func TestCADataClearsCA(t *testing.T) {
fakeCAFile, _ := ioutil.TempFile("", "")
defer os.Remove(fakeCAFile.Name())
fakeData := []byte("cadata")
ioutil.WriteFile(fakeCAFile.Name(), fakeData, 0600)
clusterInfoWithCAData := clientcmdapi.NewCluster()
clusterInfoWithCAData.CertificateAuthorityData = fakeData
clusterInfoWithCA := clientcmdapi.NewCluster()
clusterInfoWithCA.CertificateAuthority = "cafile"
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clusterInfoWithCA
expectedConfig := newRedFederalCowHammerConfig()
expectedConfig.Clusters["another-cluster"] = clusterInfoWithCAData
test := configCommandTest{
args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagCAFile + "=" + fakeCAFile.Name(), "--" + clientcmd.FlagEmbedCerts + "=true"},
startingConfig: startingConfig,
expectedConfig: expectedConfig,
}
test.run(t)
}
// SetupContext creates a new cluster and context in ~/.kube using the provided API Server. If setCurrent is true, it is made the current context.
func SetupContext(clusterName, contextName, kubeAPIServer string, setCurrent bool) error {
pathOpts := kubectlcfg.NewDefaultPathOptions()
config, err := getConfig(pathOpts)
if err != nil {
return err
}
cluster, exists := config.Clusters[clusterName]
if !exists {
cluster = kubecfg.NewCluster()
}
// configure cluster
cluster.Server = kubeAPIServer
cluster.InsecureSkipTLSVerify = true
config.Clusters[clusterName] = cluster
context, exists := config.Contexts[contextName]
if !exists {
context = kubecfg.NewContext()
}
// configure context
context.Cluster = clusterName
config.Contexts[contextName] = context
// set as current if requested
if setCurrent {
config.CurrentContext = contextName
}
return kubectlcfg.ModifyConfig(pathOpts, *config, true)
}
func TestSetBytesBad(t *testing.T) {
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clientcmdapi.NewCluster()
test := configCommandTest{
args: []string{"set", "clusters.another-cluster.certificate-authority-data", "cadata"},
startingConfig: startingConfig,
expectedConfig: startingConfig,
}
func() {
defer func() {
// Restore cmdutil behavior.
cmdutil.DefaultBehaviorOnFatal()
}()
// Check exit code.
cmdutil.BehaviorOnFatal(func(e string, code int) {
if code != 1 {
t.Errorf("The exit code is %d, expected 1", code)
}
})
test.run(t)
}()
}
// setupKubeconfig reads config from disk, adds the minikube settings, and writes it back.
// activeContext is true when minikube is the CurrentContext
// If no CurrentContext is set, the given name will be used.
func setupKubeconfig(server, certAuth string) error {
configFile := constants.KubeconfigPath
// read existing config or create new if does not exist
config, err := kubeconfig.ReadConfigOrNew(configFile)
if err != nil {
return err
}
currentContextName := config.CurrentContext
currentContext := config.Contexts[currentContextName]
clusterName, err := ocfg.GetClusterNicknameFromURL(server)
if err != nil {
return err
}
cluster := cfg.NewCluster()
cluster.Server = server
cluster.CertificateAuthorityData = []byte(certAuth)
config.Clusters[clusterName] = cluster
// user
userName := "******" + clusterName
user := cfg.NewAuthInfo()
if currentContext != nil && currentContext.AuthInfo == userName {
currentUser := config.AuthInfos[userName]
if currentUser != nil {
user.Token = config.AuthInfos[userName].Token
}
}
config.AuthInfos[userName] = user
// context
context := cfg.NewContext()
context.Cluster = clusterName
context.AuthInfo = userName
context.Namespace = api.NamespaceDefault
contextName := ocfg.GetContextNickname(api.NamespaceDefault, clusterName, userName)
if currentContext != nil && currentContext.Cluster == clusterName && currentContext.AuthInfo == userName {
contextName = currentContextName
context.Namespace = currentContext.Namespace
}
config.Contexts[contextName] = context
config.CurrentContext = contextName
// write back to disk
if err := kubeconfig.WriteConfig(config, configFile); err != nil {
return err
}
fmt.Println("oc is now configured to use the cluster.")
if len(user.Token) == 0 {
fmt.Println("Run this command to use the cluster: ")
fmt.Println("oc login --username=admin --password=admin")
}
return nil
}
func TestUnsetBytes(t *testing.T) {
clusterInfoWithCAData := clientcmdapi.NewCluster()
clusterInfoWithCAData.CertificateAuthorityData = []byte("cadata")
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clusterInfoWithCAData
expectedConfig := newRedFederalCowHammerConfig()
expectedConfig.Clusters["another-cluster"] = clientcmdapi.NewCluster()
test := configCommandTest{
args: []string{"unset", "clusters.another-cluster.certificate-authority-data"},
startingConfig: startingConfig,
expectedConfig: expectedConfig,
}
test.run(t)
}
func CreateBasicClientConfig(clusterName string, serverURL string, caCert []byte) *clientcmdapi.Config {
cluster := clientcmdapi.NewCluster()
cluster.Server = serverURL
cluster.CertificateAuthorityData = caCert
config := clientcmdapi.NewConfig()
config.Clusters[clusterName] = cluster
return config
}
func TestNewEmptyCluster(t *testing.T) {
expectedConfig := *clientcmdapi.NewConfig()
expectedConfig.Clusters["new-cluster"] = clientcmdapi.NewCluster()
test := configCommandTest{
args: []string{"set-cluster", "new-cluster"},
startingConfig: *clientcmdapi.NewConfig(),
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestSetBytesBad(t *testing.T) {
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clientcmdapi.NewCluster()
test := configCommandTest{
args: []string{"set", "clusters.another-cluster.certificate-authority-data", "cadata"},
startingConfig: startingConfig,
expectedConfig: startingConfig,
}
test.run(t)
}
func TestCAClearsCAData(t *testing.T) {
clusterInfoWithCAData := clientcmdapi.NewCluster()
clusterInfoWithCAData.CertificateAuthorityData = []byte("cadata")
clusterInfoWithCA := clientcmdapi.NewCluster()
clusterInfoWithCA.CertificateAuthority = "/cafile"
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clusterInfoWithCAData
expectedConfig := newRedFederalCowHammerConfig()
expectedConfig.Clusters["another-cluster"] = clusterInfoWithCA
test := configCommandTest{
args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagCAFile + "=/cafile", "--" + clientcmd.FlagInsecure + "=false"},
startingConfig: startingConfig,
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestSetBoolean(t *testing.T) {
expectedConfig := newRedFederalCowHammerConfig()
cluster := clientcmdapi.NewCluster()
cluster.InsecureSkipTLSVerify = true
expectedConfig.Clusters["big-cluster"] = cluster
test := configCommandTest{
args: []string{"set", "clusters.big-cluster.insecure-skip-tls-verify", "true"},
startingConfig: newRedFederalCowHammerConfig(),
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestSetIntoNewStruct(t *testing.T) {
expectedConfig := newRedFederalCowHammerConfig()
cluster := clientcmdapi.NewCluster()
cluster.Server = "new-server-value"
expectedConfig.Clusters["big-cluster"] = cluster
test := configCommandTest{
args: []string{"set", "clusters.big-cluster.server", "new-server-value"},
startingConfig: newRedFederalCowHammerConfig(),
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestInsecureClearsCA(t *testing.T) {
clusterInfoWithInsecure := clientcmdapi.NewCluster()
clusterInfoWithInsecure.InsecureSkipTLSVerify = true
clusterInfoWithCA := clientcmdapi.NewCluster()
clusterInfoWithCA.CertificateAuthority = "cafile"
clusterInfoWithCA.CertificateAuthorityData = []byte("cadata")
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clusterInfoWithCA
expectedConfig := newRedFederalCowHammerConfig()
expectedConfig.Clusters["another-cluster"] = clusterInfoWithInsecure
test := configCommandTest{
args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagInsecure + "=true"},
startingConfig: startingConfig,
expectedConfig: expectedConfig,
}
test.run(t)
}
// CreateConfig takes a clientCfg and builds a config (kubeconfig style) from it.
func CreateConfig(namespace string, clientCfg *client.Config) (*clientcmdapi.Config, error) {
clusterNick, err := GetClusterNicknameFromConfig(clientCfg)
if err != nil {
return nil, err
}
userNick, err := GetUserNicknameFromConfig(clientCfg)
if err != nil {
return nil, err
}
contextNick, err := GetContextNicknameFromConfig(namespace, clientCfg)
if err != nil {
return nil, err
}
config := clientcmdapi.NewConfig()
credentials := clientcmdapi.NewAuthInfo()
credentials.Token = clientCfg.BearerToken
credentials.ClientCertificate = clientCfg.TLSClientConfig.CertFile
if len(credentials.ClientCertificate) == 0 {
credentials.ClientCertificateData = clientCfg.TLSClientConfig.CertData
}
credentials.ClientKey = clientCfg.TLSClientConfig.KeyFile
if len(credentials.ClientKey) == 0 {
credentials.ClientKeyData = clientCfg.TLSClientConfig.KeyData
}
config.AuthInfos[userNick] = credentials
cluster := clientcmdapi.NewCluster()
cluster.Server = clientCfg.Host
cluster.CertificateAuthority = clientCfg.CAFile
if len(cluster.CertificateAuthority) == 0 {
cluster.CertificateAuthorityData = clientCfg.CAData
}
cluster.InsecureSkipTLSVerify = clientCfg.Insecure
if clientCfg.GroupVersion != nil {
cluster.APIVersion = clientCfg.GroupVersion.String()
}
config.Clusters[clusterNick] = cluster
context := clientcmdapi.NewContext()
context.Cluster = clusterNick
context.AuthInfo = userNick
context.Namespace = namespace
config.Contexts[contextNick] = context
config.CurrentContext = contextNick
return config, nil
}
func TestOverwriteExistingCluster(t *testing.T) {
expectedConfig := newRedFederalCowHammerConfig()
cluster := clientcmdapi.NewCluster()
cluster.Server = "serverlocation"
expectedConfig.Clusters["cow-cluster"] = cluster
test := configCommandTest{
args: []string{"set-cluster", "cow-cluster", "--" + clientcmd.FlagAPIServer + "=serverlocation"},
startingConfig: newRedFederalCowHammerConfig(),
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestKubectlValidation(t *testing.T) {
testCases := []struct {
data string
err bool
}{
{`{"apiVersion": "v1", "kind": "thisObjectShouldNotExistInAnyGroup"}`, true},
{`{"apiVersion": "invalidVersion", "kind": "Pod"}`, true},
{`{"apiVersion": "v1", "kind": "Pod"}`, false},
// The following test the experimental api.
// TODO: Replace with something more robust. These may move.
{`{"apiVersion": "extensions/v1beta1", "kind": "Ingress"}`, false},
{`{"apiVersion": "extensions/v1beta1", "kind": "Job"}`, false},
{`{"apiVersion": "vNotAVersion", "kind": "Job"}`, true},
}
components := framework.NewMasterComponents(&framework.Config{})
defer components.Stop(true, true)
ctx := clientcmdapi.NewContext()
cfg := clientcmdapi.NewConfig()
// Enable swagger api on master.
components.KubeMaster.InstallSwaggerAPI()
cluster := clientcmdapi.NewCluster()
cluster.Server = components.ApiServer.URL
cluster.InsecureSkipTLSVerify = true
cfg.Contexts = map[string]*clientcmdapi.Context{"test": ctx}
cfg.CurrentContext = "test"
overrides := clientcmd.ConfigOverrides{
ClusterInfo: *cluster,
}
cmdConfig := clientcmd.NewNonInteractiveClientConfig(*cfg, "test", &overrides, nil)
factory := util.NewFactory(cmdConfig)
schema, err := factory.Validator(true, "")
if err != nil {
t.Errorf("failed to get validator: %v", err)
return
}
for i, test := range testCases {
err := schema.ValidateBytes([]byte(test.data))
if err == nil {
if test.err {
t.Errorf("case %d: expected error", i)
}
} else {
if !test.err {
t.Errorf("case %d: unexpected error: %v", i, err)
}
}
}
}
func TestCAClearsInsecure(t *testing.T) {
fakeCAFile, _ := ioutil.TempFile("", "ca-file")
clusterInfoWithInsecure := clientcmdapi.NewCluster()
clusterInfoWithInsecure.InsecureSkipTLSVerify = true
clusterInfoWithCA := clientcmdapi.NewCluster()
clusterInfoWithCA.CertificateAuthority = path.Base(fakeCAFile.Name())
startingConfig := newRedFederalCowHammerConfig()
startingConfig.Clusters["another-cluster"] = clusterInfoWithInsecure
expectedConfig := newRedFederalCowHammerConfig()
expectedConfig.Clusters["another-cluster"] = clusterInfoWithCA
test := configCommandTest{
args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagCAFile + "=" + fakeCAFile.Name()},
startingConfig: startingConfig,
expectedConfig: expectedConfig,
}
test.run(t)
}
func TestAdditionalCluster(t *testing.T) {
expectedConfig := newRedFederalCowHammerConfig()
cluster := clientcmdapi.NewCluster()
cluster.CertificateAuthority = "/ca-location"
cluster.InsecureSkipTLSVerify = false
cluster.Server = "serverlocation"
expectedConfig.Clusters["different-cluster"] = cluster
test := configCommandTest{
args: []string{"set-cluster", "different-cluster", "--" + clientcmd.FlagAPIServer + "=serverlocation", "--" + clientcmd.FlagInsecure + "=false", "--" + clientcmd.FlagCAFile + "=/ca-location"},
startingConfig: newRedFederalCowHammerConfig(),
expectedConfig: expectedConfig,
}
test.run(t)
}
func updateKubeconfig(config util.AdminConfig, name, endpoint string, entKeyPairs *entityKeyPairs, dryRun bool) error {
po := config.PathOptions()
kubeconfig, err := po.GetStartingConfig()
if err != nil {
return err
}
// Populate API server endpoint info.
cluster := clientcmdapi.NewCluster()
// Prefix "https" as the URL scheme to endpoint.
if !strings.HasPrefix(endpoint, "https://") {
endpoint = fmt.Sprintf("https://%s", endpoint)
}
cluster.Server = endpoint
cluster.CertificateAuthorityData = certutil.EncodeCertPEM(entKeyPairs.ca.Cert)
// Populate credentials.
authInfo := clientcmdapi.NewAuthInfo()
authInfo.ClientCertificateData = certutil.EncodeCertPEM(entKeyPairs.admin.Cert)
authInfo.ClientKeyData = certutil.EncodePrivateKeyPEM(entKeyPairs.admin.Key)
authInfo.Username = AdminCN
// Populate context.
context := clientcmdapi.NewContext()
context.Cluster = name
context.AuthInfo = name
// Update the config struct with API server endpoint info,
// credentials and context.
kubeconfig.Clusters[name] = cluster
kubeconfig.AuthInfos[name] = authInfo
kubeconfig.Contexts[name] = context
if !dryRun {
// Write the update kubeconfig.
if err := clientcmd.ModifyConfig(po, *kubeconfig, true); err != nil {
return err
}
}
return nil
}
// setupKubeconfig reads config from disk, adds the minikube settings, and writes it back.
// activeContext is true when minikube is the CurrentContext
// If no CurrentContext is set, the given name will be used.
func setupKubeconfig(name, server, certAuth, cliCert, cliKey string) error {
configFile := constants.KubeconfigPath
// read existing config or create new if does not exist
config, err := kubeconfig.ReadConfigOrNew(configFile)
if err != nil {
return err
}
clusterName := name
cluster := cfg.NewCluster()
cluster.Server = server
cluster.CertificateAuthority = certAuth
config.Clusters[clusterName] = cluster
// user
userName := name
user := cfg.NewAuthInfo()
user.ClientCertificate = cliCert
user.ClientKey = cliKey
config.AuthInfos[userName] = user
// context
contextName := name
context := cfg.NewContext()
context.Cluster = clusterName
context.AuthInfo = userName
config.Contexts[contextName] = context
// Always set current context to minikube.
config.CurrentContext = contextName
// write back to disk
if err := kubeconfig.WriteConfig(config, configFile); err != nil {
return err
}
return nil
}
func (o createClusterOptions) run() error {
err := o.validate()
if err != nil {
return err
}
config, err := o.configAccess.GetStartingConfig()
if err != nil {
return err
}
startingStanza, exists := config.Clusters[o.name]
if !exists {
startingStanza = clientcmdapi.NewCluster()
}
cluster := o.modifyCluster(*startingStanza)
config.Clusters[o.name] = &cluster
if err := clientcmd.ModifyConfig(o.configAccess, *config, true); err != nil {
return err
}
return nil
}
// minikubeConfig returns a config that reasonably approximates a localkube cluster
func minikubeConfig(config *api.Config) {
// cluster
clusterName := "minikube"
cluster := api.NewCluster()
cluster.Server = "https://192.168.99.100:" + strconv.Itoa(constants.APIServerPort)
cluster.CertificateAuthority = "/home/tux/.minikube/apiserver.crt"
config.Clusters[clusterName] = cluster
// user
userName := "******"
user := api.NewAuthInfo()
user.ClientCertificate = "/home/tux/.minikube/apiserver.crt"
user.ClientKey = "/home/tux/.minikube/apiserver.key"
config.AuthInfos[userName] = user
// context
contextName := "minikube"
context := api.NewContext()
context.Cluster = clusterName
context.AuthInfo = userName
config.Contexts[contextName] = context
config.CurrentContext = contextName
}
func modifyConfig(configAccess clientcmd.ConfigAccess, suppliedConfig *clientcmdapi.Config) error {
config, err := configAccess.GetStartingConfig()
if err != nil {
return err
}
for name, authInfo := range suppliedConfig.AuthInfos {
initial, ok := config.AuthInfos[name]
if !ok {
initial = clientcmdapi.NewAuthInfo()
}
modifiedAuthInfo := *initial
var setToken, setBasic bool
if len(authInfo.ClientCertificate) > 0 {
modifiedAuthInfo.ClientCertificate = authInfo.ClientCertificate
}
if len(authInfo.ClientCertificateData) > 0 {
modifiedAuthInfo.ClientCertificateData = authInfo.ClientCertificateData
}
if len(authInfo.ClientKey) > 0 {
modifiedAuthInfo.ClientKey = authInfo.ClientKey
}
if len(authInfo.ClientKeyData) > 0 {
modifiedAuthInfo.ClientKeyData = authInfo.ClientKeyData
}
if len(authInfo.Token) > 0 {
modifiedAuthInfo.Token = authInfo.Token
setToken = len(modifiedAuthInfo.Token) > 0
}
if len(authInfo.Username) > 0 {
modifiedAuthInfo.Username = authInfo.Username
setBasic = setBasic || len(modifiedAuthInfo.Username) > 0
}
if len(authInfo.Password) > 0 {
modifiedAuthInfo.Password = authInfo.Password
setBasic = setBasic || len(modifiedAuthInfo.Password) > 0
}
// If any auth info was set, make sure any other existing auth types are cleared
if setToken || setBasic {
if !setToken {
modifiedAuthInfo.Token = ""
}
if !setBasic {
modifiedAuthInfo.Username = ""
modifiedAuthInfo.Password = ""
}
}
config.AuthInfos[name] = &modifiedAuthInfo
}
for name, cluster := range suppliedConfig.Clusters {
initial, ok := config.Clusters[name]
if !ok {
initial = clientcmdapi.NewCluster()
}
modifiedCluster := *initial
if len(cluster.Server) > 0 {
modifiedCluster.Server = cluster.Server
}
if cluster.InsecureSkipTLSVerify {
modifiedCluster.InsecureSkipTLSVerify = cluster.InsecureSkipTLSVerify
// Specifying insecure mode clears any certificate authority
if modifiedCluster.InsecureSkipTLSVerify {
modifiedCluster.CertificateAuthority = ""
modifiedCluster.CertificateAuthorityData = nil
}
}
if len(cluster.CertificateAuthorityData) > 0 {
modifiedCluster.CertificateAuthorityData = cluster.CertificateAuthorityData
modifiedCluster.InsecureSkipTLSVerify = false
}
if len(cluster.CertificateAuthority) > 0 {
modifiedCluster.CertificateAuthority = cluster.CertificateAuthority
modifiedCluster.InsecureSkipTLSVerify = false
}
config.Clusters[name] = &modifiedCluster
}
for name, context := range suppliedConfig.Contexts {
initial, ok := config.Contexts[name]
if !ok {
initial = clientcmdapi.NewContext()
}
modifiedContext := *initial
if len(context.Cluster) > 0 {
modifiedContext.Cluster = context.Cluster
}
if len(context.AuthInfo) > 0 {
modifiedContext.AuthInfo = context.AuthInfo
}
if len(context.Namespace) > 0 {
modifiedContext.Namespace = context.Namespace
}
config.Contexts[name] = &modifiedContext
}
if err := clientcmd.ModifyConfig(configAccess, *config, true); err != nil {
return err
}
return nil
}
func init() {
err := api.Scheme.AddConversionFuncs(
func(in *Cluster, out *api.Cluster, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Cluster, out *Cluster, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Preferences, out *api.Preferences, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Preferences, out *Preferences, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *AuthInfo, out *api.AuthInfo, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.AuthInfo, out *AuthInfo, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Context, out *api.Context, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *api.Context, out *Context, s conversion.Scope) error {
return s.DefaultConvert(in, out, conversion.IgnoreMissingFields)
},
func(in *Config, out *api.Config, s conversion.Scope) error {
out.CurrentContext = in.CurrentContext
if err := s.Convert(&in.Preferences, &out.Preferences, 0); err != nil {
return err
}
out.Clusters = make(map[string]*api.Cluster)
if err := s.Convert(&in.Clusters, &out.Clusters, 0); err != nil {
return err
}
out.AuthInfos = make(map[string]*api.AuthInfo)
if err := s.Convert(&in.AuthInfos, &out.AuthInfos, 0); err != nil {
return err
}
out.Contexts = make(map[string]*api.Context)
if err := s.Convert(&in.Contexts, &out.Contexts, 0); err != nil {
return err
}
out.Extensions = make(map[string]runtime.Object)
if err := s.Convert(&in.Extensions, &out.Extensions, 0); err != nil {
return err
}
return nil
},
func(in *api.Config, out *Config, s conversion.Scope) error {
out.CurrentContext = in.CurrentContext
if err := s.Convert(&in.Preferences, &out.Preferences, 0); err != nil {
return err
}
out.Clusters = make([]NamedCluster, 0, 0)
if err := s.Convert(&in.Clusters, &out.Clusters, 0); err != nil {
return err
}
out.AuthInfos = make([]NamedAuthInfo, 0, 0)
if err := s.Convert(&in.AuthInfos, &out.AuthInfos, 0); err != nil {
return err
}
out.Contexts = make([]NamedContext, 0, 0)
if err := s.Convert(&in.Contexts, &out.Contexts, 0); err != nil {
return err
}
out.Extensions = make([]NamedExtension, 0, 0)
if err := s.Convert(&in.Extensions, &out.Extensions, 0); err != nil {
return err
}
return nil
},
func(in *[]NamedCluster, out *map[string]*api.Cluster, s conversion.Scope) error {
for _, curr := range *in {
newCluster := api.NewCluster()
if err := s.Convert(&curr.Cluster, newCluster, 0); err != nil {
return err
}
(*out)[curr.Name] = newCluster
}
return nil
},
func(in *map[string]*api.Cluster, out *[]NamedCluster, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newCluster := (*in)[key]
oldCluster := &Cluster{}
if err := s.Convert(newCluster, oldCluster, 0); err != nil {
return err
}
namedCluster := NamedCluster{key, *oldCluster}
*out = append(*out, namedCluster)
}
return nil
},
func(in *[]NamedAuthInfo, out *map[string]*api.AuthInfo, s conversion.Scope) error {
for _, curr := range *in {
newAuthInfo := api.NewAuthInfo()
if err := s.Convert(&curr.AuthInfo, newAuthInfo, 0); err != nil {
return err
}
(*out)[curr.Name] = newAuthInfo
}
return nil
},
func(in *map[string]*api.AuthInfo, out *[]NamedAuthInfo, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newAuthInfo := (*in)[key]
oldAuthInfo := &AuthInfo{}
if err := s.Convert(newAuthInfo, oldAuthInfo, 0); err != nil {
return err
}
namedAuthInfo := NamedAuthInfo{key, *oldAuthInfo}
*out = append(*out, namedAuthInfo)
}
return nil
},
func(in *[]NamedContext, out *map[string]*api.Context, s conversion.Scope) error {
for _, curr := range *in {
newContext := api.NewContext()
if err := s.Convert(&curr.Context, newContext, 0); err != nil {
return err
}
(*out)[curr.Name] = newContext
}
return nil
},
func(in *map[string]*api.Context, out *[]NamedContext, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newContext := (*in)[key]
oldContext := &Context{}
if err := s.Convert(newContext, oldContext, 0); err != nil {
return err
}
namedContext := NamedContext{key, *oldContext}
*out = append(*out, namedContext)
}
return nil
},
func(in *[]NamedExtension, out *map[string]runtime.Object, s conversion.Scope) error {
for _, curr := range *in {
var newExtension runtime.Object
if err := s.Convert(&curr.Extension, &newExtension, 0); err != nil {
return err
}
(*out)[curr.Name] = newExtension
}
return nil
},
func(in *map[string]runtime.Object, out *[]NamedExtension, s conversion.Scope) error {
allKeys := make([]string, 0, len(*in))
for key := range *in {
allKeys = append(allKeys, key)
}
sort.Strings(allKeys)
for _, key := range allKeys {
newExtension := (*in)[key]
oldExtension := &runtime.RawExtension{}
if err := s.Convert(newExtension, oldExtension, 0); err != nil {
return err
}
namedExtension := NamedExtension{key, *oldExtension}
*out = append(*out, namedExtension)
}
return nil
},
)
if err != nil {
// If one of the conversion functions is malformed, detect it immediately.
panic(err)
}
}