using Bit.Core.Enums; using Bit.Core.Utilities; using Xunit; namespace Bit.Core.Test.Utilities; public class EncryptedStringAttributeTests { [Theory] [InlineData(null)] [InlineData("aXY=|Y3Q=")] // Valid AesCbc256_B64 [InlineData("aXY=|Y3Q=|cnNhQ3Q=")] // Valid AesCbc128_HmacSha256_B64 [InlineData("Rsa2048_OaepSha256_B64.cnNhQ3Q=")] [InlineData("0.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc256_B64 as a number [InlineData("AesCbc256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc256_B64 as a number [InlineData("1.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc128_HmacSha256_B64 as a number [InlineData("AesCbc128_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc128_HmacSha256_B64 as a string [InlineData("2.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc256_HmacSha256_B64 as a number [InlineData("AesCbc256_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid AesCbc256_HmacSha256_B64 as a string [InlineData("3.QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha256_B64 as a number [InlineData("Rsa2048_OaepSha256_B64.QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha256_B64 as a string [InlineData("4.QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha1_B64 as a number [InlineData("Rsa2048_OaepSha1_B64.QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha1_B64 as a string [InlineData("5.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha256_HmacSha256_B64 as a number [InlineData("Rsa2048_OaepSha256_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha256_HmacSha256_B64 as a string [InlineData("6.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Valid Rsa2048_OaepSha1_HmacSha256_B64 as a number [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] public void IsValid_ReturnsTrue_WhenValid(string input) { var sut = new EncryptedStringAttribute(); var actual = sut.IsValid(input); Assert.True(actual); } [Theory] [InlineData("")] // Empty string [InlineData(".")] // Split Character but two empty parts [InlineData("|")] // One encrypted part split character but empty parts [InlineData("||")] // Two encrypted part split character but empty parts [InlineData("!|!")] // Invalid base 64 [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.1")] // Invalid length [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.|")] // Empty iv & ct [InlineData("AesCbc128_HmacSha256_B64.1")] // Invalid length [InlineData("AesCbc128_HmacSha256_B64.aXY=|Y3Q=|")] // Empty mac [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.aXY=|Y3Q=|")] // Empty mac [InlineData("Rsa2048_OaepSha256_B64.1|2")] // Invalid length [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.aXY=|")] // Empty mac [InlineData("254.QmFzZTY0UGFydA==")] // Bad Encryption type number [InlineData("0.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc256_B64 as a number [InlineData("AesCbc256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc256_B64 as a number [InlineData("1.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc128_HmacSha256_B64 as a number [InlineData("AesCbc128_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc128_HmacSha256_B64 as a string [InlineData("2.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc256_HmacSha256_B64 as a number [InlineData("AesCbc256_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid AesCbc256_HmacSha256_B64 as a string [InlineData("3.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha256_B64 as a number [InlineData("Rsa2048_OaepSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha256_B64 as a string [InlineData("4.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha1_B64 as a number [InlineData("Rsa2048_OaepSha1_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha1_B64 as a string [InlineData("5.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha256_HmacSha256_B64 as a number [InlineData("Rsa2048_OaepSha256_HmacSha256_B64.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha256_HmacSha256_B64 as a string [InlineData("6.QmFzZTY0UGFydA==|QmFzZTY0UGFydA==|QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha1_HmacSha256_B64 as a number [InlineData("Rsa2048_OaepSha1_HmacSha256_B64.QmFzZTY0UGFydA==")] // Invalid Rsa2048_OaepSha1_HmacSha256_B64 as a string public void IsValid_ReturnsFalse_WhenInvalid(string input) { var sut = new EncryptedStringAttribute(); var actual = sut.IsValid(input); Assert.False(actual); } [Fact] public void EncryptionTypeMap_HasEntry_ForEachEnumValue() { var enumValues = Enum.GetValues(); Assert.Equal(enumValues.Length, EncryptedStringAttribute._encryptionTypeToRequiredPiecesMap.Count); foreach (var enumValue in enumValues) { // Go a step further and ensure that the map contains a value for each value instead of just casting // a random number for one of the keys. Assert.True(EncryptedStringAttribute._encryptionTypeToRequiredPiecesMap.ContainsKey(enumValue)); } } [Fact] public void CheckForUnderlyingTypeChange() { var underlyingType = typeof(EncryptionType).GetEnumUnderlyingType(); var expectedType = typeof(byte); Assert.True(underlyingType == expectedType, $"Hello future person, it seems you have changed the underlying type for {nameof(EncryptionType)}, " + $"that is totally fine you just also need to change the line for {expectedType.Name}.TryParse in " + $"{nameof(EncryptedStringAttribute)} to {underlyingType.Name}.TryParse (but you can probably use the alias)" + "and then update this test!"); } }