Releases: facebook/zstd
Zstandard v1.3.5 "Dictionary Edition"
Zstandard v1.3.5 is a maintenance release focused on dictionary compression performance.
Compression is generally associated with the act of willingly requesting the compression of some large source. However, within datacenters, compression brings its best benefits when completed transparently. In such scenario, it's actually very common to compress a large number of very small blobs (individual messages in a stream or log, or records in a cache or datastore, etc.). Dictionary compression is a great tool for these use cases.
This release makes dictionary compression significantly faster for these situations, when compressing small to very small data (inputs up to ~16 KB).
The above image plots the compression speeds at different input sizes for zstd
v1.3.4 (red) and v1.3.5 (green), at levels 1, 3, 9, and 18.
The benchmark data was gathered on an Intel Xeon CPU E5-2680 v4 @ 2.40GHz
. The benchmark was compiled with clang-7.0
, with the flags -O3 -march=native -mtune=native -DNDEBUG
. The file used in the results shown here is the osdb
file from the Silesia corpus, cut into small blocks. It was selected because it performed roughly in the middle of the pack among the Silesia files.
The new version saves substantial initialization time, which is increasingly important as the average size to compress becomes smaller. The impact is even more perceptible at higher levels, where initialization costs are higher. For larger inputs, performance remain similar.
Users can expect to measure substantial speed improvements for inputs smaller than 8 KB, and up to 32 KB depending on the context. The expected speed-up ranges from none (large, incompressible blobs) to many times faster (small, highly compressible inputs). Real world examples up to 15x have been observed.
Other noticeable improvements
The compression levels have been slightly adjusted, taking into consideration the higher top speed of level 1 since v1.3.4, and making level 19 a substantially stronger compression level while preserving the 8 MB
window size limit, hence keeping an acceptable memory budget for decompression.
It's also possible to select the content of libzstd
by modifying macro values at compilation time. By default, libzstd
contains everything, but its size can be made substantially smaller by removing support for the dictionary builder, or legacy formats, or deprecated functions. It's even possible to build a compression-only or a decompression-only library.
Detailed changes list
- perf: much faster dictionary compression, by @felixhandte
- perf: small quality improvement for dictionary generation, by @terrelln
- perf: improved high compression levels (notably level 19)
- mem : automatic memory release for long duration contexts
- cli : fix :
overlapLog
can be manually set - cli : fix : decoding invalid lz4 frames
- api : fix : performance degradation for dictionary compression when using advanced API, by @terrelln
- api : change : clarify
ZSTD_CCtx_reset()
vsZSTD_CCtx_resetParameters()
, by @terrelln - build: select custom
libzstd
scope through control macros, by @GeorgeLu97 - build: OpenBSD support, by @bket
- build:
make
andmake all
are compatible with-j
- doc : clarify
zstd_compression_format.md
, updated for IETF RFC process - misc:
pzstd
compatible with reproducible compilation, by @lamby
Known bug
zstd --list
does not work with non-interactive tty.
This issue is fixed in dev
branch.
Zstandard v1.3.4 - faster everything
The v1.3.4 release of Zstandard is focused on performance, and offers nice speed boost in most scenarios.
Asynchronous compression by default for zstd
CLI
zstd
cli will now performs compression in parallel with I/O operations by default. This requires multi-threading capability (which is also enabled by default).
It doesn't sound like much, but effectively improves throughput by 20-30%, depending on compression level and underlying I/O performance.
For example, on a Mac OS-X laptop with an Intel Core i7-5557U CPU @ 3.10GHz, running time zstd
enwik9
at default compression level (2) on a SSD gives the following :
Version | real time |
---|---|
1.3.3 | 9.2s |
1.3.4 --single-thread | 8.8s |
1.3.4 (asynchronous) | 7.5s |
This is a nice boost to all scripts using zstd
cli, typically in network or storage tasks. The effect is even more pronounced at faster compression setting, since the CLI overlaps a proportionally higher share of compression with I/O.
Previous default behavior (blocking single thread) is still available, accessible through --single-thread
long command. It's also the only mode available when no multi-threading capability is detected.
General speed improvements
Some core routines have been refined to provide more speed on newer cpus, making better use of their out-of-order execution units. This is more sensible on the decompression side, and even more so with gcc
compiler.
Example on the same platform, running in-memory benchmark zstd -b1 silesia.tar
:
Version | C.Speed | D.Speed |
---|---|---|
1.3.3 llvm9 | 290 MB/s | 660 MB/s |
1.3.4 llvm9 | 304 MB/s | 700 MB/s (+6%) |
1.3.3 gcc7 | 280 MB/s | 710 MB/s |
1.3.4 gcc7 | 300 MB/s | 890 MB/s (+25%) |
Faster compression levels
So far, compression level 1 has been the fastest one available. Starting with v1.3.4, there will be additional choices. Faster compression levels can be invoked using negative values.
On the command line, the equivalent one can be triggered using --fast[=#]
command.
Negative compression levels sample data more sparsely, and disable Huffman compression of literals, translating into faster decoding speed.
It's possible to create one's own custom fast compression level
by using strategy ZSTD_fast
, increasing ZSTD_p_targetLength
to desired value,
and turning on or off literals compression, using ZSTD_p_compressLiterals
.
Performance is generally on par or better than other high speed algorithms. On below benchmark (compressing silesia.tar
on an Intel Core i7-6700K CPU @ 4.00GHz) , it ends up being faster and stronger on all metrics compared with quicklz
and snappy
at --fast=2
. It also compares favorably to lzo
with --fast=3
. lz4
still offers a better speed / compression combo, with zstd --fast=4
approaching close.
name | ratio | compression | decompression |
---|---|---|---|
zstd 1.3.4 --fast=5 | 1.996 | 770 MB/s | 2060 MB/s |
lz4 1.8.1 | 2.101 | 750 MB/s | 3700 MB/s |
zstd 1.3.4 --fast=4 | 2.068 | 720 MB/s | 2000 MB/s |
zstd 1.3.4 --fast=3 | 2.153 | 675 MB/s | 1930 MB/s |
lzo1x 2.09 -1 | 2.108 | 640 MB/s | 810 MB/s |
zstd 1.3.4 --fast=2 | 2.265 | 610 MB/s | 1830 MB/s |
quicklz 1.5.0 -1 | 2.238 | 540 MB/s | 720 MB/s |
snappy 1.1.4 | 2.091 | 530 MB/s | 1820 MB/s |
zstd 1.3.4 --fast=1 | 2.431 | 530 MB/s | 1770 MB/s |
zstd 1.3.4 -1 | 2.877 | 470 MB/s | 1380 MB/s |
brotli 1.0.2 -0 | 2.701 | 410 MB/s | 430 MB/s |
lzf 3.6 -1 | 2.077 | 400 MB/s | 860 MB/s |
zlib 1.2.11 -1 | 2.743 | 110 MB/s | 400 MB/s |
Applications which were considering Zstandard but were worried of being CPU-bounded are now able to shift the load from CPU to bandwidth on a larger scale, and may even vary temporarily their choice depending on local conditions (to deal with some sudden workload surge for example).
Long Range Mode with Multi-threading
zstd-1.3.2 introduced the long range mode, capable to deduplicate long distance redundancies in a large data stream, a situation typical in backup scenarios for example. But its usage in association with multi-threading was discouraged, due to inefficient use of memory.
zstd-1.3.4 solves this issue, by making long range match finder run in serial mode, like a pre-processor, before passing its result to backend compressors (regular zstd). Memory usage is now bounded to the maximum of the long range window size, and the memory that zstdmt would require without long range matching. As the long range mode runs at about 200 MB/s, depending on the number of cores available, it's possible to tune compression level to match the LRM speed, which becomes the upper limit.
zstd -T0 -5 --long file # autodetect threads, level 5, 128 MB window
zstd -T16 -10 --long=31 file # 16 threads, level 10, 2 GB window
As illustration, benchmarks of the two files "Linux 4.7 - 4.12" and "Linux git" from the 1.3.2 release are shown below. All compressors are run with 16 threads, except "zstd single 2 GB". zstd
compressors are run with either a 128 MB or 2 GB window size, and lrzip
compressor is run with lzo
, gzip
, and xz
backends. The benchmarks were run on a 16 core Sandy Bridge @ 2.2 GHz.
The association of Long Range Mode with multi-threading is pretty compelling for large stream scenarios.
Miscellaneous
This release also brings its usual list of small improvements and bug fixes, as detailed below :
- perf: faster speed (especially decoding speed) on recent cpus (haswell+)
- perf: much better performance associating
--long
with multi-threading, by @terrelln - perf: better compression at levels 13-15
- cli : asynchronous compression by default, for faster experience (use
--single-thread
for former behavior) - cli : smoother status report in multi-threading mode
- cli : added command
--fast=#
, for faster compression modes - cli : fix crash when not overwriting existing files, by Pádraig Brady (@pixelb)
- api :
nbThreads
becomesnbWorkers
: 1 triggers asynchronous mode - api : compression levels can be negative, for even more speed
- api :
ZSTD_getFrameProgression()
: get precise progress status of ZSTDMT anytime - api : ZSTDMT can accept new compression parameters during compression
- api : implemented all advanced dictionary decompression prototypes
- build: improved meson recipe, by Shawn Landden (@shawnl)
- build: VS2017 scripts, by @HaydnTrigg
- misc: all
/contrib
projects fixed - misc: added
/contrib/docker
script by @gyscos
Zstandard v1.3.3
This is bugfix release, mostly focused on cleaning several detrimental corner cases scenarios.
It is nonetheless a recommended upgrade.
Changes Summary
- perf: improved
zstd_opt
strategy (levels 16-19) - fix : bug #944 : multithreading with shared ditionary and large data, reported by @gsliepen
- cli : change :
-o
can be combined with multiple inputs, by @terrelln - cli : fix : content size written in header by default
- cli : fix : improved LZ4 format support, by @felixhandte
- cli : new : hidden command
-b -S
, to benchmark multiple files and generate one result per file - api : change : when setting
pledgedSrcSize
, useZSTD_CONTENTSIZE_UNKNOWN
macro value to mean "unknown" - api : fix : support large skippable frames, by @terrelln
- api : fix : re-using context could result in suboptimal block size in some corner case scenarios
- api : fix : streaming interface was adding a useless 3-bytes null block to small frames
- build: fix : compilation under rhel6 and centos6, reported by @pixelb
- build: added
check
target - build: improved meson support, by @shawnl
Zstandard v1.3.2 - Long Range Mode
Zstandard Long Range Match Finder
Zstandard has a new long range match finder written by Facebook's intern Stella Lau (@stellamplau), which specializes on finding long matches in the distant past. It integrates seamlessly with the regular compressor, and the output can be decompressed just like any other Zstandard compressed data.
The long range match finder adds minimal overhead to the compressor, works with any compression level, and maintains Zstandard's blazingly fast decompression speed. However, since the window size is larger, it requires more memory for compression and decompression.
To go along with the long range match finder, we've increased the maximum window size to 2 GB. The decompressor only accepts window sizes up to 128 MB by default, but zstd -d --memory=2GB
will decompress window sizes up to 2 GB.
Example usage
# 128 MB window size
zstd -1 --long file
zstd -d file.zst
# 2 GB window size (window log = 31)
zstd -6 --long=31 file
zstd -d --long=31 file.zst
# OR
zstd -d --memory=2GB file.zst
ZSTD_CCtx *cctx = ZSTD_createCCtx();
ZSTD_CCtx_setParameter(cctx, ZSTD_p_compressionLevel, 19);
ZSTD_CCtx_setParameter(cctx, ZSTD_p_enableLongDistanceMatching, 1); // Sets windowLog=27
ZSTD_CCtx_setParameter(cctx, ZSTD_p_windowLog, 30); // Optionally increase the window log
ZSTD_compress_generic(cctx, &out, &in, ZSTD_e_end);
ZSTD_DCtx *dctx = ZSTD_createDCtx();
ZSTD_DCtx_setMaxWindowSize(dctx, 1 << 30);
ZSTD_decompress_generic(dctx, &out, &in);
Benchmarks
We compared the zstd long range matcher to zstd and lrzip. The benchmarks were run on an AMD Ryzen 1800X (8 cores with 16 threads at 3.6 GHz).
Compressors
- zstd — The regular Zstandard compressor.
- zstd 128 MB — The Zstandard compressor with a 128 MB window size.
- zstd 2 GB — The Zstandard compressor with a 2 GB window size.
- lrzip xz — The lrzip compressor with default options, which uses the xz backend at level 7 with 16 threads.
- lrzip xz single — The lrzip compressor with a single-threaded xz backend at level 7.
- lrzip zstd — The lrzip compressor without a backend, then its output is compressed by zstd (not multithreaded).
Files
- Linux 4.7 - 4.12 — This file consists of the uncompressed tarballs of the six Linux kernel release from 4.7 to 4.12 concatenated together in order. This file is extremely compressible if the compressor can match against the previous versions well.
- Linux git — This file is a tarball of the linux repo, created by
git clone https://github.com/torvalds/linux && tar -cf linux-git.tar linux/
. This file gets a small benefit from long range matching. This file shows how the long range matcher performs when there isn't too many matches to find.
Results
Both zstd and zstd 128 MB don't have large enough of a window size to compress Linux 4.7 - 4.12 well. zstd 2 GB compresses the fastest, and slightly better than lrzip-zstd. lrzip-xz compresses the best, and at a reasonable speed with multithreading enabled. The place where zstd shines is decompression ease and speed. Since it is just regular Zstandard compressed data, it is decompressed by the highly optimized decompressor.
The Linux git file shows that the long range matcher maintains good compression and decompression speed, even when there are far less long range matches. The decompression speed takes a small hit because it has to look further back to reconstruct the matches.
Compression Ratio vs Speed | Decompression Speed |
---|---|
![]() |
![]() |
![]() |
![]() |
Implementation details
The long distance match finder was inspired by great work from Con Kolivas' lrzip, which in turn was inspired by Andrew Tridgell's rzip. Also, let's mention Bulat Ziganshin's srep, which we have not been able to test unfortunately (site down), but the discussions on encode.ru proved great sources of inspiration.
Therefore, many similar mechanisms are adopted, such as using a rolling hash, and filling a hash table divided into buckets of entries.
That being said, we also made different choices, with the goal to favor speed, as can be observed in benchmark. The rolling hash formula is selected for computing efficiency. There is a restrictive insertion policy, which only inserts candidates that respect a mask condition. The insertion policy allows us to skip the hash table in the common case that a match isn't present. Confirmation bits are saved, to only check for matches when there is a strong presumption of success. These and a few more details add up to make zstd's long range matcher a speed-oriented implementation.
The biggest difference though is that the long range matcher is blended into the regular compressor, producing a single valid zstd frame, undistinguishable from normal operation (except obviously for the larger window size). This makes decompression a single pass process, preserving its speed property.
More details are available directly in source code, at lib/compress/zstd_ldm.c.
Future work
This is a first implementation, and it still has a few limitations, that we plan to lift in the future.
The long range matcher doesn't interact well with multithreading. Due to the way zstd multithreading is currently implemented, memory usage will scale with the window size times the number of threads, which is a problem for large window sizes. We plan on supporting multithreaded long range matching with reasonable memory usage in a future version.
Secondly, Zstandard is currently limited to a 2 GB window size because of indexer's design. While this is a significant update compared to previous 128 MB limit, we believe this limitation can be lifted altogether, with some structural changes in the indexer. However, it also means that window size would become really big, with knock-off consequences on memory usage. So, to reduce this load, we will have to consider memory map as a complementary way to reference past content in the uncompressed file.
Detailed list of changes
- new : long range mode, using
--long
command, by Stella Lau (@stellamplau) - new : ability to generate and decode magicless frames (#591)
- changed : maximum nb of threads reduced to 200, to avoid address space exhaustion in 32-bits mode
- fix : multi-threading compression works with custom allocators, by @terrelln
- fix : a rare compression bug when compression generates very large distances and bunch of other conditions (only possible at
--ultra -22
) - fix : 32-bits build can now decode large offsets (levels 21+)
- cli : added LZ4 frame support by default, by Felix Handte (@felixhandte)
- cli : improved
--list
output - cli : new : can split input file for dictionary training, using command
-B#
- cli : new : clean operation artefact on Ctrl-C interruption (#854)
- cli : fix : do not change /dev/null permissions when using command
-t
with root access, reported by @Mike155 (#851) - cli : fix : write file size in header in multiple-files mode
- api : added macro
ZSTD_COMPRESSBOUND()
for static allocation - api : experimental : new advanced decompression API
- api : fix :
sizeof_CCtx()
used to over-estimate - build: fix : compilation works with
-mbmi
(#868) - build: fix : no-multithread variant compiles without
pool.c
dependency, reported by Mitchell Blank Jr (@mitchblank) (#819) - build: better compatibility with reproducible builds, by Bernhard M. Wiedemann (@bmwiedemann) (#818)
- example : added
streaming_memory_usage
- license : changed /examples license to BSD + GPLv2
- license : fix a few header files to reflect new license (#825)
Warning
bug #944 : v1.3.2
is known to produce corrupted data in the following scenario, requiring all these conditions simultaneously :
- compression using multi-threading
- with a dictionary
- on "large enough" files (several MB, exact threshold depends on compression level)
Note that dictionary is meant to help compression of small files (a few KB), while multi-threading is only useful for large files, so it's pretty rare to need both at the same time. Nonetheless, if your application happens to trigger this situation, it's recommended to skip v1.3.2
for a newer version. At the time of this warning, the dev
branch is known to work properly for the same scenario.
Zstandard Fuzz Corpora
Zstandard Fuzz Corpora
Zstandard v1.3.1
- New license : BSD + GPLv2
- perf: substantially decreased memory usage in Multi-threading mode, thanks to reports by Tino Reichardt (@mcmilk)
- perf: Multi-threading supports up to 256 threads. Cap at 256 when more are requested (#760)
- cli : improved and fixed
--list
command, by @ib (#772) - cli : command
-vV
lists supported formats, by @ib (#771) - build : fixed binary variants, reported by @svenha (#788)
- build : fix Visual compilation for non x86/x64 targets, reported by @GregSlazinski (#718)
- API exp : breaking change :
ZSTD_getframeHeader()
provides more information - API exp : breaking change : pinned down values of error codes
- doc : fixed huffman example, by Ulrich Kunitz (@ulikunitz)
- new :
contrib/adaptive-compression
, I/O driven compression level, by Paul Cruz (@paulcruz74) - new :
contrib/long_distance_matching
, statistics tool by Stella Lau (@stellamplau) - updated :
contrib/linux-kernel
, by Nick Terrell (@terrelln)
Zstandard v1.3.0
cli : new : --list
command, by @paulcruz74
cli : changed : xz/lzma support enabled by default
cli : changed : -t *
continue processing list after a decompression error
API : added : ZSTD_versionString()
API : promoted to stable status : ZSTD_getFrameContentSize()
, by @iburinoc
API exp : new advanced API : ZSTD_compress_generic()
, ZSTD_CCtx_setParameter()
API exp : new : API for static or external allocation : ZSTD_initStatic?Ctx()
API exp : added : ZSTD_decompressBegin_usingDDict()
, requested by @Crazee (#700)
API exp : clarified memory estimation / measurement functions.
API exp : changed : strongest strategy renamed ZSTD_btultra
, fastest strategy ZSTD_fast
set to 1
Improved : reduced stack memory usage, by @terrelln and @stellamplau
tools : decodecorpus can generate random dictionary-compressed samples, by @paulcruz74
new : contrib/seekable_format, demo and API, by @iburinoc
changed : contrib/linux-kernel, updated version and license, by @terrelln
Zstandard v1.2.0
Major features :
- Multithreading is enabled by default in the cli. Use
-T#
to select nb of thread. To disable multithreading, build targetzstd-nomt
or compile withHAVE_THREAD=0
. - New dictionary builder named "cover" with improved quality (produces better compression ratio), by @terrelln. Legacy dictionary builder remains available, using
--train-legacy
command.
Other changes :
cli : new : command -T0
means "detect and use nb of cores", by @iburinoc
cli : new : zstdmt
symlink hardwired to zstd -T0
cli : new : command --threads=#
(#671)
cli : new : commands --train-cover
and --train-legacy
, to select dictionary algorithm and parameters
cli : experimental targets zstd4
and xzstd4
, supporting lz4 format, by @iburinoc
cli : fix : does not output compressed data on console
cli : fix : ignore symbolic links unless --force
specified,
API : breaking change : ZSTD_createCDict_advanced()
uses compressionParameters
as argument
API : added : prototypes ZSTD_*_usingCDict_advanced()
, for direct control over frameParameters
.
API : improved: ZSTDMT_compressCCtx()
reduced memory usage
API : fix : ZSTDMT_compressCCtx()
now provides srcSize
in header (#634)
API : fix : src size stored in frame header is controlled at end of frame
API : fix : enforced consistent rules for pledgedSrcSize==0
(#641)
API : fix : error code GENERIC
replaced by dstSizeTooSmall
when appropriate
build: improved cmake script, by @Majlen
build: enabled Multi-threading support for *BSD, by @bapt
tools: updated paramgrill
. Command -O#
provides best parameters for sample and speed target.
new : contrib/linux-kernel
version, by @terrelln
Zstandard v1.1.4
cli : new : can compress in *.gz
format, using --format=gzip
command, by @inikep
cli : new : advanced benchmark command --priority=rt
cli : fix : write on sparse-enabled file systems in 32-bits mode, by @ds77
cli : fix : --rm
remains silent when input is stdin
cli : experimental xzstd
target, with support for xz/lzma decoding, by @inikep
speed : improved decompression speed in streaming mode for single pass scenarios (+5%)
memory : DDict (decompression dictionary) memory usage down from 150 KB to 20 KB
arch : 32-bits variant able to generate and decode very long matches (>32 MB), by @iburinoc
API : new : ZSTD_findFrameCompressedSize()
, ZSTD_getFrameContentSize()
, ZSTD_findDecompressedSize()
API : changed : dropped support of legacy versions <= v0.3 (can be selected by modifying ZSTD_LEGACY_SUPPORT
value)
build: new: meson build system in contrib/meson, by @dimkr
build: improved cmake script, by @Majlen
build: added -Wformat-security
flag, as recommended by @pixelb
doc : new : doc/educational_decoder
, by @iburinoc
Warning : the experimental target zstdmt
contained in this release has an issue when using multiple threads on large enough files, which makes it generate buggy header. While fixing the header after the fact is possible, it's much better to avoid the issue. This can be done by using zstdmt
in pipe mode :
cat file | zstdmt -T2 -o file.zst
This issue is fixed in current dev
branch, so alternatively, create zstdmt
from dev
branch.
Note : pre-compiled Windows binaries attached below contain the fix for zstdmt
Zstandard v1.1.3
cli : zstd can decompress .gz files (can be disabled with make zstd-nogz
or make HAVE_ZLIB=0
)
cli : new : experimental target make zstdmt
, with multi-threading support
cli : new : improved dictionary builder "cover" (experimental), by @terrelln, based on previous work by @ot
cli : new : advanced commands for detailed parameters, by @inikep
cli : fix zstdless on Mac OS-X, by @apjanke
cli : fix #232 "compress non-files"
API : new : lib/compress/ZSTDMT_compress.h
multithreading API (experimental)
API : new : ZSTD_create?Dict_byReference()
, requested by Bartosz Taudul
API : new : ZDICT_finalizeDictionary()
API : fix : ZSTD_initCStream_usingCDict()
properly writes dictID into frame header, by @indygreg (#511)
API : fix : all symbols properly exposed in libzstd, by @terrelln
build : support for Solaris target, by @inikep
doc : clarified specification, by @iburinoc
Sample set for reference dictionary compression benchmark
# Download and expand sample set
wget https://github.com/facebook/zstd/releases/download/v1.1.3/github_users_sample_set.tar.zst
zstd -d github_users_sample_set.tar.zst
tar xf github_users_sample_set.tar
# benchmark sample set with and without dictionary compression
zstd -b1 -r github
zstd --train -r github
zstd -b1 -r github -D dictionary
# rebuild sample set archive
tar cf github_users_sample_set.tar github
zstd -f --ultra -22 github_users_sample_set.tar