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|
package generate
import (
"context"
"encoding/json"
"errors"
"fmt"
"os"
"strings"
"time"
"github.com/containers/common/libimage"
"github.com/containers/common/pkg/config"
"github.com/containers/podman/v4/libpod"
"github.com/containers/podman/v4/libpod/define"
ann "github.com/containers/podman/v4/pkg/annotations"
envLib "github.com/containers/podman/v4/pkg/env"
"github.com/containers/podman/v4/pkg/signal"
"github.com/containers/podman/v4/pkg/specgen"
spec "github.com/opencontainers/runtime-spec/specs-go"
"github.com/sirupsen/logrus"
"golang.org/x/sys/unix"
)
func getImageFromSpec(ctx context.Context, r *libpod.Runtime, s *specgen.SpecGenerator) (*libimage.Image, string, *libimage.ImageData, error) {
if s.Image == "" || s.Rootfs != "" {
return nil, "", nil, nil
}
// Image may already have been set in the generator.
image, resolvedName := s.GetImage()
if image != nil {
inspectData, err := image.Inspect(ctx, nil)
if err != nil {
return nil, "", nil, err
}
return image, resolvedName, inspectData, nil
}
// Need to look up image.
lookupOptions := &libimage.LookupImageOptions{ManifestList: true}
image, resolvedName, err := r.LibimageRuntime().LookupImage(s.Image, lookupOptions)
if err != nil {
return nil, "", nil, err
}
manifestList, err := image.ToManifestList()
// only process if manifest list found otherwise expect it to be regular image
if err == nil {
image, err = manifestList.LookupInstance(ctx, s.ImageArch, s.ImageOS, s.ImageVariant)
if err != nil {
return nil, "", nil, err
}
}
s.SetImage(image, resolvedName)
inspectData, err := image.Inspect(ctx, nil)
if err != nil {
return nil, "", nil, err
}
return image, resolvedName, inspectData, err
}
// Fill any missing parts of the spec generator (e.g. from the image).
// Returns a set of warnings or any fatal error that occurred.
func CompleteSpec(ctx context.Context, r *libpod.Runtime, s *specgen.SpecGenerator) ([]string, error) {
// Only add image configuration if we have an image
newImage, _, inspectData, err := getImageFromSpec(ctx, r, s)
if err != nil {
return nil, err
}
if inspectData != nil {
inspectData, err = newImage.Inspect(ctx, nil)
if err != nil {
return nil, err
}
if s.HealthConfig == nil {
// NOTE: the health check is only set for Docker images
// but inspect will take care of it.
s.HealthConfig = inspectData.HealthCheck
if s.HealthConfig != nil {
if s.HealthConfig.Timeout == 0 {
hct, err := time.ParseDuration(define.DefaultHealthCheckTimeout)
if err != nil {
return nil, err
}
s.HealthConfig.Timeout = hct
}
if s.HealthConfig.Interval == 0 {
hct, err := time.ParseDuration(define.DefaultHealthCheckInterval)
if err != nil {
return nil, err
}
s.HealthConfig.Interval = hct
}
}
}
// Image stop signal
if s.StopSignal == nil {
if inspectData.Config.StopSignal != "" {
sig, err := signal.ParseSignalNameOrNumber(inspectData.Config.StopSignal)
if err != nil {
return nil, err
}
s.StopSignal = &sig
}
}
}
rtc, err := r.GetConfigNoCopy()
if err != nil {
return nil, err
}
// Get Default Environment from containers.conf
defaultEnvs, err := envLib.ParseSlice(rtc.GetDefaultEnvEx(s.EnvHost, s.HTTPProxy))
if err != nil {
return nil, fmt.Errorf("error parsing fields in containers.conf: %w", err)
}
var envs map[string]string
// Image Environment defaults
if inspectData != nil {
// Image envs from the image if they don't exist
// already, overriding the default environments
envs, err = envLib.ParseSlice(inspectData.Config.Env)
if err != nil {
return nil, fmt.Errorf("env fields from image failed to parse: %w", err)
}
defaultEnvs = envLib.Join(envLib.DefaultEnvVariables(), envLib.Join(defaultEnvs, envs))
}
for _, e := range s.UnsetEnv {
delete(defaultEnvs, e)
}
if s.UnsetEnvAll {
defaultEnvs = make(map[string]string)
}
// First transform the os env into a map. We need it for the labels later in
// any case.
osEnv, err := envLib.ParseSlice(os.Environ())
if err != nil {
return nil, fmt.Errorf("error parsing host environment variables: %w", err)
}
// Caller Specified defaults
if s.EnvHost {
defaultEnvs = envLib.Join(defaultEnvs, osEnv)
} else if s.HTTPProxy {
for _, envSpec := range config.ProxyEnv {
if v, ok := osEnv[envSpec]; ok {
defaultEnvs[envSpec] = v
}
}
}
s.Env = envLib.Join(defaultEnvs, s.Env)
// Labels and Annotations
annotations := make(map[string]string)
if newImage != nil {
labels, err := newImage.Labels(ctx)
if err != nil {
return nil, err
}
// labels from the image that don't exist already
if len(labels) > 0 && s.Labels == nil {
s.Labels = make(map[string]string)
}
for k, v := range labels {
if _, exists := s.Labels[k]; !exists {
s.Labels[k] = v
}
}
// Add annotations from the image
for k, v := range inspectData.Annotations {
if !define.IsReservedAnnotation(k) {
annotations[k] = v
}
}
}
// in the event this container is in a pod, and the pod has an infra container
// we will want to configure it as a type "container" instead defaulting to
// the behavior of a "sandbox" container
// In Kata containers:
// - "sandbox" is the annotation that denotes the container should use its own
// VM, which is the default behavior
// - "container" denotes the container should join the VM of the SandboxID
// (the infra container)
if len(s.Pod) > 0 {
p, err := r.LookupPod(s.Pod)
if err != nil {
return nil, err
}
sandboxID := p.ID()
if p.HasInfraContainer() {
infra, err := p.InfraContainer()
if err != nil {
return nil, err
}
sandboxID = infra.ID()
}
annotations[ann.SandboxID] = sandboxID
annotations[ann.ContainerType] = ann.ContainerTypeContainer
// Check if this is an init-ctr and if so, check if
// the pod is running. we do not want to add init-ctrs to
// a running pod because it creates confusion for us.
if len(s.InitContainerType) > 0 {
containerStatuses, err := p.Status()
if err != nil {
return nil, err
}
// If any one of the containers is running, the pod is considered to be
// running
for _, con := range containerStatuses {
if con == define.ContainerStateRunning {
return nil, errors.New("cannot add init-ctr to a running pod")
}
}
}
}
for _, v := range rtc.Containers.Annotations {
split := strings.SplitN(v, "=", 2)
k := split[0]
v := ""
if len(split) == 2 {
v = split[1]
}
annotations[k] = v
}
// now pass in the values from client
for k, v := range s.Annotations {
annotations[k] = v
}
s.Annotations = annotations
if len(s.SeccompProfilePath) < 1 {
p, err := libpod.DefaultSeccompPath()
if err != nil {
return nil, err
}
s.SeccompProfilePath = p
}
if len(s.User) == 0 && inspectData != nil {
s.User = inspectData.Config.User
}
// Unless already set via the CLI, check if we need to disable process
// labels or set the defaults.
if len(s.SelinuxOpts) == 0 {
if err := setLabelOpts(s, r, s.PidNS, s.IpcNS); err != nil {
return nil, err
}
}
if s.CgroupsMode == "" {
s.CgroupsMode = rtc.Cgroups()
}
// If caller did not specify Pids Limits load default
if s.ResourceLimits == nil || s.ResourceLimits.Pids == nil {
if s.CgroupsMode != "disabled" {
limit := rtc.PidsLimit()
if limit != 0 {
if s.ResourceLimits == nil {
s.ResourceLimits = &spec.LinuxResources{}
}
s.ResourceLimits.Pids = &spec.LinuxPids{
Limit: limit,
}
}
}
}
if s.LogConfiguration == nil {
s.LogConfiguration = &specgen.LogConfig{}
}
// set log-driver from common if not already set
if len(s.LogConfiguration.Driver) < 1 {
s.LogConfiguration.Driver = rtc.Containers.LogDriver
}
if len(rtc.Containers.LogTag) > 0 {
if s.LogConfiguration.Driver != define.JSONLogging {
if s.LogConfiguration.Options == nil {
s.LogConfiguration.Options = make(map[string]string)
}
s.LogConfiguration.Options["tag"] = rtc.Containers.LogTag
} else {
logrus.Warnf("log_tag %q is not allowed with %q log_driver", rtc.Containers.LogTag, define.JSONLogging)
}
}
warnings, err := verifyContainerResources(s)
if err != nil {
return warnings, err
}
// Warn on net=host/container/pod/none and port mappings.
if (s.NetNS.NSMode == specgen.Host || s.NetNS.NSMode == specgen.FromContainer ||
s.NetNS.NSMode == specgen.FromPod || s.NetNS.NSMode == specgen.NoNetwork) &&
len(s.PortMappings) > 0 {
warnings = append(warnings, "Port mappings have been discarded as one of the Host, Container, Pod, and None network modes are in use")
}
return warnings, nil
}
// ConfigToSpec takes a completed container config and converts it back into a specgenerator for purposes of cloning an existing container
func ConfigToSpec(rt *libpod.Runtime, specg *specgen.SpecGenerator, contaierID string) (*libpod.Container, *libpod.InfraInherit, error) {
c, err := rt.LookupContainer(contaierID)
if err != nil {
return nil, nil, err
}
conf := c.ConfigWithNetworks()
if conf == nil {
return nil, nil, fmt.Errorf("failed to get config for container %s", c.ID())
}
tmpSystemd := conf.Systemd
tmpMounts := conf.Mounts
conf.Systemd = nil
conf.Mounts = []string{}
if specg == nil {
specg = &specgen.SpecGenerator{}
}
specg.Pod = conf.Pod
matching, err := json.Marshal(conf)
if err != nil {
return nil, nil, err
}
err = json.Unmarshal(matching, specg)
if err != nil {
return nil, nil, err
}
conf.Systemd = tmpSystemd
conf.Mounts = tmpMounts
if conf.Spec != nil && conf.Spec.Linux != nil && conf.Spec.Linux.Resources != nil {
if specg.ResourceLimits == nil {
specg.ResourceLimits = conf.Spec.Linux.Resources
}
}
nameSpaces := []string{"pid", "net", "cgroup", "ipc", "uts", "user"}
containers := []string{conf.PIDNsCtr, conf.NetNsCtr, conf.CgroupNsCtr, conf.IPCNsCtr, conf.UTSNsCtr, conf.UserNsCtr}
place := []*specgen.Namespace{&specg.PidNS, &specg.NetNS, &specg.CgroupNS, &specg.IpcNS, &specg.UtsNS, &specg.UserNS}
for i, ns := range containers {
if len(ns) > 0 {
ns := specgen.Namespace{NSMode: specgen.FromContainer, Value: ns}
place[i] = &ns
} else {
switch nameSpaces[i] {
case "pid":
specg.PidNS = specgen.Namespace{NSMode: specgen.Default} // default
case "net":
switch {
case conf.NetMode.IsBridge():
toExpose := make(map[uint16]string, len(conf.ExposedPorts))
for _, expose := range []map[uint16][]string{conf.ExposedPorts} {
for port, proto := range expose {
toExpose[port] = strings.Join(proto, ",")
}
}
specg.Expose = toExpose
specg.PortMappings = conf.PortMappings
specg.NetNS = specgen.Namespace{NSMode: specgen.Bridge}
case conf.NetMode.IsSlirp4netns():
toExpose := make(map[uint16]string, len(conf.ExposedPorts))
for _, expose := range []map[uint16][]string{conf.ExposedPorts} {
for port, proto := range expose {
toExpose[port] = strings.Join(proto, ",")
}
}
specg.Expose = toExpose
specg.PortMappings = conf.PortMappings
netMode := strings.Split(string(conf.NetMode), ":")
var val string
if len(netMode) > 1 {
val = netMode[1]
}
specg.NetNS = specgen.Namespace{NSMode: specgen.Slirp, Value: val}
case conf.NetMode.IsPrivate():
specg.NetNS = specgen.Namespace{NSMode: specgen.Private}
case conf.NetMode.IsDefault():
specg.NetNS = specgen.Namespace{NSMode: specgen.Default}
case conf.NetMode.IsUserDefined():
specg.NetNS = specgen.Namespace{NSMode: specgen.Path, Value: strings.Split(string(conf.NetMode), ":")[1]}
case conf.NetMode.IsContainer():
specg.NetNS = specgen.Namespace{NSMode: specgen.FromContainer, Value: strings.Split(string(conf.NetMode), ":")[1]}
case conf.NetMode.IsPod():
specg.NetNS = specgen.Namespace{NSMode: specgen.FromPod, Value: strings.Split(string(conf.NetMode), ":")[1]}
}
case "cgroup":
specg.CgroupNS = specgen.Namespace{NSMode: specgen.Default} // default
case "ipc":
switch conf.ShmDir {
case "/dev/shm":
specg.IpcNS = specgen.Namespace{NSMode: specgen.Host}
case "":
specg.IpcNS = specgen.Namespace{NSMode: specgen.None}
default:
specg.IpcNS = specgen.Namespace{NSMode: specgen.Default} // default
}
case "uts":
specg.UtsNS = specgen.Namespace{NSMode: specgen.Private} // default
case "user":
if conf.AddCurrentUserPasswdEntry {
specg.UserNS = specgen.Namespace{NSMode: specgen.KeepID}
} else {
specg.UserNS = specgen.Namespace{NSMode: specgen.Default} // default
}
}
}
}
specg.IDMappings = &conf.IDMappings
specg.ContainerCreateCommand = conf.CreateCommand
if len(specg.Rootfs) == 0 {
specg.Rootfs = conf.Rootfs
}
if len(specg.Image) == 0 {
specg.Image = conf.RootfsImageID
}
var named []*specgen.NamedVolume
if len(conf.NamedVolumes) != 0 {
for _, v := range conf.NamedVolumes {
named = append(named, &specgen.NamedVolume{
Name: v.Name,
Dest: v.Dest,
Options: v.Options,
})
}
}
specg.Volumes = named
var image []*specgen.ImageVolume
if len(conf.ImageVolumes) != 0 {
for _, v := range conf.ImageVolumes {
image = append(image, &specgen.ImageVolume{
Source: v.Source,
Destination: v.Dest,
ReadWrite: v.ReadWrite,
})
}
}
specg.ImageVolumes = image
var overlay []*specgen.OverlayVolume
if len(conf.OverlayVolumes) != 0 {
for _, v := range conf.OverlayVolumes {
overlay = append(overlay, &specgen.OverlayVolume{
Source: v.Source,
Destination: v.Dest,
Options: v.Options,
})
}
}
specg.OverlayVolumes = overlay
_, mounts := c.SortUserVolumes(c.Spec())
specg.Mounts = mounts
specg.HostDeviceList = conf.DeviceHostSrc
specg.Networks = conf.Networks
specg.ShmSize = &conf.ShmSize
mapSecurityConfig(conf, specg)
if c.IsInfra() { // if we are creating this spec for a pod's infra ctr, map the compatible options
spec, err := json.Marshal(specg)
if err != nil {
return nil, nil, err
}
infraInherit := &libpod.InfraInherit{}
err = json.Unmarshal(spec, infraInherit)
return c, infraInherit, err
}
// else just return the container
return c, nil, nil
}
// mapSecurityConfig takes a libpod.ContainerSecurityConfig and converts it to a specgen.ContinerSecurityConfig
func mapSecurityConfig(c *libpod.ContainerConfig, s *specgen.SpecGenerator) {
s.Privileged = c.Privileged
s.SelinuxOpts = append(s.SelinuxOpts, c.LabelOpts...)
s.User = c.User
s.Groups = c.Groups
s.HostUsers = c.HostUsers
}
// FinishThrottleDevices takes the temporary representation of the throttle
// devices in the specgen and looks up the major and major minors. it then
// sets the throttle devices proper in the specgen
func FinishThrottleDevices(s *specgen.SpecGenerator) error {
if s.ResourceLimits == nil {
s.ResourceLimits = &spec.LinuxResources{}
}
if bps := s.ThrottleReadBpsDevice; len(bps) > 0 {
if s.ResourceLimits.BlockIO == nil {
s.ResourceLimits.BlockIO = &spec.LinuxBlockIO{}
}
for k, v := range bps {
statT := unix.Stat_t{}
if err := unix.Stat(k, &statT); err != nil {
return fmt.Errorf("could not parse throttle device at %s: %w", k, err)
}
v.Major = (int64(unix.Major(uint64(statT.Rdev)))) //nolint: unconvert
v.Minor = (int64(unix.Minor(uint64(statT.Rdev)))) //nolint: unconvert
if s.ResourceLimits.BlockIO == nil {
s.ResourceLimits.BlockIO = new(spec.LinuxBlockIO)
}
s.ResourceLimits.BlockIO.ThrottleReadBpsDevice = append(s.ResourceLimits.BlockIO.ThrottleReadBpsDevice, v)
}
}
if bps := s.ThrottleWriteBpsDevice; len(bps) > 0 {
if s.ResourceLimits.BlockIO == nil {
s.ResourceLimits.BlockIO = &spec.LinuxBlockIO{}
}
for k, v := range bps {
statT := unix.Stat_t{}
if err := unix.Stat(k, &statT); err != nil {
return fmt.Errorf("could not parse throttle device at %s: %w", k, err)
}
v.Major = (int64(unix.Major(uint64(statT.Rdev)))) //nolint: unconvert
v.Minor = (int64(unix.Minor(uint64(statT.Rdev)))) //nolint: unconvert
s.ResourceLimits.BlockIO.ThrottleWriteBpsDevice = append(s.ResourceLimits.BlockIO.ThrottleWriteBpsDevice, v)
}
}
if iops := s.ThrottleReadIOPSDevice; len(iops) > 0 {
if s.ResourceLimits.BlockIO == nil {
s.ResourceLimits.BlockIO = &spec.LinuxBlockIO{}
}
for k, v := range iops {
statT := unix.Stat_t{}
if err := unix.Stat(k, &statT); err != nil {
return fmt.Errorf("could not parse throttle device at %s: %w", k, err)
}
v.Major = (int64(unix.Major(uint64(statT.Rdev)))) //nolint: unconvert
v.Minor = (int64(unix.Minor(uint64(statT.Rdev)))) //nolint: unconvert
s.ResourceLimits.BlockIO.ThrottleReadIOPSDevice = append(s.ResourceLimits.BlockIO.ThrottleReadIOPSDevice, v)
}
}
if iops := s.ThrottleWriteIOPSDevice; len(iops) > 0 {
if s.ResourceLimits.BlockIO == nil {
s.ResourceLimits.BlockIO = &spec.LinuxBlockIO{}
}
for k, v := range iops {
statT := unix.Stat_t{}
if err := unix.Stat(k, &statT); err != nil {
return fmt.Errorf("could not parse throttle device at %s: %w", k, err)
}
v.Major = (int64(unix.Major(uint64(statT.Rdev)))) //nolint: unconvert
v.Minor = (int64(unix.Minor(uint64(statT.Rdev)))) //nolint: unconvert
s.ResourceLimits.BlockIO.ThrottleWriteIOPSDevice = append(s.ResourceLimits.BlockIO.ThrottleWriteIOPSDevice, v)
}
}
return nil
}
|