flioctl.c

M-System DOC(Disk on a Chip) Flash芯片的诊断工具, 可以从Flash芯片中获取特定的数据信息, 用于判断芯片当前的状态.

/***********************************************************************************/
/*                        M-Systems Confidential                                   */
/*           Copyright (C) M-Systems Flash Disk Pioneers Ltd. 1995-2003            */
/*                         All Rights Reserved                                     */
/***********************************************************************************/
/*                            NOTICE OF M-SYSTEMS OEM                              */
/*                           SOFTWARE LICENSE AGREEMENT                            */
/*                                                                                 */
/*      THE USE OF THIS SOFTWARE IS GOVERNED BY A SEPARATE LICENSE                 */
/*      AGREEMENT BETWEEN THE OEM AND M-SYSTEMS. REFER TO THAT AGREEMENT           */
/*      FOR THE SPECIFIC TERMS AND CONDITIONS OF USE,                              */
/*      OR CONTACT M-SYSTEMS FOR LICENSE ASSISTANCE:                               */
/*      E-MAIL = info@m-sys.com                                                    */
/***********************************************************************************/

/*
 * $Log:   V:/PVCSDB/DiskOnChip/archives/general storage/TrueFFS/src/misc/flioctl.c-arc  $
 * 
 *    Rev 1.5   Jan 18 2004 02:34:38   oris
 * Removed warnings
 * 
 *    Rev 1.4   Nov 20 2003 18:49:00   omerk
 * Fix the IOCTL IsQuickMountValid to return the correct status of the QuickMountInfo validity.
 * Fix the switch case define of FL_WRITE_QUICK_MOUNT_INFO to FL_IOCTL_WRITE_QUICK_MOUNT_INFO.
 * 
 * 
 *    Rev 1.3   Sep 30 2003 17:58:42   oris
 * Added the required prefixes to export flioctl routine.
 * 
 *    Rev 1.2   May 18 2003 13:29:08   OriS
 * Improved the affect of the FL_READ_ONLY compilation flag.
 * 
 *    Rev 1.1   May 11 2003 08:27:40   OriS
 * Added support for the 3 quick mount routine (get, discard and write).
 * 
 *    Rev 1.0   Apr 09 2003 12:15:56   OriS
 * Initial revision.
 * 
 */

#include "flioctl.h"
#include "blockdev.h"

#ifdef IOCTL_INTERFACE

/*----------------------------------------------------------------------*/
/*                           f l I O c t l                              */
/*                                                                      */
/* The entry point for all TrueFFS extended functions.                  */
/*                                                                      */
/* Note: This interface is common to all TrueFFS based drivers. However */
/*       since you can access TrueFFS diretly (without the driver) you  */
/*       can also call the extended routines explicitly.                */
/*                                                                      */
/* Parameters:                                                          */
/*        irHandle   : Socket number (0, 1, ...)                        */
/*                      bits 7-4 - Partition # (zero based)             */
/*                      bits 3-0 - Socket # (zero based)                */
/*        irData     : Pointer to flIOctlRecord record see flioclt.h    */
/*        irFlags    : Opcode of the specific extended function.        */
/*                     See flioctl.h for the complete opcode list.      */
/* Returns:                                                             */
/*        FLStatus        : 0 on success, otherwise failed              */
/*----------------------------------------------------------------------*/

TFFS_DLL_API FLStatus NAMING_CONVENTION flIOctl(IOreq FAR2 *ioreq1)
{
  IOreq ioreq2;
  void FAR1 *inputRecord;
  void FAR1 *outputRecord;

  inputRecord = ((flIOctlRecord FAR1 *)(ioreq1->irData))->inputRecord;
  outputRecord = ((flIOctlRecord FAR1 *)(ioreq1->irData))->outputRecord;
  ioreq2.irHandle = ioreq1->irHandle;

  switch (ioreq1->irFlags) {
    case FL_IOCTL_GET_INFO:
    {
      flDiskInfoOutput FAR1 *outputRec = (flDiskInfoOutput FAR1 *)outputRecord;

      ioreq2.irData = &(outputRec->info);
      outputRec->status = flVolumeInfo(&ioreq2);
      return outputRec->status;
    }
#ifndef FL_READ_ONLY
#ifdef DEFRAGMENT_VOLUME
    case FL_IOCTL_DEFRAGMENT:
    {
      flDefragInput FAR1 *inputRec = (flDefragInput FAR1 *)inputRecord;
      flDefragOutput FAR1 *outputRec = (flDefragOutput FAR1 *)outputRecord;

      ioreq2.irLength = inputRec->requiredNoOfSectors;
      outputRec->status = flDefragmentVolume(&ioreq2);
      outputRec->actualNoOfSectors = ioreq2.irLength;
      return outputRec->status;
    }
#endif /* DEFRAGMENT_VOLUME */
#ifdef WRITE_PROTECTION
    case FL_IOCTL_WRITE_PROTECT:
    {
      flWriteProtectInput FAR1 *inputRec = (flWriteProtectInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      ioreq2.irData = inputRec->password;
      ioreq2.irFlags = inputRec->type;
      outputRec->status = flWriteProtection(&ioreq2);
      return outputRec->status;
    }
#endif /* WRITE_PROTECTION */
#ifdef FORMAT_VOLUME
    case FL_IOCTL_FORMAT_VOLUME:
    {
      flFormatInput FAR1 *inputRec = (flFormatInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      ioreq2.irFlags = inputRec->formatType;
      ioreq2.irData = &(inputRec->fp);
      outputRec->status = flFormatVolume(&ioreq2);
      return outputRec->status;
    }

    case FL_IOCTL_FORMAT_LOGICAL_DRIVE:
    {
      flFormatLogicalInput FAR1 *inputRec = (flFormatLogicalInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      ioreq2.irData = &(inputRec->fp);
      outputRec->status = flFormatLogicalDrive(&ioreq2);
      return outputRec->status;
    }

    case FL_IOCTL_FORMAT_PHYSICAL_DRIVE:
    {
      flFormatPhysicalInput FAR1 *inputRec = (flFormatPhysicalInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      ioreq2.irFlags = inputRec->formatType;
      ioreq2.irData = &(inputRec->fp);
      outputRec->status = flFormatPhysicalDrive(&ioreq2);
      return outputRec->status;
    }
#endif /* FORMAT_VOLUME */
#endif /* FL_READ_ONLY */
    case FL_IOCTL_MOUNT_VOLUME:
    {
      flMountInput FAR1 *inputRec = (flMountInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      if (inputRec->type == FL_DISMOUNT)
        outputRec->status = flDismountVolume(&ioreq2);
      else
        outputRec->status = flAbsMountVolume(&ioreq2);
      return outputRec->status;
    }
#ifdef BDK_ACCESS
    case FL_IOCTL_BDK_OPERATION:
    {
      flBDKOperationInput  FAR1 *inputRec  = (flBDKOperationInput  FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;

      ioreq2.irData = &(inputRec->bdkStruct);
      switch(inputRec->type) {
        case BDK_INIT_READ:
          outputRec->status = bdkReadInit(&ioreq2);
          break;
        case BDK_READ:
          outputRec->status = bdkReadBlock(&ioreq2);
          break;
        case BDK_GET_INFO:
          outputRec->status = bdkPartitionInfo(&ioreq2);
          break;
#ifndef FL_READ_ONLY
        case BDK_INIT_WRITE:
          outputRec->status = bdkWriteInit(&ioreq2);
          break;
        case BDK_WRITE:
          outputRec->status = bdkWriteBlock(&ioreq2);
          break;
        case BDK_ERASE:
          outputRec->status = bdkErase(&ioreq2);
          break;
        case BDK_CREATE:
          outputRec->status = bdkCreate(&ioreq2);
          break;
#endif   /* FL_READ_ONLY */
    default:
      outputRec->status = flBadParameter;
          break;
      }
      return outputRec->status;
    }
#endif /* BDK_ACCESS */
#ifdef HW_PROTECTION
#ifdef BDK_ACCESS
    case FL_IOCTL_BINARY_HW_PROTECTION:
    {
      flProtectionInput    FAR1 *inputRec = (flProtectionInput FAR1 *)inputRecord;
      flProtectionOutput FAR1 *outputRec = (flProtectionOutput FAR1 *)outputRecord;

      switch(inputRec->type)
      {
    case PROTECTION_INSERT_KEY:
      ioreq2.irData = inputRec->key;
      outputRec->status = bdkInsertProtectionKey(&ioreq2);
      break;
    case PROTECTION_REMOVE_KEY:
      outputRec->status = bdkRemoveProtectionKey(&ioreq2);
      break;
    case PROTECTION_GET_TYPE:
      outputRec->status = bdkIdentifyProtection(&ioreq2);
      outputRec->protectionType = (FLByte)ioreq2.irFlags;
      break;
    case PROTECTION_DISABLE_LOCK:
      ioreq2.irFlags = 0;
      outputRec->status = bdkHardwareProtectionLock(&ioreq2);
      break;
    case PROTECTION_ENABLE_LOCK:
      ioreq2.irFlags = LOCK_ENABLED;
      outputRec->status = bdkHardwareProtectionLock(&ioreq2);
      break;
    case PROTECTION_CHANGE_KEY:
      ioreq2.irData = inputRec->key;
      outputRec->status = bdkChangeProtectionKey(&ioreq2);
      break;
    case PROTECTION_CHANGE_TYPE:
      ioreq2.irFlags = inputRec->protectionType;
      outputRec->status = bdkChangeProtectionType(&ioreq2);
      break;
        default:
          outputRec->status = flBadParameter;
          break;
      }
      return outputRec->status;
    }
#endif /* BDK_ACCESS */
    case FL_IOCTL_BDTL_HW_PROTECTION:
    {
      flProtectionInput  FAR1 *inputRec = (flProtectionInput FAR1 *)inputRecord;
      flProtectionOutput FAR1 *outputRec = (flProtectionOutput FAR1 *)outputRecord;

      switch(inputRec->type)
      {
    case PROTECTION_INSERT_KEY:
      ioreq2.irData = inputRec->key;
      outputRec->status = flInsertProtectionKey(&ioreq2);
      break;
    case PROTECTION_REMOVE_KEY:
      outputRec->status = flRemoveProtectionKey(&ioreq2);
      break;
    case PROTECTION_GET_TYPE:
      outputRec->status = flIdentifyProtection(&ioreq2);
      outputRec->protectionType = (FLByte)ioreq2.irFlags;
      break;
    case PROTECTION_DISABLE_LOCK:
      ioreq2.irFlags = 0;
      outputRec->status = flHardwareProtectionLock(&ioreq2);
      break;
    case PROTECTION_ENABLE_LOCK:
      ioreq2.irFlags = LOCK_ENABLED;
      outputRec->status = flHardwareProtectionLock(&ioreq2);
      break;
    case PROTECTION_CHANGE_KEY:
      ioreq2.irData = inputRec->key;
      outputRec->status = flChangeProtectionKey(&ioreq2);
      break;
    case PROTECTION_CHANGE_TYPE:
      ioreq2.irFlags = inputRec->protectionType;
      outputRec->status = flChangeProtectionType(&ioreq2);
      break;
    default:
      outputRec->status = flBadParameter;
      break;
      }
      return outputRec->status;
    }
#endif /* HW_PROTECTION */
#ifdef HW_OTP
    case FL_IOCTL_OTP:
    {
      flOtpInput           FAR1 *inputRec  = (flOtpInput FAR1 *)inputRecord;
      flOutputStatusRecord FAR1 *outputRec = (flOutputStatusRecord FAR1 *)outputRecord;