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The metaslab allocator device selection algorithm contains a bias mechanism whose goal is to achieve roughly equal disk space usage across all top-level vdevs. It seems that the initial rationale for this code was to allow newly added (empty) vdevs to "come up to speed" faster in an attempt to make the pool quickly converge to a steady state where all vdevs are equally utilized. While the code seems to work reasonably well for this use case, there is another scenario in which this algorithm fails miserably: the case where top-level vdevs don't have the same sizes (capacities). ZFS allows this, and it is a good feature to have, so that users who simply want to build a pool with the disks they happen to have lying around can do so even if the disks have heteregenous sizes. Here's a script that simulates a pool with two vdevs, with one 4X larger than the other: dd if=/dev/zero of=/tmp/d1 bs=1 count=1 seek=134217728 dd if=/dev/zero of=/tmp/d2 bs=1 count=1 seek=536870912 zpool create testspace /tmp/d1 /tmp/d2 dd if=/dev/zero of=/testspace/foobar bs=1M count=256 zpool iostat -v testspace Before this commit, the script would output the following: capacity pool alloc free ---------- ----- ----- testspace 252M 375M /tmp/d1 104M 18.5M /tmp/d2 148M 356M ---------- ----- ----- This demonstrates that the current code handles this situation very poorly: d1 shows 85% usage despite the pool itself being only 40% full. d1 is quite saturated at this point, and is slowing down the entire pool due to saturation, fragmentation and the like. In contrast, here's the result with the code in this commit: capacity pool alloc free ---------- ----- ----- testspace 252M 375M /tmp/d1 56.7M 66.3M /tmp/d2 195M 309M ---------- ----- ------ This looks much better. d1 is 46% used, which is close to the overall pool utilization (40%). The code still doesn't result in perfectly balanced allocation, probably because of the way mg_bias is applied which does not guarantee perfect accuracy, but this is still much better than before. Signed-off-by: Etienne Dechamps <etienne@edechamps.fr> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #3389 |
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Native ZFS for Linux!
ZFS is an advanced file system and volume manager which was originally developed for Solaris and is now maintained by the Illumos community.
ZFS on Linux, which is also known as ZoL, is currently feature complete. It includes fully functional and stable SPA, DMU, ZVOL, and ZPL layers.
Full documentation for installing ZoL on your favorite Linux distribution can be found at: http://zfsonlinux.org