package yaml import ( "fmt" "math" "reflect" "strconv" "testing" ) type MarshalTest struct { A string B int64 // Would like to test float64, but it's not supported in go-yaml. // (See https://github.com/go-yaml/yaml/issues/83.) C float32 } func TestMarshal(t *testing.T) { f32String := strconv.FormatFloat(math.MaxFloat32, 'g', -1, 32) s := MarshalTest{"a", math.MaxInt64, math.MaxFloat32} e := []byte(fmt.Sprintf("A: a\nB: %d\nC: %s\n", math.MaxInt64, f32String)) y, err := Marshal(s) if err != nil { t.Errorf("error marshaling YAML: %v", err) } if !reflect.DeepEqual(y, e) { t.Errorf("marshal YAML was unsuccessful, expected: %#v, got: %#v", string(e), string(y)) } } type UnmarshalString struct { A string True string } type UnmarshalStringMap struct { A map[string]string } type UnmarshalNestedString struct { A NestedString } type NestedString struct { A string } type UnmarshalSlice struct { A []NestedSlice } type NestedSlice struct { B string C *string } func TestUnmarshal(t *testing.T) { y := []byte("a: 1") s1 := UnmarshalString{} e1 := UnmarshalString{A: "1"} unmarshal(t, y, &s1, &e1) y = []byte("a: true") s1 = UnmarshalString{} e1 = UnmarshalString{A: "true"} unmarshal(t, y, &s1, &e1) y = []byte("true: 1") s1 = UnmarshalString{} e1 = UnmarshalString{True: "1"} unmarshal(t, y, &s1, &e1) y = []byte("a:\n a: 1") s2 := UnmarshalNestedString{} e2 := UnmarshalNestedString{NestedString{"1"}} unmarshal(t, y, &s2, &e2) y = []byte("a:\n - b: abc\n c: def\n - b: 123\n c: 456\n") s3 := UnmarshalSlice{} e3 := UnmarshalSlice{[]NestedSlice{NestedSlice{"abc", strPtr("def")}, NestedSlice{"123", strPtr("456")}}} unmarshal(t, y, &s3, &e3) y = []byte("a:\n b: 1") s4 := UnmarshalStringMap{} e4 := UnmarshalStringMap{map[string]string{"b": "1"}} unmarshal(t, y, &s4, &e4) y = []byte(` a: name: TestA b: name: TestB `) type NamedThing struct { Name string `json:"name"` } s5 := map[string]*NamedThing{} e5 := map[string]*NamedThing{ "a": &NamedThing{Name: "TestA"}, "b": &NamedThing{Name: "TestB"}, } unmarshal(t, y, &s5, &e5) } func unmarshal(t *testing.T, y []byte, s, e interface{}, opts ...JSONOpt) { err := Unmarshal(y, s, opts...) if err != nil { t.Errorf("error unmarshaling YAML: %v", err) } if !reflect.DeepEqual(s, e) { t.Errorf("unmarshal YAML was unsuccessful, expected: %+#v, got: %+#v", e, s) } } func TestUnmarshalStrict(t *testing.T) { y := []byte("a: 1") s1 := UnmarshalString{} e1 := UnmarshalString{A: "1"} unmarshalStrict(t, y, &s1, &e1) y = []byte("a: true") s1 = UnmarshalString{} e1 = UnmarshalString{A: "true"} unmarshalStrict(t, y, &s1, &e1) y = []byte("true: 1") s1 = UnmarshalString{} e1 = UnmarshalString{True: "1"} unmarshalStrict(t, y, &s1, &e1) y = []byte("a:\n a: 1") s2 := UnmarshalNestedString{} e2 := UnmarshalNestedString{NestedString{"1"}} unmarshalStrict(t, y, &s2, &e2) y = []byte("a:\n - b: abc\n c: def\n - b: 123\n c: 456\n") s3 := UnmarshalSlice{} e3 := UnmarshalSlice{[]NestedSlice{NestedSlice{"abc", strPtr("def")}, NestedSlice{"123", strPtr("456")}}} unmarshalStrict(t, y, &s3, &e3) y = []byte("a:\n b: 1") s4 := UnmarshalStringMap{} e4 := UnmarshalStringMap{map[string]string{"b": "1"}} unmarshalStrict(t, y, &s4, &e4) y = []byte(` a: name: TestA b: name: TestB `) type NamedThing struct { Name string `json:"name"` } s5 := map[string]*NamedThing{} e5 := map[string]*NamedThing{ "a": &NamedThing{Name: "TestA"}, "b": &NamedThing{Name: "TestB"}, } unmarshal(t, y, &s5, &e5) // When using not-so-strict unmarshal, we should // be picking up the ID-1 as the value in the "id" field y = []byte(` a: name: TestA id: ID-A id: ID-1 `) type NamedThing2 struct { Name string `json:"name"` ID string `json:"id"` } s6 := map[string]*NamedThing2{} e6 := map[string]*NamedThing2{ "a": {Name: "TestA", ID: "ID-1"}, } unmarshal(t, y, &s6, &e6) } func TestUnmarshalStrictFails(t *testing.T) { y := []byte("a: true\na: false") s1 := UnmarshalString{} unmarshalStrictFail(t, y, &s1) y = []byte("a:\n - b: abc\n c: 32\n b: 123") s2 := UnmarshalSlice{} unmarshalStrictFail(t, y, &s2) y = []byte("a:\n b: 1\n c: 3") s3 := UnmarshalStringMap{} unmarshalStrictFail(t, y, &s3) type NamedThing struct { Name string `json:"name"` ID string `json:"id"` } // When using strict unmarshal, we should see // the unmarshal fail if there are multiple keys y = []byte(` a: name: TestA id: ID-A id: ID-1 `) s4 := NamedThing{} unmarshalStrictFail(t, y, &s4) // Strict unmarshal should fail for unknown fields y = []byte(` name: TestB id: ID-B unknown: Some-Value `) s5 := NamedThing{} unmarshalStrictFail(t, y, &s5) } func unmarshalStrict(t *testing.T, y []byte, s, e interface{}, opts ...JSONOpt) { err := UnmarshalStrict(y, s, opts...) if err != nil { t.Errorf("error unmarshaling YAML: %v", err) } if !reflect.DeepEqual(s, e) { t.Errorf("unmarshal YAML was unsuccessful, expected: %+#v, got: %+#v", e, s) } } func unmarshalStrictFail(t *testing.T, y []byte, s interface{}, opts ...JSONOpt) { err := UnmarshalStrict(y, s, opts...) if err == nil { t.Errorf("error unmarshaling YAML: %v", err) } } type Case struct { input string output string // By default we test that reversing the output == input. But if there is a // difference in the reversed output, you can optionally specify it here. reverse *string } type RunType int const ( RunTypeJSONToYAML RunType = iota RunTypeYAMLToJSON ) func TestJSONToYAML(t *testing.T) { cases := []Case{ { `{"t":"a"}`, "t: a\n", nil, }, { `{"t":null}`, "t: null\n", nil, }, } runCases(t, RunTypeJSONToYAML, cases) } func TestYAMLToJSON(t *testing.T) { cases := []Case{ { "t: a\n", `{"t":"a"}`, nil, }, { "t: \n", `{"t":null}`, strPtr("t: null\n"), }, { "t: null\n", `{"t":null}`, nil, }, { "1: a\n", `{"1":"a"}`, strPtr("\"1\": a\n"), }, { "1000000000000000000000000000000000000: a\n", `{"1e+36":"a"}`, strPtr("\"1e+36\": a\n"), }, { "1e+36: a\n", `{"1e+36":"a"}`, strPtr("\"1e+36\": a\n"), }, { "\"1e+36\": a\n", `{"1e+36":"a"}`, nil, }, { "\"1.2\": a\n", `{"1.2":"a"}`, nil, }, { "- t: a\n", `[{"t":"a"}]`, nil, }, { "- t: a\n" + "- t:\n" + " b: 1\n" + " c: 2\n", `[{"t":"a"},{"t":{"b":1,"c":2}}]`, nil, }, { `[{t: a}, {t: {b: 1, c: 2}}]`, `[{"t":"a"},{"t":{"b":1,"c":2}}]`, strPtr("- t: a\n" + "- t:\n" + " b: 1\n" + " c: 2\n"), }, { "- t: \n", `[{"t":null}]`, strPtr("- t: null\n"), }, { "- t: null\n", `[{"t":null}]`, nil, }, } // Cases that should produce errors. _ = []Case{ { "~: a", `{"null":"a"}`, nil, }, { "a: !!binary gIGC\n", "{\"a\":\"\x80\x81\x82\"}", nil, }, } runCases(t, RunTypeYAMLToJSON, cases) } func runCases(t *testing.T, runType RunType, cases []Case) { var f func([]byte) ([]byte, error) var invF func([]byte) ([]byte, error) var msg string var invMsg string if runType == RunTypeJSONToYAML { f = JSONToYAML invF = YAMLToJSON msg = "JSON to YAML" invMsg = "YAML back to JSON" } else { f = YAMLToJSON invF = JSONToYAML msg = "YAML to JSON" invMsg = "JSON back to YAML" } for _, c := range cases { // Convert the string. t.Logf("converting %s\n", c.input) output, err := f([]byte(c.input)) if err != nil { t.Errorf("Failed to convert %s, input: `%s`, err: %v", msg, c.input, err) } // Check it against the expected output. if string(output) != c.output { t.Errorf("Failed to convert %s, input: `%s`, expected `%s`, got `%s`", msg, c.input, c.output, string(output)) } // Set the string that we will compare the reversed output to. reverse := c.input // If a special reverse string was specified, use that instead. if c.reverse != nil { reverse = *c.reverse } // Reverse the output. input, err := invF(output) if err != nil { t.Errorf("Failed to convert %s, input: `%s`, err: %v", invMsg, string(output), err) } // Check the reverse is equal to the input (or to *c.reverse). if string(input) != reverse { t.Errorf("Failed to convert %s, input: `%s`, expected `%s`, got `%s`", invMsg, string(output), reverse, string(input)) } } } // To be able to easily fill in the *Case.reverse string above. func strPtr(s string) *string { return &s } func TestYAMLToJSONStrict(t *testing.T) { const data = ` foo: bar foo: baz ` if _, err := YAMLToJSON([]byte(data)); err != nil { t.Error("expected YAMLtoJSON to pass on duplicate field names") } if _, err := YAMLToJSONStrict([]byte(data)); err == nil { t.Error("expected YAMLtoJSONStrict to fail on duplicate field names") } }