package shared import ( "context" "fmt" "io" "os" "path/filepath" "regexp" "sort" "strconv" "strings" "sync" "time" "github.com/containers/image/v5/types" "github.com/containers/libpod/libpod" "github.com/containers/libpod/libpod/define" "github.com/containers/libpod/libpod/image" "github.com/containers/libpod/pkg/util" "github.com/cri-o/ocicni/pkg/ocicni" "github.com/docker/go-units" "github.com/google/shlex" "github.com/pkg/errors" "github.com/sirupsen/logrus" v1 "k8s.io/api/core/v1" ) const ( cidTruncLength = 12 podTruncLength = 12 cmdTruncLength = 17 ) // PsOptions describes the struct being formed for ps. type PsOptions struct { All bool Format string Last int Latest bool NoTrunc bool Pod bool Quiet bool Size bool Sort string Namespace bool Sync bool } // BatchContainerStruct is the return object from BatchContainer and contains // container related information. type BatchContainerStruct struct { ConConfig *libpod.ContainerConfig ConState define.ContainerStatus ExitCode int32 Exited bool Pid int StartedTime time.Time ExitedTime time.Time Size *ContainerSize } // PsContainerOutput is the struct being returned from a parallel // batch operation. type PsContainerOutput struct { ID string Image string Command string Created string Ports string Names string IsInfra bool Status string State define.ContainerStatus Pid int Size *ContainerSize Pod string CreatedAt time.Time ExitedAt time.Time StartedAt time.Time Labels map[string]string PID string Cgroup string IPC string MNT string NET string PIDNS string User string UTS string Mounts string } // Namespace describes output for ps namespace. type Namespace struct { PID string `json:"pid,omitempty"` Cgroup string `json:"cgroup,omitempty"` IPC string `json:"ipc,omitempty"` MNT string `json:"mnt,omitempty"` NET string `json:"net,omitempty"` PIDNS string `json:"pidns,omitempty"` User string `json:"user,omitempty"` UTS string `json:"uts,omitempty"` } // ContainerSize holds the size of the container's root filesystem and top // read-write layer. type ContainerSize struct { RootFsSize int64 `json:"rootFsSize"` RwSize int64 `json:"rwSize"` } // NewBatchContainer runs a batch process under one lock to get container information and only // be called in PBatch. func NewBatchContainer(ctr *libpod.Container, opts PsOptions) (PsContainerOutput, error) { var ( conState define.ContainerStatus command string created string status string exitedAt time.Time startedAt time.Time exitCode int32 err error pid int size *ContainerSize ns *Namespace pso PsContainerOutput ) batchErr := ctr.Batch(func(c *libpod.Container) error { if opts.Sync { if err := c.Sync(); err != nil { return err } } conState, err = c.State() if err != nil { return errors.Wrapf(err, "unable to obtain container state") } command = strings.Join(c.Command(), " ") created = units.HumanDuration(time.Since(c.CreatedTime())) + " ago" exitCode, _, err = c.ExitCode() if err != nil { return errors.Wrapf(err, "unable to obtain container exit code") } startedAt, err = c.StartedTime() if err != nil { logrus.Errorf("error getting started time for %q: %v", c.ID(), err) } exitedAt, err = c.FinishedTime() if err != nil { logrus.Errorf("error getting exited time for %q: %v", c.ID(), err) } if opts.Namespace { pid, err = c.PID() if err != nil { return errors.Wrapf(err, "unable to obtain container pid") } ns = GetNamespaces(pid) } if opts.Size { size = new(ContainerSize) rootFsSize, err := c.RootFsSize() if err != nil { logrus.Errorf("error getting root fs size for %q: %v", c.ID(), err) } rwSize, err := c.RWSize() if err != nil { logrus.Errorf("error getting rw size for %q: %v", c.ID(), err) } size.RootFsSize = rootFsSize size.RwSize = rwSize } return nil }) if batchErr != nil { return pso, batchErr } switch conState.String() { case define.ContainerStateExited.String(): fallthrough case define.ContainerStateStopped.String(): exitedSince := units.HumanDuration(time.Since(exitedAt)) status = fmt.Sprintf("Exited (%d) %s ago", exitCode, exitedSince) case define.ContainerStateRunning.String(): status = "Up " + units.HumanDuration(time.Since(startedAt)) + " ago" case define.ContainerStatePaused.String(): status = "Paused" case define.ContainerStateCreated.String(), define.ContainerStateConfigured.String(): status = "Created" default: status = "Error" } _, imageName := ctr.Image() cid := ctr.ID() pod := ctr.PodID() if !opts.NoTrunc { cid = cid[0:cidTruncLength] if len(pod) > podTruncLength { pod = pod[0:podTruncLength] } if len(command) > cmdTruncLength { command = command[0:cmdTruncLength] + "..." } } ports, err := ctr.PortMappings() if err != nil { logrus.Errorf("unable to lookup namespace container for %s", ctr.ID()) } pso.ID = cid pso.Image = imageName pso.Command = command pso.Created = created pso.Ports = portsToString(ports) pso.Names = ctr.Name() pso.IsInfra = ctr.IsInfra() pso.Status = status pso.State = conState pso.Pid = pid pso.Size = size pso.Pod = pod pso.ExitedAt = exitedAt pso.CreatedAt = ctr.CreatedTime() pso.StartedAt = startedAt pso.Labels = ctr.Labels() pso.Mounts = strings.Join(ctr.UserVolumes(), " ") if opts.Namespace { pso.Cgroup = ns.Cgroup pso.IPC = ns.IPC pso.MNT = ns.MNT pso.NET = ns.NET pso.User = ns.User pso.UTS = ns.UTS pso.PIDNS = ns.PIDNS } return pso, nil } type batchFunc func() (PsContainerOutput, error) type workerInput struct { parallelFunc batchFunc opts PsOptions cid string job int } // worker is a "threaded" worker that takes jobs from the channel "queue". func worker(wg *sync.WaitGroup, jobs <-chan workerInput, results chan<- PsContainerOutput, errors chan<- error) { for j := range jobs { r, err := j.parallelFunc() // If we find an error, we return just the error. if err != nil { errors <- err } else { // Return the result. results <- r } wg.Done() } } func generateContainerFilterFuncs(filter, filterValue string, r *libpod.Runtime) (func(container *libpod.Container) bool, error) { switch filter { case "id": return func(c *libpod.Container) bool { return strings.Contains(c.ID(), filterValue) }, nil case "label": var filterArray = strings.SplitN(filterValue, "=", 2) var filterKey = filterArray[0] if len(filterArray) > 1 { filterValue = filterArray[1] } else { filterValue = "" } return func(c *libpod.Container) bool { for labelKey, labelValue := range c.Labels() { if labelKey == filterKey && ("" == filterValue || labelValue == filterValue) { return true } } return false }, nil case "name": return func(c *libpod.Container) bool { match, err := regexp.MatchString(filterValue, c.Name()) if err != nil { return false } return match }, nil case "exited": exitCode, err := strconv.ParseInt(filterValue, 10, 32) if err != nil { return nil, errors.Wrapf(err, "exited code out of range %q", filterValue) } return func(c *libpod.Container) bool { ec, exited, err := c.ExitCode() if ec == int32(exitCode) && err == nil && exited { return true } return false }, nil case "status": if !util.StringInSlice(filterValue, []string{"created", "running", "paused", "stopped", "exited", "unknown"}) { return nil, errors.Errorf("%s is not a valid status", filterValue) } return func(c *libpod.Container) bool { status, err := c.State() if err != nil { return false } if filterValue == "stopped" { filterValue = "exited" } state := status.String() if status == define.ContainerStateConfigured { state = "created" } else if status == define.ContainerStateStopped { state = "exited" } return state == filterValue }, nil case "ancestor": // This needs to refine to match docker // - ancestor=([:tag]|| ⟨image@digest⟩) - containers created from an image or a descendant. return func(c *libpod.Container) bool { containerConfig := c.Config() if strings.Contains(containerConfig.RootfsImageID, filterValue) || strings.Contains(containerConfig.RootfsImageName, filterValue) { return true } return false }, nil case "before": ctr, err := r.LookupContainer(filterValue) if err != nil { return nil, errors.Errorf("unable to find container by name or id of %s", filterValue) } containerConfig := ctr.Config() createTime := containerConfig.CreatedTime return func(c *libpod.Container) bool { cc := c.Config() return createTime.After(cc.CreatedTime) }, nil case "since": ctr, err := r.LookupContainer(filterValue) if err != nil { return nil, errors.Errorf("unable to find container by name or id of %s", filterValue) } containerConfig := ctr.Config() createTime := containerConfig.CreatedTime return func(c *libpod.Container) bool { cc := c.Config() return createTime.Before(cc.CreatedTime) }, nil case "volume": //- volume=(|) return func(c *libpod.Container) bool { containerConfig := c.Config() var dest string arr := strings.Split(filterValue, ":") source := arr[0] if len(arr) == 2 { dest = arr[1] } for _, mount := range containerConfig.Spec.Mounts { if dest != "" && (mount.Source == source && mount.Destination == dest) { return true } if dest == "" && mount.Source == source { return true } } return false }, nil case "health": return func(c *libpod.Container) bool { hcStatus, err := c.HealthCheckStatus() if err != nil { return false } return hcStatus == filterValue }, nil } return nil, errors.Errorf("%s is an invalid filter", filter) } // GetPsContainerOutput returns a slice of containers specifically for ps output. func GetPsContainerOutput(r *libpod.Runtime, opts PsOptions, filters []string, maxWorkers int) ([]PsContainerOutput, error) { var ( filterFuncs []libpod.ContainerFilter outputContainers []*libpod.Container ) if len(filters) > 0 { for _, f := range filters { filterSplit := strings.SplitN(f, "=", 2) if len(filterSplit) < 2 { return nil, errors.Errorf("filter input must be in the form of filter=value: %s is invalid", f) } generatedFunc, err := generateContainerFilterFuncs(filterSplit[0], filterSplit[1], r) if err != nil { return nil, errors.Wrapf(err, "invalid filter") } filterFuncs = append(filterFuncs, generatedFunc) } } if !opts.Latest { // Get all containers. containers, err := r.GetContainers(filterFuncs...) if err != nil { return nil, err } // We only want the last few containers. if opts.Last > 0 && opts.Last <= len(containers) { return nil, errors.Errorf("--last not yet supported") } else { outputContainers = containers } } else { // Get just the latest container. // Ignore filters. latestCtr, err := r.GetLatestContainer() if err != nil { return nil, err } outputContainers = []*libpod.Container{latestCtr} } pss := PBatch(outputContainers, maxWorkers, opts) return pss, nil } // PBatch performs batch operations on a container in parallel. It spawns the // number of workers relative to the number of parallel operations desired. func PBatch(containers []*libpod.Container, workers int, opts PsOptions) []PsContainerOutput { var wg sync.WaitGroup psResults := []PsContainerOutput{} // If the number of containers in question is less than the number of // proposed parallel operations, we shouldnt spawn so many workers. if workers > len(containers) { workers = len(containers) } jobs := make(chan workerInput, len(containers)) results := make(chan PsContainerOutput, len(containers)) batchErrors := make(chan error, len(containers)) // Create the workers. for w := 1; w <= workers; w++ { go worker(&wg, jobs, results, batchErrors) } // Add jobs to the workers. for i, j := range containers { j := j wg.Add(1) f := func() (PsContainerOutput, error) { return NewBatchContainer(j, opts) } jobs <- workerInput{ parallelFunc: f, opts: opts, cid: j.ID(), job: i, } } close(jobs) wg.Wait() close(results) close(batchErrors) for err := range batchErrors { logrus.Errorf("unable to get container info: %q", err) } for res := range results { // We sort out running vs non-running here to save lots of copying // later. if !opts.All && !opts.Latest && opts.Last < 1 { if !res.IsInfra && res.State == define.ContainerStateRunning { psResults = append(psResults, res) } } else { psResults = append(psResults, res) } } return psResults } // BatchContainerOp is used in ps to reduce performance hits by "batching" // locks. func BatchContainerOp(ctr *libpod.Container, opts PsOptions) (BatchContainerStruct, error) { var ( conConfig *libpod.ContainerConfig conState define.ContainerStatus err error exitCode int32 exited bool pid int size *ContainerSize startedTime time.Time exitedTime time.Time ) batchErr := ctr.Batch(func(c *libpod.Container) error { conConfig = c.Config() conState, err = c.State() if err != nil { return errors.Wrapf(err, "unable to obtain container state") } exitCode, exited, err = c.ExitCode() if err != nil { return errors.Wrapf(err, "unable to obtain container exit code") } startedTime, err = c.StartedTime() if err != nil { logrus.Errorf("error getting started time for %q: %v", c.ID(), err) } exitedTime, err = c.FinishedTime() if err != nil { logrus.Errorf("error getting exited time for %q: %v", c.ID(), err) } if !opts.Size && !opts.Namespace { return nil } if opts.Namespace { pid, err = c.PID() if err != nil { return errors.Wrapf(err, "unable to obtain container pid") } } if opts.Size { size = new(ContainerSize) rootFsSize, err := c.RootFsSize() if err != nil { logrus.Errorf("error getting root fs size for %q: %v", c.ID(), err) } rwSize, err := c.RWSize() if err != nil { logrus.Errorf("error getting rw size for %q: %v", c.ID(), err) } size.RootFsSize = rootFsSize size.RwSize = rwSize } return nil }) if batchErr != nil { return BatchContainerStruct{}, batchErr } return BatchContainerStruct{ ConConfig: conConfig, ConState: conState, ExitCode: exitCode, Exited: exited, Pid: pid, StartedTime: startedTime, ExitedTime: exitedTime, Size: size, }, nil } // GetNamespaces returns a populated namespace struct. func GetNamespaces(pid int) *Namespace { ctrPID := strconv.Itoa(pid) cgroup, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "cgroup")) ipc, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "ipc")) mnt, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "mnt")) net, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "net")) pidns, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "pid")) user, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "user")) uts, _ := getNamespaceInfo(filepath.Join("/proc", ctrPID, "ns", "uts")) return &Namespace{ PID: ctrPID, Cgroup: cgroup, IPC: ipc, MNT: mnt, NET: net, PIDNS: pidns, User: user, UTS: uts, } } func getNamespaceInfo(path string) (string, error) { val, err := os.Readlink(path) if err != nil { return "", errors.Wrapf(err, "error getting info from %q", path) } return getStrFromSquareBrackets(val), nil } // getStrFromSquareBrackets gets the string inside [] from a string. func getStrFromSquareBrackets(cmd string) string { reg, err := regexp.Compile(`.*\[|\].*`) if err != nil { return "" } arr := strings.Split(reg.ReplaceAllLiteralString(cmd, ""), ",") return strings.Join(arr, ",") } func comparePorts(i, j ocicni.PortMapping) bool { if i.ContainerPort != j.ContainerPort { return i.ContainerPort < j.ContainerPort } if i.HostIP != j.HostIP { return i.HostIP < j.HostIP } if i.HostPort != j.HostPort { return i.HostPort < j.HostPort } return i.Protocol < j.Protocol } // formatGroup returns the group as startPort:lastPort/Proto> // e.g 0.0.0.0:1000-1006->1000-1006/tcp. func formatGroup(key string, start, last int32) string { parts := strings.Split(key, "/") groupType := parts[0] var ip string if len(parts) > 1 { ip = parts[0] groupType = parts[1] } group := strconv.Itoa(int(start)) if start != last { group = fmt.Sprintf("%s-%d", group, last) } if ip != "" { group = fmt.Sprintf("%s:%s->%s", ip, group, group) } return fmt.Sprintf("%s/%s", group, groupType) } // portsToString converts the ports used to a string of the from "port1, port2" // and also groups a continuous list of ports into a readable format. func portsToString(ports []ocicni.PortMapping) string { type portGroup struct { first int32 last int32 } var portDisplay []string if len(ports) == 0 { return "" } //Sort the ports, so grouping continuous ports become easy. sort.Slice(ports, func(i, j int) bool { return comparePorts(ports[i], ports[j]) }) // portGroupMap is used for grouping continuous ports. portGroupMap := make(map[string]*portGroup) var groupKeyList []string for _, v := range ports { hostIP := v.HostIP if hostIP == "" { hostIP = "0.0.0.0" } // If hostPort and containerPort are not same, consider as individual port. if v.ContainerPort != v.HostPort { portDisplay = append(portDisplay, fmt.Sprintf("%s:%d->%d/%s", hostIP, v.HostPort, v.ContainerPort, v.Protocol)) continue } portMapKey := fmt.Sprintf("%s/%s", hostIP, v.Protocol) portgroup, ok := portGroupMap[portMapKey] if !ok { portGroupMap[portMapKey] = &portGroup{first: v.ContainerPort, last: v.ContainerPort} // This list is required to travese portGroupMap. groupKeyList = append(groupKeyList, portMapKey) continue } if portgroup.last == (v.ContainerPort - 1) { portgroup.last = v.ContainerPort continue } } // For each portMapKey, format group list and appned to output string. for _, portKey := range groupKeyList { group := portGroupMap[portKey] portDisplay = append(portDisplay, formatGroup(portKey, group.first, group.last)) } return strings.Join(portDisplay, ", ") } // GetRunlabel is a helper function for runlabel; it gets the image if needed and begins the // construction of the runlabel output and environment variables. func GetRunlabel(label string, runlabelImage string, ctx context.Context, runtime *libpod.Runtime, pull bool, inputCreds string, dockerRegistryOptions image.DockerRegistryOptions, authfile string, signaturePolicyPath string, output io.Writer) (string, string, error) { var ( newImage *image.Image err error imageName string ) if pull { var registryCreds *types.DockerAuthConfig if inputCreds != "" { creds, err := util.ParseRegistryCreds(inputCreds) if err != nil { return "", "", err } registryCreds = creds } dockerRegistryOptions.DockerRegistryCreds = registryCreds newImage, err = runtime.ImageRuntime().New(ctx, runlabelImage, signaturePolicyPath, authfile, output, &dockerRegistryOptions, image.SigningOptions{}, &label, util.PullImageMissing) } else { newImage, err = runtime.ImageRuntime().NewFromLocal(runlabelImage) } if err != nil { return "", "", errors.Wrapf(err, "unable to find image") } if len(newImage.Names()) < 1 { imageName = newImage.ID() } else { imageName = newImage.Names()[0] } runLabel, err := newImage.GetLabel(ctx, label) return runLabel, imageName, err } // GenerateRunlabelCommand generates the command that will eventually be execucted by Podman. func GenerateRunlabelCommand(runLabel, imageName, name string, opts map[string]string, extraArgs []string, globalOpts string) ([]string, []string, error) { // If no name is provided, we use the image's basename instead. if name == "" { baseName, err := image.GetImageBaseName(imageName) if err != nil { return nil, nil, err } name = baseName } // The user provided extra arguments that need to be tacked onto the label's command. if len(extraArgs) > 0 { runLabel = fmt.Sprintf("%s %s", runLabel, strings.Join(extraArgs, " ")) } cmd, err := GenerateCommand(runLabel, imageName, name, globalOpts) if err != nil { return nil, nil, errors.Wrapf(err, "unable to generate command") } env := GenerateRunEnvironment(name, imageName, opts) env = append(env, "PODMAN_RUNLABEL_NESTED=1") envmap := envSliceToMap(env) envmapper := func(k string) string { switch k { case "OPT1": return envmap["OPT1"] case "OPT2": return envmap["OPT2"] case "OPT3": return envmap["OPT3"] case "PWD": // I would prefer to use os.getenv but it appears PWD is not in the os env list. d, err := os.Getwd() if err != nil { logrus.Error("unable to determine current working directory") return "" } return d } return "" } newS := os.Expand(strings.Join(cmd, " "), envmapper) cmd, err = shlex.Split(newS) if err != nil { return nil, nil, err } return cmd, env, nil } func envSliceToMap(env []string) map[string]string { m := make(map[string]string) for _, i := range env { split := strings.Split(i, "=") m[split[0]] = strings.Join(split[1:], " ") } return m } // GenerateKube generates kubernetes yaml based on a pod or container. func GenerateKube(name string, service bool, r *libpod.Runtime) (*v1.Pod, *v1.Service, error) { var ( pod *libpod.Pod podYAML *v1.Pod err error container *libpod.Container servicePorts []v1.ServicePort serviceYAML v1.Service ) // Get the container in question. container, err = r.LookupContainer(name) if err != nil { pod, err = r.LookupPod(name) if err != nil { return nil, nil, err } podYAML, servicePorts, err = pod.GenerateForKube() } else { if len(container.Dependencies()) > 0 { return nil, nil, errors.Wrapf(define.ErrNotImplemented, "containers with dependencies") } podYAML, err = container.GenerateForKube() } if err != nil { return nil, nil, err } if service { serviceYAML = libpod.GenerateKubeServiceFromV1Pod(podYAML, servicePorts) } return podYAML, &serviceYAML, nil }