package task_test import ( "bytes" "context" "fmt" "io/ioutil" "os" "path/filepath" "runtime" "strings" "testing" "github.com/stretchr/testify/assert" "github.com/go-task/task/v3" "github.com/go-task/task/v3/taskfile" ) func init() { _ = os.Setenv("NO_COLOR", "1") } // fileContentTest provides a basic reusable test-case for running a Taskfile // and inspect generated files. type fileContentTest struct { Dir string Target string TrimSpace bool Files map[string]string } func (fct fileContentTest) name(file string) string { return fmt.Sprintf("target=%q,file=%q", fct.Target, file) } func (fct fileContentTest) Run(t *testing.T) { for f := range fct.Files { _ = os.Remove(filepath.Join(fct.Dir, f)) } e := &task.Executor{ Dir: fct.Dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup(), "e.Setup()") assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: fct.Target}), "e.Run(target)") for name, expectContent := range fct.Files { t.Run(fct.name(name), func(t *testing.T) { b, err := ioutil.ReadFile(filepath.Join(fct.Dir, name)) assert.NoError(t, err, "Error reading file") s := string(b) if fct.TrimSpace { s = strings.TrimSpace(s) } assert.Equal(t, expectContent, s, "unexpected file content") }) } } func TestEmptyTask(t *testing.T) { e := &task.Executor{ Dir: "testdata/empty_task", Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup(), "e.Setup()") assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) } func TestEnv(t *testing.T) { tt := fileContentTest{ Dir: "testdata/env", Target: "default", TrimSpace: false, Files: map[string]string{ "local.txt": "GOOS='linux' GOARCH='amd64' CGO_ENABLED='0'\n", "global.txt": "FOO='foo' BAR='overriden' BAZ='baz'\n", }, } tt.Run(t) } func TestVarsV2(t *testing.T) { tt := fileContentTest{ Dir: "testdata/vars/v2", Target: "default", TrimSpace: true, Files: map[string]string{ "foo.txt": "foo", "bar.txt": "bar", "baz.txt": "baz", "tmpl_foo.txt": "foo", "tmpl_bar.txt": "bar", "tmpl_foo2.txt": "foo2", "tmpl_bar2.txt": "bar2", "shtmpl_foo.txt": "foo", "shtmpl_foo2.txt": "foo2", "nestedtmpl_foo.txt": "", "nestedtmpl_foo2.txt": "foo2", "foo2.txt": "foo2", "bar2.txt": "bar2", "baz2.txt": "baz2", "tmpl2_foo.txt": "", "tmpl2_foo2.txt": "foo2", "tmpl2_bar.txt": "", "tmpl2_bar2.txt": "bar2", "shtmpl2_foo.txt": "", "shtmpl2_foo2.txt": "foo2", "nestedtmpl2_foo2.txt": "", "override.txt": "bar", "nested.txt": "Taskvars-TaskfileVars-TaskVars", "task_name.txt": "hello", }, } tt.Run(t) // Ensure identical results when running hello task directly. tt.Target = "hello" tt.Run(t) } func TestVarsV3(t *testing.T) { tt := fileContentTest{ Dir: "testdata/vars/v3", Target: "default", Files: map[string]string{ "missing-var.txt": "\n", "var-order.txt": "ABCDEF\n", "dependent-sh.txt": "123456\n", "with-call.txt": "Hi, ABC123!\n", "from-dot-env.txt": "From .env file\n", }, } tt.Run(t) } func TestMultilineVars(t *testing.T) { for _, dir := range []string{"testdata/vars/v2/multiline"} { tt := fileContentTest{ Dir: dir, Target: "default", TrimSpace: false, Files: map[string]string{ // Note: // - task does not strip a trailing newline from var entries // - task strips one trailing newline from shell output // - the cat command adds a trailing newline "echo_foobar.txt": "foo\nbar\n", "echo_n_foobar.txt": "foo\nbar\n", "echo_n_multiline.txt": "\n\nfoo\n bar\nfoobar\n\nbaz\n\n", "var_multiline.txt": "\n\nfoo\n bar\nfoobar\n\nbaz\n\n\n", "var_catlines.txt": " foo bar foobar baz \n", "var_enumfile.txt": "0:\n1:\n2:foo\n3: bar\n4:foobar\n5:\n6:baz\n7:\n8:\n", }, } tt.Run(t) } } func TestVarsInvalidTmpl(t *testing.T) { const ( dir = "testdata/vars/v2" target = "invalid-var-tmpl" expectError = "template: :1: unexpected EOF" ) e := &task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup(), "e.Setup()") assert.EqualError(t, e.Run(context.Background(), taskfile.Call{Task: target}), expectError, "e.Run(target)") } func TestConcurrency(t *testing.T) { const ( dir = "testdata/concurrency" target = "default" ) e := &task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, Concurrency: 1, } assert.NoError(t, e.Setup(), "e.Setup()") assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: target}), "e.Run(target)") } func TestParams(t *testing.T) { tt := fileContentTest{ Dir: "testdata/params", Target: "default", TrimSpace: false, Files: map[string]string{ "hello.txt": "Hello\n", "world.txt": "World\n", "exclamation.txt": "!\n", "dep1.txt": "Dependence1\n", "dep2.txt": "Dependence2\n", "spanish.txt": "¡Holla mundo!\n", "spanish-dep.txt": "¡Holla dependencia!\n", "portuguese.txt": "Olá, mundo!\n", "portuguese2.txt": "Olá, mundo!\n", "german.txt": "Welt!\n", }, } tt.Run(t) } func TestDeps(t *testing.T) { const dir = "testdata/deps" files := []string{ "d1.txt", "d2.txt", "d3.txt", "d11.txt", "d12.txt", "d13.txt", "d21.txt", "d22.txt", "d23.txt", "d31.txt", "d32.txt", "d33.txt", } for _, f := range files { _ = os.Remove(filepath.Join(dir, f)) } e := &task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) for _, f := range files { f = filepath.Join(dir, f) if _, err := os.Stat(f); err != nil { t.Errorf("File %s should exist", f) } } } func TestStatus(t *testing.T) { const dir = "testdata/status" files := []string{ "foo.txt", "bar.txt", } for _, f := range files { path := filepath.Join(dir, f) _ = os.Remove(path) if _, err := os.Stat(path); err == nil { t.Errorf("File should not exist: %v", err) } } var buff bytes.Buffer e := &task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Silent: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-foo"})) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-bar"})) for _, f := range files { if _, err := os.Stat(filepath.Join(dir, f)); err != nil { t.Errorf("File should exist: %v", err) } } e.Silent = false // all: not up-to-date assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-foo"})) assert.Equal(t, "task: [gen-foo] touch foo.txt", strings.TrimSpace(buff.String())) buff.Reset() // status: not up-to-date assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-foo"})) assert.Equal(t, "task: [gen-foo] touch foo.txt", strings.TrimSpace(buff.String())) buff.Reset() // sources: not up-to-date assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-bar"})) assert.Equal(t, "task: [gen-bar] touch bar.txt", strings.TrimSpace(buff.String())) buff.Reset() // all: up-to-date assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "gen-bar"})) assert.Equal(t, `task: Task "gen-bar" is up to date`, strings.TrimSpace(buff.String())) buff.Reset() } func TestPrecondition(t *testing.T) { const dir = "testdata/precondition" var buff bytes.Buffer e := &task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } // A precondition that has been met assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "foo"})) if buff.String() != "" { t.Errorf("Got Output when none was expected: %s", buff.String()) } // A precondition that was not met assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "impossible"})) if buff.String() != "task: 1 != 0 obviously!\n" { t.Errorf("Wrong output message: %s", buff.String()) } buff.Reset() // Calling a task with a precondition in a dependency fails the task assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "depends_on_impossible"})) if buff.String() != "task: 1 != 0 obviously!\n" { t.Errorf("Wrong output message: %s", buff.String()) } buff.Reset() // Calling a task with a precondition in a cmd fails the task assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "executes_failing_task_as_cmd"})) if buff.String() != "task: 1 != 0 obviously!\n" { t.Errorf("Wrong output message: %s", buff.String()) } buff.Reset() } func TestGenerates(t *testing.T) { const dir = "testdata/generates" const ( srcTask = "sub/src.txt" relTask = "rel.txt" absTask = "abs.txt" fileWithSpaces = "my text file.txt" ) var srcFile = filepath.Join(dir, srcTask) for _, task := range []string{srcTask, relTask, absTask, fileWithSpaces} { path := filepath.Join(dir, task) _ = os.Remove(path) if _, err := os.Stat(path); err == nil { t.Errorf("File should not exist: %v", err) } } buff := bytes.NewBuffer(nil) e := &task.Executor{ Dir: dir, Stdout: buff, Stderr: buff, } assert.NoError(t, e.Setup()) for _, theTask := range []string{relTask, absTask, fileWithSpaces} { var destFile = filepath.Join(dir, theTask) var upToDate = fmt.Sprintf("task: Task \"%s\" is up to date\n", srcTask) + fmt.Sprintf("task: Task \"%s\" is up to date\n", theTask) // Run task for the first time. assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: theTask})) if _, err := os.Stat(srcFile); err != nil { t.Errorf("File should exist: %v", err) } if _, err := os.Stat(destFile); err != nil { t.Errorf("File should exist: %v", err) } // Ensure task was not incorrectly found to be up-to-date on first run. if buff.String() == upToDate { t.Errorf("Wrong output message: %s", buff.String()) } buff.Reset() // Re-run task to ensure it's now found to be up-to-date. assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: theTask})) if buff.String() != upToDate { t.Errorf("Wrong output message: %s", buff.String()) } buff.Reset() } } func TestStatusChecksum(t *testing.T) { const dir = "testdata/checksum" files := []string{ "generated.txt", ".task/checksum/build", } for _, f := range files { _ = os.Remove(filepath.Join(dir, f)) _, err := os.Stat(filepath.Join(dir, f)) assert.Error(t, err) } var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "build"})) for _, f := range files { _, err := os.Stat(filepath.Join(dir, f)) assert.NoError(t, err) } buff.Reset() assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "build"})) assert.Equal(t, `task: Task "build" is up to date`+"\n", buff.String()) } func TestLabelUpToDate(t *testing.T) { const dir = "testdata/label_uptodate" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "foo"})) assert.Contains(t, buff.String(), "foobar") } func TestLabelSummary(t *testing.T) { const dir = "testdata/label_summary" var buff bytes.Buffer e := task.Executor{ Dir: dir, Summary: true, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "foo"})) assert.Contains(t, buff.String(), "foobar") } func TestLabelInStatus(t *testing.T) { const dir = "testdata/label_status" e := task.Executor{ Dir: dir, } assert.NoError(t, e.Setup()) err := e.Status(context.Background(), taskfile.Call{Task: "foo"}) if assert.Error(t, err) { assert.Contains(t, err.Error(), "foobar") } } func TestLabelWithVariableExpansion(t *testing.T) { const dir = "testdata/label_var" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "foo"})) assert.Contains(t, buff.String(), "foobaz") } func TestLabelInSummary(t *testing.T) { const dir = "testdata/label_summary" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "foo"})) assert.Contains(t, buff.String(), "foobar") } func TestLabelInList(t *testing.T) { const dir = "testdata/label_list" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) e.PrintTasksHelp() assert.Contains(t, buff.String(), "foobar") } func TestStatusVariables(t *testing.T) { const dir = "testdata/status_vars" _ = os.RemoveAll(filepath.Join(dir, ".task")) _ = os.Remove(filepath.Join(dir, "generated.txt")) var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Silent: false, Verbose: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "build"})) assert.Contains(t, buff.String(), "d41d8cd98f00b204e9800998ecf8427e") inf, err := os.Stat(filepath.Join(dir, "source.txt")) assert.NoError(t, err) ts := fmt.Sprintf("%d", inf.ModTime().Unix()) tf := fmt.Sprintf("%s", inf.ModTime()) assert.Contains(t, buff.String(), ts) assert.Contains(t, buff.String(), tf) } func TestInit(t *testing.T) { const dir = "testdata/init" var file = filepath.Join(dir, "Taskfile.yml") _ = os.Remove(file) if _, err := os.Stat(file); err == nil { t.Errorf("Taskfile.yml should not exist") } if err := task.InitTaskfile(ioutil.Discard, dir); err != nil { t.Error(err) } if _, err := os.Stat(file); err != nil { t.Errorf("Taskfile.yml should exist") } } func TestCyclicDep(t *testing.T) { const dir = "testdata/cyclic" e := task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup()) assert.IsType(t, &task.MaximumTaskCallExceededError{}, e.Run(context.Background(), taskfile.Call{Task: "task-1"})) } func TestTaskVersion(t *testing.T) { tests := []struct { Dir string Version string }{ {"testdata/version/v2", "2"}, } for _, test := range tests { t.Run(test.Dir, func(t *testing.T) { e := task.Executor{ Dir: test.Dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup()) assert.Equal(t, test.Version, e.Taskfile.Version) assert.Equal(t, 2, len(e.Taskfile.Tasks)) }) } } func TestTaskIgnoreErrors(t *testing.T) { const dir = "testdata/ignore_errors" e := task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "task-should-pass"})) assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "task-should-fail"})) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "cmd-should-pass"})) assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "cmd-should-fail"})) } func TestExpand(t *testing.T) { const dir = "testdata/expand" home, err := os.UserHomeDir() if err != nil { t.Errorf("Couldn't get $HOME: %v", err) } var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "pwd"})) assert.Equal(t, home, strings.TrimSpace(buff.String())) } func TestDry(t *testing.T) { const dir = "testdata/dry" file := filepath.Join(dir, "file.txt") _ = os.Remove(file) var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Dry: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "build"})) assert.Equal(t, "task: [build] touch file.txt", strings.TrimSpace(buff.String())) if _, err := os.Stat(file); err == nil { t.Errorf("File should not exist %s", file) } } // TestDryChecksum tests if the checksum file is not being written to disk // if the dry mode is enabled. func TestDryChecksum(t *testing.T) { const dir = "testdata/dry_checksum" checksumFile := filepath.Join(dir, ".task/checksum/default") _ = os.Remove(checksumFile) e := task.Executor{ Dir: dir, Stdout: ioutil.Discard, Stderr: ioutil.Discard, Dry: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) _, err := os.Stat(checksumFile) assert.Error(t, err, "checksum file should not exist") e.Dry = false assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) _, err = os.Stat(checksumFile) assert.NoError(t, err, "checksum file should exist") } func TestIncludes(t *testing.T) { tt := fileContentTest{ Dir: "testdata/includes", Target: "default", TrimSpace: true, Files: map[string]string{ "main.txt": "main", "included_directory.txt": "included_directory", "included_directory_without_dir.txt": "included_directory_without_dir", "included_taskfile_without_dir.txt": "included_taskfile_without_dir", "./module2/included_directory_with_dir.txt": "included_directory_with_dir", "./module2/included_taskfile_with_dir.txt": "included_taskfile_with_dir", "os_include.txt": "os", }, } tt.Run(t) } func TestIncorrectVersionIncludes(t *testing.T) { const dir = "testdata/incorrect_includes" expectedError := "task: Import with additional parameters is only available starting on Taskfile version v3" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Silent: true, } assert.EqualError(t, e.Setup(), expectedError) } func TestIncludesEmptyMain(t *testing.T) { tt := fileContentTest{ Dir: "testdata/includes_empty", Target: "included:default", TrimSpace: true, Files: map[string]string{ "file.txt": "default", }, } tt.Run(t) } func TestIncludesDependencies(t *testing.T) { tt := fileContentTest{ Dir: "testdata/includes_deps", Target: "default", TrimSpace: true, Files: map[string]string{ "default.txt": "default", "called_dep.txt": "called_dep", "called_task.txt": "called_task", }, } tt.Run(t) } func TestIncludesCallingRoot(t *testing.T) { tt := fileContentTest{ Dir: "testdata/includes_call_root_task", Target: "included:call-root", TrimSpace: true, Files: map[string]string{ "root_task.txt": "root task", }, } tt.Run(t) } func TestIncludesOptional(t *testing.T) { tt := fileContentTest{ Dir: "testdata/includes_optional", Target: "default", TrimSpace: true, Files: map[string]string{ "called_dep.txt": "called_dep", }} tt.Run(t) } func TestIncludesOptionalImplicitFalse(t *testing.T) { e := task.Executor{ Dir: "testdata/includes_optional_implicit_false", Stdout: ioutil.Discard, Stderr: ioutil.Discard, } err := e.Setup() assert.Error(t, err) assert.Equal(t, "stat testdata/includes_optional_implicit_false/TaskfileOptional.yml: no such file or directory", err.Error()) } func TestIncludesOptionalExplicitFalse(t *testing.T) { e := task.Executor{ Dir: "testdata/includes_optional_explicit_false", Stdout: ioutil.Discard, Stderr: ioutil.Discard, } err := e.Setup() assert.Error(t, err) assert.Equal(t, "stat testdata/includes_optional_explicit_false/TaskfileOptional.yml: no such file or directory", err.Error()) } func TestSummary(t *testing.T) { const dir = "testdata/summary" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Summary: true, Silent: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "task-with-summary"}, taskfile.Call{Task: "other-task-with-summary"})) data, err := ioutil.ReadFile(filepath.Join(dir, "task-with-summary.txt")) assert.NoError(t, err) expectedOutput := string(data) if runtime.GOOS == "windows" { expectedOutput = strings.Replace(expectedOutput, "\r\n", "\n", -1) } assert.Equal(t, expectedOutput, buff.String()) } func TestWhenNoDirAttributeItRunsInSameDirAsTaskfile(t *testing.T) { const expected = "dir" const dir = "testdata/" + expected var out bytes.Buffer e := &task.Executor{ Dir: dir, Stdout: &out, Stderr: &out, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "whereami"})) // got should be the "dir" part of "testdata/dir" got := strings.TrimSuffix(filepath.Base(out.String()), "\n") assert.Equal(t, expected, got, "Mismatch in the working directory") } func TestWhenDirAttributeAndDirExistsItRunsInThatDir(t *testing.T) { const expected = "exists" const dir = "testdata/dir/explicit_exists" var out bytes.Buffer e := &task.Executor{ Dir: dir, Stdout: &out, Stderr: &out, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "whereami"})) got := strings.TrimSuffix(filepath.Base(out.String()), "\n") assert.Equal(t, expected, got, "Mismatch in the working directory") } func TestWhenDirAttributeItCreatesMissingAndRunsInThatDir(t *testing.T) { const expected = "createme" const dir = "testdata/dir/explicit_doesnt_exist/" const toBeCreated = dir + expected const target = "whereami" var out bytes.Buffer e := &task.Executor{ Dir: dir, Stdout: &out, Stderr: &out, } // Ensure that the directory to be created doesn't actually exist. _ = os.RemoveAll(toBeCreated) if _, err := os.Stat(toBeCreated); err == nil { t.Errorf("Directory should not exist: %v", err) } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: target})) got := strings.TrimSuffix(filepath.Base(out.String()), "\n") assert.Equal(t, expected, got, "Mismatch in the working directory") // Clean-up after ourselves only if no error. _ = os.RemoveAll(toBeCreated) } func TestDynamicVariablesShouldRunOnTheTaskDir(t *testing.T) { tt := fileContentTest{ Dir: "testdata/dir/dynamic_var", Target: "default", TrimSpace: false, Files: map[string]string{ "subdirectory/from_root_taskfile.txt": "subdirectory\n", "subdirectory/from_included_taskfile.txt": "subdirectory\n", "subdirectory/from_included_taskfile_task.txt": "subdirectory\n", "subdirectory/from_interpolated_dir.txt": "subdirectory\n", }, } tt.Run(t) } func TestDisplaysErrorOnUnsupportedVersion(t *testing.T) { e := task.Executor{ Dir: "testdata/version/v1", Stdout: ioutil.Discard, Stderr: ioutil.Discard, } err := e.Setup() assert.Error(t, err) assert.Equal(t, "task: Taskfile versions prior to v2 are not supported anymore", err.Error()) } func TestShortTaskNotation(t *testing.T) { const dir = "testdata/short_task_notation" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Silent: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) assert.Equal(t, "string-slice-1\nstring-slice-2\nstring\n", buff.String()) } func TestDotenvShouldIncludeAllEnvFiles(t *testing.T) { tt := fileContentTest{ Dir: "testdata/dotenv/default", Target: "default", TrimSpace: false, Files: map[string]string{ "include.txt": "INCLUDE1='from_include1' INCLUDE2='from_include2'\n", }, } tt.Run(t) } func TestDotenvShouldErrorWhenIncludingDependantDotenvs(t *testing.T) { const dir = "testdata/dotenv/error_included_envs" const entry = "Taskfile.yml" var buff bytes.Buffer e := task.Executor{ Dir: dir, Entrypoint: entry, Summary: true, Stdout: &buff, Stderr: &buff, } err := e.Setup() assert.Error(t, err) assert.Contains(t, err.Error(), "move the dotenv") } func TestDotenvShouldAllowMissingEnv(t *testing.T) { tt := fileContentTest{ Dir: "testdata/dotenv/missing_env", Target: "default", TrimSpace: false, Files: map[string]string{ "include.txt": "INCLUDE1='' INCLUDE2=''\n", }, } tt.Run(t) } func TestDotenvHasLocalEnvInPath(t *testing.T) { tt := fileContentTest{ Dir: "testdata/dotenv/local_env_in_path", Target: "default", TrimSpace: false, Files: map[string]string{ "var.txt": "VAR='var_in_dot_env_1'\n", }, } tt.Run(t) } func TestDotenvHasLocalVarInPath(t *testing.T) { tt := fileContentTest{ Dir: "testdata/dotenv/local_var_in_path", Target: "default", TrimSpace: false, Files: map[string]string{ "var.txt": "VAR='var_in_dot_env_3'\n", }, } tt.Run(t) } func TestDotenvHasEnvVarInPath(t *testing.T) { os.Setenv("ENV_VAR", "testing") tt := fileContentTest{ Dir: "testdata/dotenv/env_var_in_path", Target: "default", TrimSpace: false, Files: map[string]string{ "var.txt": "VAR='var_in_dot_env_2'\n", }, } tt.Run(t) } func TestExitImmediately(t *testing.T) { const dir = "testdata/exit_immediately" var buff bytes.Buffer e := task.Executor{ Dir: dir, Stdout: &buff, Stderr: &buff, Silent: true, } assert.NoError(t, e.Setup()) assert.Error(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) assert.Contains(t, buff.String(), `"this_should_fail": executable file not found in $PATH`) } func TestRunOnlyRunsJobsHashOnce(t *testing.T) { tt := fileContentTest{ Dir: "testdata/run", Target: "generate-hash", Files: map[string]string{ "hash.txt": "starting 1\n1\n2\n", }, } tt.Run(t) } func TestIgnoreNilElements(t *testing.T) { tests := []struct { name string dir string }{ {"nil cmd", "testdata/ignore_nil_elements/cmds"}, {"nil dep", "testdata/ignore_nil_elements/deps"}, {"nil precondition", "testdata/ignore_nil_elements/preconditions"}, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { var buff bytes.Buffer e := task.Executor{ Dir: test.dir, Stdout: &buff, Stderr: &buff, Silent: true, } assert.NoError(t, e.Setup()) assert.NoError(t, e.Run(context.Background(), taskfile.Call{Task: "default"})) assert.Equal(t, "string-slice-1\n", buff.String()) }) } }