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|
package shared
import (
"context"
"encoding/json"
"fmt"
"io"
"os"
"path/filepath"
"regexp"
"strconv"
"strings"
"sync"
"time"
"github.com/containers/image/types"
"github.com/containers/libpod/libpod"
"github.com/containers/libpod/libpod/image"
"github.com/containers/libpod/pkg/inspect"
cc "github.com/containers/libpod/pkg/spec"
"github.com/containers/libpod/pkg/util"
"github.com/cri-o/ocicni/pkg/ocicni"
"github.com/docker/go-units"
"github.com/opencontainers/runtime-spec/specs-go"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
)
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
Label string
Namespace bool
Sync bool
}
// BatchContainerStruct is the return obkect from BatchContainer and contains
// container related information
type BatchContainerStruct struct {
ConConfig *libpod.ContainerConfig
ConState libpod.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 libpod.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
}
// 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 libpod.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 libpod.ContainerStateExited.String():
fallthrough
case libpod.ContainerStateStopped.String():
exitedSince := units.HumanDuration(time.Since(exitedAt))
status = fmt.Sprintf("Exited (%d) %s ago", exitCode, exitedSince)
case libpod.ContainerStateRunning.String():
status = "Up " + units.HumanDuration(time.Since(startedAt)) + " ago"
case libpod.ContainerStatePaused.String():
status = "Paused"
case libpod.ContainerStateCreated.String(), libpod.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] + "..."
}
}
pso.ID = cid
pso.Image = imageName
pso.Command = command
pso.Created = created
pso.Ports = portsToString(ctr.PortMappings())
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()
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()
}
}
// PBatch is performs batch operations on a container in parallel. It spawns the number of workers
// relative to the 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 == libpod.ContainerStateRunning {
psResults = append(psResults, res)
}
} else {
psResults = append(psResults, res)
}
}
return psResults
}
// BatchContainer 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 libpod.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, ",")
}
// GetCtrInspectInfo takes container inspect data and collects all its info into a ContainerData
// structure for inspection related methods
func GetCtrInspectInfo(ctr *libpod.Container, ctrInspectData *inspect.ContainerInspectData) (*inspect.ContainerData, error) {
config := ctr.Config()
spec := config.Spec
cpus, mems, period, quota, realtimePeriod, realtimeRuntime, shares := getCPUInfo(spec)
blkioWeight, blkioWeightDevice, blkioReadBps, blkioWriteBps, blkioReadIOPS, blkioeWriteIOPS := getBLKIOInfo(spec)
memKernel, memReservation, memSwap, memSwappiness, memDisableOOMKiller := getMemoryInfo(spec)
pidsLimit := getPidsInfo(spec)
cgroup := getCgroup(spec)
var createArtifact cc.CreateConfig
artifact, err := ctr.GetArtifact("create-config")
if err == nil {
if err := json.Unmarshal(artifact, &createArtifact); err != nil {
return nil, err
}
} else {
logrus.Errorf("couldn't get some inspect information, error getting artifact %q: %v", ctr.ID(), err)
}
data := &inspect.ContainerData{
ctrInspectData,
&inspect.HostConfig{
ConsoleSize: spec.Process.ConsoleSize,
OomScoreAdj: spec.Process.OOMScoreAdj,
CPUShares: shares,
BlkioWeight: blkioWeight,
BlkioWeightDevice: blkioWeightDevice,
BlkioDeviceReadBps: blkioReadBps,
BlkioDeviceWriteBps: blkioWriteBps,
BlkioDeviceReadIOps: blkioReadIOPS,
BlkioDeviceWriteIOps: blkioeWriteIOPS,
CPUPeriod: period,
CPUQuota: quota,
CPURealtimePeriod: realtimePeriod,
CPURealtimeRuntime: realtimeRuntime,
CPUSetCPUs: cpus,
CPUSetMems: mems,
Devices: spec.Linux.Devices,
KernelMemory: memKernel,
MemoryReservation: memReservation,
MemorySwap: memSwap,
MemorySwappiness: memSwappiness,
OomKillDisable: memDisableOOMKiller,
PidsLimit: pidsLimit,
Privileged: config.Privileged,
ReadonlyRootfs: spec.Root.Readonly,
Runtime: ctr.RuntimeName(),
NetworkMode: string(createArtifact.NetMode),
IpcMode: string(createArtifact.IpcMode),
Cgroup: cgroup,
UTSMode: string(createArtifact.UtsMode),
UsernsMode: string(createArtifact.UsernsMode),
GroupAdd: spec.Process.User.AdditionalGids,
ContainerIDFile: createArtifact.CidFile,
AutoRemove: createArtifact.Rm,
CapAdd: createArtifact.CapAdd,
CapDrop: createArtifact.CapDrop,
DNS: createArtifact.DNSServers,
DNSOptions: createArtifact.DNSOpt,
DNSSearch: createArtifact.DNSSearch,
PidMode: string(createArtifact.PidMode),
CgroupParent: createArtifact.CgroupParent,
ShmSize: createArtifact.Resources.ShmSize,
Memory: createArtifact.Resources.Memory,
Ulimits: createArtifact.Resources.Ulimit,
SecurityOpt: createArtifact.SecurityOpts,
Tmpfs: createArtifact.Tmpfs,
},
&inspect.CtrConfig{
Hostname: spec.Hostname,
User: spec.Process.User,
Env: spec.Process.Env,
Image: config.RootfsImageName,
WorkingDir: spec.Process.Cwd,
Labels: config.Labels,
Annotations: spec.Annotations,
Tty: spec.Process.Terminal,
OpenStdin: config.Stdin,
StopSignal: config.StopSignal,
Cmd: config.Spec.Process.Args,
Entrypoint: strings.Join(createArtifact.Entrypoint, " "),
},
}
return data, nil
}
func getCPUInfo(spec *specs.Spec) (string, string, *uint64, *int64, *uint64, *int64, *uint64) {
if spec.Linux.Resources == nil {
return "", "", nil, nil, nil, nil, nil
}
cpu := spec.Linux.Resources.CPU
if cpu == nil {
return "", "", nil, nil, nil, nil, nil
}
return cpu.Cpus, cpu.Mems, cpu.Period, cpu.Quota, cpu.RealtimePeriod, cpu.RealtimeRuntime, cpu.Shares
}
func getBLKIOInfo(spec *specs.Spec) (*uint16, []specs.LinuxWeightDevice, []specs.LinuxThrottleDevice, []specs.LinuxThrottleDevice, []specs.LinuxThrottleDevice, []specs.LinuxThrottleDevice) {
if spec.Linux.Resources == nil {
return nil, nil, nil, nil, nil, nil
}
blkio := spec.Linux.Resources.BlockIO
if blkio == nil {
return nil, nil, nil, nil, nil, nil
}
return blkio.Weight, blkio.WeightDevice, blkio.ThrottleReadBpsDevice, blkio.ThrottleWriteBpsDevice, blkio.ThrottleReadIOPSDevice, blkio.ThrottleWriteIOPSDevice
}
func getMemoryInfo(spec *specs.Spec) (*int64, *int64, *int64, *uint64, *bool) {
if spec.Linux.Resources == nil {
return nil, nil, nil, nil, nil
}
memory := spec.Linux.Resources.Memory
if memory == nil {
return nil, nil, nil, nil, nil
}
return memory.Kernel, memory.Reservation, memory.Swap, memory.Swappiness, memory.DisableOOMKiller
}
func getPidsInfo(spec *specs.Spec) *int64 {
if spec.Linux.Resources == nil {
return nil
}
pids := spec.Linux.Resources.Pids
if pids == nil {
return nil
}
return &pids.Limit
}
func getCgroup(spec *specs.Spec) string {
cgroup := "host"
for _, ns := range spec.Linux.Namespaces {
if ns.Type == specs.CgroupNamespace && ns.Path != "" {
cgroup = "container"
}
}
return cgroup
}
// portsToString converts the ports used to a string of the from "port1, port2"
func portsToString(ports []ocicni.PortMapping) string {
var portDisplay []string
if len(ports) == 0 {
return ""
}
for _, v := range ports {
hostIP := v.HostIP
if hostIP == "" {
hostIP = "0.0.0.0"
}
portDisplay = append(portDisplay, fmt.Sprintf("%s:%d->%d/%s", hostIP, v.HostPort, v.ContainerPort, v.Protocol))
}
return strings.Join(portDisplay, ", ")
}
// GetRunlabel is a helper function for runlabel; it gets the image if needed and begins the
// contruction 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{}, false)
} 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) ([]string, []string, error) {
// 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)
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"]
}
return ""
}
newS := os.Expand(strings.Join(cmd, " "), envmapper)
cmd = strings.Split(newS, " ")
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
}
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