47a4a6fd5f
Build products from an out of tree build should be written relative to the build directory. Sources should be referred to by their locations in the source directory. This is accomplished by adding the 'src' and 'obj' variables for the module Makefile.am, using relative paths to reference source files, and by setting VPATH when source files are not co-located with the Makefile. This enables the following: $ mkdir build $ cd build $ ../configure \ --with-spl=$HOME/src/git/spl/ \ --with-spl-obj=$HOME/src/git/spl/build $ make -s This change also has the advantage of resolving the following warning which is generated by modern versions of automake. Makefile.am:00: warning: source file 'xxx' is in a subdirectory, Makefile.am:00: but option 'subdir-objects' is disabled Signed-off-by: Turbo Fredriksson <turbo@bayour.com> Signed-off-by: Brian Behlendorf <behlendorf1@llnl.gov> Closes #1082 |
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90zfs | ||
Makefile.am | ||
README.dracut.markdown |
README.dracut.markdown
How to setup a zfs root filesystem using dracut
-
Install the zfs-dracut package. This package adds a zfs dracut module to the /usr/share/dracut/modules.d/ directory which allows dracut to create an initramfs which is zfs aware.
-
Set the bootfs property for the bootable dataset in the pool. Then set the dataset mountpoint property to '/'.
$ zpool set bootfs=pool/dataset pool $ zfs set mountpoint=/ pool/dataset
It is also possible to set the bootfs property for an entire pool, just in case you are not using a dedicated dataset for '/'.
$ zpool set bootfs=pool pool
$ zfs set mountpoint=/ pool
Alternately, legacy mountpoints can be used by setting the 'root=' option on the kernel line of your grub.conf/menu.lst configuration file. Then set the dataset mountpoint property to 'legacy'.
$ grub.conf/menu.lst: kernel ... root=ZFS=pool/dataset
$ zfs set mountpoint=legacy pool/dataset
-
To set zfs module options put them in /etc/modprobe.d/zfs.conf file. The complete list of zfs module options is available by running the modinfo zfs command. Commonly set options include: zfs_arc_min, zfs_arc_max, zfs_prefetch_disable, and zfs_vdev_max_pending.
-
Finally, create your new initramfs by running dracut.
$ dracut --force /path/to/initramfs kernel_version
Kernel Command Line
The initramfs' behavior is influenced by the following kernel command line parameters passed in from the boot loader:
-
root=...
: If not set, importable pools are searched for a bootfs attribute. If an explicitly set root is desired, you may useroot=ZFS:pool/dataset
-
zfs_force=0
: If set to 1, the initramfs will runzpool import -f
when attempting to import pools if the required pool isn't automatically imported by the zfs module. This can save you a trip to a bootcd if hostid has changed, but is dangerous and can lead to zpool corruption, particularly in cases where storage is on a shared fabric such as iSCSI where multiple hosts can access storage devices concurrently. Please understand the implications of force-importing a pool before enabling this option! -
spl_hostid
: By default, the hostid used by the SPL module is read from /etc/hostid inside the initramfs. This file is placed there from the host system when the initramfs is built which effectively ties the ramdisk to the host which builds it. If a different hostid is desired, one may be set in this attribute and will override any file present in the ramdisk. The format should be hex exactly as found in the/etc/hostid
file, IEspl_hostid=0x00bab10c
.
Note that changing the hostid between boots will most likely lead to an
un-importable pool since the last importing hostid won't match. In order
to recover from this, you may use the zfs_force
option or boot from a
different filesystem and zpool import -f
then zpool export
the pool
before rebooting with the new hostid.
How it Works
The Dracut module consists of the following files (less Makefile's):
-
module-setup.sh
: Script run by the initramfs builder to create the ramdisk. Contains instructions on which files are required by the modules and z* programs. Also triggers inclusion of/etc/hostid
and the zpool cache. This file is not included in the initramfs. -
90-zfs.rules
: udev rules which trigger loading of the ZFS modules at boot. -
zfs-lib.sh
: Utility functions used by the other files. -
parse-zfs.sh
: Run early in the initramfs boot process to parse kernel command line and determine if ZFS is the active root filesystem. -
mount-zfs.sh
: Run later in initramfs boot process after udev has settled to mount the root dataset. -
export-zfs.sh
: Run on shutdown after dracut has restored the initramfs and pivoted to it, allowing for a clean unmount and export of the ZFS root.
zfs-lib.sh
This file provides a few handy functions for working with ZFS. Those
functions are used by the mount-zfs.sh
and export-zfs.sh
files.
However, they could be used by any other file as well, as long as the file
sources /lib/dracut-zfs-lib.sh
.
module-setup.sh
This file is run by the Dracut script within the live system, not at boot time. It's not included in the final initramfs. Functions in this script describe which files are needed by ZFS at boot time.
Currently all the various z* and spl modules are included, a dependency is asserted on udev-rules, and the various zfs, zpool, etc. helpers are included. Dracut provides library functions which automatically gather the shared libs necessary to run each of these binaries, so statically built binaries are not required.
The zpool and zvol udev rules files are copied from where they are
installed by the ZFS build. PACKAGERS TAKE NOTE: If you move
/etc/udev/rules/60-z*.rules
, you'll need to update this file to match.
Currently this file also includes /etc/hostid
and /etc/zfs/zpool.cache
which means the generated ramdisk is specific to the host system which built
it. If a generic initramfs is required, it may be preferable to omit these
files and specify the spl_hostid
from the boot loader instead.
parse-zfs.sh
Run during the cmdline phase of the initramfs boot process, this script
performs some basic sanity checks on kernel command line parameters to
determine if booting from ZFS is likely to be what is desired. Dracut
requires this script to adjust the root
variable if required and to set
rootok=1
if a mountable root filesystem is available. Unfortunately this
script must run before udev is settled and kernel modules are known to be
loaded, so accessing the zpool and zfs commands is unsafe.
If the root=ZFS... parameter is set on the command line, then it's at least
certain that ZFS is what is desired, though this script is unable to
determine if ZFS is in fact available. This script will alter the root
parameter to replace several historical forms of specifying the pool and
dataset name with the canonical form of zfs:pool/dataset
.
If no root= parameter is set, the best this script can do is guess that
ZFS is desired. At present, no other known filesystems will work with no
root= parameter, though this might possibly interfere with using the
compiled-in default root in the kernel image. It's considered unlikely
that would ever be the case when an initramfs is in use, so this script
sets root=zfs:AUTO
and hopes for the best.
Once the root=... (or lack thereof) parameter is parsed, a dummy symlink
is created from /dev/root
-> /dev/null
to satisfy parts of the Dracut
process which check for presence of a single root device node.
Finally, an initqueue/finished hook is registered which causes the initqueue
phase of Dracut to wait for /dev/zfs
to become available before attempting
to mount anything.
mount-zfs.sh
This script is run after udev has settled and all tasks in the initqueue
have succeeded. This ensures that /dev/zfs
is available and that the
various ZFS modules are successfully loaded. As it is now safe to call
zpool and friends, we can proceed to find the bootfs attribute if necessary.
If the root parameter was explicitly set on the command line, no parsing is
necessary. The list of imported pools is checked to see if the desired pool
is already imported. If it's not, and attempt is made to import the pool
explicitly, though no force is attempted. Finally the specified dataset
is mounted on $NEWROOT
, first using the -o zfsutil
option to handle
non-legacy mounts, then if that fails, without zfsutil to handle legacy
mount points.
If no root parameter was specified, this script attempts to find a pool with
its bootfs attribute set. First, already-imported pools are scanned and if
an appropriate pool is found, no additional pools are imported. If no pool
with bootfs is found, any additional pools in the system are imported with
zpool import -N -a
, and the scan for bootfs is tried again. If no bootfs
is found with all pools imported, all pools are re-exported, and boot fails.
Assuming a bootfs is found, an attempt is made to mount it to $NEWROOT
,
first with, then without the zfsutil option as above.
Ordinarily pools are imported without the force option which may cause
boot to fail if the hostid has changed or a pool has been physically moved
between servers. The zfs_force
kernel parameter is provided which when
set to 1
causes zpool import
to be run with the -f
flag. Forcing pool
import can lead to serious data corruption and loss of pools, so this option
should be used with extreme caution. Note that even with this flag set, if
the required zpool was auto-imported by the kernel module, no additional
zpool import
commands are run, so nothing is forced.
export-zfs.sh
Normally the zpool containing the root dataset cannot be exported on shutdown as it is still in use by the init process. To work around this, Dracut is able to restore the initramfs on shutdown and pivot to it. All remaining process are then running from a ramdisk, allowing for a clean unmount and export of the ZFS root. The theory of operation is described in detail in the Dracut manual.
This script will try to export all remaining zpools after Dracut has
pivoted to the initramfs. If an initial regular export is not successful,
Dracut will call this script once more with the final
option,
in which case a forceful export is attempted.
Other Dracut modules include similar shutdown scripts and Dracut
invokes these scripts round-robin until they succeed. In particular,
the 90dm
module installs a script which tries to close and remove
all device mapper targets. Thus, if there are ZVOLs containing
dm-crypt volumes or if the zpool itself is backed by a dm-crypt
volume, the shutdown scripts will try to untangle this.