// Fetch gets a chart from the source repo and copies to the workdir.
//
// - chartName is the source
// - lname is the local name for that chart (chart-name); if blank, it is set to the chart.
// - homedir is the home directory for the user
func Fetch(chartName, lname, homedir string) {
r := mustConfig(homedir).Repos
repository, chartName := r.RepoChart(chartName)
if lname == "" {
lname = chartName
}
fetch(chartName, lname, homedir, repository)
chartFilePath := helm.WorkspaceChartDirectory(homedir, lname, Chartfile)
cfile, err := chart.LoadChartfile(chartFilePath)
if err != nil {
log.Die("Source is not a valid chart. Missing Chart.yaml: %s", err)
}
deps, err := dependency.Resolve(cfile, helm.WorkspaceChartDirectory(homedir))
if err != nil {
log.Warn("Could not check dependencies: %s", err)
return
}
if len(deps) > 0 {
log.Warn("Unsatisfied dependencies:")
for _, d := range deps {
log.Msg("\t%s %s", d.Name, d.Version)
}
}
log.Info("Fetched chart into workspace %s", helm.WorkspaceChartDirectory(homedir, lname))
log.Info("Done")
}
// Publish a chart from the workspace to the cache directory
//
// - chartName being published
// - homeDir is the helm home directory for the user
// - force publishing even if the chart directory already exists
func Publish(chartName, homeDir, repo string, force bool) {
if repo == "" {
repo = "charts"
}
if !mustConfig(homeDir).Repos.Exists(repo) {
log.Err("Repo %s does not exist", repo)
log.Info("Available repositories")
ListRepos(homeDir)
return
}
src := helm.WorkspaceChartDirectory(homeDir, chartName)
dst := helm.CacheDirectory(homeDir, repo, chartName)
if _, err := os.Stat(dst); err == nil {
if force != true {
log.Info("chart already exists, use -f to force")
return
}
}
if err := helm.CopyDir(src, dst); err != nil {
log.Die("failed to publish directory: %v", err)
}
}
// Doctor helps you see what's wrong with your helm setup
func Doctor(home string) {
log.Info("Checking things locally...")
CheckLocalPrereqs(home)
CheckKubePrereqs()
log.Info("Everything looks good! Happy helming!")
}
// Uninstall removes a chart from Kubernetes.
//
// Manifests are removed from Kubernetes in the order specified by
// chart.UninstallOrder. Any unknown types are removed before that sequence
// is run.
func Uninstall(chartName, home, namespace string, force bool, client kubectl.Runner) {
// This is a stop-gap until kubectl respects namespaces in manifests.
if namespace == "" {
log.Die("This command requires a namespace. Did you mean '-n default'?")
}
if !chartFetched(chartName, home) {
log.Info("No chart named %q in your workspace. Nothing to delete.", chartName)
return
}
cd := helm.WorkspaceChartDirectory(home, chartName)
c, err := chart.Load(cd)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
if err := deleteChart(c, namespace, true, client); err != nil {
log.Die("Failed to list charts: %s", err)
}
if !force && !promptConfirm("Uninstall the listed objects?") {
log.Info("Aborted uninstall")
return
}
CheckKubePrereqs()
log.Info("Running `kubectl delete` ...")
if err := deleteChart(c, namespace, false, client); err != nil {
log.Die("Failed to completely delete chart: %s", err)
}
log.Info("Done")
}
// Uninstall removes a chart from Kubernetes.
//
// Manifests are removed from Kubernetes in the following order:
//
// - Services (to shut down traffic)
// - Pods (which can be part of RCs)
// - ReplicationControllers
// - Volumes
// - Secrets
// - Namespaces
func Uninstall(chartName, home, namespace string, force bool) {
if !chartFetched(chartName, home) {
log.Info("No chart named %q in your workspace. Nothing to delete.", chartName)
return
}
cd := filepath.Join(home, WorkspaceChartPath, chartName)
c, err := chart.Load(cd)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
if err := deleteChart(c, namespace, true); err != nil {
log.Die("Failed to list charts: %s", err)
}
if !force && !promptConfirm("Uninstall the listed objects?") {
log.Info("Aborted uninstall")
return
}
log.Info("Running `kubectl delete` ...")
if err := deleteChart(c, namespace, false); err != nil {
log.Die("Failed to completely delete chart: %s", err)
}
log.Info("Done")
}
// Install loads a chart into Kubernetes.
//
// If the chart is not found in the workspace, it is fetched and then installed.
//
// During install, manifests are sent to Kubernetes in the ordered specified by InstallOrder.
func Install(chartName, home, namespace string, force bool, generate bool, exclude []string, client kubectl.Runner) {
ochart := chartName
r := mustConfig(home).Repos
table, chartName := r.RepoChart(chartName)
if !chartFetched(chartName, home) {
log.Info("No chart named %q in your workspace. Fetching now.", ochart)
fetch(chartName, chartName, home, table)
}
cd := helm.WorkspaceChartDirectory(home, chartName)
c, err := chart.Load(cd)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
// Give user the option to bale if dependencies are not satisfied.
nope, err := dependency.Resolve(c.Chartfile, helm.WorkspaceChartDirectory(home))
if err != nil {
log.Warn("Failed to check dependencies: %s", err)
if !force {
log.Die("Re-run with --force to install anyway.")
}
} else if len(nope) > 0 {
log.Warn("Unsatisfied dependencies:")
for _, d := range nope {
log.Msg("\t%s %s", d.Name, d.Version)
}
if !force {
log.Die("Stopping install. Re-run with --force to install anyway.")
}
}
// Run the generator if -g is set.
if generate {
Generate(chartName, home, exclude)
}
CheckKubePrereqs()
log.Info("Running `kubectl create -f` ...")
if err := uploadManifests(c, namespace, client); err != nil {
log.Die("Failed to upload manifests: %s", err)
}
log.Info("Done")
PrintREADME(chartName, home)
}
// List lists all of the local charts.
func List(homedir string) {
md := helm.WorkspaceChartDirectory(homedir, "*")
charts, err := filepath.Glob(md)
if err != nil {
log.Warn("Could not find any charts in %q: %s", md, err)
}
for _, c := range charts {
cname := filepath.Base(c)
if ch, err := chart.LoadChartfile(filepath.Join(c, Chartfile)); err == nil {
log.Info("\t%s (%s %s) - %s", cname, ch.Name, ch.Version, ch.Description)
continue
}
log.Info("\t%s (unknown)", cname)
}
}
// UpdateAll does a git fast-forward pull from each remote repo.
func (r *Repos) UpdateAll() error {
for _, table := range r.Tables {
log.Info("Checking repository %s", table.Name)
rpath := filepath.Join(r.Dir, table.Name)
g, err := ensureRepo(table.Repo, rpath)
if err != nil {
return err
}
if g.IsDirty() {
return fmt.Errorf("Repository '%s' is dirty. Commit changes before updating", table.Name)
}
initialVersion, err := g.Version()
if err != nil {
return fmt.Errorf("Could not get current sha of repository '%s'.", table.Name)
}
if err := g.Update(); err != nil {
return err
}
diff, err := repoChartDiff(rpath, initialVersion)
if err != nil {
return err
}
printSummary(diff)
}
return nil
}
// Remove removes a chart from the workdir.
//
// - chart is the source
// - homedir is the home directory for the user
// - force will remove installed charts from workspace
func Remove(chart, homedir string, force bool) {
chartPath := filepath.Join(homedir, WorkspaceChartPath, chart)
if _, err := os.Stat(chartPath); err != nil {
log.Die("Chart not found. %s", err)
}
var connectionFailure bool
// check if any chart manifests are installed
installed, err := checkManifests(chartPath)
if err != nil {
if strings.Contains(err.Error(), "unable to connect") {
connectionFailure = true
} else {
log.Die(err.Error())
}
}
if !force && connectionFailure {
log.Err("Could not determine if %s is installed. To remove the chart --force flag must be set.", chart)
} else if !force && len(installed) > 0 {
log.Err("Found %d installed manifests for %s. To remove a chart that has been installed the --force flag must be set.", len(installed), chart)
} else {
// remove local chart files
if err := os.RemoveAll(chartPath); err != nil {
log.Die("Could not remove chart. %s", err)
}
log.Info("All clear! You have successfully removed %s from your workspace.", chart)
}
}
// Create a chart
//
// - chartName being created
// - homeDir is the helm home directory for the user
func Create(chartName, homeDir string) {
chart := newSkelChartfile(chartName)
chartDir := filepath.Join(homeDir, WorkspaceChartPath, chartName)
// create directories
if err := os.MkdirAll(filepath.Join(chartDir, "manifests"), 0755); err != nil {
log.Die("Could not create %q: %s", chartDir, err)
}
// create Chartfile.yaml
if err := chart.Save(filepath.Join(chartDir, "Chart.yaml")); err != nil {
log.Die("Could not create Chart.yaml: err", err)
}
// create README.md
if err := createReadme(chartDir, chart); err != nil {
log.Die("Could not create README.md: err", err)
}
// create example-pod
if err := createExampleManifest(chartDir); err != nil {
log.Die("Could not create example manifest: err", err)
}
log.Info("Created chart in %s", chartDir)
}
// Valid returns true if every validation passes.
func (cv *ChartValidation) Valid() bool {
var valid bool = true
fmt.Printf("\nVerifying %s chart is a valid chart...\n", cv.ChartName())
cv.walk(func(v *Validation) bool {
v.path = cv.Path
vv := v.valid()
if !vv {
switch v.level {
case 2:
cv.ErrorCount = cv.ErrorCount + 1
msg := v.Message + " : " + strconv.FormatBool(vv)
log.Err(msg)
case 1:
cv.WarningCount = cv.WarningCount + 1
msg := v.Message + " : " + strconv.FormatBool(vv)
log.Warn(msg)
}
} else {
msg := v.Message + " : " + strconv.FormatBool(vv)
log.Info(msg)
}
valid = valid && vv
return valid
})
return valid
}
// CheckLatest checks whether this version of Helm is the latest version.
//
// This does not ensure that this is the latest. If a newer version is found,
// this generates a message indicating that.
//
// The passed-in version is the base version that will be checked against the
// remote release list.
func CheckLatest(version string) {
ver, err := release.LatestVersion()
if err != nil {
log.Warn("Skipped Helm version check: %s", err)
return
}
current, err := semver.NewVersion(version)
if err != nil {
log.Warn("Local version %s is not well-formed", version)
return
}
remote, err := semver.NewVersion(ver)
if err != nil {
log.Warn("Remote version %s is not well-formed", ver)
return
}
if remote.GreaterThan(current) {
log.Warn("A new version of Helm is available. You have %s. The latest is %v", version, ver)
if dl, err := release.LatestDownloadURL(); err == nil {
log.Info("Download version %s here: %s", ver, dl)
}
}
}
func fetch(chartName, lname, homedir, chartpath string) {
src := helm.CacheDirectory(homedir, chartpath, chartName)
dest := helm.WorkspaceChartDirectory(homedir, lname)
fi, err := os.Stat(src)
if err != nil {
log.Warn("Oops. Looks like there was an issue finding the chart, %s, n %s. Running `helm update` to ensure you have the latest version of all Charts from Github...", lname, src)
Update(homedir)
fi, err = os.Stat(src)
if err != nil {
log.Die("Chart %s not found in %s", lname, src)
}
log.Info("Good news! Looks like that did the trick. Onwards and upwards!")
}
if !fi.IsDir() {
log.Die("Malformed chart %s: Chart must be in a directory.", chartName)
}
if err := os.MkdirAll(dest, 0755); err != nil {
log.Die("Could not create %q: %s", dest, err)
}
log.Debug("Fetching %s to %s", src, dest)
if err := helm.CopyDir(src, dest); err != nil {
log.Die("Failed copying %s to %s", src, dest)
}
if err := updateChartfile(src, dest, lname); err != nil {
log.Die("Failed to update Chart.yaml: %s", err)
}
}
// ensureHome ensures that a HELM_HOME exists.
func ensureHome(home string) {
must := []string{home, filepath.Join(home, CachePath), filepath.Join(home, WorkspacePath), filepath.Join(home, CacheChartPath)}
for _, p := range must {
if fi, err := os.Stat(p); err != nil {
log.Debug("Creating %s", p)
if err := os.MkdirAll(p, 0755); err != nil {
log.Die("Could not create %q: %s", p, err)
}
} else if !fi.IsDir() {
log.Die("%s must be a directory.", home)
}
}
refi := filepath.Join(home, Configfile)
if _, err := os.Stat(refi); err != nil {
log.Info("Creating %s", refi)
// Attempt to create a Repos.yaml
if err := ioutil.WriteFile(refi, []byte(config.DefaultConfigfile), 0755); err != nil {
log.Die("Could not create %s: %s", refi, err)
}
}
if err := os.Chdir(home); err != nil {
log.Die("Could not change to directory %q: %s", home, err)
}
}
// Install loads a chart into Kubernetes.
//
// If the chart is not found in the workspace, it is fetched and then installed.
//
// During install, manifests are sent to Kubernetes in the following order:
//
// - Namespaces
// - Secrets
// - Volumes
// - Services
// - Pods
// - ReplicationControllers
func Install(chartName, home, namespace string, force bool, dryRun bool) {
ochart := chartName
r := mustConfig(home).Repos
table, chartName := r.RepoChart(chartName)
if !chartFetched(chartName, home) {
log.Info("No chart named %q in your workspace. Fetching now.", ochart)
fetch(chartName, chartName, home, table)
}
cd := filepath.Join(home, WorkspaceChartPath, chartName)
c, err := chart.Load(cd)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
// Give user the option to bale if dependencies are not satisfied.
nope, err := dependency.Resolve(c.Chartfile, filepath.Join(home, WorkspaceChartPath))
if err != nil {
log.Warn("Failed to check dependencies: %s", err)
if !force {
log.Die("Re-run with --force to install anyway.")
}
} else if len(nope) > 0 {
log.Warn("Unsatisfied dependencies:")
for _, d := range nope {
log.Msg("\t%s %s", d.Name, d.Version)
}
if !force {
log.Die("Stopping install. Re-run with --force to install anyway.")
}
}
msg := "Running `kubectl create -f` ..."
if dryRun {
msg = "Performing a dry run of `kubectl create -f` ..."
}
log.Info(msg)
if err := uploadManifests(c, namespace, dryRun); err != nil {
log.Die("Failed to upload manifests: %s", err)
}
log.Info("Done")
PrintREADME(chartName, home)
}
// Uninstall removes a chart from Kubernetes.
//
// Manifests are removed from Kubernetes in the following order:
//
// - Services (to shut down traffic)
// - Pods (which can be part of RCs)
// - ReplicationControllers
// - Volumes
// - Secrets
// - Namespaces
func Uninstall(chartName, home, namespace string) {
if !chartFetched(chartName, home) {
log.Info("No chart named %q in your workspace. Nothing to delete.", chartName)
return
}
cd := filepath.Join(home, WorkspaceChartPath, chartName)
c, err := chart.Load(cd)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
log.Info("Running `kubectl delete` ...")
if err := deleteChart(c, namespace); err != nil {
log.Die("Failed to completely delete chart: %s", err)
}
log.Info("Done")
}
func (r *Repos) deleteRepo(name string) error {
rpath := filepath.Join(r.Dir, name)
if fi, err := os.Stat(rpath); err != nil || !fi.IsDir() {
log.Info("Deleted nothing. No repo named %s", name)
return nil
}
log.Debug("Deleting %s", rpath)
return os.RemoveAll(rpath)
}
// AltInstall allows loading a chart from the current directory.
//
// It does not directly support chart tables (repos).
func AltInstall(chartName, cachedir, home, namespace string, force bool, dryRun bool) {
// Make sure there is a chart in the cachedir.
if _, err := os.Stat(filepath.Join(cachedir, "Chart.yaml")); err != nil {
log.Die("Expected a Chart.yaml in %s: %s", cachedir, err)
}
// Make sure there is a manifests dir.
if fi, err := os.Stat(filepath.Join(cachedir, "manifests")); err != nil {
log.Die("Expected 'manifests/' in %s: %s", cachedir, err)
} else if !fi.IsDir() {
log.Die("Expected 'manifests/' to be a directory in %s: %s", cachedir, err)
}
dest := filepath.Join(home, WorkspaceChartPath, chartName)
if ok, err := isSamePath(dest, cachedir); err != nil || ok {
log.Die("Cannot read from and write to the same place: %s. %v", cachedir, err)
}
// Copy the source chart to the workspace. We ruthlessly overwrite in
// this case.
if err := copyDir(cachedir, dest); err != nil {
log.Die("Failed to copy %s to %s: %s", cachedir, dest, err)
}
// Load the chart.
c, err := chart.Load(dest)
if err != nil {
log.Die("Failed to load chart: %s", err)
}
// Give user the option to bale if dependencies are not satisfied.
nope, err := dependency.Resolve(c.Chartfile, filepath.Join(home, WorkspaceChartPath))
if err != nil {
log.Warn("Failed to check dependencies: %s", err)
if !force {
log.Die("Re-run with --force to install anyway.")
}
} else if len(nope) > 0 {
log.Warn("Unsatisfied dependencies:")
for _, d := range nope {
log.Msg("\t%s %s", d.Name, d.Version)
}
if !force {
log.Die("Stopping install. Re-run with --force to install anyway.")
}
}
msg := "Running `kubectl create -f` ..."
if dryRun {
msg = "Performing a dry run of `kubectl create -f` ..."
}
log.Info(msg)
if err := uploadManifests(c, namespace, dryRun); err != nil {
log.Die("Failed to upload manifests: %s", err)
}
}
// Remove removes a chart from the workdir.
//
// - chart is the source
// - homedir is the home directory for the user
func Remove(chart string, homedir string) {
chartPath := filepath.Join(homedir, WorkspaceChartPath, chart)
if _, err := os.Stat(chartPath); err != nil {
log.Die("Chart not found. %s", err)
}
if err := os.RemoveAll(chartPath); err != nil {
log.Die("%s", err)
}
log.Info("All clear! You have successfully removed %s from your workspace.", chart)
}
// AddRepo adds a repo to the list of repositories.
func AddRepo(homedir, name, repository string) {
cfg := mustConfig(homedir)
if err := cfg.Repos.Add(name, repository); err != nil {
log.Die(err.Error())
}
if err := cfg.Save(""); err != nil {
log.Die("Could not save configuration: %s", err)
}
log.Info("Hooray! Successfully added the repo.")
}
func uninstallKind(kind []*manifest.Manifest, ns, ktype string, dry bool, client kubectl.Runner) {
for _, o := range kind {
if dry {
log.Msg("%s/%s", ktype, o.Name)
} else {
out, err := client.Delete(o.Name, ktype, ns)
if err != nil {
log.Warn("Could not delete %s %s (Skipping): %s", ktype, o.Name, err)
}
log.Info(string(out))
}
}
}
// Update fetches the remote repo into the home directory.
func Update(home string) {
home, err := filepath.Abs(home)
if err != nil {
log.Die("Could not generate absolute path for %q: %s", home, err)
}
CheckLocalPrereqs(home)
rc := mustConfig(home).Repos
if err := rc.UpdateAll(); err != nil {
log.Die("Not all repos could be updated: %s", err)
}
log.Info("Done")
}
// UpdateAll does a git fast-forward pull from each remote repo.
func (r *Repos) UpdateAll() error {
for _, table := range r.Tables {
log.Info("Updating %s", table.Name)
rpath := filepath.Join(r.Dir, table.Name)
g, err := ensureRepo(table.Repo, rpath)
if err != nil {
return err
}
if err := g.Update(); err != nil {
return err
}
}
return nil
}
// mustConfig parses a config file or dies trying.
func mustConfig(homedir string) *config.Configfile {
rpath := filepath.Join(homedir, helm.Configfile)
cfg, err := config.Load(rpath)
if err != nil {
log.Warn("Oops! Looks like we had some issues running your command! Running `helm doctor` to ensure we have all the necessary prerequisites in place...")
Doctor(homedir)
cfg, err = config.Load(rpath)
if err != nil {
log.Die("Oops! Could not load %s. Error: %s", rpath, err)
}
log.Info("Continuing onwards and upwards!")
}
return cfg
}
// Generate runs generators on the entire chart.
//
// By design, this only operates on workspaces, as it should never be run
// on the cache.
func Generate(chart, homedir string, exclude []string) {
if abs, err := filepath.Abs(homedir); err == nil {
homedir = abs
}
chartPath := util.WorkspaceChartDirectory(homedir, chart)
os.Setenv("HELM_HOME", homedir)
os.Setenv("HELM_DEFAULT_REPO", mustConfig(homedir).Repos.Default)
count, err := generator.Walk(chartPath, exclude)
if err != nil {
log.Die("Failed to complete generation: %s", err)
}
log.Info("Ran %d generators.", count)
}
// Update fetches the remote repo into the home directory.
func Update(home string) {
home, err := filepath.Abs(home)
if err != nil {
log.Die("Could not generate absolute path for %q: %s", home, err)
}
// Basically, install if this is the first run.
ensurePrereqs()
ensureHome(home)
rc := mustConfig(home).Repos
if err := rc.UpdateAll(); err != nil {
log.Die("Not all repos could be updated: %s", err)
}
log.Info("Done")
}
// Publish a chart from the workspace to the cache directory
//
// - chartName being published
// - homeDir is the helm home directory for the user
// - force publishing even if the chart directory already exists
func Publish(chartName, homeDir string, force bool) {
src := path.Join(homeDir, WorkspaceChartPath, chartName)
dst := path.Join(homeDir, CacheChartPath, chartName)
if _, err := os.Stat(dst); err == nil {
if force != true {
log.Info("chart already exists, use -f to force")
return
}
}
if err := copyDir(src, dst); err != nil {
log.Die("failed to publish directory: %v", err)
}
}
// Resolve takes a chart and a location and checks whether the chart's dependencies are satisfied.
//
// The `installdir` is the location where installed charts are located. Typically
// this is in $HELM_HOME/workspace/charts.
//
// This returns a list of unsatisfied dependencies (NOT an error condition).
//
// It returns an error only if it cannot perform the task of resolving dependencies.
// Failed dependencies to not constitute an error.
func Resolve(cf *chart.Chartfile, installdir string) ([]*chart.Dependency, error) {
if len(cf.Dependencies) == 0 {
log.Debug("No dependencies to check. :achievement-unlocked:")
return []*chart.Dependency{}, nil
}
cache, err := dependencyCache(installdir)
if err != nil {
log.Debug("Failed to build dependency cache: %s", err)
return []*chart.Dependency{}, err
}
res := []*chart.Dependency{}
// TODO: This could be made more efficient.
for _, check := range cf.Dependencies {
resolved := false
for n, chart := range cache {
log.Debug("Checking if %s (%s) %s meets %s %s", chart.Name, n, chart.Version, check.Name, check.Version)
if chart.From != nil {
log.Debug("✔︎")
if satisfies(chart.From, check) {
resolved = true
break
}
} else {
log.Info("Chart %s is pre-0.2.0. Legacy mode enabled.", chart.Name)
if chart.Name == check.Name && check.VersionOK(chart.Version) {
log.Debug("✔︎")
resolved = true
break
}
}
}
if !resolved {
log.Debug("No matches found for %s %s", check.Name, check.Version)
res = append(res, check)
}
}
return res, nil
}
// kubectlCreate calls `kubectl create` and sends the data via Stdin.
//
// If dryRun is set to true, then we just output the command that was
// going to be run to os.Stdout and return nil.
func kubectlCreate(data []byte, ns string, dryRun bool) error {
a := []string{"create", "-f", "-"}
if ns != "" {
a = append([]string{"--namespace=" + ns}, a...)
}
if dryRun {
cmd := "kubectl"
for _, arg := range a {
cmd = fmt.Sprintf("%s %s", cmd, arg)
}
cmd = fmt.Sprintf("%s < %s", cmd, data)
log.Info(cmd)
return nil
}
c := exec.Command("kubectl", a...)
in, err := c.StdinPipe()
if err != nil {
return err
}
c.Stdout = os.Stdout
c.Stderr = os.Stderr
if err := c.Start(); err != nil {
return err
}
log.Debug("File: %s", string(data))
in.Write(data)
in.Close()
return c.Wait()
}
// Lint validates that a chart is well-formed
//
// - chartPath path to chart directory
func Lint(chartPath string) {
cv := new(validation.ChartValidation)
chartPresenceValidation := cv.AddError("Chart found at "+chartPath, func(path string, v *validation.Validation) bool {
stat, err := os.Stat(chartPath)
cv.Path = chartPath
return err == nil && stat.Mode().IsDir()
})
chartYamlPresenceValidation := chartPresenceValidation.AddError("Chart.yaml is present", func(path string, v *validation.Validation) bool {
stat, err := os.Stat(v.ChartYamlPath())
return err == nil && stat.Mode().IsRegular()
})
chartYamlValidation := chartYamlPresenceValidation.AddError("Chart.yaml is valid yaml", func(path string, v *validation.Validation) bool {
chartfile, err := v.Chartfile()
if err == nil {
cv.Chartfile = chartfile
}
return err == nil
})
chartYamlNameValidation := chartYamlValidation.AddError("Chart.yaml has a name field", func(path string, v *validation.Validation) bool {
return cv.Chartfile.Name != ""
})
chartYamlNameValidation.AddError("Name declared in Chart.yaml is the same as directory name.", func(path string, v *validation.Validation) bool {
return cv.Chartfile.Name == cv.ChartName()
})
chartYamlValidation.AddError("Chart.yaml has a version field", func(path string, v *validation.Validation) bool {
return cv.Chartfile.Version != ""
})
chartYamlValidation.AddWarning("Chart.yaml has a description field", func(path string, v *validation.Validation) bool {
return cv.Chartfile.Description != ""
})
chartYamlValidation.AddWarning("Chart.yaml has a maintainers field", func(path string, v *validation.Validation) bool {
return cv.Chartfile.Maintainers != nil
})
chartPresenceValidation.AddWarning("README.md is present and not empty", func(path string, v *validation.Validation) bool {
readmePath := filepath.Join(path, "README.md")
stat, err := os.Stat(readmePath)
return err == nil && stat.Mode().IsRegular() && stat.Size() > 0
})
manifestsValidation := chartPresenceValidation.AddError("Manifests directory is present", func(path string, v *validation.Validation) bool {
stat, err := os.Stat(v.ChartManifestsPath())
return err == nil && stat.Mode().IsDir()
})
manifestsParsingValidation := manifestsValidation.AddError("Manifests are valid yaml", func(path string, v *validation.Validation) bool {
manifests, err := manifest.ParseDir(cv.Path)
if err == nil {
cv.Manifests = manifests
}
return err == nil && cv.Manifests != nil
})
manifestsParsingValidation.AddWarning("Manifests have correct and valid metadata", func(path string, v *validation.Validation) bool {
success := true
validKinds := InstallOrder
for _, m := range cv.Manifests {
meta, _ := m.VersionedObject.Meta()
if meta.Name == "" || len(meta.Name) > MaxMetadataNameLength {
success = false
}
if match, _ := regexp.MatchString(`[a-z]([-a-z0-9]*[a-z0-9])?`, meta.Name); !match {
success = false
}
val, ok := meta.Labels["heritage"]
if !ok || (val != "helm") {
success = false
}
kind := meta.Kind
validManifestKind := false
for _, validKind := range validKinds {
if kind == validKind {
validManifestKind = true
}
}
if validManifestKind == false {
success = false
}
}
return success
})
if cv.Valid() {
log.Info("Chart [%s] has passed all necessary checks", cv.ChartName())
} else {
if cv.ErrorCount > 0 {
log.Err("Chart [%s] has failed some necessary checks. Check out the error and warning messages listed.", cv.ChartName())
} else {
log.Warn("Chart [%s] has passed all necessary checks but failed some checks as well. Proceed with caution. Check out the warnings listed.", cv.ChartName())
}
}
}