Anthony Romano c8a2c7f64f *: eschew you from documentation | 7 years ago | |
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.. | ||
.gitignore | 9 years ago | |
30-etcd2-backup-restore.conf | 9 years ago | |
README.md | 7 years ago | |
build | 9 years ago | |
etcd2-backup-install | 9 years ago | |
etcd2-backup.service | 9 years ago | |
etcd2-backup.timer | 9 years ago | |
etcd2-join | 9 years ago | |
etcd2-join.service | 9 years ago | |
etcd2-restore.go | 8 years ago | |
etcd2-restore.service | 9 years ago |
Remote backup and multi-node restore services for etcd2 clusters on CoreOS Linux.
Warning: This package is only intended for use on CoreOS Linux.
Founding member : The node which is the first member of the new recovered cluster. It is this node's rclone backup data (only) that will be used to restore the cluster. The rest of the nodes will join the cluster with no data, and simply catch up with the founding member.
Before installing etcd2-backup, configure 30-etcd2-backup-restore.conf
:
[Service]
Environment="ETCD_RESTORE_MASTER_ADV_PEER_URLS=<http://host:port>"
Environment="RCLONE_ENDPOINT=remote-name:path/to/backups"
Assuming a deployment to CoreOS with etcd2, only change:
ETCD_RESTORE_MASTER_ADV_PEER_URLS
This is the new advertised peer url of the new etcd2 node that will be the founding member of the new restored cluster. We will call this node the founding member.
RCLONE_ENDPOINT
The rclone endpoint to which backups will be stored.
Feel free to point any number of machines at the same RCLONE_ENDPOINT, path and all. Backups for each machine are stored in a sub-folder named with the machine ID (%m in systemd parlance)
./rclone.conf
The rclone configuration file which will be installed. Must list a [section]
which matches RCLONE_ENDPOINT
's remote-name component.
An easy way to generate this config file is to install rclone on a local machine. Then follow the configuration instructions to generate an rclone.conf
file.
To adjust backup frequency, edit ./etcd2-backup.timer
Once those things are configured, run ./build
.
The build
script generates a tarball for copying to CoreOS instances. The tarball contains the etcd2-backup-install
script.
After extracting the contents of the tar file and running the install script, three new systemd services are added. One service, etcd2-backup
, performs periodic etcd backups, while the other two services, etcd2-restore
and etcd2-join
, handle restore procedures.
etcd2-backup.service
A oneshot service which calls etcdctl backup
and syncs the backups to the rclone endpoint (using an rclone container, of course). etcd2-backup.timer
is responsible for periodically running this service.
etcd2-restore.service
A oneshot service which wipes all etcd2 data and restores a single-node cluster from the rclone backup. This is for restoring the founding member only.
etcd2-join.service
A oneshot service which wipes all etcd2 data and re-joins the new cluster. This is for adding members after the founding member has succesfully established the new cluster via etcd2-restore.service
This assumes that the cluster has lost quorum and is not recoverable. Otherwise try to heal the cluster first.
Two factors contribute to the relative freshness or staleness of a backup. The etcd2-backup.timer
takes a backup every 30 seconds by default, and the etcd snapshot-count
option controls how many transactions are committed between each write of the snapshot to permanent storage. Given those parameters, we can compute the upper bound on the outdatedness of a backup.
Assumptions:
1000 transactions / second
etcd2-backup.timer
is configured for a 30 second intervaletcd2 snapshot-count=10000
max-missed-seconds= (10000 transactions / (1000 transactions / second)) + 30 seconds = 40 seconds
Make sure etcd2.service
and etcd2-backup.timer
are stopped on all nodes in the cluster
Restore the founding member by starting etcd2-restore.service
and then, if successful, etcd2.service
Restore the rest of the cluster one at a time. Start etcd2-join.service
, and then, if successful, etcd2.service
. Please verify with etcdctl cluster-health
that the expected set of nodes is present and healthy after each node joins.
Verify that the data is sane (enough). If so, kick off etcd2-backup.timer
on all nodes and, hopefully, go back to bed.
It is necessary to change the cluster's founding member in order to restore a cluster from any other node's data.
Change the value of ETCD_RESTORE_MASTER_ADV_PEER_URLS
in 30-etcd2-backup-restore.conf
to the advertised peer url of the new founding member. Repeat the install process above on all nodes in the cluster, then proceed with the recovery procedure.
Let's pretend that we have an initial 3 node CoreOS cluster that we want to back up to S3.
ETCD_NAME | ETCD_ADVERTISED_PEER_URL |
---|---|
e1 | http://172.17.4.51:2379 |
e2 | http://172.17.4.52:2379 |
e3 | http://172.17.4.53:2379 |
In the event that the cluster fails, we want to restore from e1
's backup
[Service]
Environment="ETCD_RESTORE_MASTER_ADV_PEER_URLS=http://172.17.4.51:2379"
Environment="RCLONE_ENDPOINT=s3-testing-conf:s3://etcd2-backup-bucket/backups"
The ./rclone.conf
file must contain a [section]
matching RCLONE_ENDPOINTS
's remote-name component.
[s3-testing-conf]
type = s3
access_key_id = xxxxxxxx
secret_access_key = xxxxxx
region = us-west-1
endpoint =
location_constraint =
cd etcd2-backup
./build
scp etcd2-backup.tgz core@e1:~/
ssh core@e1
e1 $ mkdir -p ~/etcd2-backup
e1 $ mv etcd2-backup.tgz etcd2-backup/
e1 $ cd etcd2-backup
e1 $ tar zxvf ~/etcd2-backup.tgz
e1 $ ./etcd2-backup-install
# Only do the following two commands if this node should generate backups
e1 $ sudo systemctl enable etcd2-backup.timer
e1 $ sudo systemctl start etcd2-backup.timer
e1 $ exit
Now e1
's etcd data will be backed up to s3://etcd2-backup-bucket/backups/<e1-machine-id>/
according to the schedule described in etcd2-backup.timer
.
Repeat the process for e2
and e3
. To stop a node from generating backups, omit enabling and starting etcd2-backup.timer
.
Let's assume that a mischievous friend decided it would be a good idea to corrupt the etcd2 data-dir on ALL of the nodes (e1
,e2
,e3
). Simply restore the cluster from e1
's backup.
Here's how to recover:
# First, ENSURE etcd2 and etcd2-backup are not running on any nodes
for node in e{1..3};do
ssh core@$node "sudo systemctl stop etcd2.service etcd2-backup.{timer,service}"
done
ssh core@e1 "sudo systemctl start etcd2-restore.service && sudo systemctl start etcd2.service"
for node in e{2..3};do
ssh core@$node "sudo systemctl start etcd2-join.service && sudo systemctl start etcd2.service"
sleep 10
done
After e2 and e3 finish catching up, the cluster should be back to normal.
The same friend who corrupted the etcd2 data-dirs decided that to have more fun. This time, the friend dumps coffee on the machines hosting e1
, e2
and e3
. There is a horrible smell, and the machines are dead.
Luckily, there's a new 3-node etcd2 cluster ready to go, along with the S3 backup for e1
from the old cluster.
The new cluster configuration looks like this. Assume that etcd2-backup is not installed. (If it is, make sure it's not running on any nodes)
ETCD_NAME | ETCD_ADVERTISED_PEER_URL |
---|---|
q1 | http://172.17.8.201:2379 |
q2 | http://172.17.8.202:2379 |
q3 | http://172.17.8.203:2379 |
We will assume q1
is the chosen founding member, though picking any node is fine.
First, copy the backup from e1
's backup folder to q1
's backup folder. I will show the S3 example.
# Make sure to remove q1's backup directory, if it exists already
aws s3 rm --recursive s3://etcd2-backup-bucket/backups/<q1-machine-id>
aws s3 cp --recursive s3://etcd2-backup-bucket/backups/<e1-machine-id> s3://etcd2-backup-bucket/backups/<q1-machine-id>
[Service]
Environment="ETCD_RESTORE_MASTER_ADV_PEER_URLS=http://172.17.8.201:2379"
Environment="RCLONE_ENDPOINT=s3-testing-conf:s3://etcd2-backup-bucket/backups"
Since this is a new cluster, each new node will have a new machine-id
and will not clobber the backups from the old cluster, even though RCLONE_ENDPOINT
is the same for both the old e
cluster and the new q
cluster.
We first want to install the configured etcd2-backup package on all nodes, but not start any services yet.
cd etcd2-backup
./build
for node in q{1..3};do
scp etcd2-backup.tgz core@$node:~/
ssh core@$node "mkdir -p ~/etcd2-backup"
ssh core@$node "mv etcd2-backup.tgz etcd2-backup/"
ssh core@$node " cd etcd2-backup"
ssh core@$node " tar zxvf ~/etcd2-backup.tgz"
ssh core@$node " ./etcd2-backup-install"
done
With q1
as the founding member.
# First, make SURE etcd2 and etcd2-backup are not running on any nodes
for node in q{1..3};do
ssh core@$node "sudo systemctl stop etcd2.service"
done
ssh core@q1 "sudo systemctl start etcd2-restore.service && sudo systemctl start etcd2.service"
for node in q{2..3};do
ssh core@$node "sudo systemctl start etcd2-join.service && sudo systemctl start etcd2.service"
sleep 10
done
After confirming the cluster has migrated properly, start and enable etcd2-backup.timer
on at least one node.
ssh core@q1 "sudo systemctl enable etcd2-backup.service && sudo systemctl start etcd2-backup.service"
There should now be periodic backups going to: s3://etcd2-backup-bucket/backups/<q1-machine-id>
sleep 10
commands that follow starting etcd2-join.service
and then etcd2.service
. This sleep is there to allow the member that joined to cluster time to catch up on the cluster state before we attempt to add the next member. This involves sending the entire snapshot over the network. If the dataset is large, the network between nodes is slow, disks are already bogged down, or the system is otherwise overutilized, try increasing the sleep.In the case of large data sets, it is recommended to copy the data directory produced by etcd2-restore
on the founding member to the other nodes before running etcd2-join
on them. This will avoid etcd transferring the entire snapshot to every node after it joins the cluster.