Aaru/SCSI/Modes/Mode10.cs

// /***************************************************************************
// The Disc Image Chef
// ----------------------------------------------------------------------------
//
// Filename       : Mode10.cs
// Author(s)      : Natalia Portillo <claunia@claunia.com>
//
// Component      : Device structures decoders.
//
// --[ Description ] ----------------------------------------------------------
//
//     Decodes and encodines SCSI modes in MODE SENSE/SELECT (10) format.
//
// --[ License ] --------------------------------------------------------------
//
//     This library is free software; you can redistribute it and/or modify
//     it under the terms of the GNU Lesser General Public License as
//     published by the Free Software Foundation; either version 2.1 of the
//     License, or (at your option) any later version.
//
//     This library is distributed in the hope that it will be useful, but
//     WITHOUT ANY WARRANTY; without even the implied warranty of
//     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
//     Lesser General Public License for more details.
//
//     You should have received a copy of the GNU Lesser General Public
//     License along with this library; if not, see <http://www.gnu.org/licenses/>.
//
// ----------------------------------------------------------------------------
// Copyright © 2011-2018 Natalia Portillo
// ****************************************************************************/

using System;
using System.Collections.Generic;

namespace DiscImageChef.Decoders.SCSI
{
    public static partial class Modes
    {
        public static ModeHeader? DecodeModeHeader10(byte[] modeResponse, PeripheralDeviceTypes deviceType)
        {
            if(modeResponse == null || modeResponse.Length < 8) return null;

            ushort modeLength;
            ushort blockDescLength;

            modeLength = (ushort)((modeResponse[0] << 8) + modeResponse[1]);
            blockDescLength = (ushort)((modeResponse[6] << 8) + modeResponse[7]);

            if(modeResponse.Length < modeLength) return null;

            ModeHeader header = new ModeHeader();
            header.MediumType = (MediumTypes)modeResponse[2];

            bool longLBA = (modeResponse[4] & 0x01) == 0x01;

            if(blockDescLength > 0)
            {
                if(longLBA)
                {
                    header.BlockDescriptors = new BlockDescriptor[blockDescLength / 16];
                    for(int i = 0; i < header.BlockDescriptors.Length; i++)
                    {
                        header.BlockDescriptors[i] = new BlockDescriptor();
                        header.BlockDescriptors[i].Density = DensityType.Default;
                        byte[] temp = new byte[8];
                        temp[0] = modeResponse[7 + i * 16 + 8];
                        temp[1] = modeResponse[6 + i * 16 + 8];
                        temp[2] = modeResponse[5 + i * 16 + 8];
                        temp[3] = modeResponse[4 + i * 16 + 8];
                        temp[4] = modeResponse[3 + i * 16 + 8];
                        temp[5] = modeResponse[2 + i * 16 + 8];
                        temp[6] = modeResponse[1 + i * 16 + 8];
                        temp[7] = modeResponse[0 + i * 16 + 8];
                        header.BlockDescriptors[i].Blocks = BitConverter.ToUInt64(temp, 0);
                        header.BlockDescriptors[i].BlockLength += (uint)(modeResponse[15 + i * 16 + 8] << 24);
                        header.BlockDescriptors[i].BlockLength += (uint)(modeResponse[14 + i * 16 + 8] << 16);
                        header.BlockDescriptors[i].BlockLength += (uint)(modeResponse[13 + i * 16 + 8] << 8);
                        header.BlockDescriptors[i].BlockLength += modeResponse[12 + i * 16 + 8];
                    }
                }
                else
                {
                    header.BlockDescriptors = new BlockDescriptor[blockDescLength / 8];
                    for(int i = 0; i < header.BlockDescriptors.Length; i++)
                    {
                        header.BlockDescriptors[i] = new BlockDescriptor();
                        if(deviceType != PeripheralDeviceTypes.DirectAccess)
                        {
                            header.BlockDescriptors[i].Density = (DensityType)modeResponse[0 + i * 8 + 8];
                        }
                        else
                        {
                            header.BlockDescriptors[i].Density = DensityType.Default;
                            header.BlockDescriptors[i].Blocks += (ulong)(modeResponse[0 + i * 8 + 8] << 24);
                        }
                        header.BlockDescriptors[i].Blocks += (ulong)(modeResponse[1 + i * 8 + 8] << 16);
                        header.BlockDescriptors[i].Blocks += (ulong)(modeResponse[2 + i * 8 + 8] << 8);
                        header.BlockDescriptors[i].Blocks += modeResponse[3 + i * 8 + 8];
                        header.BlockDescriptors[i].BlockLength += (uint)(modeResponse[5 + i * 8 + 8] << 16);
                        header.BlockDescriptors[i].BlockLength += (uint)(modeResponse[6 + i * 8 + 8] << 8);
                        header.BlockDescriptors[i].BlockLength += modeResponse[7 + i * 8 + 8];
                    }
                }
            }

            if(deviceType == PeripheralDeviceTypes.DirectAccess || deviceType == PeripheralDeviceTypes.MultiMediaDevice)
            {
                header.WriteProtected = (modeResponse[3] & 0x80) == 0x80;
                header.DPOFUA = (modeResponse[3] & 0x10) == 0x10;
            }

            if(deviceType == PeripheralDeviceTypes.SequentialAccess)
            {
                header.WriteProtected = (modeResponse[3] & 0x80) == 0x80;
                header.Speed = (byte)(modeResponse[3] & 0x0F);
                header.BufferedMode = (byte)((modeResponse[3] & 0x70) >> 4);
            }

            if(deviceType == PeripheralDeviceTypes.PrinterDevice)
                header.BufferedMode = (byte)((modeResponse[3] & 0x70) >> 4);

            if(deviceType == PeripheralDeviceTypes.OpticalDevice)
            {
                header.WriteProtected = (modeResponse[3] & 0x80) == 0x80;
                header.EBC = (modeResponse[3] & 0x01) == 0x01;
                header.DPOFUA = (modeResponse[3] & 0x10) == 0x10;
            }

            return header;
        }

        public static string PrettifyModeHeader10(byte[] modeResponse, PeripheralDeviceTypes deviceType)
        {
            return PrettifyModeHeader(DecodeModeHeader10(modeResponse, deviceType), deviceType);
        }

        public static DecodedMode? DecodeMode10(byte[] modeResponse, PeripheralDeviceTypes deviceType)
        {
            ModeHeader? hdr = DecodeModeHeader10(modeResponse, deviceType);
            if(!hdr.HasValue) return null;

            DecodedMode decoded = new DecodedMode();
            decoded.Header = hdr.Value;
            bool longlba = (modeResponse[4] & 0x01) == 0x01;
            int offset;
            int blkDrLength = 0;
            if(decoded.Header.BlockDescriptors != null) blkDrLength = decoded.Header.BlockDescriptors.Length;

            if(longlba) offset = 8 + blkDrLength * 16;
            else offset = 8 + blkDrLength * 8;
            int length = modeResponse[0] << 8;
            length += modeResponse[1];
            length += 2;

            if(length != modeResponse.Length) return decoded;

            List<ModePage> listpages = new List<ModePage>();

            while(offset < modeResponse.Length)
            {
                bool isSubpage = (modeResponse[offset] & 0x40) == 0x40;
                ModePage pg = new ModePage();
                byte pageNo = (byte)(modeResponse[offset] & 0x3F);

                if(pageNo == 0)
                {
                    pg.PageResponse = new byte[modeResponse.Length - offset];
                    Array.Copy(modeResponse, offset, pg.PageResponse, 0, pg.PageResponse.Length);
                    pg.Page = 0;
                    pg.Subpage = 0;
                    offset += pg.PageResponse.Length;
                }
                else
                {
                    if(isSubpage)
                    {
                        pg.PageResponse = new byte[(modeResponse[offset + 2] << 8) + modeResponse[offset + 3] + 4];

                        if(pg.PageResponse.Length + offset > modeResponse.Length) return decoded;

                        Array.Copy(modeResponse, offset, pg.PageResponse, 0, pg.PageResponse.Length);
                        pg.Page = (byte)(modeResponse[offset] & 0x3F);
                        pg.Subpage = modeResponse[offset + 1];
                        offset += pg.PageResponse.Length;
                    }
                    else
                    {
                        pg.PageResponse = new byte[modeResponse[offset + 1] + 2];

                        if(pg.PageResponse.Length + offset > modeResponse.Length) return decoded;

                        Array.Copy(modeResponse, offset, pg.PageResponse, 0, pg.PageResponse.Length);
                        pg.Page = (byte)(modeResponse[offset] & 0x3F);
                        pg.Subpage = 0;
                        offset += pg.PageResponse.Length;
                    }
                }

                listpages.Add(pg);
            }

            decoded.Pages = listpages.ToArray();

            return decoded;
        }

        public static byte[] EncodeModeHeader10(ModeHeader header, PeripheralDeviceTypes deviceType)
        {
            return EncodeModeHeader10(header, deviceType, false);
        }

        public static byte[] EncodeModeHeader10(ModeHeader header, PeripheralDeviceTypes deviceType, bool longLBA)
        {
            byte[] hdr;

            if(header.BlockDescriptors != null)
                if(longLBA) hdr = new byte[8 + header.BlockDescriptors.Length * 16];
                else hdr = new byte[8 + header.BlockDescriptors.Length * 8];
            else hdr = new byte[8];

            hdr[2] = (byte)header.MediumType;

            if(deviceType == PeripheralDeviceTypes.DirectAccess || deviceType == PeripheralDeviceTypes.MultiMediaDevice)
            {
                if(header.WriteProtected) hdr[3] += 0x80;
                if(header.DPOFUA) hdr[3] += 0x10;
            }

            if(deviceType == PeripheralDeviceTypes.SequentialAccess)
            {
                if(header.WriteProtected) hdr[3] += 0x80;
                hdr[3] += (byte)(header.Speed & 0x0F);
                hdr[3] += (byte)((header.BufferedMode << 4) & 0x70);
            }

            if(deviceType == PeripheralDeviceTypes.PrinterDevice) hdr[3] += (byte)((header.BufferedMode << 4) & 0x70);

            if(deviceType == PeripheralDeviceTypes.OpticalDevice)
            {
                if(header.WriteProtected) hdr[3] += 0x80;
                if(header.EBC) hdr[3] += 0x01;
                if(header.DPOFUA) hdr[3] += 0x10;
            }

            if(longLBA) hdr[4] += 0x01;

            if(header.BlockDescriptors != null)
                if(longLBA)
                    for(int i = 0; i < header.BlockDescriptors.Length; i++)
                    {
                        byte[] temp = BitConverter.GetBytes(header.BlockDescriptors[i].Blocks);
                        hdr[7 + i * 16 + 8] = temp[0];
                        hdr[6 + i * 16 + 8] = temp[1];
                        hdr[5 + i * 16 + 8] = temp[2];
                        hdr[4 + i * 16 + 8] = temp[3];
                        hdr[3 + i * 16 + 8] = temp[4];
                        hdr[2 + i * 16 + 8] = temp[5];
                        hdr[1 + i * 16 + 8] = temp[6];
                        hdr[0 + i * 16 + 8] = temp[7];
                        hdr[12 + i * 16 + 8] = (byte)((header.BlockDescriptors[i].BlockLength & 0xFF000000) >> 24);
                        hdr[13 + i * 16 + 8] = (byte)((header.BlockDescriptors[i].BlockLength & 0xFF0000) >> 16);
                        hdr[14 + i * 16 + 8] = (byte)((header.BlockDescriptors[i].BlockLength & 0xFF00) >> 8);
                        hdr[15 + i * 16 + 8] = (byte)(header.BlockDescriptors[i].BlockLength & 0xFF);
                    }
                else
                    for(int i = 0; i < header.BlockDescriptors.Length; i++)
                    {
                        if(deviceType != PeripheralDeviceTypes.DirectAccess)
                            hdr[0 + i * 8 + 8] = (byte)header.BlockDescriptors[i].Density;
                        else hdr[0 + i * 8 + 8] = (byte)((header.BlockDescriptors[i].Blocks & 0xFF000000) >> 24);
                        hdr[1 + i * 8 + 8] = (byte)((header.BlockDescriptors[i].Blocks & 0xFF0000) >> 16);
                        hdr[2 + i * 8 + 8] = (byte)((header.BlockDescriptors[i].Blocks & 0xFF00) >> 8);
                        hdr[3 + i * 8 + 8] = (byte)(header.BlockDescriptors[i].Blocks & 0xFF);
                        hdr[5 + i * 8 + 8] = (byte)((header.BlockDescriptors[i].BlockLength & 0xFF0000) >> 16);
                        hdr[6 + i * 8 + 8] = (byte)((header.BlockDescriptors[i].BlockLength & 0xFF00) >> 8);
                        hdr[7 + i * 8 + 8] = (byte)(header.BlockDescriptors[i].BlockLength & 0xFF);
                    }

            return hdr;
        }

        public static byte[] EncodeMode10(DecodedMode mode, PeripheralDeviceTypes deviceType)
        {
            int modeSize = 0;
            if(mode.Pages != null) foreach(ModePage page in mode.Pages) modeSize += page.PageResponse.Length;

            byte[] hdr = EncodeModeHeader10(mode.Header, deviceType);
            modeSize += hdr.Length;
            byte[] md = new byte[modeSize];

            Array.Copy(hdr, 0, md, 0, hdr.Length);

            if(mode.Pages != null)
            {
                int offset = hdr.Length;
                foreach(ModePage page in mode.Pages)
                {
                    Array.Copy(page.PageResponse, 0, md, offset, page.PageResponse.Length);
                    offset += page.PageResponse.Length;
                }
            }

            return md;
        }
    }
}