Aaru/Aaru.Tests/Devices/MultiMediaCard/CSD.cs

using Aaru.Helpers;
using NUnit.Framework;

// ReSharper disable InconsistentNaming

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(int i = 0; i < cards.Length; i++)
            {
                int count = Marshal.ConvertFromHexAscii(csds[i], out byte[] response);
                Assert.AreEqual(16, count, $"Size - {cards[i]}");
                Decoders.MMC.CSD csd = Decoders.MMC.Decoders.DecodeCSD(response);
                Assert.IsNotNull(csd, $"Decoded - {cards[i]}");
                Assert.AreEqual(structure_versions[i], csd.Structure, $"Structure version - {cards[i]}");
                Assert.AreEqual(spec_versions[i], csd.Version, $"Specification version - {cards[i]}");
                Assert.AreEqual(taacs[i], csd.TAAC, $"TAAC - {cards[i]}");
                Assert.AreEqual(nsacs[i], csd.NSAC, $"NSAC - {cards[i]}");
                Assert.AreEqual(speeds[i], csd.Speed, $"Transfer speed - {cards[i]}");
                Assert.AreEqual(classes[i], csd.Classes, $"Classes - {cards[i]}");
                Assert.AreEqual(read_block_lengths[i], csd.ReadBlockLength, $"Read block length - {cards[i]}");
                Assert.AreEqual(read_partial_blocks[i], csd.ReadsPartialBlocks, $"Reads partial blocks - {cards[i]}");

                Assert.AreEqual(write_misaligned_block[i], csd.WriteMisalignment,
                                $"Writes misaligned blocks - {cards[i]}");

                Assert.AreEqual(read_misaligned_block[i], csd.ReadMisalignment,
                                $"Reads misaligned blocks - {cards[i]}");

                Assert.AreEqual(dsr_implemented[i], csd.DSRImplemented, $"DSR implemented - {cards[i]}");
                Assert.AreEqual(card_sizes[i], csd.Size, $"Card size - {cards[i]}");

                Assert.AreEqual(min_read_current[i], csd.ReadCurrentAtVddMin,
                                $"Reading current at minimum Vdd - {cards[i]}");

                Assert.AreEqual(max_read_current[i], csd.ReadCurrentAtVddMax,
                                $"Reading current at maximum Vdd - {cards[i]}");

                Assert.AreEqual(min_write_current[i], csd.WriteCurrentAtVddMin,
                                $"Writing current at minimum Vdd - {cards[i]}");

                Assert.AreEqual(max_write_current[i], csd.WriteCurrentAtVddMax,
                                $"Writing current at maximum Vdd - {cards[i]}");

                Assert.AreEqual(size_multiplier[i], csd.SizeMultiplier, $"Card size multiplier - {cards[i]}");
                Assert.AreEqual(sector_sizes[i], csd.EraseGroupSize, $"Erase sector size - {cards[i]}");
                Assert.AreEqual(erase_sector_sizes[i], csd.EraseGroupSizeMultiplier, $"Erase group size - {cards[i]}");

                Assert.AreEqual(write_protect_group_size[i], csd.WriteProtectGroupSize,
                                $"Write protect group size - {cards[i]}");

                Assert.AreEqual(write_protect_group_enable[i], csd.WriteProtectGroupEnable,
                                $"Write protect group enable - {cards[i]}");

                Assert.AreEqual(default_eccs[i], csd.DefaultECC, $"Default ECC - {cards[i]}");
                Assert.AreEqual(r2w_factors[i], csd.WriteSpeedFactor, $"Read to write factor - {cards[i]}");
                Assert.AreEqual(write_block_lengths[i], csd.WriteBlockLength, $"write block length - {cards[i]}");

                Assert.AreEqual(write_partial_blocks[i], csd.WritesPartialBlocks,
                                $"Writes partial blocks - {cards[i]}");

                Assert.AreEqual(file_format_group[i], csd.FileFormatGroup, $"File format group - {cards[i]}");
                Assert.AreEqual(copy[i], csd.Copy, $"Copy - {cards[i]}");

                Assert.AreEqual(permanent_write_protect[i], csd.PermanentWriteProtect,
                                $"Permanent write protect - {cards[i]}");

                Assert.AreEqual(temporary_write_protect[i], csd.TemporaryWriteProtect,
                                $"Temporary write protect - {cards[i]}");

                Assert.AreEqual(file_format[i], csd.FileFormat, $"File format - {cards[i]}");
                Assert.AreEqual(ecc[i], csd.ECC, $"ECC - {cards[i]}");
            }
        }
    }
}
Add test for MultiMediaCard CSD decoder. 2020-12-08 23:55:35 +00:00			`using Aaru.Helpers;`
			`using NUnit.Framework;`

			`// ReSharper disable InconsistentNaming`

			`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(int i = 0; i < cards.Length; i++)`
			`{`
			`int count = Marshal.ConvertFromHexAscii(csds[i], out byte[] response);`
			`Assert.AreEqual(16, count, $"Size - {cards[i]}");`
			`Decoders.MMC.CSD csd = Decoders.MMC.Decoders.DecodeCSD(response);`
			`Assert.IsNotNull(csd, $"Decoded - {cards[i]}");`
			`Assert.AreEqual(structure_versions[i], csd.Structure, $"Structure version - {cards[i]}");`
			`Assert.AreEqual(spec_versions[i], csd.Version, $"Specification version - {cards[i]}");`
			`Assert.AreEqual(taacs[i], csd.TAAC, $"TAAC - {cards[i]}");`
			`Assert.AreEqual(nsacs[i], csd.NSAC, $"NSAC - {cards[i]}");`
			`Assert.AreEqual(speeds[i], csd.Speed, $"Transfer speed - {cards[i]}");`
			`Assert.AreEqual(classes[i], csd.Classes, $"Classes - {cards[i]}");`
			`Assert.AreEqual(read_block_lengths[i], csd.ReadBlockLength, $"Read block length - {cards[i]}");`
			`Assert.AreEqual(read_partial_blocks[i], csd.ReadsPartialBlocks, $"Reads partial blocks - {cards[i]}");`

			`Assert.AreEqual(write_misaligned_block[i], csd.WriteMisalignment,`
			`$"Writes misaligned blocks - {cards[i]}");`

			`Assert.AreEqual(read_misaligned_block[i], csd.ReadMisalignment,`
			`$"Reads misaligned blocks - {cards[i]}");`

			`Assert.AreEqual(dsr_implemented[i], csd.DSRImplemented, $"DSR implemented - {cards[i]}");`
			`Assert.AreEqual(card_sizes[i], csd.Size, $"Card size - {cards[i]}");`

			`Assert.AreEqual(min_read_current[i], csd.ReadCurrentAtVddMin,`
			`$"Reading current at minimum Vdd - {cards[i]}");`

			`Assert.AreEqual(max_read_current[i], csd.ReadCurrentAtVddMax,`
			`$"Reading current at maximum Vdd - {cards[i]}");`

			`Assert.AreEqual(min_write_current[i], csd.WriteCurrentAtVddMin,`
			`$"Writing current at minimum Vdd - {cards[i]}");`

			`Assert.AreEqual(max_write_current[i], csd.WriteCurrentAtVddMax,`
			`$"Writing current at maximum Vdd - {cards[i]}");`

			`Assert.AreEqual(size_multiplier[i], csd.SizeMultiplier, $"Card size multiplier - {cards[i]}");`
			`Assert.AreEqual(sector_sizes[i], csd.EraseGroupSize, $"Erase sector size - {cards[i]}");`
			`Assert.AreEqual(erase_sector_sizes[i], csd.EraseGroupSizeMultiplier, $"Erase group size - {cards[i]}");`

			`Assert.AreEqual(write_protect_group_size[i], csd.WriteProtectGroupSize,`
			`$"Write protect group size - {cards[i]}");`

			`Assert.AreEqual(write_protect_group_enable[i], csd.WriteProtectGroupEnable,`
			`$"Write protect group enable - {cards[i]}");`

			`Assert.AreEqual(default_eccs[i], csd.DefaultECC, $"Default ECC - {cards[i]}");`
			`Assert.AreEqual(r2w_factors[i], csd.WriteSpeedFactor, $"Read to write factor - {cards[i]}");`
			`Assert.AreEqual(write_block_lengths[i], csd.WriteBlockLength, $"write block length - {cards[i]}");`

			`Assert.AreEqual(write_partial_blocks[i], csd.WritesPartialBlocks,`
			`$"Writes partial blocks - {cards[i]}");`

			`Assert.AreEqual(file_format_group[i], csd.FileFormatGroup, $"File format group - {cards[i]}");`
			`Assert.AreEqual(copy[i], csd.Copy, $"Copy - {cards[i]}");`

			`Assert.AreEqual(permanent_write_protect[i], csd.PermanentWriteProtect,`
			`$"Permanent write protect - {cards[i]}");`

			`Assert.AreEqual(temporary_write_protect[i], csd.TemporaryWriteProtect,`
			`$"Temporary write protect - {cards[i]}");`

			`Assert.AreEqual(file_format[i], csd.FileFormat, $"File format - {cards[i]}");`
			`Assert.AreEqual(ecc[i], csd.ECC, $"ECC - {cards[i]}");`
			`}`
			`}`
			`}`
			`}`