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Add NEWS for 5.4.0.
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NEWS
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NEWS
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XZ Utils Release Notes
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======================
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5.4.0 (2022-12-13)
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This bumps the minor version of liblzma because new features were
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added. The API and ABI are still backward compatible with liblzma
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5.2.x and 5.0.x.
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Since 5.3.5beta:
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* All fixes from 5.2.10.
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* The ARM64 filter is now stable. The xz option is now --arm64.
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Decompression requires XZ Utils 5.4.0. In the future the ARM64
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filter will be supported by XZ for Java, XZ Embedded (including
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the version in Linux), LZMA SDK, and 7-Zip.
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* Translations:
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- Updated Catalan, Croatian, German, Romanian, and Turkish
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translations.
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- Updated German man page translations.
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- Added Romanian man page translations.
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Summary of new features added in the 5.3.x development releases:
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* liblzma:
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- Added threaded .xz decompressor lzma_stream_decoder_mt().
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It can use multiple threads with .xz files that have multiple
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Blocks with size information in Block Headers. The threaded
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encoder in xz has always created such files.
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Single-threaded encoder cannot store the size information in
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Block Headers even if one used LZMA_FULL_FLUSH to create
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multiple Blocks, so this threaded decoder cannot use multiple
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threads with such files.
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If there are multiple Streams (concatenated .xz files), one
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Stream will be decompressed completely before starting the
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next Stream.
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- A new decoder flag LZMA_FAIL_FAST was added. It makes the
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threaded decompressor report errors soon instead of first
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flushing all pending data before the error location.
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- New Filter IDs:
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* LZMA_FILTER_ARM64 is for ARM64 binaries.
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* LZMA_FILTER_LZMA1EXT is for raw LZMA1 streams that don't
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necessarily use the end marker.
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- Added lzma_str_to_filters(), lzma_str_from_filters(), and
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lzma_str_list_filters() to convert a preset or a filter chain
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string to a lzma_filter[] and vice versa. These should make
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it easier to write applications that allow users to specify
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custom compression options.
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- Added lzma_filters_free() which can be convenient for freeing
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the filter options in a filter chain (an array of lzma_filter
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structures).
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- lzma_file_info_decoder() to makes it a little easier to get
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the Index field from .xz files. This helps in getting the
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uncompressed file size but an easy-to-use random access
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API is still missing which has existed in XZ for Java for
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a long time.
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- Added lzma_microlzma_encoder() and lzma_microlzma_decoder().
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It is used by erofs-utils and may be used by others too.
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The MicroLZMA format is a raw LZMA stream (without end marker)
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whose first byte (always 0x00) has been replaced with
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bitwise-negation of the LZMA properties (lc/lp/pb). It was
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created for use in EROFS but may be used in other contexts
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as well where it is important to avoid wasting bytes for
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stream headers or footers. The format is also supported by
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XZ Embedded (the XZ Embedded version in Linux got MicroLZMA
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support in Linux 5.16).
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The MicroLZMA encoder API in liblzma can compress into a
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fixed-sized output buffer so that as much data is compressed
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as can be fit into the buffer while still creating a valid
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MicroLZMA stream. This is needed for EROFS.
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- Added lzma_lzip_decoder() to decompress the .lz (lzip) file
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format version 0 and the original unextended version 1 files.
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Also lzma_auto_decoder() supports .lz files.
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- lzma_filters_update() can now be used with the multi-threaded
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encoder (lzma_stream_encoder_mt()) to change the filter chain
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after LZMA_FULL_BARRIER or LZMA_FULL_FLUSH.
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- In lzma_options_lzma, allow nice_len = 2 and 3 with the match
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finders that require at least 3 or 4. Now it is internally
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rounded up if needed.
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- CLMUL-based CRC64 on x86-64 and E2K with runtime processor
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detection. On 32-bit x86 it currently isn't available unless
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--disable-assembler is used which can make the non-CLMUL
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CRC64 slower; this might be fixed in the future.
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- Building with --disable-threads --enable-small
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is now thread-safe if the compiler supports
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__attribute__((__constructor__)).
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* xz:
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- Using -T0 (--threads=0) will now use multi-threaded encoder
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even on a single-core system. This is to ensure that output
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from the same xz binary is identical on both single-core and
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multi-core systems.
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- --threads=+1 or -T+1 is now a way to put xz into
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multi-threaded mode while using only one worker thread.
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The + is ignored if the number is not 1.
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- A default soft memory usage limit is now used for compression
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when -T0 is used and no explicit limit has been specified.
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This soft limit is used to restrict the number of threads
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but if the limit is exceeded with even one thread then xz
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will continue with one thread using the multi-threaded
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encoder and this limit is ignored. If the number of threads
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is specified manually then no default limit will be used;
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this affects only -T0.
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This change helps on systems that have very many cores and
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using all of them for xz makes no sense. Previously xz -T0
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could run out of memory on such systems because it attempted
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to reserve memory for too many threads.
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This also helps with 32-bit builds which don't have a large
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amount of address space that would be required for many
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threads. The default soft limit for -T0 is at most 1400 MiB
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on all 32-bit platforms.
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- Previously a low value in --memlimit-compress wouldn't cause
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xz to switch from multi-threaded mode to single-threaded mode
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if the limit cannot otherwise be met; xz failed instead. Now
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xz can switch to single-threaded mode and then, if needed,
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scale down the LZMA2 dictionary size too just like it already
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did when it was started in single-threaded mode.
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- The option --no-adjust no longer prevents xz from scaling down
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the number of threads as that doesn't affect the compressed
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output (only performance). Now --no-adjust only prevents
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adjustments that affect compressed output, that is, with
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--no-adjust xz won't switch from multi-threaded mode to
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single-threaded mode and won't scale down the LZMA2
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dictionary size.
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- Added a new option --memlimit-mt-decompress=LIMIT. This is
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used to limit the number of decompressor threads (possibly
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falling back to single-threaded mode) but it will never make
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xz refuse to decompress a file. This has a system-specific
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default value because without any limit xz could end up
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allocating memory for the whole compressed input file, the
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whole uncompressed output file, multiple thread-specific
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decompressor instances and so on. Basically xz could
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attempt to use an insane amount of memory even with fairly
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common files. The system-specific default value is currently
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the same as the one used for compression with -T0.
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The new option works together with the existing option
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--memlimit-decompress=LIMIT. The old option sets a hard limit
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that must not be exceeded (xz will refuse to decompress)
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while the new option only restricts the number of threads.
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If the limit set with --memlimit-mt-decompress is greater
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than the limit set with --memlimit-compress, then the latter
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value is used also for --memlimit-mt-decompress.
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- Added new information to the output of xz --info-memory and
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new fields to the output of xz --robot --info-memory.
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- In --lzma2=nice=NUMBER allow 2 and 3 with all match finders
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now that liblzma handles it.
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- Don't mention endianness for ARM and ARM-Thumb filters in
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--long-help. The filters only work for little endian
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instruction encoding but modern ARM processors using
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big endian data access still use little endian
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instruction encoding. So the help text was misleading.
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In contrast, the PowerPC filter is only for big endian
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32/64-bit PowerPC code. Little endian PowerPC would need
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a separate filter.
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- Added decompression support for the .lz (lzip) file format
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version 0 and the original unextended version 1. It is
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autodetected by default. See also the option --format on
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the xz man page.
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- Sandboxing enabled by default:
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* Capsicum (FreeBSD)
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* pledge(2) (OpenBSD)
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* Scripts now support the .lz format using xz.
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* A few new tests were added.
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* The liblzma-specific tests are now supported in CMake-based
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builds too ("make test").
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5.3.5beta (2022-12-01)
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* All fixes from 5.2.9.
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