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b0382fa891722dea8339fead2f614d5a7b745929
littlefs/tests/test_orphans.toml
Christopher Haster b0382fa891 Added BENCH/TEST_PRNG, replacing other ad-hoc sources of randomness 
When you add a function to every benchmark suite, you know if should
probably be provided by the benchmark runner itself. That being said,
randomness in tests/benchmarks is a bit tricky because it needs to be
strictly controlled and reproducible.

No global state is used, allowing tests/benches to maintain multiple
randomness stream which can be useful for checking results during a run.

There's an argument for having global prng state in that the prng could
be preserved across power-loss, but I have yet to see a use for this,
and it would add a significant requirement to any future test/bench runner.
2022-12-06 23:09:07 -06:00

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[cases.test_orphans_normal]
in = "lfs.c"
if = 'PROG_SIZE <= 0x3fe' # only works with one crc per commit
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
lfs_mkdir(&lfs, "parent") => 0;
lfs_mkdir(&lfs, "parent/orphan") => 0;
lfs_mkdir(&lfs, "parent/child") => 0;
lfs_remove(&lfs, "parent/orphan") => 0;
lfs_unmount(&lfs) => 0;
// corrupt the child's most recent commit, this should be the update
// to the linked-list entry, which should orphan the orphan. Note this
// makes a lot of assumptions about the remove operation.
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "parent/child") => 0;
lfs_block_t block = dir.m.pair[0];
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
uint8_t buffer[BLOCK_SIZE];
cfg->read(cfg, block, 0, buffer, BLOCK_SIZE) => 0;
int off = BLOCK_SIZE-1;
while (off >= 0 && buffer[off] == ERASE_VALUE) {
off -= 1;
}
memset(&buffer[off-3], BLOCK_SIZE, 3);
cfg->erase(cfg, block) => 0;
cfg->prog(cfg, block, 0, buffer, BLOCK_SIZE) => 0;
cfg->sync(cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
struct lfs_info info;
lfs_stat(&lfs, "parent/orphan", &info) => LFS_ERR_NOENT;
lfs_stat(&lfs, "parent/child", &info) => 0;
lfs_fs_size(&lfs) => 8;
lfs_unmount(&lfs) => 0;
lfs_mount(&lfs, cfg) => 0;
lfs_stat(&lfs, "parent/orphan", &info) => LFS_ERR_NOENT;
lfs_stat(&lfs, "parent/child", &info) => 0;
lfs_fs_size(&lfs) => 8;
// this mkdir should both create a dir and deorphan, so size
// should be unchanged
lfs_mkdir(&lfs, "parent/otherchild") => 0;
lfs_stat(&lfs, "parent/orphan", &info) => LFS_ERR_NOENT;
lfs_stat(&lfs, "parent/child", &info) => 0;
lfs_stat(&lfs, "parent/otherchild", &info) => 0;
lfs_fs_size(&lfs) => 8;
lfs_unmount(&lfs) => 0;
lfs_mount(&lfs, cfg) => 0;
lfs_stat(&lfs, "parent/orphan", &info) => LFS_ERR_NOENT;
lfs_stat(&lfs, "parent/child", &info) => 0;
lfs_stat(&lfs, "parent/otherchild", &info) => 0;
lfs_fs_size(&lfs) => 8;
lfs_unmount(&lfs) => 0;
'''
# reentrant testing for orphans, basically just spam mkdir/remove
[cases.test_orphans_reentrant]
reentrant = true
# TODO fix this case, caused by non-DAG trees
if = '!(DEPTH == 3 && CACHE_SIZE != 64)'
defines = [
{FILES=6, DEPTH=1, CYCLES=20},
{FILES=26, DEPTH=1, CYCLES=20},
{FILES=3, DEPTH=3, CYCLES=20},
]
code = '''
lfs_t lfs;
int err = lfs_mount(&lfs, cfg);
if (err) {
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
}
uint32_t prng = 1;
const char alpha[] = "abcdefghijklmnopqrstuvwxyz";
for (unsigned i = 0; i < CYCLES; i++) {
// create random path
char full_path[256];
for (unsigned d = 0; d < DEPTH; d++) {
sprintf(&full_path[2*d], "/%c", alpha[TEST_PRNG(&prng) % FILES]);
}
// if it does not exist, we create it, else we destroy
struct lfs_info info;
int res = lfs_stat(&lfs, full_path, &info);
if (res == LFS_ERR_NOENT) {
// create each directory in turn, ignore if dir already exists
for (unsigned d = 0; d < DEPTH; d++) {
char path[1024];
strcpy(path, full_path);
path[2*d+2] = '\0';
err = lfs_mkdir(&lfs, path);
assert(!err || err == LFS_ERR_EXIST);
}
for (unsigned d = 0; d < DEPTH; d++) {
char path[1024];
strcpy(path, full_path);
path[2*d+2] = '\0';
lfs_stat(&lfs, path, &info) => 0;
assert(strcmp(info.name, &path[2*d+1]) == 0);
assert(info.type == LFS_TYPE_DIR);
}
} else {
// is valid dir?
assert(strcmp(info.name, &full_path[2*(DEPTH-1)+1]) == 0);
assert(info.type == LFS_TYPE_DIR);
// try to delete path in reverse order, ignore if dir is not empty
for (int d = DEPTH-1; d >= 0; d--) {
char path[1024];
strcpy(path, full_path);
path[2*d+2] = '\0';
err = lfs_remove(&lfs, path);
assert(!err || err == LFS_ERR_NOTEMPTY);
}
lfs_stat(&lfs, full_path, &info) => LFS_ERR_NOENT;
}
}
lfs_unmount(&lfs) => 0;
'''
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