/*-----------------------------------------------------------------------*/
/* Low level disk I/O module skeleton for FatFs     (C)ChaN, 2007        */
/*-----------------------------------------------------------------------*/
/* This is a stub disk I/O module that acts as front end of the existing */
/* disk I/O modules and attach it to FatFs module with common interface. */
/*-----------------------------------------------------------------------*/

#include "ch.h"
#include "hal.h"

#include "diskio.h"

extern MMCDriver MMCD1;

/*-----------------------------------------------------------------------*/
/* Correspondence between physical drive number and physical drive.      */

#define MMC     0
#define SDC     1



/*-----------------------------------------------------------------------*/
/* Inidialize a Drive                                                    */

DSTATUS disk_initialize (
    BYTE drv                /* Physical drive nmuber (0..) */
)
{
  DSTATUS stat;

  switch (drv) {
#if HAL_USE_MMC_SPI
  case MMC:
    stat = 0;
    /* It is initialized externally, just reads the status.*/
    if (mmcGetDriverState(&MMCD1) != MMC_READY)
      stat |= STA_NODISK;
    if (mmcIsWriteProtected(&MMCD1))
      stat |=  STA_PROTECT;
    return stat;
#endif /* HAL_USE_MMC_SPI */
#if HAL_USE_SDC
  case SDC:
    stat = 0;
    /* It is initialized externally, just reads the status.*/
    if (sdcGetDriverState(&SDCD1) != SDC_ACTIVE)
      stat |= STA_NODISK;
    if (sdcIsWriteProtected(&SDCD1))
      stat |=  STA_PROTECT;
    return stat;
#endif /* HAL_USE_SDC */
  }
  return STA_NOINIT;
}



/*-----------------------------------------------------------------------*/
/* Return Disk Status                                                    */

DSTATUS disk_status (
    BYTE drv        /* Physical drive nmuber (0..) */
)
{
  DSTATUS stat;

  switch (drv) {
#if HAL_USE_MMC_SPI
  case MMC:
    stat = 0;
    /* It is initialized externally, just reads the status.*/
    if (mmcGetDriverState(&MMCD1) != MMC_READY)
      stat |= STA_NODISK;
    if (mmcIsWriteProtected(&MMCD1))
      stat |=  STA_PROTECT;
    return stat;
#endif /* HAL_USE_MMC_SPI */
#if HAL_USE_SDC
  case SDC:
    stat = 0;
    /* It is initialized externally, just reads the status.*/
    if (sdcGetDriverState(&SDCD1) != SDC_ACTIVE)
      stat |= STA_NODISK;
    if (sdcIsWriteProtected(&SDCD1))
      stat |=  STA_PROTECT;
    return stat;
#endif /* HAL_USE_SDC */
  }
  return STA_NOINIT;
}



/*-----------------------------------------------------------------------*/
/* Read Sector(s)                                                        */

DRESULT disk_read (
    BYTE drv,        /* Physical drive nmuber (0..) */
    BYTE *buff,        /* Data buffer to store read data */
    DWORD sector,    /* Sector address (LBA) */
    BYTE count        /* Number of sectors to read (1..255) */
)
{
  switch (drv) {
#if HAL_USE_MMC_SPI
  case MMC:
    if (mmcGetDriverState(&MMCD1) != MMC_READY)
      return RES_NOTRDY;
    if (mmcStartSequentialRead(&MMCD1, sector))
      return RES_ERROR;
    while (count > 0) {
      if (mmcSequentialRead(&MMCD1, buff))
        return RES_ERROR;
      buff += MMC_SECTOR_SIZE;
      count--;
    }
    if (mmcStopSequentialRead(&MMCD1))
        return RES_ERROR;
    return RES_OK;
#endif /* HAL_USE_MMC_SPI */
#if HAL_USE_SDC
  case SDC:
    if (sdcGetDriverState(&SDCD1) != SDC_ACTIVE)
      stat |= STA_NODISK;
    if (sdcRead(&SDCD1, sector, buff, count))
      return RES_ERROR;
#endif /* HAL_USE_SDC */
  }
  return RES_PARERR;
}



/*-----------------------------------------------------------------------*/
/* Write Sector(s)                                                       */

#if _READONLY == 0
DRESULT disk_write (
    BYTE drv,            /* Physical drive nmuber (0..) */
    const BYTE *buff,    /* Data to be written */
    DWORD sector,        /* Sector address (LBA) */
    BYTE count            /* Number of sectors to write (1..255) */
)
{
  switch (drv) {
#if HAL_USE_MMC_SPI
  case MMC:
    if (mmcGetDriverState(&MMCD1) != MMC_READY)
        return RES_NOTRDY;
    if (mmcIsWriteProtected(&MMCD1))
        return RES_WRPRT;
    if (mmcStartSequentialWrite(&MMCD1, sector))
        return RES_ERROR;
    while (count > 0) {
        if (mmcSequentialWrite(&MMCD1, buff))
            return RES_ERROR;
        buff += MMC_SECTOR_SIZE;
        count--;
    }
    if (mmcStopSequentialWrite(&MMCD1))
        return RES_ERROR;
    return RES_OK;
#endif /* HAL_USE_MMC_SPI */
#if HAL_USE_SDC
  case SDC:
    if (sdcGetDriverState(&SDCD1) != SDC_ACTIVE)
      stat |= STA_NODISK;
    if (sdcWrite(&SDCD1, sector, buff, count))
      return RES_ERROR;
#endif /* HAL_USE_SDC */
  }
  return RES_PARERR;
}
#endif /* _READONLY */



/*-----------------------------------------------------------------------*/
/* Miscellaneous Functions                                               */

DRESULT disk_ioctl (
    BYTE drv,        /* Physical drive nmuber (0..) */
    BYTE ctrl,        /* Control code */
    void *buff        /* Buffer to send/receive control data */
)
{
  switch (drv) {
#if HAL_USE_MMC_SPI
  case MMC:
    switch (ctrl) {
    case CTRL_SYNC:
        return RES_OK;
    case GET_SECTOR_SIZE:
        *((WORD *)buff) = MMC_SECTOR_SIZE;
        return RES_OK;
    default:
        return RES_PARERR;
    }
    return RES_OK;
#endif /* HAL_USE_MMC_SPI */
#if HAL_USE_SDC
  case SDC:
    switch (ctrl) {
    case CTRL_SYNC:
        return RES_OK;
    case GET_SECTOR_SIZE:
        *((WORD *)buff) = SDC_BLOCK_SIZE;
        return RES_OK;
    default:
        return RES_PARERR;
    }
    return RES_OK;
#endif /* HAL_USE_SDC */
  }
  return RES_PARERR;
}

DWORD get_fattime(void) {

    return 0;
}