/****************************************************************************
 * fs/smartfs/smartfs.h
 *
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.  The
 * ASF licenses this file to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance with the
 * License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
 * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.  See the
 * License for the specific language governing permissions and limitations
 * under the License.
 *
 ****************************************************************************/

#ifndef __FS_SMARTFS_SMARTFS_H
#define __FS_SMARTFS_SMARTFS_H

/****************************************************************************
 * Included Files
 ****************************************************************************/

#include <nuttx/config.h>

#include <sys/types.h>
#include <stdint.h>
#include <stdbool.h>

#include <nuttx/mtd/mtd.h>
#include <nuttx/fs/smart.h>

/****************************************************************************
 * Pre-processor Definitions
 ****************************************************************************/

/* SMART Definitions ********************************************************/

/* General SMART organization.  The following example assumes 4 logical
 * sectors per FLASH erase block.  The actual relationship is determined by
 * the FLASH geometry reported by the MTD driver.
 *
 * ERASE LOGICAL                   Sectors begin with a sector header.
 *                                 Sectors may be marked as "released,"
 * BLOCK SECTOR      CONTENTS      pending garbage collection
 *   n   4*n     --+---------------+
 *             Hdr |LLLLLLLLLLLLLLL| Logical sector number (2 bytes)
 *                 |QQQQQQQQQQQQQQQ| Sequence number (2 bytes)
 *                 |SSSSSSSSSSSSSSS| Status bits (1 byte)
 *                 +---------------+
 *                 |TTTTTTTTTTTTTTT| Sector Type (dir or file) (1 byte)
 *                 |NNNNNNNNNNNNNNN| Number of next logical sector in chain
 *                 |UUUUUUUUUUUUUUU| Number of bytes used in this sector
 *                 |               |
 *                 | (Sector Data) |
 *                 |               |
 *       4*n+1   --+---------------+
 *      Sector Hdr |LLLLLLLLLLLLLLL| Logical sector number (2 bytes)
 *                 |QQQQQQQQQQQQQQQ| Sequence number (2 bytes)
 *                 |SSSSSSSSSSSSSSS| Status bits (1 byte)
 *                 +---------------+
 *          FS Hdr |TTTTTTTTTTTTTTT| Sector Type (dir or file) (1 byte)
 *                 |NNNNNNNNNNNNNNN| Number of next logical sector in chain
 *                 |UUUUUUUUUUUUUUU| Number of bytes used in this sector
 *                 |               |
 *                 | (Sector Data) |
 *                 |               |
 *       4*n+2   --+---------------+
 *      Sector Hdr |LLLLLLLLLLLLLLL| Logical sector number (2 bytes)
 *                 |QQQQQQQQQQQQQQQ| Sequence number (2 bytes)
 *                 |SSSSSSSSSSSSSSS| Status bits (1 byte)
 *                 +---------------+
 *          FS Hdr |TTTTTTTTTTTTTTT| Sector Type (dir or file) (1 byte)
 *                 |NNNNNNNNNNNNNNN| Number of next logical sector in chain
 *                 |UUUUUUUUUUUUUUU| Number of bytes used in this sector
 *                 |               |
 *                 | (Sector Data) |
 *                 |               |
 *       4*n+3   --+---------------+
 *      Sector Hdr |LLLLLLLLLLLLLLL| Logical sector number (2 bytes)
 *                 |QQQQQQQQQQQQQQQ| Sequence number (2 bytes)
 *                 |SSSSSSSSSSSSSSS| Status bits (1 byte)
 *                 +---------------+
 *          FS Hdr |TTTTTTTTTTTTTTT| Sector Type (dir or file) (1 byte)
 *                 |NNNNNNNNNNNNNNN| Number of next logical sector in chain
 *                 |UUUUUUUUUUUUUUU| Number of bytes used in this sector
 *                 |               |
 *                 | (Sector Data) |
 *                 |               |
 *  n+1  4*(n+1) --+---------------+
 *      Sector Hdr |LLLLLLLLLLLLLLL| Logical sector number (2 bytes)
 *                 |QQQQQQQQQQQQQQQ| Sequence number (2 bytes)
 *                 |SSSSSSSSSSSSSSS| Status bits (1 byte)
 *                 +---------------+
 *          FS Hdr |TTTTTTTTTTTTTTT| Sector Type (dir or file) (1 byte)
 *                 |NNNNNNNNNNNNNNN| Number of next logical sector in chain
 *                 |UUUUUUUUUUUUUUU| Number of bytes used in this sector
 *                 |               |
 *                 |               |
 *                 |               |
 *               --+---------------+
 *
 * General operation:
 *   Physical sectors are allocated and assigned a logical sector number
 *   and a starting sequence number of zero.
 *
 * SECTOR HEADER:
 *   The sector header (first 5 bytes) tracks the state of each sector and
 *   is used by the SMART MTD block driver.  At the block level, there is
 *   no notion of sector chaining, only allocated sectors within erase
 *   blocks.
 *
 * FILE SYSTEM (FS) HEADER:
 *   The file system header (next 5 bytes) tracks file and directory entries
 *   and chains.
 *
 * SMART Limitations:
 * 1. SMART currently depends on the underlying MTD block driver supporting
 *    single-byte programming operation.  This is due to the method it
 *    uses for marking a sector as "released", committed, etc.
 * 2. Garbage collection can occur when a new sector is allocated or when
 *    existing sector data is overwritten with new data. Thus, occasionally,
 *    file writing may take longer than other times.
 * 3. The implementation currently does not track bad blocks on the device.
 * 4. There is no true wear-leveling implemented yet, though provesion have
 *    been made to reserve logical sectors to allow it to be added using
 *    a "sector aging" tracking mechanism.
 */

/* Values for SMART inode state.
 *
 * SMART_STATE_FILE    - The inode is a valid usable, file
 * INODE_STATE_DELETED - The inode has been deleted.
 * Other values        - The inode is bad and has an invalid state.
 *
 * Care is taken so that the VALID to DELETED transition only involves
 * burning bits from the erased to non-erased state.
 */

#define INODE_STATE_FILE          (CONFIG_NXFFS_ERASEDSTATE ^ 0x22)
#define INODE_STATE_DELETED       (CONFIG_NXFFS_ERASEDSTATE ^ 0xaa)

/* Directory entry flag definitions */

#define SMARTFS_DIRENT_EMPTY      0x8000  /* Set to non-erase state when entry used */
#define SMARTFS_DIRENT_ACTIVE     0x4000  /* Set to erase state when entry is active */
#define SMARTFS_DIRENT_TYPE       0x2000  /* Indicates the type of entry (file/dir) */
#define SMARTFS_DIRENT_DELETING   0x1000  /* Directory entry is being deleted */
#define SMARTFS_DIRENT_RESERVED   0x0E00  /* Reserved bits */
#define SMARTFS_DIRENT_MODE       0x01FF  /* Mode the file was created with */

#define SMARTFS_DIRENT_TYPE_DIR   0x2000
#define SMARTFS_DIRENT_TYPE_FILE  0x0000

/* Number of bytes in the SMART magic sequences */

#define SMART_MAGICSIZE           4

/* Underlying MTD Block driver access functions */

#define FS_BOPS(f)        (f)->fs_blkdriver->u.i_bops
#define FS_IOCTL(f,c,a)   (FS_BOPS(f)->ioctl ? FS_BOPS(f)->ioctl((f)->fs_blkdriver,c,a) : (-ENOSYS))

/* The logical sector number of the root directory. */

#define SMARTFS_ROOT_DIR_SECTOR   3

/* Defines the sector types */

#define SMARTFS_SECTOR_TYPE_DIR   1
#define SMARTFS_SECTOR_TYPE_FILE  2

#ifndef CONFIG_SMARTFS_DIRDEPTH
#  define CONFIG_SMARTFS_DIRDEPTH 8
#endif

/* Buffer flags (when CRC enabled) */

#define SMARTFS_BFLAG_DIRTY       0x01    /* Set if data changed in the sector */
#define SMARTFS_BFLAG_NEWALLOC    0x02    /* Set if sector not written since alloc */

#define SMARTFS_ERASEDSTATE_16BIT (uint16_t) ((CONFIG_SMARTFS_ERASEDSTATE << 8) | \
                                    CONFIG_SMARTFS_ERASEDSTATE)

/* Size of temporary buffer used when a file is zero extended by ftruncate()
 * logic.
 */

#define SMARTFS_TRUNCBUFFER_SIZE 512

#ifndef offsetof
#  define offsetof(type, member) ((size_t)&(((FAR type *)0)->member))
#endif

#ifdef CONFIG_SMARTFS_ALIGNED_ACCESS
#  define SMARTFS_NEXTSECTOR(h)        (smartfs_rdle16(h->nextsector))
#  define SMARTFS_SET_NEXTSECTOR(h, v) smartfs_wrle16(h->nextsector, \
                                            (uint16_t)(v))

#  define SMARTFS_USED(h)              (smartfs_rdle16(h->used))
#  define SMARTFS_SET_USED(h, v)       smartfs_wrle16(h->used, \
                                            (uint16_t)(v))

#else
#  define SMARTFS_NEXTSECTOR(h)        (*((FAR uint16_t *)h->nextsector))
#  define SMARTFS_SET_NEXTSECTOR(h, v) ((*((FAR uint16_t *)h->nextsector)) = \
                                            (uint16_t)(v))

#  define SMARTFS_USED(h)              (*((FAR uint16_t *)h->used))
#  define SMARTFS_SET_USED(h, v)       ((*((FAR uint16_t *)h->used)) = \
                                            (uint16_t)(v))
#endif

#ifdef CONFIG_MTD_SMART_ENABLE_CRC
#define CONFIG_SMARTFS_USE_SECTOR_BUFFER
#endif

/****************************************************************************
 * Public Types
 ****************************************************************************/

/* This structure defines each packed block on the FLASH media */

/* This is an in-memory representation of the SMART inode as extracted from
 * FLASH and with additional state information.
 */

struct smartfs_entry_s
{
  uint16_t          firstsector;  /* Sector number of the name */
  uint16_t          dsector;      /* Sector number of the directory entry */
  uint16_t          doffset;      /* Offset of the directory entry */
  uint16_t          dfirst;       /* 1st sector number of the directory entry */
  uint16_t          flags;        /* Flags, including mode */
  FAR char          *name;        /* inode name */
  uint32_t          utc;          /* Time stamp */
  uint32_t          datlen;       /* Length of inode data */
};

/* This is an on-device representation of the SMART inode as it exists on
 * the FLASH.
 */

struct smartfs_entry_header_s
{
  uint16_t          flags;        /* Flags, including permissions:
                                   *  15:   Empty entry
                                   *  14:   Active entry
                                   *  12-0: Permissions bits */
  int16_t           firstsector;  /* Sector number of the name */
  uint32_t          utc;          /* Time stamp */
  char              name[0];      /* inode name */
};

/* This structure describes the smartfs header at the start of each
 * sector.  It manages the sector chain and used bytes in the sector.
 */

#if defined(CONFIG_MTD_SMART_ENABLE_CRC) && defined(CONFIG_SMART_CRC_32)
struct smartfs_chain_header_s
{
  uint8_t           nextsector[4]; /* Next logical sector in the chain */
  uint8_t           used[4];       /* Number of bytes used in this sector */
  uint8_t           type;          /* Type of sector entry (file or dir) */
};
#elif defined(CONFIG_MTD_SMART_ENABLE_CRC) && defined(CONFIG_SMART_CRC_16)
struct smartfs_chain_header_s
{
  uint8_t           type;          /* Type of sector entry (file or dir) */
  uint8_t           nextsector[2]; /* Next logical sector in the chain */
  uint8_t           used[2];       /* Number of bytes used in this sector */
};
#else
struct smartfs_chain_header_s
{
  uint8_t           type;          /* Type of sector entry (file or dir) */
  uint8_t           nextsector[2]; /* Next logical sector in the chain */
  uint8_t           used[2];       /* Number of bytes used in this sector */
};
#endif

/* This structure describes the state of one open file.  This structure
 * is protected by the volume semaphore.
 */

struct smartfs_ofile_s
{
  FAR struct smartfs_ofile_s *fnext;        /* Supports a singly linked list */
#ifdef CONFIG_SMARTFS_USE_SECTOR_BUFFER
  FAR uint8_t                *buffer;       /* Sector buffer to reduce writes */
  uint8_t                     bflags;       /* Buffer flags */
#endif
  int16_t                     crefs;        /* Reference count */
  mode_t                      oflags;       /* Open mode */
  struct smartfs_entry_s      entry;        /* Describes the SMARTFS inode entry */
  size_t                      filepos;      /* Current file position */
  uint16_t                    currsector;   /* Current sector of filepos */
  uint16_t                    curroffset;   /* Current offset in sector */
  uint16_t                    byteswritten; /* Count of bytes written to currsector
                                             * that have not been recorded in the
                                             * sector yet.  We delay updating the
                                             * used field until the file is closed,
                                             * a seek, or more data is written that
                                             * causes the sector to change.
                                             */
};

/* This structure represents the overall mountpoint state.  An instance of
 * this structure is retained as inode private data on each mountpoint that
 * is mounted with a smartfs filesystem.
 */

struct smartfs_mountpt_s
{
#if defined(CONFIG_SMARTFS_MULTI_ROOT_DIRS) || defined(CONFIG_FS_PROCFS)
  FAR struct smartfs_mountpt_s *fs_next;       /* Pointer to next SMART filesystem */
#endif
  FAR struct inode             *fs_blkdriver;  /* Our underlying block device */
  FAR struct smartfs_ofile_s   *fs_head;       /* A singly-linked list of open files */
  bool                          fs_mounted;    /* true: The file system is ready */
  struct smart_format_s         fs_llformat;   /* Low level device format info */
  FAR char                     *fs_rwbuffer;   /* Read/Write working buffer */
  FAR char                     *fs_workbuffer; /* Working buffer */
  uint8_t                       fs_rootsector; /* Root directory sector num */
};

/****************************************************************************
 * Public Data
 ****************************************************************************/

/****************************************************************************
 * Public Functions Prototypes
 ****************************************************************************/

/* Forward references for utility functions */

struct smartfs_mountpt_s;

/* Utility functions */

int smartfs_mount(FAR struct smartfs_mountpt_s *fs, bool writeable);

int smartfs_unmount(FAR struct smartfs_mountpt_s *fs);

int smartfs_finddirentry(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_entry_s *direntry, FAR const char *relpath,
        FAR uint16_t *parentdirsector, FAR const char **filename);

int smartfs_createentry(FAR struct smartfs_mountpt_s *fs,
        uint16_t parentdirsector, FAR const char *filename,
        uint16_t type,
        mode_t mode, FAR struct smartfs_entry_s *direntry,
        uint16_t sectorno, FAR struct smartfs_ofile_s *sf);

int smartfs_deleteentry(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_entry_s *entry);

int smartfs_countdirentries(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_entry_s *entry);

int smartfs_sync_internal(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_ofile_s *sf);

off_t smartfs_seek_internal(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_ofile_s *sf, off_t offset, int whence);

int smartfs_shrinkfile(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_ofile_s *sf, off_t length);

int smartfs_extendfile(FAR struct smartfs_mountpt_s *fs,
        FAR struct smartfs_ofile_s *sf, off_t length);

uint16_t smartfs_rdle16(FAR const void *val);

void smartfs_wrle16(FAR void *dest, uint16_t val);

uint32_t smartfs_rdle32(FAR const void *val);

void smartfs_wrle32(FAR uint8_t *dest, uint32_t val);

#if defined(CONFIG_FS_PROCFS) && !defined(CONFIG_FS_PROCFS_EXCLUDE_SMARTFS)
FAR struct smartfs_mountpt_s *smartfs_get_first_mount(void);
#endif

#if defined(CONFIG_FS_PROCFS) && !defined(CONFIG_FS_PROCFS_EXCLUDE_SMARTFS)
FAR struct smartfs_mountpt_s *smartfs_get_first_mount(void);
#endif

struct file;        /* Forward references */
struct inode;
struct fs_dirent_s;
struct statfs;
struct stat;

#endif /* __FS_SMARTFS_SMARTFS_H */