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registry.go
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registry.go
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package registry
import (
cryptorand "crypto/rand"
"encoding/base64"
"fmt"
"io"
"io/ioutil"
"os"
"path"
"strconv"
"strings"
"github.com/spf13/cobra"
"k8s.io/apimachinery/pkg/api/errors"
"k8s.io/apimachinery/pkg/api/resource"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/intstr"
kapi "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/extensions"
kcoreclient "k8s.io/kubernetes/pkg/client/clientset_generated/internalclientset/typed/core/internalversion"
"k8s.io/kubernetes/pkg/kubectl/cmd/templates"
kcmdutil "k8s.io/kubernetes/pkg/kubectl/cmd/util"
authapi "github.com/openshift/origin/pkg/authorization/apis/authorization"
cmdutil "github.com/openshift/origin/pkg/cmd/util"
"github.com/openshift/origin/pkg/cmd/util/variable"
"github.com/openshift/origin/pkg/oc/cli/util/clientcmd"
appsapi "github.com/openshift/origin/pkg/apps/apis/apps"
configcmd "github.com/openshift/origin/pkg/config/cmd"
"github.com/openshift/origin/pkg/generate/app"
)
var (
registryLong = templates.LongDesc(`
Install or configure an integrated Docker registry
This command sets up a Docker registry integrated with your cluster to provide notifications when
images are pushed. With no arguments, the command will check for the existing registry service
called 'docker-registry' and try to create it. If you want to test whether the registry has
been created add the --dry-run flag and the command will exit with 1 if the registry does not
exist.
To run a highly available registry, you should be using a remote storage mechanism like an
object store (several are supported by the Docker registry). The default Docker registry image
is configured to accept configuration as environment variables - refer to the configuration file in
that image for more on setting up alternative storage. Once you've made those changes, you can
pass --replicas=2 or higher to ensure you have failover protection. The default registry setup
uses a local volume and the data will be lost if you delete the running pod.
If multiple ports are specified using the option --ports, the first specified port will be
chosen for use as the REGISTRY_HTTP_ADDR and will be passed to Docker registry.
NOTE: This command is intended to simplify the tasks of setting up a Docker registry in a new
installation. Some configuration beyond this command is still required to make
your registry persist data.`)
registryExample = templates.Examples(`
# Check if default Docker registry ("docker-registry") has been created
%[1]s %[2]s --dry-run
# See what the registry will look like if created
%[1]s %[2]s -o yaml
# Create a registry with two replicas if it does not exist
%[1]s %[2]s --replicas=2
# Use a different registry image
%[1]s %[2]s --images=myrepo/docker-registry:mytag
# Enforce quota and limits on images
%[1]s %[2]s --enforce-quota`)
)
// RegistryOptions contains the configuration for the registry as well as any other
// helpers required to run the command.
type RegistryOptions struct {
Config *RegistryConfig
// helpers required for Run.
factory *clientcmd.Factory
cmd *cobra.Command
out io.Writer
label map[string]string
nodeSelector map[string]string
ports []kapi.ContainerPort
namespace string
serviceClient kcoreclient.ServicesGetter
image string
}
// RegistryConfig contains configuration for the registry that will be created.
type RegistryConfig struct {
Action configcmd.BulkAction
Name string
Type string
ImageTemplate variable.ImageTemplate
Ports string
Replicas int32
Labels string
Volume string
HostMount string
DryRun bool
Selector string
ServiceAccount string
DaemonSet bool
EnforceQuota bool
// SupplementalGroups is list of int64, however cobra does not have appropriate func
// for that type list.
SupplementalGroups []string
FSGroup string
ServingCertPath string
ServingKeyPath string
ClusterIP string
// TODO: accept environment values.
}
// randomSecretSize is the number of random bytes to generate.
const randomSecretSize = 32
const (
defaultLabel = "docker-registry=default"
defaultPort = 5000
/* TODO: `/healthz` has been deprecated by `/`; keep it temporarily for backwards compatibility until
* a next major release with a strict requirement on newer registry image
* NOTE that `/` is supported since ose `v3.1.1.0`
* To make the transition safe, we could change `HTTPGetAction` to an `ExecAction` which would first curl
* `/` and then fallback to `/healthz` if unreachable. Reachable endpoint could be cached on tmpfs inside
* a container and be used on subsequent checks. */
healthzRoute = "/healthz"
healthzRouteTimeoutSeconds = 5
// this is the official private certificate path on Red Hat distros, and is at least structurally more
// correct than ubuntu based distributions which don't distinguish between public and private certs.
// Since Origin is CentOS based this is more likely to work. Ubuntu images should symlink this directory
// into /etc/ssl/certs to be compatible.
defaultCertificateDir = "/etc/pki/tls/private"
)
// NewCmdRegistry implements the OpenShift cli registry command
func NewCmdRegistry(f *clientcmd.Factory, parentName, name string, out, errout io.Writer) *cobra.Command {
cfg := &RegistryConfig{
ImageTemplate: variable.NewDefaultImageTemplate(),
Name: "registry",
Labels: defaultLabel,
Ports: strconv.Itoa(defaultPort),
Volume: "/registry",
ServiceAccount: "registry",
Replicas: 1,
EnforceQuota: false,
}
cmd := &cobra.Command{
Use: name,
Short: "Install the integrated Docker registry",
Long: registryLong,
Example: fmt.Sprintf(registryExample, parentName, name),
Run: func(cmd *cobra.Command, args []string) {
opts := &RegistryOptions{
Config: cfg,
}
kcmdutil.CheckErr(opts.Complete(f, cmd, out, errout, args))
err := opts.RunCmdRegistry()
if err == kcmdutil.ErrExit {
os.Exit(1)
}
kcmdutil.CheckErr(err)
},
}
cmd.Flags().StringVar(&cfg.Type, "type", "docker-registry", "The registry image to use - if you specify --images this flag may be ignored.")
cmd.Flags().StringVar(&cfg.ImageTemplate.Format, "images", cfg.ImageTemplate.Format, "The image to base this registry on - ${component} will be replaced with --type")
cmd.Flags().BoolVar(&cfg.ImageTemplate.Latest, "latest-images", cfg.ImageTemplate.Latest, "If true, attempt to use the latest image for the registry instead of the latest release.")
cmd.Flags().StringVar(&cfg.Ports, "ports", cfg.Ports, fmt.Sprintf("A comma delimited list of ports or port pairs to expose on the registry pod. The default is set for %d.", defaultPort))
cmd.Flags().Int32Var(&cfg.Replicas, "replicas", cfg.Replicas, "The replication factor of the registry; commonly 2 when high availability is desired.")
cmd.Flags().StringVar(&cfg.Labels, "labels", cfg.Labels, "A set of labels to uniquely identify the registry and its components.")
cmd.Flags().StringVar(&cfg.Volume, "volume", cfg.Volume, "The volume path to use for registry storage; defaults to /registry which is the default for origin-docker-registry.")
cmd.Flags().StringVar(&cfg.HostMount, "mount-host", cfg.HostMount, "If set, the registry volume will be created as a host-mount at this path.")
cmd.Flags().Bool("create", false, "deprecated; this is now the default behavior")
cmd.Flags().StringVar(&cfg.ServiceAccount, "service-account", cfg.ServiceAccount, "Name of the service account to use to run the registry pod.")
cmd.Flags().StringVar(&cfg.Selector, "selector", cfg.Selector, "Selector used to filter nodes on deployment. Used to run registries on a specific set of nodes.")
cmd.Flags().StringVar(&cfg.ServingCertPath, "tls-certificate", cfg.ServingCertPath, "An optional path to a PEM encoded certificate (which may contain the private key) for serving over TLS")
cmd.Flags().StringVar(&cfg.ServingKeyPath, "tls-key", cfg.ServingKeyPath, "An optional path to a PEM encoded private key for serving over TLS")
cmd.Flags().StringSliceVar(&cfg.SupplementalGroups, "supplemental-groups", cfg.SupplementalGroups, "Specify supplemental groups which is an array of ID's that grants group access to registry shared storage")
cmd.Flags().StringVar(&cfg.FSGroup, "fs-group", "", "Specify fsGroup which is an ID that grants group access to registry block storage")
cmd.Flags().BoolVar(&cfg.DaemonSet, "daemonset", cfg.DaemonSet, "If true, use a daemonset instead of a deployment config.")
cmd.Flags().BoolVar(&cfg.EnforceQuota, "enforce-quota", cfg.EnforceQuota, "If true, the registry will refuse to write blobs if they exceed quota limits")
cfg.Action.BindForOutput(cmd.Flags())
cmd.Flags().String("output-version", "", "The preferred API versions of the output objects")
return cmd
}
// Complete completes any options that are required by validate or run steps.
func (opts *RegistryOptions) Complete(f *clientcmd.Factory, cmd *cobra.Command, out, errout io.Writer, args []string) error {
if len(args) > 0 {
return kcmdutil.UsageErrorf(cmd, "No arguments are allowed to this command")
}
opts.image = opts.Config.ImageTemplate.ExpandOrDie(opts.Config.Type)
opts.label = map[string]string{
"docker-registry": "default",
}
if opts.Config.Labels != defaultLabel {
valid, remove, err := app.LabelsFromSpec(strings.Split(opts.Config.Labels, ","))
if err != nil {
return err
}
if len(remove) > 0 {
return kcmdutil.UsageErrorf(cmd, "You may not pass negative labels in %q", opts.Config.Labels)
}
opts.label = valid
}
opts.nodeSelector = map[string]string{}
if len(opts.Config.Selector) > 0 {
valid, remove, err := app.LabelsFromSpec(strings.Split(opts.Config.Selector, ","))
if err != nil {
return err
}
if len(remove) > 0 {
return kcmdutil.UsageErrorf(cmd, "You may not pass negative labels in selector %q", opts.Config.Selector)
}
opts.nodeSelector = valid
}
if len(opts.Config.FSGroup) > 0 {
if _, err := strconv.ParseInt(opts.Config.FSGroup, 10, 64); err != nil {
return kcmdutil.UsageErrorf(cmd, "invalid group ID %q specified for fsGroup (%v)", opts.Config.FSGroup, err)
}
}
if len(opts.Config.SupplementalGroups) > 0 {
for _, v := range opts.Config.SupplementalGroups {
if val, err := strconv.ParseInt(v, 10, 64); err != nil || val == 0 {
return kcmdutil.UsageErrorf(cmd, "invalid group ID %q specified for supplemental group (%v)", v, err)
}
}
}
if len(opts.Config.SupplementalGroups) > 0 && len(opts.Config.FSGroup) > 0 {
return kcmdutil.UsageErrorf(cmd, "fsGroup and supplemental groups cannot be specified both at the same time")
}
var portsErr error
if opts.ports, portsErr = app.ContainerPortsFromString(opts.Config.Ports); portsErr != nil {
return portsErr
}
var nsErr error
if opts.namespace, _, nsErr = f.DefaultNamespace(); nsErr != nil {
return fmt.Errorf("error getting namespace: %v", nsErr)
}
kClient, kClientErr := f.ClientSet()
if kClientErr != nil {
return fmt.Errorf("error getting client: %v", kClientErr)
}
opts.serviceClient = kClient.Core()
opts.Config.Action.Bulk.Mapper = clientcmd.ResourceMapper(f)
opts.Config.Action.Out, opts.Config.Action.ErrOut = out, errout
opts.Config.Action.Bulk.Op = configcmd.Create
opts.out = out
opts.cmd = cmd
opts.factory = f
return nil
}
// RunCmdRegistry contains all the necessary functionality for the OpenShift cli registry command
func (opts *RegistryOptions) RunCmdRegistry() error {
name := "docker-registry"
var clusterIP string
output := opts.Config.Action.ShouldPrint()
generate := output
service, err := opts.serviceClient.Services(opts.namespace).Get(name, metav1.GetOptions{})
if err != nil {
if !generate {
if !errors.IsNotFound(err) {
return fmt.Errorf("can't check for existing docker-registry %q: %v", name, err)
}
if opts.Config.Action.DryRun {
return fmt.Errorf("Docker registry %q service does not exist", name)
}
generate = true
}
} else {
clusterIP = service.Spec.ClusterIP
}
if !generate {
fmt.Fprintf(opts.out, "Docker registry %q service exists\n", name)
return nil
}
if len(opts.Config.ClusterIP) > 0 {
clusterIP = opts.Config.ClusterIP
}
// create new registry
secretEnv := app.Environment{}
if len(opts.Config.ServiceAccount) == 0 {
return fmt.Errorf("registry could not be created; a service account must be provided")
}
var servingCert, servingKey []byte
if len(opts.Config.ServingCertPath) > 0 {
data, err := ioutil.ReadFile(opts.Config.ServingCertPath)
if err != nil {
return fmt.Errorf("registry does not exist; could not load TLS certificate file %q: %v", opts.Config.ServingCertPath, err)
}
servingCert = data
}
if len(opts.Config.ServingKeyPath) > 0 {
data, err := ioutil.ReadFile(opts.Config.ServingKeyPath)
if err != nil {
return fmt.Errorf("registry does not exist; could not load TLS private key file %q: %v", opts.Config.ServingKeyPath, err)
}
servingKey = data
}
env := app.Environment{}
env.Add(secretEnv)
env["REGISTRY_MIDDLEWARE_REPOSITORY_OPENSHIFT_ENFORCEQUOTA"] = fmt.Sprintf("%t", opts.Config.EnforceQuota)
healthzPort := defaultPort
if len(opts.ports) > 0 {
healthzPort = int(opts.ports[0].ContainerPort)
env["REGISTRY_HTTP_ADDR"] = fmt.Sprintf(":%d", healthzPort)
env["REGISTRY_HTTP_NET"] = "tcp"
}
secrets, volumes, mounts, extraEnv, tls, err := generateSecretsConfig(opts.Config, servingCert, servingKey)
if err != nil {
return err
}
env.Add(extraEnv)
livenessProbe := generateLivenessProbeConfig(healthzPort, tls)
readinessProbe := generateReadinessProbeConfig(healthzPort, tls)
mountHost := len(opts.Config.HostMount) > 0
podTemplate := &kapi.PodTemplateSpec{
ObjectMeta: metav1.ObjectMeta{Labels: opts.label},
Spec: kapi.PodSpec{
NodeSelector: opts.nodeSelector,
Containers: []kapi.Container{
{
Name: "registry",
Image: opts.image,
Ports: opts.ports,
Env: env.List(),
VolumeMounts: append(mounts, kapi.VolumeMount{
Name: "registry-storage",
MountPath: opts.Config.Volume,
}),
SecurityContext: &kapi.SecurityContext{
Privileged: &mountHost,
},
LivenessProbe: livenessProbe,
ReadinessProbe: readinessProbe,
Resources: kapi.ResourceRequirements{
Requests: kapi.ResourceList{
kapi.ResourceCPU: resource.MustParse("100m"),
kapi.ResourceMemory: resource.MustParse("256Mi"),
},
},
},
},
Volumes: append(volumes, kapi.Volume{
Name: "registry-storage",
VolumeSource: kapi.VolumeSource{},
}),
ServiceAccountName: opts.Config.ServiceAccount,
SecurityContext: generateSecurityContext(opts.Config),
},
}
if mountHost {
podTemplate.Spec.Volumes[len(podTemplate.Spec.Volumes)-1].HostPath = &kapi.HostPathVolumeSource{Path: opts.Config.HostMount}
} else {
podTemplate.Spec.Volumes[len(podTemplate.Spec.Volumes)-1].EmptyDir = &kapi.EmptyDirVolumeSource{}
}
objects := []runtime.Object{}
for _, s := range secrets {
objects = append(objects, s)
}
objects = append(objects,
&kapi.ServiceAccount{ObjectMeta: metav1.ObjectMeta{Name: opts.Config.ServiceAccount}},
&authapi.ClusterRoleBinding{
ObjectMeta: metav1.ObjectMeta{Name: fmt.Sprintf("registry-%s-role", opts.Config.Name)},
Subjects: []kapi.ObjectReference{
{
Kind: "ServiceAccount",
Name: opts.Config.ServiceAccount,
Namespace: opts.namespace,
},
},
RoleRef: kapi.ObjectReference{
Kind: "ClusterRole",
Name: "system:registry",
},
},
)
if opts.Config.DaemonSet {
objects = append(objects, &extensions.DaemonSet{
ObjectMeta: metav1.ObjectMeta{
Name: name,
Labels: opts.label,
},
Spec: extensions.DaemonSetSpec{
Selector: &metav1.LabelSelector{MatchLabels: opts.label},
Template: kapi.PodTemplateSpec{
ObjectMeta: podTemplate.ObjectMeta,
Spec: podTemplate.Spec,
},
},
})
} else {
objects = append(objects, &appsapi.DeploymentConfig{
ObjectMeta: metav1.ObjectMeta{
Name: name,
Labels: opts.label,
},
Spec: appsapi.DeploymentConfigSpec{
Replicas: opts.Config.Replicas,
Selector: opts.label,
Triggers: []appsapi.DeploymentTriggerPolicy{
{Type: appsapi.DeploymentTriggerOnConfigChange},
},
Template: podTemplate,
},
})
}
objects = app.AddServices(objects, true)
// Set registry service's sessionAffinity to ClientIP to prevent push
// failures due to a use of poorly consistent storage shared by
// multiple replicas. Also reuse the cluster IP if provided to avoid
// changing the internal value.
for _, obj := range objects {
switch t := obj.(type) {
case *kapi.Service:
t.Spec.SessionAffinity = kapi.ServiceAffinityClientIP
t.Spec.ClusterIP = clusterIP
}
}
// TODO: label all created objects with the same label
list := &kapi.List{Items: objects}
if opts.Config.Action.ShouldPrint() {
mapper, _ := opts.factory.Object()
opts.cmd.Flag("output-version").Value.Set("extensions/v1beta1,v1")
fn := cmdutil.VersionedPrintObject(opts.factory.PrintObject, opts.cmd, mapper, opts.out)
if err := fn(list); err != nil {
return fmt.Errorf("unable to print object: %v", err)
}
return nil
}
if errs := opts.Config.Action.WithMessage(fmt.Sprintf("Creating registry %s", opts.Config.Name), "created").Run(list, opts.namespace); len(errs) > 0 {
return kcmdutil.ErrExit
}
return nil
}
func generateLivenessProbeConfig(port int, https bool) *kapi.Probe {
probeConfig := generateProbeConfig(port, https)
probeConfig.InitialDelaySeconds = 10
return probeConfig
}
func generateReadinessProbeConfig(port int, https bool) *kapi.Probe {
return generateProbeConfig(port, https)
}
func generateProbeConfig(port int, https bool) *kapi.Probe {
var scheme kapi.URIScheme
if https {
scheme = kapi.URISchemeHTTPS
}
return &kapi.Probe{
TimeoutSeconds: healthzRouteTimeoutSeconds,
Handler: kapi.Handler{
HTTPGet: &kapi.HTTPGetAction{
Scheme: scheme,
Path: healthzRoute,
Port: intstr.FromInt(port),
},
},
}
}
// generateSecretsConfig generates any Secret and Volume objects, such
// as the TLS serving cert that are necessary for the registry container.
// Runs true if the registry should be served over TLS.
func generateSecretsConfig(
cfg *RegistryConfig, defaultCrt, defaultKey []byte,
) ([]*kapi.Secret, []kapi.Volume, []kapi.VolumeMount, app.Environment, bool, error) {
var secrets []*kapi.Secret
var volumes []kapi.Volume
var mounts []kapi.VolumeMount
extraEnv := app.Environment{}
if len(defaultCrt) > 0 && len(defaultKey) == 0 {
keys, err := cmdutil.PrivateKeysFromPEM(defaultCrt)
if err != nil {
return nil, nil, nil, nil, false, err
}
if len(keys) == 0 {
return nil, nil, nil, nil, false, fmt.Errorf("the default cert must contain a private key")
}
defaultKey = keys
}
if len(defaultCrt) > 0 {
secret := &kapi.Secret{
ObjectMeta: metav1.ObjectMeta{
Name: fmt.Sprintf("%s-certs", cfg.Name),
},
Type: kapi.SecretTypeTLS,
Data: map[string][]byte{
kapi.TLSCertKey: defaultCrt,
kapi.TLSPrivateKeyKey: defaultKey,
},
}
secrets = append(secrets, secret)
volume := kapi.Volume{
Name: "server-certificate",
VolumeSource: kapi.VolumeSource{
Secret: &kapi.SecretVolumeSource{
SecretName: secret.Name,
},
},
}
volumes = append(volumes, volume)
mount := kapi.VolumeMount{
Name: volume.Name,
ReadOnly: true,
MountPath: defaultCertificateDir,
}
mounts = append(mounts, mount)
extraEnv.Add(app.Environment{
"REGISTRY_HTTP_TLS_CERTIFICATE": path.Join(defaultCertificateDir, kapi.TLSCertKey),
"REGISTRY_HTTP_TLS_KEY": path.Join(defaultCertificateDir, kapi.TLSPrivateKeyKey),
})
}
secretBytes := make([]byte, randomSecretSize)
if _, err := cryptorand.Read(secretBytes); err != nil {
return nil, nil, nil, nil, false, fmt.Errorf("registry does not exist; could not generate random bytes for HTTP secret: %v", err)
}
httpSecretString := base64.StdEncoding.EncodeToString(secretBytes)
extraEnv["REGISTRY_HTTP_SECRET"] = httpSecretString
return secrets, volumes, mounts, extraEnv, len(defaultCrt) > 0, nil
}
func generateSecurityContext(conf *RegistryConfig) *kapi.PodSecurityContext {
result := &kapi.PodSecurityContext{}
if len(conf.SupplementalGroups) > 0 {
result.SupplementalGroups = []int64{}
for _, val := range conf.SupplementalGroups {
// The errors are handled by Complete()
if groupID, err := strconv.ParseInt(val, 10, 64); err == nil {
result.SupplementalGroups = append(result.SupplementalGroups, groupID)
}
}
}
if len(conf.FSGroup) > 0 {
if groupID, err := strconv.ParseInt(conf.FSGroup, 10, 64); err == nil {
result.FSGroup = &groupID
}
}
return result
}