NAND_FDM.h
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/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2005
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
* OR REFUND ANY SOFTWARE LICENSE FEES OR SERVICE CHARGE PAID BY BUYER TO
* MEDIATEK FOR SUCH MEDIATEK SOFTWARE AT ISSUE.
*
* THE TRANSACTION CONTEMPLATED HEREUNDER SHALL BE CONSTRUED IN ACCORDANCE
* WITH THE LAWS OF THE STATE OF CALIFORNIA, USA, EXCLUDING ITS CONFLICT OF
* LAWS PRINCIPLES. ANY DISPUTES, CONTROVERSIES OR CLAIMS ARISING THEREOF AND
* RELATED THERETO SHALL BE SETTLED BY ARBITRATION IN SAN FRANCISCO, CA, UNDER
* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*******************************************************************************
*
* Filename:
* ---------
* NAND_FDM.h
*
* Project:
* --------
* MAUI
*
* Description:
* ------------
* This is a NAND FDM header file
*
* Author:
* -------
* -------
*
*==============================================================================
* HISTORY
* Below this line, this part is controlled by PVCS VM. DO NOT MODIFY!!
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*==============================================================================
*******************************************************************************/
#ifndef NAND_FDM_H
#define NAND_FDM_H
/*******************************************************************************
* Include Header Files
* FLASH_DISKDRV_DEBUG indicates simulation environment
*******************************************************************************/
#ifdef __MTK_TARGET__ //Keneng
#include "flash_opt.h"
#endif
#if defined(FLASH_DISKDRV_DEBUG) && !defined(__MTK_TARGET__)
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#else
// RHR Remove #include "kal_release.h"
#endif
// RHR Remove #include <string.h>
// Add for RHR
#include "fs_type.h"
// RHR Remove #include "kal_non_specific_general_types.h"
#include "kal_general_types.h"
// Add for RHR
/*******************************************************************************
* Compiler definition
*******************************************************************************/
#if defined(__MTK_TARGET__)
#ifdef __DYNAMIC_SWITCH_CACHEABILITY__
#define __nandfdm_cache_align(x) __attribute__ ((aligned(x), zero_init, section ("DYNAMICCACHEABLEZI_C")))
#else
#define __nandfdm_cache_align(x)
#endif
#else /* __MTK_TARGET__ */
#define __nandfdm_cache_align(x)
#endif /* __MTK_TARGET__ */
/*******************************************************************************
* parameter definition
*******************************************************************************/
//#define POWERLOSS_TEST // power recovery test in simulation
//#define ERROR_HANDLING_TEST // error handling test in simulation
#define DDWORD_INVALID ((kal_uint64)~0)
#define DWORD_INVALID 0xFFFFFFFF
#define WORD_INVALID 0xFFFF
#define BYTE_INVALID 0xFF
#define FDM_ERROR 1
#define FDM_NO_ERROR 0
/* Public drive size customization constraints */
#define NAND_MINIMUM_PARTITION_SIZE (400)
#define MAX_DATA_SIZE 2048 // Max NAND page size used for MMU.
#if defined(__NAND_FDM_50__)
#include "NAND_MTD_FDM50_internal.h"
#include "nand_dal.h"
#include "nand_dal_internal.h"
// If support RAW disk
#define RAW_DISK_INDEX 5
#define NUM_ACTIVESLOT 5
#define NUM_ACTIVESECT 4 // This number should be one less than NUM_ACTIVESLOT because need to consider the power-loss.
// Block mark in spare area.
#define BM_LBM 0x6688
#define BM_PMT 0x8866
#define BM_NONBMR 0xf0d0
#define BM_BRMT 0x0d0f
#define BM_FDM4XCTL 0xf00f
#define BRMT_FDM52 0x5200
#define BM_RAW 0x7264 // Raw disk, rd
// Newest data location.
#define SOURCEDATA_NONBMR 0
#define SOURCEDATA_BMR 1
#define SOURCEDATA_DATA 2
#define R_SHIFT 10 // Region shift bit number.
#define LSMT_SECTORNUM 5 // 2K for LSMT and 512 for active block information.
#define LSMT_SIZE 1024
#define BRMT_SIZE 256 // The number of entries in BRMT load into RAM one time.
#define PMT_SIZE 512 // The number of entries in PMT.
#define NUM_OF_ZONES 8
#define NUM_OF_BANK 8
#define NUM_OF_REGION 8 //** Max number of regions per zone. This is used to save LSMT block address.
#define PSECTION_NUM_R 1024
#define LSECTION_NUM_R 1010
#define NUM_ERASE_QUEUE 14
#define BMR_THRESHOLD 16
#define LSMT_EMPTY 0x8000
#define LSMT_NOT_EMPTY 0x7fff
#define LSMT_NOT_REMAP 0x4000
#define LSMT_REMAP 0xbfff
#define LSMT_SS 0x3000
#define LSMT_VALID 0x0800
#define LSMT_PSA 0x07ff
#define NONBMR_INVALID 0
#define NONBMR_ONLYVALID_AFTER_BMRLAST 1
#define NONBMR_VALID 2
#ifdef __MTK_TARGET__
extern kal_bool INT_QueryExceptionStatus(void);
#endif
// Structure definition for FDM
typedef struct
{
kal_uint16 LSectionAddr;
kal_uint16 BMR_PSection;
kal_uint16 BMR_LastPage;
kal_uint16 NonBMR_PSection;
kal_uint16 NonBMR_LastPage;
kal_uint16 NonBMR_TablePage;
kal_uint16 NumNoUse;
} ACTIVE_INFO;
typedef struct
{
kal_uint16 PSectionAddr;
kal_uint16 EmptyPageAddr;
kal_uint8 CurActive;
} PMT_INFO;
typedef struct
{
kal_uint32 total_FAT_sectors; // total sectors that FAT can use
kal_uint32 partition_sectors; // partiton sectors that FAT can use
} FAT_INFO;
typedef struct
{
kal_uint16 PSect;
kal_uint16 Page;
} LSMT_INFO;
typedef struct
{
kal_uint16 SectionBuf[16];
kal_uint8 Head;
kal_uint8 Tail;
} ERASE_QUEUE;
typedef struct
{
kal_uint8 Zone;
kal_uint8 NewZone;
kal_uint8 Region;
kal_uint8 NewRegion;
kal_uint16 LSect;
kal_uint16 PSect;
kal_uint16 LPage;
kal_uint16 PPage;
} ADDR_INFO;
typedef struct
{
kal_uint16 LSectAddr;
kal_uint16 NumCycles;
} WEAR_INFO;
#if defined(__NANDFDM_TOTAL_BBM__)
typedef union _FDMTABLE {
struct {
kal_uint32 Sector[1024];
} All;
struct {
kal_uint16 LSM[LSMT_SIZE]; // Map logical to physical block.
kal_uint16 PMT[PMT_SIZE]; // Map logical to physical page. Need to enlarge in case of MLC+interleave+2P (128*2*2)
// kal_uint16 BRMT[BRMT_SIZE]; // Map bad block into good block in replacement area.
kal_uint16 RESERVRD[BRMT_SIZE]; // Map bad block into good block in replacement area.
kal_uint16 Buffer[256]; // Temp buffer.
} T;
struct {
kal_uint16 BRMT[2048]; // Low level format use. One time 4K write for future 4K page flash.
} A;
struct {
kal_uint8 Sector[8][512];
} S;
} FDM_TABLE;
typedef struct
{
kal_uint8 RegionNum;
kal_uint16 LSectionNum;
kal_uint16 PSectionNumLastR;
kal_uint16 LSectionNumLastR;
kal_uint16 RegionInitMask;
LSMT_INFO LSMT[NUM_OF_REGION];
} ZONE_INFO;
typedef struct
{
kal_bool ParameterReady;
kal_bool NoReplace;
kal_uint16 BRMT_Addr;
kal_uint16 BRMT_LastPSection; // Global , must be (0x8000|xxxx)
kal_uint16 ReplaceBeginSection; // Global , must be (0x8000|xxxx)
kal_uint16 ReplaceBlockBegin[NUM_OF_BANK]; // Global , must be (0x8000|xxxx)
kal_uint16 CurSectorInRAM;
kal_uint16 LastPage;
kal_uint16 BRMT_Table[BRMT_SIZE]; // Map bad block into good block in replacement area.
} BBM_BRMT_INFO;
typedef struct
{
kal_uint8 PageNumInBuffer;
kal_uint8 CurActive;
kal_bool NeedRebuildAll;
kal_bool WriteProtect;
kal_bool PMTInRAMModified;
kal_bool NewActive;
kal_uint16 TotalPSectionNum;
ERASE_QUEUE EraseQueue;
ZONE_INFO ZoneInfo[NUM_OF_ZONES];
ACTIVE_INFO ActiveInfo[NUM_ACTIVESLOT];
FDM_TABLE FDMTable;
PMT_INFO PMTInfo;
WEAR_INFO WearInfo;
kal_uint16 DATA_PSection;
kal_uint16 DataBank[NUM_OF_BANK];
kal_uint16 NewBank[NUM_OF_BANK];
kal_uint16 BMRBank[NUM_OF_BANK];
kal_uint16 NonBMRBank[NUM_OF_BANK];
kal_uint16 NewPSect;
kal_uint16 ActiveOrder;
#if defined(__NANDFDM_MULTI_INSTANCE__)
kal_uint8 DiskIndex;
kal_bool is_mount;
#endif // defined(__NANDFDM_MULTI_INSTANCE__)
} NANDFDM5_DATA;
#else // defined(__NANDFDM_TOTAL_BBM__)
typedef union _FDMTABLE {
struct {
kal_uint32 Sector[1024];
} All;
struct {
kal_uint16 LSM[LSMT_SIZE]; // Map logical to physical block.
kal_uint16 PMT[PMT_SIZE]; // Map logical to physical page. Need to enlarge in case of MLC+interleave+2P (128*2*2)
kal_uint16 BRMT[BRMT_SIZE]; // Map bad block into good block in replacement area.
kal_uint16 Buffer[256]; // Temp buffer.
} T;
struct {
kal_uint16 BRMT[2048]; // Low level format use. One time 4K write for future 4K page flash.
} A;
struct {
kal_uint8 Sector[8][512];
} S;
} FDM_TABLE;
typedef struct
{
kal_uint16 BRMT_Addr[NUM_OF_ZONES];
kal_uint16 ReplaceBlockBegin[NUM_OF_BANK];
kal_uint16 CurSectorInRAM;
kal_uint16 LastPage[NUM_OF_ZONES];
} BRMT_INFO;
typedef struct
{
kal_uint16 LSectionNum;
kal_bool NoReplace;
kal_uint8 ReplaceBeginRegion;
kal_uint16 ReplaceBeginSection;
kal_uint16 PSectionNumLastR;
kal_uint16 LSectionNumLastR;
kal_uint8 RegionNum;
kal_uint16 RegionInitMask;
LSMT_INFO LSMT[NUM_OF_REGION];
} ZONE_INFO;
typedef struct
{
kal_uint8 PageNumInBuffer;
kal_uint8 CurActive;
kal_bool WriteProtect;
kal_bool PMTInRAMModified;
kal_bool NewActive;
kal_uint16 TotalPSectionNum;
ERASE_QUEUE EraseQueue;
ZONE_INFO ZoneInfo[NUM_OF_ZONES];
BRMT_INFO BRMTInfo;
ACTIVE_INFO ActiveInfo[NUM_ACTIVESLOT];
FDM_TABLE FDMTable;
PMT_INFO PMTInfo;
WEAR_INFO WearInfo;
kal_uint16 DATA_PSection;
kal_uint16 DataBank[NUM_OF_BANK];
kal_uint16 NewBank[NUM_OF_BANK];
kal_uint16 BMRBank[NUM_OF_BANK];
kal_uint16 NonBMRBank[NUM_OF_BANK];
kal_uint16 NewPSect;
kal_uint16 ActiveOrder;
#if defined(__NANDFDM_MULTI_INSTANCE__)
kal_uint8 DiskIndex;
kal_bool is_mount;
#endif // defined(__NANDFDM_MULTI_INSTANCE__)
} NANDFDM5_DATA;
#endif // defined(__NANDFDM_TOTAL_BBM__)
typedef struct
{
#ifndef __MTK_TARGET__
const char *file_name;
void *flash_device;
#endif
// kal_uint32 *MainBuf;
// kal_uint32 *SpareBuf;
FAT_INFO flash_info;
#if defined(__NANDFDM_MULTI_INSTANCE__)
NANDFDM5_DATA NAND_FDMData;
FLASH_INFO FlashInfo;
ADDR_INFO CurAddr;
#endif // defined(__NANDFDM_MULTI_INSTANCE__)
} NAND_FLASH_DRV_DATA;
// FDM I/F function declaration
kal_int32 FDM5_MountDevice (void * DriveData, int DeviceNumber, int DeviceType, kal_uint32 Flags);
kal_int32 FDM5_ShutDown (void * DriveData);
kal_int32 FDM5_ReadSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Data);
kal_int32 FDM5_WriteSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Data);
kal_int32 FDM5_MediaChanged (void * DriveData);
kal_int32 FDM5_DiscardSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors);
kal_int32 FDM5_GetDiskGeometry (void * DriveData, FS_PartitionRecord * DiskGeometry, kal_uint8 * MediaDescriptor);
kal_int32 FDM5_LowLevelFormat (void * DriveData, const char * DeviceName, FS_FormatCallback Progress, kal_uint32 Flags);
int FDM5_CopySectors (void *DriveData, kal_uint32 SrcSector , kal_uint32 DstSector, kal_uint32 Sectors);
kal_int32 FDM5_DiskNeedFormat (void * DriveData);
kal_int32 FDM5_OTPAccess (void * DriveData, kal_int32 accesstype, kal_uint32 Offset, void * BufferPtr, kal_uint32 Length);
kal_int32 FDM5_OTPQueryLength (void * DriveData, kal_uint32 *LengthPtr);
kal_int32 FDM5_IOCtrl (void * DriveData, UINT CtrlAction, void * CtrlData);
kal_int32 FDM5_LSN2PPN(void * DriveData, kal_uint32 Sector);
#if defined(_NAND_FLASH_BOOTING_)
kal_uint32 EraseRawDataItem(kal_uint32 block_idx);
kal_uint32 ReadRawDataItem(kal_uint32 block_idx, kal_uint32 page_idx, kal_uint32 length, kal_uint8* data_ptr);
kal_uint32 WriteRawDataItem(kal_uint32 block_idx, kal_uint32 page_idx, kal_uint32 length, kal_uint8* data_ptr);
#endif //#if defined(_NAND_FLASH_BOOTING_)
#if defined(__AUDIO_DSP_LOWPOWER__)
void FDM5_Fill_PSTMap(void * DriveData, FS_NANDPMapQuery *pPSTMapQuery);
#endif //#if defined(__AUDIO_DSP_LOWPOWER__)
typedef enum
{
BLBRMT_ERRCODE_NOERR = 0,
BLBRMT_ERRCODE_BRMT_NOT_FOUND = 0x01,
BLBRMT_ERRCODE_INVALID_BUFSIZE = 0x02,
BLBRMT_ERRCODE_BRMT_READ_ECCERR = 0x03,
BLBRMT_ERRCODE_BRMT_ADDR_ERR = 0x04,
BLBRMT_ERRCODE_BRMT_NO_FREE_BLK = 0x05,
BLBRMT_ERRCODE_BRMT_FDMVER_ERR = 0x06,
BLBRMT_ERRCODE_BRMT_PROGRAM_FAIL = 0x07
}BLBRMT_Error_Code;
kal_uint32 FDM5_BLReadBRMT(kal_uint8 *pBuf, kal_uint32 BufLen, kal_uint32 *ReturnLen);
kal_uint32 FDM5_BLWriteBRMT(kal_uint8 *pBuf, kal_uint32 BufLen);
#else // __NAND_FDM_50__
#include "NAND_MTD.h"
#include "NAND_MTD_internal.h"
#if !defined __NFI_VERSION2__
#define LSN_INVALID (DWORD_INVALID)
#else
#define LSN_INVALID (0x00FFFFFF)
#endif
// FIXME - Remember to rocover correct value check in.
#define POOL_SIZE 12 // used for non-data blocks in a region (double in first region)
#define GC_THRESHOLD 25
#define TRY_TIMES 3
#define MAX_REGION_NUM 72 // max disk volumn = 2GB
#define MAX_PAGES_PER_BLOCK 64
#define MAX_SECTORS_PER_PAGE 4
#define MAX_PAGE_SIZE 2112
#define MAX_SPARE_SIZE 64
#define SECTOR_SIZE 512
#define MAX_CTRL_LOG_NUM 5 /*Max number of control_log block*/
/* page size */
enum
{
PAGE_512,
PAGE_2K
};
/* indicate if write ECC fields while program page */
enum
{
ECC_SKIP = 0, // don't program spare area
ECC_FIRST_HALF, // only program first and second ECC fields
ECC_SECOND_HALF, // only program third and fourth ECC fields
ECC_WHOLE, // program whole ECC fields
ECC_NFB // program whole ECC fields in NFB format
};
/*******************************************************************************
* block/page/sector state ID
*******************************************************************************/
#define BLOCK_EMPTY 0xFF
#define BLOCK_CONTROL 0xFC
#define BLOCK_ALLOCATED 0xAF /*use to avoid double allocate at LocateBlock or LocateEmptyBlock*/
#define BLOCK_ACTIVE 0xAE
#define BLOCK_DATA 0xAC
#define BLOCK_BAD 0x00
#define BLOCK_NG_CONTROL 0xC3
#define BLOCK_CTRL_LOG 0xC0 // Old control block, reserve as a record
#define BLOCK_COPY_DST 0xAA /*copy destination block*/
#define BLOCK_MERGE_BMR0 0xA9 /*active merge destination when BMR = 0*/
#define BLOCK_MERGE_BMR1 0xA8 /*active merge destination when BMR = 1*/
#define BLOCK_ERASING 0x07 /*Ready to erase*/
#define PAGE_EMPTY 0xFF
#define PAGE_DATA 0x0F
#define PAGE_DELETED 0x00
#define PAGE_LOG 0x3F /*For log section - 2007/05/29 Yehudi*/
#define SECTOR_EMPTY 0xFF
#define SECTOR_DATA 0x0F
#define SECTOR_CONTROL 0xF0 // control block header
#define SECTOR_CTRL_LOG 0xC0 // Old control block, reserve as a record
#define SECTOR_BST 0x33 // block status table
#define SECTOR_LBM 0xCC // logical block mapping
#define SECTOR_SPOT 0x55 // yoda add for reserving spot
#define SECTOR_DELETED 0x00
#define SECTOR_LOG 0x3F /*For log section - 2007/05/29 Yehudi*/
/*******************************************************************************
* Macro definition used for code simplification
*******************************************************************************/
#define R_BLOCKS 256 /* Default(Maximun) value of block number of region. REGION_B(b) is the real block number of region(b)*/
#define B_PAGES (D->flash_info.pages_per_block)
#define P_SECTORS ((D->flash_info.page_type==PAGE_2K) ? 4 : 1)
#define DATA_SIZE ((D->flash_info.page_type==PAGE_2K) ? 2048 : 512)
#define SPARE_SIZE ((D->flash_info.page_type==PAGE_2K) ? 64 : 16)
#define LOG_BLOCKS ((D->flash_info.page_type==PAGE_2K) ? 3 : 6) /*Block number of log section - Yehudi*/
#define PAGE_SIZE ((DATA_SIZE)+(SPARE_SIZE))
#define P_SHIFTS ((D->flash_info.page_type==PAGE_2K) ? 2 : 0)
/* region info */
#define CUR_R (D->region_info.current_region)
#define BASE_B (D->region_info.base_block)
#define REGION_B(b) (D->region_info.region_block[(b)]) /*2007/05/26 Yehudi*/
/* control info */
#define LBM(b) (D->control_table.block_mapping[(b)])
#define BST(b) (D->control_table.block_state[(b)])
#define CNT_PB (D->control_info.physical_block)
/* active info */
#define ACT_LB (D->active_info.logical_block)
#define ACT_PB (D->active_info.physical_block)
#define ACT_LPM(p) (D->active_info.page_mapping[(p)])
#define IS_VALID_DATA_BLOCK(b) (LBM(b)!=BYTE_INVALID || (LBM(b)==255 && LBM(255)==b))
#define IS_INVALID_DATA_BLOCK(b)(LBM(b)==BYTE_INVALID && LBM(255) != b)
#define SET_FLAG_FOR_PHY255(log_b,phy_b)\
{\
if( ((kal_uint8)(phy_b)) == 255)\
LBM(255) = (kal_uint8)(log_b);\
}
#define IS_2K_CNTL_TABLE(half,ptr)\
( ((half)==0) && (((spare_2k*)(ptr))->spare[0].SS == SECTOR_BST)\
&& (((spare_2k*)(ptr))->spare[1].SS == SECTOR_LBM) )\
|| ( ((half)==1) && (((spare_2k*)(ptr))->spare[2].SS == SECTOR_BST)\
&& (((spare_2k*)(ptr))->spare[3].SS == SECTOR_LBM) )
#define IS_2K_CNTL_SPOT(half,ptr)\
( ((half)==0) && (((spare_2k*)(ptr))->spare[0].SS == SECTOR_SPOT))\
|| ( ((half)==1) && (((spare_2k*)(ptr))->spare[2].SS == SECTOR_SPOT))
#define IS_2K_NEXT_CNTL_TABLE(half,ptr)\
( ((half)==0) && (((spare_2k*)(ptr))->spare[0].SS == SECTOR_EMPTY)\
&& (((spare_2k*)(ptr))->spare[1].SS == SECTOR_EMPTY) )\
|| ( ((half)==1) && (((spare_2k*)(ptr))->spare[2].SS == SECTOR_EMPTY)\
&& (((spare_2k*)(ptr))->spare[3].SS == SECTOR_EMPTY) )
#define IS_512_CNTL_TABLE(spare0,spare1)\
spare_512_PS(spare0)==SECTOR_BST && spare_512_PS(spare1)==SECTOR_LBM
#define IS_512_CNTL_SPOT(spare0,spare1)\
spare_512_PS(spare0)==SECTOR_SPOT
#define IS_512_NEXT_CNTL_TABLE(spare0,spare1)\
spare_512_PS(spare0)==SECTOR_EMPTY && spare_512_PS(spare1)==SECTOR_EMPTY
/* MTK FDM signature mark */
#define BAD_BLOCK_MARK_2K (0x4242)
#define BAD_BLOCK_MARK_512 (0x42)
#define MTK_SIGNATURE_MARK (0x4B544D)
#define FDM_SIGNATURE_MARK (0x4D4446)
#define FDM_CHECK_MARK_1 (0xF0)
#define FDM_CHECK_MARK_2 (0x0F)
#define FDM_NG_CONTROL_BLOCK_MARK (0x8000) /*This mark means the correct control block does not exist - Yehudi*/
#define FDM_TABLE_MARK_POSITION (2) /*Use by Control Table*/
/* MTK NAND FDM control block header layout */
#define FDM_CONTROL_BACKUP_POSITION (256)
#define FDM_RESERVED_POOL_SIZE_POSITION (64) /*Reserve 4 byte - Yehudi*/
#define FDM_VERSION_POSITION (68) /*Reserve 4 byte - Yehudi*/
//#define FDM_REGION_BLOCK_POSITION (72) /*Reserve 4 byte - Yehudi*/
//#define FDM_TIME_INFO_POSITION (76) /*Reserve 8 byte - Yehudi*/
//#define FDM_CBLK_PROGRAM_COUNT_POSITION (80) /*Reserve 4 byte - Yehudi*/
/*******************************************************************************
* structure definition for spare area of 2k/512 page-size
*******************************************************************************/
#ifdef __MTK_TARGET__
extern kal_bool INT_QueryExceptionStatus(void);
#else
#define INT_QueryExceptionStatus() (KAL_FALSE)
// pragma is used for specific bytes in a structure
#pragma pack(1)
#endif
typedef struct control_block_header_tag
{
kal_uint8 mtk_fdm_mark[64];
kal_uint8 erase_pool_size; /*position 64*/
kal_uint8 reserve1[3];
kal_uint16 version_info; /*position 68*/
kal_uint8 reserve2[2];
kal_uint16 cur_region_block; /*position 72*/
kal_uint16 next_region_block; /*position 74*/
kal_uint32 create_time; /*position 76*/
kal_uint64 program_count; /*position 80 (position at 8 byte alignment for PC )*/
}control_block_header; /*The total size should not over FDM_CONTROL_BACKUP_POSITION - Yehudi*/
#if !defined __NFI_VERSION2__
typedef struct spare_2k_component_tag
{
kal_uint16 BI; // block info
kal_uint8 SS; // sector state
kal_uint8 Reserved0;
kal_uint32 LSN; // logical sector number
kal_uint32 ECC;
kal_uint16 Reserved; /*In FDM 4.3, spare[2].Reserved & spare[3].Reserved will put fdm_data_time_info_struct*/
kal_uint16 LSN_Chk;
} spare_2k_component;
/* Use spare[3]'s Reserved0 as page state */
#define spare_2k_PS(p) ( ((spare_2k*)(p))->spare[3].Reserved0 )
#define spare_2k_LCHK(p, s) ( ((spare_2k*)(p))->spare[s].LSN_Chk )
#define spare_2k_VER(p) ( ((spare_2k*)(p))->spare[0].LSN_Chk )
#define spare_2k_HCHK(p) ( ((spare_2k*)(p))->spare[0].Reserved0 )
#else
typedef struct spare_2k_component_tag
{
kal_uint16 BI; // block info
kal_uint8 PC; // Page state/FDM_Chk_MARK
kal_uint8 SS; // sector state
kal_uint32 LSN:24; // logical sector number
kal_uint32 LSN_Chk:8; // logical sector number chksum
kal_uint32 ECC[2];
} spare_2k_component;
#define spare_2k_PS(p) ( ((spare_2k*)(p))->spare[3].PC )
#define spare_2k_LCHK(p, s) ( ((spare_2k*)(p))->spare[s].LSN_Chk )
#define spare_2k_HCHK(p) ( ((spare_2k*)(p))->spare[0].PC )
#endif
typedef struct spare_2k_tag
{
spare_2k_component spare[4];
} spare_2k;
#if !defined __NFI_VERSION2__
typedef struct spare_512_tag
{
kal_uint32 ECC;
kal_uint8 SS; // sector state
kal_uint8 BI; // block info
kal_uint8 Reserved[4]; /*In FDM 4.3, it will put fdm_data_time_info_struct*/
kal_uint16 LSN_Chk;
kal_uint32 LSN; // logical sector number
} spare_512;
#define spare_512_PS(p) ( ((spare_512*)(p))->SS )
#define spare_512_LCHK(p) ( ((spare_512*)(p))->LSN_Chk )
#define spare_512_VER(p) ( ((spare_512*)(p))->LSN_Chk )
#define spare_512_HCHK(p) ( ((spare_512*)(p))->Reserved[0] )
#else
typedef struct spare_512_tag
{
kal_uint32 LSN:24; // logical sector number
kal_uint32 LSN_Chk:8; // logical sector number chksum
kal_uint8 Reserved[1];
kal_uint8 BI; // block info
kal_uint8 PC; // FDM_Chk_MARK
kal_uint8 SS; // sector state
kal_uint32 ECC[2];
} spare_512;
#define spare_512_PS(p) ( ((spare_512*)(p))->SS )
#define spare_512_LCHK(p) ( ((spare_512*)(p))->LSN_Chk )
#define spare_512_HCHK(p) ( ((spare_512*)(p))->PC )
#endif
#ifndef __MTK_TARGET__
#pragma pack()
#endif
/*******************************************************************************
* structure definition for driver data
*******************************************************************************/
typedef enum
{
BBMARK_1, // First and second page of each block.
BBMARK_2 // First and last page of each block.
} BBMARK_STYLE;
typedef struct flash_info_tag
{
kal_uint32 id_data[2];
kal_uint16 block_num; /*total FAT block number, not include log block - Yehudi*/
kal_uint8 region_num;
kal_uint8 pages_per_block;
kal_uint8 page_type;
kal_uint8 address_cycle;
kal_uint8 io_width;
kal_uint8 log_block; /*block number of log section - Yehudi*/
kal_uint16 bad_num;
kal_uint32 total_FAT_sectors; // total sectors that FAT can use
kal_uint32 partition_sectors; // partiton sectors that FAT can use
kal_uint32 region_sectors[MAX_REGION_NUM]; // LBB design
kal_uint32 TotalSize;
BBMARK_STYLE BBMarkStyle;
} flash_info_struct;
typedef struct region_info_tag
{
kal_uint16 control_block[MAX_REGION_NUM];
kal_uint16 region_block[MAX_REGION_NUM+1]; /*block number of the region - Yehudi*/
kal_uint32 base_block;
/* Adjust to be 4 byte alignment */
kal_uint8 control_next_index[MAX_REGION_NUM]; // next programmable page
kal_uint8 current_region;
kal_uint8 erase_pool[MAX_REGION_NUM]; // LBB design
kal_uint32 base_LSN;
kal_uint32 end_LSN;
} region_info_struct;
typedef struct control_info_tag
{
kal_uint16 physical_block;
kal_uint8 next_index; // next programmable page index ?? -- kirk
kal_uint8 modified_flag;
kal_uint16 version;
} control_info_struct;
typedef struct control_table_tag
{
kal_uint8 block_state[R_BLOCKS]; // physical block state
kal_uint8 erase_count[R_BLOCKS]; // erase count of physical block
kal_uint8 block_mapping[R_BLOCKS]; // map logical to physical block
} control_table_struct;
typedef struct ctrl_table_extra_info_tag
{
kal_uint8 reserve1[2];
kal_uint8 table_mark; /* controbl table mark, must at position FDM_TABLE_MARK_POSITION*/
kal_uint8 reserve2[9];
kal_uint32 create_time; /*position 12*/
kal_uint64 program_count; /*position 16 (position at 8 byte alignment for PC )*/
kal_uint16 active_logical_block;
kal_uint16 active_physical_block;
kal_uint8 active_bmr_flag;
kal_uint8 active_next_index; // next programmable page index
kal_uint32 code_md5[16/4]; /*position 32: MD5 of BST and LBM, size must match 2rd parameter of CHE_md5_finish() */ /*MAUI_00618203*/
}ctrl_table_extra_info;
typedef enum
{
CLOSE_REGION_MARK = 0x20,
NORMAL_SHUTDOWN_MARK = 0x31,
MERGEACTIVE_MARK1 = 0x40,
MERGEACTIVE_MARK2 = 0x42,
MERGEACTIVE_MARK3 = 0x44,
RECONSTRUCTED_MARK = 0x52,
COPY_MARK = 0x60,
SPOT_MARK = 0x62,
NONE_MARK = 0xFF
} ControblTableMark;
typedef struct active_info_tag
{
kal_uint16 logical_block; // logical number of active block
kal_uint16 physical_block; // physical number of active block
kal_uint8 next_index; // next programmable page index
kal_uint8 bmr_flag; // indicate if active block fits block mappingn rule
/*kal_uint8 first_page;*/
kal_uint8 page_mapping[MAX_PAGES_PER_BLOCK]; // map logical to physical page
} active_info_struct;
typedef struct sequential_info_tag
{
kal_uint16 physical_block; // which physical block this information is for.
kal_uint8 last_index; // The page offset on which the last programming operation is performed.
} seq_info_struct;
typedef struct dup_block_tag
{
kal_uint16 l_block;
kal_uint16 p_block;
} dup_block_struct;
typedef struct
{
NAND_MTD_DRIVER * MTD;
#ifndef __MTK_TARGET__
const char * file_name;
void * flash_device;
#endif
flash_info_struct flash_info;
region_info_struct region_info;
control_info_struct control_info;
control_table_struct control_table;
active_info_struct active_info;
seq_info_struct seq_info;
kal_uint32 buffer[MAX_PAGE_SIZE/sizeof(kal_uint32)];
kal_uint32 spare0[MAX_SPARE_SIZE/sizeof(kal_uint32)];
kal_uint32 spare1[MAX_SPARE_SIZE/sizeof(kal_uint32)];
//kal_uint32 badspare[MAX_SPARE_SIZE/sizeof(kal_uint32)];//TODO: should check whether this is necessary
} NAND_FLASH_DRV_DATA;
typedef struct fdm_global_time_info_tag
{
kal_uint32 Second:6;
kal_uint32 Minute:6;
kal_uint32 Hour:5;
kal_uint32 Day:5;
kal_uint32 Month:4;
kal_uint32 Year2000:6;
} fdm_global_time_info_struct;
typedef struct fdm_data_time_info_tag
{
kal_uint32 Count:9;
kal_uint32 Second:6;
kal_uint32 Minute:6;
kal_uint32 Hour:5;
kal_uint32 Day:5;
kal_uint32 Month:1;
} fdm_data_time_info_struct;
typedef struct fdm_log_section_info_tag
{
kal_uint8 is_init;
kal_uint32 log_start_page;
kal_uint32 total_page_num;
kal_uint32 cur_page;
kal_uint64 program_count; /*position 16 (position at 8 byte alignment for PC simulator) */
kal_uint32 buffer[MAX_PAGE_SIZE/sizeof(kal_uint32)];
kal_uint32 spare0[MAX_SPARE_SIZE/sizeof(kal_uint32)];
kal_uint32 spare1[MAX_SPARE_SIZE/sizeof(kal_uint32)];
} fdm_log_section_info_struct;
/*******************************************************************************
* Definition for power loss test
*******************************************************************************/
#if defined(FLASH_DISKDRV_DEBUG) && defined(POWERLOSS_TEST)
enum
{
MERGE_ACTIVE = 1,
COPY_BLOCK,
WRITE_SECTORS,
FLUSH_TABLE,
};
#include <setjmp.h>
extern jmp_buf mark;
extern int Test_CD_Value;
#define TEST_POINT(a)\
{\
switch(a)\
{\
case MERGE_ACTIVE:\
Test_CD_Value-=1;\
break;\
case COPY_BLOCK:\
Test_CD_Value-=1;\
break;\
case WRITE_SECTORS:\
Test_CD_Value-=1;\
break;\
case FLUSH_TABLE:\
Test_CD_Value-=1;\
break;\
default:\
Test_CD_Value-=1;\
break;\
}\
if(Test_CD_Value <= 0)\
longjmp(mark, a);\
}
#define START_POINT setjmp(mark)
#else
#define TEST_POINT(a)
#define START_POINT
#endif
#if defined(FLASH_DISKDRV_DEBUG) && defined(ERROR_HANDLING_TEST)
/* for error handling test */
extern void ProgramPageFailure(kal_int32 times);
extern void ProgramSpareFailure(kal_int32 times);
extern void BlockEraseFailure(kal_int32 times);
extern void ReadPageFailure(kal_int32 times);
extern void ReadSpareFailure(kal_int32 times);
typedef enum
{
PAGE_WRITE,
SPARE_WRITE,
PAGE_READ,
SPARE_READ,
BLOCK_ERASE,
TOTAL_OPERATIONS
} Operation_Type;
typedef enum
{
WRITEDATA_ACTIVE = 0,
WRITEDATA_BLOCK,
COPY_BLOCK,
FLUSH_TABLE,
MODIFY_TABLE,
MERGE_ACTIVE,
DELETE_PAGE,
MARK_BAD_BLOCK,
DISCARD_SECTOR,
INITIALIZE_REGION_DATA,
READSECTOR_512,
READ_SECTOR_2K,
READ_TABLE,
READDATA_ACTIVE,
READDATA_BLOCK,
FIND_CONTROL_BAD_BLOCK,
ERASE_BLOCK,
FIND_TABLE,
BLOCK_BMR,
DELETEDATA_ACTIVE,
DELETEDATA_BLOCK,
POWER_RECOVERY,
RECONSTRUCT_TABLE,
RESTORE_DD,
TOTAL_FUNCTIONS
} ErrorHandling_TestCase;
typedef struct
{
kal_uint32 triggered; // test enabled or not
kal_uint32 step_id; // determine which step is allowed to go
ErrorHandling_TestCase case_type;
Operation_Type op_type;
} test_command;
extern test_command test_item[];
#define TEST_ERROR_ENABLE(function, operation, step)\
{\
test_item[function].triggered = 1;\
test_item[function].op_type = operation;\
test_item[function].case_type = function;\
test_item[function].step_id = step;\
}
#define TEST_ERROR_DISABLE(function, operation, step)\
{\
if( (function == test_item[function].case_type) &&\
(step == test_item[function].step_id) )\
{\
test_item[function].triggered = 0;\
test_item[function].op_type = TOTAL_OPERATIONS;\
test_item[function].case_type = TOTAL_FUNCTIONS;\
test_item[function].step_id = 0;\
}\
}
/* assert( function == test_item[function].case_type);\*/
#define TEST_ERROR_EVENT(function, step)\
{\
if( test_item[function].triggered )\
{\
if( step == test_item[function].step_id )\
{\
if( PAGE_WRITE == test_item[function].op_type )\
{\
nandlog_print("Page program error is triggered!\n");\
ProgramPageFailure(1);\
test_item[function].triggered = 0;\
}else if( SPARE_WRITE == test_item[function].op_type )\
{\
nandlog_print("Spare program error is triggered!\n");\
ProgramSpareFailure(1);\
test_item[function].triggered = 0;\
} else if( PAGE_READ == test_item[function].op_type )\
{\
nandlog_print("Page read error is triggered!\n");\
ReadPageFailure(1);\
test_item[function].triggered = 0;\
} else if( SPARE_READ == test_item[function].op_type )\
{\
nandlog_print("Spare read error is triggered!\n");\
ReadSpareFailure(1);\
test_item[function].triggered = 0;\
} else if (BLOCK_ERASE == test_item[function].op_type)\
{\
nandlog_print("Block erase error is triggered!\n");\
BlockEraseFailure(1);\
test_item[function].triggered = 0;\
}\
}\
}\
}
#else
#define TEST_ERROR_EVENT(function, step)
#define TEST_ERROR_ENABLE(function, operation, step) //Keneng
#define TEST_ERROR_DISABLE(function, operation, step) //Keneng
#endif
/*******************************************************************************
* FDM function declaration
*******************************************************************************/
kal_int32 MountDevice (void * DriveData, int DeviceNumber, int DeviceType, kal_uint32 Flags);
kal_int32 ShutDown (void * DriveData);
kal_int32 ReadSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Data);
kal_int32 WriteSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Data);
kal_int32 MediaChanged (void * DriveData);
kal_int32 DiscardSectors (void * DriveData, kal_uint32 Sector, kal_uint32 Sectors);
kal_int32 GetDiskGeometry (void * DriveData, FS_PartitionRecord * DiskGeometry, kal_uint8 * MediaDescriptor);
kal_int32 LowLevelFormat (void * DriveData, const kal_char * DeviceName, FS_FormatCallback Progress, kal_uint32 Flags);
kal_int32 PowerOnAssert_DriveFormat(void * DriveData);
int CopySectors(void *DriveData, kal_uint32 SrcSector , kal_uint32 DstSector, kal_uint32 Sectors);
kal_int32 FDM4_OTPAccess (void * DriveData, kal_int32 accesstype, kal_uint32 Offset, void * BufferPtr, kal_uint32 Length);
kal_int32 FDM4_OTPQueryLength (void * DriveData, kal_uint32 *LengthPtr);
kal_int32 FDM4_IOCtrl(void * DriveData, UINT CtrlAction, void * CtrlData);
/*******************************************************************************
* Sub-function declaration
*******************************************************************************/
kal_int32 FindControlBadBlock(NAND_FLASH_DRV_DATA * D, kal_uint8 * control_num);
kal_uint8 IsGoodBlock(NAND_FLASH_DRV_DATA * D, void * Spare);
kal_uint8 ReadSector_512(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector, kal_uint8 * Data);
kal_uint8 ReadSector_2k(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector, kal_uint32 read_sectors, kal_uint8 * Data);
kal_uint8 WriteSector_512(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector, kal_uint8 * Data);
kal_uint8 WriteSector_2k(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector, kal_uint32 write_sectors, kal_uint8 * Data);
kal_uint32 MapSector(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector);
void LocateRegion(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector);
kal_uint8 InitializeRegionData_byReadTableInfo(NAND_FLASH_DRV_DATA * D);
void InitializeRegionData(NAND_FLASH_DRV_DATA * D);
void SelfFormat(NAND_FLASH_DRV_DATA * D, kal_int32 DeviceType);
kal_uint8 DeletePage(NAND_FLASH_DRV_DATA * D, kal_uint32 PageIndex);
kal_uint8 EraseBlock(NAND_FLASH_DRV_DATA *D, kal_uint32 BlockIndex);
kal_uint8 MarkBadBlock(NAND_FLASH_DRV_DATA * D, kal_uint32 BlockIndex);
kal_uint8 LocateBlock(NAND_FLASH_DRV_DATA *D);
kal_uint8 LocateEmptyBlock(NAND_FLASH_DRV_DATA *D);
kal_uint8 CopyBlock(NAND_FLASH_DRV_DATA *D, kal_uint8 sourceB, kal_uint8 sourceP, kal_uint8 *destinationB, kal_uint8 destinationP, kal_uint8 num);
kal_int32 FlushTable(NAND_FLASH_DRV_DATA *D, ControblTableMark mark_flag);
kal_uint8 ModifyTable(NAND_FLASH_DRV_DATA *D);
kal_bool FindTable(NAND_FLASH_DRV_DATA *D);
kal_uint8 ReadTable(NAND_FLASH_DRV_DATA *D);
kal_uint8 Read_FoundTable(NAND_FLASH_DRV_DATA *D);
void LocatePage(NAND_FLASH_DRV_DATA * D, kal_uint32 Sector, kal_bool readback);
kal_bool BlockBMR(NAND_FLASH_DRV_DATA *D, kal_uint16 Block , kal_uint8 Offset);
kal_uint32 Writedata_Active(NAND_FLASH_DRV_DATA * D, kal_uint8 Offset, kal_uint8 * Data, kal_uint8 * Spare);
kal_uint32 Writedata_Block(NAND_FLASH_DRV_DATA * D, kal_uint16 Block, kal_uint8 Offset, kal_uint8 * Data, kal_uint8 * Spare);
void Deletedata_Active(NAND_FLASH_DRV_DATA *D, kal_uint8 Offset);
void Deletedata_Block(NAND_FLASH_DRV_DATA *D, kal_uint16 Block, kal_uint8 Offset);
void Readdata_Active(NAND_FLASH_DRV_DATA *D, kal_uint8 Offset);
void Readdata_Block(NAND_FLASH_DRV_DATA *D, kal_uint16 Block, kal_uint8 Offset);
void MergeActive(NAND_FLASH_DRV_DATA *D);
void PowerRecovery(NAND_FLASH_DRV_DATA * D);
void ReconstructTable(NAND_FLASH_DRV_DATA * D, dup_block_struct dupB[2][2]);
void DeleteAllControlBlock(NAND_FLASH_DRV_DATA * D);
void ReconstructAllTable(NAND_FLASH_DRV_DATA * D);
void RestoreAD(NAND_FLASH_DRV_DATA * D, dup_block_struct *dupB, kal_uint8 PageState0);
void RestoreDD(NAND_FLASH_DRV_DATA * D, dup_block_struct *dupB);
kal_uint8 CreateControlBlock (NAND_FLASH_DRV_DATA* D);
kal_uint8 LimitControlLogBlockNumber (NAND_FLASH_DRV_DATA* D);
kal_bool MarkControlLogBlock(NAND_FLASH_DRV_DATA* D, kal_uint32 BlockOffset);
kal_bool Find_TableNewestProgramCounter (NAND_FLASH_DRV_DATA * D, kal_uint8 region);
kal_uint8 LogSectionInit (NAND_FLASH_DRV_DATA * D);
kal_uint8 WriteLog (NAND_FLASH_DRV_DATA * D, kal_char* message);
void SC(NAND_FLASH_DRV_DATA * D);
void SC_UT(NAND_FLASH_DRV_DATA * D);
#endif //__NAND_FDM_50__
/******************************************************************************
* SuperAND flash device definition *
******************************************************************************/
#if defined(WIN32) && defined(TRACE_ON)
#define FDM_TRACE printf
#else
#define FDM_TRACE
#endif
#define SUPERAND_SECTOR_SIZE 2048
#define SUPERAND_FAT_API_ENTRANCE \
Sector += D->first_fat_sector_offset;
typedef struct
{
SuperAND_MTD_DRIVER * MTD;
#ifndef __MTK_TARGET__
const char * file_name;
void * flash_device;
#endif
kal_uint8 io_width;
kal_uint32 pages_of_first_device;
kal_uint32 pages_of_block;
kal_uint32 block_mask;
kal_uint32 total_pages;
kal_uint32 first_fat_sector_offset;
kal_uint32 total_fat_sectors;
kal_uint32 partition_sectors;
kal_uint32 buffer[SUPERAND_SECTOR_SIZE/sizeof(kal_uint32)];
} SuperAND_FLASH_DRV_DATA;
#define SUPERAND_MOUNTED 0x1000
void SuperAND_FDM_Init(void);
void SuperAND_SelfFormat(SuperAND_FLASH_DRV_DATA *D, kal_int32 DeviceType);
kal_int32 SuperAND_FDM_MountDevice(void * DriveData, int DeviceNumber, int DeviceType, kal_uint32 Flags);
kal_int32 SuperAND_FDM_ShutDown(void * DriveData);
kal_int32 SuperAND_FDM_ReadSectors(void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Buffer);
kal_int32 SuperAND_FDM_WriteSectors(void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Buffer);
kal_int32 SuperAND_FDM_MediaChanged(void * DriveData);
kal_int32 SuperAND_FDM_DiscardSectors(void * DriveData, kal_uint32 Sector, kal_uint32 Sectors);
kal_int32 SuperAND_FDM_GetDiskGeometry(void * DriveData, FS_PartitionRecord * DiskGeometry, kal_uint8 * MediaDescriptor);
kal_int32 SuperAND_FDM_GetDiskGeometry(void * DriveData, FS_PartitionRecord * DiskGeometry, kal_uint8 * MediaDescriptor);
kal_int32 SuperAND_FDM_LowLevelFormat(void * DriveData, const char * DeviceName, FS_FormatCallback Progress, kal_uint32 Flags);
kal_int32 SuperAND_FDM_NonBlockWriteSectors(void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Buffer);
kal_int32 SuperAND_FDM_RecoverableWriteSectors(void * DriveData, kal_uint32 Sector, kal_uint32 Sectors, void * Buffer);
kal_int32 SuperAND_FDM_ResumeSectorStates(void * DriveData);
kal_int32 SuperAND_FDM_HighLevelFormat(void);
kal_int32 SuperAND_FDM_FlushData(void * DriveData);
kal_int32 SuperAND_FDM_CopySectors(void * DriveData, kal_uint32 SrcSector, kal_uint32 DstSector, kal_uint32 Sectors);
#endif /* NAND_FDM_H */