ZSTDMT was broken when compiled without ZSTD_MULTITHREAD defined,
because `ZSTD_CCtx_setParameter(cctx, ZSTD_c_nbWorkers, nbWorkerss)`
failed. It was detected by the MSVC test which runs the fuzzer with
multithreading disabled.
This is a very niche use case of a deprecated API, because the API is
inefficient and synchronous, since `threading.h` will be synchronous.
Users almost certainly don't want this, and anyone who tested their code
should realize that it is broken. Therefore, I think it is safe to
require `ZSTD_MULTITHREAD` to be defined to use ZSTDMT.
Bugs:
* `ZSTD_DCtx_refPrefix()` didn't clear the dictionary after the first
use. Fix and add a test case.
* `ZSTD_DCtx_reset()` always cleared the dictionary. Fix and add a test
case.
* After calling `ZSTD_resetDStream()` you could no longer load a
dictionary, since the stage was set to `zdss_loadHeader`. Fix and add
a test case.
Cleanup:
* Make `ZSTD_initDStream*()` and `ZSTD_resetDStream()` wrap the new
advanced API, and add test cases.
* Document the equivalent of these functions in the advanced API and
document the unstable functions as deprecated.
* `ZSTD_decompressDCtx()` did not use the dictionary loaded by
`ZSTD_DCtx_loadDictionary()`.
* Add a unit test.
* A stacked diff uses `ZSTD_decompressDCtx()` in the
`dictionary_round_trip` and `dictionary_decompress` fuzzers.
`ZSTD_compress2()` wouldn't wait for multithreaded compression to
finish. We didn't find this because ZSTDMT will block when it can
compress all in one go, but it can't do that if it doesn't have enough
output space, or if `ZSTD_c_rsyncable` is enabled.
Since we will already sometimes block when using `ZSTD_e_end`, I've
changed `ZSTD_e_end` and `ZSTD_e_flush` to guarantee maximum forward
progress. This simplifies the API, and helps users avoid the easy bug
that was made in `ZSTD_compress2()`
* Found by the libfuzzer fuzzers.
* Added a test case that catches the problem.
* I will make the fuzzers sometimes allocate less than
`ZSTD_compressBound()` output space.
When `FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION` is defined don't check
the dictID. This check makes the fuzzers job harder, and it is at the
very beginning.
This commit moves the candidate advanced API to the stable section.
It makes some minor whitespace changes, but it doesn't change any
of the wording of the documentation.
I'll put up a separate PR that tweaks some of the documentation
once this lands, so that it is easier to review.
NOTE: Even though these functions are now in stable, they aren't
stable until the next release (in under 1 month). It is possible
that they change until then.
This PR is based on top of PR #1563.
The optimization is to process two input pointers per loop.
It is based on ideas from [igzip] level 1, and talking to @gbtucker.
| Platform | Silesia | Enwik8 |
|-------------------------|-------------|--------|
| OSX clang-10 | +5.3% | +5.4% |
| i9 5 GHz gcc-8 | +6.6% | +6.6% |
| i9 5 GHz clang-7 | +8.0% | +8.0% |
| Skylake 2.4 GHz gcc-4.8 | +6.3% | +7.9% |
| Skylake 2.4 GHz clang-7 | +6.2% | +7.5% |
Testing on all Silesia files on my Intel i9-9900k with gcc-8
| Silesia File | Ratio Change | Speed Change |
|--------------|--------------|--------------|
| silesia.tar | +0.17% | +6.6% |
| dickens | +0.25% | +7.0% |
| mozilla | +0.02% | +6.8% |
| mr | -0.30% | +10.9% |
| nci | +1.28% | +4.5% |
| ooffice | -0.35% | +10.7% |
| osdb | +0.75% | +9.8% |
| reymont | +0.65% | +4.6% |
| samba | +0.70% | +5.9% |
| sao | -0.01% | +14.0% |
| webster | +0.30% | +5.5% |
| xml | +0.92% | +5.3% |
| x-ray | -0.00% | +1.4% |
Same tests on Calgary. For brevity, I've only included files
where compression ratio regressed or was much better.
| Calgary File | Ratio Change | Speed Change |
|--------------|--------------|--------------|
| calgary.tar | +0.30% | +7.1% |
| geo | -0.14% | +25.0% |
| obj1 | -0.46% | +15.2% |
| obj2 | -0.18% | +6.0% |
| pic | +1.80% | +9.3% |
| trans | -0.35% | +5.5% |
We gain 0.1% of compression ratio on Silesia.
We gain 0.3% of compression ratio on enwik8.
I also tested on the GitHub and hg-commands datasets without a dictionary,
and we gain a small amount of compression ratio on each, as well as speed.
I tested the negative compression levels on Silesia on my
Intel i9-9900k with gcc-8:
| Level | Ratio Change | Speed Change |
|-------|--------------|--------------|
| -1 | +0.13% | +6.4% |
| -2 | +4.6% | -1.5% |
| -3 | +7.5% | -4.8% |
| -4 | +8.5% | -6.9% |
| -5 | +9.1% | -9.1% |
Roughly, the negative levels now scale half as quickly. E.g. the new
level 16 is roughly equivalent to the old level 8, but a bit quicker
and smaller. If you don't think this is the right trade off, we can
change it to multiply the step size by 2, instead of adding 1. I think
this makes sense, because it gives a bit slower ratio decay.
[igzip]: https://github.com/01org/isa-l/tree/master/igzip
It wasn't using the ZSTD_CCtx_params correctly. It must actualize
the compression parameters by calling ZSTD_getCParamsFromCCtxParams()
to get the real window log.
Tested by updating the streaming memory usage example in the next
commit. The CHECK() failed before this patch, and passes after.
I also added a unit test to zstreamtest.c that failed before this
patch, and passes after.
* The algorithm would bail as soon as it found one epoch that
contained no new segments. Change it so it now has to fail
>= 10 times in a row (10 for fastcover, 10-100 for cover).
* The algorithm uses the `maxDict` size to decide the epoch size.
When this size is absurdly large, it causes tiny epochs. Lower
bound the epoch size at 10x the segment size, and warn the user
that their training set is too small.
Fixes#1554
* After loading a dictionary only create the cdict once we've started the
compression job. This allows the user to pass the dictionary before they
set other settings, and is in line with the rest of the API.
* Add tests that mix the 3 dictionary loading APIs.
* Add extra tests for `ZSTD_CCtx_loadDictionary()`.
* The first 2 tests added fail before this patch.
* Run the regression test suite.
The order you set parameters in the advanced API is not supposed to matter.
However, once you call `ZSTD_CCtx_refCDict()` the compression parameters
cannot be changed. Remove that restriction, and document what parameters
are used when using a CDict.
If the CCtx is in dictionary mode, then the CDict's parameters are used.
If the CCtx is not in dictionary mode, then its requested parameters are
used.
As documented in `zstd.h`, ZSTD_decompressBound returns `ZSTD_CONTENTSIZE_ERROR`
if an error occurs (not `ZSTD_CONTENTSIZE_UNKNOWN`). This is consistent with
the error checking made in ZSTD_decompressBound, particularly line 545.
