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|
package kube
import (
"context"
"encoding/json"
"fmt"
"math"
"net"
"regexp"
"runtime"
"strconv"
"strings"
"time"
"github.com/containers/common/libimage"
"github.com/containers/common/libnetwork/types"
"github.com/containers/common/pkg/parse"
"github.com/containers/common/pkg/secrets"
"github.com/containers/image/v5/manifest"
"github.com/containers/podman/v4/libpod/define"
ann "github.com/containers/podman/v4/pkg/annotations"
"github.com/containers/podman/v4/pkg/domain/entities"
v1 "github.com/containers/podman/v4/pkg/k8s.io/api/core/v1"
"github.com/containers/podman/v4/pkg/k8s.io/apimachinery/pkg/api/resource"
"github.com/containers/podman/v4/pkg/specgen"
"github.com/containers/podman/v4/pkg/specgen/generate"
"github.com/containers/podman/v4/pkg/util"
"github.com/docker/docker/pkg/system"
"github.com/docker/go-units"
spec "github.com/opencontainers/runtime-spec/specs-go"
"github.com/pkg/errors"
)
func ToPodOpt(ctx context.Context, podName string, p entities.PodCreateOptions, podYAML *v1.PodTemplateSpec) (entities.PodCreateOptions, error) {
p.Net = &entities.NetOptions{NoHosts: p.Net.NoHosts}
p.Name = podName
p.Labels = podYAML.ObjectMeta.Labels
// Kube pods must share {ipc, net, uts} by default
p.Share = append(p.Share, "ipc")
p.Share = append(p.Share, "net")
p.Share = append(p.Share, "uts")
// TODO we only configure Process namespace. We also need to account for Host{IPC,Network,PID}
// which is not currently possible with pod create
if podYAML.Spec.ShareProcessNamespace != nil && *podYAML.Spec.ShareProcessNamespace {
p.Share = append(p.Share, "pid")
}
p.Hostname = podYAML.Spec.Hostname
if p.Hostname == "" {
p.Hostname = podName
}
if podYAML.Spec.HostNetwork {
p.Net.Network = specgen.Namespace{NSMode: "host"}
}
if podYAML.Spec.HostAliases != nil {
if p.Net.NoHosts {
return p, errors.New("HostAliases in yaml file will not work with --no-hosts")
}
hosts := make([]string, 0, len(podYAML.Spec.HostAliases))
for _, hostAlias := range podYAML.Spec.HostAliases {
for _, host := range hostAlias.Hostnames {
hosts = append(hosts, host+":"+hostAlias.IP)
}
}
p.Net.AddHosts = hosts
}
podPorts := getPodPorts(podYAML.Spec.Containers)
p.Net.PublishPorts = podPorts
if dnsConfig := podYAML.Spec.DNSConfig; dnsConfig != nil {
// name servers
if dnsServers := dnsConfig.Nameservers; len(dnsServers) > 0 {
servers := make([]net.IP, 0)
for _, server := range dnsServers {
servers = append(servers, net.ParseIP(server))
}
p.Net.DNSServers = servers
}
// search domains
if domains := dnsConfig.Searches; len(domains) > 0 {
p.Net.DNSSearch = domains
}
// dns options
if options := dnsConfig.Options; len(options) > 0 {
dnsOptions := make([]string, 0)
for _, opts := range options {
d := opts.Name
if opts.Value != nil {
d += ":" + *opts.Value
}
dnsOptions = append(dnsOptions, d)
}
}
}
return p, nil
}
type CtrSpecGenOptions struct {
// Annotations from the Pod
Annotations map[string]string
// Container as read from the pod yaml
Container v1.Container
// Image available to use (pulled or found local)
Image *libimage.Image
// Volumes for all containers
Volumes map[string]*KubeVolume
// PodID of the parent pod
PodID string
// PodName of the parent pod
PodName string
// PodInfraID as the infrastructure container id
PodInfraID string
// ConfigMaps the configuration maps for environment variables
ConfigMaps []v1.ConfigMap
// SeccompPaths for finding the seccomp profile path
SeccompPaths *KubeSeccompPaths
// RestartPolicy defines the restart policy of the container
RestartPolicy string
// NetNSIsHost tells the container to use the host netns
NetNSIsHost bool
// SecretManager to access the secrets
SecretsManager *secrets.SecretsManager
// LogDriver which should be used for the container
LogDriver string
// LogOptions log options which should be used for the container
LogOptions []string
// Labels define key-value pairs of metadata
Labels map[string]string
//
IsInfra bool
// InitContainerType sets what type the init container is
// Note: When playing a kube yaml, the inti container type will be set to "always" only
InitContainerType string
}
func ToSpecGen(ctx context.Context, opts *CtrSpecGenOptions) (*specgen.SpecGenerator, error) {
s := specgen.NewSpecGenerator(opts.Container.Image, false)
// pod name should be non-empty for Deployment objects to be able to create
// multiple pods having containers with unique names
if len(opts.PodName) < 1 {
return nil, errors.Errorf("got empty pod name on container creation when playing kube")
}
s.Name = fmt.Sprintf("%s-%s", opts.PodName, opts.Container.Name)
s.Terminal = opts.Container.TTY
s.Pod = opts.PodID
s.LogConfiguration = &specgen.LogConfig{
Driver: opts.LogDriver,
}
for _, o := range opts.LogOptions {
split := strings.SplitN(o, "=", 2)
if len(split) < 2 {
return nil, errors.Errorf("invalid log option %q", o)
}
switch strings.ToLower(split[0]) {
case "driver":
s.LogConfiguration.Driver = split[1]
case "path":
s.LogConfiguration.Path = split[1]
case "max-size":
logSize, err := units.FromHumanSize(split[1])
if err != nil {
return nil, err
}
s.LogConfiguration.Size = logSize
default:
s.LogConfiguration.Options[split[0]] = split[1]
}
}
s.InitContainerType = opts.InitContainerType
setupSecurityContext(s, opts.Container)
err := setupLivenessProbe(s, opts.Container, opts.RestartPolicy)
if err != nil {
return nil, errors.Wrap(err, "Failed to configure livenessProbe")
}
// Since we prefix the container name with pod name to work-around the uniqueness requirement,
// the seccomp profile should reference the actual container name from the YAML
// but apply to the containers with the prefixed name
s.SeccompProfilePath = opts.SeccompPaths.FindForContainer(opts.Container.Name)
s.ResourceLimits = &spec.LinuxResources{}
milliCPU, err := quantityToInt64(opts.Container.Resources.Limits.Cpu())
if err != nil {
return nil, errors.Wrap(err, "Failed to set CPU quota")
}
if milliCPU > 0 {
period, quota := util.CoresToPeriodAndQuota(float64(milliCPU))
s.ResourceLimits.CPU = &spec.LinuxCPU{
Quota: "a,
Period: &period,
}
}
limit, err := quantityToInt64(opts.Container.Resources.Limits.Memory())
if err != nil {
return nil, errors.Wrap(err, "Failed to set memory limit")
}
memoryRes, err := quantityToInt64(opts.Container.Resources.Requests.Memory())
if err != nil {
return nil, errors.Wrap(err, "Failed to set memory reservation")
}
if limit > 0 || memoryRes > 0 {
s.ResourceLimits.Memory = &spec.LinuxMemory{}
}
if limit > 0 {
s.ResourceLimits.Memory.Limit = &limit
}
if memoryRes > 0 {
s.ResourceLimits.Memory.Reservation = &memoryRes
}
// TODO: We don't understand why specgen does not take of this, but
// integration tests clearly pointed out that it was required.
imageData, err := opts.Image.Inspect(ctx, nil)
if err != nil {
return nil, err
}
s.WorkDir = "/"
// Entrypoint/Command handling is based off of
// https://kubernetes.io/docs/tasks/inject-data-application/define-command-argument-container/#notes
if imageData != nil && imageData.Config != nil {
if imageData.Config.WorkingDir != "" {
s.WorkDir = imageData.Config.WorkingDir
}
if s.User == "" {
s.User = imageData.Config.User
}
exposed, err := generate.GenExposedPorts(imageData.Config.ExposedPorts)
if err != nil {
return nil, err
}
for k, v := range s.Expose {
exposed[k] = v
}
s.Expose = exposed
// Pull entrypoint and cmd from image
s.Entrypoint = imageData.Config.Entrypoint
s.Command = imageData.Config.Cmd
s.Labels = imageData.Config.Labels
if len(imageData.Config.StopSignal) > 0 {
stopSignal, err := util.ParseSignal(imageData.Config.StopSignal)
if err != nil {
return nil, err
}
s.StopSignal = &stopSignal
}
}
// If only the yaml.Command is specified, set it as the entrypoint and drop the image Cmd
if !opts.IsInfra && len(opts.Container.Command) != 0 {
s.Entrypoint = opts.Container.Command
s.Command = []string{}
}
// Only override the cmd field if yaml.Args is specified
// Keep the image entrypoint, or the yaml.command if specified
if !opts.IsInfra && len(opts.Container.Args) != 0 {
s.Command = opts.Container.Args
}
// FIXME,
// we are currently ignoring imageData.Config.ExposedPorts
if !opts.IsInfra && opts.Container.WorkingDir != "" {
s.WorkDir = opts.Container.WorkingDir
}
annotations := make(map[string]string)
if opts.Annotations != nil {
annotations = opts.Annotations
}
if opts.PodInfraID != "" {
if annotations == nil {
}
annotations[ann.SandboxID] = opts.PodInfraID
annotations[ann.ContainerType] = ann.ContainerTypeContainer
}
s.Annotations = annotations
// Environment Variables
envs := map[string]string{}
for _, env := range imageData.Config.Env {
keyval := strings.SplitN(env, "=", 2)
envs[keyval[0]] = keyval[1]
}
for _, env := range opts.Container.Env {
value, err := envVarValue(env, opts)
if err != nil {
return nil, err
}
// Only set the env if the value is not nil
if value != nil {
envs[env.Name] = *value
}
}
for _, envFrom := range opts.Container.EnvFrom {
cmEnvs, err := envVarsFrom(envFrom, opts)
if err != nil {
return nil, err
}
for k, v := range cmEnvs {
envs[k] = v
}
}
s.Env = envs
for _, volume := range opts.Container.VolumeMounts {
volumeSource, exists := opts.Volumes[volume.Name]
if !exists {
return nil, errors.Errorf("Volume mount %s specified for container but not configured in volumes", volume.Name)
}
// Skip if the volume is optional. This means that a configmap for a configmap volume was not found but it was
// optional so we can move on without throwing an error
if exists && volumeSource.Optional {
continue
}
dest, options, err := parseMountPath(volume.MountPath, volume.ReadOnly, volume.MountPropagation)
if err != nil {
return nil, err
}
volume.MountPath = dest
switch volumeSource.Type {
case KubeVolumeTypeBindMount:
// If the container has bind mounts, we need to check if
// a selinux mount option exists for it
for k, v := range opts.Annotations {
// Make sure the z/Z option is not already there (from editing the YAML)
if strings.Replace(k, define.BindMountPrefix, "", 1) == volumeSource.Source && !util.StringInSlice("z", options) && !util.StringInSlice("Z", options) {
options = append(options, v)
}
}
mount := spec.Mount{
Destination: volume.MountPath,
Source: volumeSource.Source,
Type: "bind",
Options: options,
}
s.Mounts = append(s.Mounts, mount)
case KubeVolumeTypeNamed:
namedVolume := specgen.NamedVolume{
Dest: volume.MountPath,
Name: volumeSource.Source,
Options: options,
}
s.Volumes = append(s.Volumes, &namedVolume)
case KubeVolumeTypeConfigMap:
cmVolume := specgen.NamedVolume{
Dest: volume.MountPath,
Name: volumeSource.Source,
Options: options,
}
s.Volumes = append(s.Volumes, &cmVolume)
default:
return nil, errors.Errorf("Unsupported volume source type")
}
}
s.RestartPolicy = opts.RestartPolicy
if opts.NetNSIsHost {
s.NetNS.NSMode = specgen.Host
}
// Always set the userns to host since k8s doesn't have support for userns yet
s.UserNS.NSMode = specgen.Host
// Add labels that come from kube
if len(s.Labels) == 0 {
// If there are no labels, let's use the map that comes
// from kube
s.Labels = opts.Labels
} else {
// If there are already labels in the map, append the ones
// obtained from kube
for k, v := range opts.Labels {
s.Labels[k] = v
}
}
return s, nil
}
func parseMountPath(mountPath string, readOnly bool, propagationMode *v1.MountPropagationMode) (string, []string, error) {
options := []string{}
splitVol := strings.Split(mountPath, ":")
if len(splitVol) > 2 {
return "", options, errors.Errorf("%q incorrect volume format, should be ctr-dir[:option]", mountPath)
}
dest := splitVol[0]
if len(splitVol) > 1 {
options = strings.Split(splitVol[1], ",")
}
if err := parse.ValidateVolumeCtrDir(dest); err != nil {
return "", options, errors.Wrapf(err, "parsing MountPath")
}
if readOnly {
options = append(options, "ro")
}
opts, err := parse.ValidateVolumeOpts(options)
if err != nil {
return "", opts, errors.Wrapf(err, "parsing MountOptions")
}
if propagationMode != nil {
switch *propagationMode {
case v1.MountPropagationNone:
opts = append(opts, "private")
case v1.MountPropagationHostToContainer:
opts = append(opts, "rslave")
case v1.MountPropagationBidirectional:
opts = append(opts, "rshared")
default:
return "", opts, errors.Errorf("unknown propagation mode %q", *propagationMode)
}
}
return dest, opts, nil
}
func setupLivenessProbe(s *specgen.SpecGenerator, containerYAML v1.Container, restartPolicy string) error {
var err error
if containerYAML.LivenessProbe == nil {
return nil
}
emptyHandler := v1.Handler{}
if containerYAML.LivenessProbe.Handler != emptyHandler {
var commandString string
failureCmd := "exit 1"
probe := containerYAML.LivenessProbe
probeHandler := probe.Handler
// append `exit 1` to `cmd` so healthcheck can be marked as `unhealthy`.
// append `kill 1` to `cmd` if appropriate restart policy is configured.
if restartPolicy == "always" || restartPolicy == "onfailure" {
// container will be restarted so we can kill init.
failureCmd = "kill 1"
}
// configure healthcheck on the basis of Handler Actions.
if probeHandler.Exec != nil {
execString := strings.Join(probeHandler.Exec.Command, " ")
commandString = fmt.Sprintf("%s || %s", execString, failureCmd)
} else if probeHandler.HTTPGet != nil {
commandString = fmt.Sprintf("curl %s://%s:%d/%s || %s", probeHandler.HTTPGet.Scheme, probeHandler.HTTPGet.Host, probeHandler.HTTPGet.Port.IntValue(), probeHandler.HTTPGet.Path, failureCmd)
} else if probeHandler.TCPSocket != nil {
commandString = fmt.Sprintf("nc -z -v %s %d || %s", probeHandler.TCPSocket.Host, probeHandler.TCPSocket.Port.IntValue(), failureCmd)
}
s.HealthConfig, err = makeHealthCheck(commandString, probe.PeriodSeconds, probe.FailureThreshold, probe.TimeoutSeconds, probe.InitialDelaySeconds)
if err != nil {
return err
}
return nil
}
return nil
}
func makeHealthCheck(inCmd string, interval int32, retries int32, timeout int32, startPeriod int32) (*manifest.Schema2HealthConfig, error) {
// Every healthcheck requires a command
if len(inCmd) == 0 {
return nil, errors.New("Must define a healthcheck command for all healthchecks")
}
// first try to parse option value as JSON array of strings...
cmd := []string{}
if inCmd == "none" {
cmd = []string{"NONE"}
} else {
err := json.Unmarshal([]byte(inCmd), &cmd)
if err != nil {
// ...otherwise pass it to "/bin/sh -c" inside the container
cmd = []string{"CMD-SHELL"}
cmd = append(cmd, strings.Split(inCmd, " ")...)
}
}
hc := manifest.Schema2HealthConfig{
Test: cmd,
}
if interval < 1 {
//kubernetes interval defaults to 10 sec and cannot be less than 1
interval = 10
}
hc.Interval = (time.Duration(interval) * time.Second)
if retries < 1 {
//kubernetes retries defaults to 3
retries = 3
}
hc.Retries = int(retries)
if timeout < 1 {
//kubernetes timeout defaults to 1
timeout = 1
}
timeoutDuration := (time.Duration(timeout) * time.Second)
if timeoutDuration < time.Duration(1) {
return nil, errors.New("healthcheck-timeout must be at least 1 second")
}
hc.Timeout = timeoutDuration
startPeriodDuration := (time.Duration(startPeriod) * time.Second)
if startPeriodDuration < time.Duration(0) {
return nil, errors.New("healthcheck-start-period must be 0 seconds or greater")
}
hc.StartPeriod = startPeriodDuration
return &hc, nil
}
func setupSecurityContext(s *specgen.SpecGenerator, containerYAML v1.Container) {
if containerYAML.SecurityContext == nil {
return
}
if containerYAML.SecurityContext.ReadOnlyRootFilesystem != nil {
s.ReadOnlyFilesystem = *containerYAML.SecurityContext.ReadOnlyRootFilesystem
}
if containerYAML.SecurityContext.Privileged != nil {
s.Privileged = *containerYAML.SecurityContext.Privileged
}
if containerYAML.SecurityContext.AllowPrivilegeEscalation != nil {
s.NoNewPrivileges = !*containerYAML.SecurityContext.AllowPrivilegeEscalation
}
if seopt := containerYAML.SecurityContext.SELinuxOptions; seopt != nil {
if seopt.User != "" {
s.SelinuxOpts = append(s.SelinuxOpts, fmt.Sprintf("user:%s", seopt.User))
}
if seopt.Role != "" {
s.SelinuxOpts = append(s.SelinuxOpts, fmt.Sprintf("role:%s", seopt.Role))
}
if seopt.Type != "" {
s.SelinuxOpts = append(s.SelinuxOpts, fmt.Sprintf("type:%s", seopt.Type))
}
if seopt.Level != "" {
s.SelinuxOpts = append(s.SelinuxOpts, fmt.Sprintf("level:%s", seopt.Level))
}
}
if caps := containerYAML.SecurityContext.Capabilities; caps != nil {
for _, capability := range caps.Add {
s.CapAdd = append(s.CapAdd, string(capability))
}
for _, capability := range caps.Drop {
s.CapDrop = append(s.CapDrop, string(capability))
}
}
if containerYAML.SecurityContext.RunAsUser != nil {
s.User = fmt.Sprintf("%d", *containerYAML.SecurityContext.RunAsUser)
}
if containerYAML.SecurityContext.RunAsGroup != nil {
if s.User == "" {
s.User = "0"
}
s.User = fmt.Sprintf("%s:%d", s.User, *containerYAML.SecurityContext.RunAsGroup)
}
}
func quantityToInt64(quantity *resource.Quantity) (int64, error) {
if i, ok := quantity.AsInt64(); ok {
return i, nil
}
if i, ok := quantity.AsDec().Unscaled(); ok {
return i, nil
}
return 0, errors.Errorf("Quantity cannot be represented as int64: %v", quantity)
}
// read a k8s secret in JSON format from the secret manager
func k8sSecretFromSecretManager(name string, secretsManager *secrets.SecretsManager) (map[string][]byte, error) {
_, jsonSecret, err := secretsManager.LookupSecretData(name)
if err != nil {
return nil, err
}
var secrets map[string][]byte
if err := json.Unmarshal(jsonSecret, &secrets); err != nil {
return nil, errors.Errorf("Secret %v is not valid JSON: %v", name, err)
}
return secrets, nil
}
// envVarsFrom returns all key-value pairs as env vars from a configMap or secret that matches the envFrom setting of a container
func envVarsFrom(envFrom v1.EnvFromSource, opts *CtrSpecGenOptions) (map[string]string, error) {
envs := map[string]string{}
if envFrom.ConfigMapRef != nil {
cmRef := envFrom.ConfigMapRef
err := errors.Errorf("Configmap %v not found", cmRef.Name)
for _, c := range opts.ConfigMaps {
if cmRef.Name == c.Name {
envs = c.Data
err = nil
break
}
}
if err != nil && (cmRef.Optional == nil || !*cmRef.Optional) {
return nil, err
}
}
if envFrom.SecretRef != nil {
secRef := envFrom.SecretRef
secret, err := k8sSecretFromSecretManager(secRef.Name, opts.SecretsManager)
if err == nil {
for k, v := range secret {
envs[k] = string(v)
}
} else if secRef.Optional == nil || !*secRef.Optional {
return nil, err
}
}
return envs, nil
}
// envVarValue returns the environment variable value configured within the container's env setting.
// It gets the value from a configMap or secret if specified, otherwise returns env.Value
func envVarValue(env v1.EnvVar, opts *CtrSpecGenOptions) (*string, error) {
if env.ValueFrom != nil {
if env.ValueFrom.ConfigMapKeyRef != nil {
cmKeyRef := env.ValueFrom.ConfigMapKeyRef
err := errors.Errorf("Cannot set env %v: configmap %v not found", env.Name, cmKeyRef.Name)
for _, c := range opts.ConfigMaps {
if cmKeyRef.Name == c.Name {
if value, ok := c.Data[cmKeyRef.Key]; ok {
return &value, nil
}
err = errors.Errorf("Cannot set env %v: key %s not found in configmap %v", env.Name, cmKeyRef.Key, cmKeyRef.Name)
break
}
}
if cmKeyRef.Optional == nil || !*cmKeyRef.Optional {
return nil, err
}
return nil, nil
}
if env.ValueFrom.SecretKeyRef != nil {
secKeyRef := env.ValueFrom.SecretKeyRef
secret, err := k8sSecretFromSecretManager(secKeyRef.Name, opts.SecretsManager)
if err == nil {
if val, ok := secret[secKeyRef.Key]; ok {
value := string(val)
return &value, nil
}
err = errors.Errorf("Secret %v has not %v key", secKeyRef.Name, secKeyRef.Key)
}
if secKeyRef.Optional == nil || !*secKeyRef.Optional {
return nil, errors.Errorf("Cannot set env %v: %v", env.Name, err)
}
return nil, nil
}
if env.ValueFrom.FieldRef != nil {
return envVarValueFieldRef(env, opts)
}
if env.ValueFrom.ResourceFieldRef != nil {
return envVarValueResourceFieldRef(env, opts)
}
}
return &env.Value, nil
}
func envVarValueFieldRef(env v1.EnvVar, opts *CtrSpecGenOptions) (*string, error) {
fieldRef := env.ValueFrom.FieldRef
fieldPathLabelPattern := `^metadata.labels\['(.+)'\]$`
fieldPathLabelRegex := regexp.MustCompile(fieldPathLabelPattern)
fieldPathAnnotationPattern := `^metadata.annotations\['(.+)'\]$`
fieldPathAnnotationRegex := regexp.MustCompile(fieldPathAnnotationPattern)
fieldPath := fieldRef.FieldPath
if fieldPath == "metadata.name" {
return &opts.PodName, nil
}
if fieldPath == "metadata.uid" {
return &opts.PodID, nil
}
fieldPathMatches := fieldPathLabelRegex.FindStringSubmatch(fieldPath)
if len(fieldPathMatches) == 2 { // 1 for entire regex and 1 for subexp
labelValue := opts.Labels[fieldPathMatches[1]] // not existent label is OK
return &labelValue, nil
}
fieldPathMatches = fieldPathAnnotationRegex.FindStringSubmatch(fieldPath)
if len(fieldPathMatches) == 2 { // 1 for entire regex and 1 for subexp
annotationValue := opts.Annotations[fieldPathMatches[1]] // not existent annotation is OK
return &annotationValue, nil
}
return nil, errors.Errorf(
"Can not set env %v. Reason: fieldPath %v is either not valid or not supported",
env.Name, fieldPath,
)
}
func envVarValueResourceFieldRef(env v1.EnvVar, opts *CtrSpecGenOptions) (*string, error) {
divisor := env.ValueFrom.ResourceFieldRef.Divisor
if divisor.IsZero() { // divisor not set, use default
divisor.Set(1)
}
resources, err := getContainerResources(opts.Container)
if err != nil {
return nil, err
}
var value *resource.Quantity
resourceName := env.ValueFrom.ResourceFieldRef.Resource
var isValidDivisor bool
switch resourceName {
case "limits.memory":
value = resources.Limits.Memory()
isValidDivisor = isMemoryDivisor(divisor)
case "limits.cpu":
value = resources.Limits.Cpu()
isValidDivisor = isCPUDivisor(divisor)
case "requests.memory":
value = resources.Requests.Memory()
isValidDivisor = isMemoryDivisor(divisor)
case "requests.cpu":
value = resources.Requests.Cpu()
isValidDivisor = isCPUDivisor(divisor)
default:
return nil, errors.Errorf(
"Can not set env %v. Reason: resource %v is either not valid or not supported",
env.Name, resourceName,
)
}
if !isValidDivisor {
return nil, errors.Errorf(
"Can not set env %s. Reason: divisor value %s is not valid",
env.Name, divisor.String(),
)
}
// k8s rounds up the result to the nearest integer
intValue := int(math.Ceil(value.AsApproximateFloat64() / divisor.AsApproximateFloat64()))
stringValue := strconv.Itoa(intValue)
return &stringValue, nil
}
func isMemoryDivisor(divisor resource.Quantity) bool {
switch divisor.String() {
case "1", "1k", "1M", "1G", "1T", "1P", "1E", "1Ki", "1Mi", "1Gi", "1Ti", "1Pi", "1Ei":
return true
default:
return false
}
}
func isCPUDivisor(divisor resource.Quantity) bool {
switch divisor.String() {
case "1", "1m":
return true
default:
return false
}
}
func getContainerResources(container v1.Container) (v1.ResourceRequirements, error) {
result := v1.ResourceRequirements{
Limits: v1.ResourceList{},
Requests: v1.ResourceList{},
}
limits := container.Resources.Limits
requests := container.Resources.Requests
if limits == nil || limits.Memory().IsZero() {
mi, err := system.ReadMemInfo()
if err != nil {
return result, err
}
result.Limits[v1.ResourceMemory] = *resource.NewQuantity(mi.MemTotal, resource.DecimalSI)
} else {
result.Limits[v1.ResourceMemory] = limits[v1.ResourceMemory]
}
if limits == nil || limits.Cpu().IsZero() {
result.Limits[v1.ResourceCPU] = *resource.NewQuantity(int64(runtime.NumCPU()), resource.DecimalSI)
} else {
result.Limits[v1.ResourceCPU] = limits[v1.ResourceCPU]
}
if requests == nil || requests.Memory().IsZero() {
result.Requests[v1.ResourceMemory] = result.Limits[v1.ResourceMemory]
} else {
result.Requests[v1.ResourceMemory] = requests[v1.ResourceMemory]
}
if requests == nil || requests.Cpu().IsZero() {
result.Requests[v1.ResourceCPU] = result.Limits[v1.ResourceCPU]
} else {
result.Requests[v1.ResourceCPU] = requests[v1.ResourceCPU]
}
return result, nil
}
// getPodPorts converts a slice of kube container descriptions to an
// array of portmapping
func getPodPorts(containers []v1.Container) []types.PortMapping {
var infraPorts []types.PortMapping
for _, container := range containers {
for _, p := range container.Ports {
if p.HostPort != 0 && p.ContainerPort == 0 {
p.ContainerPort = p.HostPort
}
if p.Protocol == "" {
p.Protocol = "tcp"
}
portBinding := types.PortMapping{
HostPort: uint16(p.HostPort),
ContainerPort: uint16(p.ContainerPort),
Protocol: strings.ToLower(string(p.Protocol)),
HostIP: p.HostIP,
}
// only hostPort is utilized in podman context, all container ports
// are accessible inside the shared network namespace
if p.HostPort != 0 {
infraPorts = append(infraPorts, portBinding)
}
}
}
return infraPorts
}
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