package toml_test import ( "math" "strconv" "testing" "time" "github.com/pelletier/go-toml/v2" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func TestUnmarshal_Integers(t *testing.T) { examples := []struct { desc string input string expected int64 err bool }{ { desc: "integer just digits", input: `1234`, expected: 1234, }, { desc: "integer zero", input: `0`, expected: 0, }, { desc: "integer sign", input: `+99`, expected: 99, }, { desc: "integer hex uppercase", input: `0xDEADBEEF`, expected: 0xDEADBEEF, }, { desc: "integer hex lowercase", input: `0xdead_beef`, expected: 0xDEADBEEF, }, { desc: "integer octal", input: `0o01234567`, expected: 0o01234567, }, { desc: "integer binary", input: `0b11010110`, expected: 0b11010110, }, } type doc struct { A int64 } for _, e := range examples { t.Run(e.desc, func(t *testing.T) { doc := doc{} err := toml.Unmarshal([]byte(`A = `+e.input), &doc) require.NoError(t, err) assert.Equal(t, e.expected, doc.A) }) } } func TestUnmarshal_Floats(t *testing.T) { examples := []struct { desc string input string expected float64 testFn func(t *testing.T, v float64) err bool }{ { desc: "float pi", input: `3.1415`, expected: 3.1415, }, { desc: "float negative", input: `-0.01`, expected: -0.01, }, { desc: "float signed exponent", input: `5e+22`, expected: 5e+22, }, { desc: "float exponent lowercase", input: `1e06`, expected: 1e06, }, { desc: "float exponent uppercase", input: `-2E-2`, expected: -2e-2, }, { desc: "float fractional with exponent", input: `6.626e-34`, expected: 6.626e-34, }, { desc: "float underscores", input: `224_617.445_991_228`, expected: 224_617.445_991_228, }, { desc: "inf", input: `inf`, expected: math.Inf(+1), }, { desc: "inf negative", input: `-inf`, expected: math.Inf(-1), }, { desc: "inf positive", input: `+inf`, expected: math.Inf(+1), }, { desc: "nan", input: `nan`, testFn: func(t *testing.T, v float64) { t.Helper() assert.True(t, math.IsNaN(v)) }, }, { desc: "nan negative", input: `-nan`, testFn: func(t *testing.T, v float64) { t.Helper() assert.True(t, math.IsNaN(v)) }, }, { desc: "nan positive", input: `+nan`, testFn: func(t *testing.T, v float64) { t.Helper() assert.True(t, math.IsNaN(v)) }, }, } type doc struct { A float64 } for _, e := range examples { t.Run(e.desc, func(t *testing.T) { doc := doc{} err := toml.Unmarshal([]byte(`A = `+e.input), &doc) require.NoError(t, err) if e.testFn != nil { e.testFn(t, doc.A) } else { assert.Equal(t, e.expected, doc.A) } }) } } func TestUnmarshal(t *testing.T) { type test struct { target interface{} expected interface{} err bool } examples := []struct { skip bool desc string input string gen func() test }{ { desc: "kv string", input: `A = "foo"`, gen: func() test { type doc struct { A string } return test{ target: &doc{}, expected: &doc{A: "foo"}, } }, }, { desc: "issue 475 - space between dots in key", input: `fruit. color = "yellow" fruit . flavor = "banana"`, gen: func() test { m := map[string]interface{}{} return test{ target: &m, expected: &map[string]interface{}{ "fruit": map[string]interface{}{ "color": "yellow", "flavor": "banana", }, }, } }, }, { desc: "issue 427 - quotation marks in key", input: `'"a"' = 1 "\"b\"" = 2`, gen: func() test { m := map[string]interface{}{} return test{ target: &m, expected: &map[string]interface{}{ `"a"`: int64(1), `"b"`: int64(2), }, } }, }, { desc: "multiline basic string", input: `A = """\ Test"""`, gen: func() test { type doc struct { A string } return test{ target: &doc{}, expected: &doc{A: "Test"}, } }, }, { desc: "kv bool true", input: `A = true`, gen: func() test { type doc struct { A bool } return test{ target: &doc{}, expected: &doc{A: true}, } }, }, { desc: "kv bool false", input: `A = false`, gen: func() test { type doc struct { A bool } return test{ target: &doc{A: true}, expected: &doc{A: false}, } }, }, { desc: "string array", input: `A = ["foo", "bar"]`, gen: func() test { type doc struct { A []string } return test{ target: &doc{}, expected: &doc{A: []string{"foo", "bar"}}, } }, }, { desc: "standard table", input: `[A] B = "data"`, gen: func() test { type A struct { B string } type doc struct { A A } return test{ target: &doc{}, expected: &doc{A: A{B: "data"}}, } }, }, { desc: "standard empty table", input: `[A]`, gen: func() test { var v map[string]interface{} return test{ target: &v, expected: &map[string]interface{}{`A`: map[string]interface{}{}}, } }, }, { desc: "inline table", input: `Name = {First = "hello", Last = "world"}`, gen: func() test { type name struct { First string Last string } type doc struct { Name name } return test{ target: &doc{}, expected: &doc{Name: name{ First: "hello", Last: "world", }}, } }, }, { desc: "inline empty table", input: `A = {}`, gen: func() test { var v map[string]interface{} return test{ target: &v, expected: &map[string]interface{}{`A`: map[string]interface{}{}}, } }, }, { desc: "inline table inside array", input: `Names = [{First = "hello", Last = "world"}, {First = "ab", Last = "cd"}]`, gen: func() test { type name struct { First string Last string } type doc struct { Names []name } return test{ target: &doc{}, expected: &doc{ Names: []name{ { First: "hello", Last: "world", }, { First: "ab", Last: "cd", }, }, }, } }, }, { desc: "into map[string]interface{}", input: `A = "foo"`, gen: func() test { doc := map[string]interface{}{} return test{ target: &doc, expected: &map[string]interface{}{ "A": "foo", }, } }, }, { desc: "multi keys of different types into map[string]interface{}", input: `A = "foo" B = 42`, gen: func() test { doc := map[string]interface{}{} return test{ target: &doc, expected: &map[string]interface{}{ "A": "foo", "B": int64(42), }, } }, }, { desc: "slice in a map[string]interface{}", input: `A = ["foo", "bar"]`, gen: func() test { doc := map[string]interface{}{} return test{ target: &doc, expected: &map[string]interface{}{ "A": []interface{}{"foo", "bar"}, }, } }, }, { desc: "string into map[string]string", input: `A = "foo"`, gen: func() test { doc := map[string]string{} return test{ target: &doc, expected: &map[string]string{ "A": "foo", }, } }, }, { desc: "float64 into map[string]string", input: `A = 42.0`, gen: func() test { doc := map[string]string{} return test{ target: &doc, err: true, } }, }, { desc: "one-level one-element array table", input: `[[First]] Second = "hello"`, gen: func() test { type First struct { Second string } type Doc struct { First []First } return test{ target: &Doc{}, expected: &Doc{ First: []First{ { Second: "hello", }, }, }, } }, }, { desc: "one-level multi-element array table", input: `[[Products]] Name = "Hammer" Sku = 738594937 [[Products]] # empty table within the array [[Products]] Name = "Nail" Sku = 284758393 Color = "gray"`, gen: func() test { type Product struct { Name string Sku int64 Color string } type Doc struct { Products []Product } return test{ target: &Doc{}, expected: &Doc{ Products: []Product{ {Name: "Hammer", Sku: 738594937}, {}, {Name: "Nail", Sku: 284758393, Color: "gray"}, }, }, } }, }, { desc: "one-level multi-element array table to map", input: `[[Products]] Name = "Hammer" Sku = 738594937 [[Products]] # empty table within the array [[Products]] Name = "Nail" Sku = 284758393 Color = "gray"`, gen: func() test { return test{ target: &map[string]interface{}{}, expected: &map[string]interface{}{ "Products": []interface{}{ map[string]interface{}{ "Name": "Hammer", "Sku": int64(738594937), }, nil, map[string]interface{}{ "Name": "Nail", "Sku": int64(284758393), "Color": "gray", }, }, }, } }, }, { desc: "sub-table in array table", input: `[[Fruits]] Name = "apple" [Fruits.Physical] # subtable Color = "red" Shape = "round"`, gen: func() test { return test{ target: &map[string]interface{}{}, expected: &map[string]interface{}{ "Fruits": []interface{}{ map[string]interface{}{ "Name": "apple", "Physical": map[string]interface{}{ "Color": "red", "Shape": "round", }, }, }, }, } }, }, { desc: "multiple sub-table in array tables", input: `[[Fruits]] Name = "apple" [[Fruits.Varieties]] # nested array of tables Name = "red delicious" [[Fruits.Varieties]] Name = "granny smith" [[Fruits]] Name = "banana" [[Fruits.Varieties]] Name = "plantain"`, gen: func() test { return test{ target: &map[string]interface{}{}, expected: &map[string]interface{}{ "Fruits": []interface{}{ map[string]interface{}{ "Name": "apple", "Varieties": []interface{}{ map[string]interface{}{ "Name": "red delicious", }, map[string]interface{}{ "Name": "granny smith", }, }, }, map[string]interface{}{ "Name": "banana", "Varieties": []interface{}{ map[string]interface{}{ "Name": "plantain", }, }, }, }, }, } }, }, { desc: "multiple sub-table in array tables into structs", input: `[[Fruits]] Name = "apple" [[Fruits.Varieties]] # nested array of tables Name = "red delicious" [[Fruits.Varieties]] Name = "granny smith" [[Fruits]] Name = "banana" [[Fruits.Varieties]] Name = "plantain"`, gen: func() test { type Variety struct { Name string } type Fruit struct { Name string Varieties []Variety } type doc struct { Fruits []Fruit } return test{ target: &doc{}, expected: &doc{ Fruits: []Fruit{ { Name: "apple", Varieties: []Variety{ {Name: "red delicious"}, {Name: "granny smith"}, }, }, { Name: "banana", Varieties: []Variety{ {Name: "plantain"}, }, }, }, }, } }, }, { desc: "slice pointer in slice pointer", input: `A = ["Hello"]`, gen: func() test { type doc struct { A *[]*string } hello := "Hello" return test{ target: &doc{}, expected: &doc{ A: &[]*string{&hello}, }, } }, }, { desc: "interface holding a struct", input: `[A] B = "After"`, gen: func() test { type inner struct { B interface{} } type doc struct { A interface{} } return test{ target: &doc{ A: inner{ B: "Before", }, }, expected: &doc{ A: map[string]interface{}{ "B": "After", }, }, } }, }, { desc: "array of structs with table arrays", input: `[[A]] B = "one" [[A]] B = "two"`, gen: func() test { type inner struct { B string } type doc struct { A [4]inner } return test{ target: &doc{}, expected: &doc{ A: [4]inner{ {B: "one"}, {B: "two"}, }, }, } }, }, } for _, e := range examples { t.Run(e.desc, func(t *testing.T) { if e.skip { t.Skip() } test := e.gen() if test.err && test.expected != nil { panic("invalid test: cannot expect both an error and a value") } err := toml.Unmarshal([]byte(e.input), test.target) if test.err { require.Error(t, err) } else { require.NoError(t, err) assert.Equal(t, test.expected, test.target) } }) } } type Integer484 struct { Value int } func (i Integer484) MarshalText() ([]byte, error) { return []byte(strconv.Itoa(i.Value)), nil } func (i *Integer484) UnmarshalText(data []byte) error { conv, err := strconv.Atoi(string(data)) if err != nil { return err } i.Value = conv return nil } type Config484 struct { Integers []Integer484 `toml:"integers"` } func TestIssue484(t *testing.T) { raw := []byte(`integers = ["1","2","3","100"]`) var cfg Config484 err := toml.Unmarshal(raw, &cfg) require.NoError(t, err) assert.Equal(t, Config484{ Integers: []Integer484{{1}, {2}, {3}, {100}}, }, cfg) } type ( Map458 map[string]interface{} Slice458 []interface{} ) func (m Map458) A(s string) Slice458 { return m[s].([]interface{}) } func TestIssue458(t *testing.T) { s := []byte(`[[package]] dependencies = ["regex"] name = "decode" version = "0.1.0"`) m := Map458{} err := toml.Unmarshal(s, &m) require.NoError(t, err) a := m.A("package") expected := Slice458{ map[string]interface{}{ "dependencies": []interface{}{"regex"}, "name": "decode", "version": "0.1.0", }, } assert.Equal(t, expected, a) } func TestIssue252(t *testing.T) { type config struct { Val1 string `toml:"val1"` Val2 string `toml:"val2"` } configFile := []byte( ` val1 = "test1" `) cfg := &config{ Val2: "test2", } err := toml.Unmarshal(configFile, cfg) require.NoError(t, err) require.Equal(t, "test2", cfg.Val2) } func TestIssue494(t *testing.T) { data := ` foo = 2021-04-08 bar = 2021-04-08 ` type s struct { Foo time.Time `toml:"foo"` Bar time.Time `toml:"bar"` } ss := new(s) err := toml.Unmarshal([]byte(data), ss) require.NoError(t, err) } func TestIssue507(t *testing.T) { data := []byte{'0', '=', '\n', '0', 'a', 'm', 'e'} m := map[string]interface{}{} err := toml.Unmarshal(data, &m) require.Error(t, err) } func TestUnmarshalDecodeErrors(t *testing.T) { examples := []struct { desc string data string msg string }{ { desc: "int with wrong base", data: `a = 0f2`, }, { desc: "literal string with new lines", data: `a = 'hello world'`, msg: `literal strings cannot have new lines`, }, { desc: "unterminated literal string", data: `a = 'hello`, msg: `unterminated literal string`, }, { desc: "unterminated multiline literal string", data: `a = '''hello`, msg: `multiline literal string not terminated by '''`, }, { desc: "basic string with new lines", data: `a = "hello "`, msg: `basic strings cannot have new lines`, }, { desc: "basic string with unfinished escape", data: `a = "hello \`, msg: `need a character after \`, }, { desc: "basic unfinished multiline string", data: `a = """hello`, msg: `multiline basic string not terminated by """`, }, { desc: "basic unfinished escape in multiline string", data: `a = """hello \`, msg: `need a character after \`, }, { desc: "malformed local date", data: `a = 2021-033-0`, msg: `dates are expected to have the format YYYY-MM-DD`, }, { desc: "malformed tz", data: `a = 2021-03-30 21:31:00+1`, msg: `invalid date-time timezone`, }, { desc: "malformed tz first char", data: `a = 2021-03-30 21:31:00:1`, msg: `extra characters at the end of a local date time`, }, { desc: "bad char between hours and minutes", data: `a = 2021-03-30 213:1:00`, msg: `expecting colon between hours and minutes`, }, { desc: "bad char between minutes and seconds", data: `a = 2021-03-30 21:312:0`, msg: `expecting colon between minutes and seconds`, }, } for _, e := range examples { t.Run(e.desc, func(t *testing.T) { m := map[string]interface{}{} err := toml.Unmarshal([]byte(e.data), &m) require.Error(t, err) de, ok := err.(*toml.DecodeError) if !ok { t.Fatalf("err should have been a *toml.DecodeError, but got %s (%T)", err, err) } if e.msg != "" { t.Log("\n" + de.String()) require.Equal(t, e.msg, de.Error()) } }) } } func TestIssue287(t *testing.T) { b := `y=[[{}]]` v := map[string]interface{}{} err := toml.Unmarshal([]byte(b), &v) require.NoError(t, err) expected := map[string]interface{}{ "y": []interface{}{ []interface{}{ map[string]interface{}{}, }, }, } require.Equal(t, expected, v) } func TestIssue508(t *testing.T) { type head struct { Title string `toml:"title"` } type text struct { head } b := []byte(`title = "This is a title"`) t1 := text{} err := toml.Unmarshal(b, &t1) require.NoError(t, err) require.Equal(t, "This is a title", t1.head.Title) }