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44 Commits
test-and-b ... v2.6.0

Author SHA1 Message Date
Christopher Haster
ec3ec86bcc Merge pull request #814 from littlefs-project/devel 
Minor release: v2.6
 2023-05-04 12:55:52 -05:00
Christopher Haster
405f33214a Merge pull request #812 from littlefs-project/mkconsistent 
Add lfs_fs_mkconsistent
 2023-04-30 23:26:04 -05:00
Christopher Haster
3dca02911f Merge pull request #811 from littlefs-project/fix-deorphan-repeatedly 
Fix issue where lfs_fs_deorphan may run more than needed
 2023-04-30 23:25:01 -05:00
Christopher Haster
259535ee73 Added lfs_fs_mkconsistent 
lfs_fs_mkconsistent allows running the internal consistency operations
(desuperblock/deorphan/demove) on demand and without any other
filesystem changes.

This can be useful for front-loading and persisting consistency operations
when you don't want to pay for this cost on the first write to the
filesystem.

Conveniently, this also offers a way to force the on-disk minor version
to bump, if that is wanted behavior.

Idea from kasper0
 2023-04-26 21:45:26 -05:00
Christopher Haster
94d9e097a6 Fixed issue where lfs_fs_deorphan may run more than needed 
The underlying issue is that lfs_fs_deorphan did not updating gstate
correctly. The way it determined if there are any orphans remaining in
the filesystem was by subtracting the number of found orphans from an
internal counter.

This internal counter is a leftover from a previous implementation that
allowed leaving the lfs_fs_deorphan loop early if we know the number of
expected orphans. This can happen during recursive mdir relocations, but
with only a single bit in the gstate, can't happen during mount. If we
detect orphans during mount, we set this internal counter to 1, assuming
we will find at least one orphan.

But this presents a problem, what if we find _no_ orphans? If this happens
we never decrement the internal counter of orphans, so we would never
clear the bit in the gstate. This leads to a running lfs_fs_deorphan
on more-or-less every mutable operation in the filesystem, resulting in
an extreme performance hit.

The solution here is to not subtract the number of found orphans, but assume
that when our lfs_fs_deorphan loop finishes, we will have no orphans, because
that's the whole point of lfs_fs_deorphan.

Note that the early termination of lfs_fs_deorphan was dropped because
it would not actually change the runtime complexity of lfs_fs_deorphan,
adds code cost, and risks fragile corner cases such as this one.

---

Also added tests to assert we run lfs_fs_deorphan at most once.

Found by kasper0 and Ldd309
 2023-04-26 21:41:26 -05:00
Christopher Haster
dd03c27476 Merge pull request #805 from littlefs-project/fix-dir-seek-end 
Fix issue where seeking to end-of-directory return LFS_ERR_INVAL
 2023-04-26 14:32:14 -05:00
Christopher Haster
23a4a089b5 Merge pull request #800 from littlefs-project/fix-boundary-truncates 
Fix block-boundary truncate issues
 2023-04-26 14:31:23 -05:00
Christopher Haster
b6773e68bf Merge remote-tracking branch 'origin/devel' into fix-dir-seek-end 2023-04-26 13:47:58 -05:00
Christopher Haster
922a35b3a5 Merge remote-tracking branch 'origin/devel' into fix-boundary-truncates 2023-04-26 13:30:04 -05:00
Christopher Haster
92298c749d Merge pull request #802 from littlefs-project/assert-minimum-block-size 
Add explicit assert for minimum block size of 128 bytes
 2023-04-26 02:41:44 -05:00
Christopher Haster
50b394ca36 Merge pull request #801 from littlefs-project/assert-bool-cast 
Add an assert for truthy-preserving bool conversions
 2023-04-26 02:41:30 -05:00
Christopher Haster
a99574cd5b Merge pull request #807 from littlefs-project/doc-link-littlefs2-rust 
Add littlefs2 crate to README
 2023-04-26 02:40:51 -05:00
Christopher Haster
363a8b56cf Tweaked wording of littlefs2-rust link in README.md 2023-04-26 02:02:23 -05:00
Lachezar Lechev
e43d381135 chore: add littlefs2 crate to README 2023-04-26 01:59:57 -05:00
Christopher Haster
ee6a51bbbe Merge pull request #718 from yomimono/mention-chamelon 
Add "chamelon" to the related projects section.
 2023-04-26 01:57:31 -05:00
Christopher Haster
01ac033d47 Merge pull request #572 from tniessen/add-littlefs-disk-img-viewer 
Add littlefs-disk-img-viewer to README
 2023-04-26 01:56:31 -05:00
Christopher Haster
2a18e03cb8 Merge pull request #809 from littlefs-project/brent-cycle-detection 
Adopt Brent's algorithm for cycle detection
 2023-04-26 01:55:50 -05:00
Christopher Haster
6f074ebe31 Merge pull request #497 from littlefs-project/crc-rework-2 
Forward-looking erase-state CRCs
 2023-04-26 01:15:59 -05:00
Christopher Haster
0a7eca0bd5 Merge pull request #752 from littlefs-project/test-and-bench-runners 
Add test/bench runners, benchmarks, additional scripts
 2023-04-26 01:09:01 -05:00
Christopher Haster
3e25dfc16c Added FCRC tags and an explanation of how FCRCs work to SPEC.md 
See SPEC.md for more info.

Also considered adding an explanation to DESIGN.md, but there's not a
great place for it. Maybe FCRCs are too low-level for the high-level
design document. Though may be worth reconsidering if DESIGN.md gets
revisited.
 2023-04-21 14:49:49 -05:00
Christopher Haster
9e28c75482 Bumped minor version to v2.6 and on-disk minor version to lfs2.1 2023-04-21 00:57:00 -05:00
Christopher Haster
4c9360020e Added ability to bump on-disk minor version 
This just means a rewrite of the superblock entry with the new minor
version.

Though it's interesting to note, we don't need to rewrite the superblock
entry until the first write operation in the filesystem, an optimization
that is already in use for the fixing of orphans and in-flight moves.

To keep track of any outdated minor version found during lfs_mount, we
can carve out a bit from the reserved bits in our gstate. These are
currently used for a counter tracking the number of orphans in the
filesystem, but this is usually a very small number so this hopefully
won't be an issue.

In-device gstate tag:

  [--       32      --]
  [1|- 11 -| 10 |1| 9 ]
   ^----^-----^--^--^-- 1-bit has orphans
        '-----|--|--|-- 11-bit move type
              '--|--|-- 10-bit move id
                 '--|-- 1-bit needs superblock
                    '-- 9-bit orphan count
 2023-04-21 00:56:55 -05:00
Christopher Haster
ca0da3d490 Added compatibility testing on pull-request to GitHub test action 
This uses the "github.event.pull_request.base.ref" variable as the
"lfsp" target for compatibility testing.
 2023-04-21 00:29:28 -05:00
Christopher Haster
116332d3f7 Added tests for forwards and backwards disk compatibility 
This is a bit tricky since we need two different version of littlefs in
order to test for most compatibility concerns.

Fortunately we already have scripts/changeprefix.py for version-specific
symbols, so it's not that hard to link in the previous version of
littlefs in CI as a separate set of symbols, "lfsp_" in this case.

So that we can at least test the compatibility tests locally, I've added
an ifdef against the expected define "LFSP" to define a set of aliases
mapping "lfsp_" symbols to "lfs_" symbols. This is manual at the moment,
and a bit hacky, but gets the job done.

---

Also changed BUILDDIR creation to derive subdirectories from a few
Makefile variables. This makes the subdirectories less manual and more
flexible for things like LFSP. Note this wasn't possible until BUILDDIR
was changed to default to "." when omitted.
 2023-04-21 00:28:55 -05:00
Christopher Haster
f0cc1db793 Tweaked changeprefix.py to not rename dir component in paths 
This wasn't implemented correctly anyways, as it would need to recursively
rename directories that may not exist. Things would also get a bit
complicated if only some files in a directory were renamed.

Doable, but not needed for our use case.

For now just ignore any directory components. Though this may be worth
changing if the source directory structure becomes more complicated in
the future (maybe with a -r/--recursive flag?).
 2023-04-19 18:33:47 -05:00
Christopher Haster
bf045dd13c Tweaked link to littlefs-disk-img-viewer to go to github repo 2023-04-19 11:48:06 -05:00
Christopher Haster
b33a5b3f85 Fixed issue where seeking to end-of-directory return LFS_ERR_INVAL 
This was just an oversight. Seeking to the end of the directory should
not error, but instead restore the directory to the state where the next
read returns 0.

Note this matches the behavior of lfs_file_tell/lfs_file_seek.

Found by sosthene-nitrokey
 2023-04-18 15:10:07 -05:00
Christopher Haster
384a498762 Extend dir seek tests to include seeking to end of directory 2023-04-18 14:55:43 -05:00
Christopher Haster
b0a4a44e5b Added explicit assert for minimum block size of 128 bytes 
There was already an assert for this, but because it included the
underlying equation for the requirement it was too confusing for
users that had no prior knowledge for why the assert could trigger.

The math works out such that 128 bytes is a reasonable minimum
requirement, so I've added that number as an explicit assert.
Hopefully this makes this sort of situation easier to debug.

Note that this requirement would need to be increased to 512 bytes if
block addresses are ever increased to 64-bits. DESIGN.md goes into more
detail why this is.
 2023-04-17 19:58:09 -05:00
Christopher Haster
aae897ffd0 Added an assert for truthy-preserving bool conversions 
This has caught enough people that an explicit assert is warranted.
How littlefs, a c99 project, should be integrated with c89 projects
is still an open question, but no one deserves to debug this sort of
undetected casting issue.

Found by johnernberg and XinStellaris
 2023-04-17 19:19:42 -05:00
Christopher Haster
e57402c8e9 Added ability to revert to inline file in lfs_file_truncate 
Before, once converted to a CTZ skip-list, a file would remain a CTZ
skip-list even if truncated back to a size that could be inlined.

This was just a shortcut in implementation. And since the fix for boundary
truncates needed special handling for size==0, it made sense to extend
this special condition to allow reverting to inline files.

---

The only case I can think of, where reverting to an inline file would be
detrimental, is if it's a readonly file that you would otherwise not need
to pay the metadata overhead for. But as a tradeoff, inlining the file
would free up the block it was on, so it's unclear if this really is
a net loss.

If the truncate is followed by a write, reverting to an inline file will
always be beneficial. We assume writes will change the data, so in the
non-inlined case there's no way to avoid copying the underlying block.
Even if we assume padding issues are solved.
 2023-04-17 18:18:06 -05:00
Christopher Haster
6dc18c38c1 Fixed block-boundary truncate issue 
There has been a bug in the filesystem for a while where truncating to a
block boundary suffers from an off-by-one mistake that corrupts the
internal representation of the CTZ skip-list.

This mostly appears when the file_size == block_size, as file_size >
block_size includes CTZ skip-list metadata, so the underlying block
boundaries appear at slightly different offsets.

---

The reason for off-by-one issue is a nuance in lfs_ctz_find that we sort
of abuse to get two different behaviors.

Consider the situation where this bug occurs:

   block 0     block 1
  .--------.  .--------.
  | abcdef |<-| {ptr0} |
  | ghijkl |  | yzabcd |
  | mnopqr |  |        |
  | stuvwx |  |        |
  '--------'  '--------'

With these 24-byte blocks, there's an ambiguity if we wanted to point to
offset 24. We could point before the block boundary, or we could point
after the block boundary

Before:

   block 0     block 1
  .--------.  .--------.
  | abcdef |<-| {ptr0} |
  | ghijkl |  | yzabcd |
  | mnopqr |  |        |
  | stuvwx |  |        |
  '-------^'  '--------'
          '-- off=24 is here

After:

   block 0     block 1
  .--------.  .--------.
  | abcdef |<-| {ptr0} |
  | ghijkl |  | yzabcd |
  | mnopqr |  | ^      |
  | stuvwx |  | |      |
  '--------'  '-|------'
                '-- off=24 is here

When we want these two offsets depends on the context. We want the
offset to be conservative if it represents a size, but eager if it is
being used to prepare a block for writing.

The workaround/hack is to prefer the eager offset, after the block boundary,
but use `size-1` as the argument if we need the conservative offset.

This finds the correct block, but is off-by-one in the calculated
block-offset. Fortunately we happen to not use the block-offset in the
places we need this workaround/hack.

---

To get back to the bug, the wrong mode of lfs_ctz_find was used in
lfs_file_truncate, leading to internal corruption of the CTZ skip-list.

The correct behavior is size-1, with care to avoid underflow.

Also I've tweaked the code to make it clear the calculated block-offset
goes unused in these situations.

Thanks to ghost, ajaybhargav, and others for reporting the issue,
colin-foster-advantage for a reproducible test case, and rvanschoren,
hgspbs for the initial solution.
 2023-04-17 17:49:57 -05:00
Christopher Haster
d5dc4872cb Expanded truncate tests to test more corner cases 
Removed the weird alignment requirement from the general truncate tests.
This explicitly hid off-by-one truncation errors.

These tests now reveal the same issue as the block-sized truncation test
while also testing for other potential off-by-one errors.
 2023-04-17 12:10:19 -05:00
Sosthène Guédon
24795e6b74 Add missing iterations in tests 2023-03-13 11:39:06 +01:00
Colin Foster
7b151e1abb Add test scenario for truncating to a block size 
When truncation is done on a file to the block size, there seems to be
an error where it points to an incorrect block. Perform a write /
truncate / readback operation to verify this issue.

Signed-off-by: Colin Foster <colin.foster@in-advantage.com>
 2023-01-26 11:55:53 -08:00
Christopher Haster
ba1c76435a Fixed issue where deorphan could get stuck circling between two half-orphans 
This of course should never happen normally, two half-orphans requires
two parents, which is disallowed in littlefs for this reason. But it can
happen if there is an outdated half-orphan later in the metadata
linked-list. The two half-orphans can cause the deorphan step to get
stuck, constantly "fixing" the first half-orphan before it has a chance
to remove the problematic, outdated half-orphan later in the list.

The solution here is to do a full check for half-orphans before
restarting the half-orphan loop. This strategy has the potential to
visit more metadata blocks unnecessarily, but avoids situations where
removing a later half-orphan will eventually cause an earlier
half-orphan to resolve itself.

Found with heuristic powerloss testing with test_relocations_reentrant_renames
after 192 nested powerlosses.
 2022-12-17 12:42:05 -06:00
Christopher Haster
d1b254da2c Reverted removal of 1-bit counter threaded through tags 
Initially I thought the fcrc would be sufficient for all of the
end-of-commit context, since indicating that there is a new commit is a
simple as invalidating the fcrc. But it turns out there are cases that
make this impossible.

The surprising, and actually common, case, is that of an fcrc that
will end up containing a full commit. This is common as soon as the
prog_size is big, as small commits are padded to the prog_size at
minimum.

  .------------------. \
  |     metadata     | |
  |                  | |
  |                  | +-.
  |------------------| | |
  |   foward CRC ------------.
  |------------------| / |   |
  |   commit CRC    -----'   |
  |------------------|       |
  |     padding      |       |
  |                  |       |
  |------------------| \   \ |
  |     metadata     | |   | |
  |                  | +-. | |
  |                  | | | +-'
  |------------------| / | |
  |   commit CRC --------' |
  |------------------|     |
  |                  |     /
  '------------------'

When the commit + crc is all contained in the fcrc, something silly
happens with the math behind crcs. Everything in the commit gets
canceled out:

  crc(m) = m(x) x^|P|-1 mod P(x)

  m ++ crc(m) = m(x) x^|P|-1 + (m(x) x^|P|-1 mod P(x))

  crc(m ++ crc(m)) = (m(x) x^|P|-1 + (m(x) x^|P|-1 mod P(x))) x^|P|-1 mod P(x)

  crc(m ++ crc(m)) = (m(x) x^|P|-1 + m(x) x^|P|-1) x^|P|-1 mod P(x)

  crc(m ++ crc(m)) = 0 * x^|P|-1 mod P(x)

This is the reason the crc of a message + naive crc is zero. Even with an
initializer/bit-fiddling, the crc of the whole commit ends up as some
constant.

So no manipulation of the commit can change the fcrc...

But even if this did work, or we changed this scheme to use two
different checksums, it would still require calculating the fcrc of
the whole commit to know if we need to tweak the first bit to invalidate
the unlikely-but-problematic case where we happen to match the fcrc. This
would add a large amount of complexity to the commit code.

It's much simpler and cheaper to keep the 1-bit counter in the tag, even
if it adds another moving part to the system.
 2022-12-17 12:42:05 -06:00
Christopher Haster
2f26966710 Continued implementation of forward-crcs, adopted new test runners 
This fixes most of the remaining bugs (except one with multiple padding
commits + noop erases in test_badblocks), with some other code tweaks.

The biggest change was dropping reliance on end-of-block commits to know
when to stop parsing commits. We can just continue to parse tags and
rely on the crc for catch bad commits, avoiding a backwards-compatiblity
hiccup. So no new commit tag.

Also renamed nprogcrc -> fcrc and commitcrc -> ccrc and made naming in
the code a bit more consistent.
 2022-12-17 12:42:05 -06:00
Christopher Haster
b4091c6871 Switched to separate-tag encoding of forward-looking CRCs 
Previously forward-looking CRCs was just two new CRC types, one for
commits with forward-looking CRCs, one without. These both contained the
CRC needed to complete the current commit (note that the commit CRC
must come last!).

         [--   32   --|--   32   --|--   32   --|--   32   --]
with:    [  crc3 tag  | nprog size |  nprog crc | commit crc ]
without: [  crc2 tag  | commit crc ]

This meant there had to be several checks for the two possible structure
sizes, messying up the implementation.

         [--   32   --|--   32   --|--   32   --|--   32   --|--   32   --]
with:    [nprogcrc tag| nprog size |  nprog crc | commit tag | commit crc ]
without: [ commit tag | commit crc ]

But we already have a mechanism for storing optional metadata! The
different metadata tags! So why not use a separate tage for the
forward-looking CRC, separate from the commit CRC?

I wasn't sure this would actually help that much, there are still
necessary conditions for wether or not a forward-looking CRC is there,
but in the end it simplified the code quite nicely, and resulted in a ~200 byte
code-cost saving.
 2022-12-17 12:42:05 -06:00
Christopher Haster
91ad673c45 Cleaned up a few additional commit corner cases 
- General cleanup from integration, including cleaning up some older
  commit code
- Partial-prog tests do not make sense when prog_size == block_size
  (there can't be partial-progs!)
- Fixed signed-comparison issue in modified filebd
 2022-12-17 12:42:05 -06:00
Christopher Haster
52dd83096b Initial implementation of forward-looking erase-state CRCs 
This change is necessary to handle out-of-order writes found by pjsg's
fuzzing work.

The problem is that it is possible for (non-NOR) block devices to write
pages in any order, or to even write random data in the case of a
power-loss. This breaks littlefs's use of the first bit in a page to
indicate the erase-state.

pjsg notes this behavior is documented in the W25Q here:
https://community.cypress.com/docs/DOC-10507

---

The basic idea here is to CRC the next page, and use this "erase-state CRC" to
check if the next page is erased and ready to accept programs.

.------------------. \   commit
|     metadata     | |
|                  | +---.
|                  | |   |
|------------------| |   |
| erase-state CRC -----. |
|------------------| | | |
|   commit CRC    ---|-|-'
|------------------| / |
|     padding      |   | padding (doesn't need CRC)
|                  |   |
|------------------| \ | next prog
|     erased?      | +-'
|        |         | |
|        v         | /
|                  |
|                  |
'------------------'

This is made a bit annoying since littlefs doesn't actually store the
page (prog_size) in the superblock, since it doesn't need to know the
size for any other operation. We can work around this by storing both
the CRC and size of the next page when necessary.

Another interesting note is that we don't need to any bit tweaking
information, since we read the next page every time we would need to
know how to clobber the erase-state CRC. And since we only read
prog_size, this works really well with our caching, since the caches
must be a multiple of prog_size.

This also brings back the internal lfs_bd_crc function, in which we can
use some optimizations added to lfs_bd_cmp.

Needs some cleanup but the idea is passing most relevant tests.
 2022-12-17 12:42:05 -06:00
Christopher Haster
1278ec1d08 Adopted Brent's algorithm for cycle detection 
The previous cycle detection algorithm (a naive check against the largest
possible tail list) is simple and gets the job done, but has the potential to
take a very long time on disks with many blocks. Brent's algorithm, on
the other hand, takes at most 2x the number of blocks in the tail list.

Originally naive cycle detection was chosen over Floyd's algorithm to
avoid the extra complexity of managing two desynced traversals for every
traversal of the tail list, but Brent's algorithm is very well suited for our
use case, requiring only we keep track of an additional mdir pointer on the
stack as we traverse.
 2022-12-17 12:41:39 -06:00
yomimono
d9333ecbd4 Add "chamelon" to the related projects section. 
"chamelon" implements a subset of littlefs (no global move state or
singly-linked list threaded through the directory tree) for use in the
MirageOS library operating system project. It is written entirely in
OCaml and is interoperable (with the above caveats) with the reference
implementation via FUSE.
 2022-08-02 11:53:22 -05:00
Tobias Nießen
3ae87f4e29 Add littlefs-disk-img-viewer to README 2021-06-21 18:52:00 +02:00
14 changed files with 2538 additions and 260 deletions
Expand all files Collapse all files

36
.github/workflows/test.yml vendored
View File

@@ -473,6 +473,42 @@ jobs:
path: status
retention-days: 1
# run compatibility tests using the current master as the previous version
test-compat:
runs-on: ubuntu-22.04
steps:
- uses: actions/checkout@v2
if: ${{github.event_name == 'pull_request'}}
# checkout the current pr target into lfsp
- uses: actions/checkout@v2
if: ${{github.event_name == 'pull_request'}}
with:
ref: ${{github.event.pull_request.base.ref}}
path: lfsp
- name: install
if: ${{github.event_name == 'pull_request'}}
run: |
# need a few things
sudo apt-get update -qq
sudo apt-get install -qq gcc python3 python3-pip
pip3 install toml
gcc --version
python3 --version
# adjust prefix of lfsp
- name: changeprefix
if: ${{github.event_name == 'pull_request'}}
run: |
./scripts/changeprefix.py lfs lfsp lfsp/*.h lfsp/*.c
- name: test-compat
if: ${{github.event_name == 'pull_request'}}
run: |
TESTS=tests/test_compat.toml \
SRC="$(find . lfsp -name '*.c' -maxdepth 1 \
-and -not -name '*.t.*' \
-and -not -name '*.b.*')" \
CFLAGS="-DLFSP=lfsp/lfsp.h" \
make test
# self-host with littlefs-fuse for a fuzz-like test
fuse:
runs-on: ubuntu-22.04

27
Makefile
View File

@@ -1,15 +1,5 @@
ifdef BUILDDIR
# bit of a hack, but we want to make sure BUILDDIR directory structure
# is correct before any commands
$(if $(findstring n,$(MAKEFLAGS)),, $(shell mkdir -p \
$(BUILDDIR)/ \
$(BUILDDIR)/bd \
$(BUILDDIR)/runners \
$(BUILDDIR)/tests \
$(BUILDDIR)/benches))
endif
# overrideable build dir, default is in-place
BUILDDIR ?= .
# overridable target/src/tools/flags/etc
ifneq ($(wildcard test.c main.c),)
TARGET ?= $(BUILDDIR)/lfs
@@ -163,6 +153,18 @@ TESTFLAGS += --perf-path="$(PERF)"
BENCHFLAGS += --perf-path="$(PERF)"
endif
# this is a bit of a hack, but we want to make sure the BUILDDIR
# directory structure is correct before we run any commands
ifneq ($(BUILDDIR),.)
$(if $(findstring n,$(MAKEFLAGS)),, $(shell mkdir -p \
$(addprefix $(BUILDDIR)/,$(dir \
$(SRC) \
$(TESTS) \
$(TEST_SRC) \
$(BENCHES) \
$(BENCH_SRC)))))
endif
# commands
@@ -514,6 +516,9 @@ $(BUILDDIR)/runners/bench_runner: $(BENCH_OBJ)
$(BUILDDIR)/%.o $(BUILDDIR)/%.ci: %.c
$(CC) -c -MMD $(CFLAGS) $< -o $(BUILDDIR)/$*.o
$(BUILDDIR)/%.o $(BUILDDIR)/%.ci: $(BUILDDIR)/%.c
$(CC) -c -MMD $(CFLAGS) $< -o $(BUILDDIR)/$*.o
$(BUILDDIR)/%.s: %.c
$(CC) -S $(CFLAGS) $< -o $@

13
README.md
View File

@@ -226,6 +226,13 @@ License Identifiers that are here available: http://spdx.org/licenses/
to create images of the filesystem on your PC. Check if littlefs will fit
your needs, create images for a later download to the target memory or
inspect the content of a binary image of the target memory.
- [littlefs2-rust] - A Rust wrapper for littlefs. This project allows you
to use littlefs in a Rust-friendly API, reaping the benefits of Rust's memory
safety and other guarantees.
- [littlefs-disk-img-viewer] - A memory-efficient web application for viewing
littlefs disk images in your web browser.
- [mklfs] - A command line tool built by the [Lua RTOS] guys for making
littlefs images from a host PC. Supports Windows, Mac OS, and Linux.
@@ -243,8 +250,12 @@ License Identifiers that are here available: http://spdx.org/licenses/
MCUs. It offers static wear-leveling and power-resilience with only a fixed
_O(|address|)_ pointer structure stored on each block and in RAM.
- [chamelon] - A pure-OCaml implementation of (most of) littlefs, designed for
use with the MirageOS library operating system project. It is interoperable
with the reference implementation, with some caveats.
[BSD-3-Clause]: https://spdx.org/licenses/BSD-3-Clause.html
[littlefs-disk-img-viewer]: https://github.com/tniessen/littlefs-disk-img-viewer
[littlefs-fuse]: https://github.com/geky/littlefs-fuse
[FUSE]: https://github.com/libfuse/libfuse
[littlefs-js]: https://github.com/geky/littlefs-js
@@ -256,3 +267,5 @@ License Identifiers that are here available: http://spdx.org/licenses/
[SPIFFS]: https://github.com/pellepl/spiffs
[Dhara]: https://github.com/dlbeer/dhara
[littlefs-python]: https://pypi.org/project/littlefs-python/
[littlefs2-rust]: https://crates.io/crates/littlefs2
[chamelon]: https://github.com/yomimono/chamelon

101
SPEC.md
View File

@@ -1,10 +1,10 @@
## littlefs technical specification
This is the technical specification of the little filesystem. This document
covers the technical details of how the littlefs is stored on disk for
introspection and tooling. This document assumes you are familiar with the
design of the littlefs, for more info on how littlefs works check
out [DESIGN.md](DESIGN.md).
This is the technical specification of the little filesystem with on-disk
version lfs2.1. This document covers the technical details of how the littlefs
is stored on disk for introspection and tooling. This document assumes you are
familiar with the design of the littlefs, for more info on how littlefs works
check out [DESIGN.md](DESIGN.md).
```
| | | .---._____
@@ -133,12 +133,6 @@ tags XORed together, starting with `0xffffffff`.
'-------------------' '-------------------'
```
One last thing to note before we get into the details around tag encoding. Each
tag contains a valid bit used to indicate if the tag and containing commit is
valid. This valid bit is the first bit found in the tag and the commit and can
be used to tell if we've attempted to write to the remaining space in the
block.
Here's a more complete example of metadata block containing 4 entries:
```
@@ -191,6 +185,53 @@ Here's a more complete example of metadata block containing 4 entries:
'---- most recent D
```
Two things to note before we get into the details around tag encoding:
1. Each tag contains a valid bit used to indicate if the tag and containing
commit is valid. After XORing, this bit should always be zero.
At the end of each commit, the valid bit of the previous tag is XORed
with the lowest bit in the type field of the CRC tag. This allows
the CRC tag to force the next commit to fail the valid bit test if it
has not yet been written to.
2. The valid bit alone is not enough info to know if the next commit has been
erased. We don't know the order bits will be programmed in a program block,
so it's possible that the next commit had an attempted program that left the
valid bit unchanged.
To ensure we only ever program erased bytes, each commit can contain an
optional forward-CRC (FCRC). An FCRC contains a checksum of some amount of
bytes in the next commit at the time it was erased.
```
.-------------------. \ \
| revision count | | |
|-------------------| | |
| metadata | | |
| | +---. +-- current commit
| | | | |
|-------------------| | | |
| FCRC ---|-. | |
|-------------------| / | | |
| CRC -----|-' /
|-------------------| |
| padding | | padding (does't need CRC)
| | |
|-------------------| \ | \
| erased? | +-' |
| | | | +-- next commit
| v | / |
| | /
| |
'-------------------'
```
If the FCRC is missing or the checksum does not match, we must assume a
commit was attempted but failed due to power-loss.
Note that end-of-block commits do not need an FCRC.
## Metadata tags
So in littlefs, 32-bit tags describe every type of metadata. And this means
@@ -785,3 +826,41 @@ CRC fields:
are made about the contents.
---
#### `0x5ff` LFS_TYPE_FCRC
Added in lfs2.1, the optional FCRC tag contains a checksum of some amount of
bytes in the next commit at the time it was erased. This allows us to ensure
that we only ever program erased bytes, even if a previous commit failed due
to power-loss.
When programming a commit, the FCRC size must be at least as large as the
program block size. However, the program block is not saved on disk, and can
change between mounts, so the FCRC size on disk may be different than the
current program block size.
If the FCRC is missing or the checksum does not match, we must assume a
commit was attempted but failed due to power-loss.
Layout of the FCRC tag:
```
tag data
[-- 32 --][-- 32 --|-- 32 --]
[1|- 11 -| 10 | 10 ][-- 32 --|-- 32 --]
^ ^ ^ ^ ^- fcrc size ^- fcrc
| | | '- size (8)
| | '------ id (0x3ff)
| '------------ type (0x5ff)
'----------------- valid bit
```
FCRC fields:
1. **FCRC size (32-bits)** - Number of bytes after this commit's CRC tag's
padding to include in the FCRC.
2. **FCRC (32-bits)** - CRC of the bytes after this commit's CRC tag's padding
when erased. Like the CRC tag, this uses a CRC-32 with a polynomial of
`0x04c11db7` initialized with `0xffffffff`.
---

9
bd/lfs_emubd.c
View File

@@ -584,13 +584,14 @@ lfs_emubd_swear_t lfs_emubd_wear(const struct lfs_config *cfg,
wear = 0;
}
LFS_EMUBD_TRACE("lfs_emubd_wear -> %"PRIu32, wear);
LFS_EMUBD_TRACE("lfs_emubd_wear -> %"PRIi32, wear);
return wear;
}
int lfs_emubd_setwear(const struct lfs_config *cfg,
lfs_block_t block, lfs_emubd_wear_t wear) {
LFS_EMUBD_TRACE("lfs_emubd_setwear(%p, %"PRIu32")", (void*)cfg, block);
LFS_EMUBD_TRACE("lfs_emubd_setwear(%p, %"PRIu32", %"PRIi32")",
(void*)cfg, block, wear);
lfs_emubd_t *bd = cfg->context;
// check if block is valid
@@ -599,12 +600,12 @@ int lfs_emubd_setwear(const struct lfs_config *cfg,
// set the wear
lfs_emubd_block_t *b = lfs_emubd_mutblock(cfg, &bd->blocks[block]);
if (!b) {
LFS_EMUBD_TRACE("lfs_emubd_setwear -> %"PRIu32, LFS_ERR_NOMEM);
LFS_EMUBD_TRACE("lfs_emubd_setwear -> %d", LFS_ERR_NOMEM);
return LFS_ERR_NOMEM;
}
b->wear = wear;
LFS_EMUBD_TRACE("lfs_emubd_setwear -> %"PRIu32, 0);
LFS_EMUBD_TRACE("lfs_emubd_setwear -> %d", 0);
return 0;
}

644
lfs.c
View File

@@ -135,14 +135,14 @@ static int lfs_bd_cmp(lfs_t *lfs,
uint8_t dat[8];
diff = lfs_min(size-i, sizeof(dat));
int res = lfs_bd_read(lfs,
int err = lfs_bd_read(lfs,
pcache, rcache, hint-i,
block, off+i, &dat, diff);
if (res) {
return res;
if (err) {
return err;
}
res = memcmp(dat, data + i, diff);
int res = memcmp(dat, data + i, diff);
if (res) {
return res < 0 ? LFS_CMP_LT : LFS_CMP_GT;
}
@@ -151,6 +151,27 @@ static int lfs_bd_cmp(lfs_t *lfs,
return LFS_CMP_EQ;
}
static int lfs_bd_crc(lfs_t *lfs,
const lfs_cache_t *pcache, lfs_cache_t *rcache, lfs_size_t hint,
lfs_block_t block, lfs_off_t off, lfs_size_t size, uint32_t *crc) {
lfs_size_t diff = 0;
for (lfs_off_t i = 0; i < size; i += diff) {
uint8_t dat[8];
diff = lfs_min(size-i, sizeof(dat));
int err = lfs_bd_read(lfs,
pcache, rcache, hint-i,
block, off+i, &dat, diff);
if (err) {
return err;
}
*crc = lfs_crc(*crc, &dat, diff);
}
return 0;
}
#ifndef LFS_READONLY
static int lfs_bd_flush(lfs_t *lfs,
lfs_cache_t *pcache, lfs_cache_t *rcache, bool validate) {
@@ -279,14 +300,12 @@ static inline int lfs_pair_cmp(
paira[0] == pairb[1] || paira[1] == pairb[0]);
}
#ifndef LFS_READONLY
static inline bool lfs_pair_sync(
static inline bool lfs_pair_issync(
const lfs_block_t paira[2],
const lfs_block_t pairb[2]) {
return (paira[0] == pairb[0] && paira[1] == pairb[1]) ||
(paira[0] == pairb[1] && paira[1] == pairb[0]);
}
#endif
static inline void lfs_pair_fromle32(lfs_block_t pair[2]) {
pair[0] = lfs_fromle32(pair[0]);
@@ -325,6 +344,10 @@ static inline uint16_t lfs_tag_type1(lfs_tag_t tag) {
return (tag & 0x70000000) >> 20;
}
static inline uint16_t lfs_tag_type2(lfs_tag_t tag) {
return (tag & 0x78000000) >> 20;
}
static inline uint16_t lfs_tag_type3(lfs_tag_t tag) {
return (tag & 0x7ff00000) >> 20;
}
@@ -386,12 +409,16 @@ static inline bool lfs_gstate_hasorphans(const lfs_gstate_t *a) {
}
static inline uint8_t lfs_gstate_getorphans(const lfs_gstate_t *a) {
return lfs_tag_size(a->tag);
return lfs_tag_size(a->tag) & 0x1ff;
}
static inline bool lfs_gstate_hasmove(const lfs_gstate_t *a) {
return lfs_tag_type1(a->tag);
}
static inline bool lfs_gstate_needssuperblock(const lfs_gstate_t *a) {
return lfs_tag_size(a->tag) >> 9;
}
#endif
static inline bool lfs_gstate_hasmovehere(const lfs_gstate_t *a,
@@ -413,6 +440,24 @@ static inline void lfs_gstate_tole32(lfs_gstate_t *a) {
}
#endif
// operations on forward-CRCs used to track erased state
struct lfs_fcrc {
lfs_size_t size;
uint32_t crc;
};
static void lfs_fcrc_fromle32(struct lfs_fcrc *fcrc) {
fcrc->size = lfs_fromle32(fcrc->size);
fcrc->crc = lfs_fromle32(fcrc->crc);
}
#ifndef LFS_READONLY
static void lfs_fcrc_tole32(struct lfs_fcrc *fcrc) {
fcrc->size = lfs_tole32(fcrc->size);
fcrc->crc = lfs_tole32(fcrc->crc);
}
#endif
// other endianness operations
static void lfs_ctz_fromle32(struct lfs_ctz *ctz) {
ctz->head = lfs_fromle32(ctz->head);
@@ -490,6 +535,7 @@ static int lfs_file_outline(lfs_t *lfs, lfs_file_t *file);
static int lfs_file_flush(lfs_t *lfs, lfs_file_t *file);
static int lfs_fs_deorphan(lfs_t *lfs, bool powerloss);
static void lfs_fs_prepsuperblock(lfs_t *lfs, bool needssuperblock);
static int lfs_fs_preporphans(lfs_t *lfs, int8_t orphans);
static void lfs_fs_prepmove(lfs_t *lfs,
uint16_t id, const lfs_block_t pair[2]);
@@ -1035,6 +1081,11 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
bool tempsplit = false;
lfs_stag_t tempbesttag = besttag;
// assume not erased until proven otherwise
bool maybeerased = false;
bool hasfcrc = false;
struct lfs_fcrc fcrc;
dir->rev = lfs_tole32(dir->rev);
uint32_t crc = lfs_crc(0xffffffff, &dir->rev, sizeof(dir->rev));
dir->rev = lfs_fromle32(dir->rev);
@@ -1049,7 +1100,6 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
if (err) {
if (err == LFS_ERR_CORRUPT) {
// can't continue?
dir->erased = false;
break;
}
return err;
@@ -1058,19 +1108,18 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
crc = lfs_crc(crc, &tag, sizeof(tag));
tag = lfs_frombe32(tag) ^ ptag;
// next commit not yet programmed or we're not in valid range
// next commit not yet programmed?
if (!lfs_tag_isvalid(tag)) {
dir->erased = (lfs_tag_type1(ptag) == LFS_TYPE_CRC &&
dir->off % lfs->cfg->prog_size == 0);
maybeerased = true;
break;
// out of range?
} else if (off + lfs_tag_dsize(tag) > lfs->cfg->block_size) {
dir->erased = false;
break;
}
ptag = tag;
if (lfs_tag_type1(tag) == LFS_TYPE_CRC) {
if (lfs_tag_type2(tag) == LFS_TYPE_CCRC) {
// check the crc attr
uint32_t dcrc;
err = lfs_bd_read(lfs,
@@ -1078,7 +1127,6 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
dir->pair[0], off+sizeof(tag), &dcrc, sizeof(dcrc));
if (err) {
if (err == LFS_ERR_CORRUPT) {
dir->erased = false;
break;
}
return err;
@@ -1086,7 +1134,6 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
dcrc = lfs_fromle32(dcrc);
if (crc != dcrc) {
dir->erased = false;
break;
}
@@ -1113,21 +1160,19 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
continue;
}
// crc the entry first, hopefully leaving it in the cache
for (lfs_off_t j = sizeof(tag); j < lfs_tag_dsize(tag); j++) {
uint8_t dat;
err = lfs_bd_read(lfs,
NULL, &lfs->rcache, lfs->cfg->block_size,
dir->pair[0], off+j, &dat, 1);
if (err) {
if (err == LFS_ERR_CORRUPT) {
dir->erased = false;
break;
}
return err;
}
// fcrc is only valid when last tag was a crc
hasfcrc = false;
crc = lfs_crc(crc, &dat, 1);
// crc the entry first, hopefully leaving it in the cache
err = lfs_bd_crc(lfs,
NULL, &lfs->rcache, lfs->cfg->block_size,
dir->pair[0], off+sizeof(tag),
lfs_tag_dsize(tag)-sizeof(tag), &crc);
if (err) {
if (err == LFS_ERR_CORRUPT) {
break;
}
return err;
}
// directory modification tags?
@@ -1154,12 +1199,24 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
dir->pair[0], off+sizeof(tag), &temptail, 8);
if (err) {
if (err == LFS_ERR_CORRUPT) {
dir->erased = false;
break;
}
return err;
}
lfs_pair_fromle32(temptail);
} else if (lfs_tag_type3(tag) == LFS_TYPE_FCRC) {
err = lfs_bd_read(lfs,
NULL, &lfs->rcache, lfs->cfg->block_size,
dir->pair[0], off+sizeof(tag),
&fcrc, sizeof(fcrc));
if (err) {
if (err == LFS_ERR_CORRUPT) {
break;
}
}
lfs_fcrc_fromle32(&fcrc);
hasfcrc = true;
}
// found a match for our fetcher?
@@ -1168,7 +1225,6 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
dir->pair[0], off+sizeof(tag)});
if (res < 0) {
if (res == LFS_ERR_CORRUPT) {
dir->erased = false;
break;
}
return res;
@@ -1190,35 +1246,54 @@ static lfs_stag_t lfs_dir_fetchmatch(lfs_t *lfs,
}
}
// consider what we have good enough
if (dir->off > 0) {
// synthetic move
if (lfs_gstate_hasmovehere(&lfs->gdisk, dir->pair)) {
if (lfs_tag_id(lfs->gdisk.tag) == lfs_tag_id(besttag)) {
besttag |= 0x80000000;
} else if (besttag != -1 &&
lfs_tag_id(lfs->gdisk.tag) < lfs_tag_id(besttag)) {
besttag -= LFS_MKTAG(0, 1, 0);
}
// found no valid commits?
if (dir->off == 0) {
// try the other block?
lfs_pair_swap(dir->pair);
dir->rev = revs[(r+1)%2];
continue;
}
// did we end on a valid commit? we may have an erased block
dir->erased = false;
if (maybeerased && hasfcrc && dir->off % lfs->cfg->prog_size == 0) {
// check for an fcrc matching the next prog's erased state, if
// this failed most likely a previous prog was interrupted, we
// need a new erase
uint32_t fcrc_ = 0xffffffff;
int err = lfs_bd_crc(lfs,
NULL, &lfs->rcache, lfs->cfg->block_size,
dir->pair[0], dir->off, fcrc.size, &fcrc_);
if (err && err != LFS_ERR_CORRUPT) {
return err;
}
// found tag? or found best id?
if (id) {
*id = lfs_min(lfs_tag_id(besttag), dir->count);
}
// found beginning of erased part?
dir->erased = (fcrc_ == fcrc.crc);
}
if (lfs_tag_isvalid(besttag)) {
return besttag;
} else if (lfs_tag_id(besttag) < dir->count) {
return LFS_ERR_NOENT;
} else {
return 0;
// synthetic move
if (lfs_gstate_hasmovehere(&lfs->gdisk, dir->pair)) {
if (lfs_tag_id(lfs->gdisk.tag) == lfs_tag_id(besttag)) {
besttag |= 0x80000000;
} else if (besttag != -1 &&
lfs_tag_id(lfs->gdisk.tag) < lfs_tag_id(besttag)) {
besttag -= LFS_MKTAG(0, 1, 0);
}
}
// failed, try the other block?
lfs_pair_swap(dir->pair);
dir->rev = revs[(r+1)%2];
// found tag? or found best id?
if (id) {
*id = lfs_min(lfs_tag_id(besttag), dir->count);
}
if (lfs_tag_isvalid(besttag)) {
return besttag;
} else if (lfs_tag_id(besttag) < dir->count) {
return LFS_ERR_NOENT;
} else {
return 0;
}
}
LFS_ERROR("Corrupted dir pair at {0x%"PRIx32", 0x%"PRIx32"}",
@@ -1492,9 +1567,15 @@ static int lfs_dir_commitattr(lfs_t *lfs, struct lfs_commit *commit,
#endif
#ifndef LFS_READONLY
static int lfs_dir_commitcrc(lfs_t *lfs, struct lfs_commit *commit) {
// align to program units
const lfs_off_t end = lfs_alignup(commit->off + 2*sizeof(uint32_t),
//
// this gets a bit complex as we have two types of crcs:
// - 5-word crc with fcrc to check following prog (middle of block)
// - 2-word crc with no following prog (end of block)
const lfs_off_t end = lfs_alignup(
lfs_min(commit->off + 5*sizeof(uint32_t), lfs->cfg->block_size),
lfs->cfg->prog_size);
lfs_off_t off1 = 0;
@@ -1504,89 +1585,116 @@ static int lfs_dir_commitcrc(lfs_t *lfs, struct lfs_commit *commit) {
// padding is not crced, which lets fetches skip padding but
// makes committing a bit more complicated
while (commit->off < end) {
lfs_off_t off = commit->off + sizeof(lfs_tag_t);
lfs_off_t noff = lfs_min(end - off, 0x3fe) + off;
lfs_off_t noff = (
lfs_min(end - (commit->off+sizeof(lfs_tag_t)), 0x3fe)
+ (commit->off+sizeof(lfs_tag_t)));
// too large for crc tag? need padding commits
if (noff < end) {
noff = lfs_min(noff, end - 2*sizeof(uint32_t));
noff = lfs_min(noff, end - 5*sizeof(uint32_t));
}
// read erased state from next program unit
lfs_tag_t tag = 0xffffffff;
int err = lfs_bd_read(lfs,
NULL, &lfs->rcache, sizeof(tag),
commit->block, noff, &tag, sizeof(tag));
if (err && err != LFS_ERR_CORRUPT) {
return err;
// space for fcrc?
uint8_t eperturb = -1;
if (noff >= end && noff <= lfs->cfg->block_size - lfs->cfg->prog_size) {
// first read the leading byte, this always contains a bit
// we can perturb to avoid writes that don't change the fcrc
int err = lfs_bd_read(lfs,
NULL, &lfs->rcache, lfs->cfg->prog_size,
commit->block, noff, &eperturb, 1);
if (err && err != LFS_ERR_CORRUPT) {
return err;
}
// find the expected fcrc, don't bother avoiding a reread
// of the eperturb, it should still be in our cache
struct lfs_fcrc fcrc = {.size=lfs->cfg->prog_size, .crc=0xffffffff};
err = lfs_bd_crc(lfs,
NULL, &lfs->rcache, lfs->cfg->prog_size,
commit->block, noff, fcrc.size, &fcrc.crc);
if (err && err != LFS_ERR_CORRUPT) {
return err;
}
lfs_fcrc_tole32(&fcrc);
err = lfs_dir_commitattr(lfs, commit,
LFS_MKTAG(LFS_TYPE_FCRC, 0x3ff, sizeof(struct lfs_fcrc)),
&fcrc);
if (err) {
return err;
}
}
// build crc tag
bool reset = ~lfs_frombe32(tag) >> 31;
tag = LFS_MKTAG(LFS_TYPE_CRC + reset, 0x3ff, noff - off);
// build commit crc
struct {
lfs_tag_t tag;
uint32_t crc;
} ccrc;
lfs_tag_t ntag = LFS_MKTAG(
LFS_TYPE_CCRC + (((uint8_t)~eperturb) >> 7), 0x3ff,
noff - (commit->off+sizeof(lfs_tag_t)));
ccrc.tag = lfs_tobe32(ntag ^ commit->ptag);
commit->crc = lfs_crc(commit->crc, &ccrc.tag, sizeof(lfs_tag_t));
ccrc.crc = lfs_tole32(commit->crc);
// write out crc
uint32_t footer[2];
footer[0] = lfs_tobe32(tag ^ commit->ptag);
commit->crc = lfs_crc(commit->crc, &footer[0], sizeof(footer[0]));
footer[1] = lfs_tole32(commit->crc);
err = lfs_bd_prog(lfs,
int err = lfs_bd_prog(lfs,
&lfs->pcache, &lfs->rcache, false,
commit->block, commit->off, &footer, sizeof(footer));
commit->block, commit->off, &ccrc, sizeof(ccrc));
if (err) {
return err;
}
// keep track of non-padding checksum to verify
if (off1 == 0) {
off1 = commit->off + sizeof(uint32_t);
off1 = commit->off + sizeof(lfs_tag_t);
crc1 = commit->crc;
}
commit->off += sizeof(tag)+lfs_tag_size(tag);
commit->ptag = tag ^ ((lfs_tag_t)reset << 31);
commit->crc = 0xffffffff; // reset crc for next "commit"
commit->off = noff;
// perturb valid bit?
commit->ptag = ntag ^ ((0x80 & ~eperturb) << 24);
// reset crc for next commit
commit->crc = 0xffffffff;
// manually flush here since we don't prog the padding, this confuses
// the caching layer
if (noff >= end || noff >= lfs->pcache.off + lfs->cfg->cache_size) {
// flush buffers
int err = lfs_bd_sync(lfs, &lfs->pcache, &lfs->rcache, false);
if (err) {
return err;
}
}
}
// flush buffers
int err = lfs_bd_sync(lfs, &lfs->pcache, &lfs->rcache, false);
// successful commit, check checksums to make sure
//
// note that we don't need to check padding commits, worst
// case if they are corrupted we would have had to compact anyways
lfs_off_t off = commit->begin;
uint32_t crc = 0xffffffff;
int err = lfs_bd_crc(lfs,
NULL, &lfs->rcache, off1+sizeof(uint32_t),
commit->block, off, off1-off, &crc);
if (err) {
return err;
}
// successful commit, check checksums to make sure
lfs_off_t off = commit->begin;
lfs_off_t noff = off1;
while (off < end) {
uint32_t crc = 0xffffffff;
for (lfs_off_t i = off; i < noff+sizeof(uint32_t); i++) {
// check against written crc, may catch blocks that
// become readonly and match our commit size exactly
if (i == off1 && crc != crc1) {
return LFS_ERR_CORRUPT;
}
// check non-padding commits against known crc
if (crc != crc1) {
return LFS_ERR_CORRUPT;
}
// leave it up to caching to make this efficient
uint8_t dat;
err = lfs_bd_read(lfs,
NULL, &lfs->rcache, noff+sizeof(uint32_t)-i,
commit->block, i, &dat, 1);
if (err) {
return err;
}
// make sure to check crc in case we happen to pick
// up an unrelated crc (frozen block?)
err = lfs_bd_crc(lfs,
NULL, &lfs->rcache, sizeof(uint32_t),
commit->block, off1, sizeof(uint32_t), &crc);
if (err) {
return err;
}
crc = lfs_crc(crc, &dat, 1);
}
// detected write error?
if (crc != 0) {
return LFS_ERR_CORRUPT;
}
// skip padding
off = lfs_min(end - noff, 0x3fe) + noff;
if (off < end) {
off = lfs_min(off, end - 2*sizeof(uint32_t));
}
noff = off + sizeof(uint32_t);
if (crc != 0) {
return LFS_ERR_CORRUPT;
}
return 0;
@@ -2604,11 +2712,6 @@ static int lfs_dir_rawseek(lfs_t *lfs, lfs_dir_t *dir, lfs_off_t off) {
dir->id = (off > 0 && lfs_pair_cmp(dir->head, lfs->root) == 0);
while (off > 0) {
int diff = lfs_min(dir->m.count - dir->id, off);
dir->id += diff;
dir->pos += diff;
off -= diff;
if (dir->id == dir->m.count) {
if (!dir->m.split) {
return LFS_ERR_INVAL;
@@ -2621,6 +2724,11 @@ static int lfs_dir_rawseek(lfs_t *lfs, lfs_dir_t *dir, lfs_off_t off) {
dir->id = 0;
}
int diff = lfs_min(dir->m.count - dir->id, off);
dir->id += diff;
dir->pos += diff;
off -= diff;
}
return 0;
@@ -3357,7 +3465,7 @@ static lfs_ssize_t lfs_file_flushedwrite(lfs_t *lfs, lfs_file_t *file,
// find out which block we're extending from
int err = lfs_ctz_find(lfs, NULL, &file->cache,
file->ctz.head, file->ctz.size,
file->pos-1, &file->block, &file->off);
file->pos-1, &file->block, &(lfs_off_t){0});
if (err) {
file->flags |= LFS_F_ERRED;
return err;
@@ -3535,26 +3643,55 @@ static int lfs_file_rawtruncate(lfs_t *lfs, lfs_file_t *file, lfs_off_t size) {
lfs_off_t pos = file->pos;
lfs_off_t oldsize = lfs_file_rawsize(lfs, file);
if (size < oldsize) {
// need to flush since directly changing metadata
int err = lfs_file_flush(lfs, file);
if (err) {
return err;
}
// revert to inline file?
if (size <= lfs_min(0x3fe, lfs_min(
lfs->cfg->cache_size,
(lfs->cfg->metadata_max ?
lfs->cfg->metadata_max : lfs->cfg->block_size) / 8))) {
// flush+seek to head
lfs_soff_t res = lfs_file_rawseek(lfs, file, 0, LFS_SEEK_SET);
if (res < 0) {
return (int)res;
}
// lookup new head in ctz skip list
err = lfs_ctz_find(lfs, NULL, &file->cache,
file->ctz.head, file->ctz.size,
size, &file->block, &file->off);
if (err) {
return err;
}
// read our data into rcache temporarily
lfs_cache_drop(lfs, &lfs->rcache);
res = lfs_file_flushedread(lfs, file,
lfs->rcache.buffer, size);
if (res < 0) {
return (int)res;
}
// need to set pos/block/off consistently so seeking back to
// the old position does not get confused
file->pos = size;
file->ctz.head = file->block;
file->ctz.size = size;
file->flags |= LFS_F_DIRTY | LFS_F_READING;
file->ctz.head = LFS_BLOCK_INLINE;
file->ctz.size = size;
file->flags |= LFS_F_DIRTY | LFS_F_READING | LFS_F_INLINE;
file->cache.block = file->ctz.head;
file->cache.off = 0;
file->cache.size = lfs->cfg->cache_size;
memcpy(file->cache.buffer, lfs->rcache.buffer, size);
} else {
// need to flush since directly changing metadata
int err = lfs_file_flush(lfs, file);
if (err) {
return err;
}
// lookup new head in ctz skip list
err = lfs_ctz_find(lfs, NULL, &file->cache,
file->ctz.head, file->ctz.size,
size-1, &file->block, &(lfs_off_t){0});
if (err) {
return err;
}
// need to set pos/block/off consistently so seeking back to
// the old position does not get confused
file->pos = size;
file->ctz.head = file->block;
file->ctz.size = size;
file->flags |= LFS_F_DIRTY | LFS_F_READING;
}
} else if (size > oldsize) {
// flush+seek if not already at end
lfs_soff_t res = lfs_file_rawseek(lfs, file, 0, LFS_SEEK_END);
@@ -3914,6 +4051,12 @@ static int lfs_init(lfs_t *lfs, const struct lfs_config *cfg) {
lfs->cfg = cfg;
int err = 0;
// check that bool is a truthy-preserving type
//
// note the most common reason for this failure is a before-c99 compiler,
// which littlefs currently does not support
LFS_ASSERT((bool)0x80000000);
// validate that the lfs-cfg sizes were initiated properly before
// performing any arithmetic logics with them
LFS_ASSERT(lfs->cfg->read_size != 0);
@@ -3926,7 +4069,10 @@ static int lfs_init(lfs_t *lfs, const struct lfs_config *cfg) {
LFS_ASSERT(lfs->cfg->cache_size % lfs->cfg->prog_size == 0);
LFS_ASSERT(lfs->cfg->block_size % lfs->cfg->cache_size == 0);
// check that the block size is large enough to fit ctz pointers
// check that the block size is large enough to fit all ctz pointers
LFS_ASSERT(lfs->cfg->block_size >= 128);
// this is the exact calculation for all ctz pointers, if this fails
// and the simpler assert above does not, math must be broken
LFS_ASSERT(4*lfs_npw2(0xffffffff / (lfs->cfg->block_size-2*4))
<= lfs->cfg->block_size);
@@ -4110,14 +4256,23 @@ static int lfs_rawmount(lfs_t *lfs, const struct lfs_config *cfg) {
// scan directory blocks for superblock and any global updates
lfs_mdir_t dir = {.tail = {0, 1}};
lfs_block_t cycle = 0;
lfs_block_t tortoise[2] = {LFS_BLOCK_NULL, LFS_BLOCK_NULL};
lfs_size_t tortoise_i = 1;
lfs_size_t tortoise_period = 1;
while (!lfs_pair_isnull(dir.tail)) {
if (cycle >= lfs->cfg->block_count/2) {
// loop detected
// detect cycles with Brent's algorithm
if (lfs_pair_issync(dir.tail, tortoise)) {
LFS_WARN("Cycle detected in tail list");
err = LFS_ERR_CORRUPT;
goto cleanup;
}
cycle += 1;
if (tortoise_i == tortoise_period) {
tortoise[0] = dir.tail[0];
tortoise[1] = dir.tail[1];
tortoise_i = 0;
tortoise_period *= 2;
}
tortoise_i += 1;
// fetch next block in tail list
lfs_stag_t tag = lfs_dir_fetchmatch(lfs, &dir, dir.tail,
@@ -4153,12 +4308,29 @@ static int lfs_rawmount(lfs_t *lfs, const struct lfs_config *cfg) {
uint16_t minor_version = (0xffff & (superblock.version >> 0));
if ((major_version != LFS_DISK_VERSION_MAJOR ||
minor_version > LFS_DISK_VERSION_MINOR)) {
LFS_ERROR("Invalid version v%"PRIu16".%"PRIu16,
major_version, minor_version);
LFS_ERROR("Invalid version "
"v%"PRIu16".%"PRIu16" != v%"PRIu16".%"PRIu16,
major_version, minor_version,
LFS_DISK_VERSION_MAJOR, LFS_DISK_VERSION_MINOR);
err = LFS_ERR_INVAL;
goto cleanup;
}
// found older minor version? set an in-device only bit in the
// gstate so we know we need to rewrite the superblock before
// the first write
if (minor_version < LFS_DISK_VERSION_MINOR) {
LFS_DEBUG("Found older minor version "
"v%"PRIu16".%"PRIu16" < v%"PRIu16".%"PRIu16,
major_version, minor_version,
LFS_DISK_VERSION_MAJOR, LFS_DISK_VERSION_MINOR);
#ifndef LFS_READONLY
// note this bit is reserved on disk, so fetching more gstate
// will not interfere here
lfs_fs_prepsuperblock(lfs, true);
#endif
}
// check superblock configuration
if (superblock.name_max) {
if (superblock.name_max > lfs->name_max) {
@@ -4268,13 +4440,22 @@ int lfs_fs_rawtraverse(lfs_t *lfs,
}
#endif
lfs_block_t cycle = 0;
lfs_block_t tortoise[2] = {LFS_BLOCK_NULL, LFS_BLOCK_NULL};
lfs_size_t tortoise_i = 1;
lfs_size_t tortoise_period = 1;
while (!lfs_pair_isnull(dir.tail)) {
if (cycle >= lfs->cfg->block_count/2) {
// loop detected
// detect cycles with Brent's algorithm
if (lfs_pair_issync(dir.tail, tortoise)) {
LFS_WARN("Cycle detected in tail list");
return LFS_ERR_CORRUPT;
}
cycle += 1;
if (tortoise_i == tortoise_period) {
tortoise[0] = dir.tail[0];
tortoise[1] = dir.tail[1];
tortoise_i = 0;
tortoise_period *= 2;
}
tortoise_i += 1;
for (int i = 0; i < 2; i++) {
int err = cb(data, dir.tail[i]);
@@ -4353,13 +4534,22 @@ static int lfs_fs_pred(lfs_t *lfs,
// iterate over all directory directory entries
pdir->tail[0] = 0;
pdir->tail[1] = 1;
lfs_block_t cycle = 0;
lfs_block_t tortoise[2] = {LFS_BLOCK_NULL, LFS_BLOCK_NULL};
lfs_size_t tortoise_i = 1;
lfs_size_t tortoise_period = 1;
while (!lfs_pair_isnull(pdir->tail)) {
if (cycle >= lfs->cfg->block_count/2) {
// loop detected
// detect cycles with Brent's algorithm
if (lfs_pair_issync(pdir->tail, tortoise)) {
LFS_WARN("Cycle detected in tail list");
return LFS_ERR_CORRUPT;
}
cycle += 1;
if (tortoise_i == tortoise_period) {
tortoise[0] = pdir->tail[0];
tortoise[1] = pdir->tail[1];
tortoise_i = 0;
tortoise_period *= 2;
}
tortoise_i += 1;
if (lfs_pair_cmp(pdir->tail, pair) == 0) {
return 0;
@@ -4409,13 +4599,22 @@ static lfs_stag_t lfs_fs_parent(lfs_t *lfs, const lfs_block_t pair[2],
// use fetchmatch with callback to find pairs
parent->tail[0] = 0;
parent->tail[1] = 1;
lfs_block_t cycle = 0;
lfs_block_t tortoise[2] = {LFS_BLOCK_NULL, LFS_BLOCK_NULL};
lfs_size_t tortoise_i = 1;
lfs_size_t tortoise_period = 1;
while (!lfs_pair_isnull(parent->tail)) {
if (cycle >= lfs->cfg->block_count/2) {
// loop detected
// detect cycles with Brent's algorithm
if (lfs_pair_issync(parent->tail, tortoise)) {
LFS_WARN("Cycle detected in tail list");
return LFS_ERR_CORRUPT;
}
cycle += 1;
if (tortoise_i == tortoise_period) {
tortoise[0] = parent->tail[0];
tortoise[1] = parent->tail[1];
tortoise_i = 0;
tortoise_period *= 2;
}
tortoise_i += 1;
lfs_stag_t tag = lfs_dir_fetchmatch(lfs, parent, parent->tail,
LFS_MKTAG(0x7ff, 0, 0x3ff),
@@ -4432,9 +4631,17 @@ static lfs_stag_t lfs_fs_parent(lfs_t *lfs, const lfs_block_t pair[2],
}
#endif
#ifndef LFS_READONLY
static void lfs_fs_prepsuperblock(lfs_t *lfs, bool needssuperblock) {
lfs->gstate.tag = (lfs->gstate.tag & ~LFS_MKTAG(0, 0, 0x200))
| (uint32_t)needssuperblock << 9;
}
#endif
#ifndef LFS_READONLY
static int lfs_fs_preporphans(lfs_t *lfs, int8_t orphans) {
LFS_ASSERT(lfs_tag_size(lfs->gstate.tag) > 0 || orphans >= 0);
LFS_ASSERT(lfs_tag_size(lfs->gstate.tag) > 0x000 || orphans >= 0);
LFS_ASSERT(lfs_tag_size(lfs->gstate.tag) < 0x1ff || orphans <= 0);
lfs->gstate.tag += orphans;
lfs->gstate.tag = ((lfs->gstate.tag & ~LFS_MKTAG(0x800, 0, 0)) |
((uint32_t)lfs_gstate_hasorphans(&lfs->gstate) << 31));
@@ -4453,6 +4660,45 @@ static void lfs_fs_prepmove(lfs_t *lfs,
}
#endif
#ifndef LFS_READONLY
static int lfs_fs_desuperblock(lfs_t *lfs) {
if (!lfs_gstate_needssuperblock(&lfs->gstate)) {
return 0;
}
LFS_DEBUG("Rewriting superblock {0x%"PRIx32", 0x%"PRIx32"}",
lfs->root[0],
lfs->root[1]);
lfs_mdir_t root;
int err = lfs_dir_fetch(lfs, &root, lfs->root);
if (err) {
return err;
}
// write a new superblock
lfs_superblock_t superblock = {
.version = LFS_DISK_VERSION,
.block_size = lfs->cfg->block_size,
.block_count = lfs->cfg->block_count,
.name_max = lfs->name_max,
.file_max = lfs->file_max,
.attr_max = lfs->attr_max,
};
lfs_superblock_tole32(&superblock);
err = lfs_dir_commit(lfs, &root, LFS_MKATTRS(
{LFS_MKTAG(LFS_TYPE_INLINESTRUCT, 0, sizeof(superblock)),
&superblock}));
if (err) {
return err;
}
lfs_fs_prepsuperblock(lfs, false);
return 0;
}
#endif
#ifndef LFS_READONLY
static int lfs_fs_demove(lfs_t *lfs) {
if (!lfs_gstate_hasmove(&lfs->gdisk)) {
@@ -4465,6 +4711,10 @@ static int lfs_fs_demove(lfs_t *lfs) {
lfs->gdisk.pair[1],
lfs_tag_id(lfs->gdisk.tag));
// no other gstate is supported at this time, so if we found something else
// something most likely went wrong in gstate calculation
LFS_ASSERT(lfs_tag_type3(lfs->gdisk.tag) == LFS_TYPE_DELETE);
// fetch and delete the moved entry
lfs_mdir_t movedir;
int err = lfs_dir_fetch(lfs, &movedir, lfs->gdisk.pair);
@@ -4491,9 +4741,6 @@ static int lfs_fs_deorphan(lfs_t *lfs, bool powerloss) {
return 0;
}
int8_t found = 0;
restart:
// Check for orphans in two separate passes:
// - 1 for half-orphans (relocations)
// - 2 for full-orphans (removes/renames)
@@ -4502,10 +4749,12 @@ restart:
// references to full-orphans, effectively hiding them from the deorphan
// search.
//
for (int pass = 0; pass < 2; pass++) {
int pass = 0;
while (pass < 2) {
// Fix any orphans
lfs_mdir_t pdir = {.split = true, .tail = {0, 1}};
lfs_mdir_t dir;
bool moreorphans = false;
// iterate over all directory directory entries
while (!lfs_pair_isnull(pdir.tail)) {
@@ -4532,7 +4781,7 @@ restart:
}
lfs_pair_fromle32(pair);
if (!lfs_pair_sync(pair, pdir.tail)) {
if (!lfs_pair_issync(pair, pdir.tail)) {
// we have desynced
LFS_DEBUG("Fixing half-orphan "
"{0x%"PRIx32", 0x%"PRIx32"} "
@@ -4562,11 +4811,9 @@ restart:
return state;
}
found += 1;
// did our commit create more orphans?
if (state == LFS_OK_ORPHANED) {
goto restart;
moreorphans = true;
}
// refetch tail
@@ -4598,11 +4845,9 @@ restart:
return state;
}
found += 1;
// did our commit create more orphans?
if (state == LFS_OK_ORPHANED) {
goto restart;
moreorphans = true;
}
// refetch tail
@@ -4612,18 +4857,23 @@ restart:
pdir = dir;
}
pass = moreorphans ? 0 : pass+1;
}
// mark orphans as fixed
return lfs_fs_preporphans(lfs, -lfs_min(
lfs_gstate_getorphans(&lfs->gstate),
found));
return lfs_fs_preporphans(lfs, -lfs_gstate_getorphans(&lfs->gstate));
}
#endif
#ifndef LFS_READONLY
static int lfs_fs_forceconsistency(lfs_t *lfs) {
int err = lfs_fs_demove(lfs);
int err = lfs_fs_desuperblock(lfs);
if (err) {
return err;
}
err = lfs_fs_demove(lfs);
if (err) {
return err;
}
@@ -4637,6 +4887,36 @@ static int lfs_fs_forceconsistency(lfs_t *lfs) {
}
#endif
#ifndef LFS_READONLY
int lfs_fs_rawmkconsistent(lfs_t *lfs) {
// lfs_fs_forceconsistency does most of the work here
int err = lfs_fs_forceconsistency(lfs);
if (err) {
return err;
}
// do we have any pending gstate?
lfs_gstate_t delta = {0};
lfs_gstate_xor(&delta, &lfs->gdisk);
lfs_gstate_xor(&delta, &lfs->gstate);
if (!lfs_gstate_iszero(&delta)) {
// lfs_dir_commit will implicitly write out any pending gstate
lfs_mdir_t root;
err = lfs_dir_fetch(lfs, &root, lfs->root);
if (err) {
return err;
}
err = lfs_dir_commit(lfs, &root, NULL, 0);
if (err) {
return err;
}
}
return 0;
}
#endif
static int lfs_fs_size_count(void *p, lfs_block_t block) {
(void)block;
lfs_size_t *size = p;
@@ -5802,6 +6082,22 @@ int lfs_fs_traverse(lfs_t *lfs, int (*cb)(void *, lfs_block_t), void *data) {
return err;
}
#ifndef LFS_READONLY
int lfs_fs_mkconsistent(lfs_t *lfs) {
int err = LFS_LOCK(lfs->cfg);
if (err) {
return err;
}
LFS_TRACE("lfs_fs_mkconsistent(%p)", (void*)lfs);
err = lfs_fs_rawmkconsistent(lfs);
LFS_TRACE("lfs_fs_mkconsistent -> %d", err);
LFS_UNLOCK(lfs->cfg);
return err;
}
#endif
#ifdef LFS_MIGRATE
int lfs_migrate(lfs_t *lfs, const struct lfs_config *cfg) {
int err = LFS_LOCK(cfg);

18
lfs.h
View File

@@ -21,14 +21,14 @@ extern "C"
// Software library version
// Major (top-nibble), incremented on backwards incompatible changes
// Minor (bottom-nibble), incremented on feature additions
#define LFS_VERSION 0x00020005
#define LFS_VERSION 0x00020006
#define LFS_VERSION_MAJOR (0xffff & (LFS_VERSION >> 16))
#define LFS_VERSION_MINOR (0xffff & (LFS_VERSION >> 0))
// Version of On-disk data structures
// Major (top-nibble), incremented on backwards incompatible changes
// Minor (bottom-nibble), incremented on feature additions
#define LFS_DISK_VERSION 0x00020000
#define LFS_DISK_VERSION 0x00020001
#define LFS_DISK_VERSION_MAJOR (0xffff & (LFS_DISK_VERSION >> 16))
#define LFS_DISK_VERSION_MINOR (0xffff & (LFS_DISK_VERSION >> 0))
@@ -112,6 +112,8 @@ enum lfs_type {
LFS_TYPE_SOFTTAIL = 0x600,
LFS_TYPE_HARDTAIL = 0x601,
LFS_TYPE_MOVESTATE = 0x7ff,
LFS_TYPE_CCRC = 0x500,
LFS_TYPE_FCRC = 0x5ff,
// internal chip sources
LFS_FROM_NOOP = 0x000,
@@ -674,6 +676,18 @@ lfs_ssize_t lfs_fs_size(lfs_t *lfs);
// Returns a negative error code on failure.
int lfs_fs_traverse(lfs_t *lfs, int (*cb)(void*, lfs_block_t), void *data);
#ifndef LFS_READONLY
// Attempt to make the filesystem consistent and ready for writing
//
// Calling this function is not required, consistency will be implicitly
// enforced on the first operation that writes to the filesystem, but this
// function allows the work to be performed earlier and without other
// filesystem changes.
//
// Returns a negative error code on failure.
int lfs_fs_mkconsistent(lfs_t *lfs);
#endif
#ifndef LFS_READONLY
#ifdef LFS_MIGRATE
// Attempts to migrate a previous version of littlefs

5
scripts/changeprefix.py
View File

@@ -107,7 +107,10 @@ def main(from_prefix, to_prefix, paths=[], *,
elif no_renames:
to_path = from_path
else:
to_path, _ = changeprefix(from_prefix, to_prefix, from_path)
to_path = os.path.join(
os.path.dirname(from_path),
changeprefix(from_prefix, to_prefix,
os.path.basename(from_path))[0])
# rename contents
changefile(from_prefix, to_prefix, from_path, to_path,

62
scripts/readmdir.py
View File

@@ -24,6 +24,8 @@ TAG_TYPES = {
'gstate': (0x700, 0x700),
'movestate': (0x7ff, 0x7ff),
'crc': (0x700, 0x500),
'ccrc': (0x780, 0x500),
'fcrc': (0x7ff, 0x5ff),
}
class Tag:
@@ -99,7 +101,16 @@ class Tag:
return struct.unpack('b', struct.pack('B', self.chunk))[0]
def is_(self, type):
return (self.type & TAG_TYPES[type][0]) == TAG_TYPES[type][1]
try:
if ' ' in type:
type1, type3 = type.split()
return (self.is_(type1) and
(self.type & ~TAG_TYPES[type1][0]) == int(type3, 0))
return self.type == int(type, 0)
except (ValueError, KeyError):
return (self.type & TAG_TYPES[type][0]) == TAG_TYPES[type][1]
def mkmask(self):
return Tag(
@@ -109,14 +120,20 @@ class Tag:
def chid(self, nid):
ntag = Tag(self.type, nid, self.size)
if hasattr(self, 'off'): ntag.off = self.off
if hasattr(self, 'data'): ntag.data = self.data
if hasattr(self, 'crc'): ntag.crc = self.crc
if hasattr(self, 'off'): ntag.off = self.off
if hasattr(self, 'data'): ntag.data = self.data
if hasattr(self, 'ccrc'): ntag.crc = self.crc
if hasattr(self, 'erased'): ntag.erased = self.erased
return ntag
def typerepr(self):
if self.is_('crc') and getattr(self, 'crc', 0xffffffff) != 0xffffffff:
return 'crc (bad)'
if (self.is_('ccrc')
and getattr(self, 'ccrc', 0xffffffff) != 0xffffffff):
crc_status = ' (bad)'
elif self.is_('fcrc') and getattr(self, 'erased', False):
crc_status = ' (era)'
else:
crc_status = ''
reverse_types = {v: k for k, v in TAG_TYPES.items()}
for prefix in range(12):
@@ -124,12 +141,12 @@ class Tag:
if (mask, self.type & mask) in reverse_types:
type = reverse_types[mask, self.type & mask]
if prefix > 0:
return '%s %#0*x' % (
type, prefix//4, self.type & ((1 << prefix)-1))
return '%s %#x%s' % (
type, self.type & ((1 << prefix)-1), crc_status)
else:
return type
return '%s%s' % (type, crc_status)
else:
return '%02x' % self.type
return '%02x%s' % (self.type, crc_status)
def idrepr(self):
return repr(self.id) if self.id != 0x3ff else '.'
@@ -172,6 +189,8 @@ class MetadataPair:
self.rev, = struct.unpack('<I', block[0:4])
crc = binascii.crc32(block[0:4])
fcrctag = None
fcrcdata = None
# parse tags
corrupt = False
@@ -182,11 +201,11 @@ class MetadataPair:
while len(block) - off >= 4:
ntag, = struct.unpack('>I', block[off:off+4])
tag = Tag(int(tag) ^ ntag)
tag = Tag((int(tag) ^ ntag) & 0x7fffffff)
tag.off = off + 4
tag.data = block[off+4:off+tag.dsize]
if tag.is_('crc'):
crc = binascii.crc32(block[off:off+4+4], crc)
if tag.is_('ccrc'):
crc = binascii.crc32(block[off:off+2*4], crc)
else:
crc = binascii.crc32(block[off:off+tag.dsize], crc)
tag.crc = crc
@@ -194,16 +213,29 @@ class MetadataPair:
self.all_.append(tag)
if tag.is_('crc'):
if tag.is_('fcrc') and len(tag.data) == 8:
fcrctag = tag
fcrcdata = struct.unpack('<II', tag.data)
elif tag.is_('ccrc'):
# is valid commit?
if crc != 0xffffffff:
corrupt = True
if not corrupt:
self.log = self.all_.copy()
# end of commit?
if fcrcdata:
fcrcsize, fcrc = fcrcdata
fcrc_ = 0xffffffff ^ binascii.crc32(
block[off:off+fcrcsize])
if fcrc_ == fcrc:
fcrctag.erased = True
corrupt = True
# reset tag parsing
crc = 0
tag = Tag(int(tag) ^ ((tag.type & 1) << 31))
fcrctag = None
fcrcdata = None
# find active ids
self.ids = list(it.takewhile(
@@ -280,7 +312,7 @@ class MetadataPair:
f.write('\n')
for tag in tags:
f.write("%08x: %08x %-13s %4s %4s" % (
f.write("%08x: %08x %-14s %3s %4s" % (
tag.off, tag,
tag.typerepr(), tag.idrepr(), tag.sizerepr()))
if truncate:

1360
tests/test_compat.toml Normal file
View File

File diff suppressed because it is too large Load Diff

107
tests/test_dirs.toml
View File

@@ -810,7 +810,8 @@ code = '''
}
lfs_unmount(&lfs) => 0;
for (int j = 2; j < COUNT; j++) {
// try seeking to each dir entry
for (int j = 0; j < COUNT; j++) {
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "hello") => 0;
@@ -822,16 +823,15 @@ code = '''
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_soff_t pos;
for (int i = 0; i < j; i++) {
char path[1024];
sprintf(path, "kitty%03d", i);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
}
lfs_soff_t pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
lfs_dir_seek(&lfs, &dir, pos) => 0;
char path[1024];
@@ -861,6 +861,52 @@ code = '''
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
}
// try seeking to end of dir
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "hello") => 0;
struct lfs_info info;
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, ".") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
for (int i = 0; i < COUNT; i++) {
char path[1024];
sprintf(path, "kitty%03d", i);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
}
lfs_soff_t pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_seek(&lfs, &dir, pos) => 0;
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_rewind(&lfs, &dir) => 0;
char path[1024];
sprintf(path, "kitty%03d", 0);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, ".") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_seek(&lfs, &dir, pos) => 0;
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
'''
[cases.test_dirs_toot_seek]
@@ -877,7 +923,7 @@ code = '''
}
lfs_unmount(&lfs) => 0;
for (int j = 2; j < COUNT; j++) {
for (int j = 0; j < COUNT; j++) {
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "/") => 0;
@@ -889,16 +935,15 @@ code = '''
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_soff_t pos;
for (int i = 0; i < j; i++) {
char path[1024];
sprintf(path, "hi%03d", i);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
}
lfs_soff_t pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
lfs_dir_seek(&lfs, &dir, pos) => 0;
char path[1024];
@@ -928,5 +973,51 @@ code = '''
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
}
// try seeking to end of dir
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "/") => 0;
struct lfs_info info;
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, ".") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
for (int i = 0; i < COUNT; i++) {
char path[1024];
sprintf(path, "hi%03d", i);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
}
lfs_soff_t pos = lfs_dir_tell(&lfs, &dir);
assert(pos >= 0);
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_seek(&lfs, &dir, pos) => 0;
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_rewind(&lfs, &dir) => 0;
char path[1024];
sprintf(path, "hi%03d", 0);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, ".") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, "..") == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_read(&lfs, &dir, &info) => 1;
assert(strcmp(info.name, path) == 0);
assert(info.type == LFS_TYPE_DIR);
lfs_dir_seek(&lfs, &dir, pos) => 0;
lfs_dir_read(&lfs, &dir, &info) => 0;
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
'''

144
tests/test_orphans.toml
View File

@@ -59,6 +59,150 @@ code = '''
lfs_unmount(&lfs) => 0;
'''
# test that we only run deorphan once per power-cycle
[cases.test_orphans_no_orphans]
in = 'lfs.c'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
// mark the filesystem as having orphans
lfs_fs_preporphans(&lfs, +1) => 0;
lfs_mdir_t mdir;
lfs_dir_fetch(&lfs, &mdir, (lfs_block_t[2]){0, 1}) => 0;
lfs_dir_commit(&lfs, &mdir, NULL, 0) => 0;
// we should have orphans at this state
assert(lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
// mount
lfs_mount(&lfs, cfg) => 0;
// we should detect orphans
assert(lfs_gstate_hasorphans(&lfs.gstate));
// force consistency
lfs_fs_forceconsistency(&lfs) => 0;
// we should no longer have orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
'''
[cases.test_orphans_one_orphan]
in = 'lfs.c'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
// create an orphan
lfs_mdir_t orphan;
lfs_alloc_ack(&lfs);
lfs_dir_alloc(&lfs, &orphan) => 0;
lfs_dir_commit(&lfs, &orphan, NULL, 0) => 0;
// append our orphan and mark the filesystem as having orphans
lfs_fs_preporphans(&lfs, +1) => 0;
lfs_mdir_t mdir;
lfs_dir_fetch(&lfs, &mdir, (lfs_block_t[2]){0, 1}) => 0;
lfs_pair_tole32(orphan.pair);
lfs_dir_commit(&lfs, &mdir, LFS_MKATTRS(
{LFS_MKTAG(LFS_TYPE_SOFTTAIL, 0x3ff, 8), orphan.pair})) => 0;
// we should have orphans at this state
assert(lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
// mount
lfs_mount(&lfs, cfg) => 0;
// we should detect orphans
assert(lfs_gstate_hasorphans(&lfs.gstate));
// force consistency
lfs_fs_forceconsistency(&lfs) => 0;
// we should no longer have orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
'''
# test that we can persist gstate with lfs_fs_mkconsistent
[cases.test_orphans_mkconsistent_no_orphans]
in = 'lfs.c'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
// mark the filesystem as having orphans
lfs_fs_preporphans(&lfs, +1) => 0;
lfs_mdir_t mdir;
lfs_dir_fetch(&lfs, &mdir, (lfs_block_t[2]){0, 1}) => 0;
lfs_dir_commit(&lfs, &mdir, NULL, 0) => 0;
// we should have orphans at this state
assert(lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
// mount
lfs_mount(&lfs, cfg) => 0;
// we should detect orphans
assert(lfs_gstate_hasorphans(&lfs.gstate));
// force consistency
lfs_fs_mkconsistent(&lfs) => 0;
// we should no longer have orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
// remount
lfs_unmount(&lfs) => 0;
lfs_mount(&lfs, cfg) => 0;
// we should still have no orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
'''
[cases.test_orphans_mkconsistent_one_orphan]
in = 'lfs.c'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
// create an orphan
lfs_mdir_t orphan;
lfs_alloc_ack(&lfs);
lfs_dir_alloc(&lfs, &orphan) => 0;
lfs_dir_commit(&lfs, &orphan, NULL, 0) => 0;
// append our orphan and mark the filesystem as having orphans
lfs_fs_preporphans(&lfs, +1) => 0;
lfs_mdir_t mdir;
lfs_dir_fetch(&lfs, &mdir, (lfs_block_t[2]){0, 1}) => 0;
lfs_pair_tole32(orphan.pair);
lfs_dir_commit(&lfs, &mdir, LFS_MKATTRS(
{LFS_MKTAG(LFS_TYPE_SOFTTAIL, 0x3ff, 8), orphan.pair})) => 0;
// we should have orphans at this state
assert(lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
// mount
lfs_mount(&lfs, cfg) => 0;
// we should detect orphans
assert(lfs_gstate_hasorphans(&lfs.gstate));
// force consistency
lfs_fs_mkconsistent(&lfs) => 0;
// we should no longer have orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
// remount
lfs_unmount(&lfs) => 0;
lfs_mount(&lfs, cfg) => 0;
// we should still have no orphans
assert(!lfs_gstate_hasorphans(&lfs.gstate));
lfs_unmount(&lfs) => 0;
'''
# reentrant testing for orphans, basically just spam mkdir/remove
[cases.test_orphans_reentrant]
reentrant = true

182
tests/test_powerloss.toml Normal file
View File

@@ -0,0 +1,182 @@
# There are already a number of tests that test general operations under
# power-loss (see the reentrant attribute). These tests are for explicitly
# testing specific corner cases.
# only a revision count
[cases.test_powerloss_only_rev]
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
lfs_mkdir(&lfs, "notebook") => 0;
lfs_file_t file;
lfs_file_open(&lfs, &file, "notebook/paper",
LFS_O_WRONLY | LFS_O_CREAT | LFS_O_APPEND) => 0;
char buffer[256];
strcpy(buffer, "hello");
lfs_size_t size = strlen("hello");
for (int i = 0; i < 5; i++) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_sync(&lfs, &file) => 0;
}
lfs_file_close(&lfs, &file) => 0;
char rbuffer[256];
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
lfs_unmount(&lfs) => 0;
// get pair/rev count
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "notebook") => 0;
lfs_block_t pair[2] = {dir.m.pair[0], dir.m.pair[1]};
uint32_t rev = dir.m.rev;
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
// write just the revision count
uint8_t bbuffer[BLOCK_SIZE];
cfg->read(cfg, pair[1], 0, bbuffer, BLOCK_SIZE) => 0;
memcpy(bbuffer, &(uint32_t){lfs_tole32(rev+1)}, sizeof(uint32_t));
cfg->erase(cfg, pair[1]) => 0;
cfg->prog(cfg, pair[1], 0, bbuffer, BLOCK_SIZE) => 0;
lfs_mount(&lfs, cfg) => 0;
// can read?
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
// can write?
lfs_file_open(&lfs, &file, "notebook/paper",
LFS_O_WRONLY | LFS_O_APPEND) => 0;
strcpy(buffer, "goodbye");
size = strlen("goodbye");
for (int i = 0; i < 5; i++) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_sync(&lfs, &file) => 0;
}
lfs_file_close(&lfs, &file) => 0;
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
strcpy(buffer, "hello");
size = strlen("hello");
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
strcpy(buffer, "goodbye");
size = strlen("goodbye");
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
lfs_unmount(&lfs) => 0;
'''
# partial prog, may not be byte in order!
[cases.test_powerloss_partial_prog]
if = "PROG_SIZE < BLOCK_SIZE"
defines.BYTE_OFF = ["0", "PROG_SIZE-1", "PROG_SIZE/2"]
defines.BYTE_VALUE = [0x33, 0xcc]
in = "lfs.c"
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
lfs_mount(&lfs, cfg) => 0;
lfs_mkdir(&lfs, "notebook") => 0;
lfs_file_t file;
lfs_file_open(&lfs, &file, "notebook/paper",
LFS_O_WRONLY | LFS_O_CREAT | LFS_O_APPEND) => 0;
char buffer[256];
strcpy(buffer, "hello");
lfs_size_t size = strlen("hello");
for (int i = 0; i < 5; i++) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_sync(&lfs, &file) => 0;
}
lfs_file_close(&lfs, &file) => 0;
char rbuffer[256];
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
lfs_unmount(&lfs) => 0;
// imitate a partial prog, value should not matter, if littlefs
// doesn't notice the partial prog testbd will assert
// get offset to next prog
lfs_mount(&lfs, cfg) => 0;
lfs_dir_t dir;
lfs_dir_open(&lfs, &dir, "notebook") => 0;
lfs_block_t block = dir.m.pair[0];
lfs_off_t off = dir.m.off;
lfs_dir_close(&lfs, &dir) => 0;
lfs_unmount(&lfs) => 0;
// tweak byte
uint8_t bbuffer[BLOCK_SIZE];
cfg->read(cfg, block, 0, bbuffer, BLOCK_SIZE) => 0;
bbuffer[off + BYTE_OFF] = BYTE_VALUE;
cfg->erase(cfg, block) => 0;
cfg->prog(cfg, block, 0, bbuffer, BLOCK_SIZE) => 0;
lfs_mount(&lfs, cfg) => 0;
// can read?
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
// can write?
lfs_file_open(&lfs, &file, "notebook/paper",
LFS_O_WRONLY | LFS_O_APPEND) => 0;
strcpy(buffer, "goodbye");
size = strlen("goodbye");
for (int i = 0; i < 5; i++) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_sync(&lfs, &file) => 0;
}
lfs_file_close(&lfs, &file) => 0;
lfs_file_open(&lfs, &file, "notebook/paper", LFS_O_RDONLY) => 0;
strcpy(buffer, "hello");
size = strlen("hello");
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
strcpy(buffer, "goodbye");
size = strlen("goodbye");
for (int i = 0; i < 5; i++) {
lfs_file_read(&lfs, &file, rbuffer, size) => size;
assert(memcmp(rbuffer, buffer, size) == 0);
}
lfs_file_close(&lfs, &file) => 0;
lfs_unmount(&lfs) => 0;
'''

90
tests/test_truncate.toml
View File

@@ -1,7 +1,8 @@
# simple truncate
[cases.test_truncate_simple]
defines.MEDIUMSIZE = [32, 2048]
defines.LARGESIZE = 8192
defines.MEDIUMSIZE = [31, 32, 33, 511, 512, 513, 2047, 2048, 2049]
defines.LARGESIZE = [32, 33, 512, 513, 2048, 2049, 8192, 8193]
if = 'MEDIUMSIZE < LARGESIZE'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
@@ -14,7 +15,8 @@ code = '''
strcpy((char*)buffer, "hair");
size_t size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < LARGESIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, LARGESIZE-j))
=> lfs_min(size, LARGESIZE-j);
}
lfs_file_size(&lfs, &file) => LARGESIZE;
@@ -37,8 +39,9 @@ code = '''
size = strlen("hair");
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "hair", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "hair", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
@@ -48,8 +51,9 @@ code = '''
# truncate and read
[cases.test_truncate_read]
defines.MEDIUMSIZE = [32, 2048]
defines.LARGESIZE = 8192
defines.MEDIUMSIZE = [31, 32, 33, 511, 512, 513, 2047, 2048, 2049]
defines.LARGESIZE = [32, 33, 512, 513, 2048, 2049, 8192, 8193]
if = 'MEDIUMSIZE < LARGESIZE'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
@@ -62,7 +66,8 @@ code = '''
strcpy((char*)buffer, "hair");
size_t size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < LARGESIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, LARGESIZE-j))
=> lfs_min(size, LARGESIZE-j);
}
lfs_file_size(&lfs, &file) => LARGESIZE;
@@ -78,8 +83,9 @@ code = '''
size = strlen("hair");
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "hair", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "hair", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
@@ -92,8 +98,9 @@ code = '''
size = strlen("hair");
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "hair", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "hair", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
@@ -148,7 +155,7 @@ code = '''
lfs_file_truncate(&lfs, &file, trunc) => 0;
lfs_file_tell(&lfs, &file) => qsize;
lfs_file_size(&lfs, &file) => trunc;
/* Read should produce second quarter */
lfs_file_read(&lfs, &file, rb, size) => trunc - qsize;
memcmp(rb, wb + qsize, trunc - qsize) => 0;
@@ -159,8 +166,9 @@ code = '''
# truncate and write
[cases.test_truncate_write]
defines.MEDIUMSIZE = [32, 2048]
defines.LARGESIZE = 8192
defines.MEDIUMSIZE = [31, 32, 33, 511, 512, 513, 2047, 2048, 2049]
defines.LARGESIZE = [32, 33, 512, 513, 2048, 2049, 8192, 8193]
if = 'MEDIUMSIZE < LARGESIZE'
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
@@ -173,7 +181,8 @@ code = '''
strcpy((char*)buffer, "hair");
size_t size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < LARGESIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, LARGESIZE-j))
=> lfs_min(size, LARGESIZE-j);
}
lfs_file_size(&lfs, &file) => LARGESIZE;
@@ -184,13 +193,16 @@ code = '''
lfs_file_open(&lfs, &file, "baldywrite", LFS_O_RDWR) => 0;
lfs_file_size(&lfs, &file) => LARGESIZE;
/* truncate */
lfs_file_truncate(&lfs, &file, MEDIUMSIZE) => 0;
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
/* and write */
strcpy((char*)buffer, "bald");
size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
}
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
@@ -203,8 +215,9 @@ code = '''
size = strlen("bald");
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "bald", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "bald", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
@@ -215,7 +228,7 @@ code = '''
# truncate write under powerloss
[cases.test_truncate_reentrant_write]
defines.SMALLSIZE = [4, 512]
defines.MEDIUMSIZE = [32, 1024]
defines.MEDIUMSIZE = [0, 3, 4, 5, 31, 32, 33, 511, 512, 513, 1023, 1024, 1025]
defines.LARGESIZE = 2048
reentrant = true
code = '''
@@ -236,10 +249,11 @@ code = '''
size == (size_t)SMALLSIZE);
for (lfs_off_t j = 0; j < size; j += 4) {
uint8_t buffer[1024];
lfs_file_read(&lfs, &file, buffer, 4) => 4;
assert(memcmp(buffer, "hair", 4) == 0 ||
memcmp(buffer, "bald", 4) == 0 ||
memcmp(buffer, "comb", 4) == 0);
lfs_file_read(&lfs, &file, buffer, lfs_min(4, size-j))
=> lfs_min(4, size-j);
assert(memcmp(buffer, "hair", lfs_min(4, size-j)) == 0 ||
memcmp(buffer, "bald", lfs_min(4, size-j)) == 0 ||
memcmp(buffer, "comb", lfs_min(4, size-j)) == 0);
}
lfs_file_close(&lfs, &file) => 0;
}
@@ -251,19 +265,23 @@ code = '''
strcpy((char*)buffer, "hair");
size_t size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < LARGESIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, LARGESIZE-j))
=> lfs_min(size, LARGESIZE-j);
}
lfs_file_size(&lfs, &file) => LARGESIZE;
lfs_file_close(&lfs, &file) => 0;
lfs_file_open(&lfs, &file, "baldy", LFS_O_RDWR) => 0;
lfs_file_size(&lfs, &file) => LARGESIZE;
/* truncate */
lfs_file_truncate(&lfs, &file, MEDIUMSIZE) => 0;
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
/* and write */
strcpy((char*)buffer, "bald");
size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
}
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
lfs_file_close(&lfs, &file) => 0;
@@ -275,7 +293,8 @@ code = '''
strcpy((char*)buffer, "comb");
size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < SMALLSIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, SMALLSIZE-j))
=> lfs_min(size, SMALLSIZE-j);
}
lfs_file_size(&lfs, &file) => SMALLSIZE;
lfs_file_close(&lfs, &file) => 0;
@@ -429,7 +448,7 @@ code = '''
# noop truncate
[cases.test_truncate_nop]
defines.MEDIUMSIZE = [32, 2048]
defines.MEDIUMSIZE = [32, 33, 512, 513, 2048, 2049, 8192, 8193]
code = '''
lfs_t lfs;
lfs_format(&lfs, cfg) => 0;
@@ -442,10 +461,11 @@ code = '''
strcpy((char*)buffer, "hair");
size_t size = strlen((char*)buffer);
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_write(&lfs, &file, buffer, size) => size;
lfs_file_write(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
// this truncate should do nothing
lfs_file_truncate(&lfs, &file, j+size) => 0;
lfs_file_truncate(&lfs, &file, j+lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
@@ -455,8 +475,9 @@ code = '''
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "hair", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "hair", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
@@ -468,8 +489,9 @@ code = '''
lfs_file_open(&lfs, &file, "baldynoop", LFS_O_RDWR) => 0;
lfs_file_size(&lfs, &file) => MEDIUMSIZE;
for (lfs_off_t j = 0; j < MEDIUMSIZE; j += size) {
lfs_file_read(&lfs, &file, buffer, size) => size;
memcmp(buffer, "hair", size) => 0;
lfs_file_read(&lfs, &file, buffer, lfs_min(size, MEDIUMSIZE-j))
=> lfs_min(size, MEDIUMSIZE-j);
memcmp(buffer, "hair", lfs_min(size, MEDIUMSIZE-j)) => 0;
}
lfs_file_read(&lfs, &file, buffer, size) => 0;
lfs_file_close(&lfs, &file) => 0;