/* Copyright 2014 The Kubernetes Authors All rights reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package config import ( "bytes" "fmt" "io/ioutil" "os" "reflect" "strings" "testing" "github.com/GoogleCloudPlatform/kubernetes/pkg/api" "github.com/GoogleCloudPlatform/kubernetes/pkg/api/testapi" "github.com/GoogleCloudPlatform/kubernetes/pkg/client/clientcmd" clientcmdapi "github.com/GoogleCloudPlatform/kubernetes/pkg/client/clientcmd/api" "github.com/GoogleCloudPlatform/kubernetes/pkg/util" ) func newRedFederalCowHammerConfig() clientcmdapi.Config { return clientcmdapi.Config{ AuthInfos: map[string]clientcmdapi.AuthInfo{ "red-user": {Token: "red-token"}}, Clusters: map[string]clientcmdapi.Cluster{ "cow-cluster": {Server: "http://cow.org:8080"}}, Contexts: map[string]clientcmdapi.Context{ "federal-context": {AuthInfo: "red-user", Cluster: "cow-cluster"}}, CurrentContext: "federal-context", } } type configCommandTest struct { args []string startingConfig clientcmdapi.Config expectedConfig clientcmdapi.Config expectedOutputs []string } func ExampleView() { expectedConfig := newRedFederalCowHammerConfig() test := configCommandTest{ args: []string{"view"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } output := test.run(nil) fmt.Printf("%v", output) // Output: // apiVersion: v1 // clusters: // - cluster: // server: http://cow.org:8080 // name: cow-cluster // contexts: // - context: // cluster: cow-cluster // user: red-user // name: federal-context // current-context: federal-context // kind: Config // preferences: {} // users: // - name: red-user // user: // token: red-token } func TestSetCurrentContext(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() expectedConfig.CurrentContext = "the-new-context" test := configCommandTest{ args: []string{"use-context", "the-new-context"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestSetIntoExistingStruct(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() a := expectedConfig.AuthInfos["red-user"] authInfo := &a authInfo.Password = "new-path-value" expectedConfig.AuthInfos["red-user"] = *authInfo test := configCommandTest{ args: []string{"set", "users.red-user.password", "new-path-value"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestSetWithPathPrefixIntoExistingStruct(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() cc := expectedConfig.Clusters["cow-clusters"] cinfo := &cc cinfo.Server = "http://cow.org:8080/foo/baz" expectedConfig.Clusters["cow-cluster"] = *cinfo test := configCommandTest{ args: []string{"set", "clusters.cow-cluster.server", "http://cow.org:8080/foo/baz"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) dc := clientcmd.NewDefaultClientConfig(expectedConfig, &clientcmd.ConfigOverrides{}) dcc, err := dc.ClientConfig() if err != nil { t.Fatalf("unexpected error: %v", err) } expectedHost := "http://cow.org:8080" if expectedHost != dcc.Host { t.Fatalf("expected client.Config.Host = %q instead of %q", expectedHost, dcc.Host) } expectedPrefix := "/foo/baz" if expectedPrefix != dcc.Prefix { t.Fatalf("expected client.Config.Prefix = %q instead of %q", expectedPrefix, dcc.Prefix) } } func TestUnsetStruct(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() delete(expectedConfig.AuthInfos, "red-user") test := configCommandTest{ args: []string{"unset", "users.red-user"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestUnsetField(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() expectedConfig.AuthInfos["red-user"] = *clientcmdapi.NewAuthInfo() test := configCommandTest{ args: []string{"unset", "users.red-user.token"}, 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 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 TestSetIntoNewConfig(t *testing.T) { expectedConfig := *clientcmdapi.NewConfig() context := clientcmdapi.NewContext() context.AuthInfo = "fake-user" expectedConfig.Contexts["new-context"] = *context test := configCommandTest{ args: []string{"set", "contexts.new-context.user", "fake-user"}, startingConfig: *clientcmdapi.NewConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestNewEmptyAuth(t *testing.T) { expectedConfig := *clientcmdapi.NewConfig() expectedConfig.AuthInfos["the-user-name"] = *clientcmdapi.NewAuthInfo() test := configCommandTest{ args: []string{"set-credentials", "the-user-name"}, startingConfig: *clientcmdapi.NewConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestAdditionalAuth(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() authInfo := clientcmdapi.NewAuthInfo() authInfo.Token = "token" expectedConfig.AuthInfos["another-user"] = *authInfo test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagBearerToken + "=token"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestEmbedClientCert(t *testing.T) { fakeCertFile, _ := ioutil.TempFile("", "") defer os.Remove(fakeCertFile.Name()) fakeData := []byte("fake-data") ioutil.WriteFile(fakeCertFile.Name(), fakeData, 0600) expectedConfig := newRedFederalCowHammerConfig() authInfo := clientcmdapi.NewAuthInfo() authInfo.ClientCertificateData = fakeData expectedConfig.AuthInfos["another-user"] = *authInfo test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagCertFile + "=" + fakeCertFile.Name(), "--" + clientcmd.FlagEmbedCerts + "=true"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestEmbedClientKey(t *testing.T) { fakeKeyFile, _ := ioutil.TempFile("", "") defer os.Remove(fakeKeyFile.Name()) fakeData := []byte("fake-data") ioutil.WriteFile(fakeKeyFile.Name(), fakeData, 0600) expectedConfig := newRedFederalCowHammerConfig() authInfo := clientcmdapi.NewAuthInfo() authInfo.ClientKeyData = fakeData expectedConfig.AuthInfos["another-user"] = *authInfo test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagKeyFile + "=" + fakeKeyFile.Name(), "--" + clientcmd.FlagEmbedCerts + "=true"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestEmbedNoKeyOrCertDisallowed(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagEmbedCerts + "=true"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, expectedOutputs: []string{"--client-certificate", "--client-key", "embed"}, } test.run(t) } func TestEmptyTokenAndCertAllowed(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() authInfo := clientcmdapi.NewAuthInfo() authInfo.ClientCertificate = "cert-file" expectedConfig.AuthInfos["another-user"] = *authInfo test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagCertFile + "=cert-file", "--" + clientcmd.FlagBearerToken + "="}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestTokenAndCertAllowed(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() authInfo := clientcmdapi.NewAuthInfo() authInfo.Token = "token" authInfo.ClientCertificate = "cert-file" expectedConfig.AuthInfos["another-user"] = *authInfo test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagCertFile + "=cert-file", "--" + clientcmd.FlagBearerToken + "=token"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestTokenAndBasicDisallowed(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagUsername + "=myuser", "--" + clientcmd.FlagBearerToken + "=token"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, expectedOutputs: []string{"--token", "--username"}, } test.run(t) } func TestBasicClearsToken(t *testing.T) { authInfoWithToken := clientcmdapi.NewAuthInfo() authInfoWithToken.Token = "token" authInfoWithBasic := clientcmdapi.NewAuthInfo() authInfoWithBasic.Username = "myuser" authInfoWithBasic.Password = "mypass" startingConfig := newRedFederalCowHammerConfig() startingConfig.AuthInfos["another-user"] = *authInfoWithToken expectedConfig := newRedFederalCowHammerConfig() expectedConfig.AuthInfos["another-user"] = *authInfoWithBasic test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagUsername + "=myuser", "--" + clientcmd.FlagPassword + "=mypass"}, startingConfig: startingConfig, expectedConfig: expectedConfig, } test.run(t) } func TestTokenClearsBasic(t *testing.T) { authInfoWithBasic := clientcmdapi.NewAuthInfo() authInfoWithBasic.Username = "myuser" authInfoWithBasic.Password = "mypass" authInfoWithToken := clientcmdapi.NewAuthInfo() authInfoWithToken.Token = "token" startingConfig := newRedFederalCowHammerConfig() startingConfig.AuthInfos["another-user"] = *authInfoWithBasic expectedConfig := newRedFederalCowHammerConfig() expectedConfig.AuthInfos["another-user"] = *authInfoWithToken test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagBearerToken + "=token"}, startingConfig: startingConfig, expectedConfig: expectedConfig, } test.run(t) } func TestTokenLeavesCert(t *testing.T) { authInfoWithCerts := clientcmdapi.NewAuthInfo() authInfoWithCerts.ClientCertificate = "cert" authInfoWithCerts.ClientCertificateData = []byte("certdata") authInfoWithCerts.ClientKey = "key" authInfoWithCerts.ClientKeyData = []byte("keydata") authInfoWithTokenAndCerts := clientcmdapi.NewAuthInfo() authInfoWithTokenAndCerts.Token = "token" authInfoWithTokenAndCerts.ClientCertificate = "cert" authInfoWithTokenAndCerts.ClientCertificateData = []byte("certdata") authInfoWithTokenAndCerts.ClientKey = "key" authInfoWithTokenAndCerts.ClientKeyData = []byte("keydata") startingConfig := newRedFederalCowHammerConfig() startingConfig.AuthInfos["another-user"] = *authInfoWithCerts expectedConfig := newRedFederalCowHammerConfig() expectedConfig.AuthInfos["another-user"] = *authInfoWithTokenAndCerts test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagBearerToken + "=token"}, startingConfig: startingConfig, expectedConfig: expectedConfig, } test.run(t) } func TestCertLeavesToken(t *testing.T) { authInfoWithToken := clientcmdapi.NewAuthInfo() authInfoWithToken.Token = "token" authInfoWithTokenAndCerts := clientcmdapi.NewAuthInfo() authInfoWithTokenAndCerts.Token = "token" authInfoWithTokenAndCerts.ClientCertificate = "cert" authInfoWithTokenAndCerts.ClientKey = "key" startingConfig := newRedFederalCowHammerConfig() startingConfig.AuthInfos["another-user"] = *authInfoWithToken expectedConfig := newRedFederalCowHammerConfig() expectedConfig.AuthInfos["another-user"] = *authInfoWithTokenAndCerts test := configCommandTest{ args: []string{"set-credentials", "another-user", "--" + clientcmd.FlagCertFile + "=cert", "--" + clientcmd.FlagKeyFile + "=key"}, startingConfig: startingConfig, expectedConfig: expectedConfig, } test.run(t) } func TestCAClearsInsecure(t *testing.T) { clusterInfoWithInsecure := clientcmdapi.NewCluster() clusterInfoWithInsecure.InsecureSkipTLSVerify = true clusterInfoWithCA := clientcmdapi.NewCluster() clusterInfoWithCA.CertificateAuthority = "cafile" startingConfig := newRedFederalCowHammerConfig() startingConfig.Clusters["another-cluster"] = *clusterInfoWithInsecure expectedConfig := newRedFederalCowHammerConfig() expectedConfig.Clusters["another-cluster"] = *clusterInfoWithCA test := configCommandTest{ args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagCAFile + "=cafile"}, startingConfig: startingConfig, expectedConfig: expectedConfig, } 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 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) } 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) } func TestEmbedNoCADisallowed(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() test := configCommandTest{ args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagEmbedCerts + "=true"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, expectedOutputs: []string{"--certificate-authority", "embed"}, } test.run(t) } func TestCAAndInsecureDisallowed(t *testing.T) { test := configCommandTest{ args: []string{"set-cluster", "another-cluster", "--" + clientcmd.FlagCAFile + "=cafile", "--" + clientcmd.FlagInsecure + "=true"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: newRedFederalCowHammerConfig(), expectedOutputs: []string{"certificate", "insecure"}, } test.run(t) } func TestMergeExistingAuth(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() authInfo := expectedConfig.AuthInfos["red-user"] authInfo.ClientKey = "key" expectedConfig.AuthInfos["red-user"] = authInfo test := configCommandTest{ args: []string{"set-credentials", "red-user", "--" + clientcmd.FlagKeyFile + "=key"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } 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 TestAdditionalCluster(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() cluster := *clientcmdapi.NewCluster() cluster.APIVersion = testapi.Version() 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", "--" + clientcmd.FlagAPIVersion + "=" + testapi.Version()}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } 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 TestNewEmptyContext(t *testing.T) { expectedConfig := *clientcmdapi.NewConfig() expectedConfig.Contexts["new-context"] = *clientcmdapi.NewContext() test := configCommandTest{ args: []string{"set-context", "new-context"}, startingConfig: *clientcmdapi.NewConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestAdditionalContext(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() context := *clientcmdapi.NewContext() context.Cluster = "some-cluster" context.AuthInfo = "some-user" context.Namespace = "different-namespace" expectedConfig.Contexts["different-context"] = context test := configCommandTest{ args: []string{"set-context", "different-context", "--" + clientcmd.FlagClusterName + "=some-cluster", "--" + clientcmd.FlagAuthInfoName + "=some-user", "--" + clientcmd.FlagNamespace + "=different-namespace"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestMergeExistingContext(t *testing.T) { expectedConfig := newRedFederalCowHammerConfig() context := expectedConfig.Contexts["federal-context"] context.Namespace = "hammer" expectedConfig.Contexts["federal-context"] = context test := configCommandTest{ args: []string{"set-context", "federal-context", "--" + clientcmd.FlagNamespace + "=hammer"}, startingConfig: newRedFederalCowHammerConfig(), expectedConfig: expectedConfig, } test.run(t) } func TestToBool(t *testing.T) { type test struct { in string out bool err string } tests := []test{ {"", false, ""}, {"true", true, ""}, {"on", false, `strconv.ParseBool: parsing "on": invalid syntax`}, } for _, curr := range tests { b, err := toBool(curr.in) if (len(curr.err) != 0) && err == nil { t.Errorf("Expected error: %v, but got nil", curr.err) } if (len(curr.err) == 0) && err != nil { t.Errorf("Unexpected error: %v", err) } if (err != nil) && (err.Error() != curr.err) { t.Errorf("Expected %v, got %v", curr.err, err) } if b != curr.out { t.Errorf("Expected %v, got %v", curr.out, b) } } } func testConfigCommand(args []string, startingConfig clientcmdapi.Config) (string, clientcmdapi.Config) { fakeKubeFile, _ := ioutil.TempFile("", "") defer os.Remove(fakeKubeFile.Name()) clientcmd.WriteToFile(startingConfig, fakeKubeFile.Name()) argsToUse := make([]string, 0, 2+len(args)) argsToUse = append(argsToUse, "--kubeconfig="+fakeKubeFile.Name()) argsToUse = append(argsToUse, args...) buf := bytes.NewBuffer([]byte{}) cmd := NewCmdConfig(NewDefaultPathOptions(), buf) cmd.SetArgs(argsToUse) cmd.Execute() // outBytes, _ := ioutil.ReadFile(fakeKubeFile.Name()) config := getConfigFromFileOrDie(fakeKubeFile.Name()) return buf.String(), *config } func (test configCommandTest) run(t *testing.T) string { out, actualConfig := testConfigCommand(test.args, test.startingConfig) testSetNilMapsToEmpties(reflect.ValueOf(&test.expectedConfig)) testSetNilMapsToEmpties(reflect.ValueOf(&actualConfig)) testClearLocationOfOrigin(&actualConfig) if !api.Semantic.DeepEqual(test.expectedConfig, actualConfig) { t.Errorf("diff: %v", util.ObjectDiff(test.expectedConfig, actualConfig)) t.Errorf("expected: %#v\n actual: %#v", test.expectedConfig, actualConfig) } for _, expectedOutput := range test.expectedOutputs { if !strings.Contains(out, expectedOutput) { t.Errorf("expected '%s' in output, got '%s'", expectedOutput, out) } } return out } func testClearLocationOfOrigin(config *clientcmdapi.Config) { for key, obj := range config.AuthInfos { obj.LocationOfOrigin = "" config.AuthInfos[key] = obj } for key, obj := range config.Clusters { obj.LocationOfOrigin = "" config.Clusters[key] = obj } for key, obj := range config.Contexts { obj.LocationOfOrigin = "" config.Contexts[key] = obj } } func testSetNilMapsToEmpties(curr reflect.Value) { actualCurrValue := curr if curr.Kind() == reflect.Ptr { actualCurrValue = curr.Elem() } switch actualCurrValue.Kind() { case reflect.Map: for _, mapKey := range actualCurrValue.MapKeys() { currMapValue := actualCurrValue.MapIndex(mapKey) // our maps do not hold pointers to structs, they hold the structs themselves. This means that MapIndex returns the struct itself // That in turn means that they have kinds of type.Struct, which is not a settable type. Because of this, we need to make new struct of that type // copy all the data from the old value into the new value, then take the .addr of the new value to modify it in the next recursion. // clear as mud modifiableMapValue := reflect.New(currMapValue.Type()).Elem() modifiableMapValue.Set(currMapValue) if modifiableMapValue.Kind() == reflect.Struct { modifiableMapValue = modifiableMapValue.Addr() } testSetNilMapsToEmpties(modifiableMapValue) actualCurrValue.SetMapIndex(mapKey, reflect.Indirect(modifiableMapValue)) } case reflect.Struct: for fieldIndex := 0; fieldIndex < actualCurrValue.NumField(); fieldIndex++ { currFieldValue := actualCurrValue.Field(fieldIndex) if currFieldValue.Kind() == reflect.Map && currFieldValue.IsNil() { newValue := reflect.MakeMap(currFieldValue.Type()) currFieldValue.Set(newValue) } else { testSetNilMapsToEmpties(currFieldValue.Addr()) } } } }