config.Containers = append(s.config.Containers[:idx], s.config.Containers[idx+1:]...) break } } // update the sandbox cgroup if err = s.cgroupsUpdate(ctx); err != nil { return nil, err } if err = s.storeSandbox(ctx); err != nil { return nil, err } return c, nil } // ProcessListContainer lists every process running inside a specific // container in the sandbox. func (s *Sandbox) ProcessListContainer(ctx context.Context, containerID string, options ProcessListOptions) (ProcessList, error) { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return nil, err } // Get the process list related to the container. return c.processList(ctx, options) } // StatusContainer gets the status of a container // TODO: update container status properly, see kata-containers/runtime#253 func (s *Sandbox) StatusContainer(containerID string) (ContainerStatus, error) { if containerID == "" { return ContainerStatus{}, vcTypes.ErrNeedContainerID } if c, ok := s.containers[containerID]; ok { rootfs := c.config.RootFs.Source if c.config.RootFs.Mounted { rootfs = c.config.RootFs.Target } return ContainerStatus{ ID: c.id, State: c.state, PID: c.process.Pid, StartTime: c.process.StartTime, RootFs: rootfs, Annotations: c.config.Annotations, }, nil } return ContainerStatus{}, vcTypes.ErrNoSuchContainer } // EnterContainer is the virtcontainers container command execution entry point. // EnterContainer enters an already running container and runs a given command. func (s *Sandbox) EnterContainer(ctx context.Context, containerID string, cmd types.Cmd) (VCContainer, *Process, error) { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return nil, nil, err } // Enter it. process, err := c.enter(ctx, cmd) if err != nil { return nil, nil, err } return c, process, nil } // UpdateContainer update a running container. func (s *Sandbox) UpdateContainer(ctx context.Context, containerID string, resources specs.LinuxResources) error { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return err } err = c.update(ctx, resources) if err != nil { return err } if err := s.cgroupsUpdate(ctx); err != nil { return err } if err = s.storeSandbox(ctx); err != nil { return err } return nil } // StatsContainer return the stats of a running container func (s *Sandbox) StatsContainer(ctx context.Context, containerID string) (ContainerStats, error) { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return ContainerStats{}, err } stats, err := c.stats(ctx) if err != nil { return ContainerStats{}, err } return *stats, nil } // Stats returns the stats of a running sandbox func (s *Sandbox) Stats(ctx context.Context) (SandboxStats, error) { if s.state.CgroupPath == "" { return SandboxStats{}, fmt.Errorf("sandbox cgroup path is empty") } var path string var cgroupSubsystems cgroups.Hierarchy if s.config.SandboxCgroupOnly { cgroupSubsystems = cgroups.V1 path = s.state.CgroupPath } else { cgroupSubsystems = V1NoConstraints path = cgroupNoConstraintsPath(s.state.CgroupPath) } cgroup, err := cgroupsLoadFunc(cgroupSubsystems, cgroups.StaticPath(path)) if err != nil { return SandboxStats{}, fmt.Errorf("Could not load sandbox cgroup in %v: %v", s.state.CgroupPath, err) } metrics, err := cgroup.Stat(cgroups.ErrorHandler(cgroups.IgnoreNotExist)) if err != nil { return SandboxStats{}, err } stats := SandboxStats{} stats.CgroupStats.CPUStats.CPUUsage.TotalUsage = metrics.CPU.Usage.Total stats.CgroupStats.MemoryStats.Usage.Usage = metrics.Memory.Usage.Usage tids, err := s.hypervisor.getThreadIDs(ctx) if err != nil { return stats, err } stats.Cpus = len(tids.vcpus) return stats, nil } // PauseContainer pauses a running container. func (s *Sandbox) PauseContainer(ctx context.Context, containerID string) error { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return err } // Pause the container. if err := c.pause(ctx); err != nil { return err } if err = s.storeSandbox(ctx); err != nil { return err } return nil } // ResumeContainer resumes a paused container. func (s *Sandbox) ResumeContainer(ctx context.Context, containerID string) error { // Fetch the container. c, err := s.findContainer(containerID) if err != nil { return err } // Resume the container. if err := c.resume(ctx); err != nil { return err } if err = s.storeSandbox(ctx); err != nil { return err } return nil } // createContainers registers all containers, create the // containers in the guest and starts one shim per container. func (s *Sandbox) createContainers(ctx context.Context) error { span, ctx := s.trace(ctx, "createContainers") defer span.End() for _, contConfig := range s.config.Containers { c, err := newContainer(ctx, s, &contConfig) if err != nil { return err } if err := c.create(ctx); err != nil { return err } if err := s.addContainer(c); err != nil { return err } } // Update resources after having added containers to the sandbox, since // container status is requiered to know if more resources should be added. if err := s.updateResources(ctx); err != nil { return err } if err := s.cgroupsUpdate(ctx); err != nil { return err } if err := s.storeSandbox(ctx); err != nil { return err } return nil } // Start starts a sandbox. The containers that are making the sandbox // will be started. func (s *Sandbox) Start(ctx context.Context) error { if err := s.state.ValidTransition(s.state.State, types.StateRunning); err != nil { return err } prevState := s.state.State if err := s.setSandboxState(types.StateRunning); err != nil { return err } var startErr error defer func() { if startErr != nil { s.setSandboxState(prevState) } }() for _, c := range s.containers { if startErr = c.start(ctx); startErr != nil { return startErr } } if err := s.storeSandbox(ctx); err != nil { return err } s.Logger().Info("Sandbox is started") return nil } // Stop stops a sandbox. The containers that are making the sandbox // will be destroyed. // When force is true, ignore guest related stop failures. func (s *Sandbox) Stop(ctx context.Context, force bool) error { span, ctx := s.trace(ctx, "Stop") defer span.End() if s.state.State == types.StateStopped { s.Logger().Info("sandbox already stopped") return nil } if err := s.state.ValidTransition(s.state.State, types.StateStopped); err != nil { return err } for _, c := range s.containers { if err := c.stop(ctx, force); err != nil { return err } } if err := s.stopVM(ctx); err != nil && !force { return err } // shutdown console watcher if exists if s.cw != nil { s.Logger().Debug("stop the sandbox") s.cw.stop() } if err := s.setSandboxState(types.StateStopped); err != nil { return err } // Remove the network. if err := s.removeNetwork(ctx); err != nil && !force { return err } if err := s.storeSandbox(ctx); err != nil { return err } // Stop communicating with the agent. if err := s.agent.disconnect(ctx); err != nil && !force { return err } return nil } // list lists all sandbox running on the host. func (s *Sandbox) list() ([]Sandbox, error) { return nil, nil } // enter runs an executable within a sandbox. func (s *Sandbox) enter(args []string) error { return nil } // setSandboxState sets both the in-memory and on-disk state of the // sandbox. func (s *Sandbox) setSandboxState(state types.StateString) error { if state == "" { return vcTypes.ErrNeedState } // update in-memory state s.state.State = state return nil } const maxBlockIndex = 65535 // getAndSetSandboxBlockIndex retrieves an unused sandbox block index from // the BlockIndexMap and marks it as used. This index is used to maintain the // index at which a block device is assigned to a container in the sandbox. func (s *Sandbox) getAndSetSandboxBlockIndex() (int, error) { currentIndex := -1 for i := 0; i < maxBlockIndex; i++ { if _, ok := s.state.BlockIndexMap[i]; !ok { currentIndex = i break } } if currentIndex == -1 { return -1, errors.New("no available block index") } s.state.BlockIndexMap[currentIndex] = struct{}{} return currentIndex, nil } // unsetSandboxBlockIndex deletes the current sandbox block index from BlockIndexMap. // This is used to recover from failure while adding a block device. func (s *Sandbox) unsetSandboxBlockIndex(index int) error { var err error original := index delete(s.state.BlockIndexMap, index) defer func() { if err != nil { s.state.BlockIndexMap[original] = struct{}{} } }() return nil } // HotplugAddDevice is used for add a device to sandbox // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) HotplugAddDevice(ctx context.Context, device api.Device, devType config.DeviceType) error { span, ctx := s.trace(ctx, "HotplugAddDevice") defer span.End() if s.config.SandboxCgroupOnly { // We are about to add a device to the hypervisor, // the device cgroup MUST be updated since the hypervisor // will need access to such device hdev := device.GetHostPath() if err := s.cgroupMgr.AddDevice(ctx, hdev); err != nil { s.Logger().WithError(err).WithField("device", hdev). Warn("Could not add device to cgroup") } } switch devType { case config.DeviceVFIO: vfioDevices, ok := device.GetDeviceInfo().([]*config.VFIODev) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } // adding a group of VFIO devices for _, dev := range vfioDevices { if _, err := s.hypervisor.hotplugAddDevice(ctx, dev, vfioDev); err != nil { s.Logger(). WithFields(logrus.Fields{ "sandbox": s.id, "vfio-device-ID": dev.ID, "vfio-device-BDF": dev.BDF, }).WithError(err).Error("failed to hotplug VFIO device") return err } } return nil case config.DeviceBlock: blockDevice, ok := device.(*drivers.BlockDevice) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } _, err := s.hypervisor.hotplugAddDevice(ctx, blockDevice.BlockDrive, blockDev) return err case config.VhostUserBlk: vhostUserBlkDevice, ok := device.(*drivers.VhostUserBlkDevice) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } _, err := s.hypervisor.hotplugAddDevice(ctx, vhostUserBlkDevice.VhostUserDeviceAttrs, vhostuserDev) return err case config.DeviceGeneric: // TODO: what? return nil } return nil } // HotplugRemoveDevice is used for removing a device from sandbox // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) HotplugRemoveDevice(ctx context.Context, device api.Device, devType config.DeviceType) error { defer func() { if s.config.SandboxCgroupOnly { // Remove device from cgroup, the hypervisor // should not have access to such device anymore. hdev := device.GetHostPath() if err := s.cgroupMgr.RemoveDevice(hdev); err != nil { s.Logger().WithError(err).WithField("device", hdev). Warn("Could not remove device from cgroup") } } }() switch devType { case config.DeviceVFIO: vfioDevices, ok := device.GetDeviceInfo().([]*config.VFIODev) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } // remove a group of VFIO devices for _, dev := range vfioDevices { if _, err := s.hypervisor.hotplugRemoveDevice(ctx, dev, vfioDev); err != nil { s.Logger().WithError(err). WithFields(logrus.Fields{ "sandbox": s.id, "vfio-device-ID": dev.ID, "vfio-device-BDF": dev.BDF, }).Error("failed to hot unplug VFIO device") return err } } return nil case config.DeviceBlock: blockDrive, ok := device.GetDeviceInfo().(*config.BlockDrive) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } _, err := s.hypervisor.hotplugRemoveDevice(ctx, blockDrive, blockDev) return err case config.VhostUserBlk: vhostUserDeviceAttrs, ok := device.GetDeviceInfo().(*config.VhostUserDeviceAttrs) if !ok { return fmt.Errorf("device type mismatch, expect device type to be %s", devType) } _, err := s.hypervisor.hotplugRemoveDevice(ctx, vhostUserDeviceAttrs, vhostuserDev) return err case config.DeviceGeneric: // TODO: what? return nil } return nil } // GetAndSetSandboxBlockIndex is used for getting and setting virtio-block indexes // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) GetAndSetSandboxBlockIndex() (int, error) { return s.getAndSetSandboxBlockIndex() } // UnsetSandboxBlockIndex unsets block indexes // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) UnsetSandboxBlockIndex(index int) error { return s.unsetSandboxBlockIndex(index) } // AppendDevice can only handle vhost user device currently, it adds a // vhost user device to sandbox // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) AppendDevice(ctx context.Context, device api.Device) error { switch device.DeviceType() { case config.VhostUserSCSI, config.VhostUserNet, config.VhostUserBlk, config.VhostUserFS: return s.hypervisor.addDevice(ctx, device.GetDeviceInfo().(*config.VhostUserDeviceAttrs), vhostuserDev) case config.DeviceVFIO: vfioDevs := device.GetDeviceInfo().([]*config.VFIODev) for _, d := range vfioDevs { return s.hypervisor.addDevice(ctx, *d, vfioDev) } default: s.Logger().WithField("device-type", device.DeviceType()). Warn("Could not append device: unsupported device type") } return fmt.Errorf("unsupported device type") } // AddDevice will add a device to sandbox func (s *Sandbox) AddDevice(ctx context.Context, info config.DeviceInfo) (api.Device, error) { if s.devManager == nil { return nil, fmt.Errorf("device manager isn't initialized") } var err error b, err := s.devManager.NewDevice(info) if err != nil { return nil, err } defer func() { if err != nil { s.devManager.RemoveDevice(b.DeviceID()) } }() if err = s.devManager.AttachDevice(ctx, b.DeviceID(), s); err != nil { return nil, err } defer func() { if err != nil { s.devManager.DetachDevice(ctx, b.DeviceID(), s) } }() return b, nil } // updateResources will: // - calculate the resources required for the virtual machine, and adjust the virtual machine // sizing accordingly. For a given sandbox, it will calculate the number of vCPUs required based // on the sum of container requests, plus default CPUs for the VM. Similar is done for memory. // If changes in memory or CPU are made, the VM will be updated and the agent will online the // applicable CPU and memory. func (s *Sandbox) updateResources(ctx context.Context) error { if s == nil { return errors.New("sandbox is nil") } if s.config == nil { return fmt.Errorf("sandbox config is nil") } sandboxVCPUs, err := s.calculateSandboxCPUs() if err != nil { return err } // Add default vcpus for sandbox sandboxVCPUs += s.hypervisor.hypervisorConfig().NumVCPUs sandboxMemoryByte := s.calculateSandboxMemory() // Add default / rsvd memory for sandbox. sandboxMemoryByte += int64(s.hypervisor.hypervisorConfig().MemorySize) << utils.MibToBytesShift // Update VCPUs s.Logger().WithField("cpus-sandbox", sandboxVCPUs).Debugf("Request to hypervisor to update vCPUs") oldCPUs, newCPUs, err := s.hypervisor.resizeVCPUs(ctx, sandboxVCPUs) if err != nil { return err } s.Logger().Debugf("Request to hypervisor to update oldCPUs/newCPUs: %d/%d", oldCPUs, newCPUs) // If the CPUs were increased, ask agent to online them if oldCPUs < newCPUs { vcpusAdded := newCPUs - oldCPUs s.Logger().Debugf("Request to onlineCPUMem with %d CPUs", vcpusAdded) if err := s.agent.onlineCPUMem(ctx, vcpusAdded, true); err != nil { return err } } s.Logger().Debugf("Sandbox CPUs: %d", newCPUs) // Update Memory s.Logger().WithField("memory-sandbox-size-byte", sandboxMemoryByte).Debugf("Request to hypervisor to update memory") newMemory, updatedMemoryDevice, err := s.hypervisor.resizeMemory(ctx, uint32(sandboxMemoryByte>>utils.MibToBytesShift), s.state.GuestMemoryBlockSizeMB, s.state.GuestMemoryHotplugProbe) if err != nil { return err } s.Logger().Debugf("Sandbox memory size: %d MB", newMemory) if s.state.GuestMemoryHotplugProbe && updatedMemoryDevice.addr != 0 { // notify the guest kernel about memory hot-add event, before onlining them s.Logger().Debugf("notify guest kernel memory hot-add event via probe interface, memory device located at 0x%x", updatedMemoryDevice.addr) if err := s.agent.memHotplugByProbe(ctx, updatedMemoryDevice.addr, uint32(updatedMemoryDevice.sizeMB), s.state.GuestMemoryBlockSizeMB); err != nil { return err } } if err := s.agent.onlineCPUMem(ctx, 0, false); err != nil { return err } return nil } func (s *Sandbox) calculateSandboxMemory() int64 { memorySandbox := int64(0) for _, c := range s.config.Containers { // Do not hot add again non-running containers resources if cont, ok := s.containers[c.ID]; ok && cont.state.State == types.StateStopped { s.Logger().WithField("container-id", c.ID).Debug("Do not taking into account memory resources of not running containers") continue } if m := c.Resources.Memory; m != nil && m.Limit != nil { memorySandbox += *m.Limit } } return memorySandbox } func (s *Sandbox) calculateSandboxCPUs() (uint32, error) { mCPU := uint32(0) cpusetCount := int(0) for _, c := range s.config.Containers { // Do not hot add again non-running containers resources if cont, ok := s.containers[c.ID]; ok && cont.state.State == types.StateStopped { s.Logger().WithField("container-id", c.ID).Debug("Do not taking into account CPU resources of not running containers") continue } if cpu := c.Resources.CPU; cpu != nil { if cpu.Period != nil && cpu.Quota != nil { mCPU += utils.CalculateMilliCPUs(*cpu.Quota, *cpu.Period) } set, err := cpuset.Parse(cpu.Cpus) if err != nil { return 0, nil } cpusetCount += set.Size() } } // If we aren't being constrained, then we could have two scenarios: // 1. BestEffort QoS: no proper support today in Kata. // 2. We could be constrained only by CPUSets. Check for this: if mCPU == 0 && cpusetCount > 0 { return uint32(cpusetCount), nil } return utils.CalculateVCpusFromMilliCpus(mCPU), nil } // GetHypervisorType is used for getting Hypervisor name currently used. // Sandbox implement DeviceReceiver interface from device/api/interface.go func (s *Sandbox) GetHypervisorType() string { return string(s.config.HypervisorType) } // cgroupsUpdate will: // 1) get the v1constraints cgroup associated with the stored cgroup path // 2) (re-)add hypervisor vCPU threads to the appropriate cgroup // 3) If we are managing sandbox cgroup, update the v1constraints cgroup size func (s *Sandbox) cgroupsUpdate(ctx context.Context) error { // If Kata is configured for SandboxCgroupOnly, the VMM and its processes are already // in the Kata sandbox cgroup (inherited). Check to see if sandbox cpuset needs to be // updated. if s.config.SandboxCgroupOnly { cpuset, memset, err := s.getSandboxCPUSet() if err != nil { return err } if err := s.cgroupMgr.SetCPUSet(cpuset, memset); err != nil { return err } return nil } if s.state.CgroupPath == "" { s.Logger().Warn("sandbox's cgroup won't be updated: cgroup path is empty") return nil } cgroup, err := cgroupsLoadFunc(V1Constraints, cgroups.StaticPath(s.state.CgroupPath)) if err != nil { return fmt.Errorf("Could not load cgroup %v: %v", s.state.CgroupPath, err) } if err := s.constrainHypervisor(ctx, cgroup); err != nil { return err } if len(s.containers) <= 1 { // nothing to update return nil } resources, err := s.resources() if err != nil { return err } if err := cgroup.Update(&resources); err != nil { return fmt.Errorf("Could not update sandbox cgroup path='%v' error='%v'", s.state.CgroupPath, err) } return nil } // cgroupsDelete will move the running processes in the sandbox cgroup // to the parent and then delete the sandbox cgroup func (s *Sandbox) cgroupsDelete() error { s.Logger().Debug("Deleting sandbox cgroup") if s.state.CgroupPath == "" { s.Logger().Warnf("sandbox cgroups path is empty") return nil } var path string var cgroupSubsystems cgroups.Hierarchy if s.config.SandboxCgroupOnly { return s.cgroupMgr.Destroy() } cgroupSubsystems = V1NoConstraints path = cgroupNoConstraintsPath(s.state.CgroupPath) s.Logger().WithField("path", path).Debug("Deleting no constraints cgroup") sandboxCgroups, err := cgroupsLoadFunc(cgroupSubsystems, cgroups.StaticPath(path)) if err == cgroups.ErrCgroupDeleted { // cgroup already deleted s.Logger().Warnf("cgroup already deleted: '%s'", err) return nil } if err != nil { return fmt.Errorf("Could not load cgroups %v: %v", path, err) } // move running process here, that way cgroup can be removed parent, err := parentCgroup(cgroupSubsystems, path) if err != nil { // parent cgroup doesn't exist, that means there are no process running // and the no constraints cgroup was removed. s.Logger().WithError(err).Warn("Parent cgroup doesn't exist") return nil } if err := sandboxCgroups.MoveTo(parent); err != nil { // Don't fail, cgroup can be deleted s.Logger().WithError(err).Warnf("Could not move process from %s to parent cgroup", path) } return sandboxCgroups.Delete() } // constrainHypervisor will place the VMM and vCPU threads into cgroups. func (s *Sandbox) constrainHypervisor(ctx context.Context, cgroup cgroups.Cgroup) error { // VMM threads are only placed into the constrained cgroup if SandboxCgroupOnly is being set. // This is the "correct" behavior, but if the parent cgroup isn't set up correctly to take // Kata/VMM into account, Kata may fail to boot due to being overconstrained. // If !SandboxCgroupOnly, place the VMM into an unconstrained cgroup, and the vCPU threads into constrained // cgroup if s.config.SandboxCgroupOnly { // Kata components were moved into the sandbox-cgroup already, so VMM // will already land there as well. No need to take action return nil } pids := s.hypervisor.getPids() if len(pids) == 0 || pids[0] == 0 { return fmt.Errorf("Invalid hypervisor PID: %+v", pids) } // VMM threads are only placed into the constrained cgroup if SandboxCgroupOnly is being set. // This is the "correct" behavior, but if the parent cgroup isn't set up correctly to take // Kata/VMM into account, Kata may fail to boot due to being overconstrained. // If !SandboxCgroupOnly, place the VMM into an unconstrained cgroup, and the vCPU threads into constrained // cgroup // Move the VMM into cgroups without constraints, those cgroups are not yet supported. resources := &specs.LinuxResources{} path := cgroupNoConstraintsPath(s.state.CgroupPath) vmmCgroup, err := cgroupsNewFunc(V1NoConstraints, cgroups.StaticPath(path), resources) if err != nil { return fmt.Errorf("Could not create cgroup %v: %v", path, err) } for _, pid := range pids { if pid <= 0 { s.Logger().Warnf("Invalid hypervisor pid: %d", pid) continue } if err := vmmCgroup.Add(cgroups.Process{Pid: pid}); err != nil { return fmt.Errorf("Could not add hypervisor PID %d to cgroup: %v", pid, err) } } // when new container joins, new CPU could be hotplugged, so we // have to query fresh vcpu info from hypervisor every time. tids, err := s.hypervisor.getThreadIDs(ctx) if err != nil { return fmt.Errorf("failed to get thread ids from hypervisor: %v", err) } if len(tids.vcpus) == 0 { // If there's no tid returned from the hypervisor, this is not // a bug. It simply means there is nothing to constrain, hence // let's return without any error from here. return nil } // Move vcpus (threads) into cgroups with constraints. // Move whole hypervisor process would be easier but the IO/network performance // would be over-constrained. for _, i := range tids.vcpus { // In contrast, AddTask will write thread id to `tasks` // After this, vcpu threads are in "vcpu" sub-cgroup, other threads in // qemu will be left in parent cgroup untouched. if err := cgroup.AddTask(cgroups.Process{ Pid: i, }); err != nil { return err } } return nil } func (s *Sandbox) resources() (specs.LinuxResources, error) { resources := specs.LinuxResources{ CPU: s.cpuResources(), } return resources, nil } func (s *Sandbox) cpuResources() *specs.LinuxCPU { // Use default period and quota if they are not specified. // Container will inherit the constraints from its parent. quota := int64(0) period := uint64(0) shares := uint64(0) realtimePeriod := uint64(0) realtimeRuntime := int64(0) cpu := &specs.LinuxCPU{ Quota: "a, Period: &period, Shares: &shares, RealtimePeriod: &realtimePeriod, RealtimeRuntime: &realtimeRuntime, } for _, c := range s.containers { ann := c.GetAnnotations() if ann[annotations.ContainerTypeKey] == string(PodSandbox) { // skip sandbox container continue } if c.config.Resources.CPU == nil { continue } if c.config.Resources.CPU.Shares != nil { shares = uint64(math.Max(float64(*c.config.Resources.CPU.Shares), float64(shares))) } if c.config.Resources.CPU.Quota != nil { quota += *c.config.Resources.CPU.Quota } if c.config.Resources.CPU.Period != nil { period = uint64(math.Max(float64(*c.config.Resources.CPU.Period), float64(period))) } if c.config.Resources.CPU.Cpus != "" { cpu.Cpus += c.config.Resources.CPU.Cpus + "," } if c.config.Resources.CPU.RealtimeRuntime != nil { realtimeRuntime += *c.config.Resources.CPU.RealtimeRuntime } if c.config.Resources.CPU.RealtimePeriod != nil { realtimePeriod += *c.config.Resources.CPU.RealtimePeriod } if c.config.Resources.CPU.Mems != "" { cpu.Mems += c.config.Resources.CPU.Mems + "," } } cpu.Cpus = strings.Trim(cpu.Cpus, " \n\t,") return validCPUResources(cpu) } // setupSandboxCgroup creates and joins sandbox cgroups for the sandbox config func (s *Sandbox) setupSandboxCgroup() error { var err error spec := s.GetPatchedOCISpec() if spec == nil { return errorMissingOCISpec } if spec.Linux == nil { s.Logger().WithField("sandboxid", s.id).Warning("no cgroup path provided for pod sandbox, not creating sandbox cgroup") return nil } s.state.CgroupPath, err = vccgroups.ValidCgroupPath(spec.Linux.CgroupsPath, s.config.SystemdCgroup) if err != nil { return fmt.Errorf("Invalid cgroup path: %v", err) } runtimePid := os.Getpid() // Add the runtime to the Kata sandbox cgroup if err = s.cgroupMgr.Add(runtimePid); err != nil { return fmt.Errorf("Could not add runtime PID %d to sandbox cgroup: %v", runtimePid, err) } // `Apply` updates manager's Cgroups and CgroupPaths, // they both need to be saved since are used to create // or restore a cgroup managers. if s.config.Cgroups, err = s.cgroupMgr.GetCgroups(); err != nil { return fmt.Errorf("Could not get cgroup configuration: %v", err) } s.state.CgroupPaths = s.cgroupMgr.GetPaths() if err = s.cgroupMgr.Apply(); err != nil { return fmt.Errorf("Could not constrain cgroup: %v", err) } return nil } // GetPatchedOCISpec returns sandbox's OCI specification // This OCI specification was patched when the sandbox was created // by containerCapabilities(), SetEphemeralStorageType() and others // in order to support: // * capabilities // * Ephemeral storage // * k8s empty dir // If you need the original (vanilla) OCI spec, // use compatoci.GetContainerSpec() instead. func (s *Sandbox) GetPatchedOCISpec() *specs.Spec { if s.config == nil { return nil } // get the container associated with the PodSandbox annotation. In Kubernetes, this // represents the pause container. In Docker, this is the container. We derive the // cgroup path from this container. for _, cConfig := range s.config.Containers { if cConfig.Annotations[annotations.ContainerTypeKey] == string(PodSandbox) { return cConfig.CustomSpec } } return nil } func (s *Sandbox) GetOOMEvent(ctx context.Context) (string, error) { return s.agent.getOOMEvent(ctx) } func (s *Sandbox) GetAgentURL() (string, error) { return s.agent.getAgentURL() } // getSandboxCPUSet returns the union of each of the sandbox's containers' CPU sets' // cpus and mems as a string in canonical linux CPU/mems list format func (s *Sandbox) getSandboxCPUSet() (string, string, error) { if s.config == nil { return "", "", nil } cpuResult := cpuset.NewCPUSet() memResult := cpuset.NewCPUSet() for _, ctr := range s.config.Containers { if ctr.Resources.CPU != nil { currCPUSet, err := cpuset.Parse(ctr.Resources.CPU.Cpus) if err != nil { return "", "", fmt.Errorf("unable to parse CPUset.cpus for container %s: %v", ctr.ID, err) } cpuResult = cpuResult.Union(currCPUSet) currMemSet, err := cpuset.Parse(ctr.Resources.CPU.Mems) if err != nil { return "", "", fmt.Errorf("unable to parse CPUset.mems for container %s: %v", ctr.ID, err) } memResult = memResult.Union(currMemSet) } } return cpuResult.String(), memResult.String(), nil } // fetchSandbox fetches a sandbox config from a sandbox ID and returns a sandbox. func fetchSandbox(ctx context.Context, sandboxID string) (sandbox *Sandbox, err error) { virtLog.Info("fetch sandbox") if sandboxID == "" { return nil, vcTypes.ErrNeedSandboxID } var config SandboxConfig // load sandbox config fromld store. c, err := loadSandboxConfig(sandboxID) if err != nil { virtLog.WithError(err).Warning("failed to get sandbox config from new store") return nil, err } config = *c // fetchSandbox is not suppose to create new sandbox VM. sandbox, err = createSandbox(ctx, config, nil) if err != nil { return nil, fmt.Errorf("failed to create sandbox with config %+v: %v", config, err) } if sandbox.config.SandboxCgroupOnly { if err := sandbox.createCgroupManager(); err != nil { return nil, err } } // This sandbox already exists, we don't need to recreate the containers in the guest. // We only need to fetch the containers from storage and create the container structs. if err := sandbox.fetchContainers(ctx); err != nil { return nil, err } return sandbox, nil } // fetchContainers creates new containers structure and // adds them to the sandbox. It does not create the containers // in the guest. This should only be used when fetching a // sandbox that already exists. func (s *Sandbox) fetchContainers(ctx context.Context) error { for i, contConfig := range s.config.Containers { // Add spec from bundle path spec, err := compatoci.GetContainerSpec(contConfig.Annotations) if err != nil { return err } contConfig.CustomSpec = &spec s.config.Containers[i] = contConfig c, err := newContainer(ctx, s, &s.config.Containers[i]) if err != nil { return err } if err := s.addContainer(c); err != nil { return err } } return nil }