Message ID | 1471027104-115213-1-git-send-email-kirill.shutemov@linux.intel.com (mailing list archive) |
---|---|
State | New, archived |
Headers | show |
On Fri, Aug 12, 2016 at 09:37:43PM +0300, Kirill A. Shutemov wrote: > Here's stabilized version of my patchset which intended to bring huge pages > to ext4. So this patch is more about mm level changes than it is about the file system, and I didn't see any comments from the linux-mm peanut gallery (unless the linux-ext4 list got removed from the cc list, or some such). I haven't had time to take a close look at the ext4 changes, and I'll try to carve out some time to do that --- but has anyone from the mm side of the world taken a look at these patches? Thanks, - Ted -- To unsubscribe from this list: send the line "unsubscribe linux-fsdevel" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html
On Fri, Aug 12, 2016 at 04:34:40PM -0400, Theodore Ts'o wrote: > On Fri, Aug 12, 2016 at 09:37:43PM +0300, Kirill A. Shutemov wrote: > > Here's stabilized version of my patchset which intended to bring huge pages > > to ext4. > > So this patch is more about mm level changes than it is about the file > system, and I didn't see any comments from the linux-mm peanut gallery > (unless the linux-ext4 list got removed from the cc list, or some such). > > I haven't had time to take a close look at the ext4 changes, and I'll > try to carve out some time to do that I would appreciate it. > --- but has anyone from the mm > side of the world taken a look at these patches? Not yet. I had hard time obtaining review on similar-sized patchsets before :-/
On Aug 12, 2016, at 12:37 PM, Kirill A. Shutemov <kirill.shutemov@linux.intel.com> wrote: > > Here's stabilized version of my patchset which intended to bring huge pages > to ext4. > > The basics are the same as with tmpfs[1] which is in Linus' tree now and > ext4 built on top of it. The main difference is that we need to handle > read out from and write-back to backing storage. > > Head page links buffers for whole huge page. Dirty/writeback tracking > happens on per-hugepage level. > > We read out whole huge page at once. It required bumping BIO_MAX_PAGES to > not less than HPAGE_PMD_NR. I defined BIO_MAX_PAGES to HPAGE_PMD_NR if > huge pagecache enabled. > > On split_huge_page() we need to free buffers before splitting the page. > Page buffers takes additional pin on the page and can be a vector to mess > with the page during split. We want to avoid this. > If try_to_free_buffers() fails, split_huge_page() would return -EBUSY. > > Readahead doesn't play with huge pages well: 128k max readahead window, > assumption on page size, PageReadahead() to track hit/miss. I've got it > to allocate huge pages, but it doesn't provide any readahead as such. > I don't know how to do this right. It's not clear at this point if we > really need readahead with huge pages. I guess it's good enough for now. Typically read-ahead is a loss if you are able to get large allocations on disk, since you can get at least seek_rate * chunk_size throughput from the disks even with random IO at that size. With 1MB allocations and 7200 RPM drives this works out to be about 150MB/s, which is close to the throughput of these drive already. Cheers, Andreas > Shadow entries ignored on allocation -- recently evicted page is not > promoted to active list. Not sure if current workingset logic is adequate > for huge pages. On eviction, we split the huge page and setup 4k shadow > entries as usual. > > Unlike tmpfs, ext4 makes use of tags in radix-tree. The approach I used > for tmpfs -- 512 entries in radix-tree per-hugepages -- doesn't work well > if we want to have coherent view on tags. So the first 8 patches of the > patchset converts tmpfs to use multi-order entries in radix-tree. > The same infrastructure used for ext4. > > Encryption doesn't handle huge pages yet. To avoid regressions we just > disable huge pages for the inode if it has EXT4_INODE_ENCRYPT. > > With this version I don't see any xfstests regressions with huge pages enabled. > Patch with new configurations for xfstests-bld is below. > > Tested with 4k, 1k, encryption and bigalloc. All with and without > huge=always. I think it's reasonable coverage. > > The patchset is also in git: > > git://git.kernel.org/pub/scm/linux/kernel/git/kas/linux.git hugeext4/v2 > > Please review and consider applying. > > [1] http://lkml.kernel.org/r/1465222029-45942-1-git-send-email-kirill.shutemov@linux.intel.com
On Sun, Aug 14, 2016 at 01:20:12AM -0600, Andreas Dilger wrote: > On Aug 12, 2016, at 12:37 PM, Kirill A. Shutemov <kirill.shutemov@linux.intel.com> wrote: > > > > Here's stabilized version of my patchset which intended to bring huge pages > > to ext4. > > > > The basics are the same as with tmpfs[1] which is in Linus' tree now and > > ext4 built on top of it. The main difference is that we need to handle > > read out from and write-back to backing storage. > > > > Head page links buffers for whole huge page. Dirty/writeback tracking > > happens on per-hugepage level. > > > > We read out whole huge page at once. It required bumping BIO_MAX_PAGES to > > not less than HPAGE_PMD_NR. I defined BIO_MAX_PAGES to HPAGE_PMD_NR if > > huge pagecache enabled. > > > > On split_huge_page() we need to free buffers before splitting the page. > > Page buffers takes additional pin on the page and can be a vector to mess > > with the page during split. We want to avoid this. > > If try_to_free_buffers() fails, split_huge_page() would return -EBUSY. > > > > Readahead doesn't play with huge pages well: 128k max readahead window, > > assumption on page size, PageReadahead() to track hit/miss. I've got it > > to allocate huge pages, but it doesn't provide any readahead as such. > > I don't know how to do this right. It's not clear at this point if we > > really need readahead with huge pages. I guess it's good enough for now. > > Typically read-ahead is a loss if you are able to get large allocations on > disk, since you can get at least seek_rate * chunk_size throughput from the > disks even with random IO at that size. With 1MB allocations and 7200 > RPM drives this works out to be about 150MB/s, which is close to the > throughput of these drive already. I'm more worried about not about throughput, but latancy spikes once we cross huge page boundaries. We can get cache miss where we had hit with small pages.
diff --git a/kvm-xfstests/config b/kvm-xfstests/config index e135f08872cb..11d513b71fbc 100644 --- a/kvm-xfstests/config +++ b/kvm-xfstests/config @@ -2,10 +2,12 @@ # Customize these or put new values in ~/.config/kvm-xfstests or config.custom # #QEMU=/usr/local/bin/qemu-system-x86_64 -QEMU=/usr/bin/kvm -KERNEL=/u1/ext4/arch/x86/boot/bzImage +#QEMU=/usr/bin/kvm +QEMU=/home/kas/opt/qemu/bin/qemu-system-x86_64 +KERNEL=/home/kas/var/linus/arch/x86/boot/bzImage NR_CPU=2 -MEM=2048 +MEM=16384 +#MEM=2048 CONFIG_DIR=$HOME/.config PRIMARY_FSTYPE="ext4" diff --git a/kvm-xfstests/kvm-xfstests b/kvm-xfstests/kvm-xfstests index c7ac2b40cfb6..25e2c04c67d1 100755 --- a/kvm-xfstests/kvm-xfstests +++ b/kvm-xfstests/kvm-xfstests @@ -79,7 +79,7 @@ fi chmod 400 "$VDH" $NO_ACTION $IONICE $QEMU -boot order=c $NET \ - -machine type=pc,accel=kvm:tcg \ + -machine type=q35,accel=kvm:tcg \ -drive file=$ROOT_FS,if=virtio$SNAPSHOT \ -drive file=$VDB,cache=none,if=virtio,format=raw \ -drive file=$VDC,cache=none,if=virtio,format=raw \ diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/all.list b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/all.list index 7ec37f4bafaa..14a8e72d2e6e 100644 --- a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/all.list +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/all.list @@ -9,3 +9,7 @@ dioread_nolock data_journal bigalloc bigalloc_1k +huge_4k +huge_1k +huge_bigalloc +huge_encrypt diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_1k b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_1k new file mode 100644 index 000000000000..209c76a8a6c1 --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_1k @@ -0,0 +1,6 @@ +export FS=ext4 +export TEST_DEV=$SM_TST_DEV +export TEST_DIR=$SM_TST_MNT +export MKFS_OPTIONS="-q -b 1024" +export EXT_MOUNT_OPTIONS="huge=always" +TESTNAME="Ext4 1k block with huge pages" diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_4k b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_4k new file mode 100644 index 000000000000..bae901cb2bab --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_4k @@ -0,0 +1,6 @@ +export FS=ext4 +export TEST_DEV=$PRI_TST_DEV +export TEST_DIR=$PRI_TST_MNT +export MKFS_OPTIONS="-q" +export EXT_MOUNT_OPTIONS="huge=always" +TESTNAME="Ext4 4k block with huge pages" diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc new file mode 100644 index 000000000000..b3d87562bce6 --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc @@ -0,0 +1,14 @@ +SIZE=large +export MKFS_OPTIONS="-O bigalloc" +export EXT_MOUNT_OPTIONS="huge=always" + +# Until we can teach xfstests the difference between cluster size and +# block size, avoid collapse_range, insert_range, and zero_range since +# these will fail due the fact that these operations require +# cluster-aligned ranges. +export FSX_AVOID="-C -I -z" +export FSSTRESS_AVOID="-f collapse=0 -f insert=0 -f zero=0" +export XFS_IO_AVOID="fcollapse finsert zero" + +TESTNAME="Ext4 4k block w/bigalloc" + diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc.exclude b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc.exclude new file mode 100644 index 000000000000..bd779be99518 --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_bigalloc.exclude @@ -0,0 +1,7 @@ +# bigalloc does not support on-line defrag +ext4/301 +ext4/302 +ext4/303 +ext4/304 +ext4/307 +ext4/308 diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt new file mode 100644 index 000000000000..29f058ba937d --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt @@ -0,0 +1,5 @@ +SIZE=small +export MKFS_OPTIONS="" +export EXT_MOUNT_OPTIONS="test_dummy_encryption,huge=always" +REQUIRE_FEATURE=encryption +TESTNAME="Ext4 encryption" diff --git a/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt.exclude b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt.exclude new file mode 100644 index 000000000000..b91cc58b5aa3 --- /dev/null +++ b/kvm-xfstests/test-appliance/files/root/fs/ext4/cfg/huge_encrypt.exclude @@ -0,0 +1,16 @@ +ext4/004 # dump/restore doesn't handle quotas + +# encryption doesn't play well with quota +generic/082 +generic/219 +generic/230 +generic/231 +generic/232 +generic/233 +generic/235 +generic/270 + +# generic/204 tests ENOSPC handling; it doesn't correctly +# anticipate the external extended attribute required when +# using a 1k block size +generic/204 diff --git a/kvm-xfstests/test-appliance/gen-image b/kvm-xfstests/test-appliance/gen-image index 717166047cbf..62871af12e12 100755 --- a/kvm-xfstests/test-appliance/gen-image +++ b/kvm-xfstests/test-appliance/gen-image @@ -4,8 +4,8 @@ SAVE_ARGS=("$@") -SUITE=jessie -MIRROR=http://mirrors.kernel.org/debian +SUITE=testing +MIRROR="http://linux-ftp.fi.intel.com/pub/mirrors/debian" DIR=$(pwd) ROOTDIR=$DIR/rootdir #ARCH="--arch=i386" diff --git a/kvm-xfstests/util/parse_cli b/kvm-xfstests/util/parse_cli index 83400ea71985..ba64ce5df016 100644 --- a/kvm-xfstests/util/parse_cli +++ b/kvm-xfstests/util/parse_cli @@ -36,6 +36,7 @@ print_help () echo "Common file system configurations are:" echo " 4k 1k ext3 nojournal ext3conv metacsum dioread_nolock " echo " data_journal bigalloc bigalloc_1k inline" + echo " huge_4k huge_1k huge_bigalloc huge_encrypt" echo "" echo "xfstest names have the form: ext4/NNN generic/NNN shared/NNN" echo ""