Aaru/DiscImageChef.Device.Report/ata.c

/***************************************************************************
The Disc Image Chef
----------------------------------------------------------------------------

Filename       : ata.c
Author(s)      : Natalia Portillo

Component      : DiscImageChef.Device.Report

--[ Description ] ----------------------------------------------------------

Contains ATA commands.

--[ 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 <http://www.gnu.org/licenses/>.

----------------------------------------------------------------------------
Copyright © 2011-2018 Natalia Portillo
****************************************************************************/

#include <scsi/sg.h>
#include <malloc.h>
#include <stdint.h>
#include <string.h>
#include "ata.h"
#include "scsi.h"

int AtaProtocolToScsiDirection(int protocol)
{
    switch(protocol)
    {
        case ATA_PROTOCOL_DEVICE_DIAGNOSTICS:
        case ATA_PROTOCOL_DEVICE_RESET:
        case ATA_PROTOCOL_HARD_RESET:
        case ATA_PROTOCOL_NO_DATA:
        case ATA_PROTOCOL_SOFT_RESET:
        case ATA_PROTOCOL_RETURN_RESPONSE:
            return SG_DXFER_NONE;
        case ATA_PROTOCOL_PIO_IN:
        case ATA_PROTOCOL_UDMA_IN:
            return SG_DXFER_FROM_DEV;
        case ATA_PROTOCOL_PIO_OUT:
        case ATA_PROTOCOL_UDMA_OUT:
            return SG_DXFER_TO_DEV;
        default:
            return SG_DXFER_TO_FROM_DEV;
    }
}

unsigned char *AtaToCString(unsigned char *string, int len)
{
    unsigned char *buffer = malloc(len + 1);
    unsigned char *ptr    = buffer;
    int           i;

    for(i = 0; i < len; i += 2)
    {
        *ptr++ = *(string + i + 1);
        *ptr++ = *(string + i);
    }

    buffer[len] = 0x00;
    *ptr = *(buffer + len);

    for(i = len; i >= 0; i--, *ptr--)
    {
        if(*ptr == 0x20 || *ptr == 0x00)
            *ptr = 0;
        else
            break;
    }

    return buffer;
}

int SendAtaCommandChs(int fd, AtaRegistersCHS registers, AtaErrorRegistersCHS **errorRegisters, int protocol,
                      int transferRegister, unsigned char *buffer, unsigned int buffer_len, int transferBlocks)
{
    unsigned char cdb[16];
    memset(&cdb, 0, 16);
    cdb[0] = SCSI_ATA_PASSTHROUGH_16;
    cdb[1] = (unsigned char)((protocol << 1) & 0x1E);
    if(transferRegister != ATA_TRANSFER_NONE && protocol != ATA_PROTOCOL_NO_DATA)
    {
        switch(protocol)
        {
            case ATA_PROTOCOL_PIO_IN:
            case ATA_PROTOCOL_UDMA_IN:
                cdb[2] = 0x08;
                break;
            default:
                cdb[2] = 0x00;
                break;
        }

        if(transferBlocks)
            cdb[2] |= 0x04;

        cdb[2] |= (transferRegister & 0x03);
    }

    cdb[4]              = registers.feature;
    cdb[6]              = registers.sectorCount;
    cdb[8]              = registers.sector;
    cdb[10]             = registers.cylinderLow;
    cdb[12]             = registers.cylinderHigh;
    cdb[13]             = registers.deviceHead;
    cdb[14]             = registers.command;

    unsigned char *sense_buf;
    int           error = SendScsiCommand(fd, &cdb, 16, buffer, buffer_len, &sense_buf,
                                          AtaProtocolToScsiDirection(protocol));

    *errorRegisters = malloc(sizeof(AtaErrorRegistersCHS));
    memset(*errorRegisters, 0, sizeof(AtaErrorRegistersCHS));
    (*errorRegisters)->error        = sense_buf[11];
    (*errorRegisters)->sectorCount  = sense_buf[13];
    (*errorRegisters)->sector       = sense_buf[15];
    (*errorRegisters)->cylinderLow  = sense_buf[17];
    (*errorRegisters)->cylinderHigh = sense_buf[19];
    (*errorRegisters)->deviceHead   = sense_buf[20];
    (*errorRegisters)->status       = sense_buf[21];

    if(error != 0)
        return error;

    return (*errorRegisters)->error;
}

int SendAtaCommandLba28(int fd, AtaRegistersLBA28 registers, AtaErrorRegistersLBA28 **errorRegisters, int protocol,
                        int transferRegister, unsigned char *buffer, unsigned int buffer_len, int transferBlocks)
{
    unsigned char cdb[16];
    memset(&cdb, 0, 16);
    cdb[0] = SCSI_ATA_PASSTHROUGH_16;
    cdb[1] = (unsigned char)((protocol << 1) & 0x1E);
    if(transferRegister != ATA_TRANSFER_NONE && protocol != ATA_PROTOCOL_NO_DATA)
    {
        switch(protocol)
        {
            case ATA_PROTOCOL_PIO_IN:
            case ATA_PROTOCOL_UDMA_IN:
                cdb[2] = 0x08;
                break;
            default:
                cdb[2] = 0x00;
                break;
        }

        if(transferBlocks)
            cdb[2] |= 0x04;

        cdb[2] |= (transferRegister & 0x03);
    }

    cdb[2] |= 0x20;

    cdb[4]              = registers.feature;
    cdb[6]              = registers.sectorCount;
    cdb[8]              = registers.lbaLow;
    cdb[10]             = registers.lbaMid;
    cdb[12]             = registers.lbaHigh;
    cdb[13]             = registers.deviceHead;
    cdb[14]             = registers.command;

    unsigned char *sense_buf;
    int           error = SendScsiCommand(fd, &cdb, 16, buffer, buffer_len, &sense_buf,
                                          AtaProtocolToScsiDirection(protocol));

    *errorRegisters = malloc(sizeof(AtaErrorRegistersLBA28));
    memset(*errorRegisters, 0, sizeof(AtaErrorRegistersLBA28));
    (*errorRegisters)->error       = sense_buf[11];
    (*errorRegisters)->sectorCount = sense_buf[13];
    (*errorRegisters)->lbaLow      = sense_buf[15];
    (*errorRegisters)->lbaMid      = sense_buf[17];
    (*errorRegisters)->lbaHigh     = sense_buf[19];
    (*errorRegisters)->deviceHead  = sense_buf[20];
    (*errorRegisters)->status      = sense_buf[21];

    if(error != 0)
        return error;

    return (*errorRegisters)->error;
}

int SendAtaCommandLba48(int fd, AtaRegistersLBA48 registers, AtaErrorRegistersLBA48 **errorRegisters, int protocol,
                        int transferRegister, unsigned char *buffer, unsigned int buffer_len, int transferBlocks)
{
    unsigned char cdb[16];
    memset(&cdb, 0, 16);
    cdb[0] = SCSI_ATA_PASSTHROUGH_16;
    cdb[1] = (unsigned char)((protocol << 1) & 0x1E);
    cdb[1] |= 0x01;
    if(transferRegister != ATA_TRANSFER_NONE && protocol != ATA_PROTOCOL_NO_DATA)
    {
        switch(protocol)
        {
            case ATA_PROTOCOL_PIO_IN:
            case ATA_PROTOCOL_UDMA_IN:
                cdb[2] = 0x08;
                break;
            default:
                cdb[2] = 0x00;
                break;
        }

        if(transferBlocks)
            cdb[2] |= 0x04;

        cdb[2] |= (transferRegister & 0x03);
    }

    cdb[2] |= 0x20;

    cdb[3]              = (uint8_t)((registers.feature & 0xFF00) >> 8);
    cdb[4]              = (uint8_t)(registers.feature & 0xFF);
    cdb[5]              = (uint8_t)((registers.sectorCount & 0xFF00) >> 8);
    cdb[6]              = (uint8_t)(registers.sectorCount & 0xFF);
    cdb[7]              = (uint8_t)((registers.lbaLow & 0xFF00) >> 8);
    cdb[8]              = (uint8_t)(registers.lbaLow & 0xFF);
    cdb[9]              = (uint8_t)((registers.lbaMid & 0xFF00) >> 8);
    cdb[10]             = (uint8_t)(registers.lbaMid & 0xFF);
    cdb[11]             = (uint8_t)((registers.lbaHigh & 0xFF00) >> 8);
    cdb[12]             = (uint8_t)(registers.lbaHigh & 0xFF);
    cdb[13]             = registers.deviceHead;
    cdb[14]             = registers.command;

    unsigned char *sense_buf;
    int           error = SendScsiCommand(fd, &cdb, 16, buffer, buffer_len, &sense_buf,
                                          AtaProtocolToScsiDirection(protocol));

    *errorRegisters = malloc(sizeof(AtaErrorRegistersLBA48));
    memset(*errorRegisters, 0, sizeof(AtaErrorRegistersLBA48));
    (*errorRegisters)->error       = sense_buf[11];
    (*errorRegisters)->sectorCount = (uint16_t)((sense_buf[12] << 8) + sense_buf[13]);
    (*errorRegisters)->lbaLow      = (uint16_t)((sense_buf[14] << 8) + sense_buf[15]);
    (*errorRegisters)->lbaMid      = (uint16_t)((sense_buf[16] << 8) + sense_buf[17]);
    (*errorRegisters)->lbaHigh     = (uint16_t)((sense_buf[18] << 8) + sense_buf[19]);
    (*errorRegisters)->deviceHead  = sense_buf[20];
    (*errorRegisters)->status      = sense_buf[21];

    if(error != 0)
        return error;

    return (*errorRegisters)->error;
}

int Identify(int fd, unsigned char **buffer, AtaErrorRegistersCHS **errorRegisters)
{
    *buffer = malloc(512);
    memset(*buffer, 0, 512);
    AtaRegistersCHS registers;
    memset(&registers, 0, sizeof(AtaRegistersCHS));

    registers.command = ATA_IDENTIFY_DEVICE;

    int error = SendAtaCommandChs(fd, registers, errorRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_NONE, *buffer, 512,
                                  0);

    return error;
}

int
Read(int fd, unsigned char **buffer, AtaErrorRegistersCHS **statusRegisters, int retry, uint16_t cylinder, uint8_t head,
     uint8_t sector, uint8_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 256;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersCHS registers;
    memset(&registers, 0, sizeof(AtaRegistersCHS));

    if(retry)
        registers.command = ATA_READ_RETRY;
    else
        registers.command  = ATA_READ_SECTORS;
    registers.sectorCount  = count;
    registers.cylinderHigh = (uint8_t)((cylinder & 0xFF00) / 0x100);
    registers.cylinderLow  = (uint8_t)((cylinder & 0xFF) / 0x1);
    registers.deviceHead   = (uint8_t)(head & 0x0F);
    registers.sector       = sector;

    int error = SendAtaCommandChs(fd, registers, statusRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_SECTORCOUNT,
                                  *buffer, buffer_len, 1);

    return error;
}

int ReadLong(int fd, unsigned char **buffer, AtaErrorRegistersCHS **statusRegisters, int retry, uint16_t cylinder,
             uint8_t head, uint8_t sector, uint32_t blockSize)
{
    *buffer = malloc(blockSize);
    memset(*buffer, 0, blockSize);
    AtaRegistersCHS registers;
    memset(&registers, 0, sizeof(AtaRegistersCHS));

    if(retry)
        registers.command = ATA_READ_LONG_RETRY;
    else
        registers.command  = ATA_READ_LONG;
    registers.sectorCount  = 1;
    registers.cylinderHigh = (uint8_t)((cylinder & 0xFF00) / 0x100);
    registers.cylinderLow  = (uint8_t)((cylinder & 0xFF) / 0x1);
    registers.deviceHead   = (uint8_t)(head & 0x0F);
    registers.sector       = sector;

    int error = SendAtaCommandChs(fd, registers, statusRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_SECTORCOUNT,
                                  *buffer, blockSize, 1);

    return error;
}

int Seek(int fd, AtaErrorRegistersCHS **statusRegisters, uint16_t cylinder, uint8_t head, uint8_t sector)
{
    unsigned char *buffer = malloc(0);
    memset(*buffer, 0, 0);
    AtaRegistersCHS registers;
    memset(&registers, 0, sizeof(AtaRegistersCHS));

    registers.command      = ATA_SEEK;
    registers.cylinderHigh = (uint8_t)((cylinder & 0xFF00) / 0x100);
    registers.cylinderLow  = (uint8_t)((cylinder & 0xFF) / 0x1);
    registers.deviceHead   = (uint8_t)(head & 0x0F);
    registers.sector       = sector;

    int error = SendAtaCommandChs(fd, registers, statusRegisters, ATA_PROTOCOL_NO_DATA, ATA_TRANSFER_NONE, *buffer, 0,
                                  0);

    return error;
}

int ReadDma(int fd, unsigned char **buffer, AtaErrorRegistersCHS **statusRegisters, int retry, uint16_t cylinder,
            uint8_t head, uint8_t sector, uint8_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 256;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersCHS registers;
    memset(&registers, 0, sizeof(AtaRegistersCHS));

    if(retry)
        registers.command = ATA_READ_DMA_RETRY;
    else
        registers.command  = ATA_READ_DMA;
    registers.sectorCount  = count;
    registers.cylinderHigh = (uint8_t)((cylinder & 0xFF00) / 0x100);
    registers.cylinderLow  = (uint8_t)((cylinder & 0xFF) / 0x1);
    registers.deviceHead   = (uint8_t)(head & 0x0F);
    registers.sector       = sector;

    int error = SendAtaCommandChs(fd, registers, statusRegisters, ATA_PROTOCOL_DMA, ATA_TRANSFER_SECTORCOUNT, *buffer,
                                  buffer_len, 1);

    return error;
}

int ReadDmaLba(int fd, unsigned char **buffer, AtaErrorRegistersLBA28 **statusRegisters, int retry, uint32_t lba,
               uint8_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 256;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersLBA28 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA28));

    if(retry)
        registers.command = ATA_READ_DMA_RETRY;
    else
        registers.command = ATA_READ_DMA;
    registers.sectorCount = count;
    registers.deviceHead  = (uint8_t)((lba & 0xF000000) / 0x1000000);
    registers.lbaHigh     = (uint8_t)((lba & 0xFF0000) / 0x10000);
    registers.lbaMid      = (uint8_t)((lba & 0xFF00) / 0x100);
    registers.lbaLow      = (uint8_t)((lba & 0xFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba28(fd, registers, statusRegisters, ATA_PROTOCOL_DMA, ATA_TRANSFER_SECTORCOUNT, *buffer,
                                    buffer_len, 1);

    return error;
}

int ReadLba(int fd, unsigned char **buffer, AtaErrorRegistersLBA28 **statusRegisters, int retry, uint32_t lba,
            uint8_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 256;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersLBA28 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA28));

    if(retry)
        registers.command = ATA_READ_RETRY;
    else
        registers.command = ATA_READ_SECTORS;
    registers.sectorCount = count;
    registers.deviceHead  = (uint8_t)((lba & 0xF000000) / 0x1000000);
    registers.lbaHigh     = (uint8_t)((lba & 0xFF0000) / 0x10000);
    registers.lbaMid      = (uint8_t)((lba & 0xFF00) / 0x100);
    registers.lbaLow      = (uint8_t)((lba & 0xFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba28(fd, registers, statusRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_SECTORCOUNT,
                                    *buffer, buffer_len, 1);

    return error;
}

int ReadLongLba(int fd, unsigned char **buffer, AtaErrorRegistersLBA28 **statusRegisters, int retry, uint32_t lba,
                uint32_t blockSize)
{
    *buffer = malloc(blockSize);
    memset(*buffer, 0, blockSize);
    AtaRegistersLBA28 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA28));

    if(retry)
        registers.command = ATA_READ_LONG_RETRY;
    else
        registers.command = ATA_READ_LONG;
    registers.sectorCount = 1;
    registers.sectorCount = 1;
    registers.deviceHead  = (uint8_t)((lba & 0xF000000) / 0x1000000);
    registers.lbaHigh     = (uint8_t)((lba & 0xFF0000) / 0x10000);
    registers.lbaMid      = (uint8_t)((lba & 0xFF00) / 0x100);
    registers.lbaLow      = (uint8_t)((lba & 0xFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba28(fd, registers, statusRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_SECTORCOUNT,
                                    *buffer, blockSize, 1);

    return error;
}

int SeekLba(int fd, AtaErrorRegistersLBA28 **statusRegisters, uint32_t lba)
{
    unsigned char *buffer = malloc(0);
    memset(*buffer, 0, 0);
    AtaRegistersLBA28 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA28));

    registers.command    = ATA_SEEK;
    registers.deviceHead = (uint8_t)((lba & 0xF000000) / 0x1000000);
    registers.lbaHigh    = (uint8_t)((lba & 0xFF0000) / 0x10000);
    registers.lbaMid     = (uint8_t)((lba & 0xFF00) / 0x100);
    registers.lbaLow     = (uint8_t)((lba & 0xFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba28(fd, registers, statusRegisters, ATA_PROTOCOL_NO_DATA, ATA_TRANSFER_NONE, *buffer, 0,
                                    0);

    return error;
}

int ReadDmaLba48(int fd, unsigned char **buffer, AtaErrorRegistersLBA48 **statusRegisters, uint64_t lba, uint16_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 65536;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersLBA48 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA48));

    registers.command     = ATA_READ_DMA_EXT;
    registers.sectorCount = count;
    registers.lbaHigh     = (uint16_t)((lba & 0xFFFF00000000) / 0x100000000);
    registers.lbaMid      = (uint16_t)((lba & 0xFFFF0000) / 0x10000);
    registers.lbaLow      = (uint16_t)((lba & 0xFFFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba48(fd, registers, statusRegisters, ATA_PROTOCOL_DMA, ATA_TRANSFER_SECTORCOUNT, *buffer,
                                    buffer_len, 1);

    return error;
}

int ReadLba48(int fd, unsigned char **buffer, AtaErrorRegistersLBA48 **statusRegisters, uint64_t lba, uint16_t count)
{
    int buffer_len;
    if(count == 0)
        buffer_len = 512 * 65536;
    else
        buffer_len = 512 * count;

    *buffer = malloc(buffer_len);
    memset(*buffer, 0, buffer_len);
    AtaRegistersLBA48 registers;
    memset(&registers, 0, sizeof(AtaRegistersLBA48));

    registers.command     = ATA_READ_EXT;
    registers.sectorCount = count;
    registers.lbaHigh     = (uint16_t)((lba & 0xFFFF00000000) / 0x100000000);
    registers.lbaMid      = (uint16_t)((lba & 0xFFFF0000) / 0x10000);
    registers.lbaLow      = (uint16_t)((lba & 0xFFFF) / 0x1);
    registers.deviceHead += 0x40;

    int error = SendAtaCommandLba48(fd, registers, statusRegisters, ATA_PROTOCOL_PIO_IN, ATA_TRANSFER_SECTORCOUNT,
                                    *buffer, buffer_len, 1);

    return error;
}