Merge commit 'refs/top-bases/linux-have-idmap' into linux-have-idmap
This commit is contained in:
commit
5e4314a4ed
44
ChangeLog
44
ChangeLog
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@ -1,3 +1,47 @@
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2010-05-21 Brian Behlendorf <behlendorf1@llnl.gov>
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* : Tag zfs-0.4.9 - Use 'git log --no-merges' for full change log.
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* : Build system improvements:
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- Added support for the 'make -s' silent build option.
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- Allow zfs_config.h to be included by dependent packages.
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- Minor spec file updates.
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- Minor build system message updates.
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* : Topic branch cleanup. Several old branches were removed and
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numerous hunks which were accidentaly commited to incorrect topic
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branches in the past were relocated to the correct topic branch.
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* *.c, *.h, *.sh, AUTHORS, COPYING, COPYRIGHT, DISCLAIMER, README:
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Added standard header to source files which includes the copyright,
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license, and author information. Additionally, updated the listed
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top level files to the latest versions.
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* cmd/zpool/zpool_vdev.c: Check all partitions with check_file()
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even when no libblkid is found. This oversight would result in
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ZFS not detecting existing filesystems on partitions.
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* module/zfs/fm.c, module/zfs/zfs_fm, libzfs/libzfs_pool.c:
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Added zevents which are similar to Solaris FMA support. The
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existing FMA and sysevent call points in ZFS were unified in
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to a single event type and used to create a user space visible
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event notification system under Linux. The new 'zpool events'
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command can be used to show all recent ZFS events.
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* module/zfs/spa.c, module/zfs/zil.c: Suppress large memory
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allocation warnings for two particular kmem_alloc()'s. For
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now we can live with them as is but long term a way should be
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found to perform small allocations or use the vmem based slab.
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* module/zfs/zvol.c: Recreate volume and snapshot /dev links during
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module load. Links in /dev for volumes/snapshots were only being
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created at volume/snapshot creation time. Those links are now also
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created dynamically at module load time based on the spa config.
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* module/zfs/zvol.c, module/zfs/include/sys/blkdev.h: The handler
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zvol_request() should use the unlocked version of blk_end_request()
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to avoid a deadlock in the ZVOL.
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2010-03-11 Brian Behlendorf <behlendorf1@llnl.gov>
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* : Tag zfs-0.4.8 - Use 'git log --no-merges' for full change log.
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2
META
2
META
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@ -1,7 +1,7 @@
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Meta: 1
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Name: zfs
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Branch: 1.0
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Version: 0.4.8
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Version: 0.4.9
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Release: 1
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Release-Tags: relext
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License: CDDL
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115
README
115
README
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@ -1,40 +1,95 @@
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============================ ZFS KERNEL BUILD ============================
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============================ ZFS QUICK START ============================
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1) Build the SPL (Solaris Porting Layer) module which is designed to
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provide many Solaris APIs in the Linux kernel which are needed
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by ZFS. To build the SPL:
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1) Build the SPL (Solaris Porting Layer) and install it. This package
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provides several Solaris APIs used by ZFS and is a required dependency.
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Before building ZFS build this package and install the resulting rpms.
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tar -xzf spl-x.y.z.tgz
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cd spl-x.y.z
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./configure --with-linux=<kernel src>
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make
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make check <as root>
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> tar -xzf spl-x.y.z.tgz
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> cd spl-x.y.z
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> ./configure --with-linux=<kernel src>
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> make
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> make rpm
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2) Build ZFS, this port is based on build specified by the ZFS.RELEASE
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file. You will need to have both the kernel and SPL source available.
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To build ZFS for use as a Linux kernel module.
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> sudo rpm -Uvh *.<arch>.rpm
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Preparing... ########################################### [100%]
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1:spl ########################################### [ 33%]
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2:spl-modules-devel ########################################### [ 67%]
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3:spl-modules ########################################### [100%]
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tar -xzf zfs-x.y.z.tgz
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cd zfs-x.y.z
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./configure --with-linux=<kernel src> \
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--with-spl=<spl src>
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make
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make check <as root>
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============================ ZPIOS TEST SUITE ============================
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2) Build ZFS and install it. This package provides the native port of
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ZFS for Linux including all kernel modules and command line utilities.
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Note it is important that you have installed spl-module-devel package
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from step 1) before attempting to build ZFS.
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3) Provided is an in-kernel test application called zpios which can be
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used to simulate a parallel IO load. It may be used as a stress
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or performance test for your configuration. To simplify testing
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scripts provided in the scripts/ directory which provide a few
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pre-built zpool configurations and zpios test cases. By default
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'make check' as root will run a simple test against several small
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loopback devices created in /tmp/.
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> tar -xzf zfs-x.y.z.tgz
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> cd zfs-x.y.z
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> ./configure --with-linux=<kernel src>
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> make
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> make rpm
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> sudo rpm -Uvh *.<arch>.rpm
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Preparing... ########################################### [100%]
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1:zfs ########################################### [ 20%]
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2:zfs-test ########################################### [ 40%]
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3:zfs-modules-devel ########################################### [ 60%]
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4:zfs-modules ########################################### [ 80%]
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3) Enjoy ZFS on Linux! Currently only the ZVOL is fully functional
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but work on the ZPL is underway. Why is just having the ZVOL still
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useful you ask? Well here's an example of what you can do today using
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just the ZVOL:
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> # Create the 'tank' zpool containing a raidz vdev spread over 4 devices.
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> zpool create tank raidz /dev/sdb /dev/sdc /dev/sdd /dev/sde
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> zpool list
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NAME SIZE USED AVAIL CAP HEALTH ALTROOT
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tank 1.81T 132K 1.81T 0% ONLINE -
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> # Create a 100G block device named 'fish' in the 'tank' zpool.
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> zfs create -V 100G tank/fish
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> zfs list
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NAME USED AVAIL REFER MOUNTPOINT
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tank 100G 1.24T 26.9K /tank
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tank/fish 100G 1.33T 23.9K -
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> # Partition 'tank/fish' as if it were a normal block device.
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> sfdisk /dev/tank/fish << EOF
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0,
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EOF
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> sfdisk -l /dev/tank/fish
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Disk /dev/tank/fish: 208050 cylinders, 16 heads, 63 sectors/track
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Units = cylinders of 516096 bytes, blocks of 1024 bytes, counting from 0
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Device Boot Start End #cyls #blocks Id System
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/dev/tank/fish1 0+ 208049 208050- 104857199+ 83 Linux
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/dev/tank/fish2 0 - 0 0 0 Empty
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/dev/tank/fish3 0 - 0 0 0 Empty
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/dev/tank/fish4 0 - 0 0 0 Empty
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> # Format the new /dev/tank/fish1 partition with ext2 and mount it.
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> mkfs.ext2 -q /dev/tank/fish1
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> mkdir -p /mnt/tank/fish1
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> mount /dev/tank/fish1 /mnt/tank/fish1
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> ls /mnt/tank/fish1
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lost+found
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> # Take a snapshot of the pristine ext2 filesystem and mount it read-only.
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> zfs snapshot tank/fish@pristine
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> mkdir /mnt/tank/fish@pristine1
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> mount /dev/tank/fish@pristine1 /mnt/tank/fish@pristine1
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> ls /mnt/tank/fish\@pristine1
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lost+found
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> # Changes made to tank/fish1 do not appear in tank/fish@pristine1
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> touch /mnt/tank/fish1/foo
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> ls /mnt/tank/fish1/
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foo lost+found
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> ls /mnt/tank/fish\@pristine1
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lost+found
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cd scripts
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./zfs.sh # Load the ZFS/SPL modules
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./zpios.sh -c lo-raid0.sh -t tiny -v # Tiny zpios loopback test
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./zfs.sh -u # Unload the ZFS/SPL modules
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Enjoy,
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Brian Behlendorf <behlendorf1@llnl.gov>
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51
TODO
51
TODO
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SUMMARY OF MAJOR KNOWN PROBLEMS IN v0.4.6 (Development Release)
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* Fault Management (FM) and sysevent support / analog.
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bugzilla 14866, 15645
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This is probably the biggest remaining chunk of work. Linux has no
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direct equivalent of the Solaris Fault Management Architecture (FMA)
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and we need one. All fault information is currently ignored and no
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disk errors are even logged. We need to settle on a design for this
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but minimally it needs to log the events to syslog.
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* Implement the ZVOL.
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bugzilla xxxxx
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This should be pretty staight forward now that the DMU is fully
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implemented and solid. It just needs to be done.
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* Implement the ZPL.
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bugzilla xxxxx
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Getting basic ZPL support should be pretty straight forward. Moving
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beyond that to fully integrate with the VFS for things like mmap and
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file locking will be trickier.
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* Integrate the ZFS-FUSE port in to this code base.
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bugzilla xxxxx
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Merging the zfs-fuse code base in with this project would be nice from a
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code maintence standpoint. This code base is quite a bit newer than
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zfs-fuse and it already provides a libzpool library for zfs-fuse to link
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against. This should be a pretty straight forward addition.
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* Emulate kthreads with pthreads in userspace.
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bugzilla xxxxx
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There is a patch available for this but each time I've integrated it
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I've observed SIGSEGVs in ztest. Once this patch is in place ztest
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can be used to use the kthread API which brings us one step closer
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to being able to run it in the kernel as an additional sanity check.
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* DMU Performance
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bugzilla 13566
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While performance is currently not bad it is not where it needs to be
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for production use. The latest test results which can be found in the
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docs directly show that on hardware which is capable of 8GB/s we only
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see a few GB/s when running through the DMU. To address this we need
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to finish getting the code working with the kernel lock profiler and
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look for some hot locks. Additionally, it would be interesting to run
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the same tests on Solaris (once we have a ZVOL/ZPL) and compare the
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performance. It's not at all clear to me Solaris currently does better.
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@ -94,7 +94,11 @@
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%endif
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%define kpkg kernel
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%define kdevpkg kernel-devel
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%define kverpkg %{kver}
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%if %{defined el6}
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%define kverpkg %(echo %{kver} | %{__sed} -e 's/.%{_target_cpu}//g')
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%else
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%define kverpkg %{kver}
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%endif
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%define koppkg =
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%if %{undefined kdir}
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%define kdir %{_usrsrc}/kernels/%{kver}-%{_target_cpu}
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