1. 03 Jun, 2015 2 commits
  2. 26 Apr, 2015 1 commit
  3. 25 Apr, 2015 1 commit
    • Dmitry Torokhov's avatar
      platform/chrome: chromeos_laptop - instantiate Atmel at primary address · 96cba9b0
      Dmitry Torokhov authored
      The new Atmel MXT driver expects i2c client's address contain the
      primary (main address) of the chip, and calculates the expected
      bootloader address form the primary address. Unfortunately chrome_laptop
      does probe the devices and if touchpad (or touchscreen, or both) comes
      up in bootloader mode the i2c device gets instantiated with the
      bootloader address which confuses the driver.
      To work around this issue let's probe the primary address first. If the
      device is not detected at the primary address we'll probe alternative
      addresses as "dummy" devices. If any of them are found, destroy the
      dummy client and instantiate client with proper name at primary address
      Signed-off-by: default avatarDmitry Torokhov <dmitry.torokhov@gmail.com>
      Signed-off-by: default avatarOlof Johansson <olof@lixom.net>
  4. 24 Apr, 2015 4 commits
  5. 23 Apr, 2015 11 commits
  6. 22 Apr, 2015 12 commits
  7. 21 Apr, 2015 9 commits
    • Eric Mei's avatar
      md/raid5: don't do chunk aligned read on degraded array. · 9ffc8f7c
      Eric Mei authored
      When array is degraded, read data landed on failed drives will result in
      reading rest of data in a stripe. So a single sequential read would
      result in same data being read twice.
      This patch is to avoid chunk aligned read for degraded array. The
      downside is to involve stripe cache which means associated CPU overhead
      and extra memory copy.
      Test Results:
      Following test are done on a enterprise storage node with Seagate 6T SAS
      drives and Xeon E5-2648L CPU (10 cores, 1.9Ghz), 10 disks MD RAID6 8+2,
      chunk size 128 KiB.
      I use FIO, using direct-io with various bs size, enough queue depth,
      tested sequential and 100% random read against 3 array config:
       1) optimal, as baseline;
       2) degraded;
       3) degraded with this patch.
      Kernel version is 4.0-rc3.
      Each individual test I only did once so there might be some variations,
      but we just focus on big trend.
      Sequential Read:
        bs=(KiB)  optimal(MiB/s)  degraded(MiB/s)  degraded-with-patch (MiB/s)
         1024       1608            656              995
          512       1624            710              956
          256       1635            728              980
          128       1636            771              983
           64       1612           1119             1000
           32       1580           1420             1004
           16       1368            688              986
            8        768            647              953
            4        411            413              850
      Random Read:
        bs=(KiB)  optimal(IOPS)  degraded(IOPS)  degraded-with-patch (IOPS)
         1024        163            160              156
          512        274            273              272
          256        426            428              424
          128        576            592              591
           64        726            724              726
           32        849            848              837
           16        900            970              971
            8        927            940              929
            4        948            940              955
      Some notes:
        * In sequential + optimal, as bs size getting smaller, the FIO thread
      become CPU bound.
        * In sequential + degraded, there's big increase when bs is 64K and
      32K, I don't have explanation.
        * In sequential + degraded-with-patch, the MD thread mostly become CPU
      If you want to we can discuss specific data point in those data. But in
      general it seems with this patch, we have more predictable and in most
      cases significant better sequential read performance when array is
      degraded, and almost no noticeable impact on random read.
      Performance is a complicated thing, the patch works well for this
      particular configuration, but may not be universal. For example I
      imagine testing on all SSD array may have very different result. But I
      personally think in most cases IO bandwidth is more scarce resource than
      Signed-off-by: default avatarEric Mei <eric.mei@seagate.com>
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • NeilBrown's avatar
      md/raid5: allow the stripe_cache to grow and shrink. · edbe83ab
      NeilBrown authored
      The default setting of 256 stripe_heads is probably
      much too small for many configurations.  So it is best to make it
      Shrinking the cache under memory pressure is easy.  The only
      interesting part here is that we put a fairly high cost
      ('seeks') on shrinking the cache as the cost is greater than
      just having to read more data, it reduces parallelism.
      Growing the cache on demand needs to be done carefully.  If we allow
      fast growth, that can upset memory balance as lots of dirty memory can
      quickly turn into lots of memory queued in the stripe_cache.
      It is important for the raid5 block device to appear congested to
      allow write-throttling to work.
      So we only add stripes slowly. We set a flag when an allocation
      fails because all stripes are in use, allocate at a convenient
      time when that flag is set, and don't allow it to be set again
      until at least one stripe_head has been released for re-use.
      This means that a spurt of requests will only cause one stripe_head
      to be allocated, but a steady stream of requests will slowly
      increase the cache size - until memory pressure puts it back again.
      It could take hours to reach a steady state.
      The value written to, and displayed in, stripe_cache_size is
      used as a minimum.  The cache can grow above this and shrink back
      down to it.  The actual size is not directly visible, though it can
      be deduced to some extent by watching stripe_cache_active.
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • NeilBrown's avatar
      md/raid5: change ->inactive_blocked to a bit-flag. · 5423399a
      NeilBrown authored
      This allows us to easily add more (atomic) flags.
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • NeilBrown's avatar
      md/raid5: move max_nr_stripes management into grow_one_stripe and drop_one_stripe · 486f0644
      NeilBrown authored
      Rather than adjusting max_nr_stripes whenever {grow,drop}_one_stripe()
      succeeds, do it inside the functions.
      Also choose the correct hash to handle next inside the functions.
      This removes duplication and will help with future new uses of
      This also fixes a minor bug where the "md/raid:%md: allocate XXkB"
      message always said "0kB".
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • NeilBrown's avatar
      md/raid5: pass gfp_t arg to grow_one_stripe() · a9683a79
      NeilBrown authored
      This is needed for future improvement to stripe cache management.
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • Markus Stockhausen's avatar
      md/raid5: introduce configuration option rmw_level · d06f191f
      Markus Stockhausen authored
      Depending on the available coding we allow optimized rmw logic for write
      operations. To support easier testing this patch allows manual control
      of the rmw/rcw descision through the interface /sys/block/mdX/md/rmw_level.
      The configuration can handle three levels of control.
      rmw_level=0: Disable rmw for all RAID types. Hardware assisted P/Q
      calculation has no implementation path yet to factor in/out chunks of
      a syndrome. Enforcing this level can be benefical for slow CPUs with
      hardware syndrome support and fast SSDs.
      rmw_level=1: Estimate rmw IOs and rcw IOs. Execute rmw only if we will
      save IOs. This equals the "old" unpatched behaviour and will be the
      rmw_level=2: Execute rmw even if calculated IOs for rmw and rcw are
      equal. We might have higher CPU consumption because of calculating the
      parity twice but it can be benefical otherwise. E.g. RAID4 with fast
      dedicated parity disk/SSD. The option is implemented just to be
      forward-looking and will ONLY work with this patch!
      Signed-off-by: default avatarMarkus Stockhausen <stockhausen@collogia.de>
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • Markus Stockhausen's avatar
      md/raid5: activate raid6 rmw feature · 584acdd4
      Markus Stockhausen authored
      Glue it altogehter. The raid6 rmw path should work the same as the
      already existing raid5 logic. So emulate the prexor handling/flags
      and split functions as needed.
      1) Enable xor_syndrome() in the async layer.
      2) Split ops_run_prexor() into RAID4/5 and RAID6 logic. Xor the syndrome
      at the start of a rmw run as we did it before for the single parity.
      3) Take care of rmw run in ops_run_reconstruct6(). Again process only
      the changed pages to get syndrome back into sync.
      4) Enhance set_syndrome_sources() to fill NULL pages if we are in a rmw
      run. The lower layers will calculate start & end pages from that and
      call the xor_syndrome() correspondingly.
      5) Adapt the several places where we ignored Q handling up to now.
      Performance numbers for a single E5630 system with a mix of 10 7200k
      desktop/server disks. 300 seconds random write with 8 threads onto a
      3,2TB (10*400GB) RAID6 64K chunk without spare (group_thread_cnt=4)
      bsize   rmw_level=1   rmw_level=0   rmw_level=1   rmw_level=0
              skip_copy=1   skip_copy=1   skip_copy=0   skip_copy=0
         4K      115 KB/s      141 KB/s      165 KB/s      140 KB/s
         8K      225 KB/s      275 KB/s      324 KB/s      274 KB/s
        16K      434 KB/s      536 KB/s      640 KB/s      534 KB/s
        32K      751 KB/s    1,051 KB/s    1,234 KB/s    1,045 KB/s
        64K    1,339 KB/s    1,958 KB/s    2,282 KB/s    1,962 KB/s
       128K    2,673 KB/s    3,862 KB/s    4,113 KB/s    3,898 KB/s
       256K    7,685 KB/s    7,539 KB/s    7,557 KB/s    7,638 KB/s
       512K   19,556 KB/s   19,558 KB/s   19,652 KB/s   19,688 Kb/s
      Signed-off-by: default avatarMarkus Stockhausen <stockhausen@collogia.de>
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • shli@kernel.org's avatar
      raid5: handle expansion/resync case with stripe batching · dabc4ec6
      shli@kernel.org authored
      expansion/resync can grab a stripe when the stripe is in batch list. Since all
      stripes in batch list must be in the same state, we can't allow some stripes
      run into expansion/resync. So we delay expansion/resync for stripe in batch
      Signed-off-by: default avatarShaohua Li <shli@fusionio.com>
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>
    • shli@kernel.org's avatar
      raid5: handle io error of batch list · 72ac7330
      shli@kernel.org authored
      If io error happens in any stripe of a batch list, the batch list will be
      split, then normal process will run for the stripes in the list.
      Signed-off-by: default avatarShaohua Li <shli@fusionio.com>
      Signed-off-by: default avatarNeilBrown <neilb@suse.de>