Example #1
0
        public override void Start()
        {
            ControlPort.Write8(0);

            for (byte drive = 0; drive < MaximumDriveCount; drive++)
            {
                DoIdentifyDrive(drive);
            }

            Device.Status = DeviceStatus.Online;
        }
Example #2
0
        /// <summary>
        /// Writes the settings.
        /// </summary>
        /// <param name="settings">The settings.</param>
        protected void WriteSettings(byte[] settings)
        {
            // Write MISCELLANEOUS reg
            miscellaneousOutputWrite.Write8(settings[0]);

            // Write SEQUENCER regs
            for (byte i = 0; i < 5; i++)
            {
                sequencerAddress.Write8(i);
                sequencerData.Write8(settings[1 + i]);
            }

            // Unlock CRTC registers
            crtControllerIndexColor.Write8(0x03);
            crtControllerDataColor.Write8((byte)(crtControllerData.Read8() | 0x80));
            crtControllerIndexColor.Write8(0x11);
            crtControllerDataColor.Write8((byte)(crtControllerData.Read8() & 0x7F));

            // Make sure they remain unlocked
            settings[0x03] = (byte)(settings[0x03] | 0x80);
            settings[0x11] = (byte)(settings[0x11] & 0x7F);

            // Write CRTC regs
            for (byte i = 0; i < 25; i++)
            {
                crtControllerIndexColor.Write8(i);
                crtControllerDataColor.Write8(settings[6 + i]);
            }

            // Write GRAPHICS CONTROLLER regs
            for (byte i = 0; i < 9; i++)
            {
                graphicsControllerAddress.Write8(i);
                graphicsControllerData.Write8(settings[31 + i]);
            }

            // Write ATTRIBUTE CONTROLLER regs
            for (byte i = 0; i < 21; i++)
            {
                inputStatus1ReadB.Read8();
                attributeAddress.Write8(i);
                attributeAddress.Write8(settings[40 + i]);                 // TODO: Double check
            }

            // Lock 16-color palette and unblank display */
            inputStatus1ReadB.Read8();
            attributeAddress.Write8(0x20);
        }
Example #3
0
        private void DoIdentifyDrive(byte index)
        {
            driveInfo[index].Present = false;

            //Send the identify command to the selected drive
            DeviceHeadPort.Write8((byte)((index == 0) ? 0xA0 : 0xB0));
            SectorCountPort.Write8(0);
            LBALowPort.Write8(0);
            LBAMidPort.Write8(0);
            LBAHighPort.Write8(0);
            CommandPort.Write8(IDECommand.IdentifyDrive);

            if (StatusPort.Read8() == 0)
            {
                //Drive doesn't exist
                return;
            }

            //Wait until a ready status is present
            if (!WaitForReadyStatus())
            {
                return;                 //There's no ready status, this drive doesn't exist
            }

            if (LBAMidPort.Read8() != 0 && LBAHighPort.Read8() != 0)             //Check if the drive is ATA
            {
                //In this case the drive is ATAPI
                //HAL.DebugWriteLine("Device " + index.ToString() + " not ATA");
                return;
            }

            //Wait until the identify data is present (256x16 bits)
            if (!WaitForIdentifyData())
            {
                //HAL.DebugWriteLine("Device " + index.ToString() + " ID error");
                return;
            }

            //An ATA drive is present
            driveInfo[index].Present = true;

            //Read the identification info
            var info = new DataBlock(512);

            for (uint ix = 0; ix < 256; ix++)
            {
                info.SetUShort(ix * 2, DataPort.Read16());
            }

            //Find the addressing mode
            var lba28SectorCount = info.GetUInt(IdentifyDrive.MaxLBA28);

            AddressingMode aMode = AddressingMode.NotSupported;

            if ((info.GetUShort(IdentifyDrive.CommandSetSupported83) & 0x200) == 0x200)             //Check the LBA48 support bit
            {
                aMode = AddressingMode.LBA48;
                driveInfo[index].MaxLBA = info.GetUInt(IdentifyDrive.MaxLBA48);
            }
            else if (lba28SectorCount > 0)             //LBA48 not supported, check LBA28
            {
                aMode = AddressingMode.LBA28;
                driveInfo[index].MaxLBA = lba28SectorCount;
            }

            driveInfo[index].AddressingMode = aMode;

            //HAL.DebugWriteLine("Device " + index.ToString() + " present - MaxLBA=" + driveInfo[index].MaxLBA.ToString());
        }
Example #4
0
 /// <summary>
 /// Starts this hardware device.
 /// </summary>
 public override void Start()
 {
     SMI_CommandPort.Write8(FADT->AcpiEnable);
     HAL.Sleep(3000);
     Device.Status = DeviceStatus.Online;
 }