- Standardized littlefs debug statements to use hex prefixes and
brackets for printing pairs.
- Removed the entry behavior for readtree and made -t the default.
This is because 1. the CTZ skip-list parsing was broken, which is not
surprising, and 2. the entry parsing was more complicated than useful.
This functionality may be better implemented as a proper filesystem
read script, complete with directory tree dumping.
- Changed test.py's --gdb argument to take [init, main, assert],
this matches the names of the stages in C's startup.
- Added printing of tail to all mdir dumps in readtree/readmdir.
- Added a print for if any mdirs are corrupted in readtree.
- Added debug script side-effects to .gitignore.
- Changed readmdir.py to print the metadata pair and revision count,
which is useful when debugging commit issues.
- Added truncated data view to readtree.py by default. This does mean
readtree.py must read all files on the filesystem to show the
truncated data, hopefully this does not end up being a problem.
- Made overall representation hopefully more readable, including moving
superblock under the root dir, userattrs under files, fixing a gstate
rendering issue.
- Added rendering of soft-tails as dotted-arrows, hopefully this isn't
too noisy.
- Fixed explode_asserts.py off-by-1 in #line mapping caused by a strip
call in the assert generation eating newlines. The script matches
line numbers between the original+modified files by emitting assert
statements that use the same number of lines. An off-by-1 here causes
the entire file to map lines incorrectly, which can be very annoying.
Added indention so there was a more clear separation between the tag
description and tag data.
Also took the best parts of readmdir.py and added it to readtree.py.
Initially I was thinking it was best for these to have completely
independent data representations, since you could always call readtree
to get more info, but this becomes tedius when needed to look at
low-level tag info across multiple directories on the filesystem.
The root of the problem was some assumptions about what tags could be
sent to lfs_dir_commit.
- The first assumption is that there could be only one splice (create/delete)
tag at a time, which is trivially broken by the core commit in lfs_rename.
- The second assumption is that there is at most one create and one delete in
a single commit. This is less obvious but turns out to not be true in
the case that we rename a file such that it overwrites another file in
the same directory (1 delete for source file, 1 delete for destination).
- The third assumption was that there was an ordering to the
delete/creates passed to lfs_dir_commit. It may be possible to force all
deletes to follow creates by rearranging the tags in lfs_rename, but
this risks overflowing tag ids.
The way the lfs_dir_commit first collected the "deletetag" and "createtag"
broke all three of these assumptions. And because we lose the ordering
information we can no longer apply the directory changes to open files
correctly. The file ids may be shifted in a way that doesn't reflect the
actual operations on disk.
These problems were made worst by lfs_dir_commit cleaning up moves
implicitly, which also creates deletes implicitly. While cleaning up moves
in lfs_dir_commit may save some code size, it makes the commit logic much more
difficult to implement correctly.
This bug turned into pulling out a dead tree stump, roots and all.
I ended up reworking how lfs_dir_commit updates open files so that it
has less assumptions, now it just traverses the commit tags multiple
times in order to update file ids after a successful commit in the
correct order.
This also got rid of the dir copy by carefully updating split dirs
after all files have an up-to-date copy of the original dir.
I also just removed the implicit move cleanup. It turns out the only
commits that can occur before we have cleaned up the move is in
lfs_fs_relocate, so it was simple enough to explicitly handle this case
when we update our parent and pred during a relocate.
Cases where we may need to fix moves:
- In lfs_rename when we move a file/dir
- In lfs_demove if we lose power
- In lfs_fs_relocate if we have to relocate our parent and we find it
had a pending move (or else the move will be outdated)
- In lfs_fs_relocate if we have to relocate our predecessor and we find it
had a pending move (or else the move will be outdated)
Note the two cases in lfs_fs_relocate may be recursive. But
lfs_fs_relocate can only trigger other lfs_fs_relocates so it's not
possible for pending moves to spill out into other filesystem commits
And of couse, I added several tests to cover these situations. Hopefully
the rename-with-open-files logic should be fairly locked down now.
found with initial fix by eastmoutain
Also fixed a bug in dir splitting when there's a large number of open
files, which was the main reason I was trying to make it easier to debug
disk images.
One part of the recent test changes was to move away from the
file-per-block emubd and instead simulate storage with a single
contiguous file. The file-per-block format was marginally useful
at the beginning, but as the remaining bugs get more subtle, it
becomes more useful to inspect littlefs through scripts that
make the underlying metadata more human-readable.
The key benefit of switching to a contiguous file is these same
scripts can be reused for real disk images and can even read through
/dev/sdb or similar.
- ./scripts/readblock.py disk block_size block
off data
00000000: 71 01 00 00 f0 0f ff f7 6c 69 74 74 6c 65 66 73 q.......littlefs
00000010: 2f e0 00 10 00 00 02 00 00 02 00 00 00 04 00 00 /...............
00000020: ff 00 00 00 ff ff ff 7f fe 03 00 00 20 00 04 19 ...............
00000030: 61 00 00 0c 00 62 20 30 0c 09 a0 01 00 00 64 00 a....b 0......d.
...
readblock.py prints a hex dump of a given block on disk. It's basically
just "dd if=disk bs=block_size count=1 skip=block | xxd -g1 -" but with
less typing.
- ./scripts/readmdir.py disk block_size block1 block2
off tag type id len data (truncated)
0000003b: 0020000a dir 0 10 63 6f 6c 64 63 6f 66 66 coldcoff
00000049: 20000008 dirstruct 0 8 02 02 00 00 03 02 00 00 ........
00000008: 00200409 dir 1 9 68 6f 74 63 6f 66 66 65 hotcoffe
00000015: 20000408 dirstruct 1 8 fe 01 00 00 ff 01 00 00 ........
readmdir.py prints info about the tags in a metadata pair on disk. It
can print the currently active tags as well as the raw log of the
metadata pair.
- ./scripts/readtree.py disk block_size
superblock "littlefs"
version v2.0
block_size 512
block_count 1024
name_max 255
file_max 2147483647
attr_max 1022
gstate 0x000000000000000000000000
dir "/"
mdir {0x0, 0x1} rev 3
v id 0 superblock "littlefs" inline size 24
mdir {0x77, 0x78} rev 1
id 0 dir "coffee" dir {0x1fc, 0x1fd}
dir "/coffee"
mdir {0x1fd, 0x1fc} rev 2
id 0 dir "coldcoffee" dir {0x202, 0x203}
id 1 dir "hotcoffee" dir {0x1fe, 0x1ff}
dir "/coffee/coldcoffee"
mdir {0x202, 0x203} rev 1
dir "/coffee/warmcoffee"
mdir {0x200, 0x201} rev 1
readtree.py parses the littlefs tree and prints info about the
semantics of what's on disk. This includes the superblock,
global-state, and directories/metadata-pairs. It doesn't print
the filesystem tree though, that could be a different tool.
