Clarify that only puppet apply needs to be iterated. Change-Id: I6bad606506dca3ba9a97a48f64c6283dea0b4404
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System Administration
System Administration
Our infrastructure is code and contributions to it are handled just like the rest of OpenStack. This means that anyone can contribute to the installation and long-running maintenance of systems without shell access, and anyone who is interested can provide feedback and collaborate on code reviews.
The configuration of every system operated by the infrastructure team is managed by Puppet in a single Git repository:
https://git.openstack.org/cgit/openstack-infra/system-config
All system configuration should be encoded in that repository so that anyone may propose a change in the running configuration to Gerrit.
Making a Change in Puppet
Many changes to the Puppet configuration can safely be made while only performing syntax checks. Some more complicated changes merit local testing and an interactive development cycle. The system-config repo is structured to facilitate local testing before proposing a change for review. This is accomplished by separating the puppet configuration into several layers with increasing specificity about site configuration higher in the stack.
The modules/ directory holds puppet modules that abstractly describe the configuration of a service. Ideally, these should have no OpenStack-specific information in them, and eventually they should all become modules that are directly consumed from PuppetForge, only existing in the system-config repo during an initial incubation period. This is not yet the case, so you may find OpenStack-specific configuration in these modules, though we are working to reduce it.
The modules/openstack_project/manifests/ directory holds configuration for each of the servers that the OpenStack project runs. Think of these manifests as describing how OpenStack runs a particular service. However, no site-specific configuration such as hostnames or credentials should be included in these files. This is what lets you easily test an OpenStack project manifest on your own server.
Finally, the manifests/site.pp file contains the information that is specific to the actual servers that OpenStack runs. These should be very simple node definitions that largely exist simply to provide private date from hiera to the more robust manifests in the openstack_project modules.
This means that you can run the same configuration on your own server simply by providing a different manifest file instead of site.pp.
Note
The example below is for Debian / Ubuntu systems. If you are using a RedHat based system be sure to setup sudo or simply run the commands as the root user.
As an example, to run the etherpad configuration on your own server, start by ensuring git is installed and then cloning the system-config Git repo:
sudo su -
apt-get install git
git clone https://git.openstack.org/openstack-infra/system-config
cd system-config
Then copy the etherpad node definition from manifests/site.pp to a new file (be sure to specify the FQDN of the host you are working with in the node specifier). It might look something like this:
# local.pp
class { 'openstack_project::etherpad':
database_password => 'badpassword',
sysadmins => ['user@example.org'],
}
Note
Be sure not to use any of the hiera functionality from manifests/site.pp since it is not installed yet. You should be able to comment out the logic safely.
Then to apply that configuration, run the following from the root of the system-config repository:
./install_puppet.sh
./install_modules.sh
puppet apply -l /tmp/manifest.log --modulepath=modules:/etc/puppet/modules manifests/local.pp
That should turn the system you are logged into into an etherpad
server with the same configuration as that used by the OpenStack
project. You can edit the contents of the system-config repo and iterate
puppet apply
as needed. When you're ready to propose the
change for review, you can propose the change with git-review. See the
Development
workflow section in the Developer's Guide for more information.
Adding a New Server
To create a new server, do the following:
Add a file in
modules/openstack_project/manifests/
that defines a class which specifies the configuration of the server.Add a node entry in
manifests/site.pp
for the server that uses that class.If your server needs private information such as passwords, use hiera calls in the site manifest, and ask an infra-core team member to manually add the private information to hiera.
You should be able to install and configure most software only with puppet. Nonetheless, if you need SSH access to the host, add your public key to
modules/openstack_project/manifests/users.pp
and include a stanza like this in your server class:realize ( User::Virtual::Localuser['USERNAME'], )
Add an RST file with documentation about the server in
doc/source
and add it to the index in that directory.
SSH Access
For any of the systems managed by the OpenStack Infrastructure team, the following practices must be observed for SSH access:
- SSH access is only permitted with SSH public/private key authentication.
- Users must use a strong passphrase to protect their private key. A passphrase of several words, at least one of which is not in a dictionary is advised, or a random string of at least 16 characters.
- To mitigate the inconvenience of using a long passphrase, users may want to use an SSH agent so that the passphrase is only requested once per desktop session.
- Users private keys must never be stored anywhere except their own workstation(s). In particular, they must never be stored on any remote server.
- If users need to 'hop' from a server or bastion host to another machine, they must not copy a private key to the intermediate machine (see above). Instead SSH agent forwarding may be used. However due to the potential for a compromised intermediate machine to ask the agent to sign requests without the users knowledge, in this case only an SSH agent that interactively prompts the user each time a signing request (ie, ssh-agent, but not gnome-keyring) is received should be used, and the SSH keys should be added with the confirmation constraint ('ssh-add -c').
- The number of SSH keys that are configured to permit access to OpenStack machines should be kept to a minimum.
- OpenStack Infrastructure machines must use puppet to centrally manage and configure user accounts, and the SSH authorized_keys files from the openstack-infra/system-config repository.
- SSH keys should be periodically rotated (at least once per year). During rotation, a new key can be added to puppet for a time, and then the old one removed. Be sure to run puppet on the backup servers to make sure they are updated.
GitHub Access
To ensure that code review and testing are not bypassed in the public Git repositories, only Gerrit will be permitted to commit code to OpenStack repositories. Because GitHub always allows project administrators to commit code, accounts that have access to manage the GitHub projects necessarily will have commit access to the repositories. Therefore, to avoid inadvertent commits to the public repositories, unique administrative-only accounts must be used to manage the OpenStack GitHub organization and projects. These accounts will not be used to check out or commit code for any project.
Root only information
Some information is only relevant if you have root access to the system - e.g. you are an OpenStack CI root operator, or you are running a clone of the OpenStack CI infrastructure for another project.
Backups
Off-site backups are made to two servers:
- ci-backup-rs-ord.openstack.org
- ci-backup-hp-az1.openstack.org
Puppet is used to perform the initial configuration of those machines, but to protect them from unauthorized access in case access to the puppet git repo is compromised, it is not run in agent or in cron mode on them. Instead, it should be manually run when changes are made that should be applied to the backup servers.
To start backing up a server, some commands need to be run manually on both the backup server, and the server to be backed up. On the server to be backed up:
ssh-keygen -t rsa -f /root/.ssh/id_rsa -N ""
And then ''cat /root/.ssh/id_rsa.pub'' for use later.
On the backup servers:
sudo su -
BUPUSER=bup-<short-servername> # eg, bup-jenkins-dev
useradd -r $BUPUSER -s /bin/bash -m
cd /home/$BUPUSER
mkdir .ssh
cat >.ssh/authorized_keys
and add this to the authorized_keys file:
command="BUP_DEBUG=0 BUP_FORCE_TTY=3 bup server",no-port-forwarding,no-agent-forwarding,no-X11-forwarding,no-pty <ssh key from earlier>
Switching back to the server to be backed up, run:
ssh $BUPUSER@ci-backup-rs-ord.openstack.org
ssh $BUPUSER@ci-backup-hp-az1.openstack.org
And verify the host key. Note this will start the bup server on the remote end, you will not be given a pty. Use ^D to close the connection cleanly. Add the "backup" class in puppet to the server to be backed up.
Restore from Backup
On the server that needs items restored from backup become root, start a screen session as restoring can take a while, and create a working directory to restore the backups into. This allows us to be selective in how we restore content from backups:
sudo su -
screen
mkdir /root/backup-restore-$DATE
cd /root/backup-restore-$DATE
At this point we can join the tar that was split by the backup cron:
bup join -r bup-<short-servername>@ci-backup-rs-ord.openstack.org: root > backup.tar
At this point you may need to wait a while. These backups are stored on servers geographically distant from our normal servers resulting in less network throughput between servers than we are used to.
Once the bup join
is complete you will have a tar
archive of that backup. It may be useful to list the files in the backup
tar -tf backup.tar
to get an idea of what things are
available. At this point you will probably either want to extract the
entire backup:
tar -xvf backup.tar
ls -al
Or selectively extract files:
# path/to/file needs to match the output given by tar -t
tar -xvf backup.tar path/to/file
Note if you created your working directory in a path that is not excluded by bup you will want to remove that directory when your work is done. /root/backup-restore-* is excluded so the path above is safe.
Launching New Servers
New servers are launched using the launch/launch-node.py
tool from the git repository
https://git.openstack.org/openstack-infra/system-config
.
This tool is run from a checkout on the puppetmaster - please see launch/README
for detailed
instructions.
Cinder Volume Management
Adding a New Device
If the main volume group doesn't have enough space for what you want to do, this is how you can add a new volume.
Log into puppetmaster.openstack.org and run:
. ~root/cinder-venv/bin/activate
. ~root/ci-launch/cinder.sh
nova list
cinder list
Add a new 1024G cinder volume (substitute the hostname and the next number in series for NN):
cinder create --display-name "HOSTNAME.openstack.org/mainNN" 1024 nova volume-attach <server id> <volume id> auto
or to add a 100G SSD volume:
cinder create --volume-type SSD --display-name "HOSTNAME.openstack.org/mainNN" 100 nova volume-attach <server id> <volume id> auto
Then, on the host, create the partition table:
DEVICE=/dev/xvdX sudo parted $DEVICE mklabel msdos mkpart primary 0% 100% set 1 lvm on sudo pvcreate ${DEVICE}1
It should show up in pvs:
$ sudo pvs PV VG Fmt Attr PSize PFree /dev/xvdX1 lvm2 a- 1024.00g 1024.00g
Add it to the main volume group:
sudo vgextend main ${DEVICE}1
Creating a New Logical Volume
Make sure there is enough space in the volume group:
$ sudo vgs
VG #PV #LV #SN Attr VSize VFree
main 4 2 0 wz--n- 2.00t 347.98g
If not, see Adding a New Device.
Create the new logical volume and initialize the filesystem:
NAME=newvolumename
sudo lvcreate -L1500GB -n $NAME main
sudo mkfs.ext4 -m 0 -j -L $NAME /dev/main/$NAME
sudo tune2fs -i 0 -c 0 /dev/main/$NAME
Be sure to add it to /etc/fstab
.
Expanding an Existing Logical Volume
Make sure there is enough space in the volume group:
$ sudo vgs
VG #PV #LV #SN Attr VSize VFree
main 4 2 0 wz--n- 2.00t 347.98g
If not, see Adding a New Device.
The following example increases the size of a volume by 100G:
NAME=volumename
sudo lvextend -L+100G /dev/main/$NAME
sudo resize2fs /dev/main/$NAME