New RHEL6-based OpenVZ kernel has a new memory management model, which supersedes User beancounters. It is called VSwap.
Now you can set two primary parameters: physpages and swappages, while all the other beancounters become secondary.
- physpages
- This parameter limits the physical memory (RAM) available to processes inside a container.
- The
barrieris ignored, and thelimitsets the limit. - Currently the user memory and the page cache are accounted into
physpages.
- swappages
- This parameter limits the amount of swap space which can be used for processes inside a container.
- The
barrieris ignored, and thelimitsets the limit.
The sum of physpages.limit and swappages.limit limits the maximum amount
of allocated memory which can be used by a container. When physpages limit
is reached, memory pages belonging to the container are pushed out to
so called virtual swap (vswap). The difference between normal swap
and vswap is that with vswap no actual disk I/O usually occurs. Instead,
a container is artificially slowed down, to emulate the effect of the real
swapping. Actual swap out occurs only if there is a global memory shortage
on the system.
Secondary parameters
Even though these settings are classed as secondary, they are still important settings!
In addition to physpages and swappages being set, it is currently recommended to:
- Set
kmemsizeto no more than 1/2 ofphyspages - Set
dcachesizeto no more than 1/2 ofkmemsize - Set
lockedpagesto no more than 1/2 ofphyspages
VSwap CT config samples (like ve-vswap-256m.conf-sample that come with vzctl are currently implementing these recommendations.
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Note: VSwap feature is still being worked on, so these recommendation might change in the future. |