Flash Circular Buffer (FCB)

Flash circular buffer provides an abstration through which you can treat flash like a FIFO. You append entries to the end, and read data from the beginning.

Description

Elements in the flash contain the length of the element, the data within the element, and checksum over the element contents.

Storage of elements in flash is done in a FIFO fashion. When user requests space for the next element, space is located at the end of the used area. When user starts reading, the first element served is the oldest element in flash.

Elements can be appended to the end of the area until storage space is exhausted. User has control over what happens next; either erase oldest block of data, thereby freeing up some space, or stop writing new data until existing data has been collected. FCB treats underlying storage as an array of flash sectors; when it erases old data, it does this a sector at a time.

Elements in the flash are checksummed. That is how FCB detects whether writing element to flash completed ok. It will skip over entries which don’t have a valid checksum.

Usage

To add an element to circular buffer:

  • Call fcb_append() to get the location where data can be written. If this fails due to lack of space, you can call fcb_rotate() to make some. And then call fcb_append() again.

  • Use flash_area_write() to write element contents.

  • Call fcb_append_finish() when done. This completes the entry by calculating the checksum.

To read contents of the circular buffer: * Call fcb_walk() with a pointer to your callback function. * Within callback function copy in data from the element using flash_area_read(). You can tell when all data from within a sector has been read by monitoring returned element’s area pointer. Then you can call fcb_rotate(), if you’re done with that data.

Alternatively: * Call fcb_getnext() with 0 in element offset to get the pointer to oldest element. * Use flash_area_read() to read element contents. * Call fcb_getnext() with pointer to current element to get the next one. And so on.

Data structures

This data structure describes the element location in the flash. You would use it figure out what parameters to pass to flash_area_read() to read element contents. Or to flash_area_write() when adding a new element.

struct fcb_entry {
    struct flash_area *fe_area;
    uint32_t fe_elem_off;
    uint32_t fe_data_off;
    uint16_t fe_data_len;
};

Element

Description

fe_area

Pointer to info about the flash sector. Pass this to flash_area_x x() routines.

fe_elem_ off

Byte offset from the start of the sector to beginning of element.

fe_data_ off

Byte offset from start of the sector to beginning of element data. Pass this to to flash_area_x x() routines.

fe_data_ len

Number of bytes in the element.

The following data structure describes the FCB itself. First part should be filled in by the user before calling fcb_init(). The second part is used by FCB for its internal bookkeeping.

struct fcb {
    /* Caller of fcb_init fills this in */
    uint32_t f_magic;           /* As placed on the disk */
    uint8_t f_version;          /* Current version number of the data */
    uint8_t f_sector_cnt;       /* Number of elements in sector array */
    uint8_t f_scratch_cnt;      /* How many sectors should be kept empty */
    struct flash_area *f_sectors; /* Array of sectors, must be contiguous */

    /* Flash circular buffer internal state */
    struct os_mutex f_mtx;      /* Locking for accessing the FCB data */
    struct flash_area *f_oldest;
    struct fcb_entry f_active;
    uint16_t f_active_id;
    uint8_t f_align;            /* writes to flash have to aligned to this */
};

Element

Description

f_magic

Magic number in the beginning of FCB flash sector. FCB uses this when determining whether sector contains valid data or not.

f_version

Current version number of the data. Also stored in flash sector header.

f_sector_cnt

Number of elements in the f_sectors array.

f_scratch _cnt

Number of sectors to keep empty. This can be used if you need to have scratch space for garbage collecting when FCB fills up.

f_sectors

Array of entries describing flash sectors to use.

f_mtx

Lock protecting access to FCBs internal data.

f_oldest

Pointer to flash sector containing the oldest data. This is where data is served when read is started.

f_active

Flash location where the newest data is. This is used by fcb_append() to figure out where the data should go to.

f_active_id

Flash sectors are assigned ever-increasin g serial numbers. This is how FCB figures out where oldest data is on system restart.

f_align

Some flashes have restrictions on alignment for writes. FCB keeps a copy of this number for the flash here.

API

typedef int (*fcb_walk_cb)(struct fcb_entry *loc, void *arg)

Walk over all entries in FCB.

cb gets called for every entry. If cb wants to stop the walk, it should return non-zero value.

Entry data can be read using flash_area_read(), using loc->fe_area, loc->fe_data_off, and loc->fe_data_len as arguments.

struct flash_area *fe_area
uint32_t fe_elem_off
uint32_t fe_data_off
uint16_t fe_data_len
uint32_t f_magic
uint8_t f_version
uint8_t f_sector_cnt
uint8_t f_scratch_cnt
struct flash_area *f_sectors
struct os_mutex f_mtx
struct flash_area *f_oldest
struct fcb_entry f_active
uint16_t f_active_id
uint8_t f_align
int fcb_init(struct fcb *fcb)
int fcb_append(struct fcb*, uint16_t len, struct fcb_entry *loc)

fcb_append() appends an entry to circular buffer.

When writing the contents for the entry, use loc->fl_area and loc->fl_data_off with flash_area_write(). When you’re finished, call fcb_append_finish() with loc as argument.

int fcb_append_finish(struct fcb*, struct fcb_entry *append_loc)
int fcb_walk(struct fcb*, struct flash_area*, fcb_walk_cb cb, void *cb_arg)
int fcb_getnext(struct fcb*, struct fcb_entry *loc)
int fcb_rotate(struct fcb*)

Erases the data from oldest sector.

int fcb_append_to_scratch(struct fcb*)

Start using the scratch block.

int fcb_free_sector_cnt(struct fcb *fcb)

How many sectors are unused.

int fcb_is_empty(struct fcb *fcb)

Whether FCB has any data.

int fcb_offset_last_n(struct fcb *fcb, uint8_t entries, struct fcb_entry *last_n_entry)

Element at offset entries from last position (backwards).

int fcb_clear(struct fcb *fcb)

Clears FCB passed to it.

int fcb_area_info(struct fcb *fcb, struct flash_area *fa, int *elemsp, int *bytesp)

Usage report for a given FCB area.

Returns number of elements and the number of bytes stored in them.

FCB_MAX_LEN
FCB_OK

Error codes.

FCB_ERR_ARGS
FCB_ERR_FLASH
FCB_ERR_NOVAR
FCB_ERR_NOSPACE
FCB_ERR_NOMEM
FCB_ERR_CRC
FCB_ERR_MAGIC
FCB_ERR_VERSION
FCB_ERR_NEXT_SECT
struct fcb_entry
#include <fcb.h>

Entry location is pointer to area (within fcb->f_sectors), and offset within that area.

struct fcb
#include <fcb.h>