// Copyright 2018 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package container creates and manipulates containers. package container import ( "context" "errors" "fmt" "io/ioutil" "os" "os/exec" "regexp" "strconv" "strings" "syscall" "time" "github.com/cenkalti/backoff" specs "github.com/opencontainers/runtime-spec/specs-go" "golang.org/x/sys/unix" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/cleanup" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/sentry/control" "gvisor.dev/gvisor/pkg/sentry/sighandling" "gvisor.dev/gvisor/runsc/boot" "gvisor.dev/gvisor/runsc/cgroup" "gvisor.dev/gvisor/runsc/config" "gvisor.dev/gvisor/runsc/console" "gvisor.dev/gvisor/runsc/sandbox" "gvisor.dev/gvisor/runsc/specutils" ) // validateID validates the container id. func validateID(id string) error { // See libcontainer/factory_linux.go. idRegex := regexp.MustCompile(`^[\w+-\.]+$`) if !idRegex.MatchString(id) { return fmt.Errorf("invalid container id: %v", id) } return nil } // Container represents a containerized application. When running, the // container is associated with a single Sandbox. // // Container metadata can be saved and loaded to disk. Within a root directory, // we maintain subdirectories for each container named with the container id. // The container metadata is stored as a json within the container directory // in a file named "meta.json". This metadata format is defined by us and is // not part of the OCI spec. // // Containers must write their metadata files after any change to their internal // states. The entire container directory is deleted when the container is // destroyed. // // When the container is stopped, all processes that belong to the container // must be stopped before Destroy() returns. containerd makes roughly the // following calls to stop a container: // - First it attempts to kill the container process with // 'runsc kill SIGTERM'. After some time, it escalates to SIGKILL. In a // separate thread, it's waiting on the container. As soon as the wait // returns, it moves on to the next step: // - It calls 'runsc kill --all SIGKILL' to stop every process that belongs to // the container. 'kill --all SIGKILL' waits for all processes before // returning. // - Containerd waits for stdin, stdout and stderr to drain and be closed. // - It calls 'runsc delete'. runc implementation kills --all SIGKILL once // again just to be sure, waits, and then proceeds with remaining teardown. // // Container is thread-unsafe. type Container struct { // ID is the container ID. ID string `json:"id"` // Spec is the OCI runtime spec that configures this container. Spec *specs.Spec `json:"spec"` // BundleDir is the directory containing the container bundle. BundleDir string `json:"bundleDir"` // CreatedAt is the time the container was created. CreatedAt time.Time `json:"createdAt"` // Owner is the container owner. Owner string `json:"owner"` // ConsoleSocket is the path to a unix domain socket that will receive // the console FD. ConsoleSocket string `json:"consoleSocket"` // Status is the current container Status. Status Status `json:"status"` // GoferPid is the PID of the gofer running along side the sandbox. May // be 0 if the gofer has been killed. GoferPid int `json:"goferPid"` // Sandbox is the sandbox this container is running in. It's set when the // container is created and reset when the sandbox is destroyed. Sandbox *sandbox.Sandbox `json:"sandbox"` // Saver handles load from/save to the state file safely from multiple // processes. Saver StateFile `json:"saver"` // // Fields below this line are not saved in the state file and will not // be preserved across commands. // // goferIsChild is set if a gofer process is a child of the current process. // // This field isn't saved to json, because only a creator of a gofer // process will have it as a child process. goferIsChild bool } // Args is used to configure a new container. type Args struct { // ID is the container unique identifier. ID string // Spec is the OCI spec that describes the container. Spec *specs.Spec // BundleDir is the directory containing the container bundle. BundleDir string // ConsoleSocket is the path to a unix domain socket that will receive // the console FD. It may be empty. ConsoleSocket string // PIDFile is the filename where the container's root process PID will be // written to. It may be empty. PIDFile string // UserLog is the filename to send user-visible logs to. It may be empty. // // It only applies for the init container. UserLog string // Attached indicates that the sandbox lifecycle is attached with the caller. // If the caller exits, the sandbox should exit too. // // It only applies for the init container. Attached bool } // New creates the container in a new Sandbox process, unless the metadata // indicates that an existing Sandbox should be used. The caller must call // Destroy() on the container. func New(conf *config.Config, args Args) (*Container, error) { log.Debugf("Create container, cid: %s, rootDir: %q", args.ID, conf.RootDir) if err := validateID(args.ID); err != nil { return nil, err } if err := os.MkdirAll(conf.RootDir, 0711); err != nil { return nil, fmt.Errorf("creating container root directory %q: %v", conf.RootDir, err) } sandboxID := args.ID if !isRoot(args.Spec) { var ok bool sandboxID, ok = specutils.SandboxID(args.Spec) if !ok { return nil, fmt.Errorf("no sandbox ID found when creating container") } } c := &Container{ ID: args.ID, Spec: args.Spec, ConsoleSocket: args.ConsoleSocket, BundleDir: args.BundleDir, Status: Creating, CreatedAt: time.Now(), Owner: os.Getenv("USER"), Saver: StateFile{ RootDir: conf.RootDir, ID: FullID{ SandboxID: sandboxID, ContainerID: args.ID, }, }, } // The Cleanup object cleans up partially created containers when an error // occurs. Any errors occurring during cleanup itself are ignored. cu := cleanup.Make(func() { _ = c.Destroy() }) defer cu.Clean() // Lock the container metadata file to prevent concurrent creations of // containers with the same id. if err := c.Saver.lockForNew(); err != nil { return nil, err } defer c.Saver.unlockOrDie() // If the metadata annotations indicate that this container should be started // in an existing sandbox, we must do so. These are the possible metadata // annotation states: // 1. No annotations: it means that there is a single container and this // container is obviously the root. Both container and sandbox share the // ID. // 2. Container type == sandbox: it means this is the root container // starting the sandbox. Both container and sandbox share the same ID. // 3. Container type == container: it means this is a subcontainer of an // already started sandbox. In this case, container ID is different than // the sandbox ID. if isRoot(args.Spec) { log.Debugf("Creating new sandbox for container, cid: %s", args.ID) if args.Spec.Linux == nil { args.Spec.Linux = &specs.Linux{} } // Don't force the use of cgroups in tests because they lack permission to do so. if args.Spec.Linux.CgroupsPath == "" && !conf.TestOnlyAllowRunAsCurrentUserWithoutChroot { args.Spec.Linux.CgroupsPath = "/" + args.ID } // Create and join cgroup before processes are created to ensure they are // part of the cgroup from the start (and all their children processes). cg, err := cgroup.NewFromSpec(args.Spec) if err != nil { return nil, err } if cg != nil { // TODO(gvisor.dev/issue/3481): Remove when cgroups v2 is supported. if !conf.Rootless && cgroup.IsOnlyV2() { return nil, fmt.Errorf("cgroups V2 is not yet supported. Enable cgroups V1 and retry") } // If there is cgroup config, install it before creating sandbox process. if err := cg.Install(args.Spec.Linux.Resources); err != nil { switch { case errors.Is(err, unix.EACCES) && conf.Rootless: log.Warningf("Skipping cgroup configuration in rootless mode: %v", err) cg = nil default: return nil, fmt.Errorf("configuring cgroup: %v", err) } } } if err := runInCgroup(cg, func() error { ioFiles, specFile, err := c.createGoferProcess(args.Spec, conf, args.BundleDir, args.Attached) if err != nil { return err } // Start a new sandbox for this container. Any errors after this point // must destroy the container. sandArgs := &sandbox.Args{ ID: sandboxID, Spec: args.Spec, BundleDir: args.BundleDir, ConsoleSocket: args.ConsoleSocket, UserLog: args.UserLog, IOFiles: ioFiles, MountsFile: specFile, Cgroup: cg, Attached: args.Attached, } sand, err := sandbox.New(conf, sandArgs) if err != nil { return err } c.Sandbox = sand return nil }); err != nil { return nil, err } } else { log.Debugf("Creating new container, cid: %s, sandbox: %s", c.ID, sandboxID) // Find the sandbox associated with this ID. fullID := FullID{ SandboxID: sandboxID, ContainerID: sandboxID, } sb, err := Load(conf.RootDir, fullID, LoadOpts{Exact: true}) if err != nil { return nil, err } c.Sandbox = sb.Sandbox // If the console control socket file is provided, then create a new // pty master/slave pair and send the TTY to the sandbox process. var tty *os.File if c.ConsoleSocket != "" { // Create a new TTY pair and send the master on the provided socket. var err error tty, err = console.NewWithSocket(c.ConsoleSocket) if err != nil { return nil, fmt.Errorf("setting up console with socket %q: %w", c.ConsoleSocket, err) } // tty file is transferred to the sandbox, then it can be closed here. defer tty.Close() } if err := c.Sandbox.CreateSubcontainer(conf, c.ID, tty); err != nil { return nil, err } } c.changeStatus(Created) // Save the metadata file. if err := c.saveLocked(); err != nil { return nil, err } // Write the PID file. Containerd considers the create complete after // this file is created, so it must be the last thing we do. if args.PIDFile != "" { if err := ioutil.WriteFile(args.PIDFile, []byte(strconv.Itoa(c.SandboxPid())), 0644); err != nil { return nil, fmt.Errorf("error writing PID file: %v", err) } } cu.Release() return c, nil } // Start starts running the containerized process inside the sandbox. func (c *Container) Start(conf *config.Config) error { log.Debugf("Start container, cid: %s", c.ID) if err := c.Saver.lock(); err != nil { return err } unlock := cleanup.Make(c.Saver.unlockOrDie) defer unlock.Clean() if err := c.requireStatus("start", Created); err != nil { return err } // "If any prestart hook fails, the runtime MUST generate an error, // stop and destroy the container" -OCI spec. if c.Spec.Hooks != nil { if err := executeHooks(c.Spec.Hooks.Prestart, c.State()); err != nil { return err } } if isRoot(c.Spec) { if err := c.Sandbox.StartRoot(c.Spec, conf); err != nil { return err } } else { // Join cgroup to start gofer process to ensure it's part of the cgroup from // the start (and all their children processes). if err := runInCgroup(c.Sandbox.Cgroup, func() error { // Create the gofer process. goferFiles, mountsFile, err := c.createGoferProcess(c.Spec, conf, c.BundleDir, false) if err != nil { return err } defer func() { _ = mountsFile.Close() for _, f := range goferFiles { _ = f.Close() } }() cleanMounts, err := specutils.ReadMounts(mountsFile) if err != nil { return fmt.Errorf("reading mounts file: %v", err) } c.Spec.Mounts = cleanMounts // Setup stdios if the container is not using terminal. Otherwise TTY was // already setup in create. var stdios []*os.File if !c.Spec.Process.Terminal { stdios = []*os.File{os.Stdin, os.Stdout, os.Stderr} } return c.Sandbox.StartSubcontainer(c.Spec, conf, c.ID, stdios, goferFiles) }); err != nil { return err } } // "If any poststart hook fails, the runtime MUST log a warning, but // the remaining hooks and lifecycle continue as if the hook had // succeeded" -OCI spec. if c.Spec.Hooks != nil { executeHooksBestEffort(c.Spec.Hooks.Poststart, c.State()) } c.changeStatus(Running) if err := c.saveLocked(); err != nil { return err } // Release lock before adjusting OOM score because the lock is acquired there. unlock.Clean() // Adjust the oom_score_adj for sandbox. This must be done after saveLocked(). if err := adjustSandboxOOMScoreAdj(c.Sandbox, c.Spec, c.Saver.RootDir, false); err != nil { return err } // Set container's oom_score_adj to the gofer since it is dedicated to // the container, in case the gofer uses up too much memory. return c.adjustGoferOOMScoreAdj() } // Restore takes a container and replaces its kernel and file system // to restore a container from its state file. func (c *Container) Restore(spec *specs.Spec, conf *config.Config, restoreFile string) error { log.Debugf("Restore container, cid: %s", c.ID) if err := c.Saver.lock(); err != nil { return err } defer c.Saver.unlockOrDie() if err := c.requireStatus("restore", Created); err != nil { return err } // "If any prestart hook fails, the runtime MUST generate an error, // stop and destroy the container" -OCI spec. if c.Spec.Hooks != nil { if err := executeHooks(c.Spec.Hooks.Prestart, c.State()); err != nil { return err } } if err := c.Sandbox.Restore(c.ID, spec, conf, restoreFile); err != nil { return err } c.changeStatus(Running) return c.saveLocked() } // Run is a helper that calls Create + Start + Wait. func Run(conf *config.Config, args Args) (unix.WaitStatus, error) { log.Debugf("Run container, cid: %s, rootDir: %q", args.ID, conf.RootDir) c, err := New(conf, args) if err != nil { return 0, fmt.Errorf("creating container: %v", err) } // Clean up partially created container if an error occurs. // Any errors returned by Destroy() itself are ignored. cu := cleanup.Make(func() { c.Destroy() }) defer cu.Clean() if conf.RestoreFile != "" { log.Debugf("Restore: %v", conf.RestoreFile) if err := c.Restore(args.Spec, conf, conf.RestoreFile); err != nil { return 0, fmt.Errorf("starting container: %v", err) } } else { if err := c.Start(conf); err != nil { return 0, fmt.Errorf("starting container: %v", err) } } if args.Attached { return c.Wait() } cu.Release() return 0, nil } // Execute runs the specified command in the container. It returns the PID of // the newly created process. func (c *Container) Execute(conf *config.Config, args *control.ExecArgs) (int32, error) { log.Debugf("Execute in container, cid: %s, args: %+v", c.ID, args) if err := c.requireStatus("execute in", Created, Running); err != nil { return 0, err } args.ContainerID = c.ID return c.Sandbox.Execute(conf, args) } // Event returns events for the container. func (c *Container) Event() (*boot.EventOut, error) { log.Debugf("Getting events for container, cid: %s", c.ID) if err := c.requireStatus("get events for", Created, Running, Paused); err != nil { return nil, err } event, err := c.Sandbox.Event(c.ID) if err != nil { return nil, err } // Some stats can utilize host cgroups for accuracy. c.populateStats(event) return event, nil } // SandboxPid returns the Pid of the sandbox the container is running in, or -1 if the // container is not running. func (c *Container) SandboxPid() int { if err := c.requireStatus("get PID", Created, Running, Paused); err != nil { return -1 } return c.Sandbox.Pid } // Wait waits for the container to exit, and returns its WaitStatus. // Call to wait on a stopped container is needed to retrieve the exit status // and wait returns immediately. func (c *Container) Wait() (unix.WaitStatus, error) { log.Debugf("Wait on container, cid: %s", c.ID) ws, err := c.Sandbox.Wait(c.ID) if err == nil { // Wait succeeded, container is not running anymore. c.changeStatus(Stopped) } return ws, err } // WaitRootPID waits for process 'pid' in the sandbox's PID namespace and // returns its WaitStatus. func (c *Container) WaitRootPID(pid int32) (unix.WaitStatus, error) { log.Debugf("Wait on process %d in sandbox, cid: %s", pid, c.Sandbox.ID) if !c.IsSandboxRunning() { return 0, fmt.Errorf("sandbox is not running") } return c.Sandbox.WaitPID(c.Sandbox.ID, pid) } // WaitPID waits for process 'pid' in the container's PID namespace and returns // its WaitStatus. func (c *Container) WaitPID(pid int32) (unix.WaitStatus, error) { log.Debugf("Wait on process %d in container, cid: %s", pid, c.ID) if !c.IsSandboxRunning() { return 0, fmt.Errorf("sandbox is not running") } return c.Sandbox.WaitPID(c.ID, pid) } // SignalContainer sends the signal to the container. If all is true and signal // is SIGKILL, then waits for all processes to exit before returning. // SignalContainer returns an error if the container is already stopped. // TODO(b/113680494): Distinguish different error types. func (c *Container) SignalContainer(sig unix.Signal, all bool) error { log.Debugf("Signal container, cid: %s, signal: %v (%d)", c.ID, sig, sig) // Signaling container in Stopped state is allowed. When all=false, // an error will be returned anyway; when all=true, this allows // sending signal to other processes inside the container even // after the init process exits. This is especially useful for // container cleanup. if err := c.requireStatus("signal", Running, Stopped); err != nil { return err } if !c.IsSandboxRunning() { return fmt.Errorf("sandbox is not running") } return c.Sandbox.SignalContainer(c.ID, sig, all) } // SignalProcess sends sig to a specific process in the container. func (c *Container) SignalProcess(sig unix.Signal, pid int32) error { log.Debugf("Signal process %d in container, cid: %s, signal: %v (%d)", pid, c.ID, sig, sig) if err := c.requireStatus("signal a process inside", Running); err != nil { return err } if !c.IsSandboxRunning() { return fmt.Errorf("sandbox is not running") } return c.Sandbox.SignalProcess(c.ID, int32(pid), sig, false) } // ForwardSignals forwards all signals received by the current process to the // container process inside the sandbox. It returns a function that will stop // forwarding signals. func (c *Container) ForwardSignals(pid int32, fgProcess bool) func() { log.Debugf("Forwarding all signals to container, cid: %s, PIDPID: %d, fgProcess: %t", c.ID, pid, fgProcess) stop := sighandling.StartSignalForwarding(func(sig linux.Signal) { log.Debugf("Forwarding signal %d to container, cid: %s, PID: %d, fgProcess: %t", sig, c.ID, pid, fgProcess) if err := c.Sandbox.SignalProcess(c.ID, pid, unix.Signal(sig), fgProcess); err != nil { log.Warningf("error forwarding signal %d to container %q: %v", sig, c.ID, err) } }) return func() { log.Debugf("Done forwarding signals to container, cid: %s, PID: %d, fgProcess: %t", c.ID, pid, fgProcess) stop() } } // Checkpoint sends the checkpoint call to the container. // The statefile will be written to f, the file at the specified image-path. func (c *Container) Checkpoint(f *os.File) error { log.Debugf("Checkpoint container, cid: %s", c.ID) if err := c.requireStatus("checkpoint", Created, Running, Paused); err != nil { return err } return c.Sandbox.Checkpoint(c.ID, f) } // Pause suspends the container and its kernel. // The call only succeeds if the container's status is created or running. func (c *Container) Pause() error { log.Debugf("Pausing container, cid: %s", c.ID) if err := c.Saver.lock(); err != nil { return err } defer c.Saver.unlockOrDie() if c.Status != Created && c.Status != Running { return fmt.Errorf("cannot pause container %q in state %v", c.ID, c.Status) } if err := c.Sandbox.Pause(c.ID); err != nil { return fmt.Errorf("pausing container %q: %v", c.ID, err) } c.changeStatus(Paused) return c.saveLocked() } // Resume unpauses the container and its kernel. // The call only succeeds if the container's status is paused. func (c *Container) Resume() error { log.Debugf("Resuming container, cid: %s", c.ID) if err := c.Saver.lock(); err != nil { return err } defer c.Saver.unlockOrDie() if c.Status != Paused { return fmt.Errorf("cannot resume container %q in state %v", c.ID, c.Status) } if err := c.Sandbox.Resume(c.ID); err != nil { return fmt.Errorf("resuming container: %v", err) } c.changeStatus(Running) return c.saveLocked() } // Cat prints out the content of the files. func (c *Container) Cat(files []string, out *os.File) error { log.Debugf("Cat in container, cid: %s, files: %+v", c.ID, files) return c.Sandbox.Cat(c.ID, files, out) } // Usage displays memory used by the application. func (c *Container) Usage(full bool) (control.MemoryUsage, error) { log.Debugf("Usage in container, cid: %s, full: %v", c.ID, full) return c.Sandbox.Usage(c.ID, full) } // UsageFD shows application memory usage using two donated FDs. func (c *Container) UsageFD() (*control.MemoryUsageRecord, error) { log.Debugf("UsageFD in container, cid: %s", c.ID) return c.Sandbox.UsageFD(c.ID) } // Reduce requests that the sentry attempt to reduce its memory usage. func (c *Container) Reduce(wait bool) error { log.Debugf("Reduce in container, cid: %s", c.ID) return c.Sandbox.Reduce(c.ID, wait) } // Stream dumps all events to out. func (c *Container) Stream(filters []string, out *os.File) error { log.Debugf("Stream in container, cid: %s", c.ID) return c.Sandbox.Stream(c.ID, filters, out) } // State returns the metadata of the container. func (c *Container) State() specs.State { return specs.State{ Version: specs.Version, ID: c.ID, Status: c.Status.String(), Pid: c.SandboxPid(), Bundle: c.BundleDir, } } // Processes retrieves the list of processes and associated metadata inside a // container. func (c *Container) Processes() ([]*control.Process, error) { if err := c.requireStatus("get processes of", Running, Paused); err != nil { return nil, err } return c.Sandbox.Processes(c.ID) } // Destroy stops all processes and frees all resources associated with the // container. func (c *Container) Destroy() error { log.Debugf("Destroy container, cid: %s", c.ID) if err := c.Saver.lock(); err != nil { return err } defer func() { c.Saver.unlockOrDie() _ = c.Saver.close() }() // Stored for later use as stop() sets c.Sandbox to nil. sb := c.Sandbox // We must perform the following cleanup steps: // * stop the container and gofer processes, // * remove the container filesystem on the host, and // * delete the container metadata directory. // // It's possible for one or more of these steps to fail, but we should // do our best to perform all of the cleanups. Hence, we keep a slice // of errors return their concatenation. var errs []string if err := c.stop(); err != nil { err = fmt.Errorf("stopping container: %v", err) log.Warningf("%v", err) errs = append(errs, err.Error()) } if err := c.Saver.destroy(); err != nil { err = fmt.Errorf("deleting container state files: %v", err) log.Warningf("%v", err) errs = append(errs, err.Error()) } c.changeStatus(Stopped) // Adjust oom_score_adj for the sandbox. This must be done after the container // is stopped and the directory at c.Root is removed. // // Use 'sb' to tell whether it has been executed before because Destroy must // be idempotent. if sb != nil { if err := adjustSandboxOOMScoreAdj(sb, c.Spec, c.Saver.RootDir, true); err != nil { errs = append(errs, err.Error()) } } // "If any poststop hook fails, the runtime MUST log a warning, but the // remaining hooks and lifecycle continue as if the hook had // succeeded" - OCI spec. // // Based on the OCI, "The post-stop hooks MUST be called after the container // is deleted but before the delete operation returns" // Run it here to: // 1) Conform to the OCI. // 2) Make sure it only runs once, because the root has been deleted, the // container can't be loaded again. if c.Spec.Hooks != nil { executeHooksBestEffort(c.Spec.Hooks.Poststop, c.State()) } if len(errs) == 0 { return nil } return fmt.Errorf(strings.Join(errs, "\n")) } // saveLocked saves the container metadata to a file. // // Precondition: container must be locked with container.lock(). func (c *Container) saveLocked() error { log.Debugf("Save container, cid: %s", c.ID) if err := c.Saver.saveLocked(c); err != nil { return fmt.Errorf("saving container metadata: %v", err) } return nil } // stop stops the container (for regular containers) or the sandbox (for // root containers), and waits for the container or sandbox and the gofer // to stop. If any of them doesn't stop before timeout, an error is returned. func (c *Container) stop() error { var cgroup *cgroup.Cgroup if c.Sandbox != nil { log.Debugf("Destroying container, cid: %s", c.ID) if err := c.Sandbox.DestroyContainer(c.ID); err != nil { return fmt.Errorf("destroying container %q: %v", c.ID, err) } // Only uninstall cgroup for sandbox stop. if c.Sandbox.IsRootContainer(c.ID) { cgroup = c.Sandbox.Cgroup } // Only set sandbox to nil after it has been told to destroy the container. c.Sandbox = nil } // Try killing gofer if it does not exit with container. if c.GoferPid != 0 { log.Debugf("Killing gofer for container, cid: %s, PID: %d", c.ID, c.GoferPid) if err := unix.Kill(c.GoferPid, unix.SIGKILL); err != nil { // The gofer may already be stopped, log the error. log.Warningf("Error sending signal %d to gofer %d: %v", unix.SIGKILL, c.GoferPid, err) } } if err := c.waitForStopped(); err != nil { return err } // Gofer is running in cgroups, so Cgroup.Uninstall has to be called after it. if cgroup != nil { if err := cgroup.Uninstall(); err != nil { return err } } return nil } func (c *Container) waitForStopped() error { if c.GoferPid == 0 { return nil } if c.IsSandboxRunning() { if err := c.SignalContainer(unix.Signal(0), false); err == nil { return fmt.Errorf("container is still running") } } if c.goferIsChild { // The gofer process is a child of the current process, // so we can wait it and collect its zombie. if _, err := unix.Wait4(int(c.GoferPid), nil, 0, nil); err != nil { return fmt.Errorf("error waiting the gofer process: %v", err) } c.GoferPid = 0 return nil } ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second) defer cancel() b := backoff.WithContext(backoff.NewConstantBackOff(100*time.Millisecond), ctx) op := func() error { if err := unix.Kill(c.GoferPid, 0); err == nil { return fmt.Errorf("gofer is still running") } c.GoferPid = 0 return nil } return backoff.Retry(op, b) } func (c *Container) createGoferProcess(spec *specs.Spec, conf *config.Config, bundleDir string, attached bool) ([]*os.File, *os.File, error) { // Start with the general config flags. args := conf.ToFlags() var goferEnds []*os.File // nextFD is the next available file descriptor for the gofer process. // It starts at 3 because 0-2 are used by stdin/stdout/stderr. nextFD := 3 if conf.LogFilename != "" { logFile, err := os.OpenFile(conf.LogFilename, os.O_APPEND|os.O_CREATE|os.O_WRONLY, 0644) if err != nil { return nil, nil, fmt.Errorf("opening log file %q: %v", conf.LogFilename, err) } defer logFile.Close() goferEnds = append(goferEnds, logFile) args = append(args, "--log-fd="+strconv.Itoa(nextFD)) nextFD++ } if conf.DebugLog != "" { test := "" if len(conf.TestOnlyTestNameEnv) != 0 { // Fetch test name if one is provided and the test only flag was set. if t, ok := specutils.EnvVar(spec.Process.Env, conf.TestOnlyTestNameEnv); ok { test = t } } debugLogFile, err := specutils.DebugLogFile(conf.DebugLog, "gofer", test) if err != nil { return nil, nil, fmt.Errorf("opening debug log file in %q: %v", conf.DebugLog, err) } defer debugLogFile.Close() goferEnds = append(goferEnds, debugLogFile) args = append(args, "--debug-log-fd="+strconv.Itoa(nextFD)) nextFD++ } args = append(args, "gofer", "--bundle", bundleDir) // Open the spec file to donate to the sandbox. specFile, err := specutils.OpenSpec(bundleDir) if err != nil { return nil, nil, fmt.Errorf("opening spec file: %v", err) } defer specFile.Close() goferEnds = append(goferEnds, specFile) args = append(args, "--spec-fd="+strconv.Itoa(nextFD)) nextFD++ // Create pipe that allows gofer to send mount list to sandbox after all paths // have been resolved. mountsSand, mountsGofer, err := os.Pipe() if err != nil { return nil, nil, err } defer mountsGofer.Close() goferEnds = append(goferEnds, mountsGofer) args = append(args, fmt.Sprintf("--mounts-fd=%d", nextFD)) nextFD++ // Add root mount and then add any other additional mounts. mountCount := 1 for _, m := range spec.Mounts { if specutils.IsGoferMount(m, conf.VFS2) { mountCount++ } } sandEnds := make([]*os.File, 0, mountCount) for i := 0; i < mountCount; i++ { fds, err := unix.Socketpair(unix.AF_UNIX, unix.SOCK_STREAM|unix.SOCK_CLOEXEC, 0) if err != nil { return nil, nil, err } sandEnds = append(sandEnds, os.NewFile(uintptr(fds[0]), "sandbox IO FD")) goferEnd := os.NewFile(uintptr(fds[1]), "gofer IO FD") defer goferEnd.Close() goferEnds = append(goferEnds, goferEnd) args = append(args, fmt.Sprintf("--io-fds=%d", nextFD)) nextFD++ } binPath := specutils.ExePath cmd := exec.Command(binPath, args...) cmd.ExtraFiles = goferEnds // Set Args[0] to make easier to spot the gofer process. Otherwise it's // shown as `exe`. cmd.Args[0] = "runsc-gofer" if attached { // The gofer is attached to the lifetime of this process, so it // should synchronously die when this process dies. cmd.SysProcAttr = &unix.SysProcAttr{ Pdeathsig: unix.SIGKILL, } } // Enter new namespaces to isolate from the rest of the system. Don't unshare // cgroup because gofer is added to a cgroup in the caller's namespace. nss := []specs.LinuxNamespace{ {Type: specs.IPCNamespace}, {Type: specs.MountNamespace}, {Type: specs.NetworkNamespace}, {Type: specs.PIDNamespace}, {Type: specs.UTSNamespace}, } // Setup any uid/gid mappings, and create or join the configured user // namespace so the gofer's view of the filesystem aligns with the // users in the sandbox. userNS := specutils.FilterNS([]specs.LinuxNamespaceType{specs.UserNamespace}, spec) nss = append(nss, userNS...) specutils.SetUIDGIDMappings(cmd, spec) if len(userNS) != 0 { // We need to set UID and GID to have capabilities in a new user namespace. cmd.SysProcAttr.Credential = &syscall.Credential{Uid: 0, Gid: 0} } // Start the gofer in the given namespace. log.Debugf("Starting gofer: %s %v", binPath, args) if err := specutils.StartInNS(cmd, nss); err != nil { return nil, nil, fmt.Errorf("gofer: %v", err) } log.Infof("Gofer started, PID: %d", cmd.Process.Pid) c.GoferPid = cmd.Process.Pid c.goferIsChild = true return sandEnds, mountsSand, nil } // changeStatus transitions from one status to another ensuring that the // transition is valid. func (c *Container) changeStatus(s Status) { switch s { case Creating: // Initial state, never transitions to it. panic(fmt.Sprintf("invalid state transition: %v => %v", c.Status, s)) case Created: if c.Status != Creating { panic(fmt.Sprintf("invalid state transition: %v => %v", c.Status, s)) } if c.Sandbox == nil { panic("sandbox cannot be nil") } case Paused: if c.Status != Running { panic(fmt.Sprintf("invalid state transition: %v => %v", c.Status, s)) } if c.Sandbox == nil { panic("sandbox cannot be nil") } case Running: if c.Status != Created && c.Status != Paused { panic(fmt.Sprintf("invalid state transition: %v => %v", c.Status, s)) } if c.Sandbox == nil { panic("sandbox cannot be nil") } case Stopped: if c.Status != Creating && c.Status != Created && c.Status != Running && c.Status != Stopped { panic(fmt.Sprintf("invalid state transition: %v => %v", c.Status, s)) } default: panic(fmt.Sprintf("invalid new state: %v", s)) } c.Status = s } // IsSandboxRunning returns true if the sandbox exists and is running. func (c *Container) IsSandboxRunning() bool { return c.Sandbox != nil && c.Sandbox.IsRunning() } func (c *Container) requireStatus(action string, statuses ...Status) error { for _, s := range statuses { if c.Status == s { return nil } } return fmt.Errorf("cannot %s container %q in state %s", action, c.ID, c.Status) } func isRoot(spec *specs.Spec) bool { return specutils.SpecContainerType(spec) != specutils.ContainerTypeContainer } // runInCgroup executes fn inside the specified cgroup. If cg is nil, execute // it in the current context. func runInCgroup(cg *cgroup.Cgroup, fn func() error) error { if cg == nil { return fn() } restore, err := cg.Join() if err != nil { return err } defer restore() return fn() } // adjustGoferOOMScoreAdj sets the oom_store_adj for the container's gofer. func (c *Container) adjustGoferOOMScoreAdj() error { if c.GoferPid == 0 || c.Spec.Process.OOMScoreAdj == nil { return nil } return setOOMScoreAdj(c.GoferPid, *c.Spec.Process.OOMScoreAdj) } // adjustSandboxOOMScoreAdj sets the oom_score_adj for the sandbox. // oom_score_adj is set to the lowest oom_score_adj among the containers // running in the sandbox. // // TODO(gvisor.dev/issue/238): This call could race with other containers being // created at the same time and end up setting the wrong oom_score_adj to the // sandbox. Use rpc client to synchronize. func adjustSandboxOOMScoreAdj(s *sandbox.Sandbox, spec *specs.Spec, rootDir string, destroy bool) error { // Adjustment can be skipped if the root container is exiting, because it // brings down the entire sandbox. if isRoot(spec) && destroy { return nil } containers, err := loadSandbox(rootDir, s.ID) if err != nil { return fmt.Errorf("loading sandbox containers: %v", err) } // Do nothing if the sandbox has been terminated. if len(containers) == 0 { return nil } // Get the lowest score for all containers. var lowScore int scoreFound := false for _, container := range containers { // Special multi-container support for CRI. Ignore the root container when // calculating oom_score_adj for the sandbox because it is the // infrastructure (pause) container and always has a very low oom_score_adj. // // We will use OOMScoreAdj in the single-container case where the // containerd container-type annotation is not present. if specutils.SpecContainerType(container.Spec) == specutils.ContainerTypeSandbox { continue } if container.Spec.Process.OOMScoreAdj != nil && (!scoreFound || *container.Spec.Process.OOMScoreAdj < lowScore) { scoreFound = true lowScore = *container.Spec.Process.OOMScoreAdj } } // If the container is destroyed and remaining containers have no // oomScoreAdj specified then we must revert to the original oom_score_adj // saved with the root container. if !scoreFound && destroy { lowScore = containers[0].Sandbox.OriginalOOMScoreAdj scoreFound = true } // Only set oom_score_adj if one of the containers has oom_score_adj set. If // not, oom_score_adj is inherited from the parent process. // // See: https://github.com/opencontainers/runtime-spec/blob/master/config.md#linux-process if !scoreFound { return nil } // Set the lowest of all containers oom_score_adj to the sandbox. return setOOMScoreAdj(s.Pid, lowScore) } // setOOMScoreAdj sets oom_score_adj to the given value for the given PID. // /proc must be available and mounted read-write. scoreAdj should be between // -1000 and 1000. It's a noop if the process has already exited. func setOOMScoreAdj(pid int, scoreAdj int) error { f, err := os.OpenFile(fmt.Sprintf("/proc/%d/oom_score_adj", pid), os.O_WRONLY, 0644) if err != nil { // Ignore NotExist errors because it can race with process exit. if os.IsNotExist(err) { log.Warningf("Process (%d) not found setting oom_score_adj", pid) return nil } return err } defer f.Close() if _, err := f.WriteString(strconv.Itoa(scoreAdj)); err != nil { if errors.Is(err, unix.ESRCH) { log.Warningf("Process (%d) exited while setting oom_score_adj", pid) return nil } return fmt.Errorf("setting oom_score_adj to %q: %v", scoreAdj, err) } return nil } // populateStats populates event with stats estimates based on cgroups and the // sentry's accounting. // TODO(gvisor.dev/issue/172): This is an estimation; we should do more // detailed accounting. func (c *Container) populateStats(event *boot.EventOut) { // The events command, when run for all running containers, should // account for the full cgroup CPU usage. We split cgroup usage // proportionally according to the sentry-internal usage measurements, // only counting Running containers. log.Debugf("event.ContainerUsage: %v", event.ContainerUsage) var containerUsage uint64 var allContainersUsage uint64 for ID, usage := range event.ContainerUsage { allContainersUsage += usage if ID == c.ID { containerUsage = usage } } cgroup, err := c.Sandbox.NewCGroup() if err != nil { // No cgroup, so rely purely on the sentry's accounting. log.Warningf("events: no cgroups") event.Event.Data.CPU.Usage.Total = containerUsage return } // Get the host cgroup CPU usage. cgroupsUsage, err := cgroup.CPUUsage() if err != nil { // No cgroup usage, so rely purely on the sentry's accounting. log.Warningf("events: failed when getting cgroup CPU usage for container: %v", err) event.Event.Data.CPU.Usage.Total = containerUsage return } // If the sentry reports no CPU usage, fall back on cgroups and split usage // equally across containers. if allContainersUsage == 0 { log.Warningf("events: no sentry CPU usage reported") allContainersUsage = cgroupsUsage containerUsage = cgroupsUsage / uint64(len(event.ContainerUsage)) } // Scaling can easily overflow a uint64 (e.g. a containerUsage and // cgroupsUsage of 16 seconds each will overflow), so use floats. total := float64(containerUsage) * (float64(cgroupsUsage) / float64(allContainersUsage)) log.Debugf("Usage, container: %d, cgroups: %d, all: %d, total: %.0f", containerUsage, cgroupsUsage, allContainersUsage, total) event.Event.Data.CPU.Usage.Total = uint64(total) return }