mirror of https://git.tukaani.org/xz.git
xz: Limit --memlimit-compress to at most 4020 MiB for 32-bit xz.
See the code comment for reasoning. It's far from perfect but hopefully good enough for certain cases while hopefully doing nothing bad in other situations. At presets -5 ... -9, 4020 MiB vs. 4096 MiB makes no difference on how xz scales down the number of threads. The limit has to be a few MiB below 4096 MiB because otherwise things like "xz --lzma2=dict=500MiB" won't scale down the dict size enough and xz cannot allocate enough memory. With "ulimit -v $((4096 * 1024))" on x86-64, the limit in xz had to be no more than 4085 MiB. Some safety margin is good though. This is hack but it should be useful when running 32-bit xz on a 64-bit kernel that gives full 4 GiB address space to xz. Hopefully this is enough to solve this: https://bugzilla.redhat.com/show_bug.cgi?id=1196786 FreeBSD has a patch that limits the result in tuklib_physmem() to SIZE_MAX on 32-bit systems. While I think it's not the way to do it, the results on --memlimit-compress have been good. This commit should achieve practically identical results for compression while leaving decompression and tuklib_physmem() and thus lzma_physmem() unaffected.
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@ -68,9 +68,39 @@ hardware_memlimit_set(uint64_t new_memlimit,
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new_memlimit = (uint32_t)new_memlimit * total_ram / 100;
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}
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if (set_compress)
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if (set_compress) {
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memlimit_compress = new_memlimit;
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#if SIZE_MAX == UINT32_MAX
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// FIXME?
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//
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// When running a 32-bit xz on a system with a lot of RAM and
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// using a percentage-based memory limit, the result can be
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// bigger than the 32-bit address space. Limiting the limit
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// below SIZE_MAX for compression (not decompression) makes
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// xz lower the compression settings (or number of threads)
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// to a level that *might* work. In practice it has worked
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// when using a 64-bit kernel that gives full 4 GiB address
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// space to 32-bit programs. In other situations this might
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// still be too high, like 32-bit kernels that may give much
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// less than 4 GiB to a single application.
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//
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// So this is an ugly hack but I will keep it here while
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// it does more good than bad.
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//
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// Use a value less than SIZE_MAX so that there's some room
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// for the xz program and so on. Don't use 4000 MiB because
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// it could look like someone mixed up base-2 and base-10.
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const uint64_t limit_max = UINT64_C(4020) << 20;
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// UINT64_MAX is a special case for the string "max" so
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// that has to be handled specially.
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if (memlimit_compress != UINT64_MAX
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&& memlimit_compress > limit_max)
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memlimit_compress = limit_max;
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#endif
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}
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if (set_decompress)
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memlimit_decompress = new_memlimit;
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21
src/xz/xz.1
21
src/xz/xz.1
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@ -5,7 +5,7 @@
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.\" This file has been put into the public domain.
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.\" You can do whatever you want with this file.
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.\"
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.TH XZ 1 "2019-05-11" "Tukaani" "XZ Utils"
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.TH XZ 1 "2020-02-01" "Tukaani" "XZ Utils"
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.
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.SH NAME
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xz, unxz, xzcat, lzma, unlzma, lzcat \- Compress or decompress .xz and .lzma files
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@ -1005,6 +1005,25 @@ instead of
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until the details have been decided.
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.RE
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.IP ""
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For 32-bit
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.BR xz
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there is a special case: if the
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.I limit
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would be over
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.BR "4020\ MiB" ,
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the
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.I limit
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is set to
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.BR "4020\ MiB" .
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(The values
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.B 0
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and
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.B max
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aren't affected by this.
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A similar feature doesn't exist for decompression.)
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This can be helpful when a 32-bit executable has access
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to 4\ GiB address space while hopefully doing no harm in other situations.
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.IP ""
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See also the section
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.BR "Memory usage" .
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.TP
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