Difference between revisions of "Performance research"

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* Reading images                  1%
 
* Reading images                  1%
* Mapping huuge premap area      << 1%
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* Mapping huge premap area      << 1%
 
* (Re-)mapping sub-areas          73%
 
* (Re-)mapping sub-areas          73%
 
* Filling area with data          26%
 
* Filling area with data          26%
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* Maping vma                      15%
 
* Maping vma                      15%
  
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=== Opening files for mappings ===
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The <code>get_filemap_fd()</code> opens new fd every time. If a file is mapped several
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times (e.g. -- a library) we can share one fd for that.
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=== Staging ===
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When restoring a single task CRIU uses [[stages of restoring]] which slows things down. Need either special-care the single task restore, or introduce fine-grained locking for such things.
  
 
[[Category: Development]]
 
[[Category: Development]]
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[[Category: Thinkers]]

Latest revision as of 21:18, 22 February 2023

Written here are performance issues found.

Timing stats of live migration of a small container with 11 tasks is

  • Total time ~3.5 seconds
  • Frozen time ~3.0 seconds
    • Pre-dump stages ~0.5 seconds each
    • Restore time ~1.9 seconds
    • Images transfer time ~0.3 seconds

Below is the list of issues found

Dump[edit]

Surprisingly, but the mem-drain time is not the biggest. It's "only" ~0.02 seconds. There are places in code that take longer.

parse_smaps[edit]

Time spent in this routine is up to 0.2 seconds on dump. This one exploits /proc heavily. For a container with 11 tasks the syscall stats look like

   834 read
  1451 fstat
  1462 close
  1642 openat

while opens and stats happen on

   193 openat(4, "map-symlink", O_RDONLY) = -1 ENOENT (No such file or directory)
  1438 openat(4, "map-symlink", O_RDONLY) = 5
    11 openat(AT_FDCWD, "/proc/$pid/map_files", O_RDONLY|O_NONBLOCK|O_DIRECTORY|O_CLOEXEC) = 4

Restore[edit]

Fork vs VMA restore[edit]

We restore task's mappings before it goes forking to handle COW. This effectively serializes forking.

Restoring VMAs[edit]

There are 4 stages in VMA restore. Relative times of each are below

  • Reading images 1%
  • Mapping huge premap area << 1%
  • (Re-)mapping sub-areas 73%
  • Filling area with data 26%

The 3rd stage has two parts. With timings:

  • Opening filemap fd 85%
  • Maping vma 15%


Opening files for mappings[edit]

The get_filemap_fd() opens new fd every time. If a file is mapped several times (e.g. -- a library) we can share one fd for that.

Staging[edit]

When restoring a single task CRIU uses stages of restoring which slows things down. Need either special-care the single task restore, or introduce fine-grained locking for such things.