using Jint.Native; using Jint.Native.Json; using Jint.Native.Object; using Jint.Runtime; namespace Jint.Tests.Runtime; public class JsonTests { [Fact] public void CanParseTabsInProperties() { var engine = new Engine(); const string script = @"JSON.parse(""{\""abc\\tdef\"": \""42\""}"");"; var obj = engine.Evaluate(script).AsObject(); Assert.True(obj.HasOwnProperty("abc\tdef")); } [Theory] [InlineData("{\"a\":\"\\\"\"}", "\"")] // " quotation mark [InlineData("{\"a\":\"\\\\\"}", "\\")] // \ reverse solidus [InlineData("{\"a\":\"\\/\"}", "/")] // / solidus [InlineData("{\"a\":\"\\b\"}", "\b")] // backspace [InlineData("{\"a\":\"\\f\"}", "\f")] // formfeed [InlineData("{\"a\":\"\\n\"}", "\n")] // linefeed [InlineData("{\"a\":\"\\r\"}", "\r")] // carriage return [InlineData("{\"a\":\"\\t\"}", "\t")] // horizontal tab [InlineData("{\"a\":\"\\u0000\"}", "\0")] [InlineData("{\"a\":\"\\u0001\"}", "\x01")] [InlineData("{\"a\":\"\\u0061\"}", "a")] [InlineData("{\"a\":\"\\u003C\"}", "<")] [InlineData("{\"a\":\"\\u003E\"}", ">")] [InlineData("{\"a\":\"\\u003c\"}", "<")] [InlineData("{\"a\":\"\\u003e\"}", ">")] public void ShouldParseEscapedCharactersCorrectly(string json, string expectedCharacter) { var engine = new Engine(); var parser = new JsonParser(engine); var parsedCharacter = parser.Parse(json).AsObject().Get("a").AsString(); Assert.Equal(expectedCharacter, parsedCharacter); } [Theory] [InlineData("{\"a\":1", "Unexpected end of JSON input at position 6")] [InlineData("{\"a\":1},", "Unexpected token ',' in JSON at position 7")] [InlineData("{1}", "Unexpected number in JSON at position 1")] [InlineData("{\"a\" \"a\"}", "Unexpected string in JSON at position 5")] [InlineData("{true}", "Unexpected token 'true' in JSON at position 1")] [InlineData("{null}", "Unexpected token 'null' in JSON at position 1")] [InlineData("{:}", "Unexpected token ':' in JSON at position 1")] [InlineData("\"\\uah\"", "Expected hexadecimal digit in JSON at position 4")] [InlineData("0123", "Unexpected token '1' in JSON at position 1")] // leading 0 (octal number) not allowed [InlineData("1e+A", "Unexpected token 'A' in JSON at position 3")] [InlineData("truE", "Unexpected token ILLEGAL in JSON at position 0")] [InlineData("nul", "Unexpected token ILLEGAL in JSON at position 0")] [InlineData("\"ab\t\"", "Invalid character in JSON at position 3")] // invalid char in string literal [InlineData("\"ab", "Unexpected end of JSON input at position 3")] // unterminated string literal [InlineData("alpha", "Unexpected token 'a' in JSON at position 0")] [InlineData("[1,\na]", "Unexpected token 'a' in JSON at position 4")] // multiline [InlineData("\x06", "Unexpected token '\x06' in JSON at position 0")] // control char [InlineData("{\"\\v\":1}", "Unexpected token 'v' in JSON at position 3")] // invalid escape sequence [InlineData("[,]", "Unexpected token ',' in JSON at position 1")] [InlineData("{\"key\": ()}", "Unexpected token '(' in JSON at position 8")] [InlineData(".1", "Unexpected token '.' in JSON at position 0")] public void ShouldReportHelpfulSyntaxErrorForInvalidJson(string json, string expectedMessage) { var engine = new Engine(); var parser = new JsonParser(engine); var ex = Assert.ThrowsAny(() => { parser.Parse(json); }); Assert.Equal(expectedMessage, ex.Message); var error = ex.Error as Native.Error.ErrorInstance; Assert.NotNull(error); Assert.Equal("SyntaxError", error.Get("name")); } [Theory] [InlineData("[[]]", "[\n []\n]")] [InlineData("[ { a: [{ x: 0 }], b:[]} ]", "[\n {\n \"a\": [\n {\n \"x\": 0\n }\n ],\n \"b\": []\n }\n]")] public void ShouldSerializeWithCorrectIndentation(string script, string expectedJson) { var engine = new Engine(); engine.SetValue("x", engine.Evaluate(script)); var result = engine.Evaluate("JSON.stringify(x, null, 2);").AsString(); Assert.Equal(expectedJson, result); } [Theory] [InlineData(0)] [InlineData(1)] [InlineData(10)] [InlineData(100)] public void ShouldParseArrayIndependentOfLengthInSameOrder(int numberOfElements) { string json = $"[{string.Join(",", Enumerable.Range(0, numberOfElements))}]"; var engine = new Engine(); var parser = new JsonParser(engine); JsValue result = parser.Parse(json); JsArray array = Assert.IsType(result); Assert.Equal((uint)numberOfElements, array.Length); for (int i = 0; i < numberOfElements; i++) { Assert.Equal(i, (int)array[i].AsNumber()); } } [Theory] [InlineData(0)] [InlineData(1)] [InlineData(10)] [InlineData(20)] public void ShouldParseStringIndependentOfLength(int stringLength) { string generatedString = string.Join("", Enumerable.Range(0, stringLength).Select(index => 'A' + index)); string json = $"\"{generatedString}\""; var engine = new Engine(); var parser = new JsonParser(engine); string value = parser.Parse(json).AsString(); Assert.Equal(generatedString, value, StringComparer.Ordinal); } [Fact] public void CanParsePrimitivesCorrectly() { var engine = new Engine(); var parser = new JsonParser(engine); Assert.Same(JsBoolean.True, parser.Parse("true")); Assert.Same(JsBoolean.False, parser.Parse("false")); Assert.Same(JsValue.Null, parser.Parse("null")); } [Fact] public void CanParseNumbersWithAndWithoutSign() { var engine = new Engine(); var parser = new JsonParser(engine); Assert.Equal(-1, (int)parser.Parse("-1").AsNumber()); Assert.Equal(0, (int)parser.Parse("-0").AsNumber()); Assert.Equal(0, (int)parser.Parse("0").AsNumber()); Assert.Equal(1, (int)parser.Parse("1").AsNumber()); } [Fact] public void DoesPreservesNumberToMaxSafeInteger() { // see https://tc39.es/ecma262/multipage/numbers-and-dates.html#sec-number.max_safe_integer long maxSafeInteger = 9007199254740991; var engine = new Engine(); var parser = new JsonParser(engine); Assert.Equal(maxSafeInteger, (long)parser.Parse("9007199254740991").AsNumber()); } [Fact] public void DoesSupportFractionalNumbers() { var engine = new Engine(); var parser = new JsonParser(engine); Assert.Equal(0.1d, parser.Parse("0.1").AsNumber()); Assert.Equal(1.1d, parser.Parse("1.1").AsNumber()); Assert.Equal(-1.1d, parser.Parse("-1.1").AsNumber()); } [Fact] public void DoesSupportScientificNotation() { var engine = new Engine(); var parser = new JsonParser(engine); Assert.Equal(100d, parser.Parse("1E2").AsNumber()); Assert.Equal(0.01d, parser.Parse("1E-2").AsNumber()); } [Fact] public void ThrowsExceptionWhenDepthLimitReachedArrays() { string json = GenerateDeepNestedArray(65); var engine = new Engine(); var parser = new JsonParser(engine); JavaScriptException ex = Assert.Throws(() => parser.Parse(json)); Assert.Equal("Max. depth level of JSON reached at position 64", ex.Message); } [Fact] public void ThrowsExceptionWhenDepthLimitReachedObjects() { string json = GenerateDeepNestedObject(65); var engine = new Engine(); var parser = new JsonParser(engine); JavaScriptException ex = Assert.Throws(() => parser.Parse(json)); Assert.Equal("Max. depth level of JSON reached at position 320", ex.Message); } [Fact] public void CanParseMultipleNestedObjects() { string objectA = GenerateDeepNestedObject(63); string objectB = GenerateDeepNestedObject(63); string json = $"{{\"a\":{objectA},\"b\":{objectB} }}"; var engine = new Engine(); var parser = new JsonParser(engine); ObjectInstance parsed = parser.Parse(json).AsObject(); Assert.True(parsed["a"].IsObject()); Assert.True(parsed["b"].IsObject()); } [Fact] public void CanParseMultipleNestedArrays() { string arrayA = GenerateDeepNestedArray(63); string arrayB = GenerateDeepNestedArray(63); string json = $"{{\"a\":{arrayA},\"b\":{arrayB} }}"; var engine = new Engine(); var parser = new JsonParser(engine); ObjectInstance parsed = parser.Parse(json).AsObject(); Assert.True(parsed["a"].IsArray()); Assert.True(parsed["b"].IsArray()); } [Fact] public void ArrayAndObjectDepthNotCountedSeparately() { // individual depth is below the default limit, but combined // a max. depth level is reached. string innerArray = GenerateDeepNestedArray(40); string json = GenerateDeepNestedObject(40, innerArray); var engine = new Engine(); var parser = new JsonParser(engine); JavaScriptException ex = Assert.Throws(() => parser.Parse(json)); Assert.Equal("Max. depth level of JSON reached at position 224", ex.Message); } [Fact] public void CustomMaxDepthOfZeroDisallowsObjects() { var engine = new Engine(); var parser = new JsonParser(engine, maxDepth: 0); JavaScriptException ex = Assert.Throws(() => parser.Parse("{}")); Assert.Equal("Max. depth level of JSON reached at position 0", ex.Message); } [Fact] public void CustomMaxDepthOfZeroDisallowsArrays() { var engine = new Engine(); var parser = new JsonParser(engine, maxDepth: 0); JavaScriptException ex = Assert.Throws(() => parser.Parse("[]")); Assert.Equal("Max. depth level of JSON reached at position 0", ex.Message); } [Fact] public void MaxDepthDoesNotInfluencePrimitiveValues() { var engine = new Engine(); var parser = new JsonParser(engine, maxDepth: 1); ObjectInstance parsed = parser.Parse("{\"a\": 2, \"b\": true, \"c\": null, \"d\": \"test\"}").AsObject(); Assert.True(parsed["a"].IsNumber()); Assert.True(parsed["b"].IsBoolean()); Assert.True(parsed["c"].IsNull()); Assert.True(parsed["d"].IsString()); } [Fact] public void MaxDepthGetsUsedFromEngineOptionsConstraints() { var engine = new Engine(options => options.MaxJsonParseDepth(0)); var parser = new JsonParser(engine); Assert.Throws(() => parser.Parse("[]")); } private static string GenerateDeepNestedArray(int depth) { string arrayOpen = new string('[', depth); string arrayClose = new string(']', depth); return $"{arrayOpen}{arrayClose}"; } private static string GenerateDeepNestedObject(int depth) { return GenerateDeepNestedObject(depth, mostInnerValue: "1"); } private static string GenerateDeepNestedObject(int depth, string mostInnerValue) { string objectOpen = string.Concat(Enumerable.Repeat("{\"A\":", depth)); string objectClose = new string('}', depth); return $"{objectOpen}{mostInnerValue}{objectClose}"; } }