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OpenAFS
OpenAFS
The Andrew Filesystem (or AFS) is a global distributed filesystem. With a single mountpoint, clients can access any site on the Internet which is running AFS as if it were a local filesystem.
OpenAFS is an open source implementation of the AFS services and utilities.
A collection of AFS servers and volumes that are collectively
administered within a site is called a cell
. The OpenStack
project runs the openstack.org
AFS cell, accessible at
/afs/openstack.org/
.
At a Glance
- Hosts
-
- afsdb01.openstack.org (a vldb and pts server in DFW)
- afsdb02.openstack.org (a vldb and pts server in ORD)
- afs01.dfw.openstack.org (a fileserver in DFW)
- afs02.dfw.openstack.org (a second fileserver in DFW)
- afs01.ord.openstack.org (a fileserver in ORD)
- Puppet
- Projects
- Bugs
- Resources
OpenStack Cell
AFS may be one of the most thoroughly documented systems in the world. There is plenty of very good information about how AFS works and the commands to use it. This document will only cover the minimum needed to understand our deployment of it.
OpenStack runs an AFS cell called openstack.org
. There
are three important services provided by a cell: the volume location
database (VLDB), the protection database (PTS), and the file server
(FS). The volume location service answers queries from clients about
which fileservers should be contacted to access particular volumes,
while the protection service provides information about users and
groups.
Our implementation follows the common recommendation to colocate the VLDB and PTS servers, and so they both run on our afsdb* servers. These servers all have the same information and communicate with each other to keep in sync and automatically provide high-availability service. For that reason, one of our DB servers is in the DFW region, and the other in ORD.
Fileservers contain volumes, each of which is a portion of the file space provided by that cell. A volume appears as at least one directory, but may contain directories within the volume. Volumes are mounted within other volumes to construct the filesystem hierarchy of the cell.
OpenStack has two fileservers in DFW and one in ORD. They do not automatically contain copies of the same data. A read-write volume in AFS can only exist on exactly one fileserver, and if that fileserver is out of service, the volumes it serves are not available. However, volumes may have read-write copies which are stored on other fileservers. If a client requests a read-only volume, as long as one site with a read-only volume is online, it will be available.
Client Configuration
To use OpenAFS on a Debian or Ubuntu machine:
sudo apt-get install openafs-client openafs-krb5 krb5-user
Debconf will ask you for a default realm, cell and cache size. Answer:
Default Kerberos version 5 realm: OPENSTACK.ORG
AFS cell this workstation belongs to: openstack.org
Size of AFS cache in kB: 500000
The default cache size in debconf is 50000 (50MB) which is not very large. We recommend setting it to 500000 (500MB -- add a zero to the default debconf value), or whatever is appropriate for your system.
The OpenAFS client is not started by default, so you will need to run:
sudo service openafs-client start
When it's done, you should be able to
cd /afs/openstack.org
.
Most of what is in our AFS cell does not require authentication. However, if you have a principal in kerberos, you can get an authentication token for use with AFS with:
kinit
aklog
If not running on Debian or Ubuntu you can install openafs client packages as well as Kerberos5 packages on your distro of choice.
Then to kinit, use your fully qualified user id:
kinit $USERNAME@OPENSTACK.ORG
Or for admin access:
kinit $USERNAME/admin@OPENSTACK.ORG
Then aklog, specifying the openstack.org cell:
aklog -cell openstack.org
Administration
The following information is relevant to AFS administrators.
All of these commands have excellent manpages which can be accessed
with commands like man vos
or man vos create
.
They also provide short help messages when run like
vos -help
or vos create -help
.
For all administrative commands, you may either run them from any AFS client machine while authenticated as an AFS admin, or locally without authentication on an AFS server machine by appending the -localauth flag to the end of the command.
Adding a User
First, add a kerberos principal as described in addprinc
. Have the username
and UID from puppet ready.
Then add the user to the protection database with:
pts createuser $USERNAME -id UID
Admin UIDs start at 1 and increment. If you are adding a new admin
user, you must run pts listentries
, find the highest UID
for an admin user, increment it by one and use that as the UID. The
username for an admin user should be in the form
username.admin
.
Note
Any '/' characters in a kerberos principal become '.' characters in AFS.
Adding a Superuser
Run the following commands to add an existing principal to AFS as a superuser:
bos adduser -server afsdb01.openstack.org -user $USERNAME.admin
bos adduser -server afsdb02.openstack.org -user $USERNAME.admin
bos adduser -server afs01.dfw.openstack.org -user $USERNAME.admin
bos adduser -server afs02.dfw.openstack.org -user $USERNAME.admin
bos adduser -server afs01.ord.openstack.org -user $USERNAME.admin
pts adduser -user $USERNAME.admin -group system:administrators
Deleting Files
Note
This is a basic example of write operations for AFS-hosted content, so applies more generally to manually adding or changing files as well. As we semi-regularly get requests to delete subtrees of documentation, this serves as a good demonstration.
First, as a prerequisite, make sure you've followed the Client Configuration and Adding a Superuser steps for yourself and
that you know the password for your $USERNAME/admin
kerberos principal. Safely authenticate your superuser's principal in a
new PAG as follows:
pagsh -c /bin/bash
export KRB5CCNAME=FILE:`mktemp`
kinit $USERNAME/admin
aklog
If this is a potentially destructive change (perhaps you're worried you might mistype a deletion and remove more content than you intended) you can first create a copy-on-write backup snapshot like so:
vos backup docs
When deleting files, note that you should use the read-write
/afs/.openstack.org
path rather than the read-only
/afs/openstack.org
path, but normal Unix file manipulation
commands work as expected (do _not use sudo
for this):
rm -rf /afs/.openstack.org/docs/project-install-guide/baremetal/draft
If you don't want to have to wait for a volume release to happen (so that your changes to the read-write filesystem are reflected immediately in the read-only filesystem), you can release it now too:
vos release docs -verbose
Now you can clean up your session, destroy your ticket and exit the temporary PAG thusly:
unlog
kdestroy
exit
Creating a Volume
Select a fileserver for the read-write copy of the volume according to which region you wish to locate it after ensuring it has sufficient free space. Then run:
vos create $FILESERVER a $VOLUMENAME
The a in the preceding command tells it to place the volume on partition vicepa. Our fileservers only have one partition and therefore this is a constant.
Be sure to mount the read-write volume in AFS with:
fs mkmount /afs/.openstack.org/path/to/mountpoint $VOLUMENAME
You may want to create read-only sites for the volume with
vos addsite
and then vos release
.
If the volume's mountpoint lies within another volume, you may also
need to vos release
that parent volume before it will show
up in the read-only path.
You should set the volume quota with fs setquota
.
Adding a Fileserver
Put the machine's public IP on a single line in /var/lib/openafs/local/NetInfo (TODO: puppet this).
Copy /etc/openafs/server/*
from an existing
fileserver.
Create an LVM volume named vicepa
from cinder volumes.
See cinder
for details
on volume management. Then run:
mkdir /vicepa
echo "/dev/main/vicepa /vicepa ext4 errors=remount-ro,barrier=0 0 2" >>/etc/fstab
mount -a
Finally, create the fileserver with:
bos create -server NEWSERVER -instance dafs -type dafs \
-cmd "/usr/lib/openafs/dafileserver -L -p 242 -busyat 600 -rxpck 700 \
-s 1200 -l 1200 -cb 1500000 -b 240 -vc 1200 \
-udpsize 131071 -sendsize 131071" \
-cmd /usr/lib/openafs/davolserver \
-cmd /usr/lib/openafs/salvageserver \
-cmd /usr/lib/openafs/dasalvager
It is worth evaluating these settings periodically
-L
selects the large size, which ups a number of defaults-p
defines the worker threads for processing incoming calls. Since they block until there is work to do, we should leave this at around the maximum (which may increase across versions; see documentation)-udpsize
and-sendsize
should be increased above their default-cb
defines the callbacks. For our use case, with a single mirror writer, this should be around the number of files the client is configured to cache (-dcache
) multiplied by the number of clients.
Updating Settings
If you wish to update the settings for an existing server, you can
stop and remove the existing bnode
(the collection of
processes the overseer is monitoring, created via
bos create
above) and recreate it.
For example :
bos stop -server afs01.dfw.openstack.org \
-instance dafs \
-wait
Then remove the server with :
bos delete -server afs01.dfw.openstack.org \
-instance dafs
Finally run the bos create
command above with any
modified parameters to restart the server.
Mirrors
We host mirrors in AFS so that we store only one copy of the data, but mirror servers local to each cloud region in which we operate serve that data to nearby hosts from their local cache.
All of our mirrors are housed under
/afs/openstack.org/mirror
. Each mirror is on its own
volume, and each with a read-only replica. This allows mirrors to be
updated and then the read-only replicas atomically updated. Because
mirrors are typically very large and replication across regions is slow,
we place both copies of mirror data on two fileservers in the same
region. This allows us to perform maintenance on fileservers hosting
mirror data as well deal with outages related to a single server, but
does not protect the mirror system from a region-wide outage.
In order to establish a new mirror, do the following:
The following commands need to be run authenticated on a host with kerberos and AFS setup (see afs_client; admins can run the commands on
mirror-update.openstack.org
). Firstlykinit
andaklog
to get tokens.Create the mirror volume. See Creating a Volume for details. The volume should be named
mirror.foo
, where foo is descriptive of the contents of the mirror. Example:vos create afs01.dfw.openstack.org a mirror.foo
Create read-only replicas of the volume. One replica should be located on the same fileserver (it will take little to no additional space), and at least one other replica on a different fileserver. Example:
vos addsite afs01.dfw.openstack.org a mirror.foo vos addsite afs02.dfw.openstack.org a mirror.foo
Release the read-only replicas:
vos release mirror.foo
See the status of all volumes with:
vos listvldb
When traversing from a read-only volume to another volume across a mountpoint, AFS will first attempt to use a read-only replica of the destination volume if one exists. In order to naturally cause clients to prefer our read-only paths for mirrors, the entire path up to that point is composed of read-only volumes:
/afs [root.afs]
/openstack.org [root.cell]
/mirror [mirror]
/bar [mirror.bar]
In order to mount the mirror.foo
volume under
mirror
we need to modify the read-write version of the
mirror
volume. To make this easy, the read-write version of
the cell root is mounted at /afs/.openstack.org
. Following
the same logic from earlier, traversing to paths below that mount point
will generally prefer read-write volumes.
Mount the volume into afs using the read-write path:
fs mkmount /afs/.openstack.org/mirror/foo mirror.foo
Release the
mirror
volume so that the (currently empty) foo mirror itself appears in directory listings under/afs/openstack.org/mirror
:vos release mirror
Create a principal for the mirror update process. See
addprinc
for details. The principal should be calledservice/foo-mirror
. Example:kadmin: addprinc -randkey service/foo-mirror@OPENSTACK.ORG kadmin: ktadd -k /path/to/foo.keytab service/foo-mirror@OPENSTACK.ORG
Add the service principal's keytab to hiera. Copy the binary key to
bridge.openstack.org
and then usehieraedit
to update the filesroot@bridge:~# /opt/system-config/tools/hieraedit.py \ --yaml /etc/ansible/hosts/host_vars/mirror-update.openstack.org.yaml \ -f /path/to/foo.keytab KEYNAME
(don't forget to
git commit
and save the change; you can remove the copies of the binary key too). The key will be base64 encoded in the heira database. If you need to examine it for some reason you can usebase64
:cat /path/to/foo.keytab | base64
Add the new key to
mirror-update.openstack.org
inmanifests/site.pp
for the mirror scripts to use during update.Create an AFS user for the service principal:
pts createuser service.foo-mirror
Because mirrors usually have a large number of directories, it is best to avoid frequent ACL changes. To this end, we grant access to the mirror directories to a group where we can easily modify group membership if our needs change.
Create a group to contain the service principal, and add the principal:
pts creategroup foo-mirror pts adduser service.foo-mirror foo-mirror
View users, groups, and their membership with:
pts listentries pts listentries -group pts membership foo-mirror
Grant the group access to the mirror volume:
fs setacl /afs/.openstack.org/mirror/foo foo-mirror write
Grant anonymous users read access:
fs setacl /afs/.openstack.org/mirror/foo system:anyuser read
Set the quota on the volume (e.g., 100GB):
fs setquota /afs/.openstack.org/mirror/foo 100000000
Because the initial replication may take more time than we allocate in our mirror update cron jobs, manually perform the first mirror update:
In screen, obtain the lock on
mirror-update.openstack.org
:flock -n /var/run/foo-mirror/mirror.lock bash
Leave that running while you perform the rest of the steps.
Also in screen on
mirror-update
, run the initial mirror sync. If using one of the mirror update scripts (from/usr/local/bin
) be aware that they generally run the update process undertimeout
with shorter periods than may be required for the initial full sync. e.g. forreprepro
mirrorsNO_TIMEOUT=1 /usr/local/bin/reprepro-mirror-update /etc/reprepro/ubuntu mirror.ubuntu
Log into
afs01.dfw.openstack.org
and runscreen
. Within that session, periodically during the sync, and once again after it is complete, run:vos release mirror.foo -localauth
It is important to do this from an AFS server using
-localauth
rather than your own credentials and inside of screen because ifvos release
is interrupted, it will require some manual cleanup (data will not be corrupted, but clients will not see the new volume until it is successfully released). Additionally,vos release
has a bug where it will not use renewed tokens and so token expiration during a vos release may cause a similar problem.Once the initial sync and
vos release
are complete, release the lock file on mirror-update.
Removing a mirror
If you need to remove a mirror, you can do the following:
Unmount the volume from the R/W location:
fs rmmount /afs/.openstack.org/mirror/foo
Release the R/O mirror volume to reflect the changes:
vos release mirror
Check what servers the volumes are on with
vos listvldb
:VLDB entries for all servers ... mirror.foo RWrite: 536870934 ROnly: 536870935 number of sites -> 3 server afs01.dfw.openstack.org partition /vicepa RW Site server afs01.dfw.openstack.org partition /vicepa RO Site server afs01.ord.openstack.org partition /vicepa RO Site ...
Remove the R/O replicas (you can also see these with
vos listvol -server afs0[1|2].dfw.openstack.org
):vos remove -server afs01.dfw.openstack.org -partition a -id mirror.foo.readonly vos remove -server afs02.dfw.openstack.org -partition a -id mirror.foo.readonly
Remove the R/W volume:
vos remove -server afs02.dfw.openstack.org -partition a -id mirror.foo
Reverse Proxy Cache
Each of the region-local mirror hosts exposes a limited reverse HTTP proxy on port 8080. These proxies run within the same Apache setup as used to expose AFS mirror contents. mod_cache is used to expose a white-listed set of resources (currently just RDO).
Currently they will cache data for up to 24 hours (Apache default)
with pruning performed by htcacheclean
once an hour to keep
the cache size at or under 2GB of disk space.
The reverse proxy is provided because there are some hosted resources that are not currently able to be practically mirrored. Examples of this include RDO (rsync from RDO is slow and they update frequently) and docker images (which require specialized software to run a docker registry and then sorting out how to run that on a shared filesystem).
Apache was chosen because we already had configuration management in place for Apache on these hosts. This avoids management overheads of a completely new service deployment such as Squid or a caching docker registry daemon.
No Outage Server Maintenance
afsdb0X.openstack.org
We have redundant AFS DB servers. You can take one down without causing a service outage as long as the other remains up. To do this safely:
root@afsdb01:~# bos shutdown afsdb01.openstack.org -wait -localauth
root@afsdb01:~# bos status afsdb01.openstack.org -localauth
Instance ptserver, temporarily disabled, currently shutdown.
Instance vlserver, temporarily disabled, currently shutdown.
Then perform your maintenance on afsdb01. When done a reboot will automatically restart the bos service or you can manually restart the openafs-fileserver service:
root@afsdb01:~# service openafs-fileserver start
Finally check that the service is back up and running:
root@afsdb01:~# bos status afsdb01.openstack.org -localauth
Instance ptserver, currently running normally.
Instance vlserver, currently running normally.
Now you can repeat the process against afsdb02.
afs0X.openstack.org
Taking down the actual fileservers is slightly more complicated but works similarly. Basically what we need to do is make sure that either no one needs the RW volumes hosted by a fileserver before taking it down or move the RW volume to another fileserver.
To ensure nothing needs the RW volumes you can hold the various file locks on hosts that publish to AFS and/or remove cron entries that perform vos releases or volume writes.
If instead you need to move the RW volume first step is checking where the volumes live:
root@afsdb01:~# vos listvldb -localauth
VLDB entries for all servers
mirror
RWrite: 536870934 ROnly: 536870935
number of sites -> 3
server afs01.dfw.openstack.org partition /vicepa RW Site
server afs01.dfw.openstack.org partition /vicepa RO Site
server afs01.ord.openstack.org partition /vicepa RO Site
We see that if we want to allow write to the mirror volume and take down afs01.dfw.openstack.org we will have to move the volume to one of the other servers:
root@afsdb01:~# screen # use screen as this may take quite some time.
root@afsdb01:~# vos move -id mirror -toserver afs01.ord.openstack.org -topartition vicepa -fromserver afs01.dfw.openstack.org -frompartition vicepa -localauth
When that is done (use listvldb command above to check) it is now safe to take down afs01.dfw.openstack.org while having writers to the mirror volume. We use the same process as for the db server:
root@afsdb01:~# bos shutdown afs01.dfw.openstack.org -localauth
root@afsdb01:~# bos status afsdb01.dfw.openstack.org -localauth
Auxiliary status is: file server shut down.
Perform maintenance, then restart as above and check the status again:
root@afsdb01:~# bos status afsdb01.dfw.openstack.org -localauth
Auxiliary status is: file server running.
DNS Entries
AFS uses the following DNS entries:
_afs3-prserver._udp.openstack.org. 300 IN SRV 10 10 7002 afsdb01.openstack.org.
_afs3-prserver._udp.openstack.org. 300 IN SRV 10 10 7002 afsdb02.openstack.org.
_afs3-vlserver._udp.openstack.org. 300 IN SRV 10 10 7003 afsdb01.openstack.org.
_afs3-vlserver._udp.openstack.org. 300 IN SRV 10 10 7003 afsdb02.openstack.org.
Be sure to update them if volume location and PTS servers change. Also note that only A (IPv4 address) records are used in the SRV data. Since OpenAFS lacks support for IPv6, avoid entering corresponding AAAA (IPv6 address) records for these so that it won't cause fallback delays for other v6-supporting AFS client implementations.