// ReSharper disable InconsistentNaming using Aaru.Helpers; using FluentAssertions.Execution; using NUnit.Framework; // ReSharper disable UseUtf8StringLiteral namespace Aaru.Tests.Devices.MultiMediaCard; [TestFixture] public class CSD { readonly string[] cards = ["mmc_6600_32mb", "mmc_pretec_32mb", "mmc_takems_256mb"]; readonly string[] csds = [ "8c26012a0f5901e9f6d983e392404001", "8c0e012a0ff981e9f6d981e18a400001", "905e002a1f5983d3edb683ff96400001" ]; readonly byte[] structure_versions = [2, 2, 2]; readonly byte[] spec_versions = [3, 3, 4]; readonly byte[] taacs = [38, 14, 94]; readonly byte[] nsacs = [1, 1, 0]; readonly byte[] speeds = [42, 42, 42]; readonly ushort[] classes = [245, 255, 501]; readonly byte[] read_block_lengths = [9, 9, 9]; readonly bool[] read_partial_blocks = [false, true, true]; readonly bool[] write_misaligned_block = [false, false, false]; readonly bool[] read_misaligned_block = [false, false, false]; readonly bool[] dsr_implemented = [false, false, false]; readonly uint[] card_sizes = [1959, 1959, 3919]; readonly byte[] min_read_current = [6, 6, 5]; readonly byte[] max_read_current = [6, 6, 5]; readonly byte[] min_write_current = [6, 6, 5]; readonly byte[] max_write_current = [6, 6, 5]; readonly byte[] size_multiplier = [3, 3, 5]; readonly byte[] sector_sizes = [0, 0, 0]; readonly byte[] erase_sector_sizes = [31, 15, 31]; readonly byte[] write_protect_group_size = [3, 1, 31]; readonly bool[] write_protect_group_enable = [true, true, true]; readonly byte[] default_eccs = [0, 0, 0]; readonly byte[] r2w_factors = [4, 2, 5]; readonly byte[] write_block_lengths = [9, 9, 9]; readonly bool[] write_partial_blocks = [false, false, false]; readonly bool[] file_format_group = [false, false, false]; readonly bool[] copy = [true, false, false]; readonly bool[] permanent_write_protect = [false, false, false]; readonly bool[] temporary_write_protect = [false, false, false]; readonly byte[] file_format = [0, 0, 0]; readonly byte[] ecc = [0, 0, 0]; [Test] public void Test() { for(var i = 0; i < cards.Length; i++) { using(new AssertionScope()) { Assert.Multiple(() => { int count = Marshal.ConvertFromHexAscii(csds[i], out byte[] response); Assert.AreEqual(16, count, string.Format(Localization.Size_0, cards[i])); Decoders.MMC.CSD csd = Decoders.MMC.Decoders.DecodeCSD(response); Assert.IsNotNull(csd, string.Format(Localization.Decoded_0, cards[i])); Assert.AreEqual(structure_versions[i], csd.Structure, string.Format(Localization.Structure_version_0, cards[i])); Assert.AreEqual(spec_versions[i], csd.Version, string.Format(Localization.Specification_version_0, cards[i])); Assert.AreEqual(taacs[i], csd.TAAC, string.Format(Localization.TAAC_0, cards[i])); Assert.AreEqual(nsacs[i], csd.NSAC, string.Format(Localization.NSAC_0, cards[i])); Assert.AreEqual(speeds[i], csd.Speed, string.Format(Localization.Transfer_speed_0, cards[i])); Assert.AreEqual(classes[i], csd.Classes, string.Format(Localization.Classes_0, cards[i])); Assert.AreEqual(read_block_lengths[i], csd.ReadBlockLength, string.Format(Localization.Read_block_length_0, cards[i])); Assert.AreEqual(read_partial_blocks[i], csd.ReadsPartialBlocks, string.Format(Localization.Reads_partial_blocks_0, cards[i])); Assert.AreEqual(write_misaligned_block[i], csd.WriteMisalignment, string.Format(Localization.Writes_misaligned_blocks_0, cards[i])); Assert.AreEqual(read_misaligned_block[i], csd.ReadMisalignment, string.Format(Localization.Reads_misaligned_blocks_0, cards[i])); Assert.AreEqual(dsr_implemented[i], csd.DSRImplemented, string.Format(Localization.DSR_implemented_0, cards[i])); Assert.AreEqual(card_sizes[i], csd.Size, string.Format(Localization.Card_size_0, cards[i])); Assert.AreEqual(min_read_current[i], csd.ReadCurrentAtVddMin, string.Format(Localization.Reading_current_at_minimum_Vdd_0, cards[i])); Assert.AreEqual(max_read_current[i], csd.ReadCurrentAtVddMax, string.Format(Localization.Reading_current_at_maximum_Vdd_0, cards[i])); Assert.AreEqual(min_write_current[i], csd.WriteCurrentAtVddMin, string.Format(Localization.Writing_current_at_minimum_Vdd_0, cards[i])); Assert.AreEqual(max_write_current[i], csd.WriteCurrentAtVddMax, string.Format(Localization.Writing_current_at_maximum_Vdd_0, cards[i])); Assert.AreEqual(size_multiplier[i], csd.SizeMultiplier, string.Format(Localization.Card_size_multiplier_0, cards[i])); Assert.AreEqual(sector_sizes[i], csd.EraseGroupSize, string.Format(Localization.Erase_sector_size_0, cards[i])); Assert.AreEqual(erase_sector_sizes[i], csd.EraseGroupSizeMultiplier, string.Format(Localization.Erase_group_size_0, cards[i])); Assert.AreEqual(write_protect_group_size[i], csd.WriteProtectGroupSize, string.Format(Localization.Write_protect_group_size_0, cards[i])); Assert.AreEqual(write_protect_group_enable[i], csd.WriteProtectGroupEnable, string.Format(Localization.Write_protect_group_enable_0, cards[i])); Assert.AreEqual(default_eccs[i], csd.DefaultECC, string.Format(Localization.Default_ECC_0, cards[i])); Assert.AreEqual(r2w_factors[i], csd.WriteSpeedFactor, string.Format(Localization.Read_to_write_factor_0, cards[i])); Assert.AreEqual(write_block_lengths[i], csd.WriteBlockLength, string.Format(Localization.write_block_length_0, cards[i])); Assert.AreEqual(write_partial_blocks[i], csd.WritesPartialBlocks, string.Format(Localization.Writes_partial_blocks_0, cards[i])); Assert.AreEqual(file_format_group[i], csd.FileFormatGroup, string.Format(Localization.File_format_group_0, cards[i])); Assert.AreEqual(copy[i], csd.Copy, string.Format(Localization.Copy_0, cards[i])); Assert.AreEqual(permanent_write_protect[i], csd.PermanentWriteProtect, string.Format(Localization.Permanent_write_protect_0, cards[i])); Assert.AreEqual(temporary_write_protect[i], csd.TemporaryWriteProtect, string.Format(Localization.Temporary_write_protect_0, cards[i])); Assert.AreEqual(file_format[i], csd.FileFormat, string.Format(Localization.File_format_0, cards[i])); Assert.AreEqual(ecc[i], csd.ECC, string.Format(Localization.ECC_0, cards[i])); }); } } } }