// /*************************************************************************** // The Disc Image Chef // ---------------------------------------------------------------------------- // // Filename : Ata28.cs // Author(s) : Natalia Portillo // // Component : ATA commands. // // --[ Description ] ---------------------------------------------------------- // // Contains 28-bit LBA ATA commands. // // --[ 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 . // // ---------------------------------------------------------------------------- // Copyright © 2011-2016 Natalia Portillo // ****************************************************************************/ // /*************************************************************************** // The Disc Image Chef // ---------------------------------------------------------------------------- // // Filename : Ata28.cs // Version : 1.0 // Author(s) : Natalia Portillo // // Component : Component // // Revision : $Revision$ // Last change by : $Author$ // Date : $Date$ // // --[ Description ] ---------------------------------------------------------- // // Description // // --[ License ] -------------------------------------------------------------- // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as // published by the Free Software Foundation, either version 3 of the // License, or (at your option) any later version. // // This program 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 General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // // ---------------------------------------------------------------------------- // Copyright (C) 2011-2015 Claunia.com // ****************************************************************************/ // //$Id$ using System; using DiscImageChef.Console; using DiscImageChef.Decoders.ATA; namespace DiscImageChef.Devices { public partial class Device { public bool ReadBuffer(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint timeout, out double duration) { buffer = new byte[512]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; registers.command = (byte)AtaCommands.ReadBuffer; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.PioIn, AtaTransferRegister.NoTransfer, ref buffer, timeout, false, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ BUFFER took {0} ms.", duration); return sense; } public bool ReadBufferDma(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint timeout, out double duration) { buffer = new byte[512]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; registers.command = (byte)AtaCommands.ReadBufferDma; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.Dma, AtaTransferRegister.NoTransfer, ref buffer, timeout, false, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ BUFFER DMA took {0} ms.", duration); return sense; } public bool ReadDma(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint lba, byte count, uint timeout, out double duration) { return ReadDma(out buffer, out statusRegisters, true, lba, count, timeout, out duration); } public bool ReadDma(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, bool retry, uint lba, byte count, uint timeout, out double duration) { if(count == 0) buffer = new byte[512 * 256]; else buffer = new byte[512 * count]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; if(retry) registers.command = (byte)AtaCommands.ReadDmaRetry; else registers.command = (byte)AtaCommands.ReadDma; registers.sectorCount = count; registers.deviceHead = (byte)((lba & 0xF000000) / 0x1000000); registers.lbaHigh = (byte)((lba & 0xFF0000) / 0x10000); registers.lbaMid = (byte)((lba & 0xFF00) / 0x100); registers.lbaLow = (byte)((lba & 0xFF) / 0x1); registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.Dma, AtaTransferRegister.SectorCount, ref buffer, timeout, true, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ DMA took {0} ms.", duration); return sense; } public bool ReadMultiple(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint lba, byte count, uint timeout, out double duration) { if(count == 0) buffer = new byte[512 * 256]; else buffer = new byte[512 * count]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; registers.command = (byte)AtaCommands.ReadMultiple; registers.sectorCount = count; registers.deviceHead = (byte)((lba & 0xF000000) / 0x1000000); registers.lbaHigh = (byte)((lba & 0xFF0000) / 0x10000); registers.lbaMid = (byte)((lba & 0xFF00) / 0x100); registers.lbaLow = (byte)((lba & 0xFF) / 0x1); registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.PioIn, AtaTransferRegister.SectorCount, ref buffer, timeout, true, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ MULTIPLE took {0} ms.", duration); return sense; } public bool ReadNativeMaxAddress(out uint lba, out AtaErrorRegistersLBA28 statusRegisters, uint timeout, out double duration) { lba = 0; byte[] buffer = new byte[0]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; registers.command = (byte)AtaCommands.ReadNativeMaxAddress; registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.NonData, AtaTransferRegister.NoTransfer, ref buffer, timeout, false, out duration, out sense); error = lastError != 0; if((statusRegisters.status & 0x23) == 0) { lba += (uint)(statusRegisters.deviceHead & 0xF); lba *= 0x1000000; lba += (uint)(statusRegisters.lbaHigh << 16); lba += (uint)(statusRegisters.lbaMid << 8); lba += statusRegisters.lbaLow; } DicConsole.DebugWriteLine("ATA Device", "READ NATIVE MAX ADDRESS took {0} ms.", duration); return sense; } public bool Read(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint lba, byte count, uint timeout, out double duration) { return Read(out buffer, out statusRegisters, true, lba, count, timeout, out duration); } public bool Read(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, bool retry, uint lba, byte count, uint timeout, out double duration) { if(count == 0) buffer = new byte[512 * 256]; else buffer = new byte[512 * count]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; if(retry) registers.command = (byte)AtaCommands.ReadRetry; else registers.command = (byte)AtaCommands.Read; registers.sectorCount = count; registers.deviceHead = (byte)((lba & 0xF000000) / 0x1000000); registers.lbaHigh = (byte)((lba & 0xFF0000) / 0x10000); registers.lbaMid = (byte)((lba & 0xFF00) / 0x100); registers.lbaLow = (byte)((lba & 0xFF) / 0x1); registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.PioIn, AtaTransferRegister.SectorCount, ref buffer, timeout, true, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ SECTORS took {0} ms.", duration); return sense; } public bool ReadLong(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, uint lba, uint blockSize, uint timeout, out double duration) { return ReadLong(out buffer, out statusRegisters, true, lba, blockSize, timeout, out duration); } public bool ReadLong(out byte[] buffer, out AtaErrorRegistersLBA28 statusRegisters, bool retry, uint lba, uint blockSize, uint timeout, out double duration) { buffer = new byte[blockSize]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; if(retry) registers.command = (byte)AtaCommands.ReadLongRetry; else registers.command = (byte)AtaCommands.ReadLong; registers.sectorCount = 1; registers.deviceHead = (byte)((lba & 0xF000000) / 0x1000000); registers.lbaHigh = (byte)((lba & 0xFF0000) / 0x10000); registers.lbaMid = (byte)((lba & 0xFF00) / 0x100); registers.lbaLow = (byte)((lba & 0xFF) / 0x1); registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.PioIn, AtaTransferRegister.SectorCount, ref buffer, timeout, true, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "READ LONG took {0} ms.", duration); return sense; } public bool Seek(out AtaErrorRegistersLBA28 statusRegisters, uint lba, uint timeout, out double duration) { byte[] buffer = new byte[0]; AtaRegistersLBA28 registers = new AtaRegistersLBA28(); bool sense; registers.command = (byte)AtaCommands.Seek; registers.deviceHead = (byte)((lba & 0xF000000) / 0x1000000); registers.lbaHigh = (byte)((lba & 0xFF0000) / 0x10000); registers.lbaMid = (byte)((lba & 0xFF00) / 0x100); registers.lbaLow = (byte)((lba & 0xFF) / 0x1); registers.deviceHead += 0x40; lastError = SendAtaCommand(registers, out statusRegisters, AtaProtocol.NonData, AtaTransferRegister.NoTransfer, ref buffer, timeout, false, out duration, out sense); error = lastError != 0; DicConsole.DebugWriteLine("ATA Device", "SEEK took {0} ms.", duration); return sense; } } }