func TestLintEmptyChartYaml(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "badChart" Create(chartName, tmpHome) badChartYaml, _ := yaml.Marshal(make(map[string]string)) chartYaml := util.WorkspaceChartDirectory(tmpHome, chartName, Chartfile) os.Remove(chartYaml) ioutil.WriteFile(chartYaml, badChartYaml, 0644) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) test.ExpectContains(t, output, "Chart.yaml has a name field : false") test.ExpectContains(t, output, "Chart.yaml has a version field : false") test.ExpectContains(t, output, "Chart.yaml has a description field : false") test.ExpectContains(t, output, "Chart.yaml has a maintainers field : false") test.ExpectContains(t, output, fmt.Sprintf("Chart [%s] has failed some necessary checks", chartName)) }
func TestLintMissingChartYaml(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "badChart" Create(chartName, tmpHome) os.Remove(filepath.Join(util.WorkspaceChartDirectory(tmpHome, chartName), Chartfile)) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) test.ExpectContains(t, output, "Chart.yaml is present : false") test.ExpectContains(t, output, "Chart [badChart] has failed some necessary checks.") }
func TestGenerate(t *testing.T) { ch := "generate" homedir := test.CreateTmpHome() test.FakeUpdate(homedir) Fetch(ch, ch, homedir) Generate(ch, homedir, []string{"ignore"}) // Now we should be able to load and read the `pod.yaml` file. path := util.WorkspaceChartDirectory(homedir, "generate/manifests/pod.yaml") d, err := ioutil.ReadFile(path) if err != nil { t.Fatal(err) } pod := string(d) test.ExpectContains(t, pod, "image: ozo") test.ExpectContains(t, pod, "name: www-server") }
func TestLintAll(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) missingReadmeChart := "missingReadme" action.Create(missingReadmeChart, tmpHome) os.Remove(util.WorkspaceChartDirectory(tmpHome, missingReadmeChart, "README.md")) action.Create("goodChart", tmpHome) output := test.CaptureOutput(func() { Cli().Run([]string{"helm", "--home", tmpHome, "lint", "--all"}) }) test.ExpectMatches(t, output, "A README file was not found.*"+missingReadmeChart) test.ExpectContains(t, output, "Chart [goodChart] has passed all necessary checks") test.ExpectContains(t, output, "Chart [missingReadme] failed some checks") }
func TestLintAllNone(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) output := test.CaptureOutput(func() { Cli().Run([]string{"helm", "--home", tmpHome, "lint", "--all"}) }) test.ExpectContains(t, output, fmt.Sprintf("Could not find any charts in \"%s", tmpHome)) }
func TestLintBadPath(t *testing.T) { tmpHome := test.CreateTmpHome() chartName := "badChart" output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) msg := "Chart found at " + tmpHome + "/workspace/charts/" + chartName + " : false" test.ExpectContains(t, output, msg) }
func TestFetch(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "kitchensink" actual := test.CaptureOutput(func() { Fetch(chartName, "", tmpHome) }) workspacePath := util.WorkspaceChartDirectory(tmpHome, chartName) test.ExpectContains(t, actual, "Fetched chart into workspace "+workspacePath) }
func TestListRepos(t *testing.T) { log.IsDebugging = true homedir := test.CreateTmpHome() test.FakeUpdate(homedir) actual := test.CaptureOutput(func() { ListRepos(homedir) }) test.ExpectContains(t, actual, "charts*\thttps://github.com/helm/charts") }
func TestLintMismatchedChartNameAndDir(t *testing.T) { tmpHome := test.CreateTmpHome() chartName := "chart-0" chartDir := "chart-1" chart := newSkelChartfile(chartName) createWithChart(chart, chartDir, tmpHome) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartDir)) }) test.ExpectContains(t, output, "Name declared in Chart.yaml is the same as directory name. : false") }
func TestTarget(t *testing.T) { client := TestRunner{ out: []byte("lookin good"), } expected := "lookin good" actual := test.CaptureOutput(func() { Target(client) }) test.ExpectContains(t, actual, expected) }
func TestLintChartByPath(t *testing.T) { home1 := test.CreateTmpHome() home2 := test.CreateTmpHome() chartName := "goodChart" action.Create(chartName, home1) output := test.CaptureOutput(func() { Cli().Run([]string{"helm", "--home", home2, "lint", util.WorkspaceChartDirectory(home1, chartName)}) }) test.ExpectContains(t, output, fmt.Sprintf("Chart [%s] has passed all necessary checks", chartName)) }
func TestLintSingle(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "goodChart" action.Create(chartName, tmpHome) output := test.CaptureOutput(func() { Cli().Run([]string{"helm", "--home", tmpHome, "lint", chartName}) }) test.ExpectContains(t, output, fmt.Sprintf("Chart [%s] has passed all necessary checks", chartName)) }
func TestSearchNotFound(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) // test that a "no chart found" message was printed expected := "No results found" actual := test.CaptureOutput(func() { Search("nonexistent", tmpHome, false) }) test.ExpectContains(t, actual, expected) }
func TestCheckLatest(t *testing.T) { setupTestCheckLatest() defer func() { release.RepoService = nil }() log.IsDebugging = true actual := test.CaptureOutput(func() { CheckLatest("0.0.1") }) test.ExpectContains(t, actual, "A new version of Helm") }
func TestInfoFormat(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) format := `Hello {{.Name}}` expected := `Hello kitchensink` actual := test.CaptureOutput(func() { Info("kitchensink", tmpHome, format) }) test.ExpectContains(t, actual, expected) }
func TestLintMissingReadme(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "badChart" Create(chartName, tmpHome) os.Remove(filepath.Join(util.WorkspaceChartDirectory(tmpHome, chartName), "README.md")) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) test.ExpectContains(t, output, "README.md is present and not empty : false") }
func TestLintSuccess(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "goodChart" Create(chartName, tmpHome) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) expected := "Chart [goodChart] has passed all necessary checks" test.ExpectContains(t, output, expected) }
func TestLintMissingManifestDirectory(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) chartName := "brokeChart" Create(chartName, tmpHome) os.RemoveAll(filepath.Join(util.WorkspaceChartDirectory(tmpHome, chartName), "manifests")) output := test.CaptureOutput(func() { Lint(util.WorkspaceChartDirectory(tmpHome, chartName)) }) test.ExpectMatches(t, output, "Manifests directory is present : false") test.ExpectContains(t, output, "Chart ["+chartName+"] has failed some necessary checks") }
func TestEdit(t *testing.T) { editor := os.Getenv("EDITOR") os.Setenv("EDITOR", "echo") defer os.Setenv("EDITOR", editor) tmpHome := test.CreateTmpHome() defer os.RemoveAll(tmpHome) test.FakeUpdate(tmpHome) Fetch("redis", "", tmpHome) expected := path.Join(tmpHome, "workspace/charts/redis") actual := test.CaptureOutput(func() { Edit("redis", tmpHome) }) test.ExpectContains(t, actual, expected) }
func TestInfo(t *testing.T) { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) format := "" expected := `Name: kitchensink Home: http://github.com/helm/helm Version: 0.0.1 Description: All the things, all semantically, none working Details: This package provides a sampling of all of the different manifest types. It can be used to test ordering and other properties of a chart.` actual := test.CaptureOutput(func() { Info("kitchensink", tmpHome, format) }) test.ExpectContains(t, actual, expected) }
func TestUninstall(t *testing.T) { tests := []struct { name string // Todo: print name on fail chart string force bool expected []string client kubectl.Runner }{ { name: "with valid input", chart: "redis", force: true, expected: []string{"Running `kubectl delete` ...", "hello from redis"}, client: TestRunner{ out: []byte("hello from redis"), }, }, { name: "with a kubectl error", chart: "redis", force: true, expected: []string{"Running `kubectl delete` ...", "Could not delete Pod redis (Skipping): oh snap"}, client: TestRunner{ err: errors.New("oh snap"), }, }, } tmpHome := test.CreateTmpHome() defer os.RemoveAll(tmpHome) test.FakeUpdate(tmpHome) for _, tt := range tests { Fetch(tt.chart, "", tmpHome) actual := test.CaptureOutput(func() { Uninstall(tt.chart, tmpHome, "", tt.force, tt.client) }) for _, exp := range tt.expected { test.ExpectContains(t, actual, exp) } } }
func TestTRemove(t *testing.T) { kg := kubeGet defer func() { kubeGet = kg }() tests := []struct { chartName string getter kubeGetter force bool expected string }{ {"kitchensink", mockNotFoundGetter, false, "All clear! You have successfully removed kitchensink from your workspace."}, // when manifests are installed {"kitchensink", mockFoundGetter, false, "Found 9 installed manifests for kitchensink. To remove a chart that has been installed the --force flag must be set."}, // when manifests are installed and force is set {"kitchensink", mockNotFoundGetter, true, "All clear! You have successfully removed kitchensink from your workspace."}, // when kubectl cannot connect {"kitchensink", mockFailConnection, false, "Could not determine if kitchensink is installed. To remove the chart --force flag must be set."}, // when kubectl cannot connect and force is set {"kitchensink", mockFailConnection, true, "All clear! You have successfully removed kitchensink from your workspace."}, } for _, tt := range tests { tmpHome := test.CreateTmpHome() test.FakeUpdate(tmpHome) Fetch("kitchensink", "", tmpHome) // set the mock getter kubeGet = tt.getter actual := test.CaptureOutput(func() { Remove(tt.chartName, tmpHome, tt.force) }) test.ExpectContains(t, actual, tt.expected) os.Remove(tmpHome) } }
func TestInstall(t *testing.T) { // Todo: add tests // - with an invalid chart name // - with failure to check dependencies // - with failure to check dependencies and force option // - with chart in current directly tests := []struct { name string // Todo: print name on fail chart string force bool expected []string client kubectl.Runner }{ { name: "with valid input", chart: "redis", expected: []string{"hello from redis"}, client: TestRunner{ out: []byte("hello from redis"), }, }, { name: "with dry-run option", chart: "redis", expected: []string{"[CMD] kubectl create -f -"}, client: kubectl.PrintRunner{}, }, { name: "with unsatisfied dependencies", chart: "kitchensink", expected: []string{"Stopping install. Re-run with --force to install anyway."}, client: TestRunner{}, }, { name: "with unsatisfied dependencies and force option", chart: "kitchensink", force: true, expected: []string{"Unsatisfied dependencies", "Running `kubectl create -f`"}, client: TestRunner{}, }, { name: "with a kubectl error", chart: "redis", expected: []string{"Failed to upload manifests: oh snap"}, client: TestRunner{ err: errors.New("oh snap"), }, }, } tmpHome := test.CreateTmpHome() defer os.RemoveAll(tmpHome) test.FakeUpdate(tmpHome) // Todo: get rid of this hacky mess pp := os.Getenv("PATH") defer os.Setenv("PATH", pp) os.Setenv("PATH", filepath.Join(test.HelmRoot, "testdata")+":"+pp) for _, tt := range tests { actual := test.CaptureOutput(func() { Install(tt.chart, tmpHome, "", tt.force, false, []string{}, tt.client) }) for _, exp := range tt.expected { test.ExpectContains(t, actual, exp) } } }