1
0
mirror of https://github.com/ceph/ceph synced 2024-12-22 19:34:30 +00:00
ceph/README.FreeBSD
Willem Jan Withagen 0befc9c9df README.FreeBSD: update current status
Signed-off-by: Willem Jan Withagen <wjw@digiware.nl>
2016-11-21 11:41:26 +01:00

124 lines
4.5 KiB
Plaintext

Last updated: 2016-11-21
The FreeBSD build will build most of the tools in Ceph.
Note that the (kernel) RBD dependant items will not work since FreeBSD does not
have RBD (yet)
I started looking into Ceph, because the HAST solution with CARP and
ggate did not really do what I was looking for. But I'm aiming for
running a Ceph storage cluster on storage nodes that are running ZFS.
In the end the cluster would be running bhyve on RBD disk that are stored in
Ceph.
Progress from last report:
==========================
Most important change:
- All test run to completion for the current selection of
tools. This is only the case for "My Fork" repository. Some of the
commits need to be pulled into the HEAD
- As of now Cmake is the only way of building Ceph
- And testing would be best done thru ctest.
- Reworked threading/polling code for the simple socket code.
Now uses a selfpipe, instead of using an odd shutdown() signaling
Linux feature.
- Modified the EventKqueue code to work around the "feature" that
starting threads destroys the the kqueue handles.
- ceph-disk should now be able to support FileStore on a ZFS disk.
The main reason that it needs to be ZFS is for xattribute: Size and number.
Build Prerequisites
===================
Compiling and building Ceph is tested on 12-CURRENT, but I guess/expect
11-RELEASE will also work. And Clang is at 3.8.0.
It uses the CLANG toolset that is available, 3.7 is no longer tested,
but was working when that was with 11-CURRENT.
Clang 3.4 (on 10.2-STABLE) does not have all required capabilites to
compile everything
The following setup will get things running for FreeBSD:
This all require root privilidges.
- Install bash and link it in /bin
sudo pkg install bash
sudo ln -s /usr/local/bin/bash /bin/bash
- Need to add one compatability line to
/usr/include/errno.h
#define ENODATA 87 /* Attribute not found */
(Otherwise some cython compiles will fail.)
- getopt is used by several testscripts but it requires more than what
the native getopt(1) delivers. So best is to install getopt from ports
and remove/replace the getopt in /usr/bin.
Getting the FreeBSD work on Ceph:
=================================
- cd "place to work on this"
git clone https://github.com/wjwithagen/ceph.git
cd ceph
git checkout wip-wjw-freebsd-cmake
Building Ceph
=============
- Go and start building
./do_freebsd.sh
Parts not (yet) included:
=========================
- RBD
Rados Block Devices is implemented in the Linux kernel
It seems that there used to be a userspace implementation first.
And perhaps ggated could be used as a template since it does some of
the same, other than just between 2 disks. And it has a userspace
counterpart.
- BlueStore.
FreeBSD and Linux have different AIO API, and that needs to be made
compatible Next to that is there discussion in FreeBSD about
aio_cancel not working for all devicetypes
- CephFS
Cython tries to access an internal field in dirent which does not
compile
Tests that verify the correct working of the above are also excluded
from the testset
Tests not (yet) include:
=======================
- None, although some test can fail if running tests in parallel and there is
not enough swap. Then tests will start to fail in strange ways.
Task to do:
===========
- Build an automated test platform that will build ceph/master on
FreeBSD and report the results back to the Ceph developers. This will
increase the maintainability of the FreeBSD side of things.
Developers are signalled that they are using Linux-isms that will not
compile/run on FreeBSD Ceph has several projects for this: Jenkins,
teuthology, pulpito, ...
But even just a while { compile } loop and report the build data on a
static webpage would do for starters.
- Run integration tests to see if the FreeBSD daemons will work with a
Linux Ceph platform.
- Compile and test the user space RBD (Rados Block Device).
- Investigate and see if an in-kernel RBD device could be developed a la
'ggate'
- Investigate the keystore, which could be kernel embedded on Linux an
currently prevents building Cephfs and some other parts.
- Scheduler information is not used atm, because the schedulers work
rather different. But at a certain point in time, this would need some
attention:
in: ./src/common/Thread.cc
- Integrate the FreeBSD /etc/rc.d init scripts in the Ceph stack. Both
for testing, but mainly for running Ceph on production machines.