package abi import ( "context" "errors" "fmt" "os" "strconv" "sync" "time" "github.com/containers/buildah" "github.com/containers/common/pkg/cgroups" "github.com/containers/common/pkg/config" "github.com/containers/image/v5/manifest" "github.com/containers/podman/v4/libpod" "github.com/containers/podman/v4/libpod/define" "github.com/containers/podman/v4/libpod/logs" "github.com/containers/podman/v4/pkg/checkpoint" "github.com/containers/podman/v4/pkg/domain/entities" "github.com/containers/podman/v4/pkg/domain/entities/reports" dfilters "github.com/containers/podman/v4/pkg/domain/filters" "github.com/containers/podman/v4/pkg/domain/infra/abi/terminal" "github.com/containers/podman/v4/pkg/errorhandling" parallelctr "github.com/containers/podman/v4/pkg/parallel/ctr" "github.com/containers/podman/v4/pkg/ps" "github.com/containers/podman/v4/pkg/rootless" "github.com/containers/podman/v4/pkg/signal" "github.com/containers/podman/v4/pkg/specgen" "github.com/containers/podman/v4/pkg/specgen/generate" "github.com/containers/podman/v4/pkg/specgenutil" "github.com/containers/podman/v4/pkg/util" "github.com/containers/storage" "github.com/sirupsen/logrus" ) // getContainersAndInputByContext gets containers whether all, latest, or a slice of names/ids // is specified. It also returns a list of the corresponding input name used to lookup each container. func getContainersAndInputByContext(all, latest, isPod bool, names []string, filters map[string][]string, runtime *libpod.Runtime) (ctrs []*libpod.Container, rawInput []string, err error) { var ctr *libpod.Container var filteredCtrs []*libpod.Container ctrs = []*libpod.Container{} filterFuncs := make([]libpod.ContainerFilter, 0, len(filters)) switch { case len(filters) > 0: for k, v := range filters { generatedFunc, err := dfilters.GenerateContainerFilterFuncs(k, v, runtime) if err != nil { return nil, nil, err } filterFuncs = append(filterFuncs, generatedFunc) } ctrs, err = runtime.GetContainers(filterFuncs...) if err != nil { return nil, nil, err } rawInput = []string{} for _, candidate := range ctrs { if len(names) > 0 { for _, name := range names { if candidate.ID() == name || candidate.Name() == name { rawInput = append(rawInput, candidate.ID()) filteredCtrs = append(filteredCtrs, candidate) } } ctrs = filteredCtrs } else { rawInput = append(rawInput, candidate.ID()) } } case all: ctrs, err = runtime.GetAllContainers() if err == nil { for _, ctr := range ctrs { rawInput = append(rawInput, ctr.ID()) } } case latest: if isPod { pod, err := runtime.GetLatestPod() if err == nil { podCtrs, err := pod.AllContainers() if err == nil { for _, c := range podCtrs { rawInput = append(rawInput, c.ID()) } ctrs = podCtrs } } } else { ctr, err = runtime.GetLatestContainer() if err == nil { rawInput = append(rawInput, ctr.ID()) ctrs = append(ctrs, ctr) } } default: for _, n := range names { ctr, e := runtime.LookupContainer(n) if e != nil { // Log all errors here, so callers don't need to. logrus.Debugf("Error looking up container %q: %v", n, e) if err == nil { err = e } } else { rawInput = append(rawInput, n) ctrs = append(ctrs, ctr) } } } return ctrs, rawInput, err } // getContainersByContext gets containers whether all, latest, or a slice of names/ids // is specified. func getContainersByContext(all, latest, isPod bool, names []string, runtime *libpod.Runtime) (ctrs []*libpod.Container, err error) { ctrs, _, err = getContainersAndInputByContext(all, latest, isPod, names, nil, runtime) return } // ContainerExists returns whether the container exists in container storage func (ic *ContainerEngine) ContainerExists(ctx context.Context, nameOrID string, options entities.ContainerExistsOptions) (*entities.BoolReport, error) { _, err := ic.Libpod.LookupContainer(nameOrID) if err != nil { if !errors.Is(err, define.ErrNoSuchCtr) { return nil, err } if options.External { // Check if container exists in storage if _, storageErr := ic.Libpod.StorageContainer(nameOrID); storageErr == nil { err = nil } } } return &entities.BoolReport{Value: err == nil}, nil } func (ic *ContainerEngine) ContainerWait(ctx context.Context, namesOrIds []string, options entities.WaitOptions) ([]entities.WaitReport, error) { ctrs, err := getContainersByContext(false, options.Latest, false, namesOrIds, ic.Libpod) if err != nil { return nil, err } responses := make([]entities.WaitReport, 0, len(ctrs)) for _, c := range ctrs { response := entities.WaitReport{Id: c.ID()} if options.Condition == nil { options.Condition = []define.ContainerStatus{define.ContainerStateStopped, define.ContainerStateExited} } exitCode, err := c.WaitForConditionWithInterval(ctx, options.Interval, options.Condition...) if err != nil { response.Error = err } else { response.ExitCode = exitCode } responses = append(responses, response) } return responses, nil } func (ic *ContainerEngine) ContainerPause(ctx context.Context, namesOrIds []string, options entities.PauseUnPauseOptions) ([]*entities.PauseUnpauseReport, error) { ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, options.Filters, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := make([]*entities.PauseUnpauseReport, 0, len(ctrs)) for _, c := range ctrs { err := c.Pause() if err != nil && options.All && errors.Is(err, define.ErrCtrStateInvalid) { logrus.Debugf("Container %s is not running", c.ID()) continue } reports = append(reports, &entities.PauseUnpauseReport{ Id: c.ID(), Err: err, RawInput: idToRawInput[c.ID()], }) } return reports, nil } func (ic *ContainerEngine) ContainerUnpause(ctx context.Context, namesOrIds []string, options entities.PauseUnPauseOptions) ([]*entities.PauseUnpauseReport, error) { ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, options.Filters, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := make([]*entities.PauseUnpauseReport, 0, len(ctrs)) for _, c := range ctrs { err := c.Unpause() if err != nil && options.All && errors.Is(err, define.ErrCtrStateInvalid) { logrus.Debugf("Container %s is not paused", c.ID()) continue } reports = append(reports, &entities.PauseUnpauseReport{ Id: c.ID(), Err: err, RawInput: idToRawInput[c.ID()], }) } return reports, nil } func (ic *ContainerEngine) ContainerStop(ctx context.Context, namesOrIds []string, options entities.StopOptions) ([]*entities.StopReport, error) { names := namesOrIds ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, names, options.Filters, ic.Libpod) if err != nil && !(options.Ignore && errors.Is(err, define.ErrNoSuchCtr)) { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } errMap, err := parallelctr.ContainerOp(ctx, ctrs, func(c *libpod.Container) error { var err error if options.Timeout != nil { err = c.StopWithTimeout(*options.Timeout) } else { err = c.Stop() } if err != nil { switch { case errors.Is(err, define.ErrCtrStopped): logrus.Debugf("Container %s is already stopped", c.ID()) case options.All && errors.Is(err, define.ErrCtrStateInvalid): logrus.Debugf("Container %s is not running, could not stop", c.ID()) // container never created in OCI runtime // docker parity: do nothing just return container id case errors.Is(err, define.ErrCtrStateInvalid): logrus.Debugf("Container %s is either not created on runtime or is in a invalid state", c.ID()) default: return err } } err = c.Cleanup(ctx) if err != nil { // Issue #7384 and #11384: If the container is configured for // auto-removal, it might already have been removed at this point. // We still need to clean up since we do not know if the other cleanup process is successful if c.AutoRemove() && (errors.Is(err, define.ErrNoSuchCtr) || errors.Is(err, define.ErrCtrRemoved)) { return nil } return err } return nil }) if err != nil { return nil, err } reports := make([]*entities.StopReport, 0, len(errMap)) for ctr, err := range errMap { report := new(entities.StopReport) report.Id = ctr.ID() if options.All { report.RawInput = ctr.ID() } else { report.RawInput = idToRawInput[ctr.ID()] } report.Err = err reports = append(reports, report) } return reports, nil } func (ic *ContainerEngine) ContainerPrune(ctx context.Context, options entities.ContainerPruneOptions) ([]*reports.PruneReport, error) { filterFuncs := make([]libpod.ContainerFilter, 0, len(options.Filters)) for k, v := range options.Filters { generatedFunc, err := dfilters.GeneratePruneContainerFilterFuncs(k, v, ic.Libpod) if err != nil { return nil, err } filterFuncs = append(filterFuncs, generatedFunc) } return ic.Libpod.PruneContainers(filterFuncs) } func (ic *ContainerEngine) ContainerKill(ctx context.Context, namesOrIds []string, options entities.KillOptions) ([]*entities.KillReport, error) { sig, err := signal.ParseSignalNameOrNumber(options.Signal) if err != nil { return nil, err } ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, nil, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := make([]*entities.KillReport, 0, len(ctrs)) for _, con := range ctrs { err := con.Kill(uint(sig)) if options.All && errors.Is(err, define.ErrCtrStateInvalid) { logrus.Debugf("Container %s is not running", con.ID()) continue } reports = append(reports, &entities.KillReport{ Id: con.ID(), Err: err, RawInput: idToRawInput[con.ID()], }) } return reports, nil } func (ic *ContainerEngine) ContainerRestart(ctx context.Context, namesOrIds []string, options entities.RestartOptions) ([]*entities.RestartReport, error) { var ( ctrs []*libpod.Container err error rawInputs = []string{} ) if options.Running { ctrs, err = ic.Libpod.GetRunningContainers() for _, candidate := range ctrs { rawInputs = append(rawInputs, candidate.ID()) } if err != nil { return nil, err } } else { ctrs, rawInputs, err = getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, options.Filters, ic.Libpod) if err != nil { return nil, err } } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := make([]*entities.RestartReport, 0, len(ctrs)) for _, c := range ctrs { timeout := c.StopTimeout() if options.Timeout != nil { timeout = *options.Timeout } reports = append(reports, &entities.RestartReport{ Id: c.ID(), Err: c.RestartWithTimeout(ctx, timeout), RawInput: idToRawInput[c.ID()], }) } return reports, nil } func (ic *ContainerEngine) removeContainer(ctx context.Context, ctr *libpod.Container, options entities.RmOptions) error { err := ic.Libpod.RemoveContainer(ctx, ctr, options.Force, options.Volumes, options.Timeout) if err == nil { return nil } logrus.Debugf("Failed to remove container %s: %s", ctr.ID(), err.Error()) if errors.Is(err, define.ErrNoSuchCtr) { // Ignore if the container does not exist (anymore) when either // it has been requested by the user of if the container is a // service one. Service containers are removed along with its // pods which in turn are removed along with their infra // container. Hence, there is an inherent race when removing // infra containers with service containers in parallel. if options.Ignore || ctr.IsService() { logrus.Debugf("Ignoring error (--allow-missing): %v", err) return nil } } else if errors.Is(err, define.ErrCtrRemoved) { return nil } return err } func (ic *ContainerEngine) ContainerRm(ctx context.Context, namesOrIds []string, options entities.RmOptions) ([]*reports.RmReport, error) { rmReports := []*reports.RmReport{} names := namesOrIds // Attempt to remove named containers directly from storage, if container is defined in libpod // this will fail and code will fall through to removing the container from libpod.` tmpNames := []string{} for _, ctr := range names { report := reports.RmReport{Id: ctr} report.Err = ic.Libpod.RemoveStorageContainer(ctr, options.Force) //nolint:gocritic if report.Err == nil { // remove container names that we successfully deleted rmReports = append(rmReports, &report) } else if errors.Is(report.Err, define.ErrNoSuchCtr) || errors.Is(report.Err, define.ErrCtrExists) { // There is still a potential this is a libpod container tmpNames = append(tmpNames, ctr) } else { if _, err := ic.Libpod.LookupContainer(ctr); errors.Is(err, define.ErrNoSuchCtr) { // remove container failed, but not a libpod container rmReports = append(rmReports, &report) continue } // attempt to remove as a libpod container tmpNames = append(tmpNames, ctr) } } names = tmpNames ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, names, options.Filters, ic.Libpod) if err != nil && !(options.Ignore && errors.Is(err, define.ErrNoSuchCtr)) { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } if err != nil && !(options.Ignore && errors.Is(err, define.ErrNoSuchCtr)) { // Failed to get containers. If force is specified, get the containers ID // and evict them if !options.Force { return nil, err } for _, ctr := range names { logrus.Debugf("Evicting container %q", ctr) report := reports.RmReport{ Id: ctr, RawInput: idToRawInput[ctr], } _, err := ic.Libpod.EvictContainer(ctx, ctr, options.Volumes) if err != nil { if options.Ignore && errors.Is(err, define.ErrNoSuchCtr) { logrus.Debugf("Ignoring error (--allow-missing): %v", err) rmReports = append(rmReports, &report) continue } report.Err = err rmReports = append(rmReports, &report) continue } rmReports = append(rmReports, &report) } return rmReports, nil } alreadyRemoved := make(map[string]bool) addReports := func(newReports []*reports.RmReport) { for i := range newReports { alreadyRemoved[newReports[i].Id] = true rmReports = append(rmReports, newReports[i]) } } if !options.All && options.Depend { // Add additional containers based on dependencies to container map for _, ctr := range ctrs { if alreadyRemoved[ctr.ID()] { continue } reports, err := ic.Libpod.RemoveDepend(ctx, ctr, options.Force, options.Volumes, options.Timeout) if err != nil { return rmReports, err } addReports(reports) } return rmReports, nil } // If --all is set, make sure to remove the infra containers' // dependencies before doing the parallel removal below. if options.All { for _, ctr := range ctrs { if alreadyRemoved[ctr.ID()] || !ctr.IsInfra() { continue } reports, err := ic.Libpod.RemoveDepend(ctx, ctr, options.Force, options.Volumes, options.Timeout) if err != nil { return rmReports, err } addReports(reports) } } errMap, err := parallelctr.ContainerOp(ctx, ctrs, func(c *libpod.Container) error { if alreadyRemoved[c.ID()] { return nil } return ic.removeContainer(ctx, c, options) }) if err != nil { return nil, err } for ctr, err := range errMap { if alreadyRemoved[ctr.ID()] { continue } report := new(reports.RmReport) report.Id = ctr.ID() report.Err = err report.RawInput = idToRawInput[ctr.ID()] rmReports = append(rmReports, report) } return rmReports, nil } func (ic *ContainerEngine) ContainerInspect(ctx context.Context, namesOrIds []string, options entities.InspectOptions) ([]*entities.ContainerInspectReport, []error, error) { if options.Latest { ctr, err := ic.Libpod.GetLatestContainer() if err != nil { if errors.Is(err, define.ErrNoSuchCtr) { return nil, []error{fmt.Errorf("no containers to inspect: %w", err)}, nil } return nil, nil, err } inspect, err := ctr.Inspect(options.Size) if err != nil { return nil, nil, err } return []*entities.ContainerInspectReport{ { InspectContainerData: inspect, }, }, nil, nil } var ( reports = make([]*entities.ContainerInspectReport, 0, len(namesOrIds)) errs = []error{} ) for _, name := range namesOrIds { ctr, err := ic.Libpod.LookupContainer(name) if err != nil { // ErrNoSuchCtr is non-fatal, other errors will be // treated as fatal. if errors.Is(err, define.ErrNoSuchCtr) { errs = append(errs, fmt.Errorf("no such container %s", name)) continue } return nil, nil, err } inspect, err := ctr.Inspect(options.Size) if err != nil { // ErrNoSuchCtr is non-fatal, other errors will be // treated as fatal. if errors.Is(err, define.ErrNoSuchCtr) { errs = append(errs, fmt.Errorf("no such container %s", name)) continue } return nil, nil, err } reports = append(reports, &entities.ContainerInspectReport{InspectContainerData: inspect}) } return reports, errs, nil } func (ic *ContainerEngine) ContainerTop(ctx context.Context, options entities.TopOptions) (*entities.StringSliceReport, error) { var ( container *libpod.Container err error ) // Look up the container. if options.Latest { container, err = ic.Libpod.GetLatestContainer() } else { container, err = ic.Libpod.LookupContainer(options.NameOrID) } if err != nil { return nil, fmt.Errorf("unable to look up requested container: %w", err) } // Run Top. report := &entities.StringSliceReport{} report.Value, err = container.Top(options.Descriptors) return report, err } func (ic *ContainerEngine) ContainerCommit(ctx context.Context, nameOrID string, options entities.CommitOptions) (*entities.CommitReport, error) { var ( mimeType string ) ctr, err := ic.Libpod.LookupContainer(nameOrID) if err != nil { return nil, err } rtc, err := ic.Libpod.GetConfig() if err != nil { return nil, err } switch options.Format { case "oci": mimeType = buildah.OCIv1ImageManifest if len(options.Message) > 0 { return nil, fmt.Errorf("messages are only compatible with the docker image format (-f docker)") } case "docker": mimeType = manifest.DockerV2Schema2MediaType default: return nil, fmt.Errorf("unrecognized image format %q", options.Format) } sc := ic.Libpod.SystemContext() coptions := buildah.CommitOptions{ SignaturePolicyPath: rtc.Engine.SignaturePolicyPath, ReportWriter: options.Writer, SystemContext: sc, PreferredManifestType: mimeType, } opts := libpod.ContainerCommitOptions{ CommitOptions: coptions, Pause: options.Pause, IncludeVolumes: options.IncludeVolumes, Message: options.Message, Changes: options.Changes, Author: options.Author, Squash: options.Squash, } newImage, err := ctr.Commit(ctx, options.ImageName, opts) if err != nil { return nil, err } return &entities.CommitReport{Id: newImage.ID()}, nil } func (ic *ContainerEngine) ContainerExport(ctx context.Context, nameOrID string, options entities.ContainerExportOptions) error { ctr, err := ic.Libpod.LookupContainer(nameOrID) if err != nil { return err } return ctr.Export(options.Output) } func (ic *ContainerEngine) ContainerCheckpoint(ctx context.Context, namesOrIds []string, options entities.CheckpointOptions) ([]*entities.CheckpointReport, error) { var ( ctrs []*libpod.Container rawInputs []string err error ) checkOpts := libpod.ContainerCheckpointOptions{ Keep: options.Keep, TCPEstablished: options.TCPEstablished, TargetFile: options.Export, IgnoreRootfs: options.IgnoreRootFS, IgnoreVolumes: options.IgnoreVolumes, KeepRunning: options.LeaveRunning, PreCheckPoint: options.PreCheckPoint, WithPrevious: options.WithPrevious, Compression: options.Compression, PrintStats: options.PrintStats, FileLocks: options.FileLocks, CreateImage: options.CreateImage, } idToRawInput := map[string]string{} if options.All { running := func(c *libpod.Container) bool { state, _ := c.State() return state == define.ContainerStateRunning } ctrs, err = ic.Libpod.GetContainers(running) if err != nil { return nil, err } } else { ctrs, rawInputs, err = getContainersAndInputByContext(false, options.Latest, false, namesOrIds, nil, ic.Libpod) if err != nil { return nil, err } if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } } reports := make([]*entities.CheckpointReport, 0, len(ctrs)) for _, c := range ctrs { criuStatistics, runtimeCheckpointDuration, err := c.Checkpoint(ctx, checkOpts) reports = append(reports, &entities.CheckpointReport{ Err: err, Id: c.ID(), RawInput: idToRawInput[c.ID()], RuntimeDuration: runtimeCheckpointDuration, CRIUStatistics: criuStatistics, }) } return reports, nil } func (ic *ContainerEngine) ContainerRestore(ctx context.Context, namesOrIds []string, options entities.RestoreOptions) ([]*entities.RestoreReport, error) { var ( ctrs []*libpod.Container checkpointImageImportErrors []error err error ) restoreOptions := libpod.ContainerCheckpointOptions{ Keep: options.Keep, TCPEstablished: options.TCPEstablished, TargetFile: options.Import, Name: options.Name, IgnoreRootfs: options.IgnoreRootFS, IgnoreVolumes: options.IgnoreVolumes, IgnoreStaticIP: options.IgnoreStaticIP, IgnoreStaticMAC: options.IgnoreStaticMAC, ImportPrevious: options.ImportPrevious, Pod: options.Pod, PrintStats: options.PrintStats, FileLocks: options.FileLocks, } filterFuncs := []libpod.ContainerFilter{ func(c *libpod.Container) bool { state, _ := c.State() return state == define.ContainerStateExited }, } idToRawInput := map[string]string{} switch { case options.Import != "": ctrs, err = checkpoint.CRImportCheckpointTar(ctx, ic.Libpod, options) case options.All: ctrs, err = ic.Libpod.GetContainers(filterFuncs...) case options.Latest: ctrs, err = getContainersByContext(false, options.Latest, false, namesOrIds, ic.Libpod) default: for _, nameOrID := range namesOrIds { logrus.Debugf("look up container: %q", nameOrID) c, err := ic.Libpod.LookupContainer(nameOrID) if err == nil { ctrs = append(ctrs, c) idToRawInput[c.ID()] = nameOrID } else { // If container was not found, check if this is a checkpoint image logrus.Debugf("look up image: %q", nameOrID) img, _, err := ic.Libpod.LibimageRuntime().LookupImage(nameOrID, nil) if err != nil { return nil, fmt.Errorf("no such container or image: %s", nameOrID) } restoreOptions.CheckpointImageID = img.ID() mountPoint, err := img.Mount(ctx, nil, "") defer func() { if err := img.Unmount(true); err != nil { logrus.Errorf("Failed to unmount image: %v", err) } }() if err != nil { return nil, err } importedCtrs, err := checkpoint.CRImportCheckpoint(ctx, ic.Libpod, options, mountPoint) if err != nil { // CRImportCheckpoint is expected to import exactly one container from checkpoint image checkpointImageImportErrors = append( checkpointImageImportErrors, fmt.Errorf("unable to import checkpoint from image: %q: %v", nameOrID, err), ) } else { ctrs = append(ctrs, importedCtrs[0]) } } } } if err != nil { return nil, err } reports := make([]*entities.RestoreReport, 0, len(ctrs)) for _, c := range ctrs { criuStatistics, runtimeRestoreDuration, err := c.Restore(ctx, restoreOptions) reports = append(reports, &entities.RestoreReport{ Err: err, Id: c.ID(), RawInput: idToRawInput[c.ID()], RuntimeDuration: runtimeRestoreDuration, CRIUStatistics: criuStatistics, }) } for _, importErr := range checkpointImageImportErrors { reports = append(reports, &entities.RestoreReport{ Err: importErr, }) } return reports, nil } func (ic *ContainerEngine) ContainerCreate(ctx context.Context, s *specgen.SpecGenerator) (*entities.ContainerCreateReport, error) { warn, err := generate.CompleteSpec(ctx, ic.Libpod, s) if err != nil { return nil, err } // Print warnings for _, w := range warn { fmt.Fprintf(os.Stderr, "%s\n", w) } rtSpec, spec, opts, err := generate.MakeContainer(context.Background(), ic.Libpod, s, false, nil) if err != nil { return nil, err } ctr, err := generate.ExecuteCreate(ctx, ic.Libpod, rtSpec, spec, false, opts...) if err != nil { return nil, err } return &entities.ContainerCreateReport{Id: ctr.ID()}, nil } func (ic *ContainerEngine) ContainerAttach(ctx context.Context, nameOrID string, options entities.AttachOptions) error { ctrs, err := getContainersByContext(false, options.Latest, false, []string{nameOrID}, ic.Libpod) if err != nil { return err } ctr := ctrs[0] conState, err := ctr.State() if err != nil { return fmt.Errorf("unable to determine state of %s: %w", ctr.ID(), err) } if conState != define.ContainerStateRunning { return fmt.Errorf("you can only attach to running containers") } // If the container is in a pod, also set to recursively start dependencies err = terminal.StartAttachCtr(ctx, ctr, options.Stdout, options.Stderr, options.Stdin, options.DetachKeys, options.SigProxy, false) if err != nil && !errors.Is(err, define.ErrDetach) { return fmt.Errorf("attaching to container %s: %w", ctr.ID(), err) } os.Stdout.WriteString("\n") return nil } func makeExecConfig(options entities.ExecOptions, rt *libpod.Runtime) (*libpod.ExecConfig, error) { execConfig := new(libpod.ExecConfig) execConfig.Command = options.Cmd execConfig.Terminal = options.Tty execConfig.Privileged = options.Privileged execConfig.Environment = options.Envs execConfig.User = options.User execConfig.WorkDir = options.WorkDir execConfig.DetachKeys = &options.DetachKeys execConfig.PreserveFDs = options.PreserveFDs execConfig.AttachStdin = options.Interactive // Make an exit command storageConfig := rt.StorageConfig() runtimeConfig, err := rt.GetConfig() if err != nil { return nil, fmt.Errorf("retrieving Libpod configuration to build exec exit command: %w", err) } // TODO: Add some ability to toggle syslog exitCommandArgs, err := specgenutil.CreateExitCommandArgs(storageConfig, runtimeConfig, logrus.IsLevelEnabled(logrus.DebugLevel), false, true) if err != nil { return nil, fmt.Errorf("constructing exit command for exec session: %w", err) } execConfig.ExitCommand = exitCommandArgs return execConfig, nil } func checkExecPreserveFDs(options entities.ExecOptions) error { if options.PreserveFDs > 0 { entries, err := os.ReadDir("/proc/self/fd") if err != nil { return err } m := make(map[int]bool) for _, e := range entries { i, err := strconv.Atoi(e.Name()) if err != nil { return fmt.Errorf("cannot parse %s in /proc/self/fd: %w", e.Name(), err) } m[i] = true } for i := 3; i < 3+int(options.PreserveFDs); i++ { if _, found := m[i]; !found { return errors.New("invalid --preserve-fds=N specified. Not enough FDs available") } } } return nil } func (ic *ContainerEngine) ContainerExec(ctx context.Context, nameOrID string, options entities.ExecOptions, streams define.AttachStreams) (int, error) { ec := define.ExecErrorCodeGeneric err := checkExecPreserveFDs(options) if err != nil { return ec, err } ctrs, err := getContainersByContext(false, options.Latest, false, []string{nameOrID}, ic.Libpod) if err != nil { return ec, err } ctr := ctrs[0] execConfig, err := makeExecConfig(options, ic.Libpod) if err != nil { return ec, err } ec, err = terminal.ExecAttachCtr(ctx, ctr, execConfig, &streams) return define.TranslateExecErrorToExitCode(ec, err), err } func (ic *ContainerEngine) ContainerExecDetached(ctx context.Context, nameOrID string, options entities.ExecOptions) (string, error) { err := checkExecPreserveFDs(options) if err != nil { return "", err } ctrs, err := getContainersByContext(false, options.Latest, false, []string{nameOrID}, ic.Libpod) if err != nil { return "", err } ctr := ctrs[0] execConfig, err := makeExecConfig(options, ic.Libpod) if err != nil { return "", err } // Create and start the exec session id, err := ctr.ExecCreate(execConfig) if err != nil { return "", err } // TODO: we should try and retrieve exit code if this fails. if err := ctr.ExecStart(id); err != nil { return "", err } return id, nil } func (ic *ContainerEngine) ContainerStart(ctx context.Context, namesOrIds []string, options entities.ContainerStartOptions) ([]*entities.ContainerStartReport, error) { reports := []*entities.ContainerStartReport{} var exitCode = define.ExecErrorCodeGeneric ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, options.Filters, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } // There can only be one container if attach was used for i := range ctrs { ctr := ctrs[i] ctrState, err := ctr.State() if err != nil { return nil, err } ctrRunning := ctrState == define.ContainerStateRunning if options.Attach { err = terminal.StartAttachCtr(ctx, ctr, options.Stdout, options.Stderr, options.Stdin, options.DetachKeys, options.SigProxy, !ctrRunning) if errors.Is(err, define.ErrDetach) { // User manually detached // Exit cleanly immediately reports = append(reports, &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], Err: nil, ExitCode: 0, }) return reports, nil } if errors.Is(err, define.ErrWillDeadlock) { logrus.Debugf("Deadlock error: %v", err) reports = append(reports, &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], Err: err, ExitCode: define.ExitCode(err), }) return reports, fmt.Errorf("attempting to start container %s would cause a deadlock; please run 'podman system renumber' to resolve", ctr.ID()) } if ctrRunning { reports = append(reports, &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], Err: nil, ExitCode: 0, }) return reports, err } if err != nil { reports = append(reports, &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], Err: err, ExitCode: exitCode, }) if ctr.AutoRemove() { if err := ic.removeContainer(ctx, ctr, entities.RmOptions{}); err != nil { logrus.Errorf("Removing container %s: %v", ctr.ID(), err) } } return reports, fmt.Errorf("unable to start container %s: %w", ctr.ID(), err) } exitCode = ic.GetContainerExitCode(ctx, ctr) reports = append(reports, &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], Err: err, ExitCode: exitCode, }) return reports, nil } // end attach // Start the container if it's not running already. if !ctrRunning { // Handle non-attach start // If the container is in a pod, also set to recursively start dependencies report := &entities.ContainerStartReport{ Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()], ExitCode: 125, } if err := ctr.Start(ctx, true); err != nil { report.Err = err if errors.Is(err, define.ErrWillDeadlock) { report.Err = fmt.Errorf("please run 'podman system renumber' to resolve deadlocks: %w", err) reports = append(reports, report) continue } report.Err = fmt.Errorf("unable to start container %q: %w", ctr.ID(), err) reports = append(reports, report) if ctr.AutoRemove() { if err := ic.removeContainer(ctx, ctr, entities.RmOptions{}); err != nil { logrus.Errorf("Removing container %s: %v", ctr.ID(), err) } } continue } report.ExitCode = 0 reports = append(reports, report) } } return reports, nil } func (ic *ContainerEngine) ContainerList(ctx context.Context, options entities.ContainerListOptions) ([]entities.ListContainer, error) { if options.Latest { options.Last = 1 } return ps.GetContainerLists(ic.Libpod, options) } func (ic *ContainerEngine) ContainerListExternal(ctx context.Context) ([]entities.ListContainer, error) { return ps.GetExternalContainerLists(ic.Libpod) } // Diff provides changes to given container func (ic *ContainerEngine) Diff(ctx context.Context, namesOrIDs []string, opts entities.DiffOptions) (*entities.DiffReport, error) { var ( base string parent string ) if opts.Latest { ctnr, err := ic.Libpod.GetLatestContainer() if err != nil { return nil, fmt.Errorf("unable to get latest container: %w", err) } base = ctnr.ID() } if len(namesOrIDs) > 0 { base = namesOrIDs[0] if len(namesOrIDs) > 1 { parent = namesOrIDs[1] } } changes, err := ic.Libpod.GetDiff(parent, base, opts.Type) return &entities.DiffReport{Changes: changes}, err } func (ic *ContainerEngine) ContainerRun(ctx context.Context, opts entities.ContainerRunOptions) (*entities.ContainerRunReport, error) { removeContainer := func(ctr *libpod.Container, force bool) error { var timeout *uint if err := ic.Libpod.RemoveContainer(ctx, ctr, force, true, timeout); err != nil { logrus.Debugf("unable to remove container %s after failing to start and attach to it: %v", ctr.ID(), err) return err } return nil } warn, err := generate.CompleteSpec(ctx, ic.Libpod, opts.Spec) if err != nil { return nil, err } // Print warnings for _, w := range warn { fmt.Fprintf(os.Stderr, "%s\n", w) } rtSpec, spec, optsN, err := generate.MakeContainer(ctx, ic.Libpod, opts.Spec, false, nil) if err != nil { return nil, err } ctr, err := generate.ExecuteCreate(ctx, ic.Libpod, rtSpec, spec, false, optsN...) if err != nil { return nil, err } if opts.CIDFile != "" { if err := util.CreateCidFile(opts.CIDFile, ctr.ID()); err != nil { // If you fail to create CIDFile then remove the container _ = removeContainer(ctr, true) return nil, err } } report := entities.ContainerRunReport{Id: ctr.ID()} if logrus.GetLevel() == logrus.DebugLevel { cgroupPath, err := ctr.CgroupPath() if err == nil { logrus.Debugf("container %q has CgroupParent %q", ctr.ID(), cgroupPath) } } if opts.Detach { // if the container was created as part of a pod, also start its dependencies, if any. if err := ctr.Start(ctx, true); err != nil { // This means the command did not exist report.ExitCode = define.ExitCode(err) if opts.Rm { if rmErr := removeContainer(ctr, true); rmErr != nil && !errors.Is(rmErr, define.ErrNoSuchCtr) { logrus.Errorf("Container %s failed to be removed", ctr.ID()) } } return &report, err } return &report, nil } // if the container was created as part of a pod, also start its dependencies, if any. if err := terminal.StartAttachCtr(ctx, ctr, opts.OutputStream, opts.ErrorStream, opts.InputStream, opts.DetachKeys, opts.SigProxy, true); err != nil { // We've manually detached from the container // Do not perform cleanup, or wait for container exit code // Just exit immediately if errors.Is(err, define.ErrDetach) { report.ExitCode = 0 return &report, nil } if opts.Rm { _ = removeContainer(ctr, true) } if errors.Is(err, define.ErrWillDeadlock) { logrus.Debugf("Deadlock error on %q: %v", ctr.ID(), err) report.ExitCode = define.ExitCode(err) return &report, fmt.Errorf("attempting to start container %s would cause a deadlock; please run 'podman system renumber' to resolve", ctr.ID()) } report.ExitCode = define.ExitCode(err) return &report, err } report.ExitCode = ic.GetContainerExitCode(ctx, ctr) if opts.Rm && !ctr.ShouldRestart(ctx) { if err := removeContainer(ctr, false); err != nil { if errors.Is(err, define.ErrNoSuchCtr) || errors.Is(err, define.ErrCtrRemoved) { logrus.Infof("Container %s was already removed, skipping --rm", ctr.ID()) } else { logrus.Errorf("Removing container %s: %v", ctr.ID(), err) } } } return &report, nil } func (ic *ContainerEngine) GetContainerExitCode(ctx context.Context, ctr *libpod.Container) int { exitCode, err := ctr.Wait(ctx) if err != nil { logrus.Errorf("Waiting for container %s: %v", ctr.ID(), err) return define.ExecErrorCodeNotFound } return int(exitCode) } func (ic *ContainerEngine) ContainerLogs(ctx context.Context, containers []string, options entities.ContainerLogsOptions) error { if options.StdoutWriter == nil && options.StderrWriter == nil { return errors.New("no io.Writer set for container logs") } var wg sync.WaitGroup isPod := false for _, c := range containers { ctr, err := ic.Libpod.LookupContainer(c) if err != nil { return err } if ctr.IsInfra() { isPod = true break } } ctrs, err := getContainersByContext(false, options.Latest, isPod, containers, ic.Libpod) if err != nil { return err } logOpts := &logs.LogOptions{ Multi: len(ctrs) > 1, Details: options.Details, Follow: options.Follow, Since: options.Since, Until: options.Until, Tail: options.Tail, Timestamps: options.Timestamps, Colors: options.Colors, UseName: options.Names, WaitGroup: &wg, } chSize := len(ctrs) * int(options.Tail) if chSize <= 0 { chSize = 1 } logChannel := make(chan *logs.LogLine, chSize) if err := ic.Libpod.Log(ctx, ctrs, logOpts, logChannel); err != nil { return err } go func() { wg.Wait() close(logChannel) }() for line := range logChannel { line.Write(options.StdoutWriter, options.StderrWriter, logOpts) } return nil } func (ic *ContainerEngine) ContainerCleanup(ctx context.Context, namesOrIds []string, options entities.ContainerCleanupOptions) ([]*entities.ContainerCleanupReport, error) { ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, nil, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := []*entities.ContainerCleanupReport{} for _, ctr := range ctrs { var err error report := entities.ContainerCleanupReport{Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()]} if options.Exec != "" { if options.Remove { if err := ctr.ExecRemove(options.Exec, false); err != nil { return nil, err } } else { if err := ctr.ExecCleanup(options.Exec); err != nil { return nil, err } } return []*entities.ContainerCleanupReport{}, nil } if options.Remove && !ctr.ShouldRestart(ctx) { var timeout *uint err = ic.Libpod.RemoveContainer(ctx, ctr, false, true, timeout) if err != nil { report.RmErr = fmt.Errorf("failed to clean up and remove container %v: %w", ctr.ID(), err) } } else { err := ctr.Cleanup(ctx) if err != nil { report.CleanErr = fmt.Errorf("failed to clean up container %v: %w", ctr.ID(), err) } } if options.RemoveImage { _, imageName := ctr.Image() imageEngine := ImageEngine{Libpod: ic.Libpod} _, rmErrors := imageEngine.Remove(ctx, []string{imageName}, entities.ImageRemoveOptions{}) report.RmiErr = errorhandling.JoinErrors(rmErrors) } reports = append(reports, &report) } return reports, nil } func (ic *ContainerEngine) ContainerInit(ctx context.Context, namesOrIds []string, options entities.ContainerInitOptions) ([]*entities.ContainerInitReport, error) { ctrs, rawInputs, err := getContainersAndInputByContext(options.All, options.Latest, false, namesOrIds, nil, ic.Libpod) if err != nil { return nil, err } idToRawInput := map[string]string{} if len(rawInputs) == len(ctrs) { for i := range ctrs { idToRawInput[ctrs[i].ID()] = rawInputs[i] } } reports := make([]*entities.ContainerInitReport, 0, len(ctrs)) for _, ctr := range ctrs { report := entities.ContainerInitReport{Id: ctr.ID(), RawInput: idToRawInput[ctr.ID()]} err := ctr.Init(ctx, ctr.PodID() != "") // If we're initializing all containers, ignore invalid state errors if options.All && errors.Is(err, define.ErrCtrStateInvalid) { err = nil } report.Err = err reports = append(reports, &report) } return reports, nil } func (ic *ContainerEngine) ContainerMount(ctx context.Context, nameOrIDs []string, options entities.ContainerMountOptions) ([]*entities.ContainerMountReport, error) { if os.Geteuid() != 0 { if driver := ic.Libpod.StorageConfig().GraphDriverName; driver != "vfs" { // Do not allow to mount a graphdriver that is not vfs if we are creating the userns as part // of the mount command. return nil, fmt.Errorf("cannot mount using driver %s in rootless mode", driver) } became, ret, err := rootless.BecomeRootInUserNS("") if err != nil { return nil, err } if became { os.Exit(ret) } } reports := []*entities.ContainerMountReport{} // Attempt to mount named containers directly from storage, // this will fail and code will fall through to removing the container from libpod.` names := []string{} for _, ctr := range nameOrIDs { report := entities.ContainerMountReport{Id: ctr} if report.Path, report.Err = ic.Libpod.MountStorageContainer(ctr); report.Err != nil { names = append(names, ctr) } else { reports = append(reports, &report) } } ctrs, err := getContainersByContext(options.All, options.Latest, false, names, ic.Libpod) if err != nil { return nil, err } for _, ctr := range ctrs { report := entities.ContainerMountReport{Id: ctr.ID()} report.Path, report.Err = ctr.Mount() reports = append(reports, &report) } if len(reports) > 0 { return reports, nil } storageCtrs, err := ic.Libpod.StorageContainers() if err != nil { return nil, err } for _, sctr := range storageCtrs { mounted, path, err := ic.Libpod.IsStorageContainerMounted(sctr.ID) if err != nil { return nil, err } var name string if len(sctr.Names) > 0 { name = sctr.Names[0] } if mounted { reports = append(reports, &entities.ContainerMountReport{ Id: sctr.ID, Name: name, Path: path, }) } } // No containers were passed, so we send back what is mounted ctrs, err = getContainersByContext(true, false, false, []string{}, ic.Libpod) if err != nil { return nil, err } for _, ctr := range ctrs { mounted, path, err := ctr.Mounted() if err != nil { return nil, err } if mounted { reports = append(reports, &entities.ContainerMountReport{ Id: ctr.ID(), Name: ctr.Name(), Path: path, }) } } return reports, nil } func (ic *ContainerEngine) ContainerUnmount(ctx context.Context, nameOrIDs []string, options entities.ContainerUnmountOptions) ([]*entities.ContainerUnmountReport, error) { reports := []*entities.ContainerUnmountReport{} names := []string{} if options.All { storageCtrs, err := ic.Libpod.StorageContainers() if err != nil { return nil, err } for _, sctr := range storageCtrs { mounted, _, _ := ic.Libpod.IsStorageContainerMounted(sctr.ID) if mounted { report := entities.ContainerUnmountReport{Id: sctr.ID} if _, report.Err = ic.Libpod.UnmountStorageContainer(sctr.ID, options.Force); report.Err != nil { if !errors.Is(report.Err, define.ErrCtrExists) { reports = append(reports, &report) } } else { reports = append(reports, &report) } } } } for _, ctr := range nameOrIDs { report := entities.ContainerUnmountReport{Id: ctr} if _, report.Err = ic.Libpod.UnmountStorageContainer(ctr, options.Force); report.Err != nil { names = append(names, ctr) } else { reports = append(reports, &report) } } ctrs, err := getContainersByContext(options.All, options.Latest, false, names, ic.Libpod) if err != nil { return nil, err } for _, ctr := range ctrs { state, err := ctr.State() if err != nil { logrus.Debugf("Error umounting container %s state: %s", ctr.ID(), err.Error()) continue } if state == define.ContainerStateRunning { logrus.Debugf("Error umounting container %s, is running", ctr.ID()) continue } report := entities.ContainerUnmountReport{Id: ctr.ID()} if err := ctr.Unmount(options.Force); err != nil { if options.All && errors.Is(err, storage.ErrLayerNotMounted) { logrus.Debugf("Error umounting container %s, storage.ErrLayerNotMounted", ctr.ID()) continue } report.Err = fmt.Errorf("unmounting container %s: %w", ctr.ID(), err) } reports = append(reports, &report) } return reports, nil } // GetConfig returns a copy of the configuration used by the runtime func (ic *ContainerEngine) Config(_ context.Context) (*config.Config, error) { return ic.Libpod.GetConfig() } func (ic *ContainerEngine) ContainerPort(ctx context.Context, nameOrID string, options entities.ContainerPortOptions) ([]*entities.ContainerPortReport, error) { ctrs, err := getContainersByContext(options.All, options.Latest, false, []string{nameOrID}, ic.Libpod) if err != nil { return nil, err } reports := []*entities.ContainerPortReport{} for _, con := range ctrs { state, err := con.State() if err != nil { return nil, err } if state != define.ContainerStateRunning { continue } portmappings, err := con.PortMappings() if err != nil { return nil, err } if len(portmappings) > 0 { reports = append(reports, &entities.ContainerPortReport{ Id: con.ID(), Ports: portmappings, }) } } return reports, nil } // Shutdown Libpod engine func (ic *ContainerEngine) Shutdown(_ context.Context) { shutdownSync.Do(func() { _ = ic.Libpod.Shutdown(false) }) } func (ic *ContainerEngine) ContainerStats(ctx context.Context, namesOrIds []string, options entities.ContainerStatsOptions) (statsChan chan entities.ContainerStatsReport, err error) { if options.Interval < 1 { return nil, errors.New("invalid interval, must be a positive number greater zero") } if rootless.IsRootless() { unified, err := cgroups.IsCgroup2UnifiedMode() if err != nil { return nil, err } if !unified { return nil, errors.New("stats is not supported in rootless mode without cgroups v2") } } statsChan = make(chan entities.ContainerStatsReport, 1) containerFunc := ic.Libpod.GetRunningContainers queryAll := false switch { case options.Latest: containerFunc = func() ([]*libpod.Container, error) { lastCtr, err := ic.Libpod.GetLatestContainer() if err != nil { return nil, err } return []*libpod.Container{lastCtr}, nil } case len(namesOrIds) > 0: containerFunc = func() ([]*libpod.Container, error) { return ic.Libpod.GetContainersByList(namesOrIds) } default: // No containers, no latest -> query all! queryAll = true containerFunc = ic.Libpod.GetAllContainers } go func() { defer close(statsChan) var ( err error containers []*libpod.Container containerStats map[string]*define.ContainerStats ) containerStats = make(map[string]*define.ContainerStats) stream: // label to flatten the scope select { case <-ctx.Done(): // client cancelled logrus.Debugf("Container stats stopped: context cancelled") return default: // just fall through and do work } // Anonymous func to easily use the return values for streaming. computeStats := func() ([]define.ContainerStats, error) { containers, err = containerFunc() if err != nil { return nil, fmt.Errorf("unable to get list of containers: %w", err) } reportStats := []define.ContainerStats{} for _, ctr := range containers { stats, err := ctr.GetContainerStats(containerStats[ctr.ID()]) if err != nil { if queryAll && (errors.Is(err, define.ErrCtrRemoved) || errors.Is(err, define.ErrNoSuchCtr) || errors.Is(err, define.ErrCtrStateInvalid)) { continue } if errors.Is(err, cgroups.ErrCgroupV1Rootless) { err = cgroups.ErrCgroupV1Rootless } return nil, err } containerStats[ctr.ID()] = stats reportStats = append(reportStats, *stats) } return reportStats, nil } report := entities.ContainerStatsReport{} report.Stats, report.Error = computeStats() statsChan <- report if report.Error != nil || !options.Stream { return } time.Sleep(time.Second * time.Duration(options.Interval)) goto stream }() return statsChan, nil } // ShouldRestart returns whether the container should be restarted func (ic *ContainerEngine) ShouldRestart(ctx context.Context, nameOrID string) (*entities.BoolReport, error) { ctr, err := ic.Libpod.LookupContainer(nameOrID) if err != nil { return nil, err } return &entities.BoolReport{Value: ctr.ShouldRestart(ctx)}, nil } // ContainerRename renames the given container. func (ic *ContainerEngine) ContainerRename(ctx context.Context, nameOrID string, opts entities.ContainerRenameOptions) error { ctr, err := ic.Libpod.LookupContainer(nameOrID) if err != nil { return err } if _, err := ic.Libpod.RenameContainer(ctx, ctr, opts.NewName); err != nil { return err } return nil } func (ic *ContainerEngine) ContainerClone(ctx context.Context, ctrCloneOpts entities.ContainerCloneOptions) (*entities.ContainerCreateReport, error) { spec := specgen.NewSpecGenerator(ctrCloneOpts.Image, ctrCloneOpts.CreateOpts.RootFS) var c *libpod.Container c, _, err := generate.ConfigToSpec(ic.Libpod, spec, ctrCloneOpts.ID) if err != nil { return nil, err } if ctrCloneOpts.CreateOpts.Pod != "" { pod, err := ic.Libpod.LookupPod(ctrCloneOpts.CreateOpts.Pod) if err != nil { return nil, err } if len(spec.Networks) > 0 && pod.SharesNet() { logrus.Warning("resetting network config, cannot specify a network other than the pod's when sharing the net namespace") spec.Networks = nil spec.NetworkOptions = nil } allNamespaces := []struct { isShared bool value *specgen.Namespace }{ {pod.SharesPID(), &spec.PidNS}, {pod.SharesNet(), &spec.NetNS}, {pod.SharesCgroup(), &spec.CgroupNS}, {pod.SharesIPC(), &spec.IpcNS}, {pod.SharesUTS(), &spec.UtsNS}, } printWarning := false for _, n := range allNamespaces { if n.isShared && !n.value.IsDefault() { *n.value = specgen.Namespace{NSMode: specgen.Default} printWarning = true } } if printWarning { logrus.Warning("At least one namespace was reset to the default configuration") } } err = specgenutil.FillOutSpecGen(spec, &ctrCloneOpts.CreateOpts, []string{}) if err != nil { return nil, err } out, err := generate.CompleteSpec(ctx, ic.Libpod, spec) if err != nil { return nil, err } conf := c.Config() if conf.Spec != nil && conf.Spec.Process != nil && conf.Spec.Process.Terminal { // if we do not pass term, running ctrs exit spec.Terminal = true } // Print warnings if len(out) > 0 { for _, w := range out { fmt.Println("Could not properly complete the spec as expected:") fmt.Fprintf(os.Stderr, "%s\n", w) } } if len(ctrCloneOpts.CreateOpts.Name) > 0 { spec.Name = ctrCloneOpts.CreateOpts.Name } else { n := c.Name() _, err := ic.Libpod.LookupContainer(c.Name() + "-clone") if err == nil { n += "-clone" } spec.Name = generate.CheckName(ic.Libpod, n, true) } rtSpec, spec, opts, err := generate.MakeContainer(context.Background(), ic.Libpod, spec, true, c) if err != nil { return nil, err } ctr, err := generate.ExecuteCreate(ctx, ic.Libpod, rtSpec, spec, false, opts...) if err != nil { return nil, err } if ctrCloneOpts.Destroy { var time *uint err = ic.Libpod.RemoveContainer(context.Background(), c, ctrCloneOpts.Force, false, time) if err != nil { return nil, err } } if ctrCloneOpts.Run { if err := ctr.Start(ctx, true); err != nil { return nil, err } } return &entities.ContainerCreateReport{Id: ctr.ID()}, nil } // ContainerUpdate finds and updates the given container's cgroup config with the specified options func (ic *ContainerEngine) ContainerUpdate(ctx context.Context, updateOptions *entities.ContainerUpdateOptions) (string, error) { err := specgen.WeightDevices(updateOptions.Specgen) if err != nil { return "", err } err = specgen.FinishThrottleDevices(updateOptions.Specgen) if err != nil { return "", err } ctrs, err := getContainersByContext(false, false, false, []string{updateOptions.NameOrID}, ic.Libpod) if err != nil { return "", err } if len(ctrs) != 1 { return "", fmt.Errorf("container not found") } if err = ctrs[0].Update(updateOptions.Specgen.ResourceLimits); err != nil { return "", err } return ctrs[0].ID(), nil }