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FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/pccard/@/geom/sched/README |
--- GEOM BASED DISK SCHEDULERS FOR FREEBSD --- This code contains a framework for GEOM-based disk schedulers and a couple of sample scheduling algorithms that use the framework and implement two forms of "anticipatory scheduling" (see below for more details). As a quick example of what this code can give you, try to run "dd", "tar", or some other program with highly SEQUENTIAL access patterns, together with "cvs", "cvsup", "svn" or other highly RANDOM access patterns (this is not a made-up example: it is pretty common for developers to have one or more apps doing random accesses, and others that do sequential accesses e.g., loading large binaries from disk, checking the integrity of tarballs, watching media streams and so on). These are the results we get on a local machine (AMD BE2400 dual core CPU, SATA 250GB disk): /mnt is a partition mounted on /dev/ad0s1f cvs: cvs -d /mnt/home/ncvs-local update -Pd /mnt/ports dd-read: dd bs=128k of=/dev/null if=/dev/ad0 (or ad0-sched-) dd-writew dd bs=128k if=/dev/zero of=/mnt/largefile NO SCHEDULER RR SCHEDULER dd cvs dd cvs dd-read only 72 MB/s ---- 72 MB/s --- dd-write only 55 MB/s --- 55 MB/s --- dd-read+cvs 6 MB/s ok 30 MB/s ok dd-write+cvs 55 MB/s slooow 14 MB/s ok As you can see, when a cvs is running concurrently with dd, the performance drops dramatically, and depending on read or write mode, one of the two is severely penalized. The use of the RR scheduler in this example makes the dd-reader go much faster when competing with cvs, and lets cvs progress when competing with a writer. To try it out: 1. USERS OF FREEBSD 7, PLEASE READ CAREFULLY THE FOLLOWING: On loading, this module patches one kernel function (g_io_request()) so that I/O requests ("bio's") carry a classification tag, useful for scheduling purposes. ON FREEBSD 7, the tag is stored in an existing (though rarely used) field of the "struct bio", a solution which makes this module incompatible with other modules using it, such as ZFS and gjournal. Additionally, g_io_request() is patched in-memory to add a call to the function that initializes this field (i386/amd64 only; for other architectures you need to manually patch sys/geom/geom_io.c). See details in the file g_sched.c. On FreeBSD 8.0 and above, the above trick is not necessary, as the struct bio contains dedicated fields for the classifier, and hooks for request classifiers. If you don't like the above, don't run this code. 2. PLEASE MAKE SURE THAT THE DISK THAT YOU WILL BE USING FOR TESTS DOES NOT CONTAIN PRECIOUS DATA. This is experimental code, so we make no guarantees, though I am routinely using it on my desktop and laptop. 3. EXTRACT AND BUILD THE PROGRAMS A 'make install' in the directory should work (with root privs), or you can even try the binary modules. If you want to build the modules yourself, look at the Makefile. 4. LOAD THE MODULE, CREATE A GEOM NODE, RUN TESTS The scheduler's module must be loaded first: # kldload gsched_rr substitute with gsched_as to test AS. Then, supposing that you are using /dev/ad0 for testing, a scheduler can be attached to it with: # geom sched insert ad0 The scheduler is inserted transparently in the geom chain, so mounted partitions and filesystems will keep working, but now requests will go through the scheduler. To change scheduler on-the-fly, you can reconfigure the geom: # geom sched configure -a as ad0.sched. assuming that gsched_as was loaded previously. 5. SCHEDULER REMOVAL In principle it is possible to remove the scheduler module even on an active chain by doing # geom sched destroy ad0.sched. However, there is some race in the geom subsystem which makes the removal unsafe if there are active requests on a chain. So, in order to reduce the risk of data losses, make sure you don't remove a scheduler from a chain with ongoing transactions. --- NOTES ON THE SCHEDULERS --- The important contribution of this code is the framework to experiment with different scheduling algorithms. 'Anticipatory scheduling' is a very powerful technique based on the following reasoning: The disk throughput is much better if it serves sequential requests. If we have a mix of sequential and random requests, and we see a non-sequential request, do not serve it immediately but instead wait a little bit (2..5ms) to see if there is another one coming that the disk can serve more efficiently. There are many details that should be added to make sure that the mechanism is effective with different workloads and systems, to gain a few extra percent in performance, to improve fairness, insulation among processes etc. A discussion of the vast literature on the subject is beyond the purpose of this short note. -------------------------------------------------------------------------- TRANSPARENT INSERT/DELETE geom_sched is an ordinary geom module, however it is convenient to plug it transparently into the geom graph, so that one can enable or disable scheduling on a mounted filesystem, and the names in /etc/fstab do not depend on the presence of the scheduler. To understand how this works in practice, remember that in GEOM we have "providers" and "geom" objects. Say that we want to hook a scheduler on provider "ad0", accessible through pointer 'pp'. Originally, pp is attached to geom "ad0" (same name, different object) accessible through pointer old_gp BEFORE ---> [ pp --> old_gp ...] A normal "geom sched create ad0" call would create a new geom node on top of provider ad0/pp, and export a newly created provider ("ad0.sched." accessible through pointer newpp). AFTER create ---> [ newpp --> gp --> cp ] ---> [ pp --> old_gp ... ] On top of newpp, a whole tree will be created automatically, and we can e.g. mount partitions on /dev/ad0.sched.s1d, and those requests will go through the scheduler, whereas any partition mounted on the pre-existing device entries will not go through the scheduler. With the transparent insert mechanism, the original provider "ad0"/pp is hooked to the newly created geom, as follows: AFTER insert ---> [ pp --> gp --> cp ] ---> [ newpp --> old_gp ... ] so anything that was previously using provider pp will now have the requests routed through the scheduler node. A removal ("geom sched destroy ad0.sched.") will restore the original configuration. # $FreeBSD: release/9.1.0/sys/geom/sched/README 206497 2010-04-12 16:37:45Z luigi $