package cmd import ( "context" "encoding/json" "fmt" "io/ioutil" "net/url" "os" "path/filepath" "strconv" "strings" "github.com/cli/cli/git" "github.com/fatih/color" "github.com/mitchellh/mapstructure" api "github.com/porter-dev/porter/api/client" "github.com/porter-dev/porter/api/types" "github.com/porter-dev/porter/cli/cmd/config" "github.com/porter-dev/porter/cli/cmd/deploy" "github.com/porter-dev/porter/cli/cmd/deploy/wait" "github.com/porter-dev/porter/cli/cmd/preview" "github.com/porter-dev/porter/internal/templater/utils" "github.com/porter-dev/switchboard/pkg/drivers" "github.com/porter-dev/switchboard/pkg/models" "github.com/porter-dev/switchboard/pkg/parser" switchboardTypes "github.com/porter-dev/switchboard/pkg/types" switchboardWorker "github.com/porter-dev/switchboard/pkg/worker" "github.com/rs/zerolog" "github.com/spf13/cobra" ) // applyCmd represents the "porter apply" base command when called // with a porter.yaml file as an argument var applyCmd = &cobra.Command{ Use: "apply", Short: "Applies a configuration to an application", Long: fmt.Sprintf(` %s Applies a configuration to an application by either creating a new one or updating an existing one. For example: %s This command will apply the configuration contained in porter.yaml to the requested project and cluster either provided inside the porter.yaml file or through environment variables. Note that environment variables will always take precendence over values specified in the porter.yaml file. By default, this command expects to be run from a local git repository. The following are the environment variables that can be used to set certain values while applying a configuration: PORTER_CLUSTER Cluster ID that contains the project PORTER_PROJECT Project ID that contains the application PORTER_NAMESPACE The Kubernetes namespace that the application belongs to PORTER_SOURCE_NAME Name of the source Helm chart PORTER_SOURCE_REPO The URL of the Helm charts registry PORTER_SOURCE_VERSION The version of the Helm chart to use PORTER_TAG The Docker image tag to use (like the git commit hash) `, color.New(color.FgBlue, color.Bold).Sprintf("Help for \"porter apply\":"), color.New(color.FgGreen, color.Bold).Sprintf("porter apply -f porter.yaml"), ), Run: func(cmd *cobra.Command, args []string) { err := checkLoginAndRun(args, apply) if err != nil { os.Exit(1) } }, } var porterYAML string func init() { rootCmd.AddCommand(applyCmd) applyCmd.Flags().StringVarP(&porterYAML, "file", "f", "", "path to porter.yaml") applyCmd.MarkFlagRequired("file") } func apply(_ *types.GetAuthenticatedUserResponse, client *api.Client, _ []string) error { fileBytes, err := ioutil.ReadFile(porterYAML) if err != nil { return fmt.Errorf("error reading porter.yaml: %w", err) } resGroup, err := parser.ParseRawBytes(fileBytes) if err != nil { return fmt.Errorf("error parsing porter.yaml: %w", err) } basePath, err := os.Getwd() if err != nil { return fmt.Errorf("error getting working directory: %w", err) } worker := switchboardWorker.NewWorker() worker.RegisterDriver("deploy", NewDeployDriver) worker.RegisterDriver("build-image", preview.NewBuildDriver) worker.RegisterDriver("push-image", preview.NewPushDriver) worker.RegisterDriver("update-config", preview.NewUpdateConfigDriver) worker.RegisterDriver("random-string", preview.NewRandomStringDriver) worker.RegisterDriver("env-group", preview.NewEnvGroupDriver) worker.RegisterDriver("os-env", preview.NewOSEnvDriver) worker.SetDefaultDriver("deploy") if hasDeploymentHookEnvVars() { deplNamespace := os.Getenv("PORTER_NAMESPACE") if deplNamespace == "" { return fmt.Errorf("namespace must be set by PORTER_NAMESPACE") } deploymentHook, err := NewDeploymentHook(client, resGroup, deplNamespace) if err != nil { return fmt.Errorf("error creating deployment hook: %w", err) } worker.RegisterHook("deployment", deploymentHook) } cloneEnvGroupHook := NewCloneEnvGroupHook(client, resGroup) worker.RegisterHook("cloneenvgroup", cloneEnvGroupHook) return worker.Apply(resGroup, &switchboardTypes.ApplyOpts{ BasePath: basePath, }) } func hasDeploymentHookEnvVars() bool { if ghIDStr := os.Getenv("PORTER_GIT_INSTALLATION_ID"); ghIDStr == "" { return false } if prIDStr := os.Getenv("PORTER_PULL_REQUEST_ID"); prIDStr == "" { return false } if branchFrom := os.Getenv("PORTER_BRANCH_FROM"); branchFrom == "" { return false } if branchInto := os.Getenv("PORTER_BRANCH_INTO"); branchInto == "" { return false } if actionIDStr := os.Getenv("PORTER_ACTION_ID"); actionIDStr == "" { return false } if repoName := os.Getenv("PORTER_REPO_NAME"); repoName == "" { return false } if repoOwner := os.Getenv("PORTER_REPO_OWNER"); repoOwner == "" { return false } if prName := os.Getenv("PORTER_PR_NAME"); prName == "" { return false } return true } type ApplicationConfig struct { WaitForJob bool // If set to true, this does not run an update, it only creates the initial application and job, // skipping subsequent updates OnlyCreate bool Build struct { UseCache bool `mapstructure:"use_cache"` Method string Context string Dockerfile string Image string Builder string Buildpacks []string Env map[string]string } EnvGroups []types.EnvGroupMeta `mapstructure:"env_groups"` Values map[string]interface{} } type DeployDriver struct { source *preview.Source target *preview.Target output map[string]interface{} lookupTable *map[string]drivers.Driver logger *zerolog.Logger } func NewDeployDriver(resource *models.Resource, opts *drivers.SharedDriverOpts) (drivers.Driver, error) { driver := &DeployDriver{ lookupTable: opts.DriverLookupTable, logger: opts.Logger, output: make(map[string]interface{}), } source, err := preview.GetSource(resource.Name, resource.Source) if err != nil { return nil, err } driver.source = source target, err := preview.GetTarget(resource.Name, resource.Target) if err != nil { return nil, err } driver.target = target return driver, nil } func (d *DeployDriver) ShouldApply(_ *models.Resource) bool { return true } func (d *DeployDriver) Apply(resource *models.Resource) (*models.Resource, error) { client := config.GetAPIClient() name := resource.Name if name == "" { return nil, fmt.Errorf("empty resource name") } _, err := client.GetRelease( context.Background(), d.target.Project, d.target.Cluster, d.target.Namespace, resource.Name, ) shouldCreate := err != nil if err != nil { color.New(color.FgYellow).Printf("Could not read release %s/%s (%s): attempting creation\n", d.target.Namespace, resource.Name, err.Error()) } if d.source.IsApplication { return d.applyApplication(resource, client, shouldCreate) } return d.applyAddon(resource, client, shouldCreate) } // Simple apply for addons func (d *DeployDriver) applyAddon(resource *models.Resource, client *api.Client, shouldCreate bool) (*models.Resource, error) { addonConfig, err := d.getAddonConfig(resource) if err != nil { return nil, fmt.Errorf("error getting addon config for resource %s: %w", resource.Name, err) } if shouldCreate { err := client.DeployAddon( context.Background(), d.target.Project, d.target.Cluster, d.target.Namespace, &types.CreateAddonRequest{ CreateReleaseBaseRequest: &types.CreateReleaseBaseRequest{ RepoURL: d.source.Repo, TemplateName: d.source.Name, TemplateVersion: d.source.Version, Values: addonConfig, Name: resource.Name, }, }, ) if err != nil { return nil, fmt.Errorf("error creating addon from resource %s: %w", resource.Name, err) } } else { bytes, err := json.Marshal(addonConfig) if err != nil { return nil, fmt.Errorf("error marshalling addon config from resource %s: %w", resource.Name, err) } err = client.UpgradeRelease( context.Background(), d.target.Project, d.target.Cluster, d.target.Namespace, resource.Name, &types.UpgradeReleaseRequest{ Values: string(bytes), }, ) if err != nil { return nil, fmt.Errorf("error updating addon from resource %s: %w", resource.Name, err) } } if err = d.assignOutput(resource, client); err != nil { return nil, err } return resource, nil } func (d *DeployDriver) applyApplication(resource *models.Resource, client *api.Client, shouldCreate bool) (*models.Resource, error) { if resource == nil { return nil, fmt.Errorf("nil resource") } appConfig, err := d.getApplicationConfig(resource) if err != nil { return nil, err } method := appConfig.Build.Method if method != "pack" && method != "docker" && method != "registry" { return nil, fmt.Errorf("for resource %s, config.build.method should either be \"docker\", \"pack\" or \"registry\"", resource.Name) } fullPath, err := filepath.Abs(appConfig.Build.Context) if err != nil { return nil, fmt.Errorf("for resource %s, error getting absolute path for config.build.context: %w", resource.Name, err) } tag := os.Getenv("PORTER_TAG") if tag == "" { color.New(color.FgYellow).Printf("for resource %s, since PORTER_TAG is not set, the Docker image tag will default to"+ " the git repo SHA", resource.Name) commit, err := git.LastCommit() if err != nil { return nil, fmt.Errorf("for resource %s, error getting last git commit: %w", resource.Name, err) } tag = commit.Sha[:7] color.New(color.FgYellow).Printf("for resource %s, using tag %s\n", resource.Name, tag) } // if the method is registry and a tag is defined, we use the provided tag if appConfig.Build.Method == "registry" { imageSpl := strings.Split(appConfig.Build.Image, ":") if len(imageSpl) == 2 { tag = imageSpl[1] } if tag == "" { tag = "latest" } } sharedOpts := &deploy.SharedOpts{ ProjectID: d.target.Project, ClusterID: d.target.Cluster, Namespace: d.target.Namespace, LocalPath: fullPath, LocalDockerfile: appConfig.Build.Dockerfile, OverrideTag: tag, Method: deploy.DeployBuildType(method), EnvGroups: appConfig.EnvGroups, UseCache: appConfig.Build.UseCache, } if appConfig.Build.UseCache { // set the docker config so that pack caching can use the repo credentials err := config.SetDockerConfig(client) if err != nil { return nil, err } } if shouldCreate { resource, err = d.createApplication(resource, client, sharedOpts, appConfig) if err != nil { return nil, fmt.Errorf("error creating app from resource %s: %w", resource.Name, err) } } else if !appConfig.OnlyCreate { resource, err = d.updateApplication(resource, client, sharedOpts, appConfig) if err != nil { return nil, fmt.Errorf("error updating application from resource %s: %w", resource.Name, err) } } else { color.New(color.FgYellow).Printf("Skipping creation for resource %s as onlyCreate is set to true\n", resource.Name) } if err = d.assignOutput(resource, client); err != nil { return nil, err } if d.source.Name == "job" && appConfig.WaitForJob && (shouldCreate || !appConfig.OnlyCreate) { color.New(color.FgYellow).Printf("Waiting for job '%s' to finish\n", resource.Name) err = wait.WaitForJob(client, &wait.WaitOpts{ ProjectID: d.target.Project, ClusterID: d.target.Cluster, Namespace: d.target.Namespace, Name: resource.Name, }) if err != nil && appConfig.OnlyCreate { deleteJobErr := client.DeleteRelease( context.Background(), d.target.Project, d.target.Cluster, d.target.Namespace, resource.Name, ) if deleteJobErr != nil { return nil, fmt.Errorf("error deleting job %s with waitForJob and onlyCreate set to true: %w", resource.Name, deleteJobErr) } } else if err != nil { return nil, fmt.Errorf("error waiting for job %s: %w", resource.Name, err) } } return resource, err } func (d *DeployDriver) createApplication(resource *models.Resource, client *api.Client, sharedOpts *deploy.SharedOpts, appConf *ApplicationConfig) (*models.Resource, error) { // create new release color.New(color.FgGreen).Printf("Creating %s release: %s\n", d.source.Name, resource.Name) regList, err := client.ListRegistries(context.Background(), d.target.Project) if err != nil { return nil, fmt.Errorf("for resource %s, error listing registries: %w", resource.Name, err) } var registryURL string if len(*regList) == 0 { return nil, fmt.Errorf("no registry found") } else { registryURL = (*regList)[0].URL } color.New(color.FgBlue).Printf("for resource %s, using registry %s\n", resource.Name, registryURL) // attempt to get repo suffix from environment variables var repoSuffix string if repoName := os.Getenv("PORTER_REPO_NAME"); repoName != "" { if repoOwner := os.Getenv("PORTER_REPO_OWNER"); repoOwner != "" { repoSuffix = strings.ToLower(strings.ReplaceAll(fmt.Sprintf("%s-%s", repoOwner, repoName), "_", "-")) } } createAgent := &deploy.CreateAgent{ Client: client, CreateOpts: &deploy.CreateOpts{ SharedOpts: sharedOpts, Kind: d.source.Name, ReleaseName: resource.Name, RegistryURL: registryURL, RepoSuffix: repoSuffix, }, } var buildConfig *types.BuildConfig if appConf.Build.Builder != "" { buildConfig = &types.BuildConfig{ Builder: appConf.Build.Builder, Buildpacks: appConf.Build.Buildpacks, } } var subdomain string if appConf.Build.Method == "registry" { subdomain, err = createAgent.CreateFromRegistry(appConf.Build.Image, appConf.Values) } else { // if useCache is set, create the image repository first if appConf.Build.UseCache { regID, imageURL, err := createAgent.GetImageRepoURL(resource.Name, sharedOpts.Namespace) if err != nil { return nil, err } err = client.CreateRepository( context.Background(), sharedOpts.ProjectID, regID, &types.CreateRegistryRepositoryRequest{ ImageRepoURI: imageURL, }, ) if err != nil { return nil, err } } subdomain, err = createAgent.CreateFromDocker(appConf.Values, sharedOpts.OverrideTag, buildConfig) } if err != nil { return nil, err } return resource, handleSubdomainCreate(subdomain, err) } func (d *DeployDriver) updateApplication(resource *models.Resource, client *api.Client, sharedOpts *deploy.SharedOpts, appConf *ApplicationConfig) (*models.Resource, error) { color.New(color.FgGreen).Println("Updating existing release:", resource.Name) if len(appConf.Build.Env) > 0 { sharedOpts.AdditionalEnv = appConf.Build.Env } updateAgent, err := deploy.NewDeployAgent(client, resource.Name, &deploy.DeployOpts{ SharedOpts: sharedOpts, Local: appConf.Build.Method != "registry", }) if err != nil { return nil, err } // if the build method is registry, we do not trigger a build if appConf.Build.Method != "registry" { buildEnv, err := updateAgent.GetBuildEnv(&deploy.GetBuildEnvOpts{ UseNewConfig: true, NewConfig: appConf.Values, }) if err != nil { return nil, err } err = updateAgent.SetBuildEnv(buildEnv) if err != nil { return nil, err } var buildConfig *types.BuildConfig if appConf.Build.Builder != "" { buildConfig = &types.BuildConfig{ Builder: appConf.Build.Builder, Buildpacks: appConf.Build.Buildpacks, } } err = updateAgent.Build(buildConfig) if err != nil { return nil, err } if !appConf.Build.UseCache { err = updateAgent.Push() if err != nil { return nil, err } } } err = updateAgent.UpdateImageAndValues(appConf.Values) if err != nil { return nil, err } return resource, nil } func (d *DeployDriver) assignOutput(resource *models.Resource, client *api.Client) error { release, err := client.GetRelease( context.Background(), d.target.Project, d.target.Cluster, d.target.Namespace, resource.Name, ) if err != nil { return err } d.output = utils.CoalesceValues(d.source.SourceValues, release.Config) return nil } func (d *DeployDriver) Output() (map[string]interface{}, error) { return d.output, nil } func (d *DeployDriver) getApplicationConfig(resource *models.Resource) (*ApplicationConfig, error) { populatedConf, err := drivers.ConstructConfig(&drivers.ConstructConfigOpts{ RawConf: resource.Config, LookupTable: *d.lookupTable, Dependencies: resource.Dependencies, }) if err != nil { return nil, err } appConf := &ApplicationConfig{} err = mapstructure.Decode(populatedConf, appConf) if err != nil { return nil, err } if _, ok := resource.Config["waitForJob"]; !ok && d.source.Name == "job" { // default to true and wait for the job to finish appConf.WaitForJob = true } return appConf, nil } func (d *DeployDriver) getAddonConfig(resource *models.Resource) (map[string]interface{}, error) { return drivers.ConstructConfig(&drivers.ConstructConfigOpts{ RawConf: resource.Config, LookupTable: *d.lookupTable, Dependencies: resource.Dependencies, }) } type DeploymentHook struct { client *api.Client resourceGroup *switchboardTypes.ResourceGroup gitInstallationID, projectID, clusterID, prID, actionID, envID uint branchFrom, branchInto, namespace, repoName, repoOwner, prName, commitSHA string } func NewDeploymentHook(client *api.Client, resourceGroup *switchboardTypes.ResourceGroup, namespace string) (*DeploymentHook, error) { res := &DeploymentHook{ client: client, resourceGroup: resourceGroup, namespace: namespace, } ghIDStr := os.Getenv("PORTER_GIT_INSTALLATION_ID") ghID, err := strconv.Atoi(ghIDStr) if err != nil { return nil, err } res.gitInstallationID = uint(ghID) prIDStr := os.Getenv("PORTER_PULL_REQUEST_ID") prID, err := strconv.Atoi(prIDStr) if err != nil { return nil, err } res.prID = uint(prID) res.projectID = cliConf.Project if res.projectID == 0 { return nil, fmt.Errorf("project id must be set") } res.clusterID = cliConf.Cluster if res.clusterID == 0 { return nil, fmt.Errorf("cluster id must be set") } branchFrom := os.Getenv("PORTER_BRANCH_FROM") res.branchFrom = branchFrom branchInto := os.Getenv("PORTER_BRANCH_INTO") res.branchInto = branchInto actionIDStr := os.Getenv("PORTER_ACTION_ID") actionID, err := strconv.Atoi(actionIDStr) if err != nil { return nil, err } res.actionID = uint(actionID) repoName := os.Getenv("PORTER_REPO_NAME") res.repoName = repoName repoOwner := os.Getenv("PORTER_REPO_OWNER") res.repoOwner = repoOwner prName := os.Getenv("PORTER_PR_NAME") res.prName = prName commit, err := git.LastCommit() if err != nil { return nil, fmt.Errorf(err.Error()) } res.commitSHA = commit.Sha[:7] return res, nil } func (t *DeploymentHook) PreApply() error { envList, err := t.client.ListEnvironments( context.Background(), t.projectID, t.clusterID, ) if err != nil { return err } envs := *envList for _, env := range envs { if env.GitRepoOwner == t.repoOwner && env.GitRepoName == t.repoName && env.GitInstallationID == t.gitInstallationID { t.envID = env.ID break } } if t.envID == 0 { return fmt.Errorf("could not find environment for deployment") } // attempt to read the deployment -- if it doesn't exist, create it _, err = t.client.GetDeployment( context.Background(), t.projectID, t.clusterID, t.envID, &types.GetDeploymentRequest{ Namespace: t.namespace, }, ) if err != nil && strings.Contains(err.Error(), "not found") { // in this case, create the deployment _, err = t.client.CreateDeployment( context.Background(), t.projectID, t.gitInstallationID, t.clusterID, t.repoOwner, t.repoName, &types.CreateDeploymentRequest{ Namespace: t.namespace, PullRequestID: t.prID, CreateGHDeploymentRequest: &types.CreateGHDeploymentRequest{ ActionID: t.actionID, }, GitHubMetadata: &types.GitHubMetadata{ PRName: t.prName, RepoName: t.repoName, RepoOwner: t.repoOwner, CommitSHA: t.commitSHA, PRBranchFrom: t.branchFrom, PRBranchInto: t.branchInto, }, }, ) } else if err == nil { _, err = t.client.UpdateDeployment( context.Background(), t.projectID, t.gitInstallationID, t.clusterID, t.repoOwner, t.repoName, &types.UpdateDeploymentRequest{ Namespace: t.namespace, CreateGHDeploymentRequest: &types.CreateGHDeploymentRequest{ ActionID: t.actionID, }, PRBranchFrom: t.branchFrom, CommitSHA: t.commitSHA, }, ) } return err } func (t *DeploymentHook) DataQueries() map[string]interface{} { res := make(map[string]interface{}) // use the resource group to find all web applications that can have an exposed subdomain // that we can query for for _, resource := range t.resourceGroup.Resources { isWeb := false if sourceNameInter, exists := resource.Source["name"]; exists { if sourceName, ok := sourceNameInter.(string); ok { if sourceName == "web" { isWeb = true } } } if isWeb { // determine if we should query for porter_hosts or just hosts isCustomDomain := false ingressMap, err := deploy.GetNestedMap(resource.Config, "values", "ingress") if err == nil { enabledVal, enabledExists := ingressMap["enabled"] customDomVal, customDomExists := ingressMap["custom_domain"] if enabledExists && customDomExists { enabled, eOK := enabledVal.(bool) customDomain, cOK := customDomVal.(bool) if eOK && cOK && enabled { if customDomain { // return the first custom domain when one exists hostsArr, hostsExists := ingressMap["hosts"] if hostsExists { hostsArrVal, hostsArrOk := hostsArr.([]interface{}) if hostsArrOk && len(hostsArrVal) > 0 { if _, ok := hostsArrVal[0].(string); ok { res[resource.Name] = fmt.Sprintf("{ .%s.ingress.hosts[0] }", resource.Name) isCustomDomain = true } } } } } } } if !isCustomDomain { res[resource.Name] = fmt.Sprintf("{ .%s.ingress.porter_hosts[0] }", resource.Name) } } } return res } func (t *DeploymentHook) PostApply(populatedData map[string]interface{}) error { subdomains := make([]string, 0) for _, data := range populatedData { domain, ok := data.(string) if !ok { continue } if _, err := url.Parse("https://" + domain); err == nil { subdomains = append(subdomains, "https://"+domain) } } req := &types.FinalizeDeploymentRequest{ Namespace: t.namespace, Subdomain: strings.Join(subdomains, ", "), } for _, res := range t.resourceGroup.Resources { releaseType := getReleaseType(res) releaseName := getReleaseName(res) if releaseType != "" && releaseName != "" { req.SuccessfulResources = append(req.SuccessfulResources, &types.SuccessfullyDeployedResource{ ReleaseName: releaseName, ReleaseType: releaseType, }) } } // finalize the deployment _, err := t.client.FinalizeDeployment( context.Background(), t.projectID, t.gitInstallationID, t.clusterID, t.repoOwner, t.repoName, req, ) return err } func (t *DeploymentHook) OnError(err error) { // if the deployment exists, throw an error for that deployment _, getDeplErr := t.client.GetDeployment( context.Background(), t.projectID, t.clusterID, t.envID, &types.GetDeploymentRequest{ Namespace: t.namespace, }, ) if getDeplErr == nil { _, err = t.client.UpdateDeploymentStatus( context.Background(), t.projectID, t.gitInstallationID, t.clusterID, t.repoOwner, t.repoName, &types.UpdateDeploymentStatusRequest{ Namespace: t.namespace, CreateGHDeploymentRequest: &types.CreateGHDeploymentRequest{ ActionID: t.actionID, }, PRBranchFrom: t.branchFrom, Status: string(types.DeploymentStatusFailed), }, ) } } func (t *DeploymentHook) OnConsolidatedErrors(allErrors map[string]error) { // if the deployment exists, throw an error for that deployment _, getDeplErr := t.client.GetDeployment( context.Background(), t.projectID, t.clusterID, t.envID, &types.GetDeploymentRequest{ Namespace: t.namespace, }, ) if getDeplErr == nil { req := &types.FinalizeDeploymentWithErrorsRequest{ Namespace: t.namespace, Errors: make(map[string]string), } for _, res := range t.resourceGroup.Resources { if _, ok := allErrors[res.Name]; !ok { req.SuccessfulResources = append(req.SuccessfulResources, &types.SuccessfullyDeployedResource{ ReleaseName: getReleaseName(res), ReleaseType: getReleaseType(res), }) } } for res, err := range allErrors { req.Errors[res] = err.Error() } // FIXME: handle the error t.client.FinalizeDeploymentWithErrors( context.Background(), t.projectID, t.gitInstallationID, t.clusterID, t.repoOwner, t.repoName, req, ) } } type CloneEnvGroupHook struct { client *api.Client resGroup *switchboardTypes.ResourceGroup } func NewCloneEnvGroupHook(client *api.Client, resourceGroup *switchboardTypes.ResourceGroup) *CloneEnvGroupHook { return &CloneEnvGroupHook{ client: client, resGroup: resourceGroup, } } func (t *CloneEnvGroupHook) PreApply() error { for _, res := range t.resGroup.Resources { if res.Driver == "env-group" { continue } appConf := &ApplicationConfig{} err := mapstructure.Decode(res.Config, &appConf) if err != nil { continue } if appConf != nil && len(appConf.EnvGroups) > 0 { target, err := preview.GetTarget(res.Name, res.Target) if err != nil { return err } for _, group := range appConf.EnvGroups { if group.Name == "" { return fmt.Errorf("env group name cannot be empty") } _, err := t.client.GetEnvGroup( context.Background(), target.Project, target.Cluster, target.Namespace, &types.GetEnvGroupRequest{ Name: group.Name, Version: group.Version, }, ) if err != nil && err.Error() == "env group not found" { if group.Namespace == "" { return fmt.Errorf("env group namespace cannot be empty") } color.New(color.FgBlue, color.Bold). Printf("Env group '%s' does not exist in the target namespace '%s'\n", group.Name, target.Namespace) color.New(color.FgBlue, color.Bold). Printf("Cloning env group '%s' from namespace '%s' to target namespace '%s'\n", group.Name, group.Namespace, target.Namespace) _, err = t.client.CloneEnvGroup( context.Background(), target.Project, target.Cluster, group.Namespace, &types.CloneEnvGroupRequest{ Name: group.Name, Namespace: target.Namespace, }, ) if err != nil { return err } } else if err != nil { return err } } } } return nil } func (t *CloneEnvGroupHook) DataQueries() map[string]interface{} { return nil } func (t *CloneEnvGroupHook) PostApply(map[string]interface{}) error { return nil } func (t *CloneEnvGroupHook) OnError(error) {} func (t *CloneEnvGroupHook) OnConsolidatedErrors(map[string]error) {} func getReleaseName(res *switchboardTypes.Resource) string { // can ignore the error because this method is called once // GetTarget has alrealy been called and validated previously target, _ := preview.GetTarget(res.Name, res.Target) if target.AppName != "" { return target.AppName } return res.Name } func getReleaseType(res *switchboardTypes.Resource) string { // can ignore the error because this method is called once // GetSource has alrealy been called and validated previously source, _ := preview.GetSource(res.Name, res.Source) if source != nil && source.Name != "" { return source.Name } return "" }