package packer import ( "bytes" "os" "strings" "testing" ) // This reads the output from the bytes.Buffer in our test object // and then resets the buffer. func readWriter(ui *BasicUi) (result string) { buffer := ui.Writer.(*bytes.Buffer) result = buffer.String() buffer.Reset() return } // Reset the input Reader than add some input to it. func writeReader(ui *BasicUi, input string) { buffer := ui.Reader.(*bytes.Buffer) buffer.WriteString(input) } func readErrorWriter(ui *BasicUi) (result string) { buffer := ui.ErrorWriter.(*bytes.Buffer) result = buffer.String() buffer.Reset() return } func testUi() *BasicUi { return &BasicUi{ Reader: new(bytes.Buffer), Writer: new(bytes.Buffer), ErrorWriter: new(bytes.Buffer), TTY: new(testTTY), } } type testTTY struct { say string } func (tty *testTTY) Close() error { return nil } func (tty *testTTY) ReadString() (string, error) { return tty.say, nil } func TestColoredUi(t *testing.T) { bufferUi := testUi() ui := &ColoredUi{UiColorYellow, UiColorRed, bufferUi, &UiProgressBar{}} if !ui.supportsColors() { t.Skip("skipping for ui without color support") } ui.Say("foo") result := readWriter(bufferUi) if result != "\033[1;33mfoo\033[0m\n" { t.Fatalf("invalid output: %s", result) } ui.Message("foo") result = readWriter(bufferUi) if result != "\033[0;33mfoo\033[0m\n" { t.Fatalf("invalid output: %s", result) } ui.Error("foo") result = readWriter(bufferUi) if result != "" { t.Fatalf("invalid output: %s", result) } result = readErrorWriter(bufferUi) if result != "\033[1;31mfoo\033[0m\n" { t.Fatalf("invalid output: %s", result) } } func TestColoredUi_noColorEnv(t *testing.T) { bufferUi := testUi() ui := &ColoredUi{UiColorYellow, UiColorRed, bufferUi, &UiProgressBar{}} // Set the env var to get rid of the color oldenv := os.Getenv("PACKER_NO_COLOR") os.Setenv("PACKER_NO_COLOR", "1") defer os.Setenv("PACKER_NO_COLOR", oldenv) ui.Say("foo") result := readWriter(bufferUi) if result != "foo\n" { t.Fatalf("invalid output: %s", result) } ui.Message("foo") result = readWriter(bufferUi) if result != "foo\n" { t.Fatalf("invalid output: %s", result) } ui.Error("foo") result = readErrorWriter(bufferUi) if result != "foo\n" { t.Fatalf("invalid output: %s", result) } } func TestTargetedUI(t *testing.T) { bufferUi := testUi() targetedUi := &TargetedUI{ Target: "foo", Ui: bufferUi, } var actual, expected string targetedUi.Say("foo") actual = readWriter(bufferUi) expected = "==> foo: foo\n" if actual != expected { t.Fatalf("bad: %#v", actual) } targetedUi.Message("foo") actual = readWriter(bufferUi) expected = " foo: foo\n" if actual != expected { t.Fatalf("bad: %#v", actual) } targetedUi.Error("bar") actual = readErrorWriter(bufferUi) expected = "==> foo: bar\n" if actual != expected { t.Fatalf("bad: %#v", actual) } targetedUi.Say("foo\nbar") actual = readWriter(bufferUi) expected = "==> foo: foo\n==> foo: bar\n" if actual != expected { t.Fatalf("bad: %#v", actual) } } func TestColoredUi_ImplUi(t *testing.T) { var raw interface{} raw = &ColoredUi{} if _, ok := raw.(Ui); !ok { t.Fatalf("ColoredUi must implement Ui") } } func TestTargetedUI_ImplUi(t *testing.T) { var raw interface{} raw = &TargetedUI{} if _, ok := raw.(Ui); !ok { t.Fatalf("TargetedUI must implement Ui") } } func TestBasicUi_ImplUi(t *testing.T) { var raw interface{} raw = &BasicUi{} if _, ok := raw.(Ui); !ok { t.Fatalf("BasicUi must implement Ui") } } func TestBasicUi_Error(t *testing.T) { bufferUi := testUi() var actual, expected string bufferUi.Error("foo") actual = readErrorWriter(bufferUi) expected = "foo\n" if actual != expected { t.Fatalf("bad: %#v", actual) } bufferUi.ErrorWriter = nil bufferUi.Error("5") actual = readWriter(bufferUi) expected = "5\n" if actual != expected { t.Fatalf("bad: %#v", actual) } } func TestBasicUi_Say(t *testing.T) { bufferUi := testUi() var actual, expected string bufferUi.Say("foo") actual = readWriter(bufferUi) expected = "foo\n" if actual != expected { t.Fatalf("bad: %#v", actual) } bufferUi.Say("5") actual = readWriter(bufferUi) expected = "5\n" if actual != expected { t.Fatalf("bad: %#v", actual) } } func TestBasicUi_Ask(t *testing.T) { var actual, expected string var err error var testCases = []struct { Prompt, Input, Answer string }{ {"[c]ontinue or [a]bort", "c\n", "c"}, {"[c]ontinue or [a]bort", "c", "c"}, // Empty input shouldn't give an error {"Name", "Joe Bloggs\n", "Joe Bloggs"}, {"Name", "Joe Bloggs", "Joe Bloggs"}, {"Name", "\n", ""}, } for _, testCase := range testCases { // Because of the internal bufio we can't easily reset the input, so create a new one each time bufferUi := testUi() bufferUi.TTY = &testTTY{testCase.Input} actual, err = bufferUi.Ask(testCase.Prompt) if err != nil { t.Fatal(err) } if actual != testCase.Answer { t.Fatalf("bad answer: %#v", actual) } actual = readWriter(bufferUi) expected = testCase.Prompt + " " if actual != expected { t.Fatalf("bad prompt: %#v", actual) } } } func TestMachineReadableUi_ImplUi(t *testing.T) { var raw interface{} raw = &MachineReadableUi{} if _, ok := raw.(Ui); !ok { t.Fatalf("MachineReadableUi must implement Ui") } } func TestMachineReadableUi(t *testing.T) { var data, expected string buf := new(bytes.Buffer) ui := &MachineReadableUi{Writer: buf} // No target ui.Machine("foo", "bar", "baz") data = strings.SplitN(buf.String(), ",", 2)[1] expected = ",foo,bar,baz\n" if data != expected { t.Fatalf("bad: %s", data) } // Target buf.Reset() ui.Machine("mitchellh,foo", "bar", "baz") data = strings.SplitN(buf.String(), ",", 2)[1] expected = "mitchellh,foo,bar,baz\n" if data != expected { t.Fatalf("bad: %s", data) } // Commas buf.Reset() ui.Machine("foo", "foo,bar") data = strings.SplitN(buf.String(), ",", 2)[1] expected = ",foo,foo%!(PACKER_COMMA)bar\n" if data != expected { t.Fatalf("bad: %s", data) } // New lines buf.Reset() ui.Machine("foo", "foo\n") data = strings.SplitN(buf.String(), ",", 2)[1] expected = ",foo,foo\\n\n" if data != expected { t.Fatalf("bad: %#v", data) } }