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Added better handling for metadata pairs

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The core algorithim that backs this filesystem's goal of fault
tolerance is the alternating of "metadata pairs". Backed by a
simple core function for reading and writing, makes heavy use
of c99 designated initializers for passing info about multiple
chunks in an erase block.
This commit is contained in:
Christopher Haster
2017-03-12 14:11:52 -06:00
parent 1d36fc606a
commit 106b06a457
4 changed files with 211 additions and 281 deletions
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11
emubd/lfs_emubd.c
View File

@@ -13,6 +13,7 @@
#include <stdio.h>
#include <limits.h>
#include <dirent.h>
#include <sys/stat.h>
// Block device emulated on existing filesystem
@@ -168,11 +169,19 @@ lfs_error_t lfs_emubd_erase(lfs_emubd_t *emu,
// Iterate and erase blocks
while (size > 0) {
snprintf(emu->child, LFS_NAME_MAX, "%d", ino);
int err = unlink(emu->path);
struct stat st;
int err = stat(emu->path, &st);
if (err && errno != ENOENT) {
return -errno;
}
if (!err && S_ISREG(st.st_mode)) {
int err = unlink(emu->path);
if (err) {
return -errno;
}
}
size -= emu->info.erase_size;
ino += 1;
off = 0;

455
lfs.c
View File

@@ -29,49 +29,6 @@ static uint32_t lfs_crc(const uint8_t *data, lfs_size_t size, uint32_t crc) {
static lfs_error_t lfs_alloc(lfs_t *lfs, lfs_ino_t *ino);
static lfs_error_t lfs_free(lfs_t *lfs, lfs_ino_t ino);
// Disk structures
//lfs_disk_struct lfs_disk_free {
// lfs_ino_t head;
// uint32_t ioff;
// uint32_t icount;
// uint32_t rev;
//};
//
//lfs_disk_struct lfs_disk_dir {
// uint32_t rev;
// uint32_t count;
// lfs_ino_t tail[2];
// struct lfs_disk_free free;
//};
//
//lfs_disk_struct lfs_disk_dirent {
// uint16_t type;
// uint16_t len;
//};
//
//lfs_disk_struct lfs_disk_superblock {
// struct lfs_disk_dir dir;
// struct lfs_disk_dirent header;
// char magic[4];
// uint32_t read_size;
// uint32_t write_size;
// uint32_t erase_size;
// uint32_t erase_count;
//};
//
//lfs_disk_struct lfs_disk_dirent_file {
// struct lfs_disk_dirent header;
// lfs_ino_t head;
// lfs_size_t size;
// char name[LFS_NAME_MAX];
//};
//
//lfs_disk_struct lfs_disk_dirent_dir {
// struct lfs_disk_dirent header;
// lfs_ino_t ino[2];
// char name[LFS_NAME_MAX];
//};
// Next index offset
static lfs_off_t lfs_inext(lfs_t *lfs, lfs_off_t ioff) {
@@ -173,23 +130,161 @@ static lfs_error_t lfs_free(lfs_t *lfs, lfs_ino_t ino) {
return lfs_iappend(lfs, &lfs->free.d.head, &lfs->free.d.icount, ino);
}
// create a dir
// create entry
// update entry
lfs_error_t lfs_check(lfs_t *lfs, lfs_ino_t block) {
uint32_t crc = 0xffffffff;
//static lfs_error_t lfs_dir_alloc(lfs_t *lfs, lfs_dir_t *dir);
//static lfs_error_t lfs_dir_update(lfs_t *lfs, lfs_dir_t *dir, lfs_entry_t *entry);
//static lfs_error_t lfs_dir_destroy(lfs_t *lfs, lfs_dir_t *dir);
//static lfs_error_t lfs_entry_alloc(lfs_t *lfs, lfs_dir_t *dir, lfs_entry_t *entry);
//static lfs_error_t lfs_entry_update(lfs_t *lfs, lfs_entry_t *entry);
//static lfs_error_t lfs_entry_destroy(lfs_t *lfs, lfs_dir_t *dir);
for (lfs_size_t i = 0; i < lfs->info.erase_size; i += 4) {
uint32_t data;
int err = lfs->ops->read(lfs->bd, (void*)&data, block, i, 4);
if (err) {
return err;
}
// Directory operations
static lfs_error_t lfs_dir_alloc(lfs_t *lfs, lfs_dir_t *dir) {
crc = lfs_crc((void*)&data, 4, crc);
}
return (crc != 0) ? LFS_ERROR_CORRUPT : LFS_ERROR_OK;
}
lfs_error_t lfs_block_load(lfs_t *lfs,
const lfs_ino_t pair[2], lfs_ino_t *ino) {
lfs_word_t rev[2];
for (int i = 0; i < 2; i++) {
int err = lfs->ops->read(lfs->bd, (void*)&rev[i], pair[i], 0, 4);
if (err) {
return err;
}
}
for (int i = 0; i < 2; i++) {
lfs_ino_t check = pair[(rev[1] > rev[0]) ? 1-i : i];
int err = lfs_check(lfs, check);
if (err == LFS_ERROR_CORRUPT) {
continue;
} else if (err) {
return err;
}
return check;
}
LFS_ERROR("Corrupted dir at %d %d", pair[0], pair[1]);
return LFS_ERROR_CORRUPT;
}
struct lfs_read_region {
lfs_off_t off;
lfs_size_t size;
void *data;
};
lfs_error_t lfs_pair_read(lfs_t *lfs, lfs_ino_t pair[2],
int count, const struct lfs_read_region *regions) {
int checked = 0;
int rev = 0;
for (int i = 0; i < 2; i++) {
uint32_t nrev;
int err = lfs->ops->read(lfs->bd, (void*)&nrev,
pair[0], 0, 4);
if (err) {
return err;
}
// TODO diff these
if (checked > 0 && rev > nrev) {
continue;
}
err = lfs_check(lfs, pair[i]);
if (err == LFS_ERROR_CORRUPT) {
continue;
} else if (err) {
return err;
}
checked += 1;
rev = nrev;
lfs_swap(&pair[0], &pair[1]);
}
if (checked == 0) {
return LFS_ERROR_CORRUPT;
}
for (int i = 0; i < count; i++) {
int err = lfs->ops->read(lfs->bd, regions[i].data,
pair[1], regions[i].off, regions[i].size);
if (err) {
return err;
}
}
return 0;
}
struct lfs_write_region {
lfs_off_t off;
lfs_size_t size;
const void *data;
};
lfs_error_t lfs_pair_write(lfs_t *lfs, lfs_ino_t pair[2],
int count, const struct lfs_write_region *regions) {
uint32_t crc = 0xffffffff;
int err = lfs->ops->erase(lfs->bd,
pair[0], 0, lfs->info.erase_size);
if (err) {
return err;
}
lfs_off_t off = 0;
while (off < lfs->info.erase_size - 4) {
if (count > 0 && regions[0].off == off) {
crc = lfs_crc(regions[0].data, regions[0].size, crc);
int err = lfs->ops->write(lfs->bd, regions[0].data,
pair[0], off, regions[0].size);
if (err) {
return err;
}
off += regions[0].size;
count -= 1;
regions += 1;
} else {
// TODO faster strides?
uint8_t data;
int err = lfs->ops->read(lfs->bd, (void*)&data,
pair[1], off, sizeof(data));
if (err) {
return err;
}
crc = lfs_crc((void*)&data, sizeof(data), crc);
err = lfs->ops->write(lfs->bd, (void*)&data,
pair[0], off, sizeof(data));
if (err) {
return err;
}
off += sizeof(data);
}
}
err = lfs->ops->write(lfs->bd, (void*)&crc,
pair[0], lfs->info.erase_size-4, 4);
if (err) {
return err;
}
lfs_swap(&pair[0], &pair[1]);
return 0;
}
static lfs_error_t lfs_dir_make(lfs_t *lfs, lfs_dir_t *dir) {
// Allocate pair of dir blocks
for (int i = 0; i < 2; i++) {
int err = lfs_alloc(lfs, &dir->dno[i]);
int err = lfs_alloc(lfs, &dir->pair[i]);
if (err) {
return err;
}
@@ -197,7 +292,8 @@ static lfs_error_t lfs_dir_alloc(lfs_t *lfs, lfs_dir_t *dir) {
// Rather than clobbering one of the blocks we just pretend
// the revision may be valid
int err = lfs->ops->read(lfs->bd, (void*)&dir->d.rev, dir->dno[1], 0, 4);
int err = lfs->ops->read(lfs->bd, (void*)&dir->d.rev,
dir->pair[1], 0, 4);
if (err) {
return err;
}
@@ -209,168 +305,18 @@ static lfs_error_t lfs_dir_alloc(lfs_t *lfs, lfs_dir_t *dir) {
dir->d.tail[1] = 0;
dir->d.parent[0] = 0;
dir->d.parent[1] = 0;
return 0;
}
lfs_error_t lfs_dir_update(lfs_t *lfs, lfs_dir_t *dir, lfs_entry_t *entry) {
// TODO flush this
// TODO sort this out
dir->d.free = lfs->free.d;
// Start by erasing target block
int err = lfs->ops->erase(lfs->bd, dir->dno[0], 0, lfs->info.erase_size);
// Write header and start calculating crc
uint32_t crc = lfs_crc((void*)&dir->d, sizeof(dir->d), 0xffffffff);
err = lfs->ops->write(lfs->bd, (void*)&dir->d,
dir->dno[0], 0, sizeof(dir->d));
if (err) {
return err;
}
// Copy over entries and write optional entry update
// TODO handle optional entry
for (lfs_off_t i = sizeof(dir->d); i < lfs->info.erase_size-4; i += 4) {
uint32_t data;
err = lfs->ops->read(lfs->bd, (void*)&data, dir->dno[1], i, 4);
if (err) {
return err;
}
crc = lfs_crc((void*)&data, 4, crc);
err = lfs->ops->write(lfs->bd, (void*)&data, dir->dno[0], i, 4);
if (err) {
return err;
}
}
// Write resulting crc
err = lfs->ops->write(lfs->bd, (void*)&crc,
dir->dno[0], lfs->info.erase_size-4, 4);
if (err) {
return err;
}
// Flip dnos to indicate next write of the dir pair
lfs_ino_t temp = dir->dno[0];
dir->dno[0] = dir->dno[1];
dir->dno[1] = temp;
return 0;
// Write out to memory
return lfs_pair_write(lfs, dir->pair,
1, (struct lfs_write_region[1]){
{0, sizeof(dir->d), &dir->d}
});
}
//static lfs_error_t lfs_dir_alloc(lfs_t *lfs, lfs_dir_t *dir) {
// memset(dir, 0, sizeof(lfs_dir_t));
//
// for (int i = 0; i < 2; i++) {
// int err = lfs_alloc(lfs, &dir->dno[i]);
// if (err) {
// return err;
// }
// }
//
// // Rather than clobbering one of the blocks we just pretend
// // the revision may be valid
// int err = lfs->ops->read(lfs->bd, (void*)&dir->rev, dir->dno[1], 0, 4);
// if (err) {
// return err;
// }
// dir->rev += 1;
//
// // TODO move this to a flush of some sort?
// struct lfs_disk_dir disk_dir = {
// .rev = dir->rev,
// .count = dir->len,
// .tail[0] = dir->tail[0],
// .tail[1] = dir->tail[1],
// .free.head = lfs->free.head,
// .free.ioff = lfs->free.ioff,
// .free.icount = lfs->free.icount,
// .free.rev = lfs->free.rev,
// };
//
// err = lfs->ops->write(lfs->bd, (void*)&disk_dir,
// dir->dno[0], 0, sizeof(struct lfs_disk_dir));
// if (err) {
// return err;
// }
//
// uint32_t crc = 0xffffffff;
// for (lfs_off_t i = 0; i < lfs->info.erase_size-4; i += 4) {
// uint32_t data;
// err = lfs->ops->read(lfs->bd, (void*)&data, dir->dno[0], i, 4);
// if (err) {
// return err;
// }
//
// crc = lfs_crc((void*)&data, 4, crc);
// }
//
// err = lfs->ops->write(lfs->bd, (void*)&crc,
// dir->dno[0], lfs->info.erase_size-4, 4);
// if (err) {
// return err;
// }
//
// lfs_ino_t temp = dir->dno[0];
// dir->dno[0] = dir->dno[1];
// dir->dno[1] = temp;
//
// return 0;
//}
//lfs_error_t lfs_dir_update(lfs_t *lfs, lfs_dir_t *dir,
// lfs_dirent_t *ent, const char *name) {
//
//
//
// struct lfs_disk_dir disk_dir = {
// .rev = dir->rev,
// .count = dir->len,
// .tail[0] = dir->tail[0],
// .tail[1] = dir->tail[1],
// // TODO flush this?
// .free.head = lfs->free.head,
// .free.ioff = lfs->free.ioff,
// .free.icount = lfs->free.icount,
// .free.rev = lfs->free.rev,
// };
//
// err = lfs->ops->write(lfs->bd, (void*)&disk_dir,
// dir->dno[0], 0, sizeof(struct lfs_disk_dir));
// if (err) {
// return err;
// }
//
// if (ent) {
// // TODO update entry
// }
//
// uint32_t crc = 0xffffffff;
// for (lfs_off_t i = 0; i < lfs->info.erase_size-4; i += 4) {
// uint32_t data;
// err = lfs->ops->read(lfs->bd, (void*)&data, dir->dno[0], i, 4);
// if (err) {
// return err;
// }
//
// crc = lfs_crc((void*)&data, 4, crc);
// }
//
// err = lfs->ops->write(lfs->bd, (void*)&crc,
// dir->dno[0], lfs->info.erase_size-4, 4);
// if (err) {
// return err;
// }
//
// lfs_ino_t temp = dir->dno[0];
// dir->dno[0] = dir->dno[1];
// dir->dno[1] = temp;
//
// return 0;
//}
// Little filesystem operations
lfs_error_t lfs_create(lfs_t *lfs, lfs_bd_t *bd, const struct lfs_bd_ops *ops) {
lfs->bd = bd;
@@ -391,7 +337,7 @@ lfs_error_t lfs_format(lfs_t *lfs) {
return err;
}
err = lfs->ops->erase(lfs->bd, 0, 0, 5*info.erase_size);
err = lfs->ops->erase(lfs->bd, 0, 0, 3*info.erase_size);
if (err) {
return err;
}
@@ -399,13 +345,15 @@ lfs_error_t lfs_format(lfs_t *lfs) {
// TODO make sure that erase clobbered blocks
{ // Create free list
lfs->free.d.head = 4;
lfs->free.d.ioff = 1;
lfs->free.d.icount = 1;
lfs->free.d.rev = 1;
lfs->free = (lfs_free_t){
.d.head = 2,
.d.ioff = 1,
.d.icount = 1,
.d.rev = 1,
};
lfs_size_t block_count = lfs->info.total_size / lfs->info.erase_size;
for (lfs_ino_t i = 5; i < block_count; i++) {
for (lfs_ino_t i = 3; i < block_count; i++) {
lfs_error_t err = lfs_free(lfs, i);
if (err) {
return err;
@@ -416,12 +364,7 @@ lfs_error_t lfs_format(lfs_t *lfs) {
lfs_dir_t root;
{
// Write root directory
int err = lfs_dir_alloc(lfs, &root);
if (err) {
return err;
}
err = lfs_dir_update(lfs, &root, 0);
int err = lfs_dir_make(lfs, &root);
if (err) {
return err;
}
@@ -429,71 +372,31 @@ lfs_error_t lfs_format(lfs_t *lfs) {
{
// Write superblocks
lfs_ino_t sno[2] = {0, 1};
lfs_superblock_t superblock = {
.pair = {0, 1},
.d.rev = 1,
.d.count = 0,
.d.root = {root.dno[0], root.dno[1]},
.d.size = sizeof(struct lfs_disk_superblock),
.d.root = {root.pair[0], root.pair[1]},
.d.magic = {"littlefs"},
.d.block_size = info.erase_size,
.d.block_count = info.total_size / info.erase_size,
};
for (int i = 0; i < 2; i++) {
err = lfs->ops->erase(lfs->bd, sno[i], 0, info.erase_size);
if (err) {
return err;
}
err = lfs->ops->write(lfs->bd, (void*)&superblock.d,
sno[i], 0, sizeof(superblock.d));
if (err) {
return err;
}
uint32_t crc = lfs_crc((void*)&superblock.d,
sizeof(superblock.d), 0xffffffff);
for (lfs_size_t i = sizeof(superblock);
i < info.erase_size-4; i += 4) {
uint32_t data;
err = lfs->ops->read(lfs->bd, (void*)&data, 0, i, 4);
if (err) {
return err;
}
crc = lfs_crc((void*)&data, 4, crc);
}
err = lfs->ops->write(lfs->bd, (void*)&crc,
sno[i], info.erase_size-4, 4);
lfs_ino_t block = superblock.pair[0];
int err = lfs_pair_write(lfs, superblock.pair,
1, (struct lfs_write_region[1]){
{0, sizeof(superblock.d), &superblock.d}
});
err = lfs_check(lfs, block);
if (err) {
LFS_ERROR("Failed to write superblock at %d", block);
return err;
}
}
// TODO verify superblocks written correctly
}
// Sanity check
uint32_t crc = 0xffffffff;
for (lfs_size_t i = 0; i < info.erase_size; i += 4) {
uint32_t data;
err = lfs->ops->read(lfs->bd, (void*)&data, 0, i, 4);
if (err) {
return err;
}
crc = lfs_crc((void*)&data, 4, crc);
}
uint32_t data;
err = lfs->ops->read(lfs->bd, (void*)&data, 0, info.erase_size-4, 4);
if (err) {
return err;
}
return crc;
return 0;
}

13
lfs.h
View File

@@ -12,6 +12,11 @@
// Data structures
enum lfs_error {
LFS_ERROR_OK = 0,
LFS_ERROR_CORRUPT = -3,
};
typedef struct lfs_free {
lfs_disk_struct lfs_disk_free {
lfs_ino_t head;
@@ -22,8 +27,7 @@ typedef struct lfs_free {
} lfs_free_t;
typedef struct lfs_dir {
lfs_ino_t dno[2];
lfs_ino_t pair[2];
lfs_disk_struct lfs_disk_dir {
lfs_word_t rev;
lfs_size_t size;
@@ -63,9 +67,10 @@ typedef struct lfs_entry {
} lfs_entry_t;
typedef struct lfs_superblock {
lfs_ino_t pair[2];
lfs_disk_struct lfs_disk_superblock {
uint32_t rev;
uint32_t count;
lfs_word_t rev;
uint32_t size;
lfs_ino_t root[2];
char magic[8];
uint32_t block_size;

13
lfs_config.h
View File

@@ -42,7 +42,20 @@ static inline lfs_word_t lfs_npw2(lfs_word_t a) {
return 32 - __builtin_clz(a-1);
}
static inline void lfs_swap(lfs_word_t *a, lfs_word_t *b) {
lfs_word_t temp = *a;
*a = *b;
*b = temp;
}
// Attributes
#define lfs_disk_struct struct __attribute__((packed))
// Logging operations
#include <stdio.h>
#define LFS_ERROR(fmt, ...) printf("Error: " fmt "\n", __VA_ARGS__)
#define LFS_WARN(fmt, ...) printf("Warn: " fmt "\n", __VA_ARGS__)
#define LFS_INFO(fmt, ...) printf("Info: " fmt "\n", __VA_ARGS__)
#endif